CN103721301B - Controlled in wireless electric intelligent health-care negative pressure cup - Google Patents

Abstract

The present invention provides a kind of controlled in wireless electric intelligent health-care negative pressure cup, it is formed by connecting by screw-button by upper tank body and lower tank, also there is a wireless controller, there is inside described upper tank body minipump, pressure transducer, cpu chip, control circuit plate, lithium ion battery, display lamp and radio transceiver；Be provided with cpu chip on described control circuit plate, vacuum pump drives control circuit, charge management circuit, sensor control circuit, switching on and shutting down logic control circuit and USB communication interface circuit；This cpu chip has external crystal-controlled oscillation.The invention has the beneficial effects as follows by the quasi-digitized of negative pressure scale of cupping physiotherapy teacher's cup, can have the function being automatically replenished pressure, user can remote control start and stop Electric negative pressure tank or adjust the force value in negative-pressure cup voluntarily.

Description

Controlled in wireless electric intelligent health-care negative pressure cup

Technical field

The invention belongs to medical science physical therapy apparatus field, especially relate to a kind of controlled in wireless electric intelligent health-care negative pressure cup, be used for replacing tradition cupping.

Background technology

" cupping therapy " is as a kind of traditional remedies of the traditional Chinese medical science, the medical mode of its uniqueness and quick curative effect, accepted extensively by national or even the people of the world and like, its principle is made by heating power and gets rid of tank air, negative pressure is utilized to make cupping be adsorbed in skin surface, forming a kind for the treatment of method of congestion phenomenon, but this needs operator to have the technology of consummation, ordinary people not easily grasps.

In order to meet the demand of numerous clients, design one can accurately control negative pressure in cupping, and can freely set the intelligent cupping of negative pressure value according to client's individual physique and be very important.But market is but without ripe electronics automatic cupping at present, it is primarily due to when electromechanical equipment, vaccum pump unit, sensor device and power-supply device are integrated in small negative pressure tank, the problem that there is the aspects such as volume is big, cost is high, poor air-tightness, thus this product not easily realizes standardization batch production, the concordance of product receives very big impact.And more do not have a product can the individual electronic intelligent health-care negative-pressure cup that be applicable to different stress crowds of wireless remote control on the market.

Summary of the invention

The problem to be solved in the present invention is to provide a kind of controlled in wireless electric intelligent health-care negative pressure cup, especially can by the quasi-digitized of negative pressure scale of cupping physiotherapy teacher's cup, there is the function being automatically replenished pressure, and user can remote control start and stop Electric negative pressure tank or adjust the force value in negative-pressure cup voluntarily.

For solving above-mentioned technical problem, the technical solution used in the present invention is: a kind of controlled in wireless electric intelligent health-care negative pressure cup, it is formed by connecting by screw-button by upper tank body and lower tank, also there is a wireless controller, there is inside described upper tank body minipump, pressure transducer, cpu chip, control circuit plate, lithium ion battery, display lamp and radio transceiver；Be provided with cpu chip on described control circuit plate, vacuum pump drives control circuit, charge management circuit, sensor control circuit, switching on and shutting down logic control circuit and USB communication interface circuit；Described vacuum pump drives control circuit, charge management circuit, sensor control circuit, switching on and shutting down logic control circuit and USB communication interface circuit all to access cpu chip, and described radio transceiver accesses cpu chip by radio communication circuit；Described minipump accesses vacuum pump and drives control circuit, and pressure transducer accesses sensor control circuit, and lithium ion battery accesses charge management circuit, and described display lamp is by being electrically connected on control circuit plate.

