RU2530667C2 - Medical syringe - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment and aims at administering drugs into a human body. A medical injection syringe consists of a cylinder with a tip for the attachment of an injection needle and a piston rod and a finger support. At the finger support, the rod comprises a part presented in the form of an elongated bar with transverse projections or grooves on its outer side, and making an integral part with the rod. The part in the form of the elongated bar is parallel to the rod and spaced from it so that placing the piston rod in the cylinder in the working position arranges it from the outer side of a cylinder wall and mounts it along. Also, the syringe structure enables performing medical manipulations both for administering drugs into a patient's organs and tissues, and removing the pathological fluids therefrom with one hand. This provides avoiding the need to change hands holding the syringe, as well as makes another hand free to enable simultaneous manipulations with the other equipment.

EFFECT: invention enables facilitating health care staff's labour and reducing the patient's pain when performing the painful medical procedures, and making undesired complications less probable.

2 cl, 5 dwg

Description

The invention relates to the field of medical technology, namely to devices and devices for administering drugs to the human and animal body.

In the field of medical technology, such a device for parenteral administration of drugs into the human and animal body as a medical syringe is widely known. This device is a hollow transparent cylinder made of glass or plastic with a tip for attaching an injection needle at one end, inside of which there is a metal or plastic piston with a rod tightly adjacent to the cylinder walls, at the end of which a finger rest is made. This device allows using the pressure created by the human muscle power and applied to the piston, to introduce liquid drugs into the blood vessels, muscles, under the skin or in the skin of humans and animals. In addition, this device through the creation of negative pressure under the influence of the same muscle strength allows you to remove pathological fluids from various cavities of the human body and animals. Most manipulations with the syringe are carried out using the fingers of a person. Before the injection (injection) of a medicinal product, it must be placed in the cylinder cavity by immersing the tip of the cylinder with or without a needle on it in a liquid preparation and, drawing out the piston, create a lower pressure in the cylinder than in the environment, while the liquid under the influence the pressure difference begins to flow into the cylinder cavity. In this case, the human hand carries out manipulations due to the design of the syringe, which has not undergone major changes since its invention. When collecting a drug, one hand locks the syringe barrel, the other locks and pulls the piston rod toward itself, thereby creating negative pressure in the cylinder under the piston. All of the above manipulations with the syringe are carried out with the participation of both hands of the health care provider, while there is a need to somehow fix also the vessel (ampoule, vial) from which the fluid is taken. Thus, often the problem of a shortage of the “third hand” arises, well known to experienced medical professionals. This problem is partially solved by the fact that at the end of the cylinder of a traditional syringe, where the piston rod comes out of the cylinder, a thickening in the form of a roller or protrusion is carried out and in which the paramedic abuts with one of the fingers of the hand, releasing the rod stop back with the remaining fingers of the same hand. Similar manipulations are carried out during the collection of biological fluids from the human or animal body. When the drug is injected into the tissue and the body’s environment by pressing the stop made at the end of the piston rod, positive pressure is created in the syringe barrel that pushes the liquid contents of the barrel through the hollow injection needle into the patient’s tissue or body environment. In this case, in the case of an injection with one hand, a roller or a stop at the end of the cylinder is also used. The use of a roller or an emphasis on the end of the cylinder during the injection process requires certain skills from the medical professional and is not always possible in a specific situation.

A device for a refillable medical syringe with a glass cylinder and a piston with a chrome steel rod () is known. In order to facilitate one-handed manipulation, this syringe has a bulge at the end of the cylinder in the form of a roller for abutting the fingers when collecting liquid contents into the cylinder (drug, exudate) and during injection. When collecting fluid, the medical worker rests the thumb on the roller, and with the other fingers clamps the piston rod, then removes the thumb from the remaining four fingers clenched into a fist. During the injection after the injection needle is inserted into the patient’s body tissue (muscle, vein), the medical worker clamps the cylinder between the index and middle fingers, and presses the thumb against the piston rod. However, these manipulations require a high degree of flexibility on the part of the medical worker, which is not always possible, as well as the need to constantly change the hand holding the syringe itself, depending on the stages of the injection procedure as a whole, which lengthens the time of the invasive and painful procedure, thereby increasing the risk excessive damage to the tissues of the patient’s body and its suffering. At the same time, the development of additional devices that facilitate and accelerate the injection is difficult due to the fact that under the conditions of use of reusable syringes, these devices will also need sterilization, as well as the syringes themselves, which will significantly increase the labor costs for servicing the device and make their implementation pointless because that a decrease in labor costs at one stage of the procedure will cause their increase at another.

In the field of computer technology, a USB flash drive device (Transcend JetFlash 760 (TS16GJF760)), better known as a "flash drive", with a retractable connector, is known. In the idle state, in order to be more compact, as well as to prevent pollution or damage, the connector is hidden in the housing of the USB drive. To bring it into working condition, the connector is pushed out of the housing by the action of the thumb on the key located on the side of the housing in a special longitudinal groove. The body of the USB drive is held by the other four fingers. However, this device is used in an area far from medicine.

A device for a disposable medical syringe is also known as a prototype. In contrast to a reusable syringe, said syringe is made of plastic, while the syringe barrel is made of transparent plastic. The materials used for the production of a disposable syringe, as well as the technology for its manufacture, namely injection molding, make it possible to significantly reduce the cost of its production, which, in turn, allows it to be used once and in bulk. However, the design of the disposable syringe is no different from the design of the reusable and the manipulations with it are absolutely identical to the manipulations with the reusable, and therefore have the same disadvantages.

