WO2009066281A2 - Flexible glove - Google Patents

Abstract

The present invention provides a rotating or an electroshocking glove made of non-toxic, durable flexible materials that provide both bacterial and vial protection. The glove is used for sexual activities and relaxation.

Description

FLEXIBLE GLOVE

CROSS REFERENCE TO RELATED APPLICATIONS

[001] This Application claims the benefit of United States Provisional Application Serial Number 60/988,824, filed November 19, 2007, which is hereby incorporated by reference in its entirety.

FIELD OF THE INVENTION

[002] The present invention provides a flexible glove comprised of a water proof material and vibrating elements or electroshocking means.

BACKGROUND QF THE INVENTION

[003] Single layer surgical gloves, commonly made from latex rubber or vinyl plastic, have been long used by surgeons and health care workers to protect patients from bacteria inevitably present on the worker's hands. The gloves also protect from contamination. Risking contamination, particularly contamination by bacterial and viral diseases is of a great concern. These diseases include staphylococcus, hepatitis and the deadly acquired immune deficiency syndrome (AIDS).

[004] Vibrators are devices intended to vibrate against the body and stimulate the nerves for a relaxing and pleasurable feeling. Some vibrators are designed to be inserted in a body cavity for erotic stimulation.

[005] Vibrators often allow people to achieve orgasm faster and easier and are often said to provide stronger orgasms than those produced by manual stimulation alone. They are often recommended by sex therapists for women who have difficulty reaching orgasm by other means. Couples also use them sometimes as an enhancement to the pleasure of one or both partners.

[006] Some vibrators run on batteries while others have a power cord that plugs into a wall socket. There is also a vibrator called Vortex Vibrations that uses the flow of air from a vacuum cleaner to stimulate the clitoris. SUMMARY OF THE INVENTION

[007] Ih one embodiment, the invention provides a flexible glove comprising at least a single layer of water proof material and at least a single rotating device or an electric shocking device embedded or partially embedded within the glove.

[008] In another embodiment, the invention further provides a flexible glove comprising at least a single layer of a bacterial and viral proof material and at least a single rotating device or an electric shocking device embedded or partially embedded within the glove.

[009] In another embodiment, the invention further provides a flexible glove comprising at least a single layer of a material which is body fluids proof and at least a single rotating device or an electric shocking device embedded or partially embedded within the glove.

[0010] In another embodiment, the invention further provides a flexible glove comprising at least a single layer of a HIV proof material and at least a single rotating device or an electric shocking device embedded or partially embedded within the glove.

[0011] In another embodiment, the invention further provides a flexible glove comprising a puncture-resistant and tactile sensation transmitting construction, wherein the glove comprises:

(a) a continuous central layer formed of a flexible, resilient and puncture-resistant first material having a dense matrix of spaced walls distributed throughout the layer, said walls defining a skeleton with a large number of closely spaced closed cells distributed throughout the layer; and

(b) continuous inner and outer flexible, resilient and imperforate contamination barrier layers; and (c) a rotating device or an electric shocking device embedded or partially embedded within said glove.

[0012] In another embodiment, the invention further provides a flexible glove comprising at least a single layer of a HIV proof material and at least a single rotating device or an electric shocking device embedded or partially embedded within the glove.

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] Figure 1. is a schematic representation of a silicon glove (1). Element 2 is a vibrating device placed on or within the silicon material which forms the finger portion (3). The glove is equipped with a communication/power/control box (4) placed on the wrist. [0014] Figure 2. is a schematic representation of a silicon glove (1). Element 5 is an electroshocking element placed on or within the silicon material which forms the finger portion. The glove is equipped with a communication/power/control box (4) placed on the wrist. ^•

[0015] Figure 3. is a schematic representation of a silicon glove (1). Element 6 is a protruding element placed on or within the silicon material which forms the finger portion which comprises a vibrating device at the tip. The glove is equipped with a communication/power/control box (4) placed on the wrist.

[0016] Figure 4. is a schematic representation of a silicon glove (1). Element 5 is an electroshocking element placed on or within the silicon material. Element 2 is a vibrating device placed on or within the silicon material which forms the finger portion (3). Element 7 is a fin- like shape of a protruding element (6). The glove is equipped with a communication/power/control box (4) placed on the wrist.

[0017] Figure 5. is a schematic representation of a silicon glove (1). Element 2 is a vibrating device placed on or within the silicon material which forms the finger portion and throughout the surface of the glove. Element 8 is the wiring system providing electrical power to the vibrating device (2). Element 9 is an on/off switch controlling power to the vibrating device (2). The glove is equipped with a communication/power/control box (4) placed on the wrist. Element 4 comprises elements 10, 13, and 16. Element 10 is a power box housing an AC connector and a USB port. Element 13 is a control panel which control the speed, frequency, and the strength of the vibrating device (2). Element 16 is a power box housing a battery and a battery charger.

[0018] Figure 6. is a schematic representation of a silicon glove (1). Element 2 is a vibrating device placed on or within the silicon material which forms the finger portion and throughout the surface of the glove. Element 8 is the wiring system providing electrical power to the vibrating device (2). The glove is equipped with a communication/power/control box (4) placed on the wrist. Element 4 comprises elements 10, 11, 14, and 15. Element 10 is a power box housing an AC connector and a USB port. Element 14 is a preset program controller panel which control the speed, frequency, and the strength of the vibrating device (2).

[0019] Figures 7-9. are schematic control diagram. Element 9 is an on/off switch controlling power to the vibrating device. Element 10 is a power box housing an AC connector and a USB port. Element 12 is a USB/internet connection/RS232/ connector. Element 14 is a preset program controller panel which control the speed, frequency, and the strength of the vibrating device (2). Element 16 is a power box housing a battery and a battery charger. Element 17 is a transformation device enabling the use of the glove from 100-250 volts.

[0020] Figure 10. is a schematic representation of a foot glove (1). Element 5 is an electroshocking element placed on or within the silicon material which forms the finger portion. The glove is equipped with a communication/power/control box (4) placed on the wrist.

[0021] Figure 11. is a schematic representation of a glove (1). Element 2 is a vibrating device placed on or within the silicon material which forms the finger portion. Element 20 is the connector to the removable comprising a vibrating device (2).

[0022] Figure 12. is a schematic representation of a glove having at least on finger portion housing two fingers. The battery (19) supplies electrical power to the vibrating devices (2) via a wiring system (8).

[0023] Figure 13. is a schematic representation of a glove. Figures 13 A and 13 B show vibrators position on the glove. The wiring system embedded within the flexible layer. Element 18 is the vibrating device cavity housing the vibrating device (2). Figure 13 C exemplifies the location of the vibrating device and the wiring system (8) connecting to a battery (19) on a bare hand.

[0024] Figure 14. is a schematic representation of a side section of the glove showing the tunnels (21) housing the wiring systems. Power box is element 16. The tunnels 21 are embedded within the flexible layer

[0025] Figure 14. is a schematic representation of a glove with different a protruding elements (6).

[0026] Figure 14. is a schematic representation of a glove showing an embodiment of the communication/power/control box (4) with an on/off switch (9).

