CN218651554U - Foot bath barrel equipment - Google Patents

Abstract

The application discloses bubble foot bucket equipment includes: a foot soaking barrel; the base station comprises a base for the foot soaking bucket to stop; the base is provided with a first water tank, and the first water tank can be communicated with a water channel of the foot bath barrel in a state that the foot bath barrel is stopped on the base; the first water tank is used for supplying water to the foot soaking barrel; and/or the base is provided with a second water tank which can be communicated with the water channel of the foot bath barrel under the state that the foot bath barrel is stopped at the base; the second water tank is used for containing the discharged water of the foot soaking bucket. In this scheme, the base setting of basic station is used for to the first water tank of bubble foot bucket water supply and/or set up the second water tank that is used for holding the drainage of bubble foot bucket, and bubble foot bucket can be in basic station department moisturizing and/or drainage, thereby the user disposes the distance of bubble foot bucket moisturizing or drainage through the position of configuration basic station in a flexible way, and it is more convenient, nimble to use, and the user is also more high-efficient, laborsaving for bubble foot bucket moisturizing drainage.

Description

Foot bath barrel equipment

Technical Field

The application relates to the technical field of foot bath health care instruments, in particular to foot bath barrel equipment.

Background

At present, the general operation of a user using the foot soaking bucket is roughly as follows: the foot soaking barrel is placed under a water tap of a toilet to receive water, after the foot soaking barrel is filled with water, the foot soaking barrel filled with water is placed at a using position (such as a living room or a room) to be heated, then a user uses the foot soaking barrel filled with hot water to soak feet, and after the foot soaking is finished, the user manually holds the foot soaking barrel to the toilet to pour water. The foot bath bucket has the defects that the foot bath bucket is heavier after being filled with water, and a user side takes the foot bath bucket filled with water to fill water, change water and pour water in a long distance, so that the foot bath bucket is very labor-saving and is not friendly to use.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a bubble foot bucket equipment, its basic station is provided with the first water tank that is used for supplying water to bubble foot bucket and/or is used for holding the second water tank of the drainage of bubble foot bucket, the water tank can communicate with the bubble foot bucket of berthhing at the basic station between, like this, bubble foot bucket can be in basic station department moisturizing or drainage, thereby the user is through the position of configuration basic station configuration bubble foot bucket moisturizing or the distance of drainage in a flexible way, it is more convenient, in a flexible way to use, the user is also more efficient, laborsaving for bubble foot bucket moisturizing drainage.

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

the technical scheme of an aspect of this application provides a bubble foot bucket equipment, includes: a foot soaking barrel; the base station comprises a base, and the base can be used for the foot soaking barrel to stop; the base is provided with a first water tank, and the first water tank can be communicated with a water channel of the foot soaking bucket under the condition that the foot soaking bucket is stopped on the base; the first water tank is used for supplying water to the foot soaking barrel; and/or the base is provided with a second water tank, and the second water tank can be communicated with the water path of the foot soaking barrel in a state that the foot soaking barrel is stopped on the base; the second water tank is used for containing the drained water of the foot soaking barrel.

According to some technical schemes of this application, the base is equipped with first water tank and filter equipment, filter equipment with first water tank water route intercommunication, filter equipment with bubble foot bucket water route intercommunication, filter equipment be used for dock in the base the drainage of bubble foot bucket filters, with the water transmission after filtering extremely first water tank.

According to some technical schemes of this application, the base is equipped with second water tank and filter equipment, filter equipment's one end with second water tank water route intercommunication, filter equipment with bubble foot bucket water route intercommunication, filter equipment is used for with the drainage that the second water tank held filters, with the water after filtering transmit to stop in the base bubble foot bucket.

According to some technical schemes of the application, the base is further provided with a first water tank, the foot soaking barrel equipment further comprises a first water path, the first water path is connected between the first water tank and the second water tank and used for supplying water to the first water tank from the second water tank along the first water path, and the filtering device is arranged on the first water path; the other end of the filtering device is communicated with the first water tank, and the filtering device is used for transmitting the filtered water to the first water tank so that the first water tank supplies water to the foot soaking barrel stopped at the base.

According to some technical scheme of this application, the base still is equipped with filter tank, filter tank with the sewage mouth water route intercommunication of bubble foot bucket, filter tank is equipped with the filter screen, the filter screen is used for will getting into filter tank's water filters, and the water warp after the filtration filter tank's play water end output.

According to some technical schemes of the application, a water inlet end of the filtering water tank is communicated with a sewage port of the foot soaking bucket; the water outlet end of the filtering water tank is communicated with the water inlet end of the filtering device through a water path; or the base is provided with a second water tank, and the water outlet end of the filtering water tank is communicated with the water inlet end of the second water tank through a water path.

According to some technical solutions of the present application, the filtering water tank further includes: the water level detection device comprises a first water level detection piece and/or a second water level detection piece, wherein the first water level detection piece is used for detecting whether the water level of the filtering water tank is lower than a first preset water level, the second water level detection piece is used for detecting whether the water level of the filtering water tank is higher than a second preset water level, and the first preset water level is lower than the second preset water level. If the current water level in the filtering water tank is detected to be higher than the second preset water level, controlling the foot soaking bucket to stop discharging water in order to prevent the water in the filtering water tank from overflowing; and if the current water level in the filter water tank is detected to be lower than the first preset water level, indicating that the water is drained completely, controlling the water pump to stop pumping water.

According to some technical scheme of this application, the base still is equipped with the stoving subassembly, it still includes the air intake to cross the water tank, the air outlet of stoving subassembly with cross the air intake intercommunication of water tank, the stoving subassembly is used for right it dries to cross the water tank.

According to some aspects of the present disclosure, the base further comprises: the water inlet of the sterilizing device is communicated with the water outlet end of the filtering device, the sterilizing device is used for sterilizing the water output by the filtering device, and the water in the sterilizing device is output through the water outlet of the sterilizing device.

According to some technical schemes of the application, the base is provided with a second water tank, the filtering water tank is provided with a second interface, the second interface can be communicated with a water path of the foot soaking bucket, and the base station further comprises a second pump body connected with a water outlet end of the filtering water tank and a water inlet end of the second water tank; and/or the base further comprises a third pump body, and the third pump body is connected between the water outlet end of the second water tank and the water inlet end of the filtering device.

According to some technical schemes of the application, the base is provided with a first water tank, the base is provided with a first interface, and the first interface can be communicated with a water path of the foot soaking bucket; the base further includes: the first pump body is connected with the water outlet end of the first water tank; and/or a first heater connected between the first interface and the first water tank, wherein the first heater is used for heating water contained in the first water tank so as to provide hot water for the foot soaking bucket; and the fourth pump body is connected between the water outlet end of the first water tank and the first heater, or between the water outlet end of the first heater and the first interface.

According to some technical schemes of the application, a docking bin with a door opening at the front side is arranged at the lower part of the base in a surrounding mode to accommodate the foot soaking barrel, the docking bin is provided with a top wall positioned at the upper side of the docking bin, the base is provided with a first interface, the first interface can be communicated with a water channel of the foot soaking barrel, and the first interface is arranged on the top wall; the base is provided with a first water tank, the first water tank is arranged in the base and positioned on the upper side of the parking bin, and the first interface is communicated with a first water tank waterway; and/or the base is provided with a second water tank, and the second water tank is arranged in the base and positioned on the upper side of the parking bin.

