CN219803958U - Bathing device for feet - Google Patents

Abstract

The utility model provides a foot bath device, which comprises a main body part, wherein the main body part is provided with a bath cavity, a first joint is arranged on the bottom wall of the bath cavity at one side facing the bath cavity, a second joint is arranged at one side facing away from the bath cavity, the first joint is communicated with the second joint, and a second gas flow passage is arranged in the first joint and the second joint; the bag body is arranged in the bath cavity, a gas cavity is arranged in the bag body, and the bag body is connected with the first connector so that the second gas flow channel is communicated with the gas cavity; the air supply mechanism is arranged at one side of the bottom wall, which is opposite to the bath cavity, and is connected with the second connector, and the air supply mechanism is used for supplying air to the second air flow channel and supplying air to the air cavity for inflation. According to the bathing device for the foot, the first connector and the second connector which are arranged oppositely are used for avoiding the connection of the hose penetrating through the bottom wall to the bag body, so that the sealing performance of the bottom wall of the bathing cavity is enhanced, water leakage of the bathing cavity is effectively avoided, and the durability and the user experience of the bathing device are improved.

Description

Bathing device for feet

Technical Field

The utility model relates to the field of foot bath, in particular to a foot bath device.

Background

In the prior art, a bath device for feet with a foot massage function is provided with a bag body which is arranged in a bath cavity, and a user can enjoy the massage function while soaking the feet by pressing the feet. In order to improve space utilization and aesthetic property, a through hole is usually formed in the bottom wall of the bath cavity, an air supply hose penetrates through the through hole to be connected with the bag body and the air pump, and due to certain flexibility of the hose, even though the hose is sealed with the through hole through a sealing ring, the sealing property is not strong, and in addition, the hose is easy to deform in the use process of the bath device, so that a water leakage gap is inevitably generated between the hose and the through hole, so that the bath device is seriously leaked, and durability and user experience are poor.

Disclosure of Invention

The utility model aims to provide a foot bath device, which aims to solve the problem of water leakage in the prior art that a hose is used for penetrating through the bottom wall of a bath cavity to connect a bag body.

In order to solve the technical problems, the utility model adopts the following technical scheme:

in one technical scheme of the utility model, the utility model provides a bath device for feet, which comprises a main body part, wherein the main body part is provided with a bath cavity, a first joint is arranged on the bottom wall of the bath cavity at one side facing the bath cavity, a second joint is arranged at one side facing away from the bath cavity, the first joint is communicated with the second joint, and a second gas flow passage is arranged in the first joint and the second joint; the bag body is arranged in the bath cavity, a gas cavity is arranged in the bag body, and the bag body is connected with the first joint so that the second gas flow channel is communicated with the gas cavity; and the air supply mechanism is arranged on one side of the bottom wall, which is opposite to the bath cavity, and is connected with the second joint, and the air supply mechanism is used for supplying air to the second air flow channel and supplying air to the air cavity for inflation.

In one technical scheme of the utility model, a through hole is formed in the bottom wall, one axial end of the through hole extends out of the first connector in a pipe shape, the first connector is arranged opposite to the bottom wall and close to the surface bulge on one side of the bath cavity, the other axial end of the through hole extends out of the second connector in a pipe shape, and the second connector is arranged opposite to the bottom wall and far away from the surface bulge on one side of the bath cavity.

In one aspect of the present utility model, the first connector and the second connector are integrally formed with the bottom wall.

In one technical scheme of the utility model, a through hole is formed in the bottom wall, two flange connectors are arranged at positions of the bottom wall corresponding to the through hole, the two flange connectors are located on two opposite sides of the bottom wall, each flange connector comprises a first connecting portion and a second connecting portion protruding out of the first connecting portion, one side, away from the second connecting portion, of the first connecting portion is abutted to be connected with the bottom wall, the second connecting portions of the two flange connectors are respectively used as the first connector and the second connector, and a second gas flow passage is formed in the second connecting portion.

In one aspect of the present utility model, a first gas flow channel is formed in the first connection portion, the second gas flow channel is communicated with the first gas flow channel, and the first gas flow channel is communicated with the through hole; the axial dimension of the first gas flow passage is larger than that of the second gas flow passage, and a sealing piece for sealing a gap between the flange connecting piece and the bottom wall is arranged in the first gas flow passage.

In one technical scheme of the utility model, the bag body comprises a bag body and a bag body joint, the bag body is provided with the gas cavity, the bag body joint is arranged on the bag body and communicated with the gas cavity, and the bag body joint is nested on the first joint and connected with the first joint in an interference fit manner.

