CN210186012U - Pressurizing and warming abdomen massaging device - Google Patents

Abstract

The utility model relates to a pressurizing and heating abdomen massage device, which comprises a host machine, a massage main body and a fixing belt connected with the massage main body, wherein the massage main body comprises a flexible base body and an air bag component, and at least two circles of air bag components are coaxially arranged on the back surface of the flexible base body; the host comprises a microcontroller, an air pump and a human-computer interaction module, the air bag is connected with the air pump through a pipeline, an electromagnetic valve A is arranged on the pipeline, and an air release valve is arranged on the air bag; a heating layer is covered outside the air bag, and a temperature sensor is arranged outside the heating layer; the air pump, the electromagnetic valve A, the air release valve, the heating layer, the temperature sensor and the human-computer interaction module are all electrically connected with the microcontroller. The utility model can simulate the manual clockwise or anticlockwise massage of the abdomen of a real person, and is matched with the heating function to promote the recovery of the gastrointestinal function; can also pressurize the abdominal operation patient in a subarea way, the pressure can be observed and adjusted, the use is convenient, and the wearing and use comfort of the patient is high.

Description

Pressurizing and warming abdomen massaging device

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a pressurization adds abdominal massage device that heats.

Background

The lack of gastrointestinal motility or bowel dysfunction often causes the human body to have uncomfortable symptoms such as abdominal distension, dyspepsia, constipation and the like. Modern medicine believes that the large intestine begins in the right lower abdomen and ends in the left lower abdomen, according to the anatomical location of the intestine. By taking the navel as a center, the abdominal cavity pressure can be increased by massaging the abdomen clockwise, the intestinal tract is stimulated, the digestion function is promoted, and the symptoms such as abdominal distension and constipation are relieved. In addition, some abdominal surgery patients need local pressurization for hemostasis after operation, and are generally clinically pressurized by sand bags, bandages and the like, but the bandages and the sand bags often cause uneven stress on the pressurizing position, inconvenience, easy displacement and the like.

Patent document CN109259917A discloses a postpartum abdomen contraction band for cesarean delivery, which uses a pressing air bag to realize pressing and massage, but the abdomen contraction band can only perform fixed-point massage and cannot simulate a real person to perform clockwise or counterclockwise massage on the abdomen manually.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a pressurizing and warming belly massage device which can simulate the manual clockwise or anticlockwise massage of the belly of a real person.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a pressurizing and heating abdomen massaging device comprises a host, a massaging main body and a fixing belt connected with the massaging main body, wherein the massaging main body comprises a flexible substrate and an air bag assembly, at least two circles of air bag assemblies are coaxially arranged on the skin side of the flexible substrate, the air bag assembly at the innermost circle is provided with at least one air bag, the rest air bag assemblies are provided with at least two air bags, and the air bags of the same air bag assembly are arranged along the circumferential direction;

the host comprises a microcontroller, an air pump and a man-machine interaction module, the air bag is connected with the air pump through a pipeline, an electromagnetic valve A is arranged on the pipeline, an air release valve is arranged on the air bag, and the air release valve is an electromagnetic valve;

a heating layer covers the skin side of the air bag component, an electric heating wire is arranged in the heating layer, and a temperature sensor is arranged on the outer surface of the heating layer; the air pump, the electromagnetic valve A, the air release valve, the electric heating wire, the temperature sensor and the human-computer interaction module are all electrically connected with the microcontroller.

Further, the flexible substrate is circular.

Furthermore, the pipeline comprises an annular gas supply pipe, a main gas injection pipe and a plurality of branch gas injection pipes, wherein the annular gas supply pipe is arranged on the flexible substrate and is arranged at the periphery of the air bag assembly;

one end of the main gas injection pipe is communicated with the annular gas injection pipe, the other end of the main gas injection pipe is connected with the gas pump, and the annular gas injection pipe is connected with the gas bag through the branch gas injection pipe.

Furthermore, the left side and the right side of the massage main body are respectively provided with a fixing band, one fixing band is provided with a hook and loop fastener surface, and the other fixing band is provided with a hook and loop fastener surface.