According to some technical schemes of the application, a parking bin with a door opening at the front side is arranged at the lower part of the base in a surrounding mode to accommodate the foot soaking barrel, the parking bin is also provided with a bottom wall positioned at the lower side of the parking bin, and the filtering water tank is detachably arranged on the bottom wall, or the filtering water tank and the bottom wall are integrally arranged; the base is further provided with a slope, one end of the slope is connected to the bottom wall, the position, away from one end of the bottom wall, of the slope is lower than that of the bottom wall, and the slope inclines downwards from the junction position of the slope and the bottom wall to the end, away from the bottom wall, of the slope.

According to some technical schemes of the application, a parking bin with a door opening at the front side is arranged on the lower portion of the base in an enclosing mode to accommodate the foot soaking barrel, the base is provided with a first water tank, a first accommodating groove capable of accommodating the first water tank is arranged in the base at a position above the parking bin, an installation bin is arranged on the base at a position above the door opening at the front side of the parking bin, the installation bin is located on the side portion of the first accommodating groove, and the filter device is accommodated in the installation bin; and/or, the base is equipped with the second water tank in the base in the position department of berthhing the storehouse top is provided with one and can hold the second accepting groove of second water tank on the base in the position department of the upside of berthhing the storehouse front side door opening is provided with the installation storehouse, the installation storehouse is located the lateral part of second accepting groove, it has held in the middle of the installation storehouse filter equipment.

According to some technical schemes of the application, a parking bin with a door opening on the front side is arranged on the lower portion of the base in a surrounding mode to accommodate the foot soaking barrel, an accommodating space is formed in the base at a position above the parking bin, a first opening communicated with the accommodating space is formed in the top of the base, the base further comprises an upper body portion and a top cover, and the top cover is used for opening or blocking the first opening; the base is provided with a first water tank, and a first accommodating groove for accommodating the first water tank is formed in the upper machine body part in a concave manner; the first water tank is provided with a second water level detection device for detecting the water level in the first water tank; and/or the base is provided with a second water tank, a second accommodating groove for accommodating the second water tank is formed on the upper body part in a sunken manner, and the second water tank is provided with a third water level detection device for detecting the water level in the second water tank.

According to some aspects of the present disclosure, a side portion of the first receiving container and/or the second receiving container is provided with the filtering device, and the top cover is configured to be opened to remove at least one of: the first water tank, the second water tank, or the filtering device. Like this, after the user opened the top cap, can follow the upside and get any one or more in first water tank, second water tank and the filter equipment, change the simple operation.

According to some technical schemes of the application, a parking bin with a door opening at the front side is arranged at the lower part of the base in a surrounding mode so as to accommodate the foot soaking barrel; the base is provided with a second opening at the position of the upper side of the door opening at the front side of the parking bin, the base further comprises a side cover and an upper body part, the side cover is used for opening or shielding the second opening, the upper body part is used for accommodating at least one of the first water tank and the second water tank, a filtering device is accommodated in the base at the position in front of or on the side of the upper body part, and the filtering device is opposite to the second opening.

According to some technical schemes of this application, the base still includes an upper body portion and a top cap, the lateral wall of first water tank is inwards or outwards protrusion is formed with the terminal surface, the water inlet and/or the delivery port of first water tank are located the terminal surface, be equipped with on the upper body portion with the interface of intaking that the water inlet cooperation is connected and/or with the interface of delivery port cooperation is connected. When the first water tank is assembled on the upper machine body part, the water inlet and/or the water outlet of the first water tank are/is just matched with the water inlet interface and/or the water outlet interface on the upper machine body part, so that the first water tank is connected into a water channel of the base station, and when the first water tank leaves the upper machine body part, the water inlet and/or the water outlet of the first water tank are/is separated from the water inlet interface and/or the water outlet interface on the upper machine body part, so that the disassembly between the first water tank and the upper machine body part is not influenced.

According to some technical schemes of the application, the base further comprises a sewage draining outlet which is communicated with a water outlet end waterway of the second water tank and used for draining the drained water contained in the second water tank; and/or the sewage draining outlet is arranged on the filtering water tank and is used for draining the drained water contained in the filtering water tank. Therefore, the user can discharge the water in the second water tank and/or the sewage tank through the sewage draining outlet, and the second water tank and/or the sewage tank can be drained and cleaned conveniently.

In this application, bubble foot bucket equipment includes bubble foot bucket and basic station, wherein, be provided with the first water tank that is used for supplying water to the bubble foot bucket on the base of basic station and/or be used for holding the second water tank of the drainage of bubble foot bucket, when the bubble foot bucket docks in the base, through bubble foot bucket and first water tank and/or second water tank intercommunication, can realize that first water tank supplies water for the bubble foot bucket or utilize the second water tank to accomodate the drainage of bubble foot bucket, thereby realize bubble foot bucket moisturizing or drainage in basic station department, like this, thereby the user disposes the distance of bubble foot bucket moisturizing or drainage through the position of configuration basic station in a flexible way, for example, dispose the position of basic station in the position (like sitting room or balcony etc.) that is close to the bubble foot bucket nearby, bubble foot bucket is direct in the moisturizing or drainage in basic station department that is close to the position in the using, and is more convenient to use, and flexible, the user is also more efficient, laborsaving for the moisturizing drainage of bubble foot bucket.

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 perspective exploded view of a first embodiment of the foot bath apparatus of the present application.

Fig. 2 is a schematic perspective assembly view of a first embodiment of the foot bath bucket apparatus of the present application.

Fig. 3 is a schematic perspective exploded view of the base station in fig. 1.

Fig. 4 is a schematic front view of the base station in fig. 1.

Fig. 5 is a schematic structural diagram of a waterway system of the first embodiment of the foot soaking bucket device of the present application.

Fig. 6 is a schematic structural view of a waterway system of a second embodiment of the foot soaking bucket device of the present application.

Fig. 7 is a schematic perspective exploded view of a third embodiment of the foot bath bucket apparatus of the present application.

Fig. 8 is a perspective assembly view of a third embodiment of the foot bath bucket apparatus of the present application.

Fig. 9 is a schematic diagram of a further exploded perspective view of the foot well device of fig. 7.

Fig. 10 is a schematic cross-sectional view of the foot well device of fig. 8.

Figure 11 is a schematic view of another cross-sectional configuration of the foot bath apparatus of figure 8.

Fig. 12 is a schematic structural view of a waterway system of a third embodiment of the foot soaking bucket device of the present application.

Fig. 13 is a schematic front view of a base station of a fourth embodiment of the foot bath apparatus of the present application.

Fig. 14 is a schematic perspective view of a base station of a fourth embodiment of the foot bath bucket apparatus of the present application.

Fig. 15 is a schematic perspective view of the ultraviolet sterilization device in fig. 13.

Fig. 16 is a schematic structural view of a waterway system of a fourth embodiment of the foot soaking bucket device of the present application.

