CN114431827B

CN114431827B - Bracelet type pulse diagnosis instrument

Info

Publication number: CN114431827B
Application number: CN202011212716.XA
Authority: CN
Inventors: 颜士净; 陈文鋕; 邱显栋; 林钰锦
Original assignee: Donghua University
Current assignee: Donghua University
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2024-03-08
Anticipated expiration: 2040-11-03
Also published as: CN114431827A

Abstract

A bracelet-type pulse diagnosis instrument includes two pulse diagnosis instrument units. Each of the two pulse diagnosis instrument units includes a bracelet body, a pressure sensor, a first adjustment mechanism and a second adjustment mechanism. A coupling piece is provided at each end of the bracelet body, which can be used to selectively connect two pulse diagnosis instrument units, so that the two pulse diagnosis instrument units can be used together or separately. The pressure sensor passes through the first adjustment mechanism and the second adjustment mechanism. Movably arranged on the bracelet body. The pressure sensor can be adjusted in depth through the first adjustment mechanism so that the pressure sensor can move to the three pulse positions of floating, medium and sinking. The pressure sensor can be moved left and right through the second adjustment mechanism so that the pressure sensor can correspond to the three pulses of Cun Guan Chi. Bit. Therefore, it is easy to carry and wear, and it can also measure the energy of pulses in both hands at the same time.

Description

Bracelet type pulse diagnosis instrument

Technical Field

The application relates to a pulse-taking instrument, in particular to a bracelet-type pulse-taking instrument.

Background

Pulse diagnosis is an important diagnostic method for diagnosing diseases and monitoring curative effects in traditional Chinese medicine, and the pulse analysis is performed by placing three fingers (mainly index finger, middle finger and ring finger) of one hand on radial artery at wrist of a patient by a doctor, and applying different degrees of pressure to sense the reaction state of blood vessels of the patient under different pressures by using the fingers. The theoretical basis and clinical diagnostic value of pulse diagnosis are still questionable from the modern medical point of view, but from the traditional Chinese medicine point of view, the diagnostic information that pulse diagnosis can provide is undoubted. In the past, traditional Chinese medicine had to rely on experience and knowledge accumulation to diagnose pulses by hand, and the sensitivity of different doctors was different, which had great difficulty in delivering experience. In the prior art, the existing pulse diagnosis instrument is mostly large-scale instrument equipment, is not easy to carry and wear, and can not measure the pulse position Guan Che and floating and sinking, only can measure the pulse position for a single pulse position, and can not measure the pulse conditions of two hands simultaneously.

Disclosure of Invention

The technical problem to be solved in the application is to provide a bracelet type pulse diagnosis instrument which is easy to carry and wear and can measure pulse positions of Guan Che and floating middle and sinking and also can measure pulse conditions of two hands simultaneously aiming at the defects of the prior art.

In order to solve the above technical problem, the present application provides a bracelet-type pulse-taking device, which includes two pulse-taking device units, each of which includes: the hand ring body is provided with an inner edge and an outer edge, the inner edge and the outer edge are respectively positioned at two opposite sides of the hand ring body, the inner edge is bent, two ends of the hand ring body are respectively provided with a combining piece, and the combining pieces can be used for selectively connecting the two pulse-taking instrument units so that the two pulse-taking instrument units can be used together or used independently; a pressure sensor; a first adjusting mechanism; the pressure sensor is movably arranged on the bracelet body through the first adjusting mechanism and the second adjusting mechanism; the pressure sensor can be moved to the three pulse positions of floating, middle and sinking through the first adjusting mechanism, and can be moved to the left and right through the second adjusting mechanism, so that the pressure sensor can correspond to the three pulse positions of cun Guan Che.

Optionally, the first adjusting mechanism is a radial adjusting mechanism, so that the pressure sensor can be controlled to move and adjust along a radial direction of the bracelet body through the first adjusting mechanism, and the pressure sensor can perform the depth movement and adjustment.

Optionally, the first adjusting mechanism includes a screw and a nut, the screw and the nut are respectively connected to the pressure sensor and the bracelet body, and the screw and the nut are mutually screwed.

Optionally, the second adjusting mechanism is an axial adjusting mechanism, so that the pressure sensor can be controlled to move and adjust along an axial direction of the bracelet body through the second adjusting mechanism, and the pressure sensor can perform the left-right movement and adjustment.

Optionally, the second adjusting mechanism includes a slider and a sliding rail, where the slider and the sliding rail are respectively connected to the pressure sensor and the bracelet body, and the slider and the sliding rail are slidably matched, so that the pressure sensor can be moved and adjusted along the axial direction.

Optionally, each of the two pulse-taking units comprises an electrical connector electrically connected to the pressure sensor.

Optionally, a pulse-taking main board is disposed in the bracelet body, and the pulse-taking main board is electrically connected to the pressure sensor and the electrical connector.

Optionally, the bracelet body of the two pulse-taking instrument units is hollow semicircle, and when the two pulse-taking instrument units are combined for use, the two bracelet bodies are combined to form a ring shape.

Optionally, the combining pieces are magnetic attraction structures or buckling structures.

