CN211024068U - Electronic physiotherapy health preserving instrument - Google Patents

Abstract

The utility model relates to an electron physiotherapy health preserving instrument, including the heating unit that is used for moxibustion therapy, the intermediate frequency unit that is used for massage and the laser unit that is used for the spectrum physiotherapy, be connected with the main control unit between heating unit, intermediate frequency unit and the laser unit, the main control unit is connected with button unit and infrared unit, and the main control unit is used for opening and close and switch according to button unit and the instruction control heating unit of infrared unit transmission, intermediate frequency unit and laser unit, and the main control unit is connected with the display element who is used for showing current mode and each item data. The utility model discloses have moxibustion treatment, massage, spectrum physiotherapy function and can carry out the function as required and switch over and keep off the position and adjust, satisfied individual or family to the needs of multiple treatment function.

Description

Electronic physiotherapy health preserving instrument

Technical Field

The utility model relates to the field of medical equipment, concretely relates to electron physiotherapy health preserving instrument.

Background

The electron physiotherapy health preserving appearance on the existing market roughly divide into moxa-moxibustion physiotherapy equipment, intermediate frequency physiotherapy equipment and spectrum physiotherapy equipment according to the function, and these equipment need cooperate the use when using more so that reach better health preserving effect, and current physiotherapy equipment generally has multiple physiotherapy mode but physiotherapy function singleness and price are expensive, can't satisfy the needs of singleness or a family to multiple treatment function.

Disclosure of Invention

The utility model provides an electronic physiotherapy health-preserving instrument, which solves the problem of single function of the existing physiotherapy health-preserving instrument, has the functions of moxibustion treatment, massage treatment and the like, and meets the needs of individuals or families on various treatment functions.

In order to realize the purpose, the technical scheme of the utility model is that:

the utility model provides an electron physiotherapy health preserving instrument, is including the heating unit that is used for moxibustion therapy, the intermediate frequency unit that is used for massage and the laser unit that is used for the spectrum physiotherapy, be connected with the main control unit between heating unit, intermediate frequency unit and the laser unit, the main control unit is connected with button unit and infrared unit, and the main control unit is used for opening according to button unit and the instruction control heating unit of infrared unit transmission, intermediate frequency unit and laser unit and stops and switch, and the main control unit is connected with the display element who is used for showing current mode and each item data.

Further, the main control unit comprises a single chip microcomputer minimum system.

Further, the heating unit includes the dish that generates heat and the dish drive circuit that generates heat, the dish drive circuit that generates heat includes opto-coupler and silicon controlled rectifier, pin 4 and the control electrode of silicon controlled rectifier of opto-coupler are connected, and pin 2 and the main control unit of opto-coupler are connected, and the main control unit provides gate pole voltage for the silicon controlled rectifier through the opto-coupler, the positive pole and the negative pole of silicon controlled rectifier are connected with the dish that generates heat respectively, the dish that generates heat is connected with the 220V power.

Further, the intermediate frequency unit comprises two pulse generating circuits, two high-voltage operational amplifier chips and two electrode plates, the pulse generating circuits comprise a PWM driving circuit and a boosting circuit, the PWM driving circuit comprises NPN type triodes and PNP type triodes, bases of the NPN type triodes and the PNP type triodes are connected with a main control unit, the main control unit simulates PWM signals to control the NPN type triodes and the PNP type triodes to be switched on and switched off, one end of the boosting circuit is connected with the PWM driving circuit, the other end of the boosting circuit is connected with the input end of the high-voltage operational amplifier chips, the high-voltage operational amplifier chips are used for emitting intermediate frequency voltage, and the output end of the high-.

Further, the laser unit comprises a laser instrument and a laser instrument driving circuit, the laser instrument driving circuit comprises an NPN type triode, a base electrode of the NPN type triode is connected with the main control unit, and a collector electrode of the NPN type triode is connected with the input end of the laser instrument.

Further, the heating plate is provided with a temperature measuring circuit, the temperature measuring circuit comprises a thermistor, and the thermistor is connected with the main control unit.

Furthermore, the main control unit is connected with a fan and a temperature sensor, and the main control unit controls the start and stop of the fan according to temperature data detected by the temperature sensor.

Further, the key unit includes a plurality of keys, the key is connected with the input of main control unit respectively, infrared unit includes infrared receiver and infrared emitter, infrared receiver is connected with the input of main control unit, display element is used for showing the fender position under the current mode, display element includes display driver chip and DIS display screen, display driver chip's input is connected with the main control unit, and the DIS display screen is connected to the output.