Fig. 17 is a schematic structural view of a waterway system of a fifth embodiment of the foot soaking bucket device of the present application.

Fig. 18 is a schematic structural diagram of a base station of a sixth embodiment of the foot bucket apparatus of the present application.

Fig. 19 is a schematic structural view of a first water tank of a sixth embodiment of the foot bath apparatus of the present application.

Fig. 20 is a schematic structural view of a first water tank of a sixth embodiment of the foot bath apparatus of the present application.

Fig. 21 is a schematic structural view of a seventh embodiment of the foot bath apparatus of the present application.

Figure 22 is a schematic perspective view of the foot well device of figure 21 with the lid open at a first angle.

Figure 23 is a schematic perspective view of the foot well device of figure 21 with the lid opened to a second angle.

Fig. 24 is a schematic perspective view of the foot well device cartridge of fig. 23 in an extended configuration.

Fig. 25 is a front view schematic diagram of an eighth embodiment of the foot bath apparatus of the present application.

Figure 26 is a schematic cross-sectional view of the foot well device of figure 25.

Fig. 27 is a schematic structural view of a bottom module in an eighth embodiment of the foot bath apparatus of the present application.

Fig. 28 is a perspective view of the bottom module of fig. 27.

Fig. 29 is a cross-sectional view of the bottom module of fig. 27.

Figure 30 is an exploded view of the bottom module of figure 27.

Fig. 31 is a schematic perspective view of the filter net in fig. 30.

The reference numerals are explained below:

1000. a foot bath bucket device;

100. a base station;

10. a base; 121. a docking bin; 1212. a top wall; 1213. a rear wall; 1214. a side wall; 131. a first receiving groove; 132. a second accommodating groove; 14. installing a bin; 15. taking over a pipe; 16. a connector;

20. a waterway system;

21. a first water tank; 211. a first case; 212. a first cover;

22. a second water tank; 221. a second case; 222. a second cover;

23. a first waterway; 231. a filtration device; 232. a third pump body;

24. a first pump body;

25. a second pump body;

200. a foot soaking barrel;

31. a housing; 32. a cavity; 321. a bung; 33. a roller; 34. a third electromagnetic valve;

20a, a waterway system;

21a, a first water tank;

22a, a second water tank;

23a, a first waterway; 231a, a filter device; 232a, a third pump body;

24a, a first electromagnetic valve;

25a, a second pump body;

1000b, foot soaking bucket equipment;

100b, a base station;

10b, a base; 111b, a rear cover; 112b, a front cover; 113b, a top cover; 114b, side covers; 1141b, a second mouth part; 115b, a bottom cover; 116b, a first mouth; 12b, a lower body part; 121b, a docking bay; 1211b, door opening; 1212b, a top wall; 1213b, the rear wall; 1214b, side walls; 1215b, the bottom wall; 13b, an upper body part; 131b, a first housing groove; 132b, a second accommodating groove; 14b, a mounting seat; 15b, connecting pipes; 16b, a ramp;

20b, a waterway system;

21b, a first water tank; 211b, a first box body; 212b, a first cover; 213b, a second water level detection device;

22b, a second water tank; 221b, a second box body; 222b, a second cover; 223b, a third water level detection device;

23b, a first waterway; 231b, a filter device; 232b, a third pump body;

241b, a first heater; 242b, a fourth pump body;

25b, a second pump body;

26b, a filtering water tank; 261b, open port; 262b, a first water level detection device; 263b, inclined bottom; 264b, a water outlet; 265b, a water pipe;

27b, a filter screen;

200b, a foot soaking barrel;

31b, a housing; 32b, a cavity; 321b, a bung; 322b, a sewage port; 33b, a roller; 34b, a third electromagnetic valve;

100c, a base station;

10c, a base;

20c, a waterway system;

21c, a first water tank; 213c, a second water level detection device;

22c, a second water tank; 223c, a third water level detection device;

23c, a first waterway; 231c, a filter device; 232c, a third pump body;

241c, a first heater; 242c, a fourth pump body;

25c, a second pump body;

26c, a filtering water tank; 262c, a first water level detection device;

27c, a filter screen;

28c, an ultraviolet lamp sterilization device; 281c, a water inlet; 282c, a water outlet; 283c, a lamp tube lead; 284c, a metal shell;

20d, a waterway system;

25d, a fifth pump body;

26d, a fourth water tank; 265c, a fourth water level detection device;

27d, a filter screen;

29d, a second waterway; 291d, a second electromagnetic valve; 292d, a sixth pump body; 293d, a second heater;

100e, a base station;

10e, a base;

13e, an upper body part; 131e, a first accommodating groove; 1311e, a water inlet interface; 1312e, a water outlet interface; 132e, a second accommodating groove;

21e, a first water tank; 214e, end face; 2141e, a water inlet; 2142e, a water outlet; 2143e, a first tube; 2144e, a second tube;

100f, a base station;

10f, a base;

113f, a top cover;

21f, a first water tank; 22f, a second water tank; 2311f, a filter element;

200f, a foot soaking barrel;

100g, a base station;

10g, a base;

121g, stopping at a cabin; 1215g, bottom wall; 12151g, catching grooves; 12152g, a jack; 16g, a slope;

22g, a second water tank;

26g, a filtering water tank; 262g, a first water level detection device; 2621g, a first water level detection unit; 2622g, second water level detection part; 263g, inclined bottom; 264g, a water outlet; 265g of water pipe; 266g and an air inlet;

27g, a filter screen; 271g, an elastic buckle; 272g, inserting a tongue;

200g of a foot bath barrel;

32g, a cavity; 322g and a sewage port; 3221g of a sewage discharge pipe; 33g, rollers; 34g, a third electromagnetic valve;

40g, drying components;

300. a source of tap water;

400. a floor drain.

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, 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 is intended to describe one of the features of an embodiment of the application and does not imply that every embodiment of the application must have the described 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 up, down, left, right, front, rear, etc.) are used to explain the structure and movement of the 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.

Referring to fig. 1-31, eight preferred embodiments of the foot bath apparatus of the present application are shown. The footbath device in these eight embodiments each comprises: a base station and a foot bath bucket. The foot soaking bucket can be removably docked at the base station, and the water tank of the base station can be communicated with the foot soaking bucket docked at the base station, so that the foot soaking bucket can drain water into the water tank of the base station at the base station or obtain water provided by the water tank of the base station at the base station. Therefore, the water replenishing or draining of the foot soaking bucket at the base station is realized, and thus, the distance for the water replenishing or draining of the foot soaking bucket is flexibly configured by configuring the position of the base station by a user, for example, the position of the base station is configured at the position close to the use position of the foot soaking bucket (the use position is the position which can be flexibly selected and configured by the user, such as the use position is the front position of a sofa in a living room or the front position of a bed in a room, the foot soaking bucket is arranged at the use position, the user uses the foot soaking bucket at the corresponding use position for soaking feet), the water replenishing or draining of the foot soaking bucket is directly at the position close to the base station at the use position, the use is more convenient and flexible, and the water replenishing and draining of the foot soaking bucket are also more efficient and labor-saving.

