CN210472369U - Multichannel physiotherapy instrument for neurology - Google Patents

Abstract

The utility model provides a multichannel physiotherapy equipment for department of neurology which characterized in that: the physiotherapy equipment comprises a shell, wherein a control mainboard is arranged in the shell and comprises a main control chip, the main control chip is connected with a plurality of output modules through wires, each output module comprises an output channel, a filter, a triode and a rectifier diode which are electrically connected are arranged in each output channel, the main control chip is connected with an input device through a flat cable, the main control chip is connected with a display screen through a contact pin, each output channel is respectively clamped with a physiotherapy connector, each output channel is respectively and oppositely provided with a conductive boss, each conductive boss is respectively internally provided with a driving cylinder, and a piston rod of each driving cylinder is respectively provided with a conductive rod; the information is input to the main control chip through the mechanical keyboard, and the information of the patient is displayed in the physiotherapy process through the display screen, so that the rehabilitation device has the advantages of accelerating the recovery rate and shortening the rehabilitation period.

Description

Multichannel physiotherapy instrument for neurology

The technical field is as follows:

the utility model relates to a multichannel physiotherapy equipment for department of neurology.

Background art:

neurology is a secondary subject of neurology, and mainly treats cerebrovascular diseases, migraine, brain inflammatory diseases, myelitis, epilepsy, dementia, metabolic diseases, genetic predisposition diseases and the like.

With the acceleration of social rhythm, more and more people suffer from neurologic diseases because people are under tension and stress for a long time and the phenomena of easy excitation and easy fatigue of mind appear.

At present, the biggest influence of neurologic diseases is the limb movement ability of a patient, so that limb training is a training key point in the rehabilitation training process of the patient; and on current department of neurology disease trainer just the simple exercise of passing through comes to resume patient's motion ability gradually, and patient's recovery speed is slower, and the recovery cycle is longer.

The utility model has the following contents:

the embodiment of the utility model provides a multichannel physiotherapy equipment for department of neurology, structural design is reasonable, can be at the in-process that the rehabilitation training was done to the patient, adopts a plurality of output channel to carry out the adjunctie therapy to different positions on patient's four limbs, promotes patient's recovery speed, reduces patient's recovered cycle, has solved the problem that exists among the prior art.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be:

a multichannel physiotherapy instrument for neurology comprises a shell, wherein a control mainboard is arranged in the shell and comprises a main control chip, the main control chip is connected with a plurality of output modules through wires, each output module comprises an output channel, a filter, a triode and a rectifier diode which are electrically connected are arranged in each output channel, the main control chip is connected with an input device through a flat cable, the main control chip is connected with a display screen through a contact pin, each output channel is respectively clamped with a physiotherapy connector, each output channel is respectively and oppositely provided with a conductive boss, each conductive boss is respectively and internally provided with a driving cylinder, a piston rod of each driving cylinder is respectively provided with a conductive rod, the inner surface of each conductive boss is respectively provided with a first through hole matched with the conductive rod, and the inner surface of each conductive boss is also provided with a photoelectric sensor, every physiotherapy connects and is equipped with the draw-in groove with electrically conductive boss matched with respectively, is equipped with respectively in every draw-in groove with conducting rod matched with second through-hole, is equipped with the contact switch on every second through-hole respectively, is equipped with the response subassembly corresponding with photoelectric sensor in every draw-in groove respectively to trigger and drive actuating cylinder action, be equipped with the rotating electrical machines on every physiotherapy connects, be equipped with thermotherapy layer and magnetotherapy layer on every rotating electrical machines's output shaft, thermotherapy layer and magnetotherapy layer link to each other with the contact switch through the wire respectively, it links to each other with output module to drive actuating cylinder, rotating electrical machines and photoelectric sensor.

The main control chip is characterized in that the main control chip is MT7688 in model, a plurality of input pins and output pins are arranged on the main control chip, the main control chip is connected with a serial port communication module through a TXD pin and a RXD pin, a watchdog module is connected through a SWCLK pin, a timer module is connected through an I2C SCLK pin, and a voltage stabilizing module is connected through a VDD WIFI pin.

The serial communication module is MAX13487 in model number, eight pins are arranged on the serial communication module, a pin on the serial communication module is connected with an RXD pin on a communication chip, a pin II and a pin III are connected with a VDD WIFI pin on a main control chip through a resistor R9, a pin IV is connected with a TXD pin on the main control chip, a pin V is grounded, a pin VI and a pin VII are connected with a transmission serial port, a pin VII is grounded through a resistor R11, a pin VI is connected with a pin VIII through a resistor R8, a pin VIII is connected with a WIFI VDD pin on the main control chip, and a pin VIII is grounded through a capacitor C18.

