CN210145182U - Cupping device capable of keeping temperature - Google Patents

Abstract

A cupping device capable of keeping temperature is characterized in that an upward vent pipe is arranged on a main cup body of the cupping, a heat preservation liquid cavity is arranged around the vent pipe, and heat preservation liquid is filled in the heat preservation liquid cavity; the end of the vent pipe extending to the end of the heat preservation liquid cavity is provided with a main cup body plug, and the heat preservation liquid cavity is sleeved in the vent pipe and is fixedly connected with the main cup body of the cupping. Because the heat preservation liquid cavity is added, the cupping jar body of the utility model greatly prolongs the heat preservation time and increases the curative effect. Further, the utility model discloses set up a plane that supplies the magnet actuation on the main jar of body, closely laminate a convenient absorbent thermometer on the cup jar body, show the temperature of the cup jar body, make things convenient for people to monitor. Furthermore, the utility model hangs a moxa sheet in the cup body, which increases the medical effect of cupping; the utility model is safe, reliable, convenient to use and low in price.

Description

Cupping device capable of keeping temperature

Technical Field

The utility model discloses a medical appliances device is related to, especially can keep cup device of cup temperature.

Background

The cupping body in the cupping process keeps higher than body temperature for a long time, which is good for blood circulation of a focus area, accelerates recovery of diseases, and how to keep the cupping body warm and safely warm.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the cupping device can keep the temperature because the prior art does not have reference technology and literature, the utility model discloses how to make the cup body keep warm and safe heat preservation, so must carry out new design.

The utility model discloses a realize like this, implement a cup device that can keep the temperature, include: the cupping main body is provided with an upward vent pipe, a heat-preservation liquid cavity is arranged around the vent pipe, and heat-preservation liquid is filled in the heat-preservation liquid cavity;

a main tank plug is arranged at the port of the vent pipe extending to the end part of the heat-preservation liquid cavity;

the heat preservation liquid cavity is sleeved in the vent pipe and fixedly connected with the main cupping body.

A shell of the heat-preservation liquid cavity is provided with a heat-preservation cavity plug seat, and the heat-preservation cavity plug seat is provided with a heat-preservation cavity plug seat hole which is communicated into the heat-preservation cavity; a heat-insulating cavity plug is arranged, and comprises a plug seat body, a plug hole sealing body and a handle body, a sliding pipeline is arranged in the middle of the heat-insulating cavity plug, the upper end of the sliding pipeline is communicated with an exhaust passage, and the outlet of the exhaust passage is arranged at the end part of the handle body; the upper part of the sliding pipeline is provided with a spring, a sliding block is arranged below the spring, and the bottommost part of the sliding pipeline is provided with a fixed ring.

Further, a cupping device capable of maintaining cupping temperature, the cupping device comprising: the cupping main body is provided with an upward vent pipe, a heat-preservation liquid cavity is arranged around the vent pipe, and heat-preservation liquid is filled in the heat-preservation liquid cavity; a main tank plug is arranged at the port of the vent pipe extending to the end part of the heat-preservation liquid cavity; the heat-preservation liquid cavity is sleeved in the vent pipe and fixedly connected with the main cupping body; a heat conduction plane is arranged on the side surface of the shell of the main cup body of the cupping cup, and a magnetic conduction sheet is additionally prepared to be tightly combined with the heat conduction plane; preparing a temperature detection display, wherein the back surface of the temperature detection display is provided with a magnet which is used for being attracted with the magnetic conductive sheet; the front side is provided with a temperature display screen, a power lamp and a charging indicator light, the side surface is provided with a charging socket, a switch, an adjusting knob and a beeper, and a circuit board is arranged inside.

The back of the magnet is connected with a temperature sensor RT, the output end of the temperature sensor RT is connected with an operational amplifier U2, and the output end of an operational amplifier U2 is connected with a P1.3 pin of a single chip computer on a circuit board;

the switch is connected with the lithium battery BT1 and the second pin of the power chip U2; the adjusting knob is a potentiometer R20 which is connected in series with a resistor R19 and is connected between the output end and the reverse input end of the operational amplifier U3 in a bridging way.