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

Referring to fig. 1-5, a first embodiment of a foot bath bucket apparatus 1000 is shown.

The foot bath tub apparatus 1000 of the present embodiment includes: a base station 100 and a foot bath 200. The foot bath bucket 200 may removably dock to the lower portion of the base station 100 or away from the base station 100.

Referring specifically to fig. 1 and 5, the foot bath tub 200 includes: a housing 31, a chamber 32, a plurality of rollers 33, and a third solenoid valve 34.

The cavity 32 is used for containing foot soaking water. The shape of the cavity 32 is not limited, and may be a cube as shown in fig. 1, a cuboid, or other irregular shape. The top of the cavity 32 is an open bung 321 that allows a user to insert his or her feet into the cavity 32.

A receiving chamber is formed between the bottom of the cavity 32 and the housing 31, and the third solenoid valve 34 is received in the receiving chamber. Wherein, a drain outlet is arranged on the rear side surface of the shell 31, and the third electromagnetic valve 34 is respectively connected with the cavity 32 and the drain outlet and is used for controlling the on-off between the cavity 32 and the drain outlet.

The plurality of rollers 33 are disposed at the bottom of the housing 31, and specifically, the rollers 33 are disposed at the front and rear positions of the left side of the housing 31, and the rollers 33 are disposed at the front and rear positions of the right side. The movement of the footbath tub 200 is more labor-saving by the rollers 33 at the bottom of the housing 31.

Referring to fig. 1 to 5, the base station 100 includes: a base 10 and a waterway system 20. The waterway system 20 includes at least one tank. The base 10 can be used for the foot soaking barrel 200 to stop; the water tank is provided on the base 10, and the water tank is communicated with the footbath tub 200 parked on the base 10.

Referring specifically to fig. 5, the waterway system 20 specifically includes: a first water tank 21, a second water tank 22, a first water channel 23, a first pump 24, and a second pump 25.

The outline shape of the first tank 21 is not limited, and may be a rectangle as shown in fig. 3, a square, a barrel, or other irregular shape, or the like. The first water tank 21 specifically includes a first box 211 and a first box cover 212 openably and closably disposed on the first box 211, so as to facilitate dust prevention in the first water tank 21.

The outline shape of the second tank 22 is not limited, and may be a rectangle as shown in fig. 3, a square, a barrel, or other irregular shape, or the like. The second water tank 22 specifically includes a second box 221 and a second cover 222 openably and closably disposed on the second box 221, so as to facilitate dust prevention in the second water tank 22.

The shapes of the first water tank 21 and the second water tank 22 can be set to be the same, so that the interchangeability of product parts is improved, and the cost of product accessories is reduced.

The first waterway 23 includes: a filter unit 231 and a third pump body 232. The inlet of the third pump body 232 is connected to the outlet of the second water tank 22, the outlet of the third pump body 232 is connected to the inlet of the filter unit 231, and the outlet of the filter unit 231 is connected to the inlet of the first water tank 21.

Filter equipment 231 can be for the filter core that is used for the drainage, and filter equipment can include multistage filter core, and multistage filter core can be with substances such as the chemical of aquatic, heavy metal, filter into comparatively clean degree with water. The first tank 21 serves as a fresh water tank for storing purified water, the second tank 22 serves as a foul water tank for storing foul water, and the filtering device 231 is connected between the first tank 21 and the second tank 22 for filtering water from the second tank 22 and then transferring the filtered water to the first tank 21, so that water recycling is achieved and the frequency of water change for the base station 100 by a user can be reduced.

The water outlet end of the first water tank 21 is connected to the inlet of the first pump body 24, and the outlet of the first pump body 24 is connected to the first port of the base 10. The water inlet end of the second water tank 22 is connected to the outlet of the second pump body 25, and the inlet of the second pump body 25 is connected to the second port of the base 10. In a state where the foot bath tub 200 is parked at the base 10, the first and second ports may be respectively communicated with the foot bath tub 200. Thus, the footbath 200 can discharge sewage into the second water tank 22 along the second interface in a state of being parked on the base 10, and can obtain clean water from the first water tank 21 along the first interface. So, bubble foot bucket 200 is direct at the moisturizing and the drainage in the basic station 100 department that just is close to the user position, and it is more convenient, nimble to use, and the user is also more high-efficient, laborsaving for bubble foot bucket 200 moisturizing drainage, and realizes the recycled water through filter equipment 231 in the basic station 100, and the user also need not frequently to change water to basic station 100, has more highlighted friendly, the convenience of product, also more the water economy resource.

Referring to fig. 1 to 4, the base 10 is a housing assembly having a rectangular outline shape, and the waterway system 20 is disposed in the base 10, so that the formed base 100 is a substantially integral structure, and a user can conveniently configure the position of the base 100, thereby conveniently configuring the water replenishing distance of the foot soaking bucket 200. It is understood that the outline shape of the base 10 is not limited to being rectangular, and in other embodiments, the outline shape of the base 10 may be configured to be square, semicircular, oblong, or the like.

The lower portion of the base 10 encloses a docking chamber 121 having a door opening at the front side to receive the footbath 200. Thus, the footbath 200 can enter the docking chamber 121 along the door opening to dock inside the base 10, and can also leave the docking chamber 121 along the door opening to reach the use position. Make bubble foot bucket 200 dock in berthing storehouse 121, do benefit to the product on the one hand and accomodate neatly, on the other hand, dock in base station 100 bubble foot bucket 200 be difficult to by external force when carrying out drainage or moisturizing and remove for bubble foot bucket 200 connects, the alignment nature of drainage process is better, connects, the drainage process is difficult to leak, ensures base station 100 dry health of surrounding environment more easily.

As shown in fig. 4, the docking compartment 121 has a top wall 1212 at the upper side of the docking compartment 121, two side walls 1214 at both sides of the docking compartment 121, and a rear wall 1213 at the rear side of the docking compartment 121, wherein the top wall 1212, the two side walls 1214, and the rear wall 1213 enclose a frame body having an opening at the front side and the bottom side, respectively, and the opening at the front side of the frame body serves as a door opening. In the using state, the base 10 is placed on the ground with the bottom end of the frame, and the front side of the opening at the bottom side of the frame penetrates to the bottom end of the door opening, so that the footbath 200 can smoothly walk on the ground to enter and exit the parking chamber 121, and water in the footbath 200 is not easy to spill.

A connecting tube 15 is inserted through the top wall 1212 as a first port. The adapter 15 and the top wall 1212 may be a unitary structure, or a separate adapter 15 may be inserted through the top wall 1212. The nipple 15 is connected to the outlet of the first pump body 24. When the footbath bucket 200 stops in the stopping bin 121, the bucket opening 321 of the cavity 32 is positioned below the top wall 1212, water discharged along the connecting pipe 15 can directly fall into the cavity 32, and the first water tank 21 can supplement water into the cavity 32 of the footbath bucket along the first pump body 24 and the connecting pipe 15.

It is understood that the specific form of the first interface is not limited to the connection tube 15, but may be a self-sealing water valve that can be touched and opened by the foot soaking bucket 200, and the like.

