CN211798262U - Computer physiotherapy equipment for motor neuron disease - Google Patents

Abstract

The utility model provides a computer physiotherapy equipment of motor neuron disease relates to the physiotherapy equipment field, including physiotherapy equipment machine case, physiotherapy electrode control panel, audio amplifier, output attenuator, data collection station, a plurality of physiotherapy electrode, physiotherapy equipment machine incasement is provided with computer, AD data collection card is connected with the computer electricity, physiotherapy electrode control panel is connected with AD data collection card electricity to be connected with audio amplifier, output attenuator, a plurality of physiotherapy electrode electricity, data collection station is connected with a plurality of physiotherapy electrode magnetic coupling, and is connected with the computer electricity through AD data collection card. The utility model discloses combine traditional chinese medical science main and collateral channels theory and computer physiotherapy equipment, through computer physiotherapy equipment output audio frequency physiotherapy electric current signal, by the body surface along main and collateral channels tissue entering human tissue deep, utilize physical effects such as the reactive shrinkage of patient's tissue to audio current factor, vibration to carry out effective treatment to the motor neuron disease.

Description

Computer physiotherapy equipment for motor neuron disease

Technical Field

The utility model relates to a physiotherapy equipment field especially relates to a computer physiotherapy equipment of motor neuron disease.

Background

Motor neuron disease is one of rare disease records published by related departments in China, and is a group of chronic progressive neurodegenerative diseases selectively invading anterior angle cells of spinal cord, brain stem motor neurons, cortical pyramidal cells and pyramidal tracts. Aiming at the disease, the medicine or the computer physiotherapy instrument can be adopted for treatment.

The existing computer physiotherapy instruments all have the following problems:

the existing computer physiotherapy instrument has simple structure and less output electrodes, and when multi-electrode physiotherapy is needed, the operation is complex, and only simple home health care physiotherapy can be realized;

the prior physiotherapy prescription of the computer physiotherapy instrument lacks pertinence, is not suitable for the physiotherapy of motor neuron diseases,

and the motor neuron disease is rare, the etiology, the course of disease, the age, the nationality, the life, the working experience, the individual constitution and the tolerance degree are different, so the disease performance is different, for such complex conditions, the clinical experience shows that the universal quantitative index which accords with the conditions of most people is sought, the physiotherapy of each patient is vital, the patient can be clearly shown with specific disease conditions, the fear psychology and the blind cognition of the patient can be eliminated, the awareness of the patient on the body rehabilitation condition in the process of physiotherapy is improved, the participation awareness is enhanced, and the final curative effect and the prognosis are very important.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art's shortcoming, the utility model aims to provide a computer physiotherapy equipment of motor neuron disease combines traditional chinese medical science main and collateral channels theory and computer physiotherapy equipment, realizes that traditional chinese medical science main and collateral channels combine together motor neuron disease treatment and computer technology, through computer physiotherapy equipment output audio frequency physiotherapy current signal, according to main and collateral channels low impedance characteristic, by the body surface along main and collateral channels tissue entering human tissue deep, utilize physical effects such as patient's tissue to the reactive contraction of audio frequency current factor, vibration to carry out effective treatment to motor neuron disease.

In order to realize above-mentioned purpose and other relevant mesh, the utility model provides a computer physiotherapy equipment of motor neuron disease, including physiotherapy equipment machine case, physiotherapy electrode control panel, audio amplifier, output attenuator, data collection station, a plurality of physiotherapy electrode, physiotherapy equipment machine incasement is provided with computer, AD data collection card is connected with the computer electricity, physiotherapy electrode control panel is connected with AD data collection card electricity to be connected with audio amplifier, output attenuator, a plurality of physiotherapy electrode electricity, data collection station is connected with a plurality of physiotherapy electrode magnetic coupling, and is connected with the computer electricity through AD data collection card.

