CN216823154U - Foot bath device - Google Patents

Abstract

The application provides a foot bath, including: the footbath comprises a footbath body, wherein a footbath cavity is formed in the footbath body, and an avoidance opening is formed in the footbath body; the soft rubber cushion is connected with the footbath body in a sealing way and shields the sealing evasion port; the massage structure is arranged opposite to the avoiding opening and is covered by the soft rubber cushion. The foot bath device can avoid the problem of uncomfortable feeling caused by friction between the massage structure and the part to be massaged, has simple and easy assembly, can improve the sealing property of the massage structure, further improves the electrical safety and aging phenomenon of the foot bath device, and also realizes good fusion between the soft rubber cushion and other parts (such as the massage structure, the foot bath device basin body and the like) of the foot bath device.

Description

Foot bath device

Technical Field

The application relates to the field of foot bath massage equipment, in particular to a foot bath device.

Background

The massage mode of the existing foot bath device sold in the market is a mode that a motor drives a massage ball to rub with the sole of a foot. In the foot bath process, feet are soaked in water, the skin of the soles becomes delicate, and the massage balls are hard plastic or steel columns and directly rub the soles, so that people feel uncomfortable.

In view of the above, the related art proposes a concept of adding a soft gel made of skin-friendly material between the massage ball and the sole of the foot, thereby also bringing about a problem of how to arrange the soft gel in the foot bath device.

SUMMERY OF THE UTILITY MODEL

One objective of the present application is to provide a foot bath device configured with a soft rubber pad, wherein the soft rubber pad is compatible with a foot bath device basin and a massage structure of the foot bath device.

In order to solve the technical problem, the following technical scheme is adopted in the application:

one aspect of the present application provides a foot bath device, including: the footbath comprises a footbath body, wherein a footbath cavity is formed in the footbath body, and an avoidance port is formed in the footbath body; the soft rubber cushion is connected with the footbath body in a sealing way and shields and seals the evasion port; and the massage structure is arranged opposite to the avoiding opening and is covered by the soft rubber cushion.

According to some aspects of the present disclosure, the soft rubber pad includes: massaging the soft rubber; the massage soft rubber and the bracket are connected into a whole in a sealing way or an injection molding way, and the bracket is connected with the footbath body; a seal sealing a gap between the bracket and the footbath basin.

According to some technical schemes of the application, a boss is arranged on the support, and at least one of a convex structure and a concave structure is arranged on the boss; the massage soft rubber and the boss are connected together in an injection molding mode, and the massage soft rubber is embedded with the protruding structure or the recessed structure.

According to some aspects of the present disclosure, the seal is clamped between the bracket and the tub; the sealing element is provided with a first surface facing the bracket, a first protruding part is arranged on one of the first surface and the bracket, a groove is arranged on the other one of the first surface and the bracket, and the first protruding part extends into the groove; and/or the seal has a second surface disposed facing the footbath tub, the second surface having a second protrusion disposed thereon.

According to some aspects of the present disclosure, the soft rubber pad includes: the massage soft rubber is provided with a sealing element integrated with the massage soft rubber in an extending way; the bracket is connected with the footbath body and clamps the sealing piece between the bracket and the footbath body.

According to some aspects of the present disclosure, the soft massage glue defines a cavity having an opening at one end, and the sealing member is defined as a peripheral edge disposed along an edge of the opening; the support is arranged in a ring shape, is embedded and arranged on the outer side of the cavity and is positioned in a concave angle formed by the sealing element and the side wall of the cavity together.

According to some technical schemes of the application, the soft rubber pad comprises massage soft rubber, the massage soft rubber is integrally connected with the footbath body in an injection molding mode, and the massage soft rubber is used for shielding and sealing the dodging opening.

According to some technical schemes of the application, the foot bath basin body comprises a basin body side wall and a basin body support, wherein the basin body side wall is connected with the basin body support; the massage soft rubber and the basin body support are connected into a whole in an injection molding mode, the massage soft rubber and the basin body support jointly form a basin bottom wall of the foot bath basin body, and the basin bottom wall and the basin body side wall are enclosed to form the foot bath cavity.

According to some technical schemes of the application, a boss is arranged on the pot body support, and at least one of a convex structure and a concave structure is arranged on the boss; the massage soft rubber and the boss are connected together in an injection molding mode, and the massage soft rubber is embedded with the protruding structure or the recessed structure.

According to some technical scheme of this application, basin body side wall is including the lateral wall flexible glue part that can be folded, lateral wall flexible glue part basin body support these three of massage flexible glue link into an integrated entity through moulding plastics.

