CN217886530U - Massage boots - Google Patents

Abstract

The utility model provides a massage boot, which comprises a flexible liner, a first flexible substrate, a second flexible substrate, an air bag component, a heating component and a plurality of restraint components; the flexible liner is used for wrapping the tail end of the lower limb of the human body; the flexible liner is also provided with a first flexible substrate and a second flexible substrate, and a first cavity is formed in the first flexible substrate; the second flexible substrate is internally provided with a second cavity; the air bag assembly is arranged in the first cavity or the second cavity; the air bag component is periodically inflated or deflated; the heating assembly is arranged on the end face, far away from the lower limbs of the human body, of the flexible liner and selectively heats the surfaces of the adjacent lower limbs; the restraint assembly is arranged on the end face, far away from the lower limbs of the human body, of the flexible liner, one end of the restraint assembly is fixedly connected with the flexible liner, and the other end of the restraint assembly is detachably connected with the flexible liner.

Description

Massage boots

Technical Field

The utility model relates to a physiotherapy equipment technical field especially relates to a massage boots.

Background

With the pace of modern life accelerating, people's living pressure and mental stress cause the very big burden of health, and a large number of young groups adopt the position of sitting for a long time, lack the motion, and the health can't obtain reasonable exercise in time, easily causes the lower limbs disease of shank or foot. Some devices capable of inflating and massaging leg limbs appear in the market, but the physiotherapy devices are large in size, inconvenient to wear and carry, single in function during use, incapable of being suitable for the sizes of the lower limbs of most people, and unsatisfactory in coating and massaging effects. Therefore, it is necessary to provide a massage boot with various functions, safety, comfort and wide application range.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a massage boots that wear conveniently, can provide multiple functions.

The technical scheme of the utility model is realized like this: the utility model provides a massage boot, which comprises a flexible liner (1), a first flexible substrate (2), a second flexible substrate (3), a plurality of air bag components (4), a heating component (5) and a plurality of restraint components (6);

the flexible pad (1) is used for wrapping the tail end of the lower limb of the human body; the flexible liner (1) is also provided with a first flexible substrate (2) and a second flexible substrate (3), and a hollow first cavity (100) is formed in the first flexible substrate (2); the second flexible substrate (3) is internally provided with a hollow second cavity (200);

the air bag component (4) is arranged in the first cavity (100) or the second cavity (200); the air bag component (4) is periodically inflated or exhausted to press the surface of the lower limb;

the heating assembly (5) is arranged on the end face, far away from the lower limbs of the human body, of the flexible liner (1) and selectively heats the surfaces of the adjacent lower limbs;

the restraint assembly (6) is arranged on the end face, far away from the lower limbs of the human body, of the flexible liner (1), one end of the restraint assembly (6) is fixedly connected with the flexible liner (1), and the other end of the restraint assembly (6) is detachably connected with the flexible liner (1).

On the basis of the technical scheme, preferably, the airbag assembly (4) comprises an air pump (41), an air inlet pipe (42), an air outlet pipe (43) and a plurality of airbag bodies (44); the air pump (41) is fixedly arranged in the first cavity (100); the airbag bodies (44) are arranged in the first cavity (100) or the second cavity (200) respectively, the airbag bodies (44) in the first cavity (100) or the second cavity (200) are arranged along the length extending direction of the lower limb, and the airbag bodies (44) are not communicated with the first cavity (100) or the second cavity (200); the airbag body (44) is also communicated with an air pump (41) through an air inlet pipe (42) or an air outlet pipe (43), and the air pump (41) periodically inflates or deflates each airbag body (44).

Preferably, the time intervals between the inflation and deflation of the airbag bodies (44) are the same or different.

Preferably, each air bag body (44) comprises a plurality of air chambers (300) which are arranged in series, and the air chambers (300) are communicated with each other; the area of the air chamber (300) at the proximal end of the air bag body (44) in the first cavity (100) is larger than that of the air chamber (300) at the distal end of the air bag body (44).

Preferably, the heating assembly (5) is located within a projection area of the first chamber (100) or the second chamber (200).