In one aspect of the present utility model, the air supply mechanism includes an air pump and an air supply pipe, one end of the air supply pipe is connected to the air pump, and the other end of the air supply pipe is connected to the second joint; the air supply pipeline is also provided with a valve body, the valve body is provided with an air inlet valve port and two air outlet valve ports, the air inlet valve port is communicated with the air outlet end of the air pump, one of the air outlet valve ports is used for being connected with the second joint, and the other air outlet valve port is used for being communicated with the atmosphere.

In one technical scheme of the utility model, two bag bodies are arranged in the bath cavity, and the two bag bodies are used for wrapping the left foot and the right foot to perform pneumatic massage;

the bottom wall of the bath cavity is provided with the first joint and the second joint at positions corresponding to the two bag bodies; one of the air outlet valve ports is used for being respectively connected with the corresponding second connectors of the two bag bodies through an air supply pipeline so as to inflate the two bag bodies.

In one technical scheme of the utility model, a massage component matched with the bag body is also arranged in the bath cavity, the massage component comprises a massage head and a massage soft rubber, the massage soft rubber is used for massaging the sole of a foot, the bag body is used for massaging the face of the foot, two ends of the bag body are connected to two sides of the massage head, and a foot accommodating space for accommodating at least one part of the foot is formed by enclosing the middle bulge and the massage soft rubber.

In one technical scheme of the utility model, the main body part is further provided with a mounting cavity, the mounting cavity is positioned at one side of the bottom wall opposite to the bath cavity, and the air supply mechanism is positioned in the mounting cavity.

In one technical scheme of the utility model, the bag body comprises more than two gas cavities which are communicated with each other, and the more than two gas cavities are distributed at the positions of the instep and the left and right sides of the instep;

the massage soft rubber and the wall surface, which is positioned around the position of the massage component, in the bottom wall of the bath cavity are integrally formed.

The utility model discloses a foot bath device, which comprises a main body part, a bag body and an air supply mechanism, wherein the main body part is provided with a bath cavity, a first joint is arranged on the bottom wall of the bath cavity at one side facing the bath cavity, a second joint is arranged at one side opposite to the bath cavity, the first joint is connected with the bag body arranged in the bath cavity, the second joint is connected with the air supply mechanism arranged at one side opposite to the bath cavity, and the bag body is connected through a hose penetrating through the bottom wall through the first joint and the second joint which are arranged oppositely, so that the tightness of the bottom wall of the bath cavity is enhanced, the water leakage of the bath cavity is effectively avoided, and the durability and the user experience of the bath device are improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the utility model as claimed.

Drawings

The above and other objects, features and advantages of the present utility model will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings.

Fig. 1 is a schematic view showing a structure of a foot bath device according to an embodiment of the present utility model.

Fig. 2 is an enlarged schematic view of the portion a of the foot bath device shown in fig. 1.

Fig. 3 is a schematic view showing a structure of a foot bath device according to another embodiment of the present utility model.

Fig. 4 is an enlarged schematic view of the portion B of the foot bath device shown in fig. 3.

Fig. 5 is another schematic view of a foot bath device according to an embodiment of the present utility model.

Fig. 6 is a schematic view of the structure of a balloon according to an embodiment of the present utility model in a deployed state.

The reference numerals are explained as follows:

1. a main body portion; 11. a bath cavity; 12. a bottom wall; 13. a through hole; 14. a mounting cavity; 2. a bladder; 21. a capsule body; 22. a balloon adapter; 23. a gas chamber; 24. a spacer; 25. a notch; 31. a first joint; 32. a second joint; 41. a flange connection; 411. a first connection portion; 412. a second connecting portion; 413. a first gas flow passage; 414. a second gas flow path; 415. a seal; 51. an air pump; 52. a valve body; 521. an air inlet valve port; 522. the first air outlet valve port; 523. the second air outlet valve port; 531. a first air supply pipe; 532. a second air supply pipe; 533. a third air supply pipe; 6. a massage assembly; 61. a massage head; 62. massage soft gel.

Detailed Description

While this utility model is susceptible of embodiment in different forms, there is shown in the drawings and will herein be described in detail, specific embodiments thereof with the understanding that the present disclosure is to be considered as an exemplification of the principles of the utility model and is not intended to limit the utility model to that as illustrated.