According to some technical schemes of the application, a mounting cavity is limited on the footbath body, the mounting cavity is distributed around the avoidance opening along the circumferential direction of the avoidance opening, and the support and the sealing piece are located in the mounting cavity.

According to some aspects of the present disclosure, the sealing member is provided with a through hole; the foot bath basin is characterized in that the support is provided with a convex column, the convex column penetrates through the through hole, a mounting hole is formed in the convex column, a matching hole is formed in the foot bath basin body, and a fastener can penetrate through the matching hole to be connected with the mounting hole so as to connect the support and the foot bath basin body together.

According to some aspects of the present disclosure, the foot bath further includes: and the wear-resistant layer is arranged between the soft rubber cushion and the massage structure.

According to some aspects of the present disclosure, the foot bath further includes: the foot bath device comprises a base, wherein the base is positioned below a foot bath device basin body and forms an accommodating space with the foot bath device basin body in an enclosing mode, and the massage structure is positioned in the accommodating space and is sealed and separated from a foot bath cavity through the soft rubber pad.

In this application, soft cushion and lavipeditum ware basin body sealing connection and shelter from the mouth of dodging of sealed lavipeditum ware basin body, massage structure sets up relatively with dodging mouthful position and is covered by the soft cushion, like this, use the lavipeditum ware to treat the in-process that massages position (like the sole) massages, the soft cushion can shelter from treating between massage position and the massage structure, reduce the massage structure and treat the direct friction between the massage position to avoid the massage structure and treat the uncomfortable sense that massage position friction produced. Meanwhile, the structure that the soft rubber pad is connected to the footbath body in a sealing mode has simple and easy installation performance, the assembling efficiency and firmness of the soft rubber pad can be better guaranteed, the sealing performance of the massage structure is improved, the electrical safety and aging of the footbath are further improved, and the soft rubber pad is well fused with other components (such as the massage structure and the footbath body) of the footbath device.

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 application.

Drawings

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

Fig. 1 is a schematic cross-sectional view of a foot bath according to an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a portion a shown in fig. 1.

Fig. 3 is a schematic cross-sectional view of a soft rubber pad according to an embodiment of the present application.

Fig. 4 is an enlarged schematic structural view of a portion B shown in fig. 3.

Fig. 5 is an exploded view of the soft rubber pad illustrated in fig. 3.

Fig. 6 is a schematic cross-sectional view of a soft rubber pad according to an embodiment of the present application.

Fig. 7 is an enlarged structural view of the portion C shown in fig. 6.

Fig. 8 is an exploded view of the soft rubber pad illustrated in fig. 6.

Fig. 9 is a partial structural schematic view of a foot bath device according to an embodiment of the present application.

FIG. 10 is a schematic view of the soft rubber cushion assembled with the tub of the foot bath according to an embodiment of the present application.

Fig. 11 is an enlarged structural view of the D portion shown in fig. 10.

The reference numerals are explained below:

a foot bath tub 100; an avoidance port 101; a mounting cavity 102; a bowl sidewall 111; a bowl support 112; a third boss 1121; a third bump structure 11211; a fitting hole 113; a first soft rubber pad 210; the first soft massage glue 211; a first end 2111; an extension 2112; a first bracket 212; a first boss 2121; a first raised structure 21211; a groove 2122; a first seal 213; a first projection 2131; a second projection 2132; a second soft rubber pad 220; the second massage soft rubber 221; the second end 2211; a second bracket 222; a second boss 2221; second projection structures 22211; post 2223; mounting holes 2224; a second seal 223; a through-hole 2231; a third soft rubber pad 230; the third massage soft rubber 231; a cavity 2311; a third seal 2312; reentrant angles 2313; a third bracket 232; the fourth soft massage glue 241; a third end 2411; a massage structure 300; a cover 400; a base 500.

Detailed Description

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

Thus, a feature indicated in this specification will serve to explain one of the features of one embodiment of the application, and does not imply that every embodiment of the application must have the explained feature. Further, it should be noted that this specification describes many features. Although some features may be combined to show a possible system design, these features may also be used in other combinations not explicitly described. Thus, the combinations illustrated are not intended to be limiting unless otherwise specified.

In the embodiments shown in the drawings, directional references (such as upper, lower, inner, outer, left, right, front, rear, etc.) are used to explain the structure and movement of various elements of the present application not absolutely, but relatively. These descriptions are appropriate when the elements are in the positions shown in the drawings. If the description of the positions of these elements changes, the indication of these directions changes accordingly.