Preferably, the limb-training device further comprises a vibration motor (7), wherein the vibration motor (7) is arranged on the end face, close to the limb, of the first flexible substrate (2) or the second flexible substrate (3).

Further preferably, the device also comprises a key unit (8) and a controller, wherein the key unit (8) is arranged on the end face, away from the lower limbs of the human body, of the flexible liner (1); the controller is arranged in the first cavity (100) or the second cavity (200), and the key unit (8), the air pump (41), the heating assembly (5) or the vibration motor (7) are electrically connected with the controller.

Still preferably, the heating device further comprises an overheating detection assembly (9), the overheating detection assembly (9) is arranged on the heating assembly (5) in the first cavity (100) or the second cavity (200), and the overheating detection assembly (9) is electrically connected with the controller.

On the basis of the technical scheme, preferably, the restraint component (6) is a bandage or a magic tape.

Preferably, a plurality of extending portions (11) are arranged at the edge of one side of the flexible pad (1), the extending portions (11) extend outwards towards the direction far away from the flexible pad (1), the width of each extending portion (11) is larger than that of the constraint component (6), and the extending portions (11) are detachably connected with the constraint component (6).

The utility model discloses a massage boots have following beneficial effect for prior art:

(1) The air bag assembly and the heating assembly are arranged in the first cavity or the second cavity, and the vibration motor is further arranged, so that the periodic functions of squeezing, heating or vibrating the tail end of the limb can be provided, one or more functions can be selected for combined use, and the physiotherapy effect is improved;

(2) The scheme adopts a detachable assembly structure instead of a common wearing sleeve type, so that the lower limb attaching effect is better, the tensioning degree of the restraint assembly can be adjusted, and the lower limb attaching device can adapt to people of different ages or body types;

(3) An overheating detection assembly is further arranged, so that low-temperature scalding caused by local overheating can be avoided, and the safety of physical therapy is improved;

(4) The extension on the flexible liner can increase the contact area and the fixed effect with the restraint subassembly, improves wearer's travelling comfort.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a left side view of the massage boot of the present invention;

fig. 2 is a top view of the massage boots of the present invention in an unfolded state;

fig. 3 is a top view of the flexible liner of the massage boot of the present invention in an expanded state;

fig. 4 is a top view of the first flexible substrate and the second flexible substrate of the massage boot according to the present invention in an expanded state;

FIG. 5 is an expanded view of the combination of the flexible liner and the heating element of the massage boot of the present invention;

fig. 6 is a wiring diagram of the controller and the airbag module, the heating module, the vibration motor, the key unit and the overheat detection module of the massage boot of the present invention;

fig. 7 is a schematic diagram of a connection of the indication lamp of the massage boot of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

As shown in fig. 1-5, the utility model provides a massage boot, which comprises a flexible liner 1, a first flexible substrate 2, a second flexible substrate 3, a plurality of airbag modules 4, a heating module 5, a plurality of restraint modules 6, etc.

The flexible liner 1 is used for wrapping the tail end of the lower limb of the human body; the flexible gasket 1 is further provided with a first flexible substrate 2 and a second flexible substrate 3, and a hollow first cavity 100 is formed in the first flexible substrate 2; the second flexible substrate 3 has a hollow second cavity 200 therein; the flexible liner 1 can be made of an OK cloth-like knitted material, the outer end face can be further provided with mesh composite cloth for increasing strength, and the end face close to the skin can be provided with an edge terylene cloth layer. The flexible liner 1 has excellent flexibility and skin-contacting property. The flexible gasket 1 is also a substrate material to which the first flexible board 2 and the second flexible board 3 are further fixedly provided. As can be seen from the expanded view, the flexible cushion 1 can be divided into two parts, one part is a part covering the lower leg and the ankle, and the other part is adjacent to the heel and the sole of the foot. Fig. 2 shows an expanded view in which the edges of the heel and sole-fitted portions are secured to the adjacent edges of the lower leg and ankle by sewing, thereby forming an integral body. The dotted lines shown in fig. 3 and 5 are creases of the flexible pad 1, and the unfolded flexible pad 1 is bent at the dotted lines to wrap the lower leg and the ankle, thereby forming a fixed outline of the boot.