By such scheme, the upper tank body of described negative-pressure cup includes upper tank body shell, Strengthened hold, upper cover and central dividing plate, and Strengthened hold is positioned at inside upper tank body shell, and Strengthened hold top and upper cover are threaded connection, and central dividing plate is positioned at bottom Strengthened hold；Described Strengthened hold is rectangular cylinder, is provided with minipump, motor, pressure transducer, lithium ion battery, control circuit plate, display lamp and radio transceiver in it；Described control circuit plate includes a rectangular patch circuit board and is erected in Strengthened hold, described rectangular patch circuit board upper end is connected to key switch, USB interface, buzzer and display lamp, described display lamp is two LED lights, the color of two LED lights is different, also include a round sheet circuit board level and be positioned at bottom Strengthened hold, described round sheet circuit board is provided with pressure transducer and radio transceiver, and rectangular patch circuit board is connected by pricking with needle with round sheet circuit board；Described upper cover is round sheet, and this upper cover has a button, a USB receptacle, turnover gas control valve hole and two indicator lamp holes；Described central dividing plate is circular slab, and it has air passing hole and little hallway hole, and air passing hole passes sequentially through a check valve, a middle air passing hole is connected with vacuum pump, and a sebific duct is connected through little hallway hole with pressure transducer；Described lower tank is transparent hollow cylinder, and this lower tank top has ring-shaped rubber pad, has screw-button outside upper end, has the dividing plate with taper pore inside upper end；Described lower tank tank mouth edge-smoothing；

By such scheme, described cpu chip U4 is embedded microcontroller STM32F103C8T6, and described chip has external crystal-controlled oscillation, and described external crystal-controlled oscillation is the quartz-crystal resonator of 12MHz；

Described vacuum pump drives control circuit by switch pump control circuit, pump pressure control circuit and pump start and stop mu balanced circuit composition, described switch pump control circuit is in series with the first N-channel field effect transistor (Q4) by after first P-channel field-effect transistor (PEFT) pipe (Q3) resistance R8 in parallel, pricking with needle is accessed in this switch pump control circuit one end, the other end connects pump start and stop mu balanced circuit, described pump start and stop mu balanced circuit is connected with charge management circuit, described pump pressure control circuit is by pump seat (JP5), stamp-mounting-paper diode D6 and a resistor-capacitor series circuit are formed in parallel, described pump start and stop mu balanced circuit with forming power supply (PGND) is accessed in described pump pressure control circuit one end, the other end and the first P-channel field-effect transistor (PEFT) pipe (Q3) pin connect and access pricking with needle；

Described charge management circuit is made up of charging management chip (U7) compatible for USB and battery holder (BT1), one pin 4 of described charging management chip (U7) is connected with USB communication interface circuit by pricking with needle, pin 5 is accessed pricking with needle by battery holder (BT1) and is connected with sensor control circuit, pin 8 connects sensor control circuit and vacuum pump drives control circuit, and accesses pricking with needle by a resistance R21；

Described sensor control circuit includes boost chip (U2), the second P-channel field-effect transistor (PEFT) pipe (Q1), the second N-channel field effect transistor (Q2) and sensor chip (U1), described second P-channel field-effect transistor (PEFT) pipe (Q1) pin connects charge management circuit, another pin takes back in the middle of charge management circuit by boost chip (U2), described second N-channel field effect transistor (Q2) pin accesses pricking with needle, and described boost chip (U2) is connected with sensor chip (U1)；

Described switching on and shutting down logic control circuit is mainly by the 3rd P-channel field-effect transistor (PEFT) pipe (Q6), 4th P-channel field-effect transistor (PEFT) pipe (Q7), power supply chip (U6) and or logic input circuits constitute, one pin of described power supply chip (U6) is connected with cpu chip (U4), another pin is connected with pricking with needle by the 3rd P-channel field-effect transistor (PEFT) pipe (Q6) and the 4th P-channel field-effect transistor (PEFT) pipe (Q7), described 3rd P-channel field-effect transistor (PEFT) pipe (Q6) is connected with described or logic input circuits, it is somebody's turn to do or logic input circuits is made up of the 3rd N-channel field effect transistor (Q5) and Schottky diode D5, a described pin of the 3rd N-channel field effect transistor (Q5) and the positive pole of Schottky diode D5 are respectively connected to cpu chip；

Described USB communication interface main circuit to be insured (F1) by USB interface (CN1), electrostatic protection chip (U3) and self-recoverage and to form; USB interface (CN1) access cpu chip (U4) in parallel with electrostatic protection chip (U3) are accessed in described self-recoverage insurance (F1) one end.