Moxa pieces are arranged in the inner cavity of the cupping main cup body, the moxa pieces and the cup opening are separated by a plastic hole plate, and the plastic hole plate is supported in the top of the cup cavity by an embedding column.

Compared with the prior art, the main cup body of the cupping device is provided with an upward vent pipe, a heat-preservation liquid cavity is arranged around the vent pipe, and heat-preservation liquid is filled in the heat-preservation liquid cavity; the end of the vent pipe extending to the end of the heat preservation liquid cavity is provided with a main cup body plug, and the heat preservation liquid cavity is sleeved in the vent pipe and is fixedly connected with the main cup body of the cupping. Because the heat preservation liquid cavity is added, the cupping jar body of the utility model greatly prolongs the heat preservation time and increases the curative effect. Further, the utility model discloses set up a plane that supplies the magnet actuation on the main jar of body, closely laminate a convenient absorbent thermometer on the cup jar body, show the temperature of the cup jar body, make things convenient for people to monitor. Furthermore, the moxa sheet is suspended in the cup body, so that the medical effect of cupping is improved; the utility model is safe, reliable, convenient to use and low in price.

Drawings

The invention will be further described with reference to the drawings, but the embodiments in the drawings do not constitute any limitation of the invention.

FIG. 1 is a schematic view of the overall structure of the cupping device capable of maintaining temperature according to the present invention;

FIG. 2 is a schematic view of the cupping device capable of maintaining temperature according to the present invention, in which a main chamber can be seen;

FIG. 3 is a schematic view of the cupping device with temperature preservation liquid chamber and main cupping body before combination according to the present invention;

fig. 4 is a schematic view of the internal structure of the heat-preserving cavity plug 31 of the cupping device capable of maintaining temperature according to the present invention, at this time, the sliding block 39 does not sense pressure, and the spring is fully sprung open;

fig. 5 is a schematic view of the internal structure of the heat-preserving cavity plug 31 of the cupping device capable of maintaining temperature according to the present invention, at this time, the pressure at the bottom of the sliding block 39 is greater than that at the top, and the sliding block 39 slides upward to compress the spring;

FIG. 6 is a schematic view showing that a heat conduction plane 26 is formed at one side of a main body of a cupping cup of the cupping device capable of maintaining temperature according to the present invention, and is combined with a magnetic conductive sheet 5 and then is sucked with a temperature detection display 6;

fig. 7 is a front view showing a detailed structure of a temperature sensing display 6 of the cupping device capable of maintaining temperature according to the present invention;

fig. 8 is a schematic view of the back side of the detailed structure of the temperature detecting display 6 of the cupping device capable of maintaining temperature according to the present invention, in which a magnet 68 for magnetic attraction can be seen;

fig. 9 is an electrical schematic diagram of the temperature detection display 6 of the cupping device capable of maintaining temperature according to the present invention;

fig. 10 is a schematic diagram of program modules recorded in the program memory of the single microcomputer 8 in the temperature detecting display 6 of the cupping device capable of maintaining temperature according to the present invention.

Fig. 11 is a schematic view showing that moxa pieces are provided in the inner chamber of the cupping device capable of maintaining temperature according to the present invention.

Detailed Description

The present invention will be described with reference to a first specific embodiment.

As shown in fig. 1 to 11, the preferred embodiments for maintaining the cupping temperature include:

the first embodiment is as follows: a cupping device capable of maintaining a cupping temperature, the cupping device comprising: a cupping main body 2, wherein the cupping main body 2 is provided with an upward vent pipe 24, a heat preservation liquid cavity 3 is arranged around the vent pipe 24, and the heat preservation liquid cavity 3 is filled with heat preservation liquid;

a main tank plug 22 is arranged at the end part of the vent pipe 24 extending to the end part of the heat preservation liquid cavity 3;

the heat preservation liquid cavity 3 is sleeved in the vent pipe 24 and is fixedly connected with the cupping main cup body 2.