The model of the watchdog module is SP706, eight pins are arranged on the watchdog module, a pin barrel on the watchdog module is connected with the eight pins through a resistor R89, a pin II is connected with a VDD WIFI pin on the main control chip, the pin II is grounded through a capacitor C53, a pin III and a pin IV are short-circuited and grounded, a pin V is suspended, a pin VI is connected with the VDD WIFI pin on the main control chip through a resistor R87, the pin VI is connected with a SWCLK pin on the main control chip through a diode D1, a pin VII is connected with the VDD pin on the main control chip through a resistor R88, and a pin VII is grounded through a capacitor C54.

The model of the timer module is DS1302, eight pins are arranged on the timer module, a first pin of the timer chip is connected with a VDD WIFI pin on the main control chip, the first pin is arranged in a grounded mode through a capacitor C19, a second pin and a third pin are connected with a crystal oscillator device, the second crystal oscillator device comprises a crystal oscillator Y1, capacitors C22 and C23 are connected to the crystal oscillator Y1 in parallel, capacitors C22 and C23 are arranged in a grounded mode, a fourth pin is arranged in a grounded mode, a fifth pin is connected with the VDD WIFI pin on the main control chip through a resistor R15, a sixth pin is connected with the VDD WIFI pin on the main control chip through a resistor R39, a seventh pin is connected with an I2C SCLK pin on the main control chip, a seventh pin is connected with the VDD pin on the main control chip through a resistor R38, and an eighth pin is connected with a battery BT1 arranged in a grounded mode.

The model of voltage stabilizing module is TLV62569, be equipped with five pins on voltage stabilizing module, a pin and No. four pins are the short circuit mutually, be connected with input power VDD IN through resistance R21, No. two pins pass through electric capacity C28 and resistance R21 and link to each other with input power, No. two pin ground connection sets up, No. three pins are connected with output power through inductance L4 and resistance R94, No. five pins pass through electric capacity C29 and resistance R94 and link to each other with output power VDD OUT, No. five pins pass through resistance R95 ground connection and set up, No. three pins pass through electric capacity C30 ground connection and set up.

And the output power supply VDD OUT is connected with a VDD WIFI pin on the main control chip through a wire.

The main control chip is further connected with an acousto-optic alarm module through a wire, and the acousto-optic alarm module comprises an indicator light and a loudspeaker.

The input device is a mechanical keyboard, and the model of the photoelectric sensor is OH-1021.

Each output channel is connected with a button switch through a lead respectively.

The utility model adopts the above structure, a plurality of different positions of the patient can be treated with physical therapy through a plurality of output channels, and a stable driving signal is provided for the patient to drive the thermotherapy layer and the magnetic therapy layer through the matching of the main control chip, the serial port communication module, the watchdog module, the timer module and the voltage stabilizing module; the thermotherapy layer and the magnetic therapy layer are driven to rotate by the rotating motor, so that a plurality of instruction modes are provided for a patient, and the recovery speed of the patient is accelerated; the information is input to the main control chip through the mechanical keyboard, and the information of the patient is displayed in the physiotherapy process through the display screen, so that the rehabilitation device has the advantages of accelerating the recovery rate and shortening the rehabilitation period.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the output channel of the present invention.

Fig. 3 is a schematic structural view of the conductive boss of the present invention.

Fig. 4 is a schematic structural view of the physiotherapy joint of the present invention.

Fig. 5 is a schematic structural view of a slot on the physiotherapy connector of the present invention.

Fig. 6 is a schematic view of the internal structure of the physiotherapy joint of the present invention.

Fig. 7 is a schematic structural diagram of the output module of the present invention.

Fig. 8 is a schematic structural diagram of the sound and light alarm module of the present invention.

Fig. 9 is an electrical schematic diagram of the present invention.

Fig. 10 is an electrical schematic diagram of the main control chip of the present invention.

Fig. 11 is an electrical schematic diagram of the serial communication module of the present invention.

Fig. 12 is an electrical schematic diagram of the watchdog module of the present invention.

Fig. 13 is an electrical schematic diagram of the timer module of the present invention.

Fig. 14 is an electrical schematic diagram of the voltage stabilization module of the present invention.

In the figure, the device comprises a shell 1, a shell 2, an output channel 3, a display screen 4, a physiotherapy connector 5, a conductive boss 6, a driving cylinder 7, a conductive rod 8, a first through hole 9, a photoelectric sensor 10, a clamping groove 11, a second through hole 12, a contact switch 13, an induction component 14, a rotating motor 15, a thermotherapy layer 16, a magnetotherapy layer 17, an indicator light 18, a loudspeaker 19, a button switch 20 and a mechanical keyboard.