DETAILED DESCRIPTION OF THE INVENTION

[0027] In one embodiment, the present invention provides a flexible glove comprising at least a single layer of water proof material and at least a single rotating device or an electric shocking device embedded or partially embedded within said glove. In another embodiment, the present invention provides a flexible glove comprising at least a single layer of water proof material and at least a single vibrating device or an electric shocking device embedded or partially embedded within said glove. In another embodiment, the invention provides that a flexible glove is a glove used for sexual arousal. In another embodiment, the invention provides that a flexible glove is a glove used for induction of orgasm. In another embodiment, the invention provides that a flexible glove is a device used for contacting subject's skin with a vibrating means. In another embodiment, the invention provides that a flexible glove is a device used for contacting subject's body surface with a vibrating means. In another embodiment, the invention provides that a flexible glove is a glove used for induction of sperm ejaculation. Ih another embodiment, the invention provides that a flexible glove is a glove used for mental relaxation. In another embodiment, the invention provides that a flexible glove is a glove used for physical relaxation. In another embodiment, the invention provides that a flexible glove is a glove used for sexual relaxation. In another embodiment, the invention provides that a flexible glove attains sexual pleasure. In another embodiment, the invention provides that a flexible glove is utilized for masturbation. In another embodiment, the invention provides that a flexible glove is utilized for autoeroticism. In another embodiment, the invention provides that a flexible glove is utilized for the induction of milk production. In another embodiment, the invention provides that a flexible glove is utilized by a lactating female for the induction of milk production. In another embodiment, the invention provides that a flexible glove is utilized for the induction of milk production in a farm animal.

[0028] In another embodiment, the terms device and element are used interchangeably.

[0029] In another embodiment, a flexible glove comprises: (1) at least a single layer of: (a) a water proof material; or (b) a bacterial, viral, or bacterial and viral proof material; or (c) a body fluids proof material; and (2) at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within the glove. In another embodiment, a flexible glove comprises: (1) at least a single layer of: (a) a water proof material; or (b) a bacterial, viral, or bacterial and viral proof material; or (c) a body fluids proof material; and (2) at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within at least a single layer.

[0030] In another embodiment, a flexible glove comprises: at least a single layer of: a water proof and a bacterial, viral, or bacterial and viral proof material and at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within the glove. In another embodiment, a flexible glove comprises: at least a single layer of: a water proof and a bacterial, viral, or bacterial and viral proof material and at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within at least a single layer.

[0031] In another embodiment, a flexible glove comprises: at least a single layer of: a water proof and body fluids proof material; and at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within the glove. In another embodiment, a flexible glove comprises: at least a single layer of: a water proof and body fluids proof material; and at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within at least a single layer.

[0032] In another embodiment, a flexible glove comprises: at least a single layer of: a bacterial and body fluids proof material; and at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within the glove. In another embodiment, a flexible glove comprises: at least a single layer of: a bacterial and body fluids proof material; and at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within at least a single layer.

[0033] In another embodiment, a flexible glove comprises: at least a single layer of: a viral and body fluids proof material; and at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within the glove. In another embodiment, a flexible glove comprises: at least a single layer of: a viral and body fluids proof material; and at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within at least a single layer.

[0034] Li another embodiment, body fluids comprise blood, semen, cowper's fluid, female ejaculate fluid, interstitial fluid, lymph, menses, breast milk, saliva, mucus, pleural fluid, sweat, tears, urine, or vaginal lubrication.

[0035] In another embodiment, comprises a body fluids proof material. In another embodiment, a body fluids proof material covers the entire surface are of the glove.

[0036] In another embodiment, a flexible glove is an elastic glove. In another embodiment, a flexible glove is a resilient glove. In another embodiment, a flexible glove is a supple glove. In another embodiment, a flexible glove is a stretchable glove. In another embodiment, a flexible glove is a glove capable of being extended and/or expanded.

[0037] In another embodiment, element 01 in the figures is a silicon glove. In another embodiment, element 01 in the figures is a glove comprising a water resistant material. In another embodiment, element 01 in the figures is a glove comprising an oil resistant material. In another embodiment, element 01 in the figures is a glove comprising a bacterial resistant material. In another embodiment, a bacterial resistant material is a material providing a physical barrier for bacteria between the skin of a hand and the environment. In another embodiment, element 01 in the figures is a glove comprising a viral resistant material. In another embodiment, a viral resistant material is a material providing a physical barrier for viruses between the skin of a hand and the environment.

[0038] In another embodiment, element 02 in the figures is a rotating device. In another embodiment, element 02 is a vibrating device. In another embodiment, element 02 is a vibrating motor. In another embodiment, element 02 is a vibrator. In another embodiment, element 02 provides vibrations. In another embodiment, element 02 is an electrical motor. In another embodiment, a rotating device is a vibrating device.

[0039] In another embodiment, element 03 in the figures is a finger portion. In another embodiment, a finger portion covers a finger. In another embodiment, a finger portion provides physical barrier between the skin of a finger and the environment. In another embodiment, a physical barrier prevents bacteria and/or viruses contamination on the skin of a finger. In another embodiment, a physical barrier prevents movement of bacteria and/or viruses from the environment out side the glove or finger portion into or onto the skin covered by the glove and/or finger portion. In another embodiment, a physical barrier prevents penetration of bacteria and/or viruses from the environment out side the glove or finger portion into or onto the skin covered by the glove and/or finger portion.

[0040] In another embodiment, element 04 in the figures is a communication, power and control device or devices. In another embodiment, communication, power and control device or devices are electrical devices. In another embodiment, the communication device is an electrical cord. In another embodiment, the control device controls the duration and/or strength of vibration generated by element 2. In another embodiment, the control device controls each vibrating device (02) located on the glove (01).

[0041] In another embodiment, element 05 in the figures is an electroshocking element. In another embodiment, element 01 comprises electroshocking elements (05) and vibrating device (02) and/or rotating device.

[0042] In another embodiment, element 06 embodies perturbations that enhance sensation. In another embodiment, element 07 is fin perturbation and is an embodiment of element 06.

[0043] In another embodiment, wiring (08) provides electrical conductance and/or communication between element 02 and the power source. In another embodiment, wiring (08) provides electrical conductance and/or communication between element 02 and the control (04). In another embodiment, wiring (08) provides electrical conductance and/or communication between element 05 and the control (04).

[0044] In another embodiment, element 09 is a power switch. In another embodiment, element 09 is a control switch. In another embodiment, element 10 is a computer connecting cable. In another embodiment, element 10 is a USB cable. In another embodiment, element 10 is a wire connection. In another embodiment, element 10 is an electrical wire connection. In another embodiment, element 10 is a computer wire connection. In another embodiment, element 10 is a socket. In another embodiment, element 10 is an electrical socket. In another embodiment, element 12 is a USB connection. In another embodiment, element 12 is a RS232 connection. In another embodiment, element 12 is a GPS connection. In another embodiment, element 13 is a mechanical controller. In another embodiment, element 14 is a program controller. . In another embodiment, element 15 is a speed controller. In another embodiment, element 16 is a battery. In another embodiment, element 16 is a rechargeable battery. In another embodiment, element 16 is an electrical transformer. In another embodiment, element 19 is a computer or a PDA. . In another embodiment, element 20 is a supplemental part.

[0045] In another embodiment, element 4 comprises element 9. In another embodiment, element 4 comprises element 10. In another embodiment, element 4 comprises element 11. In another embodiment, element 4 comprises element 12. In another embodiment, element 4 comprises element 13. In another embodiment, element 4 comprises element 14. In another embodiment, element 4 comprises element 15. In another embodiment, element 4 comprises element 16.

[0046] In another embodiment, element 4 comprises a Chip. In another embodiment, element 4 comprises a Chip on board. In another embodiment, element 4 comprises a printed circuit. In another embodiment, element 4 comprises a CPU.