In one embodiment, the first flexible substrate 2 and the second flexible substrate 3 are disposed on the end surface of the flexible pad 1 near the lower limb of the human body, specifically, the first flexible substrate 2 and the second flexible substrate 3 are designed separately, and the first flexible substrate 2 is attached around the lower leg and on both sides of the ankle, while the second flexible substrate 3 is attached mainly to the sole and heel area. In yet another embodiment, the flexible liner 1 may be provided as a sandwich structure: namely, the outer layer is made of an OK cloth-like knitting material, and the mesh composite cloth is additionally arranged to increase the strength; the inner layer is a Border Dacron fabric layer; the first flexible substrate 2 and the second flexible substrate 3 are arranged within the sandwich structure of the flexible liner 1. The two structures are different in that the first flexible substrate 2 and the second flexible substrate 3 are slightly different in position, but the effects are substantially similar. The latter embodiment is preferable, that is, the first flexible substrate 2 and the second flexible substrate 3 are not in direct contact with the skin, reducing the discomfort of the user.

The airbag module 4 is disposed inside the first cavity 100 or the second cavity 200; the bladder assembly 4 is periodically inflated or deflated to compress the lower limb surface. The airbag module 4 is used to simulate a function of pressing, massaging and stimulating the skin, blood vessels, nerves, and the like of the lower limbs by a manual pressing method.

The heating component 5 is arranged on the end face, far away from the lower limbs of the human body, of the flexible liner 1 and selectively heats the surface of the adjacent lower limbs; the heating component 5 can heat the lower leg or the sole of the foot through the flexible pad 1, and has a physiotherapy effect similar to hot compress. In a preferred embodiment, the heating assembly 5 is located within a projected area of the first chamber 100 or the second chamber 200. The heating assembly is capable of heating the area where the airbag module 4 is located sufficiently.

A vibration motor 7 may be further provided, and the vibration motor 7 is provided on an end surface of the first flexible substrate 2 or the second flexible substrate 3 near the limb. The vibration motor 7 has a high-frequency vibration function, and can further improve the massage effect.

The restraint assembly 6 is arranged on the end face, far away from the lower limbs of the human body, of the flexible liner 1, one end of the restraint assembly 6 is fixedly connected with the flexible liner 1, and the other end of the restraint assembly 6 is detachably connected with the flexible liner 1. The restraint assembly 6 is used for tightly binding and covering the flexible liner 1 on the surface of the lower limb so as to prevent the massage boots from falling off.

The air bag component 4, the heating component 5 or the vibrating motor 7 can be started as required, so that the switching of one or more physiotherapy modes with single or multiple function synergism is realized, and the physiotherapy effect is improved.

In order to realize the pressing function of the airbag module 4, as shown in fig. 2 and 4, the airbag module 4 includes an air pump 41, an air inlet pipe 42, an air outlet pipe 43, and a plurality of airbag bodies 44; the air pump 41 is fixedly arranged in the first cavity 100; the airbag bodies 44 are respectively arranged in the first cavity 100 or the second cavity 200, the airbag bodies 44 in the first cavity 100 or the second cavity 200 are arranged along the length extending direction of the lower limb, and each airbag body 44 is not communicated with the first cavity 100 or the second cavity 200; the airbag body 44 is also communicated with the air pump 41 through the air inlet pipe 42 or the air outlet pipe 43, and the air pump 41 periodically inflates or deflates each airbag body 44. The balloon body 44 extends along the length of the lower limb and may be understood as extending away from the heart. The airbag body 44 is disposed within the first cavity 100 or the second cavity 200, respectively. When the air bag body 33 is inflated, the air bag body 44 is exhausted, and corresponding functions can be realized by different air pumps 41, such as a positive pressure air pump and a negative pressure air pump. The VALVE VALVE may be further set if the amount of intake air is to be adjusted. The corresponding circuits in the block 41 and the block VALVE in fig. 6 are the air pump 41 driving circuit and the VALVE driving circuit, and the base of the transistor Q2 or Q3 is turned on by inputting a level signal, so that the air pump 41 or the VALVE is turned on, and the intake and exhaust functions or the intake air amount adjusting function are realized.