For a further understanding of the nature and the technical content of the present application, reference should be made to the following detailed description of the application and the accompanying drawings, which are provided for reference and illustration only and are not intended to limit the application.

Drawings

Fig. 1 is a perspective view of a bracelet-type pulse-taking device of the present application.

Fig. 2 is a schematic plan view of the bracelet-type pulse-taking device of the present application.

Fig. 3 is a schematic diagram (one) illustrating an adjustment state of the bracelet-type pulse-taking device according to the present application.

Fig. 4 is a schematic diagram (two) of an adjustment state of the bracelet-type pulse-taking device.

Detailed Description

Examples (example)

Referring to fig. 1 and 2, the present application provides a bracelet-type pulse-taking device, which includes two pulse-taking device units 100, wherein each of the two pulse-taking device units 100 includes a bracelet body 1, a pressure sensor 2, a first adjusting mechanism 3 and a second adjusting mechanism 4.

The bracelet body 1 may be made of plastic, the material of the bracelet body 1 is not limited, the bracelet body 1 may be hollow semicircle, for example, so that the bracelet bodies 1 of the two pulse diagnosis instrument units 100 may be combined into a ring shape so as to be hung on the wrist of a user. The bracelet body 1 has an inner edge 11 and an outer edge 12, the inner edge 11 and the outer edge 12 are respectively positioned at two opposite sides of the bracelet body 1, the inner edge 11 is curved, that is, the inner edge 11 can be curved in an arc shape. When the bracelet body 1 is hung on the wrist of a user, the inner edge 11 of the bracelet body 1 can face and be in close contact with the wrist of the user.

The two ends of the bracelet body 1 are respectively provided with a combining piece 13, and the combining piece 13 can be a magnetic attraction structure or a buckling structure and the like so as to connect the bracelet bodies 1 of the two pulse diagnosis instrument units 100 by utilizing the magnetic attraction or the buckling and the like, so that the two bracelet bodies 1 can be formed into a ring shape, and the two bracelet bodies 1 can be easily separated so as to combine or independently use the two pulse diagnosis instrument units 100, and the bracelet type pulse diagnosis instrument of the application can also measure the pulse conditions of the two hands simultaneously. In this embodiment, the coupling member 13 is a magnetic structure, and the coupling member 13 includes a magnet or an iron member so as to couple the bracelet body 1 by using a magnetic manner.

The pressure sensor 2 is a sensor capable of measuring pressure change, and the type of the pressure sensor 2 is not limited. The pressure sensor 2 is movably arranged on the bracelet body 1 through the first adjusting mechanism 3 and the second adjusting mechanism 4, the pressure sensor 2 is close to the middle of the bracelet body 1, and the pressure sensor 2 can perform depth movement adjustment and left-right movement adjustment so as to accurately measure pulse information.

The first adjusting mechanism 3 is a radial adjusting mechanism, and the first adjusting mechanism 3 can be manually adjusted, so that the pressure sensor 2 can be movably adjusted along a radial direction a of the bracelet body 1, and the pressure sensor 2 can be subjected to depth movement adjustment. In this embodiment, the first adjusting mechanism 3 includes a screw 31 and a nut 32, the screw 31 and the nut 32 are respectively connected to the pressure sensor 2 and the bracelet body 1, and the screw 31 and the nut 32 are mutually screwed. Therefore, the pressure sensor 2 can be moved and adjusted along the radial direction a (as shown in fig. 3) by the screw action of the screw 31 and the nut 32, and the pressure sensor 2 can protrude from the inner edge 11 of the bracelet body 1 to different depths. The depth movement of the pressure sensor 2 in this embodiment is designed to enable the pressure sensor 2 to slowly move to the three pulses of floating, middle and sinking in traditional Chinese medicine through a screw thread operation mechanism.

The second adjusting mechanism 4 is an axial adjusting mechanism, the second adjusting mechanism 4 can be manually adjusted, so that the pressure sensor 2 can be movably adjusted along an axial direction B of the bracelet body 1 (as shown in fig. 4), that is, the pressure sensor 2 can be controlled by the second adjusting mechanism 4 to move towards the width direction of the bracelet body 1, so that the pressure sensor 2 can be positioned at different positions in the axial direction B of the bracelet body 1, and the pressure sensor 2 can be horizontally moved and adjusted. In this embodiment, the second adjusting mechanism 4 includes a slider 41 and a sliding rail 42, the slider 41 and the sliding rail 42 are respectively connected to the pressure sensor 2 and the bracelet body 1, the slider 41 and the sliding rail 42 are slidably engaged, and the slider 41 can be connected to the pressure sensor 2 through the first adjusting mechanism 3, so that the pressure sensor 2 can be adjusted along the axial direction B through the sliding action of the slider 41 and the sliding rail 42. The pressure sensor 2 of the present embodiment moves left and right through a sliding operation mechanism, and the left and right movement can correspond to the three pulses of cun Guan Che in traditional Chinese medicine. The three-part nine-season of traditional Chinese medicine is actually measured by the manual mode of a middle doctor by taking cun, guan and chi as three parts and floating, middle and sinking as nine-season.

