CN116509340A - Online pulse feeling device of traditional chinese medical science - Google Patents

Abstract

The invention discloses a traditional Chinese medicine on-line pulse-feeling device, which comprises a diagnosis end and a plurality of pulse-feeling tables which are connected by wires or wirelessly, wherein the pulse-feeling tables comprise hollow watch cases, a data transmitting module and three groups of detection groups are fixedly arranged in the watch cases, each detection group comprises a plurality of parallel detectors, each detector is respectively connected with the data transmitting module, and one side of the watch case, which is used for being attached to the skin, is provided with a plurality of openings corresponding to the positions of the detection ends of the detectors; the diagnosis end comprises a hollow diagnosis shell, a flexible finger placing film is fixedly arranged at the top of the diagnosis shell, a data receiving module and a plurality of simulation rods driven by the data receiving module are arranged in a cavity of the diagnosis shell, the data receiving module is connected with the data transmitting module, the number of the simulation rods corresponds to that of the detectors, and the top of the simulation rods is propped against the finger placing film. The invention aims to provide an on-line pulse feeling device which is convenient for a doctor of traditional Chinese medicine to perform pulse feeling and on-line inquiry on line.

Description

Online pulse feeling device of traditional chinese medical science

Technical Field

The invention relates to traditional Chinese medicine inquiry, in particular to an on-line pulse feeling device for traditional Chinese medicine.

Background

The doctor's finger is used to press the patient's body, so that the doctor can feel the pulse, and the pulse is also called pulse feeling, which is a method for the doctor to examine the pulse condition, distinguish the viscera function from the deficiency and weakness of qi, blood, fluid and essence, and the doctor's pulse feeling is on the three places of the patient's cun, guan and chi, and the normal pulse is on the three places of cun, guan and chi, which have pulses, which are not floating, sinking, not slow, mild, gentle and powerful, fluent and uniform, and the rhythm is consistent, and the pulse is four to five times, namely, the pulse is flat.

After epidemic situation outbreaks of respiratory tract infectious diseases, doctors cannot be in face-to-face contact with patients as usual without limitation under the epidemic situation, and video diagnosis can solve inspection, inquiry and partial diagnosis (such as hearing sound) to a certain extent, but video diagnosis cannot be used for pulse-taking, so that judgment of the doctors on conditions is affected, and therefore, a device capable of being convenient for the doctors to perform pulse-taking on line is needed.

Disclosure of Invention

The invention aims to: the invention aims to provide an on-line pulse feeling device which is convenient for a doctor of traditional Chinese medicine to perform pulse feeling and on-line inquiry on line.

The technical scheme is as follows: the invention relates to an on-line pulse feeling device of traditional Chinese medicine, which comprises a diagnosis end and a plurality of pulse feeling tables which are connected by wires or wirelessly, wherein the pulse feeling tables comprise hollow watchcases, a data transmitting module and three groups of detection groups are fixedly arranged in the watchcases, the detection groups comprise a plurality of detectors which are arranged in parallel, each detector is respectively connected with the data transmitting module, and one side of the watchcase, which is used for being attached to skin, is provided with a plurality of openings corresponding to the positions of the detection ends of the detectors; the diagnosis end comprises a hollow diagnosis shell, a flexible finger placing film is fixedly arranged at the top of the diagnosis shell, a data receiving module and a plurality of simulation rods driven by the data receiving module are arranged in a cavity of the diagnosis shell, the data receiving module is connected with the data transmitting module, the number of the simulation rods corresponds to that of the detectors, and the top of the simulation rods is propped against the finger placing film. Three groups of detection groups are arranged, so that three positions of the cun, guan and chi of the human body can be respectively corresponding to one group of detection groups to detect the vibration frequency and the vibration amplitude of pulses of the three positions of the cun, guan and chi of the human body; each group of detection groups is provided with a plurality of parallel detectors for adapting to and detecting pulses with different thicknesses, so as to prevent undetected or inaccurate detection caused by different pulse thicknesses, wherein the pulse thicknesses belong to pulse wave elements, the pulse thicknesses refer to the circumferential range of pulse, namely the outer diameter of radial artery felt by fingers, the pulse refers to the wide and thick range, and the narrow range; the rough and fine pulses are both outline pulses in the traditional pulse system, and are classified into two kinds of large pulses, the rough pulses mainly include large pulses, flood pulses, real pulses, hollow pulses, and the like, and the fine pulses mainly include fine pulses, micro pulses, weak pulses, soft pulses, and the like. The finger-placing film is used for a doctor to place fingers on the finger-placing film to feel the pulse of a patient.