The present invention has the advantage that and has the benefit effect that owing to adopting technique scheme, this negative-pressure cup can arrange the negative pressure dynamics of standard digital, respective negative pressure value is defaulted among the embedded chip in tank body, when client uses, embedded core product detect the negative pressure numerical value in tank body by the pressure transducer in tank body, thus adjusting the duty of vacuum pump in tank body, there is the function of in good time supplementary pressure, it is achieved that the effect of the cup dynamics of simulation cupping physiotherapy teacher；And solve on the market other electronics negative pressure tank volume is big, cost is high, gas leakage, poorly sealed can not the problem of automatic inflating device；Employing the external crystal-controlled oscillation that crystal oscillator frequency precision is high, the timing of cpu chip is more accurate；Owing to having wireless controller, user can pass through wireless remote control and control the negative pressure value in the start and stop of Electric negative pressure tank and tank voluntarily, product and can the negative pressure numerical value adjusted of automatic storage, thus realizing the user individual of product.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention

Fig. 2 is principles of the invention schematic diagram

Fig. 3 is that vacuum pump drives control circuit figure

Fig. 4 is charge management circuit figure

Fig. 5 is sensor control circuit figure

Fig. 6 is switching on and shutting down logic control circuitry diagram

Fig. 7 is USB communication interface circuit diagram

In figure:

1, upper tank body 2, lower tank 11, upper tank body shell

12, Strengthened hold 13, upper cover 14, central dividing plate

121, vacuum pump 122, motor 123, pressure transducer

124, lithium ion battery 125, rectangular patch circuit board 126, round sheet circuit board

21, ring-shaped rubber pad 22, dividing plate 3, wireless controller

Detailed description of the invention

As shown in Figure 1, the present invention relates to a kind of controlled in wireless electric intelligent health-care negative pressure cup, it is formed by connecting by screw-button by upper tank body 1 and lower tank 2, also include a wireless controller 3, the upper tank body 1 of this negative-pressure cup includes upper tank body shell 11, rectangular cylinder Strengthened hold 12, round sheet upper cover 13 and circular central dividing plate 14, it is internal that Strengthened hold 12 is positioned at upper tank body shell 11, and Strengthened hold top and upper cover 13 are threaded connection, and central dividing plate 14 is positioned at bottom Strengthened hold 12；Be provided with minipump 121 in Strengthened hold 12, motor 122, pressure transducer 123, lithium ion battery 124, radio transceiver, a rectangular patch circuit board being erected in Strengthened hold 12 125 and one are positioned horizontally in Strengthened hold 12 bottom circular chip circuit plate 126, this rectangular patch circuit 125 plate upper end is connected to key switch, USB interface, buzzer and two display lamps, and rectangular patch circuit board 125 is connected by pricking with needle with round sheet circuit board 126；Upper cover has a button, a USB receptacle, turnover gas control valve hole and two indicator lamp holes；Having air passing hole and little hallway hole on central dividing plate, air passing hole passes sequentially through check valve, middle air passing hole is connected with vacuum pump, and a sebific duct is connected through little hallway hole with pressure transducer；The lower tank 2 of negative-pressure cup is transparent hollow cylinder, and this lower tank top has ring-shaped rubber pad 21, has screw-button outside upper end, has the dividing plate 22 with taper pore inside upper end；Described lower tank tank mouth edge-smoothing；

In Fig. 1, pressure transducer is arranged on upper tank body circuit board, and dividing plate is preset with little hallway hole, and will have a hearing with sebific duct hole and pressure transducer connection, thus solving product leakage problem；The tank body of Electric negative pressure tank is made up of upper and lower tank body is easy to disinfecting and changing different model of lower tank；Two display lamp respectively relay indicating lights and charging and malfunction indicator lamp, display lamp can facilitate user to understand the duty of negative-pressure cup；User sends instruction by wireless controller to radio transceiver, and described instruction is processed by the incoming cpu chip of radio communication circuit, and cpu chip can control the work of wireless electric negative-pressure cup according to instruction.