[0047] In another embodiment, the invention provides that a flexible glove is a glove used for sexual relaxation. In another embodiment, the invention provides that a flexible glove allow the user to achieve orgasm faster. In another embodiment, the invention provides that a flexible glove allow the user to achieve orgasm easier. In another embodiment, the invention provides that a flexible glove allow the user to achieve a stronger orgasm than those produced by manual stimulation alone. In another embodiment, the invention provides that a flexible glove is used by women. In another embodiment, the invention provides that a flexible glove is used by men. In another embodiment, the invention provides that a flexible glove is recommended by sex therapists for women. In another embodiment, the invention provides that a flexible glove is recommended by sex therapists for men. In another embodiment, the invention provides that a flexible glove is recommended by sex therapists for people having difficulty reaching orgasm by other means. In another embodiment, the invention provides that a flexible glove is used by couples as an enhancement to the pleasure of one or both partners. In another embodiment, the invention provides that a flexible glove is used by one subject on another subject. In another embodiment, the invention provides that a flexible glove is operated by one subject to sexually please another subject.

[0048] In another embodiment, the invention provides that a flexible glove is used for medical purposes. In another embodiment, the invention provides that a flexible glove is used for therapeutic purposes. In another embodiment, the invention provides that a flexible glove is used stimulate blood flow. In another embodiment, the invention provides that a flexible glove is used to stimulate the nervous system. In another embodiment, the invention provides that a flexible glove is used to stimulate the nerves at a designated site on subject's body.

[0049] In another embodiment, the invention provides that a flexible glove is used to stimulate sperm production. In another embodiment, the invention provides that a flexible glove is used to stimulate human sperm production. In another embodiment, the invention provides that a flexible glove is used to stimulate animal sperm production. In another embodiment, the invention provides that a flexible glove is used to stimulate farm animal sperm production. In another embodiment, the invention provides that a flexible glove is used to stimulate milk production. In another embodiment, the invention provides that a flexible glove is used to stimulate human milk production. In another embodiment, the invention provides that a flexible glove is used to stimulate animal milk production. In another embodiment, the invention provides that a flexible glove is used to stimulate farm animal milk production.

[0050] In another embodiment, a flexible glove comprises a water proof material. In another embodiment, a flexible glove comprises a viral proof material. In another embodiment, a flexible glove comprises a Human Immuno deficiency Virus (HIV) proof material. In another embodiment, a flexible glove comprises a bacterial proof material. In another embodiment, a flexible glove comprises a Herpes Virus proof material. In another embodiment, a flexible glove comprises a Papilloma Virus proof material.

[0051] In another embodiment, a flexible glove covers the hand of a human. In another embodiment, a flexible glove comprises separate sheaths or openings for each finger or finger portion and the thumb. In another embodiment, a flexible glove comprises opening but no covering sheath for each finger and is termed "fmgerless gloves". In another embodiment, a flexible glove is a fmgerless also termed gauntlet. In another embodiment, a flexible glove covers the entire hand but do not have separate finger portions or sheaths and is termed a mitten.

[0052] In another embodiment, a flexible glove is a hybrid of glove and mitten. In another embodiment, a hybrid flexible glove contains open-ended portion for the four fingers (as in a fmgerless glove, but not the thumb) and also an additional compartment encapsulating the four fingers as a mitten would. In another embodiment, this compartment can be lifted off the fingers and folded back to allow the individual fingers ease of movement and access" while the hand remains covered. In another embodiment, a flexible glove comprises a gauntlet that extends partway up the arm.

[0053] In another embodiment, a glove covers the feet and it least one toe. In another embodiment, a flexible glove covers all toes. In another embodiment, a glove covering a feet comprises separate toe portions. In another embodiment, a glove covers the entire feet and comprises a sock like appearance.

[0054] In another embodiment, a flexible glove of the present invention is double sided thus can be used for both hands by reversing the inner and outer portions of the glove. In another embodiment, a flexible glove of the present invention comprises a different texture that can be changed by reversing the inner and outer portions of the glove. In another embodiment, a flexible glove of the present invention comprises a at least two colors that can be changed by reversing the inner and outer portions of the glove.

[0055] In another embodiment, the flexible glove of the present invention further comprises extensions. In another embodiment, the extensions protrude beyond the surface of the flexible layer. In another embodiment, the extensions are removable devices. In another embodiment, the extensions are rotating devices. In another embodiment, the extensions are vibrating devices. In another embodiment, the extensions are electroshocking devices. In another embodiment, the extension is a ring like structure. In another embodiment, the ring like structure comprises a vibrating element. In another embodiment, the ring is made of any material known ton a person of skill in the art. In another embodiment, the extensions placed on a finger portion. In another embodiment, the extension is hooked to a finger portion. In another embodiment, the extension is screwed to a finger portion. In another embodiment, the extension is placed under pressure on a finger portion. In another embodiment, the extension comprises a rod shape structure. In another embodiment, the extension comprises a ball shape structure. In another embodiment, the extension comprises any geometrical structure known to one of skill in the art. In another embodiment, the extension is comprised of a mixture of different geometrical structures. In another embodiment, the extension further comprises at least one rotating device. In another embodiment, the extension further comprises at least one vibrating device. In another embodiment, the extension further comprises at least one electroshocking device. In another embodiment, the extension further comprises at least one rotating device and at least one electroshocking device. In another embodiment, the extension comprises a spike like structure. In another embodiment, the extension comprises multiple spikes like structures. In another embodiment, the extension is made of a material of the invention. In another embodiment, the extension is made of glass. In another embodiment, the extension is made of a metal. In another embodiment, the extension is made of a ceramic. In another embodiment, the extension is made of cast. In another embodiment, the extension is made of stone. In another embodiment, the extension is made of wood. In another embodiment, the extension comprises its own power source. In another embodiment, the extension receives its power from the glove. In another embodiment, the extension further comprises a Light Emitting Diode. In another embodiment, the extension further comprises multiple Light Emitting Diods.

[0056] In another embodiment, a flexible glove is used for sexual pleasure and also to protect and/or comfort the hands of the wearer against transmitted diseases. In another embodiment, the flexible glove protects from bodily fluids. In another embodiment, a flexible glove is used for sexual pleasure and also to protect and/or comfort the hands of the wearer against sexually transmitted diseases. In another embodiment, a flexible glove is used for sexual pleasure and also to protect and/or comfort the hands of the wearer against physical damage by friction. In another embodiment, a flexible glove is used for sexual pleasure and also to protect and/or comfort the hands of the wearer against abrasion. In another embodiment, a flexible glove is used for sexual pleasure and contamination protection measures.

[0057] In another embodiment, a flexible glove is made of a single material. In another embodiment, a flexible glove is made of a multiple materials. In another embodiment, a flexible glove comprises latex. In another embodiment, a flexible glove comprises nitrile rubber. In another embodiment, a flexible glove comprises rubber with latex. In another embodiment, a flexible glove comprises vinyl. In another embodiment, a flexible glove comprises cloth. In another embodiment, a flexible glove comprises knitted or felted wool. In another embodiment, a flexible glove comprises leather. In another embodiment, a flexible glove comprises rubber. In another embodiment, a flexible glove comprises neoprene. In another embodiment, a flexible glove comprises metal. In another embodiment, a flexible glove comprises kevlar. In another embodiment, a flexible glove comprises materials that exhibit toughness and environmental protection with a degree of sensitivity and flexibility.