Furthermore, the A/D data acquisition card is electrically connected with a computer host through a PCI bus on the computer host, the physiotherapy electrode control board is electrically connected with the A/D data acquisition card through a DB37 plug socket and is electrically connected with a plurality of physiotherapy electrodes through another DB37 plug socket and a plurality of single-core cables.

Furthermore, a DB37 plug socket, a first optical coupler isolator, a decoder, a plurality of control units, a plurality of second optical coupler isolators and a plurality of bridge type output controllers are arranged on the physiotherapy electrode control panel.

Further, the one end and the AD data acquisition card of DB37 plug socket are connected, and the other end is connected with first opto-isolator one end, the other end and the one end of decoder of first opto-isolator are connected, the other end of decoder is connected with a plurality of the control unit's one end respectively, the control unit's the other end is connected with the one end of second opto-isolator respectively, the other end and the direct current end of bridge type output controller of second opto-isolator are connected.

Furthermore, the audio amplifier, the output attenuator and the data collector are all arranged on a circuit board, and the input end of the audio amplifier is connected with the audio output port of the computer host and is connected with the alternating current end of the bridge type output controller of the physiotherapy electrode control board.

Furthermore, the output attenuator is connected with the alternating current end of the bridge type output controller of the physiotherapy electrode control panel.

Furthermore, the number of the control units, the second optical coupler isolators and the bridge type output controllers is the same as that of the physiotherapy electrodes.

Furthermore, the number of the physiotherapy electrodes is 26, and each physiotherapy electrode is solidified into a specific shape by adopting silicon rubber.

As mentioned above, the computer physiotherapy instrument for motor neuron disease of the utility model has the following beneficial effects:

1. the utility model combines the traditional Chinese medicine meridian theory and the computer physiotherapy instrument, realizes the combination of the traditional Chinese medicine meridian to the treatment of the motor neuron disease and the computer technology, and is the comprehensive application of the modern technical development achievement.

2. The utility model discloses a switching of 26 physiotherapy electrodes of computer control need not the manual work and carries out the increase and decrease of physiotherapy electrode quantity and the change of position distribution, and it is more convenient, accurate to operate.

3. The utility model discloses a with 26 physiotherapy electrodes adopt silicon rubber solidification to specific shape according to the difference at human body surface acupuncture point, effectively enlarged local physiotherapy effect.

4. The utility model discloses a with 26 physiotherapy electrode combination a plurality of physiotherapy prescriptions, further make up the application with different physiotherapy prescriptions, can reach clinical anticipated treatment.

5. The utility model discloses a computer physiotherapy equipment can carry out the physiotherapy according to the physiotherapy prescription to automatically, carry out data monitoring, generate continuous monitoring data, eliminated the non-digital blind area that the patient's state of an illness changes the observation, increased the security of physiotherapy, and can carry out medical statistics through the computer to monitoring data and handle, carry out the automatic matching of physiotherapy prescription, the physiotherapy effect is better.

6. The utility model discloses after the physiotherapy, all physiotherapy data can be printed through the printer and preserve, provide the patient next time physiotherapy reference reserve.

7. The utility model adopts physical therapy factors, has no wound to organism tissues of patients, and does not need to be matched with drug therapy.

Drawings

Fig. 1 is a block diagram of a computer physiotherapy apparatus for motor neuron diseases disclosed in the embodiment of the present invention.

Fig. 2 is a circuit diagram of the computer physiotherapy instrument for motor neuron diseases disclosed in the embodiment of the present invention.

Fig. 3 is a circuit diagram of a first optical isolator disclosed in an embodiment of the present invention.

Fig. 4 is a circuit diagram of a decoder disclosed in an embodiment of the present invention.

Fig. 5 is a circuit diagram of the control center, the second optical isolator and the bridge output controller disclosed in the embodiment of the present invention.

Fig. 6 is an explanatory view of the computer-based physiotherapy apparatus for motor neuron diseases disclosed in the embodiment of the present invention.