As in figure 2 it is shown, vacuum pump drives control circuit, charge management circuit, sensor control circuit, switching on and shutting down logic control circuit and USB communication interface circuit all to access cpu controller.In the present embodiment, CPU microcontroller can be selected for adopting STM32F 32 super low-power consumption arm processors of series, and pressure transducer adopts high-precision single-chip pressure transducer.Under Electric negative pressure tank use state, the crawl signal of the key switch shown in Fig. 2 is transported to cpu controller and is started control signal as system boot and vacuum pump, and controls the sub-atmospheric level of 3 gears, and 50kp, 40kp, 30kp, in order to adapt to different stress crowds.User adjusts the negative pressure size of intelligent electric negative-pressure cup by manipulating wireless controller, product and can the negative pressure numerical value adjusted of automatic storage, thus realizing the user individual of product.

As shown in Figure 3, vacuum pump drives control circuit by switch pump control circuit, pump pressure control circuit and pump start and stop mu balanced circuit composition, described switch pump control circuit is in series with the first N-channel field effect transistor (Q4) by after first P-channel field-effect transistor (PEFT) pipe (Q3) resistance R8 in parallel, pricking with needle is accessed in this switch pump control circuit one end, the other end connects pump start and stop mu balanced circuit, described pump start and stop mu balanced circuit is connected with charge management circuit, described pump pressure control circuit is by pump seat (JP5), stamp-mounting-paper diode D6 and a resistor-capacitor series circuit are formed in parallel, described pump start and stop mu balanced circuit with forming power supply (PGND) is accessed in described pump pressure control circuit one end, the other end and the first P-channel field-effect transistor (PEFT) pipe (Q3) pin connect and access pricking with needle；

After button is pressed, cpu controller controls lithium ion battery power supply and accesses vacuum pump driving control circuit, Fig. 3 starts vacuum pump by vacuum pump seat (JP5), extract the air in negative-pressure cup and discharged by the air valve opening of upper cover, while vacuum pump work, cpu chip distribution electric energy is to buzzer circuit, buzzer instruction ring.

As shown in Figure 4, charge management circuit is made up of charging management chip (U7) compatible for USB and battery holder (BT1), one pin (4) of charging management chip (U7) is connected with USB communication interface circuit by pricking with needle, pin (5) accesses pricking with needle by battery holder (BT1) and is connected with sensor control circuit, pin (8) connects sensor control circuit and vacuum pump drives control circuit, and accesses pricking with needle by a resistance R21；

In the present embodiment, battery adopts rechargeable lithium ion batteries, battery is arranged on battery holder, battery accesses the work that circuit is whole negative-pressure cup and provides power supply, and in Fig. 4, charging management chip can adopt charging management chip CN3066B compatible for USB to be that lithium ion battery is charged.

As shown in Figure 5, sensor control circuit includes boost chip (U2), the second P-channel field-effect transistor (PEFT) pipe (Q1), the second N-channel field effect transistor (Q2) and sensor chip (U1), described second P-channel field-effect transistor (PEFT) pipe (Q1) pin connects charge management circuit, another pin takes back in the middle of charge management circuit by boost chip (U2), described second N-channel field effect transistor (Q2) pin accesses pricking with needle, and described boost chip (U2) is connected with sensor chip (U1).

After circuit ON, the voltage that lithium ion battery is distributed to by the boost chip in Fig. 5 is increased to 5V and is supplied to sensor power, working sensor gathers the atmospheric pressure value in negative-pressure cup, collection signal is passed to cpu controller process, when the negative pressure value that sensor detects reaches predetermined value, cpu controller cuts off the power supply supply to vacuum pump control circuit, vacuum pump quits work, in negative-pressure cup, negative regulation is at predetermined value place, when in negative-pressure cup, force value reduces, detection signal is passed to cpu controller by sensor, CPU controls power supply and distributes electric energy to vacuum pump, vacuum pump starts air in extraction negative-pressure cup, maintain negative pressure value stable in negative-pressure cup；In the present embodiment, sensor is MPXHZ6400A type baroceptor, and the model of boost chip is TPS60241.