[0058] In another embodiment, a flexible glove comprises a Cyberskin. In another embodiment, Cyberskin mimics the feel of skin. In another embodiment, a flexible glove comprises UR3. In another embodiment, a flexible glove comprises NewSkin. In another embodiment, a flexible glove comprises Ultraskin. In another embodiment, a flexible glove comprises jelly. In another embodiment, a flexible glove comprises silicone. In another embodiment, a flexible glove comprises thermoplastic Rubber (TPR). In another embodiment, a flexible glove comprises neoprene. In another embodiment, a flexible glove comprises nitrile. In another embodiment, a flexible glove comprises polyurethane. In another embodiment, a flexible glove comprises a thermal plastic elastomer. Ih another embodiment, a flexible glove comprises a mixture of PVC and silicone. In another embodiment, a flexible glove comprises an elastomer. In another embodiment, a flexible glove comprises a mixture of PVC and rubber. In another embodiment, a flexible glove comprises vinyl. In another embodiment, a flexible glove comprises polyvinyl chloride and silicone. [0059] In another embodiment, a flexible glove comprises a tractor-tread grip. In another embodiment, a flexible glove comprises elevated abrasion. In another embodiment, a flexible glove is snag, tear, and puncture resistance. In another embodiment, a flexible glove comprises a fabric lining. In another embodiment, a flexible glove comprises a cotton-flock lining. In another embodiment, a flexible glove is acid resistant. In another embodiment, a flexible glove is alcohol resistant. In another embodiment, a flexible glove is oil resistant. In another embodiment, a flexible glove is caustic resistant. In another embodiment, a flexible glove is salt resistant. In another embodiment, a flexible glove is ketone resistant. In another embodiment, a flexible glove is detergent resistant. In another embodiment, a flexible glove is petroleum-based solvent resistant. In another embodiment, a flexible glove is animal fats resistant.

[0060] In another embodiment, a glove comprises a bisque finish. In another embodiment, the glove comprises multiple thicknesses. In another embodiment, a glove is ergonmic and comfortable. In another embodiment, the glove is 0.5 mm to 10 mm thick. In another embodiment, the glove is 0.5 mm to 5 mm thick. In another embodiment, the glove is 1 mm to 3 mm thick. In another embodiment, the glove is 2 mm to 5 mm thick. In another embodiment, the g ol- ove is 1.5 mm to 3 mm thick.

[0061] In another embodiment, a number of different European standards that relate to gloves are applied to the present invention. In another embodiment, the European standard BS EN388- Mechanical hazards including Abrasion, cut, tear and puncture is applied in the present invention. In another embodiment, the European standard BS EN374-2- Microorganisms is applied in the present invention. In another embodiment, the European standard BS EN374-3- Chemicals is applied in the present invention. In another embodiment, the European standard BS EN420- General requirements for gloves includes sizing and a number of health and safety aspects including latex and chromium levels, is applied in the present invention.

[0062] In another embodiment, a flexible glove is made of a metal wire. In another embodiment, a flexible glove comprises a butcher's glove. In another embodiment, a flexible glove comprises a barbed wire. Ih another embodiment, the flexible glove is disposable. In another embodiment, the flexible glove can be used multiple times. In another embodiment, the flexible glove is re-usable or disposable and is made of rubber. In another embodiment, the flexible glove is best worn with a fairly loose fit which allows for the hands to be ventilated and makes it easier to put the gloves on and take them off. In another embodiment, the palms and fingers have a raised pattern which helps to provide a good grip when used.

[0063] In another embodiment, the flexible glove comprises latex rubber. In another embodiment, the flexible glove comprises a flock lining. In another embodiment, the flexible glove comprises Polyvinyl Chloride aka PVC aka vinyl, nitrile, and neoprene.

[0064] In another embodiment, the flexible glove is further powdered. In another embodiment, the flexible glove is further lubricated. In another embodiment, the flexible glove is powdered with cornstarch. In another embodiment, the flexible glove is powdered with Lycopodium powder. In another embodiment, the flexible glove is powdered with talc. In another embodiment, the flexible glove is non-powdered. In another embodiment, the flexible glove is further lubricated with oil. In another embodiment, the flexible glove is further lubricated with Vaseline. In another embodiment, the flexible glove is further lubricated with any non-toxic lubricant known to one of skill in the art.

[0065] In another embodiment, a vibrating element (02) is embedded within the flexible glove. In another embodiment, a vibrating element (02) is partially embedded within the flexible glove. In another embodiment, a rotating element (02) is embedded within the flexible glove. In another embodiment, a rotating element (02) is partially embedded within the flexible glove. In another embodiment, an electroshocking element (05) is embedded within the flexible glove. In another embodiment, an electroshocking element (05) is partially embedded within the flexible glove.

[0066] In another embodiment, a vibrating element (02), an electroshocking element (05) or both provides vibrations and/or electroshocks to the wearer. In another embodiment, a vibrating element (02), an electroshocking element (05) or both provides vibrations and/or electroshocks to a person having a contact with the glove. In another embodiment, a vibrating element (02), an electroshocking element (05) or both provides vibrations and/or electroshocks to a skin portion in contact with the glove. In another embodiment, a vibrating element (02), an electroshocking element (05) or both provides vibrations and/or electroshocks to a sexual organ in contact with the glove.

[0067] In another embodiment, a flexible glove covers at least one finger. In another embodiment, a flexible glove comprises at least one finger portion. In another embodiment, a flexible glove comprises two finger portions. In another embodiment, a flexible glove comprises three finger portions. In another embodiment, a flexible glove comprises four finger portions. In another embodiment, a flexible glove comprises five finger portions. Ia another embodiment, a flexible glove comprises one finger portion and is termed a finger cot (or finger stool). In another embodiment, a flexible glove covers the web or palm of the hand.

[0068] In another embodiment, the invention provides different designs of flexible gloves. In another embodiment, the invention provides a multitude of colors. In another embodiment, the invention provides red, black, blue, white, yellow or pink flexible gloves. In another embodiment, the invention provides that a flexible glove is multi-colored.

[0069] In another embodiment, the invention provides that a flexible gloves comprises protrusions. In another embodiment, the invention provides that a flexible gloves comprises protrusions that transfer the vibrations or electroshocks more efficiently. In another embodiment, the invention provides that a flexible gloves comprises a different textures for surface play. In another embodiment, the invention provides that a flexible gloves comprises different textures at various locations. In another embodiment, the invention provides that a flexible gloves comprises a nubby texture.

[0070] In another embodiment, the invention provides that a flexible glove further comprises a power source. In another embodiment, the invention provides that the power source is an electrical power source. In another embodiment, the invention provides that the power source is an AC power source. In another embodiment, the invention provides that the power source is a DC power source. In another embodiment, the invention provides that the power source supplies electric power to the rotating device. In another embodiment, the invention provides that the power source supplies electric power to the vibrating device. In another embodiment, the invention provides that the power source supplies electric power to the electric shocking device. In another embodiment, the invention provides that the rotating device causes vibration. In another embodiment, the invention provides that the electric shocking device causes vibration. In another embodiment, the invention provides that the rotating device and/or electric shocking device act as a vibrating device. In another embodiment, the invention provides that the rotating device and/or electric shocking device act as a vibratin ¹Sg device for sexual stimulation.

