CN109157391B - Curved surface cupping physiotherapy device - Google Patents

Abstract

The invention relates to a curved surface cupping physiotherapy device which comprises a grid plate made of flexible materials, wherein the grid plate is provided with a plurality of grid holes with open lower sides, communication channels which are communicated with the grid holes are arranged on the grid plate, a vacuum suction port which is connected with at least one grid hole and is used for being connected with a corresponding vacuum pump is arranged on the grid plate, the upper sides of the grid holes are blocked by a sealing plate or the curved surface cupping physiotherapy device also comprises a flexible film which is used for blocking the upper sides of the grid holes under the action of vacuum negative pressure. The grid plate is made of flexible materials, so that the vacuum suction port can be properly attached according to the special properties of the human body part, when the vacuum suction port is vacuumized through the vacuum pump, negative pressure environments are formed in all grid holes, cupping operation is carried out on the attached human body part, the plurality of grid holes can well cover uneven parts, cupping treatment can be completed through one-time vacuumization operation, and the vacuum suction device is very convenient to use.

Description

Curved surface cupping physiotherapy device

Technical Field

The invention relates to a curved surface cupping physiotherapy device in the rehabilitation field.

Background

The vacuum cupping is a cupping mode which uses air suction to form a vacuum negative pressure state, and when in use, the vacuum pump and the connecting pipe are used for vacuumizing the cupping tool, and the cupping tool is adsorbed on the skin of a human body. The purpose of cupping is to make the cupping adsorb on the acupoints or the body surface of the part to be cupping to generate stimulation, so as to make the skin of the part to be cupping become congested and blood stasis, so as to achieve the purpose of preventing and treating diseases.

The existing cupping device is a glass cup which is arranged independently, and is in an independent point contact mode when being contacted with a human body, in actual cupping treatment, the existing cupping device is suitable for being used in the relatively flat areas of the back, and for the position with relatively large surface curvature of the human body, because the skin is too soft or the skeleton shape is too complex, the negative pressure is not established, the treatment is limited, a plurality of small cupping devices are used for cupping operation, the operation is extremely troublesome, and even the operation is not suitable for cupping operation at all, in addition, the area cupping can not be performed in the prior art, the cupping is easy to miss, and the treatment efficiency is relatively low.

Disclosure of Invention

The invention aims to provide a curved surface cupping physiotherapy device, which solves the problem that the cupping device in the prior art is inconvenient to use because of independent operation.

In order to solve the technical problems, the technical scheme in the invention is as follows:

The utility model provides a curved surface cup physiotherapy equipment, includes the grid board of making by flexible material, and the grid board has a plurality of open net holes of downside, is provided with the intercommunication passageway of each net hole of intercommunication on the grid board, is provided with the vacuum suction mouth that is used for being connected with corresponding vacuum pump with wherein at least one net hole links to each other on the grid board, and the upside in each net hole is blocked by the shrouding or curved surface cup physiotherapy equipment still includes the flexible membrane that is used for receiving vacuum negative pressure effect and shutoff each net hole upside.

The mesh plates are made of rubber or polyurethane material.

One side of the length direction of the grid plate is provided with a first detachable connection structure, and the other side of the length direction of the grid plate is provided with a second detachable connection structure which is used for being detachably connected with the first detachable connection structure.

The first detachable connection structure comprises a plurality of chucks with large heads and small necks which are arranged at intervals along the width direction of the grid plate, and the second detachable connection structure comprises clamping grooves which are arranged in one-to-one correspondence with the chucks and used for enabling the corresponding chucks to be clamped in an adaptive manner in the circumferential direction.

The vacuum suction port protrudes upwards from the grid plate, the flexible film and the grid plate are independently arranged, and the flexible film is provided with vacuum suction port perforation holes for the vacuum suction port to be matched and penetrated.