Through the technical scheme, the beneficial effects of the utility model are that:

the utility model discloses be provided with the main control unit for the heating unit of moxa-moxibustion treatment, be used for the intermediate frequency unit of massage and be used for the laser unit of spectrum physiotherapy, the main control unit switches and opens and stop according to instruction control heating unit, intermediate frequency unit and the laser unit of button unit and infrared unit, when carrying out moxa-moxibustion treatment, manual pressing button unit or infrared unit make it select the moxa-moxibustion function, and the work of main control unit control heating unit is put into the moxa piece heating unit, acts on and executes the moxibustion point, reaches the effect of moxa-moxibustion. The selected massage function main control unit controls the work of the intermediate frequency unit, the intermediate frequency unit outputs intermediate frequency voltage to generate electrical stimulation to a human body through an electrode plate, the massage effect is achieved, the selected spectrum physiotherapy main control unit controls the work of the laser unit, and the laser unit emits red light to carry out spectrum physiotherapy so as to achieve the use and switching of multiple physiotherapy functions.

Drawings

Fig. 1 is an electrical schematic diagram of the electronic physiotherapy health preserving instrument of the utility model.

Fig. 2 is an electrical schematic diagram of the heating unit and the temperature measuring circuit of the electronic physiotherapy health preserving instrument of the utility model.

Fig. 3 is an electrical schematic diagram of the intermediate frequency unit of the electronic physiotherapy health preserving instrument of the utility model.

Fig. 4 is an electrical schematic diagram of the main control unit of the electronic physiotherapy health preserving instrument of the utility model.

Fig. 5 is an electrical schematic diagram of the laser unit and the infrared unit of the physiotherapy health preserving instrument of the utility model.

The reference numbers in the drawings are as follows: the device comprises a heating unit 1, an intermediate frequency unit 2, a laser unit 3, a main control unit 4, a key unit 5, an infrared unit 6, a temperature measuring circuit 7, a display unit 8, a heating disc driving circuit 101, a heating disc 102, a pulse generating circuit 201, a high-voltage operational amplifier chip 202 and a laser instrument driving circuit 302 301.

Detailed Description

The invention will be further explained with reference to the drawings and the detailed description below:

as shown in fig. 1, an electron physiotherapy health preserving instrument, including heating unit 1 that is used for moxibustion therapy, the intermediate frequency unit 2 that is used for massage and the laser unit 3 that is used for the spectrum physiotherapy, be connected with main control unit 4 between heating unit 1, intermediate frequency unit 2 and the laser unit 3, main control unit 4 is connected with key unit 5 and infrared unit 6, and main control unit 4 is used for opening according to key unit 5 and the instruction control heating unit 1 of infrared unit 6 transmission, intermediate frequency unit 2 and laser unit 3 and stops and switch, and main control unit 4 is connected with the display element 8 that is used for showing current mode and each item data.

In order to optimize the product structure, as shown in fig. 4, the main control unit 4 includes a minimum system of a single chip microcomputer, and the single chip microcomputer specifically employs an STC15W408AS chip.

In order to make the product possess the moxa-moxibustion function, and the heat of moxa-moxibustion in-process heating unit 1 can be adjusted through main control unit 4, as shown in fig. 2, heating unit 1 includes heating plate 102 and heating plate drive circuit 101, heating plate drive circuit 101 includes opto-coupler and silicon controlled rectifier, pin 4 and the control pole of silicon controlled rectifier of opto-coupler are connected, and pin 2 and the singlechip P1.3 pin of opto-coupler are connected, and the singlechip provides gate pole voltage for the silicon controlled rectifier through the opto-coupler, the positive pole and the negative pole of silicon controlled rectifier are connected with heating plate 102 respectively to this adjusts the heat of heating plate 102, heating plate 102 is connected with the 220V power.

In order to make the product have the massage function, and the output of the intermediate frequency unit 2 can be adjusted, as shown in fig. 3, the intermediate frequency unit 2 includes two pulse generating circuits 201, two high voltage operational amplifier chips 202 and two electrode plates, the pulse generating circuit 201 includes a PWM driving circuit and a voltage boosting circuit, the PWM driving circuit includes NPN-type and PNP-type triodes, the bases of the NPN-type and PNP-type triodes of the first pulse generating circuit 201 are connected with pins P1.1 and P2.7 of the single chip, the bases of the NPN-type and PNP-type triodes of the second pulse generating circuit 201 are connected with pins P1.0 and P2.6 of the single chip, the single chip simulates PWM signals to control the on and off of the NPN-type and PNP-type triodes, one end of the voltage boosting circuit is connected with the PWM driving circuit, the other end of the voltage boosting circuit is connected with the input end of the high voltage operational amplifier chip 202, the high voltage operational amplifier chip 202 is used for, the output end of the high-voltage operational amplifier chip 202 is connected with the electrode plate.