[0071] In another embodiment, the invention provides that the power source comprises batteries. In another embodiment, the invention provides that the power source comprises solar cells. In another embodiment, the invention provides that the power source is connected to the flexible glove through an electric wire. In another embodiment, the invention provides that the power source further comprises a device that converts one form of electrical power to another desired form and voltage. In another embodiment, the invention provides that the device converts 120 or 240 volt AC supplied by a utility company to a well-regulated lower voltage DC for the flexible glove device. In another embodiment, the invention provides a switched-mode power supply. In another embodiment, the invention provides a linear regulator. In another embodiment, the invention provides rectifier. In another embodiment, the invention provides an inverter.

[0072] In another embodiment, the invention provides that the batteries are primary batteries that irreversibly transform chemical energy to electrical energy. In another embodiment, the invention provides that the batteries are secondary batteries that can be recharged, that is, have their chemical reactions reversed by supplying electrical energy to the cell, restoring their original composition.

[0073] In another embodiment, the primary battery is a Zinc-carbon battery. In another embodiment, the primary battery is a Zinc-chloride battery. In another embodiment, the primary battery is an alkaline battery. In another embodiment, the primary battery is a zinc- manganese dioxide battery. In another embodiment, the primary battery is a Lithium battery. In another embodiment, the primary battery is a lithium-copper oxide battery. In another embodiment, the primary battery is a lithium-iron disulfide battery. In another embodiment, the primary battery is a lithium-manganese dioxide battery. In another embodiment, the primary battery is a Mercury oxide battery. In another embodiment, the primary battery is a Zinc-air battery. In another embodiment, the primary battery is a Silver oxide battery. In another embodiment, the primary battery is a silver-zinc battery.

[0074] In another embodiment, the secondary battery is a NiMH battery. In another embodiment, the secondary battery is a NiCd battery. In another embodiment, the secondary battery is a Lithium ion battery.

[0075] In another embodiment, the battery is a 123 battery. In another embodiment, the battery is a 4.5 volts battery. In another embodiment, the battery is a 9 volts battery. In another embodiment, the battery is an A23 batter}'. In another embodiment, the battery is an AA battery. In another embodiment, the battery is an AAA battery. In another embodiment, the battery is an AAAA battery. In another embodiment, the battery is a C battery. In another embodiment, the battery is a CR927 battery. In another embodiment, the battery is a CRl 220 battery. In another embodiment, the battery is a CR1225 battery. In another embodiment, the battery is a CRl 620 battery. In another embodiment, the battery is a CR2016 battery. In another embodiment, the battery is a CR2025 battery. In another embodiment, the battery is a CR2032 battery. In another embodiment, the battery is a CR2450 battery. In another embodiment, the battery is a D battery. In another embodiment, the battery is a Duplex battery. In another embodiment, the battery is a J battery. In another embodiment, the battery is a lantern battery. In another embodiment, the battery is a SR41 battery. In another embodiment, the battery is a SR43 battery. In another embodiment, the battery is a SR48 battery. In another embodiment, the battery is a SR44 battery. In another embodiment, the battery is a SR54 battery. In another embodiment, the battery is a SR57 battery. In another embodiment, the battery is a SR60 battery. Li another embodiment, the battery is a SR66 battery.

[0076] In another embodiment, the power source comprises one battery. In another embodiment, the power source comprises at least one battery. In another embodiment, the power source comprises two batteries. In another embodiment, the power source comprises at least two batteries. In another embodiment, the power source comprises three batteries. In another embodiment, the power source comprises at least three batteries.

[0077] In another embodiment, the flexible glove is used to stimulate a female sex organ. In another embodiment, the flexible glove is used to stimulate a male sex organ. In another embodiment, the flexible glove is used to stimulate the clitoris. In another embodiment, the flexible glove is used to stimulate the labia. In another embodiment, the flexible glove is used to stimulate the anal area. In another embodiment, the flexible glove is used to stimulate penis.

[0078] In another embodiment, a flexible glove comprises a vibrator device which is a mechanical device that is designed to generate vibrations. Ih another embodiment, vibration is generated by an electric motor. In another embodiment, vibration is generated by an electric motor with an unbalanced mass on its driveshaft. In another embodiment, when the motor is switched on, the rotating weight resonates. [0079] In another embodiment, the vibration is sine sweep. In another embodiment, the vibration is random vibration. In another embodiment, the vibration is synthesized shock. In another embodiment, a sine sweep vibration profile typically starts vibrating at low frequency and increases in frequency at a set rate (measured in hertz per minute). In another embodiment, the amplitude (measured in gs) of the sine wave may increase or decrease as well. In another embodiment, a random vibration profile will excite different frequencies along a spectrum at different times.

[0080] In another embodiment, the vibration device rotates at 10-30000 RPM. In another embodiment, the vibration device rotates at 10-100 RPM. In another embodiment, the vibration device rotates at 100-150 RPM. Ih another embodiment, the vibration device rotates at 150-300 RPM. hi another embodiment, the vibration device rotates at 300-600 RPM. In another embodiment, the vibration device rotates at 600-1000 RPM. In another embodiment, the vibration device rotates adjustment wheel at 600-1500 RPM. In another embodiment, the vibration device rotates adjustment wheel at 1000-3000 RPM. In another embodiment, the vibration device rotates adjustment wheel at 3000-5000 RPM. In another embodiment, the vibration device rotates adjustment wheel at 5000-7500 RPM. In another embodiment, the vibration device rotates adjustment wheel at 7500-10000 RPM. In another embodiment, the vibration device rotates adjustment wheel at 10000-15000 RPM. In another embodiment, the vibration device rotates adjustment wheel at 15000-25000 RPM. hi another embodiment, the vibration device rotates adjustment wheel at 25000-30000 RPM.

[0081] In another embodiment, the vibration device comprises a starting voltage of 0.2- lOVmax. In another embodiment, the vibration device comprises a starting voltage of 0.2- lVmax. In another embodiment, the vibration device comprises a starting voltage of 1- 3Vmax. In another embodiment, the vibration device comprises a starting voltage of 2- 5Vmax. Ih another embodiment, the vibration device comprises a starting voltage of 5- lOVmax.

[0082] In another embodiment, the vibration device comprises a rated load current of 0.02- 5A. hi another embodiment, the vibration device comprises a rated load current of 0.02- 0.1A. hi another embodiment, the vibration device comprises a rated load current of 0.05- 1.15A. In another embodiment, the vibration device comprises a rated load current of 1-3A. In another embodiment, the vibration device comprises a rated load current of 3-5A. [0083] In another embodiment, the vibration device comprises a starting current of 0.02- 30Amax. In another embodiment, the vibration device comprises a starting current of 0.02- 0.15Amax. In another embodiment, the vibration device comprises a starting current of 0.1- 0.2Amax. In another embodiment, the vibration device comprises a starting current of 0.15- 0.3Amax. In another embodiment, the vibration device comprises a starting current of 0.3- 0.5Amax. In another embodiment, the vibration device comprises a starting current of 0.5- 2Amax. In another embodiment, the vibration device comprises a starting current of 2- 5Amax. In another embodiment, the vibration device comprises a starting current of 5- lOAmax. In another embodiment, the vibration device comprises a starting current of 10- 20Amax. In another embodiment, the vibration device comprises a starting current of 20- 30Amax.

[0084] In another embodiment, the vibration device is a mechanical device. In another embodiment, a mechanical device comprises a motor. In another embodiment, a mechanical device comprises at least one motor. In another embodiment, a mechanical device comprises two motors. In another embodiment, the vibration device is an electroshocking device. In another embodiment, electroshocking devices of the invention are known to one of skill in the art. In another embodiment, the vibration device is a pneumatic device. In another embodiment, pneumatic devices of the invention are known to one of skill in the art. In another embodiment, the vibration device is a hydraulic device. In another embodiment, hydraulic devices of the invention are known to one of skill in the art.