The specific implementation mode is as follows:

in order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings.

As shown in fig. 1-14, a multichannel physiotherapy instrument for neurology comprises a housing 1, a control main board is arranged in the housing 1, the control main board comprises a main control chip, the main control chip is connected with a plurality of output modules through wires, the output modules comprise output channels 2, a filter, a triode and a rectifier diode which are electrically connected are arranged in each output channel 2, the main control chip is connected with an input device through a flat cable, the main control chip is connected with a display screen 3 through a contact pin, a physiotherapy connector 4 is respectively clamped on each output channel 2, conductive bosses 5 are respectively and oppositely arranged in each output channel 2, a driving cylinder 6 is respectively arranged in each conductive boss 5, a conductive rod 7 is respectively arranged on a piston rod of each driving cylinder 6, a first through hole 8 matched with the conductive rod 7 is respectively arranged on the inner surface of each conductive boss 5, the inner surface of each conductive boss 5 is also provided with a photoelectric sensor 9, each physiotherapy joint 4 is respectively provided with a clamping groove 10 matched with the conductive boss 5, each clamping groove 10 is respectively provided with a second through hole 11 matched with the conductive rod 7, each second through hole 11 is respectively provided with a contact switch 12, each clamping groove 10 is respectively provided with a sensing component 13 corresponding to the photoelectric sensor 9 so as to trigger the driving cylinder 6 to act, each physiotherapy joint 4 is provided with a rotating motor 14, an output shaft of each rotating motor 14 is provided with a thermotherapy layer 15 and a magnetotherapy layer 16, the thermotherapy layer 15 and the magnetotherapy layer 16 are respectively connected with the contact switch 12 through leads, and the driving cylinder 6, the rotating motor 14 and the photoelectric sensor 9 are connected with an output module.

The main control chip is characterized in that the main control chip is MT7688 in model, a plurality of input pins and output pins are arranged on the main control chip, the main control chip is connected with a serial port communication module through a TXD pin and a RXD pin, a watchdog module is connected through a SWCLK pin, a timer module is connected through an I2C SCLK pin, and a voltage stabilizing module is connected through a VDD WIFI pin.

The serial communication module is MAX13487 in model number, eight pins are arranged on the serial communication module, a pin on the serial communication module is connected with an RXD pin on a communication chip, a pin II and a pin III are connected with a VDD WIFI pin on a main control chip through a resistor R9, a pin IV is connected with a TXD pin on the main control chip, a pin V is grounded, a pin VI and a pin VII are connected with a transmission serial port, a pin VII is grounded through a resistor R11, a pin VI is connected with a pin VIII through a resistor R8, a pin VIII is connected with a WIFI VDD pin on the main control chip, and a pin VIII is grounded through a capacitor C18.

The model of the watchdog module is SP706, eight pins are arranged on the watchdog module, a pin barrel on the watchdog module is connected with the eight pins through a resistor R89, a pin II is connected with a VDD WIFI pin on the main control chip, the pin II is grounded through a capacitor C53, a pin III and a pin IV are short-circuited and grounded, a pin V is suspended, a pin VI is connected with the VDD WIFI pin on the main control chip through a resistor R87, the pin VI is connected with a SWCLK pin on the main control chip through a diode D1, a pin VII is connected with the VDD pin on the main control chip through a resistor R88, and a pin VII is grounded through a capacitor C54.

The model of the timer module is DS1302, eight pins are arranged on the timer module, a first pin of the timer chip is connected with a VDD WIFI pin on the main control chip, the first pin is arranged in a grounded mode through a capacitor C19, a second pin and a third pin are connected with a crystal oscillator device, the second crystal oscillator device comprises a crystal oscillator Y1, capacitors C22 and C23 are connected to the crystal oscillator Y1 in parallel, capacitors C22 and C23 are arranged in a grounded mode, a fourth pin is arranged in a grounded mode, a fifth pin is connected with the VDD WIFI pin on the main control chip through a resistor R15, a sixth pin is connected with the VDD WIFI pin on the main control chip through a resistor R39, a seventh pin is connected with an I2C SCLK pin on the main control chip, a seventh pin is connected with the VDD pin on the main control chip through a resistor R38, and an eighth pin is connected with a battery BT1 arranged in a grounded mode.