Preferably, the heating layer is bonded to the back of the flexible substrate.

The man-machine interaction module comprises a display screen and a man-machine interaction key, and the man-machine interaction key comprises a temperature setting key.

Furthermore, the man-machine interaction keys also comprise a frequency setting key, and/or a pressure setting key, and/or a time setting key; when a pressure setting key is arranged, a pressure sensor for detecting the internal pressure of the air bag is arranged on the air bag or the air pipe.

Furthermore, the man-machine interaction key also comprises a cycle number setting key.

Or the human-computer interaction module comprises a touch screen.

Preferably, the skin side of the flexible substrate is coaxially provided with three circles of airbag assemblies, the innermost airbag assembly has one airbag, the outermost airbag assembly has 8 airbags, and the middle airbag assembly has 6 airbags.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model can simulate the manual clockwise or anticlockwise massage of the abdomen of a real person, and is matched with the heating function to promote the recovery of the gastrointestinal function; can also pressurize the abdominal operation patient in a subarea way, the pressure can be observed and adjusted, the use is convenient, and the wearing and use comfort of the patient is high.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a cross-sectional view at A in FIG. 1;

fig. 3 is a front view of the massage main body and the fixing band;

fig. 4 is a schematic structural view of the massage main body;

FIG. 5 is a functional block diagram of the present invention;

in the figure: 1-flexible substrate, 2-air bag, 3-main gas injection pipe, 4-electromagnetic valve A, 5-main machine, 7-display screen, 8-air release valve, 9-frequency setting key, 10-pressure setting key, 11-time setting key, 12-fixing band, 13-magic tape surface, 14-magic tape mother surface, 15-heating layer, 16-temperature setting key, 17-alarm device, 18-power switch, 19-annular gas supply pipe, 20-branch gas injection pipe, 21-circulation frequency setting key, 22-temperature sensor and 23-direction switching key.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the utility model discloses a pressurization and heating belly massage device, including host computer 5, massage main part and the fixed band 12 of being connected with the massage main part, the left and right sides of massage main part respectively is equipped with a fixed band 12, is equipped with the female face of magic subsides 14 on one of them fixed band 12, is equipped with magic subsides sub-face 13 on another fixed band 12, can fix the massage main part in belly position through two fixed bands 12 of fixed band 12 bonding.

The massage main part includes flexible base member 1 and gasbag subassembly, the skin side of flexible base member 1 is coaxial to be equipped with two rings at least gasbag subassemblies, and the gasbag subassembly of inner circle has at least one gasbag 2, and remaining gasbag subassembly has two at least gasbags 2, and the gasbag 2 of same gasbag subassembly sets up along the circumferencial direction. The number of turns of the air bag components and the number of air bags of each air bag component are set according to requirements. As shown in fig. 1, 4 and 5, the skin side of the flexible substrate 1 is coaxially provided with three-turn airbag modules, the innermost airbag module having one airbag 2, the outermost airbag module having 8 airbags 2, and the middle airbag module having 6 airbags 2.

The host 5 comprises a microcontroller, an air pump, an alarm device 17 and a man-machine interaction module, the air bag 2 is connected with the air pump through a pipeline, an electromagnetic valve A4 is arranged on the pipeline, a deflation valve 8 is arranged on the air bag 2, and the deflation valve 8 is an electromagnetic valve. As shown in FIG. 5, the air pump, the man-machine interaction module, the electromagnetic valve A4, the air release valve 8 and the alarm device 17 are all electrically connected with the microcontroller.

The flexible substrate 1 is circular, the pipeline communicated with the air pump comprises an annular air supply pipe 19, a main air injection pipe 3 and a plurality of branch air injection pipes 20, the annular air supply pipe 19 is installed on the flexible substrate 1, and the annular air supply pipe 19 is arranged on the periphery of the airbag assembly at the outermost ring. Wherein, the annular air supply pipe 19, the main air injection pipe 3 and the branch air injection pipe 20 are all PVC hoses. One end of the main gas injection pipe 3 is communicated with an annular gas injection pipe 19, the other end of the main gas injection pipe 3 is connected with a gas pump, and the annular gas injection pipe 19 is connected with the gasbag 2 through a branch gas injection pipe 20. One end of the branch gas injection pipe 20 is communicated with the gasbag 2, and the other end of the branch gas injection pipe 20 is communicated with the annular gas supply pipe 19.