The two sides of the length direction of the grid plate are respectively provided with connecting strips with the lengths extending along the width direction of the grid plate, one end of the flexible film is fixed on one connecting strip, the other end of the flexible film is fixed on the other connecting strip, and the flexible film and the upper side of the grid plate are movably arranged.

The beneficial effects of the invention are as follows: according to the invention, the grid plate is made of flexible materials, so that the proper fitting can be performed according to the special properties of the human body part, when the vacuum suction port is vacuumized through the vacuum pump, each grid hole forms a negative pressure environment, the fitting human body part is subjected to cupping operation, the plurality of grid holes can well cover the uneven part, the cupping treatment can be completed through one-time vacuumization operation, and the vacuum suction device is very convenient to use.

Drawings

FIG. 1 is a schematic view showing the structure of a mesh plate in embodiment 1 of the present invention;

FIG. 2 is a schematic diagram illustrating the cooperation of the first detachable connection structure and the second detachable connection structure in FIG. 1;

FIG. 3 is a view of the flexible membrane when not wrapped around the periphery of the mesh plate when the invention is applied to the leg joint position;

FIG. 4 is a schematic view of the mesh plate of FIG. 3 wrapped with a flexible membrane;

FIG. 5 is a view of the invention as applied to the back;

FIG. 6 is a schematic view of the engagement between the plates in FIG. 1;

Fig. 7 is a schematic structural view of embodiment 2 of the present invention;

FIG. 8 is a schematic illustration of the mating of the mesh plate of FIG. 7 with a flexible membrane;

FIG. 9 is a cross-sectional view taken along A-A of FIG. 8;

fig. 10 is a schematic view of the state of fig. 9 after evacuation.

Detailed Description

Example 1 of a curved cupping physiotherapy apparatus is shown in fig. 1 to 6: the flexible material-made grid plate 7 is included, the flexible material-made grid plate is made of rubber material in the embodiment, the flexible material-made grid plate comprises a plurality of vertical plates 4 which are arranged in a transverse and longitudinal crossing mode, a plurality of grid holes 6 are formed in a surrounding mode through the vertical plates, and each grid hole 6 is a square hole with an open lower side. The mesh plate is provided with communication channels 12 communicating with the mesh holes, and is provided with vacuum suction ports 5 connected with one of them for connection with the corresponding vacuum pump.

The length direction both sides of grid board are provided with the connecting strip 2 that the length extended along grid board width direction respectively, be provided with first detachable connection structure on one of them connecting strip, be provided with second detachable connection structure on another one connecting strip, riser and two connecting strips all slope arrangement, more do benefit to the crimping operation of grid board like this, first detachable connection structure includes a plurality of head big, the dop 1 of little neck of following grid board width direction interval arrangement, second detachable connection structure includes the draw-in groove 3 that supplies the adaptation card to go into of corresponding dop in the circumferencial direction that sets up with the dop one-to-one. The curved surface cupping physiotherapy device also comprises a flexible membrane 10 for blocking the upper side of each mesh under the action of vacuum negative pressure, wherein the flexible membrane and the mesh plate are independently arranged, and when in use, the flexible membrane is wrapped on the periphery of the mesh plate.

When the curved surface cupping physiotherapy device is applied to leg joints, as shown in fig. 4, the characteristic that the grid plate is made of flexible materials is utilized, the grid plate is curled, the grid plate is wound on the periphery of the knee joint of the leg 8, all clamping heads of the first detachable connection structure are respectively clamped into all clamping grooves of the second detachable connection structure, the grid plate is prevented from being unfolded, then the flexible film is wrapped on the periphery of the grid plate, the flexible film is provided with vacuum suction holes through which vacuum suction ports are matched and penetrated, the length of the flexible film is longer than that of the grid plate, for convenient observation, for example, a safety film is used, the flexible film can be wound for a plurality of circles for ensuring strength, the lower side of the flexible film is in contact with the upper end of the grid plate, the vacuum suction ports are communicated with the vacuum pump 9 through air pipes, a vacuum pump switch is turned on, vacuum pumping is performed, the upper sides of all grid holes are blocked by the flexible film under the action of negative pressure, and the lower sides of the grid holes form cupping adsorption effect on skin for a period of time, and the cupping treatment process can be completed. In addition, as each vertical plate of the grid plate is made of flexible materials, the whole grid plate can be compressed or stretched and deformed in the length direction and the width direction, namely, the size of the grid holes can be changed so as to adapt to the more complex curved surface condition of the body.