Thus, reference throughout this specification to one feature will be used in order to describe one embodiment of the utility model, not to imply that each embodiment of the utility model must be in the proper motion. Furthermore, it should be noted that the present specification describes a number of features. Although certain features may be combined together to illustrate a possible system design, such features may be used in other combinations not explicitly described. Thus, unless otherwise indicated, the illustrated combinations are not intended to be limiting.

In the embodiment shown in the drawings, indications of orientation (such as up, down, in, out, left, right, front, back, etc.) are used to explain the structure and movement of the various components of the utility model are not absolute but relative. These descriptions are appropriate when the components are in the positions shown in the drawings. If the description of the location of these components changes, then the indication of these directions changes accordingly.

Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments may be embodied in many forms and should not be construed as limited to the examples set forth herein; rather, these example embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. The drawings are merely schematic illustrations of the present utility model and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus a repetitive description thereof will be omitted.

Preferred embodiments of the present utility model will be further elaborated below with reference to the drawings of the present specification.

In the prior art, the gasbag of foot-bath equipment with gasbag massage function is usually connected with air feed subassembly through a hose, for improving space utilization and aesthetic property, be equipped with the through-hole on the diapire of the cavity that is used for holding foot-bath water generally, the hose passes through the through-hole and connects gasbag and air feed subassembly, because hose itself has certain pliability, in the foot-bath equipment use, the hose can receive extrusion, collide, make it take place deformation, even seal through the sealing washer between hose and the through-hole, also can have the problem that the gap between hose and the through-hole exposes, lead to sealing failure problem to take place often, foot-bath equipment has the water leakage seriously, durability and user experience feel not good defect.

Based on the above, the utility model provides a foot bath device capable of effectively preventing water leakage.

A bath apparatus for feet according to an embodiment of the present utility model will be described below with reference to fig. 1 to 5, the bath apparatus for feet including a main body part 1, a bag body 2, and an air supply mechanism, the main body part 1 being provided with a bath chamber 11, a first joint 31 being provided on a bottom wall 12 of the bath chamber 11 on a side facing the bath chamber 11, and a second joint 32 being provided on a side facing away from the bath chamber 11, the first joint 31 being in communication with the second joint 32, and second air flow passages 414 being provided in the first joint 31 and the second joint 32; the bag body 2 is arranged in the bath cavity 11, a gas cavity is arranged in the bag body, and the bag body 2 is connected with the first joint 31 so that the second gas flow passage 414 is communicated with the gas cavity; the air supply mechanism is arranged at one side of the bottom wall 12, which is opposite to the bath cavity 11, and is connected with the second joint 32, and air can be supplied to the second air flow passage 414 and the air cavity through the air supply mechanism so as to inflate the bag body 2.

In this technical scheme, bath chamber 11 is used for holding foot bath water, the cell body 2 sets up in bath chamber 11 for the user can enjoy the massage experience that the atmospheric pressure of bag pressed the foot and bring when the bubble foot, wherein, still be equipped with in bath chamber 11 with cell body 2 cooperation use massage subassembly 6, massage subassembly 6 sets up at diapire 12, and set up with cell body 2 relatively, form the foot accommodation space that is used for holding at least part of foot between massage subassembly 6 and the cell body 2, the user is when using this bath device for foot to take a bath, the foot passes through cell body 2 location on the position of massage subassembly 6 and offsets with massage subassembly 6, promote massage experience through the cooperation of massage subassembly 6 and cell body 2, specifically, massage subassembly 6 can massage the plantar, cell body 2 can massage the instep, thereby can realize that the omnidirectional is massaged and is relaxed to user's biped.

The shape of the bath chamber 11 is not limited, and may be a cube as shown in fig. 5, a rectangular body, or other irregular shape. The top of the bath chamber 11 is provided with an opening which can be used for a user to extend feet into, wherein the bag body 2 is an arc sector as shown in fig. 5, and the design can better wrap the feet of the user and better fit the feet for massaging.

Wherein, the first joint 31 and the second joint 32 are disposed on opposite sides of the bottom wall 12, the first joint 31 is used for connecting the bag body 2, the second joint 32 is used for connecting the air supply mechanism, the second joint 31 and the second joint 32 are internally provided with a second air flow passage 414, the second air flow passage 414 enables the first joint 31 and the second joint 32 to be in air passage communication, and further enables the air supply mechanism to be communicated with the air cavity of the bag body 2 through the second joint 32 and the first joint 31, and air from the air supply mechanism, such as compressed air, can be supplied to the air cavity through the second air flow passage 414, so that the bag body 2 is inflated and expanded. In this technical scheme, through setting up matched with first joint 31 and second joint 32 in the opposite both sides of diapire 12, avoided adopting hose gas circuit connection air feed mechanism and the bag body 2 that pass diapire 12 to can effectively avoid among the prior art diapire 12 and hose grafting cooperation after, the unavoidable problem that produces the gap that leaks in grafting department, make the durability of bathing device and user's use experience obtain effectively promoting.