[0085] In another embodiment, the vibration device comprises a voltage of 0.5-18 Volts. In another embodiment, the vibration device comprises a voltage of 0.5-1.5 Volts. In another embodiment, the vibration device comprises a voltage of 1.5-3 Volts. In another embodiment, the vibration device comprises a voltage of 3-6 Volts. In another embodiment, the vibration device comprises a voltage of 5-10 Volts. In another embodiment, the vibration device comprises a voltage of 10-15 Volts. In another embodiment, the vibration device comprises a voltage of 12-18 Volts.

[0086] In another embodiment, the vibration device comprises a diameter of 1.2-50mm. Ih another embodiment, the vibration device comprises a diameter of 1.2-3mm. In another embodiment, the vibration device comprises a diameter of 3-5mm. In another embodiment, the vibration device comprises a diameter of 5- 10mm. In another embodiment, the vibration device comprises a diameter of 10- 15mm. In another embodiment, the vibration device comprises a diameter of 15-20mm. In another embodiment, the vibration device comprises a diameter of 20-25mm. In another embodiment, the vibration device comprises a diameter of 25-30mm. In another embodiment, the vibration device comprises a diameter of 8-20mm.

[0087] In another embodiment, the vibration device is 1.2-50mm long. In another embodiment, the vibration device is 1.2-3mm long. In another embodiment, the vibration device is 3-5mm long. In another embodiment, the vibration device is 5-10mm long. In another embodiment, the vibration device is 10-15mm long. In another embodiment, the vibration device is 15 -20mm long. In another embodiment, the vibration device is 20-25mm long. In another embodiment, the vibration device is 25-30mm long. In another embodiment, the vibration device is 8 -20mm long.

[0088] In another embodiment, the vibration device is 0.8-50mm high. In another embodiment, the vibration device is 0.8-2mm high. In another embodiment, the vibration device is 2-5mm high. In another embodiment, the vibration device is 5- 10mm high. In another embodiment, the vibration device is 10- 15mm high. In another embodiment, the vibration device is 15-20mm high. In another embodiment, the vibration device is 20-25mm high. In another embodiment, the vibration device is 25-30mm long. In another embodiment, the vibration device is 8-20mm high.

[0089] In another embodiment, the vibration device comprises insulated resistance of 0.5- 500Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 0.5-5Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 5-20Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 20-50Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 50-100Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 75-125Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 125-200Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 200-300Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 300-400Min MΩ. In another embodiment, the vibration device comprises insulated resistance of 400-500Min MΩ.

[0090] In another embodiment, the vibration device is a scar mirror adjustment assembly. In another embodiment, a scar mirror adjustment assembly comprises one or more motors. In another embodiment, a scar mirror adjustment assembly comprises gears adjustment wheels. adjustment wheel at 100 RPM.

[0091] This is a surplus product. It was obtained from a surplus store, from an inventory or from any other secondary source. You can expect this product to be in good' working condition, but it can show signs of being handled, snipped, repackaged etc. The supply of a surplus article can suddenly run out, or the price can change. Get it while it is available.

[0092] In another embodiment, a random vibration is as short at a millisecond up to several hours. In another embodiment, a random vibration lasts for about 1 millisecond to one second. In another embodiment, a random vibration lasts for about 1 second to 10 seconds. In another embodiment, a random vibration lasts for about 10 seconds to 20 seconds. In another embodiment, a random vibration lasts for about 20 seconds to 40 seconds. In another embodiment, a random vibration lasts for about 30 seconds to 60 seconds. In another embodiment, a random vibration lasts for about 50 seconds to 90 seconds. In another embodiment, a random vibration lasts for about 1 minute to 5 minutes. In another embodiment, a random vibration lasts for about 5 minutes to 15 minutes. In another embodiment, a random vibration lasts for about 10 minutes to 30 minutes. In another embodiment, a random vibration lasts for about 20 minutes to 60 minutes. In another embodiment, a random vibration lasts for about 30 minutes to 45 minutes.

[0093] In another embodiment, a synthesized shock pulse is a short duration high level vibration. In another embodiment, a synthesized shock pulse is calculated as a sum of many half-sine waves covering a range of frequencies. In another embodiment, a synthesized shock pulse lasts less than a second.

[0094] In another embodiment, the flexible glove comprises a vibrating means. In another embodiment, the terms vibrating means, vibrating device or rotating means are used interchangeably. In another embodiment, the flexible glove vibrating means comprises rotating means. In another embodiment, the flexible glove comprises a single vibrating means or device. In another embodiment, the flexible glove comprises a single electroshocking means or device. In another embodiment, the flexible glove comprises multiple vibrating means. In another embodiment, the flexible glove comprises multiple electroshocking means or devices. In another embodiment, the flexible glove comprises a vibrating means at the tip of the finger portion. In another embodiment, the flexible glove comprises an electroshocking means or device at the tip of the finger portion. In another embodiment, the flexible glove comprises a rotating and/or an electroshocking device located on back-of-hand side of the flexible glove. In another embodiment, the flexible glove comprises a rotating and/or an electroshocking device located near or at the deep palmer arch. In another embodiment, the flexible glove comprises a vibrating and/or an electroshocking device located near or at the deep palmer arch. In another embodiment, the flexible glove comprises a rotating and/or an electroshocking device located near or at the distal interphalangeal joints. In another embodiment, the flexible glove comprises a rotating and/or an electroshocking device located near or at the proximal interphalangeal joints. In another embodiment, the flexible glove comprises a vibrating and/or an electroshocking device located near or at the proximal interphalangeal joints. In another embodiment, the term near comprises a distance of up to 20 mm. In another embodiment, the term near comprises a distance of up to 30 mm. hi another embodiment, the term near comprises a distance of up to 5 mm. In another embodiment, the term near comprises a distance of up to 10 mm. In another embodiment, the term near comprises a distance of up to 3 mm.

[0095] In another embodiment, the vibrating means or device gets its buzz from an electrically powered oscillator. In another embodiment, vibrations come from an electric motor attached to a rotating disk, with its weight placed off-center. In another embodiment, the faster the motor turns, the higher the vibrator frequency. In another embodiment, the motor is a solenoid. In another embodiment, solenoid electricity passing through a coil of wire forces a metal slug to vibrate rapidly back and forth. In another embodiment, the speed of vibration is 20-80 hertz oscillations. In another embodiment, the speed of vibration is 30- 80 hertz oscillations. Ih another embodiment, the speed of vibration is 40-70 hertz oscillations. In another embodiment, the speed of vibration is 50-70 hertz oscillations. In another embodiment, the vibrating device can run at a spectrum of speeds. In another embodiment, the vibrating device can run at only one, two or three speed settings.

[0096] In another embodiment, the vibrating device comprises adjustments to increase the strength of the vibrations. In another embodiment, the vibrating device comprises adjustments to increase the strength of the vibrations independently of the speed. In another embodiment, the vibrating device power is adjusted by changing how hard a subject presses the vibrating device located within the flexible glove or attached to the flexible glove against a subject's body.