In order to achieve different massage effects for different lower limb parts, the air inlet and air outlet of the air bag bodies 44 can be independently arranged, that is, the time interval between the air inflation and air exhaust of the corresponding air bag bodies 44 is the same or different. Therefore, the physiotherapy scheme preferred by the individual can be appointed more pertinently according to different requirements of the user.

As shown in fig. 2 and 4, a specific structure of an airbag body 44 is shown. Each airbag body 44 comprises a plurality of air chambers 300 which are arranged in series, and the air chambers 300 are communicated with each other; the area of the gas cell 300 proximal to the balloon body 44 in the first cavity 100 is larger than the area of the gas cell 300 distal to the balloon body 44. And the air chamber volume at the proximal end, namely the heel position, of the air bag body 44 in the second cavity 200 is smaller due to the concession design with the first flexible substrate 2.

In order to better realize the functions of mode selection and setting, the utility model also comprises a key unit 8 and a controller, wherein the key unit 8 is arranged on the end surface of the flexible liner 1 far away from the lower limbs of the human body; the controller is disposed in the first cavity 100 or the second cavity 200, and the key unit 8, the air pump 41, the heating element 5 or the vibration motor 7 are electrically connected to the controller. The 16-pin chip in fig. 6 is the controller. The key unit 8 and the ADC2 port of the controller are triggered by different keys, and the voltage transmitted to the controller after being divided by the resistors R6, R7, R8 and R9 is different, so that different input functions are realized. As also shown in fig. 6, a driving signal of the heating component 5 or the vibration motor 7 is sent by the controller, and after the corresponding transistor Q4 or Q1 is turned on, the corresponding heating component 5 or the vibration motor 7 is operated. The heating component 5 can be realized by a felt type electric heating sheet. The vibration motor 7 is a miniature eccentric dc motor. The controller can be realized by a singlechip with an analog-to-digital conversion function, such as AT89C51 series and STM8L series.

As shown in fig. 7, in order to better indicate the working state of the massage boots, four groups of RGB LED indicator lamps are specially provided, L1 corresponds to a power indicator lamp, L2 corresponds to an air bag module 4 working state indicator lamp, L3 corresponds to the working state of the heating module 5, and L4 corresponds to the working state of the vibration motor 7. When L1, L2, L3 or L4 is low level, the corresponding RGB LED indicator lights are on. The number of the RGB LED indicator lamps connected to any one of the indicating ports L1, L2, L3 or L4 can be selected according to actual needs.

As shown in fig. 6, in order to prevent low-temperature or high-temperature burns, an overheat detection unit 9 is provided at the heating unit 5. The overheating detection assembly 9 is disposed on the heating assembly 5 in the first chamber 100 or the second chamber 200, and the overheating detection assembly 9 is electrically connected to the controller. When the temperature rises, the resistance of the NTC resistor changes, and the voltage input to the ADC1 port also changes, so that the controller maintains or stops driving the heating element 5. Of course, it is also possible to provide a timed heating mode, i.e. the heating assembly 5 stops operating every certain time of heating, for example 15 minutes.

Restraint subassembly 6 in this scheme can choose for use bandage or magic subsides, can be convenient carry out detachable wearing massage boots. The flexible liner 1 corresponding to the tail end of the restraint assembly 6 can be provided with a metal fixing ring to facilitate the strap or the magic tape to pass through and be fixed. The restraint assembly 6 is disposed around the lower leg from the side of the lower leg, either counterclockwise or clockwise.

In order to increase the area of the overlapped part of the flexible pad 1 and improve the wearing comfort, the edge of one side of the flexible pad 1 is provided with a plurality of extension parts 11, the extension parts 11 extend outwards in the direction away from the flexible pad 1, the width of the extension parts 11 is larger than that of the restraint component 6, and the extension parts 11 and the restraint component 6 are also detachably connected. The extension part 11 can also be combined with the restriction component 6 in a magnetic suction manner or a magic tape manner. The width of the restraint component 6 is narrow, and the buffer of the extension part 11 can avoid pressing the crus or the instep, thereby improving the wearing comfort of the massage boots.