The labels in the figure are: 1-treatment bed, 2-junction box, 3-physiotherapy electrode control board, 4-physiotherapy electrode, 5-computer host.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic concept of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the form, amount and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

The utility model provides a computer physiotherapy instrument for motor neuron diseases, which comprises a physiotherapy instrument case, a physiotherapy electrode control panel, an audio amplifier, an output attenuator, a data acquisition unit and a plurality of physiotherapy electrodes as shown in figure 1, the physiotherapy instrument case is internally provided with a computer host and an A/D data acquisition card which is electrically connected with the computer host through a PCI bus, the physiotherapy electrode control board is electrically connected with the A/D data acquisition card through a DB37 plug socket, and is electrically connected with a plurality of physiotherapy electrodes through another DB37 plug seat and a plurality of single-core cables, the physiotherapy electrode control board is electrically connected with an audio amplifier and an output attenuator through an internal flat cable, the data acquisition unit is in magnetic coupling connection with the plurality of physiotherapy electrodes and is electrically connected with the computer host through an A/D data acquisition card.

Be provided with DB37 plug socket, first opto-isolator, decoder, a plurality of the control unit, a plurality of second opto-isolator, a plurality of bridge type output controller on the physiotherapy electrode control panel.

One end and the AD data acquisition card of DB37 plug socket, the other end is connected with first optical isolator one end, the other end and the one end of decoder of first optical isolator are connected, the other end of decoder is connected with a plurality of the control unit's one end respectively, the control unit's the other end is connected with the one end of second optical isolator respectively, the other end and the direct current end of bridge type output controller of second optical isolator are connected, and another DB37 plug socket is connected with the alternating current end of bridge type output controller to the physiotherapy electrode is connected, as shown in figure 2, explains with two physiotherapy electrodes, physiotherapy electrode A and physiotherapy electrode B as the example.

As shown in fig. 3, specifically, the first optical isolator includes a plurality of optical isolator chips U1A, U1B, U2A, U2B, U3A, U3B, U4A, and U4B arranged in parallel, the types of the chips U1A, U1B, U2A, U2B, U3A, U3B, U4A, and U4B are optis 01, and the input ends of the chips U1A, U1B, U2A, U2B, U3A, U3B, U4A, and U4B are connected to the DB37 plug socket J1.

As shown in fig. 4, the decoder includes decoding chips U6, U7, U8, U9, and U10, wherein the 2 nd, 3 rd, 21 st, and 22 nd pins of the decoding chip U6 are connected to output terminals of optical coupling isolation chips U1A, U1B, U2A, and U2B, the 22 nd pins of the decoding chips U7, U8, U9, and U10 are connected to an output terminal of the optical coupling isolation chip U3A, the 21 st pin is connected to an output terminal of the optical coupling isolation chip U3B, the 3 rd pin is connected to an output terminal of the optical coupling isolation chip U4A, the 2 nd pin is connected to an output terminal of the optical coupling isolation chip U4B, and models of the decoding chips U6, U7, U8, U9, and U10 are CD 4515B.

As shown in fig. 5, the control unit, the second optocoupler isolator, and the bridge output controller are illustrated in detail by taking one of the two control circuits of the therapy electrodes as an example.

The control unit comprises double JK flip-flops U11A and U11B, bidirectional analog switches U13A and U13B and operational amplifiers U15A and U15B, wherein the 3 rd pin and the 13 th pin of the double JK flip-flops U11A and U11B are respectively connected with the 11 th pin and the 9 th pin of the decoding chip U7, the 1 st pin and the 14 th pin of the double JK flip-flops U11A and U11B are respectively connected with the 13 th pin and the 1 st pin of the U13A of the bidirectional analog switch, the 2 nd pin and the 15 th pin of the double JK flip-flops U11A and U11B are respectively connected with the 5 th pin and the 4 th pin of the U13B of the bidirectional analog switch, the 2 nd pin and the 3 rd pin of the bidirectional analog switches U13A and U13 367 are respectively connected with the 3 rd pin and the 3 rd pin of the operational amplifiers U15 and U B, the CD B and the model 363672 of the double JK flip-flops U11 and U B are respectively connected with the 3 and the CD B of the operational amplifiers U B and B of the CD 363672.