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different 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 example embodiments to those skilled in the art. The drawings are merely schematic illustrations of the present application and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus their repetitive description will be omitted.

The preferred embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

One embodiment of the present application provides a foot bath including a foot bath basin 100, a soft rubber pad (which may be understood with specific reference to any one of first soft rubber pad 210, second soft rubber pad 220, third soft rubber pad 230, fourth soft rubber pad), and a massage structure 300. The massage structure is a massage head used for massaging feet, such as a massage rotating wheel, a push-pull massage head and the like.

Specifically, the footbath tub 100 is provided with an escape opening 101; the soft rubber cushion is hermetically connected with the footbath 100 and shields the sealing evasion port 101; the massage structure 300 is disposed opposite to the evasion opening 101 and covered by the soft rubber pad.

Therefore, in the process of massaging the part to be massaged (such as the sole) by using the foot bath device, the soft rubber pad can be shielded between the part to be massaged and the massage structure 300, so that the direct friction between the massage structure 300 and the part to be massaged is reduced, and the discomfort caused by the friction between the massage structure 300 and the part to be massaged is avoided. Meanwhile, the structure of the soft rubber pad in sealing connection with the footbath tub body 100 also has simple and easy assembly, the assembly efficiency and firmness of the soft rubber pad can be better guaranteed, the sealing performance of the massage structure 300 is improved, the electrical safety of the footbath and the aging phenomenon of the massage structure 300 are further improved, and the soft rubber pad is well integrated with other components (such as the massage structure 300 and the footbath tub body 100) of the footbath.

In detail, the footbath device 100 includes a tub side wall and a tub bottom wall, the tub side wall and the tub bottom wall enclose a footbath cavity capable of containing foot bath water, the avoiding opening 101 is disposed on the tub bottom wall, the soft rubber pad is also disposed on the tub bottom wall, the avoiding opening can be a through groove opening formed on the tub bottom wall, and when the avoiding opening is the through groove opening, the soft rubber pad shields the sealing avoiding opening, and then the soft rubber pad also forms a part of the tub bottom wall.

Referring to fig. 1, fig. 1 illustrates a structure of a foot bath according to an embodiment of the present application. Specifically, the foot bath includes a foot bath tub 100, a first soft rubber pad 210, and a massage structure 300.

The tub 100 is provided at the side thereof with a foldable or unfoldable structure such that, when the tub 100 is unfolded at the side thereof, the tub 100 has a substantially open-topped tub chamber for receiving bath water and for a foot to be massaged to be inserted therein. When the side of the tub 100 is folded, the distance between the top opening of the tub 100 and the bottom of the tub 100 is shorter than that of the tub 100 in the unfolded state by the folding deformation of the side of the tub 100, thereby reducing the volume of the tub 100 so as to be stored.

Of course, it is understood that in other embodiments, the footbath tub 100 may be provided in a non-collapsible configuration on the sides.

Further, as shown in fig. 2, the first soft rubber pad 210 includes a first soft massage glue 211, a first bracket 212, and a first sealing member 213.

The first soft massage Rubber 211 may be made of soft Rubber materials such as TPE (Thermoplastic Elastomer, chinese Thermoplastic Elastomer, etc.), TPR (Thermoplastic Rubber, chinese Thermoplastic Rubber, etc.), or silica gel, so as to provide a more comfortable massage touch for the user.

The first soft massage glue 211 is a pad made of soft glue and is disposed opposite to the avoiding opening 101 to substantially cover the avoiding opening 101 of the footbath tub 100. Like this, massage structure 300 can pass and dodge mouth 101 and paste and massage in first massage flexible glue 211, shelter in treating between massage position and massage structure 300 through first massage flexible glue 211, utilize the compliance of first massage flexible glue 211, can promote the contact comfort of treating the massage position to keep the undulant motion space of massage structure 300, make the massage more comfortable.

Alternatively, the pad body surface shape may be provided as a plane. Or, the surface shape of the cushion body may also include one or more raised convex hulls, so as to further increase the fluctuation movement space of the massage structure 300, reduce the pulling deformation of the first massage soft gum 211, and better ensure the reliability of the first massage soft gum 211.

Further, the periphery of the first soft massage glue 211 is connected with the first bracket 212 into a whole in an injection molding mode, the first bracket 212 is connected with the footbath tub 100, and the first sealing member 213 seals a gap between the first bracket 212 and the footbath tub 100. Therefore, the periphery of the first soft massage glue 211 is hermetically connected with the footbath body 100 in a simple structural form, so that the first soft massage glue 211 is assembled in the footbath, the sealing of the avoidance opening 101 is realized, and the electrical safety of the footbath and the anti-aging effect of the massage structure 300 are guaranteed.