In this embodiment, the two pulse-taking units 100 further include an electrical connector 5, the electrical connector 5 is electrically connected to the pressure sensor 2, a pulse-taking motherboard 6 can be further disposed in the bracelet body 1, the pulse-taking motherboard 6 is a circuit board, the pulse-taking motherboard 6 is electrically connected to the pressure sensor 2 and the electrical connector 5, the pulse-taking motherboard 6 can be used for reading the pressure value captured by the pressure sensor 2, and the pressure value is continuously transmitted to the PC end through the electrical connector 5. In addition, the pulse-taking main board 6 reads the pressure value captured by the pressure sensor 2 and can also transmit the pressure value to the PC end in a wireless transmission mode.

Advantageous effects of the embodiment

The beneficial effects of this application lie in, the bracelet formula pulse-taking appearance that this application provided includes two pulse-taking appearance units, and this two pulse-taking appearance units respectively contain a bracelet body, a pressure sensor, a first guiding mechanism and a second guiding mechanism. The pressure sensor can be adjusted in depth movement through the first adjusting mechanism, so that the pressure sensor can be moved to three pulse positions of floating, middle and sinking, and can be adjusted in left and right movement through the second adjusting mechanism, and the pressure sensor can correspond to three pulse positions of cun Guan Che. Therefore, the bracelet type pulse diagnosis instrument is easy to carry and wear, and can measure the pulse position of the pulse Guan Che and the floating, middle and sinking pulse, and can also measure the pulse conditions of both hands simultaneously.

The hand ring type pulse diagnosis instrument combines medical expertise and through-loading equipment and digital signal processing technology, and the designed hand ring type pulse diagnosis instrument not only greatly improves pulse diagnosis sensitivity and convenience and measurement repeatability, but also provides great help for clinical Chinese medicine.

However, the above-mentioned embodiments are only preferred embodiments of the present application, and are not intended to limit the scope of the patent protection of the present application, so that all equivalent changes that are made in the content of the present application description and the accompanying drawings are included in the scope of the claims of the present application, and are hereby incorporated by reference.

Claims

1. A bracelet-type pulse diagnosis instrument, characterized in that the bracelet-type pulse diagnosis instrument includes two pulse diagnosis instrument units, and each of the two pulse diagnosis instrument units includes:

A bracelet body. The bracelet body has an inner edge and an outer edge. The inner edge and the outer edge are respectively located on opposite sides of the bracelet body. The inner edge is curved. The two ends of the bracelet body are each A combination piece is provided, which can be used to selectively connect the two pulse diagnosis instrument units, so that the two pulse diagnosis instrument units can be used together or separately; a pressure sensor, each of the two pulse diagnosis instrument units includes An electrical connector, the electrical connector is electrically connected to the pressure sensor;

a first regulating agency; and

a second adjustment mechanism, the pressure sensor is movably arranged on the bracelet body through the first adjustment mechanism and the second adjustment mechanism;

The pressure sensor can be adjusted in depth through the first adjustment mechanism so that the pressure sensor can move to three pulse positions of floating, medium and sinking, and the pressure sensor can be moved left and right through the second adjustment mechanism so that the pressure sensor can Corresponds to the three pulse positions of Cun Guan Chi.

2. The bracelet-type pulse diagnosis instrument according to claim 1, characterized in that the first adjustment mechanism is a radial adjustment mechanism, so that the pressure sensor can control the movement along the bracelet body through the first adjustment mechanism. A radial direction movement adjustment enables the pressure sensor to perform the depth movement adjustment.

3. The bracelet-type pulse diagnosis instrument according to claim 2, wherein the first adjustment mechanism includes a screw rod and a nut, and the screw rod and the nut are respectively connected to the pressure sensor and the bracelet body. , and the screw rod and the nut are screwed to each other.

4. The bracelet-type pulse diagnosis instrument according to claim 1, characterized in that the second adjustment mechanism is an axial adjustment mechanism, so that the pressure sensor can be controlled along the body of the bracelet through the second adjustment mechanism. An axial direction movement adjustment enables the pressure sensor to perform the left and right movement adjustment.

5. The bracelet-type pulse diagnostic instrument according to claim 4, wherein the second adjustment mechanism includes a slide block and a slide rail, and the slide block and the slide rail are respectively connected to the pressure sensor and the handpiece. The ring body, the slide block and the slide rail are in sliding fit so that the pressure sensor can be moved and adjusted along the axial direction.

6. The bracelet-type pulse diagnosis instrument according to claim 1, characterized in that a pulse diagnosis main board is disposed inside the bracelet body, and the pulse diagnosis main board is electrically connected to the pressure sensor and the electrical connector.

7. The bracelet-type pulse diagnosis instrument according to claim 1, characterized in that the bracelet body of the two pulse diagnosis instrument units is in the shape of a hollow semicircle. When the two pulse diagnosis instrument units are used together, the two bracelet bodies are combined to form a bracelet. ring.

8. The bracelet-type pulse diagnosis instrument according to claim 1, characterized in that the connecting parts have a magnetic structure or a buckling structure.