The skin side of the air bag component is provided with a heating layer 15, the heating layer 15 covers the air bag component, and the heating layer 15 is bonded on the flexible substrate 1. The heating layer 15 comprises cotton fabric and an electric heating wire, and the electric heating wire is laid in the cotton fabric. The outer surface of the heating layer 15 is provided with a temperature sensor 22 which is tightly attached to the surface of the limb, and if the surface temperature is lower than a set value, the heating layer is automatically heated to the set value. The man-machine interaction module comprises a display screen 7 and man-machine interaction keys, wherein the man-machine interaction keys comprise a temperature setting key 16, and a heating layer 15 and a temperature sensor 22 are electrically connected with the microcontroller. The microcontroller can select a single chip microcomputer, the electric heating wire is connected with the relay, and two ends of the relay are respectively connected with the power supply and the single chip microcomputer. The lead wire connecting the electromagnetic valve A4 and the air release valve 8 can form a cable with the air vent pipe 3 to be connected with the host 5, the single chip drives the relay, and the relay drives the electromagnetic valve to act.

The host 5 of course further comprises a power switch 18 and a start/stop key (not shown in the figure), and the start/stop key is pressed once to issue a start command and pressed again to issue a stop command, which is conventional in the art and will not be described herein.

The man-machine interaction keys further comprise a frequency setting key 9, and/or a pressure setting key 10, and/or a time setting key 11. When the pressure setting key 10 is arranged, a pressure sensor for detecting the internal pressure of the air bag 2 is arranged on the air bag 2 or on the pipeline, and the frequency setting key 9, the pressure setting key 10, the time setting key 11 and the pressure sensor are electrically connected with the microcontroller.

Wherein, the frequency set by the frequency setting key 9 refers to the reciprocal of the interval time between the start of inflation of two adjacent air bag assemblies; the time set by the time setting key 11 refers to the inflation maintaining time of each air bag 2, and the deflation valve 8 is automatically opened to automatically release the pressure after the inflation maintaining time is up to prepare for next inflation; the pressure set by the pressure setting key 10 refers to the inflation pressure in each airbag 2. Of course, the frequency setting key 9, the pressure setting key 10, and the time setting key 11 may not be provided, and when the frequency setting key 9, the pressure setting key 10, and the time setting key 11 are not provided, the apparatus operates at a fixed frequency, a fixed pressure, and a fixed maintenance time after being turned on, and when the pressure setting key 10 is not provided, the pressure sensor may not be provided.

The man-machine interaction key can also be provided with a direction switching key 23, and the direction switching key 23 is used for selecting whether the massage is carried out in the anticlockwise direction or the clockwise direction. When the direction switching key 23 is not provided, the device defaults to counterclockwise massage, clockwise massage or alternate counterclockwise and clockwise massage after being opened.

The man-machine interaction key further comprises a cycle number setting key 21, and the cycle number setting key 21 is electrically connected with the microcontroller. Wherein, the cycle is one time when all the air bags complete one time of inflation and deflation. When the loop number setting key 21 is not set, the system is operated until it is finished when a stop instruction is given, which is controlled by the start/stop key.

When in use, the massage main body is placed on the abdomen, the air bag is positioned between the human body and the flexible substrate 1, and the massage main body is fixed on the human body through the fixing band 2. After the abdomen massager is started, the air pump starts to work, the electromagnetic valve A4 and the deflation valve 8 work in a matching mode, and the abdomen massager automatically starts to inflate and deflate anticlockwise or clockwise from inside to outside, so that a real person is simulated to manually massage the abdomen clockwise and anticlockwise.

The number of cycles can be set by the cycle number setting key 21 according to the user's needs. And if the automatic feedback function is not needed, the automatic feedback function can be disabled and controlled manually.

In another embodiment, the heating layer 15 is bonded to the flexible substrate 1.