Certainly, the first soft massage glue 211 and the first support 212 are not limited to a connection structure form of injection molding and connection into a whole, and in other embodiments, the first soft massage glue 211 and the first support 212 may be designed to be separate components and be assembled together in a sealed connection manner, specifically, for example, the first soft massage glue 211 and the first support 212 are bonded together, or the first soft massage glue 211 and the first support 212 are welded together in a hot melting manner, or the periphery of the first soft massage glue 211 is clamped and sealed by a clamping groove on the first support 212, and the like.

Further, as shown in fig. 2, the first bracket 212 is provided with a first boss 2121, and the first boss 2121 is provided with a first protruding structure 21211. The first soft massage glue 211 and the first boss 2121 are connected together by injection molding, and the first soft massage glue 211 and the first protruding structure 21211 are embedded, that is, a groove is formed on the first soft massage glue 211 after injection molding connection to wrap the first protruding structure 21211. Thus, the first soft massage glue 211 and the first bracket 212 are embedded at the combination position, so that the connection strength and the sealing performance between the first soft massage glue 211 and the first bracket 212 can be enhanced. And the first boss 2121 is arranged on the first bracket 212 to be combined with the first soft massage glue 211 in an injection molding manner, so that an injection molding connection mold of the first bracket 212 and the first soft massage glue 211 can be simplified, the cost can be reduced, and the risk of poor conditions such as shrinkage and the like in the process of forming the first protruding structure 21211 on the first bracket 212 can be greatly reduced.

Certainly, the present disclosure is not limited to this, in other embodiments, a concave structure may also be disposed on the first boss 2121, so that the first soft massage glue 211 may be formed with a protrusion by injection molding to be embedded into the concave structure for occlusion, and the purpose of enhancing the connection strength and the sealing performance may also be achieved.

Further, as shown in fig. 2, the first soft massage glue 211 includes a first end portion 2111 and an extension portion 2112, the extension portion 2112 is extended from the first end portion 2111, the first end portion 2111 abuts against an end surface of the first boss 2121 and is engaged with the first protrusion structure 21211, and the extension portion 2112 covers an outer side surface of the boss. Thus, the connection strength and the sealing property between the first massage soft gel 211 and the first bracket 212 can be further enhanced.

Further alternatively, the first raised formation 21211 may be raised from an end surface of the first boss 2121, and the outer side surface of the first boss 2121 may substantially smoothly transition to the outer side surface of the first raised formation 21211, the inner side surface of the first boss 2121 may form a step transition with the inner side surface of the first raised formation 21211, a portion of the first end 2111 may extend along the inner side surface of the first boss 2121 to a step surface formed by the step transition, the extension 2112 may extend along the outer side surface of the first boss 2121 and the outer side surface of the first boss 2121 to a surface of the first bracket 212, and a groove surrounding the first raised formation 21211 may be formed between the portion of the first end 2111 extending to the step surface and the extension 2112.

Further, as shown in FIG. 2, the first seal 213 is clamped between the first bracket 212 and the tub 100. For example, the first bracket 212 may be fixedly coupled to the tub 100 by fasteners such as screws, rivets, etc., and the first bracket 212 and the tub 100 coupled together by the fasteners clamp the first seal 213.

The first sealing member 213 has a first surface disposed to face the first bracket 212, a first protrusion 2131 is disposed on one of the first surface and the first bracket 212, a groove 2122 is disposed on the other, and the first protrusion 2131 extends into the groove 2122. In this way, the first sealing element 213 and the first bracket 212 can be engaged and limited by the engagement of the first protrusion 2131 in the groove 2122, so that the first bracket 212 and the engagement surface of the first sealing element 213 can be positioned more easily and can not slip easily, and the sealing reliability can be ensured better.

Further, as shown in FIG. 2, the first seal 213 has a second surface disposed facing the tub 100 of the foot bath, and a second protrusion 2132 is disposed on the second surface. In this way, a more sufficient deformation of the first seal 213 may be achieved by the second protrusion 2132, thereby promoting a sealing effect between the first bracket 212 and the footbath tub 100.

Optionally, as shown in fig. 2, the footbath tub 100 defines a mounting cavity 102 thereon, the mounting cavity 102 is distributed around the avoidance opening 101 along the circumferential direction of the avoidance opening 101, and the first bracket 212 and the first sealing member 213 are located in the mounting cavity 102. Therefore, the installation cavity 102 can be utilized to form good positioning and protection effects, so that the assembly precision and convenience are guaranteed, the stripping risk of the first support 212 and the first sealing element 213 can be reduced, and the product is more attractive.