In one embodiment of the present utility model, as shown in fig. 1 and 2, a through hole 13 is formed in the bottom wall 12, one axial end of the through hole 13 extends out of a first connector 31 in a tubular shape, the first connector 31 is disposed in a protruding manner with respect to a surface of the bottom wall 12 on a side close to the bath chamber 11, the other axial end of the through hole 13 extends out of a second connector 32 in a tubular shape, and the second connector 32 is disposed in a protruding manner with respect to a surface of the bottom wall 12 on a side far from the bath chamber 11.

In the technical scheme, the through hole 13 penetrating through the thickness of the bottom wall 12 is formed in the bottom wall 12, the through hole 13 is communicated with the first joint 31 and the second joint 32, the first joint 31 is formed at one axial end of the through hole 13 and is located in the bath cavity 11 and is arranged in a protruding mode relative to the inner bottom surface of the bottom wall 12, the first joint 31 is directly connected with the bag body 2, the second joint 32 is formed at the other axial end of the through hole 13 and is located outside the bath cavity 11 and is arranged in a protruding mode relative to the outer bottom surface of the bottom wall 12, the second joint 32 is connected with the air supply mechanism, and the arrangement is adopted, so that the problem that a water leakage gap is generated at a splicing joint of the bottom wall 12 and a hose in the prior art due to hose connection is avoided, and the water leakage prevention performance of the foot bath device is improved.

In addition, the first joint 31 and the second joint 32 of the tubular structure are more convenient to assemble with the capsule 2 and the air supply mechanism, and in particular, compared with the prior art that a hose is adopted to penetrate through the bottom wall 12 to be respectively connected with the capsule 2 and the air supply mechanism, the first joint 31 and the second joint 32 which are not easy to deform are adopted, so that the first joint 31 and the capsule 2 are more easy to assemble, and the second joint 32 and the air supply mechanism are easier to assemble.

In one aspect of the present utility model, the first joint 31 and the second joint 32 are integrally formed with the bottom wall 12.

In this technical scheme, first joint 31 and second joint 32 and diapire 12 integrated into one piece, can further promote the leakproofness of diapire 12 like this, prevent that the junction of first joint 31 and diapire 12 and the junction of second joint 32 and diapire 12 from producing the gap that leaks. It will be appreciated that the first joint 31, the second joint 32, and the bottom wall 12 may also be formed as separate elements, the first joint 31 and the second joint 32 being connected to opposite sides of the bottom wall 12 by suitable means, such as welding, soldering, etc., to the bottom wall 12, as long as a sufficiently strong tightness is ensured at the junction of the first joint 31 and the bottom wall 12 and at the junction of the second joint 32 and the bottom wall 12.

In another embodiment of the present utility model, as shown in fig. 3 and 4, a through hole 13 is formed in the bottom wall 12, two flange connectors 41 are disposed at positions corresponding to the through hole 13 on the bottom wall 12, the two flange connectors 41 are located at opposite sides of the bottom wall 12, the flange connectors 41 include a first connection portion 411 and a second connection portion 412 protruding from the first connection portion 411, one side of the first connection portion 411 of the two flange connectors 41 away from the second connection portion 412 is respectively abutted against and connected to the bottom wall 12, the second connection portion 412 of the flange connector 41 located in the bath cavity serves as a first joint 31, the second connection portion 412 of the flange connector 41 located outside the bath cavity serves as a second joint 32, and a second gas flow passage 414 is formed in the second connection portion 412.

In this technical solution, a through hole 13 penetrating through the thickness of the bottom wall 12 is formed in the bottom wall 12, a first flange connector is disposed at one axial end of the through hole 13, the first flange connector is located in the bath cavity, a second flange connector is disposed at the other axial end of the through hole 13, the second flange connector is located at one side of the bottom wall 12 facing away from the bath cavity, the first flange connector and the second flange connector are communicated through the through hole 13, wherein the first flange connector and the second flange connector each comprise a first connecting portion 411 and a second connecting portion 412 protruding from the first connecting portion 411, one side of the first connecting portion 411 away from the second connecting portion 412 abuts against and is connected to the bottom wall 12, the second connecting portion 412 of the first flange connector serves as a first joint 31 for connecting the bag body 2, the second connecting portion 412 of the second flange connector serves as a second joint 32 for connecting the air supply mechanism, an inner cavity can be formed in the first connecting portion 411, a second air flow passage 414 is formed in the second connecting portion 412, and the second air flow passage 414 in the second connecting portion 412 and the second connecting portion in the second connecting portion enable two output air channels 41 to be connected to each other through the flange body 41.