When the curved surface cupping physiotherapy device is applied to the back, as shown in fig. 5, the grid plate is tiled on the back 10 of the human body, the flexible membrane 10 is wrapped on the periphery of the grid plate 7, the edge position of the flexible membrane can be fixed through the adhesive tape, or can be unfixed, and the fixed relation between the flexible membrane and the grid plate can be ensured due to certain friction force between the flexible membrane and the upper side of the grid hole during vacuumizing adsorption. The curved surface cupping physiotherapy device can perform one-time omnibearing cupping operation on the curved surface part of the body, and is simple and convenient to use.

In other embodiments of the invention: the vacuum suction port can be connected with a plurality of grid holes at the same time; the grid plate can also be made of polyurethane materials and other flexible materials; the first detachable connection structure and the second detachable connection structure can also be other forms of detachable connection structures, such as a binding belt type, a zipper type, a snap fastener type, etc.; the mesh holes may also be circular holes; the upper ends of the grid holes can be blocked by a sealing plate, and the sealing plate can have certain influence on the curling of the flexible membrane, so that the sealing plate is made of elastic materials.

Example 2 of a curved cupping physiotherapy apparatus is shown in fig. 7 to 10: unlike in embodiment 1, the flexible membrane 10 is not independent of the mesh plate, one end of the flexible membrane is fixed on one of the connecting strips 2, the other end of the flexible membrane 10 is fixed on the other connecting strip 2, the flexible membrane and the mesh plate are not connected, when no negative pressure is applied, the mesh plate and the flexible membrane can move relatively, so that the flexible membrane cannot influence the curling of the mesh plate, when negative pressure is applied, the flexible membrane is adsorbed on the upper side of each mesh hole to seal the upper end of the mesh hole, and thus the mesh holes 6 and the flexible membrane form a plurality of dense cupping.

Claims (4)

1. A curved surface cup physiotherapy equipment which characterized in that: the curved surface cupping physiotherapy device comprises a grid plate made of flexible materials, wherein the grid plate is provided with a plurality of grid holes with open lower sides, communication channels for communicating the grid holes are formed in the grid plate, vacuum suction ports connected with at least one grid hole and used for being connected with corresponding vacuum pumps are formed in the grid plate, the curved surface cupping physiotherapy device further comprises flexible films used for blocking the upper sides of the grid holes under the action of vacuum negative pressure, the vacuum suction ports are protruded from the grid plate, the flexible films are independently arranged with the grid plate, the flexible films are provided with vacuum suction port perforation holes for adapting and penetrating through the vacuum suction ports, the grid plate comprises a plurality of vertical plates which are arranged in a transverse-longitudinal crossing mode, the grid holes are formed in a surrounding mode, and each grid hole is a square hole with an open lower side.

2. The curved cupping therapy unit according to claim 1, wherein: the mesh plates are made of rubber or polyurethane material.

3. The curved cupping therapy unit according to claim 1, wherein: one side of the length direction of the grid plate is provided with a first detachable connection structure, and the other side of the length direction of the grid plate is provided with a second detachable connection structure which is used for being detachably connected with the first detachable connection structure.

4. The curved cupping therapy unit according to claim 3, wherein: the first detachable connection structure comprises a plurality of chucks with big heads and small necks which are arranged at intervals along the width direction of the grid plate, and the second detachable connection structure comprises clamping grooves which are arranged in one-to-one correspondence with the chucks and used for the corresponding chucks to be clamped in an adaptive manner in the circumferential direction.