Further, a control signal receiving module is fixedly arranged in the watchcase, a control signal transmitting module is fixedly arranged in the cavity of the diagnosis shell, the control signal transmitting module is connected with the control signal receiving module in a wired or wireless mode, and the control signal receiving module is respectively connected with each detector.

Further, the detector comprises a power source, a load force measuring device and a detection plate which are sequentially connected end to end, the position of the detection plate corresponds to the position of the opening, the power source is connected with the control signal receiving module, and the force measuring device is connected with the data transmitting module.

Further, the power source comprises a servo motor and a speed reducer, and the speed reducer is fixedly connected with the output end of the servo motor.

Further, a flexible induction membrane is arranged at the opening of the watchcase, a spring piece is arranged on one side, close to the detector, of the induction membrane, one end of the spring piece is abutted against the induction membrane, and the other end of the spring piece is abutted against the detection plate. The spring piece has large tensile rigidity and bending rigidity in one direction because the spring piece is easy to bend in the other direction, so that the spring piece is used as a sensitive element of the pulse-cutting meter, and the detection data is more accurate. The sensing film is provided for a more comfortable feel for the patient.

Further, a display screen is fixedly arranged on the side surface opposite to the side surface, which is used for being attached to the skin, of the watch case.

Further, two ends of the watchcase are respectively fixedly provided with a watchband.

Further, a plurality of simulators are arranged in the cavity of the diagnosis shell, each simulator comprises a guide sleeve used for guiding, a magnet block is slidably arranged in the guide sleeve, an inductance coil is arranged below the guide sleeve, and a simulation rod is fixedly arranged at the top of the magnet block.

Further, the top of the guide sleeve is connected with the top of the magnet block through a telescopic top elastic sheet, and the bottom of the guide sleeve is connected with the bottom of the magnet block through a telescopic bottom elastic sheet. The telescopic top elastic sheet and the bottom elastic sheet are used for limiting the sliding of the magnet block, and the magnet block is prevented from sliding upwards or downwards too much due to the damage of the induction coil.

Further, the diagnosis end is also provided with a control panel.

The beneficial effects are that: compared with the prior art, the invention has the following remarkable advantages: the pulse feeling meter is internally provided with three groups of detection groups, each group of detection groups comprises a plurality of detectors, a servo motor in each detector drives a detection plate and an induction film to be in contact with the skin of a patient, so that the vibration frequency and the vibration amplitude of three pulses of the patient can be detected and recorded, the vibration frequency and the vibration amplitude of the three pulses of the patient can be converted into electric signals and transmitted to a data receiving module in a diagnosis shell through a data transmitting module, the data receiving module transmits the electric signals to a corresponding inductance coil, a magnet block corresponding to the inductance coil drives a simulation rod to slide up and down, the finger releasing film can simulate the pulse of the patient, and a doctor can finish pulse feeling diagnosis. The pulse feeling table and the diagnosis end which are arranged separately can enable the patient and the doctor not to face each other, and the doctor can remotely perform pulse feeling diagnosis on the patient in an on-line mode, so that the patient can be completely inquired by overcoming various objective factors such as epidemic situation of respiratory tract infectious diseases and the like as much as possible.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a perspective view of the pulse-cutting table according to the present invention.

FIG. 3 is a perspective view of another angle of the pulse-cutting table of the present invention.

FIG. 4 is a cross-sectional view of a pulse-cutting table in accordance with the present invention.

FIG. 5 is a schematic diagram of the internal layout of the pulse-cutting table of the present invention.

Fig. 6 is a schematic diagram of a detector in accordance with the present invention.

FIG. 7 is a schematic view of a combination of a detector, a spring plate and a sensing membrane according to the present invention.

Fig. 8 is a perspective view of a diagnostic end of the present invention.

Fig. 9 is an exploded view of the diagnostic end of the present invention.

FIG. 10 is a schematic diagram of a combination of a housing, a simulator, and a simulation rod in a diagnostic end

Fig. 11 is a perspective view of a cartridge housing in a diagnostic end of the present invention.

Fig. 12 is a combined perspective view of the simulator and the simulation rod in the present invention.

Fig. 13 is a sectional view showing a combination of a simulator and a simulation rod according to the present invention.

Fig. 14 is a schematic view showing the arrangement in the control box in the present invention.

Wherein: 1. pulse feeling table; 11. watchband; 12. a watch case; 13. a display screen; 14. an induction film; 15. a control signal receiving module; 16. a data transmitting module; 17. a servo motor; 18. a speed reducer; 19. a load cell; 110. an inertial mass; 111. a spring piece; 112. a detection plate; 113. an in-meter power supply; 114. a detector; 2. a diagnostic end; 21. placing a finger film; 22. a diagnostic housing; 2201. a control box; 23. a seat shell; 24. a simulation rod; 25. a simulator; 251. a top elastic sheet; 252. a guide sleeve; 253. a bottom elastic sheet; 254. an inductance coil; 255. a magnet block; 26. diagnosing the power supply; 27. a control signal transmitting module; 28. a data receiving module; 29. and a control panel.