For further example, as shown in fig. 9, a stepped hole is formed in the tub 100 of the foot bath, the step hole forms the avoidance opening 101, the step position of the stepped hole forms the installation cavity 102, and the first bracket 212 and the first sealing member 213 are accommodated in the installation cavity 102 for assembly, and at the same time, the avoidance opening 101 is securely sealed by shielding.

In one embodiment of the present application, the foot bath includes a second soft rubber pad 220. It is to be understood that other features of the foot bath (e.g., the foot bath basin 100, the massage structure 300, etc.) may be incorporated into the present embodiment in a non-conflicting manner with reference to the corresponding feature description of any of the embodiments described above.

Referring to fig. 3, fig. 3 illustrates a structure of the second soft rubber pad 220 according to the present embodiment.

Specifically, the second soft rubber pad 220 includes a second soft massage rubber 221, a second bracket 222, and a second sealing member 223.

The second soft massage Rubber 221 may be made of soft Rubber materials such as TPE (Thermoplastic Elastomer, chinese Thermoplastic Elastomer, etc.), TPR (Thermoplastic Rubber, chinese Thermoplastic Rubber, etc.), or silica gel, so as to provide a more comfortable massage touch for the user.

A second boss 2221 is disposed on the second bracket 222, and a second projection structure 22211 is disposed on the second boss 2221. The second soft massage gel 221 is a pad made of soft gel material. The periphery of the second soft massage glue 221 and the second boss 2221 are connected into a whole by injection molding, and the second soft massage glue 221 is occluded with the second boss structure 22211.

In more detail, the second projection structure 22211 is convexly disposed on the end surface of the second boss 2221, and has a distance from the inner edge and the outer edge of the second boss 2221. The second soft massage glue 221 is provided with a second end portion 2211, the middle portion of the second end portion 2211 is recessed to wrap the second protrusion structure 22211, and the inner side edge and the outer side edge of the second end portion 2211 extend to the end surface of the second boss 2221 along the side surface of the second protrusion structure 22211. The structure realizes mutual embedding of injection molding connection positions of the second support 222 and the second massage soft rubber 221, and can strengthen the connection strength and the sealing property between the second massage soft rubber 221 and the second support 222. And the second boss 2221 is arranged on the second support 222 to be combined with the second soft massage glue 221 in an injection molding manner, so that an injection molding connection mold of the second support 222 and the second soft massage glue 221 can be simplified, the cost can be reduced, and the risk of poor conditions such as shrinkage and the like in the process of forming the second protruding structure 22211 on the second support 222 can be greatly reduced.

Certainly, the present disclosure is not limited to this, in other embodiments, a concave structure may also be disposed on the second boss 2221, so that the second massage soft rubber 221 may be formed with a protrusion by injection molding to be embedded into the concave structure for occlusion, and the purpose of enhancing the connection strength and the sealing performance may also be achieved.

Further optionally, as shown in fig. 4, there is a smooth transition between the outer side surface of the second end 2211 and the outer side surface of the boss. Thus, the aesthetic property of the product is ensured, and the risk of peeling between the second massage soft gel 221 and the second support 222 is reduced.

Further optionally, as shown in fig. 4 and 5, a through-going bore 2231 is provided in the seal. The bracket is provided with a convex column 2223, the convex column 2223 penetrates through the through hole 2231, and a mounting hole 2224 is arranged in the convex column 2223.

As shown in FIG. 9, the tub 100 of the foot bath is provided with a fitting hole 113. Fasteners can be coupled through the mating holes 113 and the mounting holes 2224 to couple the bracket with the tub 100. Specifically, for example, screws are inserted into the matching holes 113 and the mounting holes 2224 from bottom to top in sequence. The mounting holes 2224 may be selected as screw holes, and the fastening members may be screws, respectively, so that the assembly connection and the sealing between the tub 100 of the foot bath and the soft rubber pad are achieved in a simple structural form.

In one embodiment of the present application, the foot bath includes a third soft rubber pad 230. It will be appreciated that other features of the foot bath (e.g., foot bath basin 100, massage mechanism 300, etc.) may be incorporated in the present embodiment in a non-conflicting manner with reference to the corresponding feature description of any of the embodiments described above.

Referring to fig. 6, fig. 6 illustrates a structure of the third soft rubber pad 230 according to the present embodiment.

Specifically, the third soft rubber pad 230 includes a third massage soft rubber 231 and a third support 232.