A connector 16 may be provided on the rear wall 1213 of the base as a second interface. The connection head 16 is connected to the inlet of the second pump body 25. When the foot bath tub 200 is parked in the parking chamber 121, the rear wall 1213 is located behind the foot bath tub 200, the connector 16 of the rear wall 1213 is detachably connected to a drain outlet at the back of the foot bath tub 200, and when the third solenoid valve 34 of the foot bath tub 200 is in an open state, water in the cavity 32 can be sucked into the second water tank 22 through the second pump body 25.

As shown in fig. 3, a first receiving groove 131 and a second receiving groove 132 are provided in the base 10 at positions above the docking compartment 121, the first receiving groove 131 and the second receiving groove 132 are distributed side by side, the first water tank 21 is removably received in the first receiving groove 131, and the second water tank 22 is removably received in the second receiving groove 132; the first water tank 21 and the second water tank 22 are regularly arranged in the base 10, a user can take the first water tank 21 and the second water tank 22 out conveniently to drain water, fill water or change water, the whole base 10 does not need to be held, and the operation mode is more friendly.

As shown in fig. 3, the base 10 is provided with a first water tank 21 and a second water tank 22, a mounting chamber 14 is provided on the base 10 at a position above the door opening at the front side of the docking chamber 121, the mounting chamber 14 is located at the front side of the first receiving groove 131 and the second receiving groove 132, and the mounting chamber 14 receives the filtering device 231 therein. In this way, the user is facilitated to exchange the filter device 231 from the front side, and a more compact layout between the components is also achieved.

The first embodiment of the present foot bath bucket apparatus 1000, the water addition flow description:

before the use, the user pushes the foot soaking bucket 200 into the docking bin 121 of the base station 100, the tap water is added into the second water tank 22, the tap water in the second water tank 22 is sent into the filtering device 231 through the third pump body 232, the tap water is changed into the purified water to enter the first water tank 21 through the filtering of the filtering device 231, and then the purified water in the first water tank 21 is sent into the foot soaking bucket 200 through the first pump body 24, so that the water adding flow is completed. Thereafter, the user may pull the foot soaking bucket 200 out of the base station 100 for use.

The first embodiment of the present footbath device 1000, the water exchange flow description:

after the user finishes soaking the feet, the foot soaking barrel 200 is pushed into the base station 100, at the moment, the sewage discharge port of the foot soaking barrel 200 is connected with the connector 16 of the base station 100, the third electromagnetic valve 34 in the foot soaking barrel 200 is controlled to open the sewage discharge port of the foot soaking barrel 200, the second pump body 25 is started to pump the sewage in the foot soaking barrel 200 into the second water tank 22, the third pump body 232 is started to feed the sewage in the second water tank 22 into the filtering component, and the filtered sewage becomes purified water and enters the first water tank 21.

Through the scheme of this first embodiment of bubble foot bucket equipment 1000, the user only need add the water back once to basic station 100, push into basic station 100 bubble foot bucket 200, just can realize adding water and trade water to bubble foot bucket 200, because water can recycle, the user need not frequently to get water from the tap far away from, uses more convenient laborsaving. When the life of the filter 231 is over, the filter 231 is replaced with a new one to keep the normal operation of the product, and the life of the product has a larger renewal space.

In other embodiments, the base 10 is provided with a first water tank 21 and a filtering device 231, the filtering device 231 is in water path communication with the first water tank 21, the filtering device 231 is in water path communication with the foot soaking bucket, and the filtering device 231 is used for filtering the drainage water of the foot soaking bucket stopped on the base 10 and transmitting the filtered water to the first water tank 21.

Optionally, the base 10 is provided with a first water tank 21, a first receiving groove 131 for receiving the first water tank 21 is provided at a position above the docking chamber 121 in the base 10, a mounting chamber 14 is provided at a position above the door opening at the front side of the docking chamber 121 on the base, the mounting chamber 14 is located at the side of the first receiving groove 131, and the mounting chamber 14 receives the filtering device 231 therein; the mounting bin can be arranged on the front side, the left side or the right side of the first accommodating groove.

In other embodiments, the base is provided with a second water tank 22 and a filtering device 231, one end of the filtering device 231 is in water path communication with the second water tank 22, the filtering device 231 is in water path communication with the foot soaking bucket, and the filtering device 231 is used for filtering the discharged water contained in the second water tank 22 and transmitting the filtered water to the foot soaking bucket parked at the base.

Optionally, the base 10 is provided with a second water tank 22, a second receiving groove 132 for receiving the second water tank 22 is formed in the base 10 at a position above the docking chamber 121, a mounting chamber 14 is formed on the base at a position above the door opening at the front side of the docking chamber 121, the mounting chamber 14 is located at a side portion of the second receiving groove 132, and the mounting chamber 14 receives the filtering device 231 therein, wherein the mounting chamber can be formed at the front side, the left side or the right side of the second receiving groove.

Referring to fig. 6, a waterway system 20a of a second embodiment of the foot tub apparatus is shown.

The foot bath tub device of the second embodiment includes: a base station and a foot bath bucket. The base station includes: a base and a waterway system 20a. The waterway system 20a is built into the base and the footbath can be removably docked to the lower portion of the base or undocked from the base.

The foot bath bucket and the base are the same as the foot bath bucket device of the first embodiment, except that the water path system 20a of the second embodiment of the foot bath bucket device is slightly different from the water path system 20 of the first embodiment of the foot bath bucket device, and specifically, a first electromagnetic valve 24a is adopted to replace a first pump body 24 in the water path system 20 of the foot bath bucket device.

In detail, the waterway system of the second embodiment of the foot soaking bucket device comprises: a first water tank 21a, a second water tank 22a, a first water channel 23a, a first solenoid valve 24a, and a second pump 25a.

The first waterway 23a includes: a filter 231a and a third pump body 232a.

The inlet of the second pump body 25a is connected to the second port, the outlet of the second pump body 25a is connected to the inlet of the second water tank 22a, the outlet of the second water tank 22a is connected to the inlet of the third pump body 232a, the filter 231a is connected to the outlet of the third pump body 232a and the inlet of the first water tank 21a, and the third solenoid valve is connected to the outlet of the first water tank 21a and the first port. The on-off between the first water tank 21a and the first interface is correspondingly controlled by controlling the on-off of the third electromagnetic valve, wherein when the third electromagnetic valve is opened, the first water tank 21a is communicated with the first interface, and the water in the first water tank 21a is drained along the first interface under the action of gravity.

Referring to fig. 7-12, a third embodiment of a foot bath bucket apparatus 1000b is shown.

The foot bath tub device 1000b of the present third embodiment includes: a base station 100b and a foot bath 200b. The foot bath bucket 200b removably rests on the lower portion of the base station 100b or away from the base station 100b.

The footbath bucket apparatus 1000b, base station 100b, and footbath bucket 200b of this third embodiment are slightly different from the footbath bucket apparatus 1000 of the first embodiment described above.

Referring to fig. 7, 10 and 11 in combination, the foot bath tub 200b includes: a housing 31b, a chamber 32b, a plurality of rollers 33b, and a third solenoid valve 34b.