The utility model discloses during the use, with flexible liner 1 cladding in the low limbs tip, tighten restraint subassembly 6 and tighten flexible liner 1, press keying unit 8 and select corresponding function, carry out work by controller drive air pump 41, heating element 5 or vibrating motor 7, realize corresponding physiotherapy massage function, after the arrival settlement time, take off flexible liner 1 can. In order to supply power to the controller, the key unit 8, the air pump 41, the heating unit 5, or the vibration motor 7, a charging interface, such as a USB interface, may be provided on the massage boot.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A massage boot, which is characterized in that: comprises a flexible liner (1), a first flexible substrate (2), a second flexible substrate (3), a plurality of airbag assemblies (4), a heating assembly (5) and a plurality of restraint assemblies (6);

the flexible liner (1) is used for wrapping the tail end of the lower limb of the human body in a surrounding way; the flexible gasket (1) is also provided with a first flexible substrate (2) and a second flexible substrate (3), and a hollow first cavity (100) is formed in the first flexible substrate (2); the second flexible substrate (3) is internally provided with a hollow second cavity (200);

the air bag assembly (4) is arranged in the first cavity (100) or the second cavity (200); the air bag component (4) is periodically inflated or exhausted to press the surface of the lower limb;

the heating assembly (5) is arranged on the end face, far away from the lower limbs of the human body, of the flexible liner (1) and selectively heats the surfaces of the adjacent lower limbs;

the restraint assembly (6) is arranged on the end face, far away from the lower limbs of the human body, of the flexible liner (1), one end of the restraint assembly (6) is fixedly connected with the flexible liner (1), and the other end of the restraint assembly (6) is detachably connected with the flexible liner (1).

2. The massaging boot of claim 1, wherein: the air bag assembly (4) comprises an air pump (41), an air inlet pipe (42), an air outlet pipe (43) and a plurality of air bag bodies (44); the air pump (41) is fixedly arranged in the first cavity (100); the airbag bodies (44) are arranged in the first cavity (100) or the second cavity (200) respectively, the airbag bodies (44) in the first cavity (100) or the second cavity (200) are arranged along the length extension direction of the lower limb, and the airbag bodies (44) are not communicated with the first cavity (100) or the second cavity (200); the airbag body (44) is also communicated with an air pump (41) through an air inlet pipe (42) or an air outlet pipe (43), and the air pump (41) periodically inflates or deflates each airbag body (44).

3. The massaging boot of claim 2, wherein: the time intervals between the inflation and the deflation of the airbag bodies (44) are the same or different.

4. The massaging boot of claim 2, wherein: each air bag body (44) comprises a plurality of air chambers (300) which are arranged in series, and the air chambers (300) are communicated with each other; the area of the air chamber (300) at the proximal end of the air bag body (44) in the first cavity (100) is larger than that of the air chamber (300) at the distal end of the air bag body (44).

5. The massaging boot of claim 2, wherein: the heating assembly (5) is positioned in the projection area of the first cavity (100) or the second cavity (200).

6. The massaging boot of claim 2, wherein: the limb-supporting device is characterized by further comprising a vibration motor (7), wherein the vibration motor (7) is arranged on the end face, close to the limb, of the first flexible substrate (2) or the second flexible substrate (3).

7. A massaging boot as claimed in any one of claims 2 to 6, wherein: the device also comprises a key unit (8) and a controller, wherein the key unit (8) is arranged on the end face, away from the lower limbs of the human body, of the flexible liner (1); the controller is arranged in the first cavity (100) or the second cavity (200), and the key unit (8), the air pump (41), the heating assembly (5) or the vibration motor (7) are electrically connected with the controller.

8. The massaging boot of claim 7, wherein: the overheating detection assembly (9) is arranged on the heating assembly (5) in the first cavity (100) or the second cavity (200), and the overheating detection assembly (9) is electrically connected with the controller.

9. The massaging boot of claim 1, wherein: the restraint component (6) is a bandage or a magic tape.

10. The massaging boot of claim 9, wherein: a plurality of extension parts (11) are arranged on the edge of one side of the flexible pad (1), the extension parts (11) extend outwards towards the direction away from the flexible pad (1), the width of each extension part (11) is larger than that of the restraint component (6), and the extension parts (11) are detachably connected with the restraint component (6).

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