The third soft massage Rubber 231 may be made of a soft Rubber material such as TPE (Thermoplastic Elastomer, chinese Thermoplastic Elastomer, etc.), TPR (Thermoplastic Rubber, chinese Thermoplastic Rubber, etc.), or silica gel, so as to provide a more comfortable massage feeling to the user.

The third massage soft gel 231 is a pad made of soft gel material. A third sealing member 2312 integrated with the third massage soft rubber 231 extends and is arranged on the third massage soft rubber. Specifically, the third sealing element 2312 and the third soft massage glue 231 are molded into a whole by injection molding, so that the number of parts of the product can be reduced, the assembly operation is further simplified, and the cost is reduced.

The third bracket 232 is coupled to the tub 100 and clamps the third seal 2312 between the third bracket 232 and the tub 100. For example, as shown in fig. 7, the boss 2223 is disposed on the third bracket 232, the boss 2223 passes through the third sealing member 2312, and the third bracket 232 is driven into the mounting hole 2224 in the boss 2223 after passing through the matching hole 113 on the tub 100 via a screw, so as to achieve connection and locking of the third bracket 232 and the tub 100, and the third sealing member 2312 is clamped between the third bracket 232 and the tub 100, so as to achieve sealing.

As shown in fig. 7 and 8, the third soft massage glue 231 defines a cavity 2311 having an opening at one end, and the third sealing member 2312 is defined as a peripheral edge disposed along an edge of the opening. The bracket is arranged in a ring shape, is embedded and arranged outside the cavity 2311 and is positioned in a concave angle 2313 formed by the sealing element and the side wall of the cavity 2311 together. Like this, cover third massage flexible glue 231 after dodging mouthful 101, pass the protruding cavity 2311 that sets up on third massage flexible glue 231 with third support 232, make third support 232 be located cavity 2311's lateral wall and the reentrant angle 2313 that the border encloses can realize fixing a position each other between support and the third massage flexible glue 231 in, can realize blind assembly location, simple structure, equipment are more convenient.

In one embodiment of the present application, the foot bath includes a third soft rubber pad 230. It will be appreciated that other features of the foot bath (e.g., foot bath basin 100, massage mechanism 300, etc.) may be incorporated in the present embodiment in a non-conflicting manner with reference to the corresponding feature description of any of the embodiments described above.

Referring to fig. 10, fig. 10 illustrates a structure of a foot bath according to an embodiment of the present application.

The foot bath includes a foot bath tub 100 and a fourth soft rubber pad.

The fourth soft rubber pad body comprises a fourth soft massage rubber 241, the fourth soft massage rubber 241 is integrally connected to the footbath basin body 100 in an injection molding mode, and the fourth soft massage rubber 241 shields the sealing avoidance opening 101. Thus, the connection reliability and the sealing reliability between the fourth soft rubber pad and the tub 100 of the foot bath can be more reliably ensured, and the consistency of the assembly efficiency and the assembly quality can be more easily ensured.

The fourth soft massage Rubber 241 may be made of soft Rubber materials such as TPE (Thermoplastic Elastomer, chinese Thermoplastic Elastomer, etc.), TPR (Thermoplastic Rubber, chinese Thermoplastic Rubber, etc.), or silica gel, so as to provide a more comfortable massage touch for the user.

The footbath tub 100 includes a tub sidewall 111 and a tub support 112. The tub body support 112 is a plastic member, the evasion port 101 is formed on the tub body support 112, and the fourth soft massage glue 241 is integrally connected with the tub body support 112 at the peripheral part of the evasion port 101 by injection molding. Like this fourth massage flexible glue 241 and basin body support 112 both sealed dodge mouth 101, and fourth massage flexible glue 241 and basin body support 112 form the basin diapire of integral type jointly, and the basin diapire wall of this integral type and basin body lateral wall 111 enclose to close and form the lavipeditum chamber, and the structure is more simplistic, and the cost is lower, and the lavipeditum chamber leakproofness is more guaranteed.

Further, the tub side 111 includes a side soft gel member that can be folded. For example, the sidewall soft rubber component may be made of soft rubber material capable of folding and unfolding deformation, such as TPE (Thermoplastic Elastomer, hereinafter referred to as TPE). The foot bath device can be unfolded to limit the foot bath cavity according to requirements so as to contain bath liquid or be folded into a disc body for storage, and the use is more convenient.