A heat-insulating cavity plug seat 32 is arranged on the shell of the heat-insulating liquid cavity 3, and a heat-insulating cavity plug seat hole 33 is arranged on the heat-insulating cavity plug seat 32 and communicated with the inside of the heat-insulating cavity; a heat-insulating cavity plug 31 is further arranged and comprises a plug base body 34, a plug hole sealing body 36 and a handle body 35, a sliding pipeline 37 is arranged in the middle of the heat-insulating cavity plug 31, the upper end of the sliding pipeline 37 is communicated with an exhaust passage 38, and the outlet of the exhaust passage 38 is arranged at the end part of the handle body 35; a spring 40 is provided at the upper portion of the slide duct 37, a slide block 39 is provided below the spring 40, and a fixed ring 41 is provided at the lowermost portion of the slide duct 37.

A moxa sheet 91 is arranged in the inner cavity 23 of the main cupping body 2, the moxa sheet 91 is separated from the cup opening by a plastic hole plate 92, and the plastic hole plate 92 is supported in the cup cavity top 27 by an embedded column 94.

Example two: cupping device capable of keeping cupping temperature: the cupping device includes: a cupping main body 2, wherein the cupping main body 2 is provided with an upward vent pipe 24, a heat preservation liquid cavity 3 is arranged around the vent pipe 24, and the heat preservation liquid cavity 3 is filled with heat preservation liquid; a main tank plug 22 is arranged at the end part of the vent pipe 24 extending to the end part of the heat preservation liquid cavity 3; the heat preservation liquid cavity 3 is sleeved into the vent pipe 24 and is fixedly connected with the cupping main cup body 2; a heat conduction plane 26 is arranged on the side surface of the shell of the cupping main cup body 2, and a magnetic conduction sheet 5 is additionally prepared to be tightly combined with the heat conduction plane 26; preparing a temperature detection display 6, wherein a magnet 68 is arranged on the back surface of the temperature detection display 6 and is used for being attracted with the magnetic conductive sheet 5; the front surface is provided with a temperature display screen 61, a power lamp 64 and a charging indicator lamp 65, the side surface is provided with a charging socket 66, a switch 62, an adjusting knob 63 and a beeper 69, and a circuit board is arranged inside.

The back of the magnet 68 is connected with a temperature sensor RT, the output end of the temperature sensor RT is connected with an operational amplifier U3, and the output end of an operational amplifier U3 is connected with a pin P1.3 of the single chip computer 8 on the circuit board;

the switch 62 is connected with the 6 th pin of the lithium battery BT1 and the power chip U2; the adjusting knob 63 is a potentiometer R20 connected in series with a resistor R19 and connected across the output terminal and the inverting input terminal of the operational amplifier U3.

As shown in figure 6, the width of the temperature detection display 6 is equivalent to the thickness of the main cupping body 2, and the temperature detection display 6 is very power-saving, so that the internal lithium battery BT1 can be used continuously for 48 hours after being fully charged once. Moreover, one temperature detecting display 6 can be used on all cupping main cup bodies 2, and a plurality of temperature detecting displays 6 can be used for observing different absorption rates of different parts of human bodies to the cupping heat.

As shown in fig. 9, R20 can adjust the amplification of op amp U3, which is actually to adjust the accuracy of the temperature display.

The cost of the temperature detection display 6 is in ten yuan RMB, which can monitor the temperature of the cupping jar body and avoid scalding patients.

The insulating liquid can be selected from a wide variety of insulating bodies, such as water, grease and the like, even solid substances, or solid particles, solid particles and liquid.

Not to be taken as an example herein.

As shown in fig. 1 to 10, the second embodiment operates according to the principle:

firstly, arranging a main cupping body 2, wherein the main cupping body 2 is provided with an upward vent pipe 24, arranging a heat-preservation liquid cavity 3 around the vent pipe 24, and filling heat-preservation liquid into the heat-preservation liquid cavity 3;

then, a main cup body plug 22 is arranged at the port of the vent pipe 24 extending to the end part of the heat preservation liquid cavity 3, a heat conduction plane 26 is arranged on the side surface of the shell of the main cup body 2 of the cupping cup, and a magnetic conduction sheet 5 is additionally prepared to be tightly combined with the heat conduction plane 26;

preparing a temperature detection display 6, wherein a magnet 68 is arranged on the back surface of the temperature detection display 6 and is used for being attracted with the magnetic conductive sheet 5; the front surface is provided with a temperature display screen 61, a power lamp 64 and a charging indicator lamp 65, the side surface is provided with a charging socket 66, a switch 62, an adjusting knob 63 and a beeper 69, and a circuit board is arranged inside; the program memory 81 of the on-board one-chip computer 8 is loaded with a program for the operation of the temperature detection display:

a main program module 801, a temperature detection program module 802, a zero calibration program module 803, a temperature display program module 804, a temperature overrun alarm program module 805, an electric quantity indication program module 806, an electric quantity exhaustion alarm program module 807, a charging indication program module 808, a PWM output program module 809, an A/D conversion program module 810 and a table look-up program module 811, wherein the instructions of the program modules are suitable for being loaded and executed by the processor 84;

then, a heat preservation cavity plug seat 32 is arranged on the shell of the heat preservation liquid cavity 3, a heat preservation cavity plug seat hole 33 is arranged on the heat preservation cavity plug seat 32, and the hole is communicated into the heat preservation cavity; arranging a heat-insulating cavity plug 31 which comprises a plug base body 34, a plug hole sealing body 36 and a handle body 35, wherein a sliding pipeline 37 is arranged in the middle of the heat-insulating cavity plug 31, the upper end of the sliding pipeline 37 is communicated with an exhaust passage 38, and the outlet of the exhaust passage 38 is arranged at the end part of the handle body 35; a spring 40 is arranged at the upper part of the sliding pipeline 37, a sliding block 39 is arranged below the spring 40, and a fixed ring 41 is arranged at the bottommost part of the sliding pipeline 37;

then, after the heat preservation liquid cavity 3 is sleeved into the vent pipe 24 and fixedly connected with the main cupping body 2, the heat preservation liquid is injected into the heat preservation liquid cavity 3 through the heat preservation cavity plug seat hole 33, then the heat preservation cavity plug 31 is inserted, and the cupping 1 is placed into heating equipment for heating;

then, after heating, the liquid in the heat-preservation liquid cavity 3 expands to push the gas at the top part against the bottom surface of the sliding block 39, the sliding block 39 compresses the spring 40 on the sliding block to slide upwards, and when the heating process is finished, the sliding block 39 stops sliding;

then, the cupping 1 is taken out of the heating equipment and is plugged into the main cup body plug 22, the cupping operation is carried out at the moment, when the liquid in the heat preservation liquid cavity 3 is gradually cooled, the liquid shrinks, and the sliding block 39 is pressed by the spring 40 to slide downwards;

then, when the magnet 68 of the temperature detection display 6 is attracted to the magnetic conductive sheet 5, the switch 62 is turned on at this time, the temperature detection display 6 works, and the temperature of the heat preservation liquid cavity 3 is conducted to the temperature sensor RT through the shell of the cupping main tank body 2, the magnetic conductive sheet 5 and the magnet 68 because the internal temperature sensor RT is tightly combined and packaged with the magnet 68; at this time, the main program module 801 of the single chip computer 8 calls the zero calibration program module 803, converts the zero potential input by the pin P1.4 into a digital signal by the a/D conversion program module 810, stores the digital signal in the program running variable register 83, and calls the temperature display program module 804 to display the word "00" on the temperature display screen 61, which indicates that the power-on self-test is passed;

next, the main program module 801 calls the temperature detection program module 802 to convert the output potential of the operational amplifier U3 inputted by the P1.3 pin into a digital signal by the a/D conversion program module 810, stores the digital signal in the program operation variable register 83, calls the table look-up program module 811 to find the corresponding temperature value, and displays the temperature value on the temperature display screen 61 by the temperature display program module 804.

When the data stored in the temporary memory 83 exceeds the maximum value of the look-up table module 811, the temperature display module 804 displays an alarm flag on the temperature display screen 61, and the main module 801 calls the temperature overrun alarm module 805 to make the beeper 69 sound a temperature alarm.

The main program module 801 calls an electric quantity indicating program module 806 at intervals, converts the potential of the 2 nd pin of the power chip U3 input by the P1.2 pin into a digital signal by an A/D conversion program module 810, stores the digital signal in a program running variable temporary memory 83, calls a table look-up program module 811 to find a corresponding voltage value, calls a PWM output program module 809 according to the voltage value, and drives the lighting degree of the power lamp 64; when the power is lower than the set value, the power-off alarm module 807 drives the power lamp 64 to blink and the beeper 69 sounds a power alarm.