In the technical scheme, the flange connector 41 is adopted to connect the bag body 2 with the air supply mechanism, so that the advantage of stronger tightness of the flange connector 41 is utilized, water leakage in an assembly gap between the flange connector 41 and the bottom wall 12 can be effectively avoided, and the water leakage prevention performance and durability of the foot bathing device are improved.

In one embodiment of the present utility model, as shown in fig. 4, a first gas flow passage 413 is formed in the first connection portion 411, a second gas flow passage 414 is communicated with the first gas flow passage 413, and the first gas flow passage 413 is communicated with the through hole 13; the axial dimension of the first gas flow passage 413 is larger than the axial dimension of the second gas flow passage 414, and a sealing member 415 for sealing the gap between the flange connector 41 and the bottom wall 12 is provided in the first gas flow passage 413.

In this technical solution, by providing the first gas flow passage 413 and the second gas flow passage 414 so that the two flange connectors 14 communicate with each other, the gas output from the gas supply mechanism is input into the bladder 2 via the two flange connectors; wherein a sealing element 415 is provided in the first gas flow passage 413, by means of which sealing element 415 the assembly gap between the first connection 411 of the flange connection 41 and the bottom wall 12 is sealed. By arranging the sealing element 415, the sealing connectivity between the flange connecting element 41 and the bottom wall 12 is improved, and the water leakage caused by the sealing between the flange connecting element 41 and the bottom wall 12 is prevented, so that the water leakage preventing performance of the bath device is further effectively improved. It should be noted that the seal 415 is a flexible member, and the flexible member may be a rubber ring or a silicone ring.

In one embodiment of the present utility model, as shown in fig. 4, a fixing hole is formed at a position of the flange connector 41 corresponding to the bottom wall 12, and the flange connector 41 is fixed at a position of the bottom wall 12 corresponding to the through hole 13 by a threaded fastener or a snap fastener penetrating through the fixing hole.

In one embodiment of the present utility model, as shown in fig. 1 and 3, the bladder 2 includes a bladder body 21 and a bladder connector 22, a gas cavity is provided on the bladder body 21, the bladder connector 22 is provided on the bladder body 21 and is in communication with the gas cavity, and the bladder connector 22 is nested on the first connector 31 and is in interference fit connection with the first connector 31.

In this technical solution, the bladder connector 22 and the bladder body 21 may be integrally formed, and are made of a material capable of expanding and contracting, the bladder connector 22 is formed with a receiving cavity having an opening, and the bladder connector 22 is nested on the first connector 31 with its opening facing the bottom wall 12 and is connected with the first connector 31 in an interference fit manner, so that air leakage can be prevented, inflation efficiency can be improved, and foot soaking water in the bathing cavity 11 can be prevented from penetrating into the bladder body 21.

In one embodiment of the present utility model, as shown in fig. 1 and 3, the air supply mechanism includes an air pump 51 and an air supply line, one end of the air supply line is connected to the air pump 51, and the other end of the air supply line is connected to the second joint 32.

In this technical scheme, set up the air supply pipeline, can be convenient for air pump 51 aerify for the bag body 2, guarantee in the use, the user can adjust the degree of expansion of bag body 2 according to the feel of using and guarantee the laminating degree of bag body 2 to the instep, the massage effect in the use that can be better assurance, improvement user feel of using. Wherein, the air supply pipeline can be connected with the second joint 32 in an interference fit manner so as to prevent air leakage and improve the air charging efficiency.

In one embodiment of the present utility model, as shown in fig. 1 and 3, a valve body 52 is further disposed in the air supply pipeline, and an air inlet valve port 521 and two air outlet valve ports are disposed on the valve body 52, where the air inlet valve port 521 is communicated with the air outlet end of the air pump 51, one of the air outlet valve ports is used for being connected with the second connector 32, and the other air outlet valve port is used for communicating with the atmosphere.