Furthermore, the side wall soft rubber component, the pot body bracket 112 and the fourth soft massage rubber 241 are connected into a whole through injection molding. The structure is further simplified, and meanwhile, the sealing performance of the foot bath cavity can be guaranteed, and the yield is high. And the plastic basin body support 112 is arranged between the side wall soft rubber component and the fourth massage soft rubber 241, so that a good supporting and shaping effect can be achieved for the side wall soft rubber component and the fourth massage soft rubber 241, the product structure is simplified, the complementary effect of the advantages between the components is realized more fully, and the compatibility between the components is better.

Further optionally, as shown in fig. 11, a third boss 1121 is disposed on the tub support 112 around the evasion port 101, and a third protrusion 11211 is disposed on the third boss 1121. The fourth soft massage glue 241 is a pad made of soft glue. The periphery of the fourth soft massage glue 241 is connected with the third boss 1121 in an injection molding manner, and the fourth soft massage glue 241 is occluded with the third bump structure 11211.

In more detail, the third protrusion 11211 is disposed on the end surface of the third protrusion 1121, and has a distance from the inner edge and the outer edge of the third protrusion 1121, respectively. The fourth soft massage glue 241 is provided with a third end 2411, the middle of the third end 2411 is recessed to wrap the third protrusion structure 11211, and the inner and outer sides of the third end 2411 extend to the end surface of the third boss 1121 along the side surface of the third protrusion structure 11211. The structure realizes mutual embedding of injection molding connection positions of the basin body support 112 and the fourth soft massage glue 241, and can strengthen the connection strength and the sealing property between the fourth soft massage glue 241 and the basin body support 112. And the third boss 1121 is arranged on the basin body support 112 to be combined with the fourth soft massage glue 241 in an injection molding manner, so that an injection molding connection mold of the basin body support 112 and the fourth soft massage glue 241 can be simplified, the cost is reduced, and the risk of poor situations such as shrinkage and the like in the process of forming the third protruding structure 11211 on the basin body support 112 can be greatly reduced.

Certainly, the present disclosure is not limited to this, in other embodiments, a concave structure may also be disposed on the third boss 1121, so that a protrusion may be injection molded on the fourth soft massage glue 241 to be embedded into the concave structure to achieve occlusion, and the purpose of enhancing the connection strength and the sealing performance may also be achieved.

Further optionally, as shown in fig. 4, there is a smooth transition between the outer side surface of the third end 2411 and the outer side surface of the boss. Therefore, the aesthetic property of the product is ensured, and the risk of peeling between the fourth soft massage glue 241 and the basin body support 112 is reduced.

In any of the above embodiments, the foot bath further includes a wear layer (not shown), which is disposed between the soft rubber pad and the massage structure 300. Like this, massage structure 300's friction acts on the wearing layer, can greatly reduce the damaged risk of friction of soft cushion, and the wearing layer can restrict the flexible glue pad deflection that massage structure 300 caused to a certain extent to the deflection is dragged to the restriction on the soft cushion, reduces the flexible glue pad and drags damaged risk, extension product life.

Optionally, the wear layer is a wear cloth.

In any of the above embodiments, further optionally, as shown in fig. 1, the foot bath further includes a base 500, and the base 500 is located below the foot bath tub 100 and encloses an accommodating space with the foot bath tub 100.

The massage structure (such as a massage head) is positioned in the containing space and is sealed and separated from the foot bath cavity through the soft rubber cushion. More specifically say, be separated by the soft rubber mat seal in avoiding mouthful 101 position department between lavipeditum chamber and the accommodation space, can avoid lavipeditum water in the lavipeditum chamber to enter into the accommodation space, realize being kept apart by the soft rubber mat between the massage structure in steam and the accommodation space in the lavipeditum chamber, reduce the massage structure and receive steam corrosion, greatly improve massage structure ageing phenomenon, ensure massage effect and product life better.

The foot bath device further comprises a driving device, the driving device can be arranged in the accommodating space, the driving device is connected with the massage structure 300 and can drive the massage structure 300, and the massage structure 300 moves relative to the soft rubber cushion under the driving of the driving device to massage. Like this, through the soft cushion, both avoided massage structure 300 and treat the direct friction contact between the massage position, avoid the uncomfortable sense of friction, also make the fluctuation motion of massage structure 300 can obtain fine reservation, thereby ensure the massage travelling comfort, and the soft cushion is to dodging mouthful 101 sealed effect of sheltering from, make effective sealed isolation between the accommodation space in bathing liquid chamber in the lavipeditum ware basin body 100 and the base 500, improve drive arrangement and massage structure 300's environment, thereby improve the electrical safety nature of lavipeditum ware and massage structure 300 ageing phenomenon.