Description of the embodiments

The technical scheme of the invention is further described below with reference to the accompanying drawings.

Referring to fig. 1 to 14, the on-line pulse feeling device for traditional Chinese medicine provided by the invention comprises a diagnosis end 2 and a plurality of pulse feeling tables 1 which are connected in a wireless manner through 5G signals.

The pulse-feeling meter 1 comprises a hollow meter shell 12, a data transmitting module 16, a control signal receiving module 15, three groups of detection groups and an in-meter power supply 113 for supplying power to each element are fixedly arranged in the meter shell 12, each group of detection groups comprises three parallel detectors 114, each detector 114 comprises a servo motor 17, a speed reducer 18, a load force measuring device 19 and a detection plate 112 which are sequentially connected end to end, the speed reducer 18 is fixedly connected with the output end of the servo motor 17, the servo motor 17 is connected with the control signal receiving module through a control wire, the force measuring device is connected with the data transmitting module 16 through a data wire, one side of the meter shell 12, which is used for being attached to skin, is provided with a plurality of openings corresponding to the positions of the detection plates 112, flexible induction films 14 are arranged at the openings of the meter shell 12, one side, close to the detectors 114, of each induction film 14 is provided with a spring piece 111, one end of each spring piece is abutted against each induction film 14, and the other end of each spring piece is abutted against inertia; a display screen 13 is fixedly arranged on the side opposite to the side for attaching the skin on the watch case 12; the two ends of the watch case 12 are respectively fixedly provided with a watchband 11. The inertial mass 110 is used to better contact with the detection plate 112 (the inertial mass 110 can also be considered as a part of the detection plate 112), and the spring piece 111 has a large tensile rigidity and bending rigidity in one direction because it is easy to bend in the other direction, so the spring piece 111 is used as a sensor of the pulse-cutting table 1, so that the detection data is more accurate. The sensing diaphragm 14 is provided for a more comfortable feeling to the patient.

The diagnosis end 2 comprises a hollow diagnosis shell 22, the diagnosis shell 22 extends to form a control box 2201 (the control box 2201 can also be considered as a part of the diagnosis shell 22) on one side, a control signal transmitting module 27, a data receiving module 28 and a diagnosis power supply 26 for supplying power to each element are fixedly arranged in the control box 2201, the data receiving module 28 is connected with the data transmitting module 16 through a 5G signal, the control signal transmitting module 27 is connected with the control signal receiving module 15 through the 5G signal, a control panel 29 is arranged at the top of the control box 2201, a flexible finger releasing film 21 is fixedly arranged at the top of the diagnosis shell 22, a seat shell 23 for installing simulators 25 is fixedly arranged in a cavity of the diagnosis shell 22, 9 simulators 25 are arranged in the seat shell 23, each simulator 25 comprises an inductance coil 254 fixedly arranged at the bottom of the seat shell 23 and connected with the data receiving module 28 through a data line, a guide sleeve 252 is fixedly arranged above the inductance coil 254, a magnet 255 is slidably arranged in the guide sleeve 252, the top of the guide sleeve 252 is connected with the top of the magnet 255 through a telescopic top elastic sheet 251, the bottom of the guide sleeve 252 is connected with the top of the magnet 255 through a telescopic top elastic sheet 251, and the bottom of the magnet 255 is fixedly arranged against the bottom of the top of the magnet 255 through the telescopic sheet 255. The retractable top and bottom elastic pieces 251 and 253 serve to limit the sliding of the magnet block 255, preventing the magnet block 255 from sliding too upward or too downward due to damage to the inductor 254.

Three groups of detection groups are arranged, so that three positions of the cun, guan and chi of the human body can be respectively corresponding to one group of detection groups to detect the vibration frequency and the vibration amplitude of pulses of the three positions of the cun, guan and chi of the human body; the multiple parallel detectors 114 are provided for each detection group to adapt to and detect pulses of different thicknesses, so as to prevent undetected or inaccurate detection caused by different pulse thicknesses. The finger placement membrane 21 is used for a physician to feel the patient's pulse with his finger placed thereon.