The technical task is to create a disposable medical syringe, the design of which will allow for manipulations with it with one hand, which will facilitate the work of the medical worker and increase the safety of invasive medical procedures for the patient.

The essence of the proposed device is that, unlike the prototype, in the design of a traditional disposable medical syringe, consisting of a cylinder with a tip for attaching an injection needle and a rod with a piston and an emphasis for fingers, one part is added, which is a bar with transverse protrusions from the outside side and connected to the piston in the area of the palm rest. The bar connected to the piston is designed in such a way that when the piston is inserted into the cylinder, it is located on the outside of the cylinder parallel to its axis and adjoins to it with its inner side. This allows the operator, having fixed the syringe with four fingers of his hand, to enter into it by suction or to withdraw from it by pumping liquid, acting on the bar connected to the piston with the fifth finger, thus performing all manipulations with one hand.

The essence of the device is illustrated in the drawing, where Fig. 1 shows a syringe with a bar in projections from above and from the side, Fig. 2 shows a diagram of the operation of the device when collecting fluid into the syringe under the influence of the thumb, Fig. 3 shows a diagram of the operation of the device when collecting fluid the syringe under the influence of the index finger, in Fig.4 and Fig.5 shows a diagram of the operation of the device when the liquid is expelled from the syringe under the influence of the thumb and index finger, respectively.

In Fig. 1, the proposed syringe, consisting of a cylinder 1 with a tip for attaching an injection needle 6 and a rod with a piston 4 and with an emphasis for fingers 5, is equipped with a longitudinal bar 2 with transverse protrusions 3 made on it. fingers 5 is a whole and is located outside the cylinder 1 parallel to its axis. Alternatively, you can perform the strap 2 and the palm rest 5 detachable, connected by a locking device.

Manipulations with the proposed syringe are as follows. When the liquid is sucked into the syringe, the operator fixes the cylinder 1 in the palm of his hand, grasping it from below with the index, middle, ring fingers and little finger, as shown in Fig. 2, while resting the thumb on one of the protrusions 3 on the bar 2. Pulling up the thumb on itself in the direction of the arrow, it acts by means of the strap 2 and the palm rest 5 connected to it on the piston of the syringe 4, causing it to move backward. In this case, a negative pressure is created in the cavity of the cylinder 1 behind the piston 4, which causes the suction fluid to move into the cavity of the cylinder 1. There is also a second way to manipulate the suction of fluid into a syringe with a different arrangement of the fingers of the operator’s hand, shown in FIG. 3, which consists in the following . The cylinder of the syringe 1 is fixed in the operator’s hand by the thumb, middle and ring fingers from above, while one of the protrusions 3 of the strap 2 rests on the index finger, which, when moving toward itself, as indicated by the arrow, also causes the piston 4 to move backwards in the cylinder 1, creating again still in the cavity of the cylinder 1 is negative pressure and causing the fluid to move inside it.

When the fluid is expelled from the syringe, cylinder 1 is fixed in the operator’s hand in the same way as in the suction procedure, in one of two ways, as shown in FIG. 4 and FIG. 5. The expulsion is also carried out with the thumb or forefinger, respectively, by abutting a finger against one of the protrusions 3 of the strap 2 and pressing away in the direction of the arrow. In this case, through the bar 2 and the finger rest 5, the force is transmitted to the piston of the syringe 4, as a result of which positive pressure is created in the cavity of the cylinder 1 behind the piston 4, under the influence of which the liquid leaves the cylinder 1 through the tip with the needle 6.

The specified device of the syringe allows for injection procedures in the complex, without requiring an extra change of hands at different stages of the procedure. In particular, during intravenous injection, in order to verify that the injection needle is in the blood vessel, it is first necessary to move the piston back, as shown in Fig. 2, while blood should appear in cylinder 1, which serves as a signal that the needle is in place, and then the piston must be moved forward, as shown in FIG. 4, by introducing the contents of cylinder 1 into the vein of the patient. In this case, the change of hand holding the syringe is not required, nor is the participation of the second hand required.

Features of the manufacturing technology of the proposed syringe may require separate manufacturing of the strap 2 and the piston 4 with an emphasis on the fingers 5. In this case, it is possible to manufacture these parts with a device such as a latch, fixing them together as a result of a separate technological operation.

In addition, in some cases, the use of a syringe may require strap 2 without protruding parts. To meet this requirement, it is possible to produce a strap 2, on the outer surface of which, instead of the transverse protrusions 3, transverse grooves are made.

The proposed syringe does not require special materials, can be manufactured using known technical means and provides a technical result. Therefore, it has technical applicability.

Claims (2)

1. Medical injection syringe, consisting of a cylinder with a tip for attaching an injection needle and a rod with a piston and an emphasis for fingers, characterized in that on the rod in the area of the palm rest is made a part in the form of an elongated bar with transverse protrusions or grooves on its outer side , and the component with the rod is a single unit located parallel to the rod at a certain distance from it so that when the rod with the piston is placed in the cylinder in working condition, it is on the outside of the cylinder wall and is located along it. 2. Medical injection syringe according to claim 1, characterized in that the elongated bar is made in the form of a separate part attached to the rod in the area of the palm rest using a locking device.

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