In another embodiment, the human-computer interaction keys further comprise an air bag selection key (not shown in the figure), and the air bag selection key can be used for selecting the inflation of a certain air bag or certain air bags, so that the abdominal region of the abdominal operation patient can be pressurized in a divided mode.

In another embodiment, the human-computer interaction module comprises a touch screen, the touch screen has functions of a display screen and a human-computer interaction key, and parameter setting and display functions can be realized through the touch screen.

The utility model can simulate the manual clockwise or anticlockwise massage of the abdomen of a real person, and is matched with the heating function to promote the recovery of the gastrointestinal function; can also pressurize the abdominal operation patient in a subarea way, the pressure can be observed and adjusted, the use is convenient, and the wearing and use comfort of the patient is high.

Of course, the present invention can be embodied in many other forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit or essential attributes thereof, and that such changes and modifications are intended to be included within the scope of the appended claims.

Claims (10)

1. The pressurizing and heating abdomen massaging device is characterized by comprising a host, a massaging main body and a fixing belt connected with the massaging main body, wherein the massaging main body comprises a flexible substrate and an air bag assembly, at least two circles of air bag assemblies are coaxially arranged on the skin side of the flexible substrate, the air bag assembly at the innermost circle is provided with at least one air bag, the other air bag assemblies are provided with at least two air bags, and the air bags of the same air bag assembly are arranged along the circumferential direction;

the host comprises a microcontroller, an air pump and a man-machine interaction module, the air bag is connected with the air pump through a pipeline, an electromagnetic valve A is arranged on the pipeline, an air release valve is arranged on the air bag, and the air release valve is an electromagnetic valve;

a heating layer covers the skin side of the air bag component, an electric heating wire is arranged in the heating layer, and a temperature sensor is arranged on the outer surface of the heating layer; the air pump, the electromagnetic valve A, the air release valve, the electric heating wire, the temperature sensor and the human-computer interaction module are all electrically connected with the microcontroller.

2. The pressure and temperature abdominal massage apparatus according to claim 1, wherein: the flexible substrate is circular.

3. The pressure and temperature abdomen massaging device according to claim 1 or 2, wherein: the pipeline comprises an annular gas supply pipe, a main gas injection pipe and a plurality of branch gas injection pipes, the annular gas supply pipe is arranged on the flexible substrate, and the annular gas supply pipe is arranged on the periphery of the air bag component;

one end of the main gas injection pipe is communicated with the annular gas injection pipe, the other end of the main gas injection pipe is connected with the gas pump, and the annular gas injection pipe is connected with the gas bag through the branch gas injection pipe.

4. The pressure and temperature abdominal massage apparatus according to claim 1, wherein: the left side and the right side of the massage main body are respectively provided with a fixing band, one fixing band is provided with a hook and loop fastener surface, and the other fixing band is provided with a hook and loop fastener surface.

5. The pressure and temperature abdominal massage apparatus according to claim 1, wherein: the heating layer is bonded to the flexible substrate.

6. The pressure and temperature abdominal massage apparatus according to claim 1, wherein: the man-machine interaction module comprises a display screen and a man-machine interaction key, and the man-machine interaction key comprises a temperature setting key.

7. The pressure and temperature abdominal massage apparatus according to claim 6, wherein: the man-machine interaction keys also comprise a frequency setting key, and/or a pressure setting key, and/or a time setting key; when a pressure setting key is arranged, a pressure sensor for detecting the internal pressure of the air bag is arranged on the air bag or the air pipe.

8. The pressure and temperature abdomen massage apparatus according to claim 6 or 7, wherein: the man-machine interaction key also comprises a cycle number setting key.

9. The pressure and temperature abdominal massage apparatus according to claim 1, wherein: the human-computer interaction module comprises a touch screen.

10. The pressure and temperature abdominal massage apparatus according to claim 1, wherein: the flexible substrate skin side is coaxially provided with three circles of airbag assemblies, the airbag assembly at the innermost circle is provided with an airbag, the airbag assembly at the outermost circle is provided with 8 airbags, and the airbag assembly in the middle is provided with 6 airbags.

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