The cavity 32b is used for containing foot soaking water. The shape of the cavity 32b is not limited, and may be a cube as shown in fig. 7, a rectangular body, or other irregular shape. The top of the cavity 32b is an open bung 321b for a user to insert his feet into the cavity 32b.

A receiving chamber is formed between the bottom of the cavity 32b and the housing 31b, and the third solenoid valve 34b is received in the receiving chamber. Wherein, a drain 322b is disposed on the bottom surface of the housing 31b, and the third electromagnetic valve 34b is connected to the cavity 32b and the drain 322b respectively for controlling the connection and disconnection between the cavity 32b and the drain 322 b.

The plurality of rollers 33b are disposed at the bottom of the housing 31b, and specifically, the rollers 33b are disposed at the front and rear positions on the left side of the housing 31b, and the rollers 33b are disposed at the front and rear positions on the right side. The movement of the footbath tub 200b is more labor-saving by the rollers 33b at the bottom of the housing 31 b.

Referring to fig. 9 to 12, the base station 100b includes: a base 10b and a waterway system 20b. The waterway system 20b includes at least one water tank. The base 10b can be used for the foot soaking barrel 200b to stop; the water tank is provided on the base 10b, and the water tank is communicable with the footbath 200b parked on the base 10 b.

Referring specifically to fig. 12, the waterway system 20b specifically includes: a first water tank 21b, a second water tank 22b, a first water channel 23b, a first heater 241b, a fourth pump 242b, a second pump 25b, and a filtering water tank 26b, wherein the filtering water tank 26b is provided with a filtering net 27b.

The outline shape of the first water tank 21b is not limited, and may be a rectangle as shown in fig. 9, a square, a barrel, or other irregular shape, or the like. The first water tank 21b specifically includes a first box 211b and a first box cover 212b openably and closably disposed on the first box 211b, so as to facilitate dust prevention in the first water tank 21 b.

The outline shape of the second tank 22b is not limited, and may be a rectangle as shown in fig. 9, a square, a barrel, or other irregular shape, or the like. The second water tank 22b specifically includes a second casing 221b and a second cover 222b openably and closably disposed on the second casing 221b, so as to facilitate dust prevention in the second water tank 22 b.

The first water tank 21b and the second water tank 22b may have the same shape, so as to improve the interchangeability of product parts and reduce the cost of product parts.

The first waterway 23b includes: a filter unit 231b and a third pump body 232b. The inlet of the third pump body 232b is connected to the outlet of the second water tank 22b, the outlet of the third pump body 232b is connected to the inlet of the filter unit 231b, and the outlet of the filter unit 231b is connected to the inlet of the first water tank 21 b.

The filtering device 231b includes a filter cartridge for filtering water, and the filtering device may include a multi-stage filter cartridge. The first tank 21b serves as a fresh water tank for storing fresh water, the second tank 22b serves as a foul water tank for storing foul water, and the filtering device 231b is connected between the first tank 21b and the second tank 22b to filter and transfer the water from the second tank 22b to the first tank 21b, thereby realizing water recycling and reducing the frequency of water exchange for the base station 100b by users.

As shown in fig. 12, the outlet of the first tank 21b is connected to the inlet of the fourth pump 242b, and the first heater 241b is connected to the outlet of the fourth pump 242b and the first port of the base 10 b. Thus, the fourth pump 242b is actuated to feed the water in the first water tank 21b into the first heater 241b for heating, and the water is fed into the footbath 200b resting on the base 10b along the first port after being heated by the first heater 241 b. Hot water is replenished to the foot soaking bucket 200b in an instant heating manner without waiting, and the use is more friendly.

Preferably, the fourth pump 242b is a pump with a check valve, such as a diaphragm pump, so that water enters the first heater 241b only when the fourth pump 242b is operated, and the outlet water temperature and the heating efficiency of the first heater 241b can be controlled more precisely.

As shown in fig. 12, the water inlet end of the second water tank 22b is connected to the outlet of the second pump body 25b, and the inlet of the second pump body 25b is connected to the water outlet end of the filtered water tank 26b. As can be understood by further referring to fig. 10 and 11, the top of the filtered water tank 26b is an open opening 261b as a second interface, and a filter screen 27b is detachably covered in the open opening 261b. Of course, in other embodiments, a water pan may be provided, the filter screen 27b is disposed at the mouth of the water pan, the water pan is used as a ground second interface, and the filter water tank 26b is connected to the water pan through a pipeline. The foot soaking barrel is parked in the parking bin, and sewage can be discharged to the filtering water tank 26b through the second interface by the sewage discharge outlet at the bottom of the foot soaking barrel.

In a state where the foot bath tub 200b is docked to the base 10b, the first and second ports may be respectively communicated with the foot bath tub 200b. Thus, the footbath 200b can discharge sewage into the filter tank 26b along the second interface in a state of being parked on the base 10b, and can also obtain clean water from the first tank 21b along the first interface. So, bubble foot bucket 200b is direct in the moisturizing and the drainage of basic station 100b department that just is close to the position of use, and it is more convenient, nimble to use, and the user is also more high-efficient, laborsaving for bubble foot bucket 200b moisturizing drainage. And the second pump body 25b can convey the sewage in the filtering water tank 26b to the second water tank 22b, and the filtering device 231b is used between the second water tank 22b and the first water tank 21b to filter substances and recycle the purified water to the first water tank 21b, so that the base station 100b realizes water recycling through the filtering device 231b, and a user does not need to frequently change the water for the base station 100b, thereby further highlighting the product friendliness and convenience and saving water resources. In addition, the filtering water tank 26b and the filtering net 27b can be used for pre-filtering the sewage from the foot soaking bucket 200b to primarily filter out the large-particle substances in the water, such as dead skin, hair and sand which are dropped by the user when the user is soaking feet, so as to prolong the service life of the filtering device 231 b. Because the filter screen 27b is detachably arranged, the filter screen 27b can be conveniently detached and cleaned, and the problems that the filter screen 27b is blocked or the water is drained too slowly and the like are avoided.

Referring to fig. 7 to 11, the base 10b is a housing assembly having a rectangular outline shape, and the waterway system 20b is disposed in the base 10b, so that the formed base station 100b is a substantially integral structure, and a user can more conveniently configure the position of the base station 100b, thereby correspondingly and conveniently configuring the water replenishing distance of the foot soaking bucket 200b. It is to be understood that the outline shape of the base 10b is not limited to being rectangular, and in other embodiments, the outline shape of the base 10b may be configured to be square, semicircular, oblong, or the like.

The lower portion of the base 10b encloses a docking chamber 121b having a door opening 1211b at a front side to receive the footbath tub 200b. Thus, the footbath 200b can enter the docking compartment 121b along the door opening 1211b to be docked at the inside of the base 10b, and can leave the docking compartment 121b along the door opening 1211b to reach the use position. Make bubble foot bucket 200b dock in berthing storehouse 121b, do benefit to the product on the one hand and accomodate neatly, on the other hand, dock in the bubble foot bucket 200b of basic station 100b and be difficult to by external force when carrying out drainage or moisturizing and remove for bubble foot bucket 200b connects, the alignment nature of drainage process is better, connects, the drainage process is difficult to leak, ensures the dry health of basic station 100b surrounding environment more easily.