In the embodiment, the intermediate frequency voltage is 30V-50V.

In order to make the product have a spectrum physiotherapy function, as shown in fig. 5, the laser unit 3 includes a laser instrument 301 and a laser instrument driving circuit 302, the laser instrument driving circuit 302 includes an NPN-type triode, a base of the NPN-type triode is connected to a P5.4 pin of the single chip, and a collector of the NPN-type triode is connected to an input end of the laser instrument 301.

In order to enable a user to observe the temperature of the heating plate 102 during the current moxibustion treatment through the display unit 8, the heating plate 102 is provided with a temperature measuring circuit 7, the temperature measuring circuit 7 comprises a thermistor 701, and the thermistor 701 is connected with a pin of a single chip microcomputer P1.2.

In order to avoid the situation that the internal temperature of the product is too high when the product is used, the main control unit 4 is connected with a fan and a temperature sensor, specifically, a P3.7 pin of the single chip microcomputer is connected with the fan through a triode, the single chip microcomputer drives a triode to control the fan to run in an on-off mode, a P2.6 pin of the single chip microcomputer is connected with the temperature sensor, and the single chip microcomputer controls the fan to start and stop according to temperature data detected by the temperature sensor.

In order to facilitate switching, size adjustment and start-stop of each function, in this embodiment, the key unit 5 includes four keys, which are S1, S2, S3 and S4, respectively, where S1 is used to input a start-stop signal, S2 is used to switch functions, S3 is used to increase a gear, S4 is used to decrease the gear, and S1 to S4 are connected to pins P1.4 to P1.7 of the single chip microcomputer, respectively.

In order to make the product when carrying out the physiotherapy to the position that some users such as back can't press the button with the hand, the physiotherapy equipment still can carry out the function and switch, size adjustment and open and stop the operation, infrared unit 6 includes infrared receiver, and infrared emitter, infrared receiver receives infrared emitter's signal, and infrared receiver is connected with the P3.2 pin of singlechip, and infrared emitter is provided with four buttons K1~ K4, and K1 is used for the input to open and stop the signal, and K2 is used for the function to switch, and K3 is used for keeping off the gear increase, and K4 is used for keeping off the gear reduction.

In order to enable the product to display the current mode, the temperature and other states, the display unit 8 includes a display driver chip and a DIS display screen, the display driver chip adopts an A1P1604 chip, pins DIN and SC L K of the driver chip are connected with pins P3.4 and P3.3 of the single chip microcomputer, and an output end of the driver chip is connected with the DIS display screen.

When moxibustion therapy is carried out, firstly, moxa sheets are put into the heating disc 102, then the physiotherapy instrument is worn on a part needing moxibustion therapy, a key S1 is pressed down or a starting instruction is sent to the main control unit through an infrared emitter key K1, the physiotherapy instrument executes a moxibustion function, the main control unit 4 controls the heating unit 1 to work, the moxibustion point is acted through the stimulation of moxa fire (non-naked fire), the treatment purpose is achieved, the key S3 is pressed down or the infrared emitter key K3 is pressed down, the main control unit 4 increases the heat of the heating disc 102 through the heating disc driving circuit 101, the key S4 is pressed down or the infrared emitter key is pressed down, the heat of the heating disc 102 is reduced, the monitoring data of the temperature sensor is transmitted to the main control unit 4, the upper limit value of the temperature is written in the main control unit 4, when the temperature data transmitted by the temperature sensor is larger than the upper limit value of the temperature written in the main control unit 4, the main control unit 4 controls the fan, thereby improving the comfort of the user when in use and avoiding scalding during treatment.

When the function is required to be switched, the key S2 is pressed or the infrared emitter key K2 is pressed, the main control unit 4 sends out pulse signals through the two pulse generating circuits 201, the intermediate frequency voltage output by the intermediate frequency unit 2 is controlled to generate electric stimulation on the human body through the electrode slice, the massage effect is achieved, meanwhile, the key S3 or the infrared emitter key S3 is pressed, the main control unit 4 simulates PWM signals to improve the duty ratio, the intermediate frequency voltage output by the intermediate frequency unit 2 is increased, the key S4 is pressed or the infrared emitter key K4 is pressed to control the intermediate frequency voltage output by the intermediate frequency unit 2 to be reduced, and therefore the strength of the electric stimulation generated by the electrode slice on the human body is adjusted.