In this technical scheme, through setting up valve body 52 in the gas circuit structure, can be convenient for control the gassing of the capsule body 2, the preferable valve body 52 is two-position three-way solenoid valve. Specifically, the two-position three-way electromagnetic valve comprises an air inlet valve port 521, a first air outlet valve port 522 and a second air outlet valve port 523, wherein the air inlet valve port 521, the first air outlet valve port 522 and the second air outlet valve port 523 are communicated, the air inlet valve port 521 is communicated with the air outlet end of the air pump 51 through an air supply pipeline, the first air outlet valve port 522 is connected with the second joint 32 through the air supply pipeline, and compressed air output by the air pump 51 can enter the valve body 52 through the air inlet valve port 521 and then is conveyed into the bag body 2 through the first air outlet valve port 522, so that the bag body 2 is inflated. When the air pump is in an electrified state, the two-position three-way electromagnetic valve opens the air inlet valve port 521 and the first air outlet valve port 522, closes the second air outlet valve port 523, and charges air output by the air pump 51 into the bag body 2 through the air inlet valve port 521 and the first air outlet valve port 522, so that the bag body 2 is inflated. In the power-off state, the two-position three-way electromagnetic valve opens the first air outlet valve port 522 and the second air outlet valve port 523 and closes the air inlet valve port 521, so that the air in the bag body 2 flows back to the valve body 52 and is discharged to the atmosphere through the second air outlet valve port 523, and the deflation of the bag body 2 is realized, thus the inflation and deflation of the bag body 2 can be conveniently realized, and the moist air in the bag body 2 is prevented from entering the air pump 51.

In one technical scheme of the utility model, two bag bodies 2 are arranged in the bath cavity, the two bag bodies 2 are arranged at intervals along the width direction of the bath cavity 11, and the positions of the bottom wall 12 of the bath cavity corresponding to the two bag bodies 2 are respectively provided with a first joint 31 and a second joint 32; one of the air outlet ports is used for being respectively connected with the corresponding second connectors 32 of the two bags 2 through the air supply pipeline so as to inflate the two bags 2.

Specifically, as shown in fig. 1, 3 and 5, two bags 2 are arranged in the bath cavity 11, and the two bags 2 are used for wrapping the left and right feet to perform pneumatic massage; the bottom wall of the bath cavity 11 is provided with a first joint 31 and a second joint 32 at positions corresponding to the two capsules; one of the air outlet ports, for example, the first air outlet port 522 is used to connect with the corresponding second connectors of the two bladders respectively through the air supply pipeline so as to inflate the two bladders.

In one embodiment of the present utility model, the air pump 51 and the valve body 52 are shared by at least two bags 2, the air supply pipeline includes a first air supply pipe 531, a second air supply pipe 532 and a third air supply pipe 533, the first air supply pipe 531 extends between at least two second joints 32, two ends of the first air supply pipe 531 are respectively nested on the second joints 32, one end of the second air supply pipe 532 is communicated with the first air outlet valve port 522 of the valve body 52, the other end of the second air supply pipe 532 is communicated with the first air supply pipe 531, and the air inlet valve port 521 of the valve body 52 is communicated with the air pump 51 through the third air supply pipe 533.

In one technical scheme of the utility model, a massage assembly 6 matched with the bag body 2 is further arranged in the bath cavity, specifically, the massage assembly 6 comprises massage heads 61 and massage soft rubber 62, one or more massage heads 61 are distributed on the bottom wall 12 of the bath cavity 11, the massage soft rubber 62 is arranged above the massage heads 61, the massage soft rubber 62 can massage soles of users through rotation or swing of the massage heads 61, the massage soft rubber 62 can protect the massage heads 61, and meanwhile, the massage comfort level is improved. The massage pad 52 may be made of soft materials such as silica gel and rubber.

The bag body 2 is used for massaging the instep, two ends of the bag body 2 are connected to two sides of the massage head 61, the middle part of the bag body 2 is convex, and a foot accommodating space for accommodating at least part of a foot is formed by enclosing the middle part of the bag body 2 and the massage soft rubber 62. When the foot massage device is used, a user places feet in the foot containing space, the bag body 2 presses the instep, the massage soft rubber 62 massages the sole of the foot under the motion of the massage head 61, and the bag body 2 enables the sole of the user to keep in close contact with the massage soft rubber 62 all the time on one hand and realizes the massage of the instep on the other hand.

For example, the bottom wall 12 of the bath cavity 11 is provided with two through holes, the size and the size of the through holes are matched with those of feet of a user, in general, the massage assembly 6 comprises a massage head 61 and a massage soft rubber 62, the massage soft rubber 62 covers the two through holes to seal the bath cavity 11, the bath cavity 11 is prevented from being leaked, the massage head 61 is arranged at the through holes and is arranged on one surface of the massage soft rubber 62, which is away from the bath cavity 11, the massage assembly 6 further comprises a massage driving structure, the massage driving structure and the massage head 61 are arranged on one surface of the massage soft rubber 62, which is away from the bath cavity 11, so that the massage driving structure and the massage head 61 can be prevented from contacting with water of the bath cavity 11.