In any of the above embodiments, further optionally, as shown in fig. 1, the foot bath further includes a cover 400, and the cover 400 covers a portion of the opening of the foot bath tub 100. A control panel is disposed on the cover 400 for controlling the electronic components (such as a driving device) in the foot bath device. Conventional functions of the foot bath device, such as a heater, a drain pipe, a water pump and the like, can be provided in the foot bath device, and the foot bath device can be understood by those skilled in the art.

While the present application has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present application may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also 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 meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (14)

1. A foot bath, comprising:

the footbath comprises a footbath body, wherein a footbath cavity is formed in the footbath body, and an avoidance port is formed in the footbath body;

the soft rubber cushion is connected with the footbath body in a sealing way and shields and seals the evasion port;

and the massage structure is arranged opposite to the avoiding opening and is covered by the soft rubber cushion.

2. The foot bath according to claim 1, wherein the soft rubber pad comprises:

massaging the soft rubber;

the massage soft rubber is connected with the bracket in a sealing way or injection molding way to form a whole, and the bracket is connected with the footbath body;

a seal sealing a gap between the bracket and the footbath basin.

3. The foot bath according to claim 2,

the bracket is provided with a boss, and the boss is provided with at least one of a convex structure and a concave structure;

the massage soft rubber and the boss are connected together in an injection molding mode, and the massage soft rubber is embedded with the protruding structure or the recessed structure.

4. The foot bath according to claim 2,

the sealing element is clamped between the bracket and the footbath body;

the sealing element is provided with a first surface facing the bracket, a first protruding part is arranged on one of the first surface and the bracket, a groove is arranged on the other one of the first surface and the bracket, and the first protruding part extends into the groove; and/or the seal has a second surface disposed facing the footbath tub, the second surface having a second protrusion disposed thereon.

5. The foot bath according to claim 1, wherein the soft rubber pad comprises:

the massage soft rubber is provided with a sealing element integrated with the massage soft rubber in an extending way;

the bracket is connected with the footbath body and clamps the sealing piece between the bracket and the footbath body.

6. The foot bath according to claim 5,

the massage soft glue is used for limiting a cavity with an opening at one end, and the sealing element is limited to be a peripheral edge arranged along the edge of the opening;

the support is arranged in a ring shape, is embedded and arranged on the outer side of the cavity and is positioned in a concave angle formed by the sealing element and the side wall of the cavity together.

7. The foot bath according to claim 1,

the soft rubber pad comprises massage soft rubber, the massage soft rubber is integrally connected with the footbath body in an injection molding mode, and the massage soft rubber covers and seals the dodging opening.

8. The foot bath according to claim 7,

the footbath comprises a footbath body and a footbath body bracket, wherein the footbath body side wall is connected with the footbath body bracket;

the massage soft rubber and the basin body support are connected into a whole in an injection molding mode, the massage soft rubber and the basin body support jointly form a basin bottom wall of the foot bath basin body, and the basin bottom wall and the basin body side wall are enclosed to form the foot bath cavity.

9. The foot bath according to claim 8,

the flowerpot body support is provided with a boss, and the boss is provided with at least one of a convex structure and a concave structure;

the massage soft rubber and the boss are connected together in an injection molding mode, and the massage soft rubber is embedded with the protruding structure or the recessed structure.

10. The foot bath according to claim 8,

the basin body side wall comprises a side wall soft rubber component which can be folded, and the side wall soft rubber component, the basin body support and the massage soft rubber are connected into a whole through injection molding.

11. The foot bath according to any one of claims 2-6,

the footbath device comprises a footbath device body and is characterized in that a mounting cavity is limited on the footbath device body, the mounting cavity is distributed around the avoidance opening along the circumferential direction of the avoidance opening, and the support and the sealing piece are positioned in the mounting cavity.

12. The foot bath according to any one of claims 2-6,

a through hole is formed in the sealing element in a penetrating manner;

the foot bath basin is characterized in that the support is provided with a convex column, the convex column penetrates through the through hole, a mounting hole is formed in the convex column, a matching hole is formed in the foot bath basin body, and a fastener can penetrate through the matching hole to be connected with the mounting hole so as to connect the support and the foot bath basin body together.

13. The foot bath according to any one of claims 1-10, further comprising:

and the wear-resistant layer is arranged between the soft rubber cushion and the massage structure.

14. The foot bath according to any one of claims 1-10, further comprising:

the foot bath device comprises a base, wherein the base is positioned below a foot bath device basin body and forms an accommodating space with the foot bath device basin body in an enclosing mode, and the massage structure is positioned in the accommodating space and is sealed and separated from a foot bath cavity through the soft rubber pad.

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