When the main program module 801 patrols that the pin P1.1 is at a low level, the main program module 801 calls the charging indication program module 808 to turn on a yellow light in the charging indication lamp 65; when the P1.1 pin is detected to turn from low to high, the yellow light is turned off, and the green light in the charging indicator lamp 65 is turned on.

The above contents of the present invention are only the preferred embodiments of the present invention, and to the ordinary skilled in the art, there will be some changes in the idea of the present invention in the specific implementation and application scope, and the contents of the present specification should not be interpreted as limitations to the present invention.

Claims (6)

1. A cupping device capable of keeping temperature, which is characterized in that,

the cupping device includes: the cupping main body (2) is provided with an upward air pipe (24), the heat-preservation liquid cavity (3) is arranged around the air pipe (24), and the heat-preservation liquid is filled in the heat-preservation liquid cavity (3);

a main tank plug (22) is arranged at the port of the vent pipe (24) extending to the end part of the heat-preservation liquid cavity (3);

the heat preservation liquid cavity (3) is sleeved in the vent pipe (24) and is fixedly connected with the cupping main tank body (2).

2. The temperature-retentive cupping device of claim 1, wherein a thermal insulation cavity body plug seat (32) is provided on the housing of the thermal insulation liquid chamber (3), and a thermal insulation cavity body plug seat hole (33) is provided on the thermal insulation cavity body plug seat (32) and communicates with the inside of the thermal insulation cavity body; a heat-insulating cavity plug (31) is further arranged and comprises a plug base body (34), a plug hole sealing body (36) and a handle body (35), a sliding pipeline (37) is arranged in the middle of the heat-insulating cavity plug (31), the upper end of the sliding pipeline (37) is communicated with an exhaust passage (38), and the outlet of the exhaust passage (38) is arranged at the end part of the handle body (35); a spring (40) is arranged at the upper part of the sliding pipeline (37), a sliding block (39) is arranged below the spring (40), and a fixed ring (41) is arranged at the bottommost part of the sliding pipeline (37).

3. The temperature-retentive cupping device of claim 1, wherein a moxa cone (91) is provided in the cup body cavity (23) of the main cup body (2), the moxa cone (91) is spaced from the cup mouth by a plastic hole plate (92), and the plastic hole plate (92) is supported in the cup cavity top (27) by an insert column (94).

4. A cupping device capable of maintaining temperature, the cupping device comprising: the cupping main body (2) is provided with an upward air pipe (24), the heat-preservation liquid cavity (3) is arranged around the air pipe (24), and the heat-preservation liquid is filled in the heat-preservation liquid cavity (3); a main tank plug (22) is arranged at the port of the vent pipe (24) extending to the end part of the heat-preservation liquid cavity (3); the heat-preservation liquid cavity (3) is sleeved into the vent pipe (24) and is fixedly connected with the cupping main tank body (2); a heat conduction plane (26) is arranged on the side surface of the shell of the cupping main tank body (2), and a magnetic conductive sheet (5) is additionally prepared to be tightly combined with the heat conduction plane (26); preparing a temperature detection display (6), wherein the back surface of the temperature detection display (6) is provided with a magnet (68) which is used for being attracted with the magnetic conductive sheet (5); the front surface is provided with a temperature display screen (61), a power lamp (64) and a charging indicator lamp (65), the side surface is provided with a charging socket (66), a switch (62), an adjusting knob (63) and a beeper (69), and a circuit board is arranged inside.

5. The temperature-keeping cupping device as recited in claim 4, wherein a temperature sensor RT is connected to the back of the magnet (68), the output terminal of the temperature sensor RT is connected to an operational amplifier U3, and the output terminal of the operational amplifier U3 is connected to the P1.3 pin of the single-chip computer (8) on the circuit board.

6. The temperature-maintainable cupping apparatus according to claim 4, wherein: the switch (62) is connected with the 6 th pin of the lithium battery BT1 and the power chip U2; the adjusting knob (63) is a potentiometer R20 which is connected in series with a resistor R19 and is connected between the output end and the reverse input end of the operational amplifier U3 in a bridging way.

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