[0097] In another embodiment, the vibrating device comprises resonances. In another embodiment, increasing the speed of a continuously variable model increase the power of the vibrations. In another embodiment, increasing the speed of a continuously variable model decrease the power of the vibrations depending on whether you are approaching or passing the resonance. In another embodiment, the power of the vibrations will slowly increase as a subject turns up the speed, then reach a maximum at the resonance frequency, and slowly fall as the subject continue to turn it up.

[0098] Ih another embodiment, vibrations are controlled with damping. In another embodiment, changing how tightly a subject grips a flexible glove comprising a vibrating means changes the amount of damping, allowing a subject to modulate the speed and intensity. In another embodiment, inserting or contacting a flexible glove or a portion thereof comprising a vibrating device into a vagina or anus changes the speed as the soft tissue touching the vibrator absorbs energy. In another embodiment, contacting a penis with a flexible glove or a portion thereof comprising a vibrating device changes the speed as the soft tissue touching the vibrator absorbs energy.

[0099] In another embodiment, damping is adjustable for comfortable use in the anus or vagina and on a hard penis or clitoris. In another embodiment, a rigid clitoris or penis comprises much less damping than softer and more enveloping anal and vaginal tissue.

[00100] In another embodiment, springs are used as an oscillator. In another embodiment, pendulums are used as an oscillator. In another embodiment, a pendulum comprises of a weight at the end of a rod or string. In another embodiment, a pendulum will swing at a rate determined by its length, regardless of the amount of weight on the end. In another embodiment, a long pendulum swings slowly, and a short pendulum swings quickly. In another embodiment, a pendulum's frequency is adjusted by changing its length.

[00101] In another embodiment, the vibrator's rotation function is continuous. In another embodiment, the vibrator's rotation function is increased. In another embodiment, the vibrator's rotation function is decreased. In another embodiment, the vibrator's rotation function is in a loop sequence. In another embodiment, the vibration speed ranges from slow to fast. In another embodiment, the vibration speed offers variety of frequencies in between. In another embodiment, the flexible glove comprises a vibrator control attached to the glove. In another embodiment, the flexible glove comprises a vibrator control within the glove. In another embodiment, the control allows users to change the mode of vibration. [00102] In another embodiment, the control allows the vibrating means to rotate continuously. In another embodiment, the control allows the vibrating means to increase the frequency of vibration. In another embodiment, the control allows the vibrating means to decrease the frequency of vibration. Ih another embodiment, the control allows different setting for each vibrating means of the flexible glove. In another embodiment, the control allows different setting for region comprising vibrating means in the flexible glove. In another embodiment, the control allows the vibrating means to automatically increase rotation speed and then decrease rotation speed. In another embodiment, the control allows the vibrating means to play in a loop of sequence of increasing and decreasing frequency of rotation. In another embodiment, the control allows the vibrating means to increase the frequency of vibration. In another embodiment, the control allows two or more tempos of vibration frequency. In another embodiment, the control allows to set a time for each vibrating mode.

[00103] In another embodiment, the vibrating devices are attached to the flexible glove. In another embodiment, the vibrating devices are comprised within the flexible glove. Ih another embodiment, the vibrating devices are embedded within the flexible glove. In another embodiment, the vibrating devices are laminated to the flexible glove. In another embodiment, the vibrating devices are encapsulated with in the flexible glove.

[00104] In another embodiment, each vibrating device is attached, comprised within, and/or encapsulated to the anterior side of the distal portion of one of the fingers (i.e., a fingertip Portion) such that at least one finger comprises at least one vibrating device. In another embodiment, each vibrating device is attached, comprised within, and/or encapsulated to the anterior side of the distal portion of one of the fingers (i.e., a fingertip Portion) such that each finger comprises at least one vibrating device. In another embodiment, each vibrating device is located proximate to the palm. In another embodiment, in a flexible glove comprised of more than a single layer, each vibrating device is located in between the inner shell layer and the outer shell layer.

[00105] In another embodiment, each vibrating device is electrically connected an electrical circuit. In another embodiment, each vibrating device is electrically connected to the distal end of an electrical circuit. In another embodiment, each vibrating device comprises housing. In another embodiment, each vibrating device comprises and a motor for vibrating the housing. [00106] In another embodiment, the flexible glove comprises a base controller that falls into the "standard base" category. In another embodiment, the base controller comprises of a cap at the bottom that can be removed by twisting it in a counterclockwise rotation. In another embodiment, the base controller comprises two parts - one part that twists onto the vibrator shaft, and another part that is used to adjust the vibration levels.

[00107] In another embodiment, the flexible glove comprises small vibratory elements or motors are affixed within the glove on the palm side thereof rather than the back-of-hand side of the glove. The vibratory motors are sufficiently small and lightweight that they do not interfere with the movement of the user's fingers and hand in traditional massaging force applications and movement.

[00108] In another embodiment, the flexible glove comprises vibratory elements affixed to the flexible glove. In another embodiment, the flexible glove comprises vibratory elements affixed to the glove interior within the fingers. Ih another embodiment, the flexible glove comprises vibratory elements affixed to the glove and on the palm side thereof. In another embodiment, a source of electrical power is provided to energize the vibratory motors via electrical leads running along the glove. In another embodiment, the electrical leads run along the glove in the interior thereof. In another embodiment, vibratory elements have when energized a multidirectional vibratory movement, they vibrate in three dimensions.

[00109] In another embodiment, a flexible glove further comprises an electrically powered heater so that heat as well as vibrations are applied a user. In another embodiment, the heater is supplied electrical power from a dedicated source of electrical power separate from a power source that energizes the vibratory elements.

[00110] Ih another embodiment, the vibratory elements preferably have a height less than about 0.45 inches. In another embodiment, the vibratory elements preferably have a height less than about 0.35 inches. In another embodiment, the vibratory elements preferably have a height less than about 0.25 inches. In another embodiment, the vibratory elements preferably have a height less than about 0.15 inches. In another embodiment, the vibratory elements preferably have a height less than about 0.10 inches. In another embodiment, flexible material that forms the exterior of the glove padding is provided so as to avoid harsh engagement between the glove and the massage recipient where the motors are located.

[00111] In another embodiment, the flexible glove comprises a multi-component Base. In another embodiment, the flexible glove comprises a remote battery pack. In another embodiment, the flexible glove is connected to a battery pack via an extension or power cord.

[00112] In another embodiment, the control is a dial mounted on the base. In another embodiment, the control is adjusted by turning the dial clockwise to turn up the vibrations, and counterclockwise to turn them down. In another embodiment, the control is a separate controller. In another embodiment, a separate controller is connected to the flexible glove with a cord, except in the case of remotely controlled vibrators.

[00113] In another embodiment, a switch or other control for applying electrical power from a power source includes an off position and two on positions. In one of the on positions power is applied via a contact, a switchable conduction path and conductors to apply one level of power to the vibratory means. In another embodiment, another contact on the switch is coupled with at least one circuit element, preferably a series resistance that limits the power applied to the vibratory motors. In another embodiment, the flexible glove can be switched to apply stronger or weaker vibrations to the massage recipient.

[00114] In another embodiment, puncture-resistant and tactile sensation transmitting construction is a flexible glove as described herein. In another embodiment, avoiding punctures and promoting tactile sensation is achieved by one of average skill in the art. In another embodiment, flexible elastic material promotes tactile sensation. In another embodiment, flexible elastic material is puncture-resistant. In another embodiment, thicker flexible, elastic, layers are more puncture-resistant. In another embodiment, certain combinations of materials provided herein enhance puncture-resistance. In another embodiment, certain combinations of materials provided herein enhance tactile sensation. In another embodiment, puncture-resistant is needle puncture-resistant. In another embodiment, puncture-resistant is nail puncture-resistant.