As shown in Figure 6, described switching on and shutting down logic control circuit is mainly by the 3rd P-channel field-effect transistor (PEFT) pipe (Q6), 4th P-channel field-effect transistor (PEFT) pipe (Q7), power supply chip (U6) and or logic input circuits constitute, one pin of described power supply chip (U6) is connected with cpu chip (U4), another pin is connected with pricking with needle by the 3rd P-channel field-effect transistor (PEFT) pipe (Q6) and the 4th P-channel field-effect transistor (PEFT) pipe (Q7), described 3rd P-channel field-effect transistor (PEFT) pipe (Q6) is connected with described or logic input circuits, it is somebody's turn to do or logic input circuits is made up of the 3rd N-channel field effect transistor (Q5) and Schottky diode D5, a described pin of the 3rd N-channel field effect transistor (Q5) and the positive pole of Schottky diode D5 are respectively connected to cpu chip.

When button is pressed, in Fig. 6, the lithium ion battery linear manostat of power supply voltage of VIN end is stablized at 3V to system power supply, and power supply is enabled signal PWR_CTL after 1 second and is set to low level realization start by microcontroller time delay.System detects that cup did not have negative pressure can enable signal realization shutdown by automatic control power supply within 1 minute, plays the effect of power saving.In the present embodiment, the model of power supply chip is TPS76930DBVT.

As shown in Figure 7; USB communication interface main circuit to be insured (F1) by USB interface (CN1), electrostatic protection chip (U3) and self-recoverage and to form; USB interface (CN1) access cpu chip (U4) in parallel with electrostatic protection chip (U3) are accessed in described self-recoverage insurance (F1) one end.

User connects USB communication interface by external power source and the lithium ion battery in negative-pressure cup is charged, and in the present embodiment, electrostatic protection chip model is PRTR5V0U2X.

Above one embodiment of the present of invention is described in detail, but described content has been only presently preferred embodiments of the present invention, it is impossible to be considered the practical range for limiting the present invention.All equalizations made according to the present patent application scope change and improvement etc., all should still belong within the patent covering scope of the present invention.

Claims (3)

1. a controlled in wireless electric intelligent health-care negative pressure cup, it is formed by connecting by screw-button by upper tank body and lower tank, also include a wireless controller, there is inside described upper tank body minipump, pressure transducer, cpu chip, control circuit plate, lithium ion battery, display lamp and radio transceiver；

Include cpu chip on described control circuit plate, vacuum pump drives control circuit, charge management circuit, sensor control circuit, switching on and shutting down logic control circuit and USB communication interface circuit；Described vacuum pump drives control circuit, charge management circuit, sensor control circuit, switching on and shutting down logic control circuit and USB communication interface circuit all to access cpu chip, and described radio transceiver accesses cpu chip by wireless communication line；

Described minipump accesses vacuum pump and drives control circuit, and pressure transducer accesses sensor control circuit, and lithium ion battery accesses charge management circuit, and described display lamp is by being electrically connected on control circuit plate；

Described cpu chip (U4) is embedded microcontroller, and described chip has external crystal-controlled oscillation, and described external crystal-controlled oscillation is the quartz-crystal resonator of 12MHz；

Described vacuum pump drives control circuit by switch pump control circuit, pump pressure control circuit and pump start and stop mu balanced circuit composition, described switch pump control circuit is in series with the first N-channel field effect transistor (Q4) by after first P-channel field-effect transistor (PEFT) pipe (Q3) resistance R8 in parallel, pricking with needle is accessed in this switch pump control circuit one end, the other end connects pump start and stop mu balanced circuit, described pump start and stop mu balanced circuit is connected with charge management circuit, described pump pressure control circuit is by pump seat (JP5), stamp-mounting-paper diode D6 and a resistor-capacitor series circuit are formed in parallel, described pump start and stop mu balanced circuit with forming power supply (PGND) is accessed in described pump pressure control circuit one end, the other end and the first P-channel field-effect transistor (PEFT) pipe (Q3) pin connect and access pricking with needle.