The model of voltage stabilizing module is TLV62569, be equipped with five pins on voltage stabilizing module, a pin and No. four pins are the short circuit mutually, be connected with input power VDD IN through resistance R21, No. two pins pass through electric capacity C28 and resistance R21 and link to each other with input power, No. two pin ground connection sets up, No. three pins are connected with output power through inductance L4 and resistance R94, No. five pins pass through electric capacity C29 and resistance R94 and link to each other with output power VDD OUT, No. five pins pass through resistance R95 ground connection and set up, No. three pins pass through electric capacity C30 ground connection and set up.

And the output power supply VDD OUT is connected with a VDD WIFI pin on the main control chip through a wire.

The main control chip is also connected with an acousto-optic alarm module through a wire, and the acousto-optic alarm module comprises an indicator light 17 and a loudspeaker 18.

The input device is a mechanical keyboard 20, and the model of the photoelectric sensor 9 is OH-1021.

Each output channel 2 is connected with a button switch 19 through a lead respectively.

When the device is used, the information and the operation parameters of a patient are input into the main control chip through the mechanical keyboard 20, the main control chip sends instructions to the output module, and under the action of a filter, a rectifier diode and a triode in the output module, stable power supply voltage is provided for the thermal therapy layer 15 and the magnetic therapy layer 16 on the output channel 2, and the driving cylinder 6 and the rotating motor 14 can also be driven to act; the physiotherapy connector 4 is clamped on the output channel 2 through the matching of the conductive boss 5 in the output channel 2 and the clamping groove 10 in the physiotherapy connector 4, the photoelectric sensor 9 of the conductive boss 5 and the sensing component 13 in the clamping groove 10 adjust the relative position of the physiotherapy connector 4 in the output channel 2, when the sensing component 13 senses a photoelectric signal sent by the photoelectric sensor 9, it is indicated that the first through hole 8 in the conductive boss 5 and the second through hole 11 in the clamping groove 10 are on the same straight line, the main control chip sends an instruction to the driving cylinder 6, the driving cylinder 6 acts to drive the conductive rod 7 to sequentially pass through the first through hole 8 and the second through hole 11, the contact switch 12 is switched on, and a stable voltage signal is provided for the magnetotherapy layer 15 and the thermotherapy layer 16; the main control chip sends instructions to the rotating motor 14 to drive the magnetic therapy layer 15 and the thermal therapy layer 16 to rotate, so that various physical therapy modes are provided for the patient; the button switch 19 arranged on each output channel 2 can control the on-off of each output channel 2; the main control chip is connected with a display screen 3 through a flat cable, and can display the working state of each output channel 2 and the information of a patient; the main control chip is connected with a voltage stabilizing module, the model of the voltage stabilizing module is TLV62569, and the voltage stabilizing module is matched with a peripheral circuit to provide stable power supply voltage for the main control chip so as to ensure the stability of the physiotherapy instrument; the main control chip is connected with a watchdog module, the type of the watchdog module is SP706, and the watchdog module can prevent the program from generating endless loop or running away when the main control chip runs the program; the master control chip is connected with a timer module, the type of the timer module is DS1302, and the running time of the master control chip can be recorded when the master control chip runs a program; the main control chip is connected with a serial port communication module, the model of the serial port communication module is MAX13487, the main control chip sends information to a remote host through the serial port communication module and feeds back the running state of the physiotherapy instrument to the remote host, the main control chip is also connected with an acousto-optic alarm module, the acousto-optic alarm module is provided with an indicator lamp 17 and a loudspeaker 18, when the physiotherapy instrument fails, the indicator lamp 17 and the loudspeaker 18 act to give an alarm to prevent the physiotherapy instrument from being damaged; can connect stable supply voltage for the physiotherapy through a plurality of functional modules of main control chip cooperation, for department of neurology patient improves supplementary physiotherapy at the rehabilitation training in-process, promote patient's recovery rate, reduce patient's recovery cycle.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (10)

1. The utility model provides a multichannel physiotherapy equipment for department of neurology which characterized in that: the device comprises a shell, a control main board is arranged in the shell and comprises a main control chip, the main control chip is connected with a plurality of output modules through a lead, each output module comprises an output channel, a filter, a triode and a rectifier diode which are electrically connected are arranged in each output channel, the main control chip is connected with an input device through a flat cable, the main control chip is connected with a display screen through a contact pin, a physiotherapy connector is clamped on each output channel respectively, a conductive boss is arranged in each output channel respectively and oppositely, a driving cylinder is arranged in each conductive boss, a conductive rod is arranged on a piston rod of each driving cylinder respectively, a first through hole matched with the conductive rod is arranged on the inner surface of each conductive boss respectively, a photoelectric sensor is also arranged on the inner surface of each conductive boss, and a clamping groove matched with the conductive boss is arranged on each physiotherapy connector respectively, the multifunctional physiotherapy device is characterized in that a second through hole matched with the conducting rod is formed in each clamping groove, a contact switch is arranged on each second through hole, a sensing assembly corresponding to the photoelectric sensor is arranged in each clamping groove respectively to trigger the driving cylinder to act, a rotating motor is arranged on each physiotherapy connector, a thermotherapy layer and a magnetotherapy layer are arranged on an output shaft of each rotating motor, the thermotherapy layer and the magnetotherapy layer are connected with the contact switches through leads respectively, and the driving cylinder, the rotating motor and the photoelectric sensor are connected with an output module.