The second optical coupler isolator comprises two optical coupler isolator chips U17 and U18 which are arranged in parallel, the input ends of the optical coupler isolator chips U17 and U18 are connected with the 1 st pins of operational amplifiers U15A and U16B, and the models of the optical coupler isolator chips U17 and U18 are TLP 627.

The bridge type output controller comprises two rectifier diode bridges D41 and D42 which are arranged in parallel, the direct current input end and the direct current output end of the rectifier diode bridges D41 and D42 are respectively connected with the output ends of an optical coupling isolation chip U17 and a chip U18, the alternating current input end and the alternating current output end of the rectifier diode bridges D41 and D42 are respectively connected with an audio signal and a physiotherapy current signal and output a physiotherapy electrode control signal OP1, and the physiotherapy electrode control signal OP1 is output to a physiotherapy electrode through another DB37 plug seat on a physiotherapy electrode control board (the DB37 plug seat is not specifically connected in a circuit).

The audio amplifier, the output attenuator and the data collector are all arranged on a circuit board, the audio amplifier is connected with an audio output port of a computer host (namely an earphone jack of the computer host), is used for controlling audio signal output, and is connected with an alternating current end of a bridge type output controller of the physiotherapy electrode control board; the output attenuator (namely a physical therapy instrument strength adjusting knob) is connected with the alternating current end of the bridge type output controller of the physical therapy electrode control panel and is used for controlling the output of physical therapy current signals; the data collector is in magnetic coupling connection with the plurality of physiotherapy electrodes and is connected with the computer host through an A/D data acquisition card, the data collector comprises a voltage acquisition sensor and a filter, physiotherapy electrode voltage is acquired through the voltage acquisition sensor, and the physiotherapy electrode voltage is input into the computer host through the A/D data acquisition card after being filtered.

The quantity of the control unit, the second optical coupler isolator and the bridge type output controller is the same as that of the physiotherapy electrodes, the quantity of the physiotherapy electrodes is 26, and each physiotherapy electrode is cured into a specific shape according to the shape of an acupoint by adopting silicon rubber.

The working principle of the computer physiotherapy instrument for the motor neuron disease is as follows:

as shown in figure 6, when the patient is treated, the patient lies on the treatment bed, the physiotherapy electrodes 26 are connected with the physiotherapy electrode control board through the junction box, and the physiotherapy electrodes with different shapes are placed at different acupuncture points of the patient;

the computer host outputs physiotherapy electrode control signals through an A/D data acquisition card, the physiotherapy electrode control signals are accessed through a DB37 plug socket on a physiotherapy electrode control panel, a circuit arranged on the physiotherapy electrode control panel is isolated from the computer host and the A/D data acquisition card through a first optical coupler isolator, the physiotherapy electrode control signals are decoded and output through a decoder, then switch control signals of 26 physiotherapy electrodes are respectively output through 26 control units, and switches of the 26 physiotherapy electrodes are controlled through 26 bridge output controllers;

wherein, carry out signal isolation with the physiotherapy electrode through the circuit that the second opto-isolator set up on with physiotherapy electrode control panel.