As can be understood from FIGS. 9 and 10, the docking bay 121b has a top wall 1212b on the upper side of the docking bay 121b, two side walls 1214b on either side of the docking bay 121b, a rear wall 1213b on the rear side of the docking bay 121b, and a bottom wall 1215b on the lower side of the docking bay 121b, and the top wall 1212b, the two side walls 1214b, the rear wall 1213b, and the bottom wall 1215b enclose a frame having an opening on the front side, which serves as the door opening 1211b.

The front end of the bottom wall 1215b extends obliquely downward toward the front side to form a slope 16b, so that the bottom wall 1215b has a height from the bottom end of the slope 16 b. The bottom cover 115 is positioned below the bottom wall 1215b, and the bottom surface of the bottom cover 115bd is substantially horizontal with the bottom end of the ramp 16 b. As shown in fig. 10, a ring of blocking edges is disposed at the middle position of the left and right sides of the bottom wall 1215b, the bottom wall 1215b in the area enclosed by the blocking edges is inclined downward from front to back to form an inclined bottom 263b, the inclined bottom 263b and the blocking edges enclose the filtered water tank 26b, and one end of the blocking edge far from the inclined bottom 263b encloses an open port 261b of the filtered water tank 26b. The filter net 27b is covered in the opening 261b and can be detached.

When the footbath 200b is parked in the parking bin 121b, the roller 33b of the footbath 200b is positioned on the bottom wall 1215b and supports the shell 31b of the footbath 200b, so that the bottom surface of the shell 31b and the sewage outlet 322b on the bottom surface are positioned above the opening 261b, when the third electromagnetic valve 34b of the footbath 200b is in an open state, the sewage outlet 322b is communicated with the cavity 32b, and at the moment, sewage in the cavity 32b is discharged into the filter water tank 26b along the sewage outlet 322b due to gravity. And the slope 16b is arranged to raise the height of the bottom wall 1215b, so as to increase the capacity of the filter water tank 26b, and the slope 16b can be used for guiding the footbath 200b to climb on the bottom wall 1215b along the slope 16b or descend from the bottom wall 1215b to the ground along the slope 16b, so that the footbath 200b can be smoothly driven into or out of the docking bin 121b, and water is not easily spilled out during the movement of the footbath 200b.

A connecting tube 15b is inserted through the top wall 1212b as a first port. The nipple 15b may be of unitary construction with the top wall 1212b as shown in fig. 9 and 10. In other embodiments, the connection tube 15b may be a separate connection tube 15b penetrating the top wall 1212 b. Wherein the adapter tube 15b is connected to an outlet of the first heater 241 b. When the footbath bucket 200b is parked in the parking bin 121b, the bucket opening 321b of the cavity 32b is positioned below the top wall 1212b, and water drained along the connection pipe 15b can directly fall into the cavity 32b, so that the first water tank 21b can replenish water into the cavity 32b along the fourth pump body 242b, the first heater 241b and the connection pipe 15b.

It is understood that the specific form of the first interface is not limited to the connection tube 15b, and may be a self-sealing water valve that can be touched and opened by the foot soaking bucket 200b.

As shown in fig. 9, the base 10b specifically includes a front cover 112b, a rear cover 111b, a top cover 113b, side covers 114b, an upper body 13b, a lower body 12b, and a bottom cover 115b. The front cover 112b and the rear cover 111b are in front-back butt joint to form an appearance surface of the base 10b, the first opening 116b is formed by the first semi-surrounding opening 116b at the top of the front cover 112b and the first semi-surrounding opening 116b at the top of the rear cover 111b, the upper body 13b is located between the front cover 112b and the rear cover 111b, the upper end of the upper body is opposite to the first opening 116b, the upper body 13b is provided with a first accommodating groove 131b and a second accommodating groove 132b which are sunken downwards and extend, the first accommodating groove 131b and the second accommodating groove 132b are distributed side by side, the first water tank 21b is removably accommodated in the first accommodating groove 131b, the second water tank 22b is removably accommodated in the second accommodating groove 132b, the first water tank 21b and the second water tank 22b are regularly arranged in the base 10b, a user can take out the first water tank 21b and the second water tank 22b along the first opening 116b, the user can conveniently take out the first water tank 21b and the second water tank 22b, or change the water tank, and the base 10b does not need to be filled with water. The top cover 113b is provided to be openable and closable to the first opening 116b to cover or open the first opening 116b, and is good in appearance.

As shown in fig. 9, a second opening portion 1141b is formed on the front side surface of the front cover 112b, and a space is formed between the second opening portion 1141b and the upper body portion 13b to accommodate the mounting seat 14b, wherein the mounting seat 14b is provided with a filter device 231b, a second pump body 25b and a third pump body 232b. The second pump body 25b and the third pump body 232b are disposed on one side of the mounting seat 14b in an up-and-down stacked manner, and the filter device 231b is disposed on the other side of the mounting seat 14b, so that the components are more compactly arranged, and a user can conveniently replace the filter device 231b and inspect the second pump body 25b and the third pump body 232b from the front side along the second opening portion 1141b, and the use is more convenient. The side cover 114b is openably and closably provided at the second opening portion 1141b to shield or open the second opening portion 1141b, and is good in appearance.

As shown in fig. 11, a drain port 264b is provided in the filtered water tank 26b at a lower position of the inclined bottom 263b, and the drain port 264b is connected to the second pump body 25b of the mounting base 14b via a water pipe 265 b. To facilitate the routing of the water pipe 265b and to improve the compactness of the product, one section of the water pipe 265b is routed between the rear cover 111b and the lower body portion 12b, and the other section of the water pipe 265b is routed between the upper body portion 13b and the top wall 1212 b.

As shown in fig. 10, the first heater 241b and the fourth pump 242b are located below the first receiving groove and above the top wall 1212b, so as to shorten the water outlet distance of the hot water and improve the accuracy of the water outlet temperature.

As will be understood from fig. 10 and 12, the filtered water tank 26b is provided with a first water level detecting means 262b for detecting the water level in the filtered water tank 26b. The risk of the filter water tank 26b overflowing can be reduced by detecting the water level in the filter water tank 26b by the first water level detecting means 262b.

As will be understood from fig. 9 and 12, the first receiving groove 131b is provided with a second water level detecting means 213b for detecting the water level in the first water tank 21 b. The second water level detecting means 213b is a separate type water level monitoring member, for example, a capacitive water level switch, so that the second water level detecting means 213b does not interfere with the removal of the first water tank 21b from the first receiving tub 131 b.

As will be understood from fig. 9 and 12, the second receiving groove 132b is provided with a third water level detecting means 223b for detecting the water level in the second water tank 22 b. The third water level detecting means 223b is a separate type water level monitoring part, for example, a capacitive water level switch, etc., so that the third water level detecting means 223b does not interfere with the removal of the second water tank 22b from the second receiving groove 132 b.