In practice, the two ends of the capsule 2 may be fixedly connected or detachably connected to the bottom wall 12 at two sides of the massage head 61 by screws, viscous substances or fastening structures.

In one embodiment of the present utility model, as shown in fig. 1 and 3, the main body 1 is further provided with a mounting cavity 14, the mounting cavity 14 is located at a side of the bottom wall 12 opposite to the bath cavity 11, and the air supply mechanism is located in the mounting cavity 14.

In this technical scheme, main part 1 has bath chamber 11 and the installation chamber 14 that are distributed from top to bottom, and bath chamber 11 and installation chamber 14 separate through the diapire 12 of bath chamber 11, and the mechanism of supplying air sets up in installation chamber 14, can promote the integrated level and the aesthetic property of this bath device for foot like this, improves user experience and feels.

In summary, the bath device for feet provided by the embodiment of the utility model has at least the following beneficial technical effects:

the foot bath device comprises a main body part 1, a bag body 2 and an air supply mechanism, wherein the main body part 1 is provided with a bath cavity 11, a first joint 31 is arranged on one side, facing the bath cavity 11, of a bottom wall 12 of the bath cavity 11, a second joint 32 is arranged on one side, facing away from the bath cavity 11, of the bottom wall 12, the first joint 31 is connected with the bag body 2 arranged in the bath cavity 11, the second joint 32 is connected with the air supply mechanism arranged on one side, facing away from the bath cavity 11, of the bottom wall 12, and the bag body 2 is connected through a hose penetrating through the bottom wall 12 through the first joint 31 and the second joint 32 which are arranged oppositely, so that the tightness of the bottom wall 12 of the bath cavity 11 is enhanced, the water leakage of the bath cavity 11 is effectively avoided, and the durability and the user experience of the bath device are improved.

In one technical scheme of the present utility model, referring to fig. 6, fig. 6 is a schematic structural view of a capsule body 2 in an unfolded state, the capsule body 2 includes more than two gas chambers 23, the more than two gas chambers 23 are mutually communicated, a spacer 24 is formed between the more than two gas chambers 23, and at least one gas chamber 23 is respectively arranged at positions corresponding to a foot surface, a left side of the foot surface and a right side of the foot surface; the gas chambers 23 located on the left and right sides are horn-shaped with a decreasing width from one end to the other.

Wherein, more than two gas chamber 23 can laminate user's instep more than setting up an atmosphere gas chamber, and the gas chamber of left and right sides can carry out pneumatic massage to instep left and right sides.

The gas chambers 23 are isolated by the isolating strips 24, when the gas chambers 23 are inflated, the gas chambers 23 are mutually independent to form a full shape, in specific implementation, two pieces of opposite airbag materials can be used, the isolating strips 24 are formed by adopting a high-temperature hot-pressing process, the isolating strips 24 isolate the adjacent gas chambers 23, gaps 25 can be arranged on the isolating strips 24 between the adjacent gas chambers 23, the gaps 25 are used for communicating the adjacent gas chambers 23, the gas chambers 23 are mutually communicated, and the same inflation port can be used for inflating a plurality of gas chambers 23.

Considering that the instep of the user is generally thicker from the toe to the heel, the circumference of the foot from the heel to the toe is smaller, therefore, in order to make the bladder 2 more fit the instep of the user, the shape of the bladder 2 is set to be a horn shape in the left and right side gas chambers 23, so that the width of one end of the side gas chamber 23 in the toe direction is smaller than the width of one end of the instep in the heel direction in the length direction, and accordingly, the foot accommodation space is narrower from the heel direction to the toe direction, and each position of the instep can be subjected to pneumatic massage by the bladder 2.

The massage soft rubber 62 and the wall surface around the position of the massage assembly 6 in the bottom wall 12 of the bath cavity 11 are integrally formed, so that the connection between the massage soft rubber 62 and the bottom wall 12 is tighter, and the tightness of the bottom wall 12 of the bath cavity 11 can be better.

While the utility model has been described with reference to several exemplary embodiments, it is to be understood that the terminology used is intended to be in the nature of words of description and of limitation. As the present utility model may be embodied in several forms without departing from the spirit or essential attributes thereof, it should be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the metes and bounds of the claims, or equivalences of such metes and bounds are therefore intended to be embraced by the appended claims.