[00115] In another embodiment, provided herein a flexible glove comprising a puncture- resistant and tactile sensation transmitting construction, said glove comprising: (a) a continuous layer formed of a flexible, resilient and puncture-resistant material, wherein the layer is resilient and imperforate contamination barrier; and (b) a rotating device, vibrating device or an electric shocking device embedded or partially embedded within the layer. In another embodiment, provided herein a flexible glove comprising a puncture-resistant and tactile sensation transmitting construction, said glove comprising: (a) a continuous layer formed of a flexible, resilient and puncture-resistant material, wherein the layer is resilient and imperforate contamination barrier; and (b) a rotating device, vibrating device or an electric shocking device embedded or partially embedded within the glove.

[00116] In another embodiment, a flexible glove can be frequently cleaned. In another embodiment, a flexible glove is wash with adult toy cleaner or a mild soap and water solution before each use. In another embodiment, a flexible glove is wash with adult toy cleaner or a mild soap and water solution before after each use. In another embodiment, a flexible glove is wash with adult toy cleaner or a mild soap and water solution before and after each use.

[00117] In another embodiment, a flexible glove is used unlubricated. In another embodiment, a flexible glove is lubricated prior to use. In another embodiment, the lubricant is a water-based lubricant. In another embodiment, the lubricant is a water-based lube. In another embodiment, the lubricant is a silicone lube. In another embodiment, the lubricant is oil. In another embodiment, the lubricant is a petroleum-based lubricant. In another embodiment, the lubricant is water. In another embodiment, the lubricant is a lotion. Ih another embodiment, the lubricant is a cream. In another embodiment, the lubricant is an ointment. In another embodiment, the lubricant further comprises an anti-infective agent. In another embodiment, the lubricant further comprises an anti-bacterial agent. In another embodiment, the lubricant further comprises an anti-viral agent. In another embodiment, the lubricant is compatible with the material or materials from which the flexible glove is comprised from.

[00118] In another embodiment, the lubricant is pleasant tasting. In another embodiment, the lubricant is flavored. In another embodiment, the lubricant is long-lasting. In another embodiment, the lubricant is easy to clean. In another embodiment, the lubricant is Astroglide.

[00119] In another embodiment, the lubricant is a silicone-based lubricant. In another embodiment, the silicone-based lubricant does not contain any water. In another embodiment, the silicone-based lubricant is completely waterproof. In another embodiment, the silicone lubricants are not used with a flexible glove comprised of silicone, Cyberskin, latex, or a combination thereof. [00120] In another embodiment, the lubricant is an oil-based lubricant. In another embodiment, the lubricant comprises vegetable oil. In another embodiment, the lubricant is a petroleum-based lubricant. In another embodiment, the lubricant is made with mineral oil. In another embodiment, the lubricant is made with petroleum jelly. In another embodiment, the lubricant comprises Vaseline. In another embodiment, the lubricant comprises baby oil. In another embodiment, the lubricant comprises K-Y Jelly.

[00121] In another embodiment, the present invention provides a kit comprising a flexible glove of the invention. In another embodiment, the present invention provides a kit comprising a flexible glove of the invention and batteries. In another embodiment, the present invention provides a kit comprising a flexible glove of the invention and a lubricant. In another embodiment, the present invention provides a kit comprising a flexible glove of the invention and a cleaning material. In another embodiment, the present invention provides a kit comprising a flexible glove of the invention and printed instructions. Ih another embodiment, the present invention provides a kit comprising a flexible glove of the invention and printed instructions comprising the safety of a flexible glove. In another embodiment, the present invention provides a kit comprising a flexible glove of the invention and printed operation manual of the flexible glove. In another embodiment, the present invention provides a kit comprising a flexible glove of the invention and printed cleaning instructions. In another embodiment, the present invention provides a kit comprising a flexible glove of the invention and a warranty.

EXAMPLES

EXAMPLE 1: VIBRATING GLOVE WITH PARTIALLY EMBEDDED VIBRATING

DEVICES

[00122] A colorless silicon glove in 5 sizes is made. The gloves sizes are equivalent to latex surgical gloves sizes: extra small, small, medium, large, and extra large. The glove is equipped with a vibrating device (figure 1) partially embedded within the silicon material. Each finger portion is equipped with a single vibrating device. The glove is equipped with a power/control box providing 6 volts.

EXAMPLE 2: VIBRATING GLOVE WITH FULLY EMBEDDED VIBRATING

DEVICES [00123] A colorless silicon glove in 5 sizes is made. The gloves sizes are equivalent to latex surgical gloves sizes: extra small, small, medium, large, and extra large. The glove is equipped with a vibrating device (figure 1) fully embedded within the silicon material. Each finger portion is equipped with a single vibrating device. The glove is equipped with a power/control box providing 6 volts.

EXAMPLE 3: AM ELECTROSHOCKING GLOVE WITH PARTIALLY EMBEDDED VIBRATING DEVICES

[00124] A colorless silicon glove in 5 sizes is made. The gloves sizes are equivalent to latex surgical gloves sizes: extra small, small, medium, large, and extra large. The glove is equipped with an electroshocking element (figure 2) placed partially embedded within the silicon material. Each finger portion is equipped with a single vibrating device. The glove is equipped with a power/control box providing 6 volts.

Claims

What is claimed:

1. A flexible glove comprising: (1) at least a single layer of: (a) a water proof material; or (b) a bacterial, viral, or bacterial and viral proof material; or (c) a body fluids proof material; and (2) at least a single rotating device, vibrating device, or an electric shocking device embedded or partially embedded within said glove.

2. The glove of claim 1, wherein said viral proof material is a HIV proof material.

3. The glove of claim 1, wherein said glove comprises at least two finger portions.

4. The glove of claim 1, wherein said glove further comprises a power source.

5. The glove of claim 1, wherein said material comprises latex, polyisoprene, neoprene, nitrile, polyurethane, silicon, PVC, rubber, vinyl, polyvinyl chloride, a plastic elastomer, a thermal plastic elastomer, or any combination thereof.

6. The glove of claim 1, wherein said rotating, vibrating device, or said electroshocking device is located on back-of-hand side of said glove, near or at the deep palmer arch, near or at the distal interphalangeal joints, near or at the proximal interphalangeal joints, or any combination thereof.

7. A flexible glove comprising a puncture-resistant and tactile sensation transmitting construction, said glove comprising: (a) a continuous layer formed of a flexible, resilient and puncture-resistant material, said layer is resilient and imperforate contamination barrier; and (b) a rotating device, vibrating device or an electric shocking device embedded or partially embedded within said layer.

8. The glove of claim 7, wherein said construction is water proof, virus proof, bacterial proof, or any combination thereof.

9. The glove of claim 7, wherein said glove comprises at least two finger portions.

10. The glove of claim 7, wherein said glove further comprises a power source.

11. The glove of claim 7, wherein said construction comprises latex, polyisoprene, neoprene, nitrile, polyurethane, silicon, PVC, rubber, vinyl, polyvinyl chloride, a plastic elastomer, a thermal plastic elastomer, or any combination thereof.

12. The glove of claim 7, wherein said rotating, vibrating device, or said electroshocking device is located on back-of-hand side of said glove, near or at the deep palmer arch, near or at the distal interphalangeal joints, near or at the proximal interphalangeal joints, or any combination thereof.