Specifically, 26 physiotherapy electrodes can form a plurality of physiotherapy prescriptions, the computer host respectively controls the on-off of the 26 physiotherapy electrodes according to the physiotherapy prescriptions, when the physiotherapy electrodes are on, the audio amplifier amplifies and outputs audio signals accessed from the audio output port of the computer host, and the output attenuator can adjust the magnitude of a physiotherapy current signal source of the physiotherapy electrodes; monitoring physiotherapy voltage in real time through a data acquisition unit, reducing the voltage of a monitoring result, transmitting the monitoring result to a computer host through an A/D data acquisition card for medical statistical processing, automatically matching a physiotherapy prescription after a conclusion is obtained, displaying the monitoring data on a computer display screen, and printing the physiotherapy data through a printer after the physiotherapy is finished;

specifically, the collecting sensor is a voltage collecting sensor, and the computer host can obtain the impedance of the acupuncture points by obtaining the magnitude of the physical therapy current signal output by the output attenuator and the physical therapy voltage obtained by the collecting sensor, so that different physical therapy prescriptions can be matched with the impedance of each acupuncture point.

To sum up, the utility model discloses combine traditional chinese medical science main and collateral channels theory and computer physiotherapy equipment, realize traditional chinese medical science main and collateral channels and collaterals and combine together with the computer technology to the motor neuron disease treatment, through computer physiotherapy equipment output audio frequency physiotherapy current signal, according to main and collateral channels impedance characteristic, by the body surface along main and collateral channels tissue entering human tissue deep, utilize patient's tissue to audio current factor's reactive contraction, physical effect such as vibration, adjust disease local tissue metabolism, make the pathological metabolism waste of silting up the tissue get into blood circulation, resume disease tissue or normal physiological function of internal organs and corresponding normal nerve control mode, treat the motor neuron disease. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (8)

1. A computer physiotherapy equipment for motor neuron disease is characterized in that: including physiotherapy equipment machine case, physiotherapy electrode control panel, audio amplifier, data collection station, a plurality of physiotherapy electrode, be provided with computer, AD data collection card in the physiotherapy equipment machine case, AD data collection card is connected with the computer electricity, physiotherapy electrode control panel is connected with AD data collection card electricity to be connected with audio amplifier, a plurality of physiotherapy electrode electricity, data collection station is connected with a plurality of physiotherapy electrode magnetic coupling, and is connected with the computer electricity through AD data collection card.

2. The computerized physiotherapy apparatus for motor neuron disease of claim 1, wherein: the A/D data acquisition card is electrically connected with a computer host through a PCI bus, the physiotherapy electrode control panel is electrically connected with the A/D data acquisition card through a DB37 plug socket and is electrically connected with a plurality of physiotherapy electrodes through a DB37 plug socket and a plurality of single-core cables.

3. The computerized physiotherapy apparatus for motor neuron disease of claim 1, wherein: be provided with DB37 plug socket, first opto-isolator, decoder, a plurality of the control unit, a plurality of second opto-isolator, a plurality of bridge type output controller on the physiotherapy electrode control panel.

4. The computer physiotherapy apparatus for motor neuron disease according to claim 3, wherein: one end and the AD data acquisition card of DB37 plug socket are connected, and the other end is connected with first optical isolator one end, the other end and the one end of decoder of first optical isolator are connected, the other end of decoder is connected with a plurality of the control unit's one end respectively, the control unit's the other end is connected with the one end of second optical isolator respectively, the other end and the straight flow end of bridge type output controller of second optical isolator are connected.

5. Computer physiotherapy apparatus for motor neuron diseases according to claim 1 or 4, characterized in that: the computer physiotherapy is also provided with an output attenuator, the audio amplifier, the output attenuator and the data collector are all arranged on a circuit board, and the audio amplifier is connected with an audio output port of the computer host and is connected with an alternating current end of a bridge type output controller of the physiotherapy electrode control board.

6. The computer physiotherapy apparatus for motor neuron disease of claim 5, wherein: the output attenuator is connected with the alternating current end of the bridge type output controller of the physiotherapy electrode control panel.

7. The computer physiotherapy apparatus for motor neuron disease according to claim 3, wherein: the number of the control units, the second optical coupler isolators and the bridge type output controllers is the same as that of the physiotherapy electrodes.

8. The computerized physiotherapy apparatus for motor neuron disease of claim 1, wherein: the number of the physiotherapy electrodes is 26.

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