2. The multichannel physiotherapy instrument for neurology department of claim 1, wherein: the main control chip is MT7688 in model number, a plurality of input pins and output pins are arranged on the main control chip, the main control chip is connected with a serial port communication module through a TXD pin and an RXD pin, a watchdog module is connected through an SWCLK pin, a timer module is connected through an I2CSCLK pin, and a voltage stabilizing module is connected through a VDD WIFI pin.

3. The multichannel physiotherapy instrument for neurology department of claim 2, wherein: the serial communication module is MAX13487 in model number, eight pins are arranged on the serial communication module, a pin on the serial communication module is connected with an RXD pin on a communication chip, a pin II and a pin III are connected with a VDD WIFI pin on a main control chip through a resistor R9, a pin IV is connected with a TXD pin on the main control chip, a pin V is grounded, a pin VI and a pin VII are connected with a transmission serial port, a pin VII is grounded through a resistor R11, a pin VI is connected with a pin VIII through a resistor R8, a pin VIII is connected with a WIFI VDD pin on the main control chip, and a pin VIII is grounded through a capacitor C18.

4. The multichannel physiotherapy instrument for neurology department of claim 2, wherein: the model of the watchdog module is SP706, eight pins are arranged on the watchdog module, a pin barrel on the watchdog module is connected with the eight pins through a resistor R89, a pin II is connected with a VDD WIFI pin on the main control chip, the pin II is grounded through a capacitor C53, a pin III and a pin IV are short-circuited and grounded, a pin V is suspended, a pin VI is connected with the VDD WIFI pin on the main control chip through a resistor R87, the pin VI is connected with a SWCLK pin on the main control chip through a diode D1, a pin VII is connected with the VDD pin on the main control chip through a resistor R88, and a pin VII is grounded through a capacitor C54.

5. The multichannel physiotherapy instrument for neurology department of claim 2, wherein: the model of the timer module is DS1302, eight pins are arranged on the timer module, a pin of the timer chip is connected with a VDDCWIFI pin on the main control chip, the pin is grounded through a capacitor C19, a crystal oscillator device is connected to a pin II and a pin III, the crystal oscillator device comprises a crystal oscillator Y1, a capacitor C22 and a capacitor C23 are connected to the crystal oscillator Y1 in parallel, a capacitor C22 and a capacitor C23 are grounded, a pin IV is grounded, a pin V is connected with the WIFI pin on the main control chip through a resistor R15, a pin VI is connected with the VDD WIFI pin on the main control chip through a resistor R39, a pin VII is connected with an I2CSCLK pin on the main control chip, a pin VII is connected with the WIFI pin on the main control chip through a resistor R38, and a pin VIII is connected with a battery BT1 which is grounded.

6. The multichannel physiotherapy instrument for neurology department of claim 2, wherein: the model of voltage stabilizing module is TLV62569, be equipped with five pins on voltage stabilizing module, a pin and No. four pins are short circuit mutually, be connected with input power supply VDDIN through resistance R21, No. two pins pass through electric capacity C28 and resistance R21 and link to each other with input power supply, No. two pin ground connection sets up, No. three pins are connected with output power supply through inductance L4 and resistance R94, No. five pins pass through electric capacity C29 and resistance R94 and link to each other with output power supply VDD OUT, No. five pins pass through resistance R95 ground connection sets up, No. three pins pass through electric capacity C30 ground connection sets up.

7. The multichannel physiotherapy instrument for neurology department of claim 6, wherein: and the output power supply VDD OUT is connected with a VDD WIFI pin on the main control chip through a wire.

8. The multichannel physiotherapy instrument for neurology department of claim 1, wherein: the main control chip is further connected with an acousto-optic alarm module through a wire, and the acousto-optic alarm module comprises an indicator light and a loudspeaker.

9. The multichannel physiotherapy instrument for neurology department of claim 1, wherein: the input device is a mechanical keyboard, and the model of the photoelectric sensor is OH-1021.

10. The multichannel physiotherapy instrument for neurology department of claim 1, wherein: each output channel is connected with a button switch through a lead respectively.

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