Pressing the key S2 or pressing the infrared emitter key K2 for two times continuously switches the physiotherapy instrument to the spectrum physiotherapy function, the main control unit 4 controls the laser instrument 301 to be electrified and operated by enabling the triode to be conducted, and the laser instrument 301 emits red light to perform spectrum physiotherapy.

During the use, the working state under the current mode can be observed through the display unit, the current function is closed by pressing the button S1 or pressing the infrared emitter button S1 after the physiotherapy is finished, and the physiotherapy instrument is turned off.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (8)

1. The utility model provides an electron physiotherapy health preserving instrument, its characterized in that, including heating unit (1) that is used for moxibustion therapy, intermediate frequency unit (2) that are used for massage and laser unit (3) that are used for the spectrum physiotherapy, be connected with main control unit (4) between heating unit (1), intermediate frequency unit (2) and laser unit (3), main control unit (4) are connected with button unit (5) and infrared unit (6), and main control unit (4) are used for opening according to button unit (5) and infrared unit (6) transmitted instruction control heating unit (1), intermediate frequency unit (2) and laser unit (3) and open and stop and switch, and main control unit (4) are connected with display element (8) that are used for showing current mode and each item data.

2. The electronic physiotherapy instrument according to claim 1, wherein the main control unit (4) comprises a single-chip microcomputer minimum system.

3. The electronic physiotherapy health apparatus according to claim 1, wherein the heating unit (1) comprises a heating plate (102) and a heating plate driving circuit (101), the heating plate driving circuit (101) comprises an optical coupler and a silicon controlled rectifier, a pin 4 of the optical coupler is connected with a control electrode of the silicon controlled rectifier, a pin 2 of the optical coupler is connected with a main control unit (4), the main control unit (4) provides gate voltage for the silicon controlled rectifier through the optical coupler, an anode and a cathode of the silicon controlled rectifier are respectively connected with the heating plate (102), and the heating plate (102) is connected with a 220V power supply.

4. The electronic physiotherapy health-preserving instrument according to claim 1, wherein the intermediate frequency unit (2) comprises two pulse generating circuits (201), two high-voltage operational amplifier chips (202) and two electrode plates, the pulse generating circuit (201) comprises a PWM driving circuit and a boosting circuit, the PWM driving circuit comprises NPN type and PNP type triodes, bases of the NPN type and PNP type triodes are connected with the main control unit (4), the main control unit (4) simulates PWM signals to control the NPN type and PNP type triodes to be switched on and off, one end of the boosting circuit is connected with the PWM driving circuit, the other end of the boosting circuit is connected with an input end of the high-voltage operational amplifier chip (202), the high-voltage operational amplifier chip (202) is used for generating intermediate frequency voltage, and an output end of the high-voltage operational amplifier chip (202) is connected with the electrode plates.

5. The electronic physiotherapy health apparatus according to claim 1, wherein the laser unit (3) comprises a laser instrument (301) and a laser instrument drive circuit (302), the laser instrument drive circuit (302) comprises an NPN type triode, the base of the NPN type triode is connected with the main control unit (4), and the collector of the NPN type triode is connected with the input end of the laser instrument (301).

6. The electronic physiotherapy health apparatus according to claim 3, wherein the heating plate (102) is provided with a temperature measuring circuit (7), the temperature measuring circuit (7) comprises a thermistor (701), and the thermistor (701) is connected with the main control unit (4).

7. The electronic physiotherapy health apparatus according to claim 2, wherein the main control unit (4) is connected with a fan and a temperature sensor, and the main control unit (4) controls the fan to be started or stopped according to temperature data detected by the temperature sensor.

8. The electronic physiotherapy health apparatus according to claim 1, wherein the key unit (5) comprises a plurality of keys, the keys are respectively connected with an input end of the main control unit (4), the infrared unit (6) comprises an infrared receiver and an infrared transmitter, the infrared receiver is connected with the input end of the main control unit (4), the display unit (8) is used for displaying the gear position in the current mode, the display unit (8) comprises a display driver chip and a DIS display screen, the input end of the display driver chip is connected with the main control unit (4), and the output end of the display driver chip is connected with the DIS display screen.

Images