2. controlled in wireless electric intelligent health-care negative pressure cup according to claim 1, described upper tank body includes upper tank body shell, Strengthened hold, upper cover and central dividing plate, Strengthened hold is positioned at inside upper tank body shell, and Strengthened hold top and upper cover are threaded connection, and central dividing plate is positioned at bottom Strengthened hold；Described Strengthened hold is rectangular cylinder, is provided with minipump, motor, pressure transducer, lithium ion battery, control circuit plate, display lamp and radio transceiver in this Strengthened hold；Described control circuit plate includes a rectangular patch circuit board and is erected in Strengthened hold, described rectangular patch circuit board upper end is connected to key switch, USB interface, buzzer and display lamp, described display lamp is two LED lights, the color of two LED lights is different, also include a round sheet circuit board level and be positioned at bottom Strengthened hold, having pressure transducer and radio transceiver on described round sheet circuit board, rectangular patch circuit board is connected by pricking with needle with round sheet circuit board；Described upper cover is round sheet, and this upper cover has a button, a USB receptacle, turnover gas control valve hole and two indicator lamp holes；Described central dividing plate is circular slab, and described central dividing plate has air passing hole and little hallway hole, and air passing hole passes sequentially through a check valve, a middle air passing hole is connected with vacuum pump, and a sebific duct is connected through little hallway hole with pressure transducer；

Described lower tank is transparent hollow cylinder, and this lower tank top has ring-shaped rubber pad；Outside described lower tank upper end, there is screw-button；Inside described lower tank upper end, there is the dividing plate with taper pore；Described lower tank tank mouth edge-smoothing.

3. controlled in wireless electric intelligent health-care negative pressure cup according to claim 1, described charge management circuit is made up of charging management chip (U7) compatible for USB and battery holder (BT1), the pin 4 of described charging management chip (U7) is connected with USB communication interface circuit by pricking with needle, 5th pin (5) accesses pricking with needle by battery holder (BT1) and is connected with sensor control circuit, 8th pin (8) connects sensor control circuit and vacuum pump drives control circuit, and accesses pricking with needle by a resistance R21；

Described sensor control circuit includes boost chip (U2), the second P-channel field-effect transistor (PEFT) pipe (Q1), the second N-channel field effect transistor (Q2) and sensor chip (U1), described second P-channel field-effect transistor (PEFT) pipe (Q1) pin connects charge management circuit, another pin takes back in the middle of charge management circuit by boost chip (U2), described second N-channel field effect transistor (Q2) pin accesses pricking with needle, and described boost chip (U2) is connected with sensor chip (U1)；

Described switching on and shutting down logic control circuit is mainly by the 3rd P-channel field-effect transistor (PEFT) pipe (Q6), 4th P-channel field-effect transistor (PEFT) pipe (Q7), power supply chip (U6) and or logic input circuits constitute, one pin of described power supply chip (U6) is connected with cpu chip (U4), another pin is connected with pricking with needle by the 3rd P-channel field-effect transistor (PEFT) pipe (Q6) and the 4th P-channel field-effect transistor (PEFT) pipe (Q7), described 3rd P-channel field-effect transistor (PEFT) pipe (Q6) is connected with described or logic input circuits, it is somebody's turn to do or logic input circuits is made up of the 3rd N-channel field effect transistor (Q5) and Schottky diode D5, a described pin of the 3rd N-channel field effect transistor (Q5) and the positive pole of Schottky diode D5 are respectively connected to cpu chip；

Described USB communication interface main circuit to be insured (F1) by USB interface (CN1), electrostatic protection chip (U3) and self-recoverage and to form; USB interface (CN1) is accessed in described self-recoverage insurance (F1) one end; and in parallel with electrostatic protection chip (U3) access cpu chip (U4), electrostatic protection chip model is PRTR5V0U2X.