Claims (10)

1. A bath device for feet, comprising:

the main body part is provided with a bath cavity, a first connector is arranged on one side, facing the bath cavity, of the bottom wall of the bath cavity, a second connector is arranged on one side, facing away from the bath cavity, of the bottom wall of the bath cavity, the first connector is communicated with the second connector, and a second gas flow passage is arranged in the first connector and the second connector;

the bag body is arranged in the bath cavity, a gas cavity is arranged in the bag body, and the bag body is connected with the first joint so that the second gas flow channel is communicated with the gas cavity;

and the air supply mechanism is arranged on one side of the bottom wall, which is opposite to the bath cavity, and is connected with the second joint, and the air supply mechanism is used for supplying air to the second air flow channel and supplying air to the air cavity for inflation.

2. The bath device for feet according to claim 1, wherein a through hole is provided in the bottom wall, one axial end of the through hole extends out of the first joint in a tubular shape, the first joint is disposed opposite to the bottom wall and close to the surface protrusion on one side of the bath chamber, the other axial end of the through hole extends out of the second joint in a tubular shape, and the second joint is disposed opposite to the bottom wall and far away from the surface protrusion on one side of the bath chamber.

3. The foot bath device of claim 1, wherein the first and second connectors are of unitary construction with the bottom wall.

4. The bath device for feet according to claim 1, wherein a through hole is provided in the bottom wall, two flange connectors are provided at positions corresponding to the through hole, the two flange connectors are located at two opposite sides of the bottom wall, the flange connectors comprise a first connecting portion and a second connecting portion protruding out of the first connecting portion, one side of the first connecting portion away from the second connecting portion is abutted against and connected to the bottom wall, the second connecting portions of the two flange connectors are respectively used as the first joint and the second joint, and the second gas flow passage is formed in the second connecting portion.

5. The bath device for foot according to claim 4, wherein a first gas flow passage is formed in the first connection portion, the second gas flow passage communicates with the first gas flow passage, and the first gas flow passage communicates with the through hole; the axial dimension of the first gas flow passage is larger than that of the second gas flow passage, and a sealing piece for sealing a gap between the flange connecting piece and the bottom wall is arranged in the first gas flow passage.

6. The bath device for feet according to claim 1, wherein the bag body comprises a bag body and a bag body joint, the bag body is provided with the gas cavity, the bag body joint is arranged on the bag body and communicated with the gas cavity, and the bag body joint is nested on the first joint and connected with the first joint in an interference fit manner.

7. The bath device for foot according to claim 1, wherein the air supply mechanism includes an air pump and an air supply line, one end of the air supply line is connected to the air pump, and the other end of the air supply line is connected to the second joint;

the air supply pipeline is also provided with a valve body, the valve body is provided with an air inlet valve port and two air outlet valve ports, the air inlet valve port is communicated with the air outlet end of the air pump, one of the air outlet valve ports is used for being connected with the second joint, and the other air outlet valve port is used for being communicated with the atmosphere.

8. The bath device for feet according to claim 7, wherein two bags are arranged in the bath cavity, and the two bags are used for wrapping the left foot and the right foot for air pressure massage;

the bottom wall of the bath cavity is provided with the first joint and the second joint at positions corresponding to the two bag bodies; one of the air outlet valve ports is used for being respectively connected with the corresponding second connectors of the two bag bodies through an air supply pipeline so as to inflate the two bag bodies;

the main body part is also provided with an installation cavity, the installation cavity is positioned at one side of the bottom wall, which is opposite to the bath cavity, and the air supply mechanism is positioned in the installation cavity.

9. A foot bath device according to any one of claims 1-8, wherein a massage assembly is further provided in the bath chamber for cooperating with the bladder, the massage assembly comprising a massage head and a massage gel for massaging the sole of the foot, the bladder for massaging the instep of the foot, the bladder having two ends connected to two sides of the massage head, and a foot receiving space for receiving at least a portion of the foot being defined by the central protrusion and the massage gel.

10. The bath device for foot according to claim 9, wherein the bag body comprises two or more gas chambers, the two or more gas chambers are communicated with each other, a barrier rib is formed between the two or more gas chambers, and at least one gas chamber is respectively provided at positions corresponding to the instep, the left side of the instep and the right side of the instep; the gas cavities at the left and right sides are in a horn shape with reduced width from one end to the other end;

the massage soft rubber and the wall surface, which is positioned around the position of the massage component, in the bottom wall of the bath cavity are integrally formed.