When the patient needs to be subjected to on-line pulse cutting, the patient wears the pulse cutting table 1, a doctor operates the control panel 29 on the diagnosis end 2 to send out an instruction, the instruction controls the signal receiving module 15 to the servo motor 17 through the control signal transmitting module 27, the servo motor 17 starts to drive, the detection plate 112 and the sensing film 14 are in contact with the skin of the patient, the vibration frequency and the vibration amplitude of three pulses of the patient can be detected and recorded, the vibration frequency and the vibration amplitude of the three pulses of the patient are converted into electric signals, the electric signals are transmitted to the data receiving module 28 in the diagnosis shell 22 through the data transmitting module 16, the electric signals are transmitted to the corresponding inductance coils 254 after being interpreted by the data receiving module 28, and the magnet 255 corresponding to the inductance coils 254 drives the simulation rod 24 to slide up and down, so that the finger placing film 21 can simulate the pulse of the patient, and the doctor completes pulse cutting diagnosis.

Claims (10)

1. An online pulse feeling device of traditional Chinese medicine is characterized in that: the diagnosis device comprises a diagnosis end (2) and a plurality of pulse-cutting meters (1) which are connected through wires or wirelessly, wherein the pulse-cutting meters (1) comprise a hollow watchcase (12), a data transmission module (16) and three groups of detection groups are fixedly arranged in the watchcase (12), the detection groups comprise a plurality of detectors (114) which are arranged in parallel, each detector (114) is respectively connected with the data transmission module (16), and one side of the watchcase (12) which is used for being attached to the skin is provided with a plurality of openings corresponding to the positions of the detection ends of the detectors (114); the diagnosis end (2) comprises a hollow diagnosis shell (22), a flexible finger placing film (21) is fixedly arranged at the top of the diagnosis shell (22), a data receiving module (28) and a plurality of simulation rods (24) driven by the data receiving module (28) are arranged in a cavity of the diagnosis shell (22), the data receiving module (28) is connected with the data transmitting module (16), the number of the simulation rods (24) corresponds to the number of the detectors (114), and the top of the simulation rods (24) is propped against the finger placing film (21).

2. The on-line pulse feeling device for traditional Chinese medicine according to claim 1, wherein: the control signal receiving module (15) is further fixedly arranged in the watch case (12), the control signal transmitting module (27) is further fixedly arranged in the cavity of the diagnosis shell (22), the control signal transmitting module (27) is connected with the control signal receiving module (15) in a wired or wireless mode, and the control signal receiving module (15) is respectively connected with each detector (114).

3. The on-line pulse feeling device for traditional Chinese medicine according to claim 2, wherein: the detector (114) comprises a power source, a load force measuring device (19) and a detection plate (112) which are sequentially connected end to end, the position of the detection plate (112) corresponds to the position of the opening, the power source is connected with the control signal receiving module, and the force measuring device is connected with the data transmitting module (16).

4. A traditional Chinese medicine on-line pulse feeling device according to claim 3, wherein: the power source comprises a servo motor (17) and a speed reducer (18), and the speed reducer (18) is fixedly connected with the output end of the servo motor (17).

5. The on-line pulse feeling device for traditional Chinese medicine according to claim 1, wherein: the flexible sensing film (14) is arranged at the opening of the watchcase (12), a spring piece (111) is arranged on one side, close to the detector (114), of the sensing film (14), one end of the spring piece (111) is abutted to the sensing film (14), and the other end of the spring piece is abutted to the detection plate (112).

6. The on-line pulse feeling device for traditional Chinese medicine according to claim 1, wherein: a display screen (13) is fixedly arranged on the side surface opposite to the side surface, which is used for being attached to the skin, of the watch case (12).

7. The on-line pulse feeling device for traditional Chinese medicine according to claim 1, wherein: the two ends of the watchcase (12) are respectively fixedly provided with a watchband (11).

8. The on-line pulse feeling device for traditional Chinese medicine according to claim 1, wherein: a plurality of simulators (25) are arranged in a cavity of the diagnosis shell (22), each simulator (25) comprises a guide sleeve (252) used for guiding, a magnet block (255) is arranged in a sliding mode in the guide sleeve (252), an inductance coil (254) is arranged below the guide sleeve (252), and a simulation rod (24) is fixedly arranged at the top of the magnet block (255).

9. The on-line pulse feeling device of traditional Chinese medicine according to claim 8, wherein: the top of the guide sleeve (252) is connected with the top of the magnet block (255) through a telescopic top elastic sheet (251), the bottom of the guide sleeve (252) is connected with the bottom of the magnet block (255) through a telescopic bottom elastic sheet (253), and the telescopic top elastic sheet (251) and the bottom elastic sheet (253) are used for limiting the sliding of the magnet block (255).

10. The on-line pulse feeling device for traditional Chinese medicine according to claim 1, wherein: the diagnosis end (2) is also provided with a control panel (29).