The third embodiment of the foot bath barrel device, the water adding flow path description:

1. before use, a user pushes the foot soaking bucket 200b into the docking bin 121b of the base station 100b, and tap water is added into the first water tank 21b;

2. the water in the first water tank 21b is pumped into the first heater 241b through the fourth pump 242b, the water is heated by the first heater 241b to reach the temperature of the foot bath water required by the user, and the heated hot water is discharged into the foot bath tub 200b through the first interface (i.e., the connection pipe 15 b) of the base station 100b, thereby completing the water adding process.

Thereafter, the user may pull the foot bath 200b out of the base station 100b for use.

In the third embodiment of the present foot bath bucket apparatus 1000b, the description of the water exchange flow:

after the user finishes soaking the feet, the foot soaking barrel 200b is pushed into the base station 100b, and at this time, the sewage outlet 322b of the foot soaking barrel 200b corresponds to the open port 261b of the filtering water tank 26b up and down;

the drain outlet 322b of the foot bath barrel 200b is opened by controlling the third electromagnetic valve 34b in the foot bath barrel 200b, and the sewage in the foot bath barrel 200b is drained to the filter screen 27b due to gravity;

the sewage is filtered by the filter screen 27b to filter out larger particles of impurities, so that the service life of the filter 231b can be prolonged; wherein, the position of the filter screen 27b is above the filter water tank 26b, which is convenient for disassembling and washing or replacing the filter screen 27b;

the water filtered by the filter screen 27b enters the filter water tank 26b, and the water in the filter water tank 26b is pumped into the second water tank 22b by the second pump body 25 b; wherein, the filtering water tank 26b is provided with a first water level detecting device 262b for high water level detection, which functions as, for example: when the water level in the filtered water tank 26b is higher and higher to reach the set water level value, the first water level detecting device 262b responds to transmit a signal to the foot bath 200b, and controls the third solenoid valve 34b in the foot bath 200b based on the signal to close the drain outlet 322b of the foot bath 200b, thereby preventing the water from overflowing the filtered water tank 26b.

The water in the second water tank 22b is pumped to the filtering device 231b through the third pump body 232b, and is filtered by the filtering device 231b so that the sewage becomes clean water and enters the first water tank 21b;

if the user needs to reuse the foot bath tub 200b, the 2 nd content of the aforementioned watering process is executed, and if the user does not need to reuse the foot bath tub 200b, the process is ended.

Through the scheme of the third embodiment of the foot soaking bucket device 1000b, the user only needs to add water once into the base station 100b and then pushes the foot soaking bucket 200b into the base station 100b, so that the water can be added into and changed for the foot soaking bucket 200b, and the user does not need to frequently take water from a tap far away from the user because the water can be recycled, so that the foot soaking bucket device is more convenient and labor-saving to use. When the life of the filter 231b is over, the filter 231b can be replaced by a new one to keep the normal operation of the product, and the life of the product has a larger renewal space.

Referring to fig. 13-16, a fourth embodiment of a foot bath bucket apparatus is shown.

The foot bath bucket device of the fourth embodiment comprises: a base station 100c and a foot bath. The base station 100c includes: a base 10c and a waterway system 20c. The waterway system 20c is built into the base 10c, and the foot soaking bucket is removably docked to the lower portion of the base 10c or away from the base 10c.

Wherein the foot bath tub and the base 10c are identical to the foot bath tub apparatus of the third embodiment, except that the water path system 20c of the fourth embodiment of the foot bath tub apparatus is slightly different from the water path system 20b of the third embodiment of the foot bath tub apparatus.

Specifically, the waterway system 20c of the fourth embodiment of the present footbath device includes: a first water tank 21c, a second water level detecting device 213c for detecting the water level in the first water tank 21c, a second water tank 22c, a third water level detecting device 223c for detecting the water level in the second water tank 22c, a first water channel 23c, a first heater 241c, a fourth pump body 242c, a second pump body 25c, a filtered water tank 26c, a first water level detecting device 262c for detecting the water level in the filtered water tank 26c, a filter screen 27c, and an ultraviolet lamp sterilizing device 28c.

The first water tank 21c, the second water tank 22c, the first water channel 23c, the first heater 241c, the fourth pump body 242c, the second pump body 25c, the filtering water tank 26c, and the filtering net 27c are all the same as the water channel system 20b of the third embodiment of the foot bath tub apparatus, except that an ultraviolet lamp sterilization device 28c is additionally provided in the water channel system 20c of the foot bath tub apparatus of the fourth embodiment.

As shown in fig. 15, the ultraviolet lamp sterilizing apparatus 28c includes: a metal shell 284c, a lamp tube passing through the metal shell 284c, a lamp tube wire 283c connected with the lamp tube and extending out of the metal shell 284c, a water inlet 281c extending radially from the side surface of the metal shell 284c, and a water outlet 282c extending radially from the side surface of the metal shell 284c, wherein a certain distance is provided between the water inlet 281c and the water outlet 282c along the axial direction.

The metal shell 284c is a stainless steel shell. An annular gap for medium circulation is formed between the metal shell 284c and the lamp tube in the metal shell 284c, and the water inlet 281c and the water outlet 282c are respectively communicated with the annular gap. In this way, the ultraviolet light is sealed within the metal housing 284c while achieving the sterilization purpose without causing degradation to the components surrounding the ultraviolet lamp sterilization device 28c.

Wherein, the water inlet 281c of the ultraviolet lamp sterilizing device 28c is connected with the outlet of the filtering device 231c, and the water outlet 282c is connected with the inlet of the first water tank 21 c. Therefore, the water filtered by the filtering device 231c enters the first water tank 21c after being further sterilized by the ultraviolet lamp sterilizing device 28c, so that the problems of odor and the like are not easy to occur in the first water tank 21c, and the water is more sanitary and healthy.

Referring to fig. 13 and 14, the ultraviolet lamp sterilization device 28c is fixed on the mounting seat and is located at a side of the filtering device 231c away from the second pump body 25c and the third pump body 232 c. The volume of the product is not increased additionally.

Referring to fig. 17, a fifth embodiment of a foot bath apparatus is shown.

The foot bath bucket device of the fifth embodiment comprises: a base station and a foot bath 200b. The base station includes: a base and a waterway system 20d. The waterway system 20d is built into the base and the footbath 200b is removably docked to a lower portion of the base or off the base.

The foot soaking barrel 200b comprises a cavity and a third electromagnetic valve 34b arranged at the bottom of the cavity, the bottom of the cavity is connected with a drain outlet, and the third electromagnetic valve 34b is used for controlling the on-off between the cavity and the drain outlet.

The base station includes: a base, a water tank, a fourth water level detecting device 265d, a fifth pump body 25d, and a second water channel 29d.

This water tank is named as a fourth water tank 26d in the fifth embodiment, and the fourth water tank 26d is of an open top structure, wherein a filter 27d covers the top of the fourth water tank 26 d. The filter net 27d is used to filter the water entering along the top of the fourth water tank 26 d. The filter 27d is detachably connected to the fourth water tank 26d so that the filter 27d can be replaced. Of course, in other embodiments, a water pan may be added, the filter screen 27d may be detachably covered at the mouth of the water pan, and the fourth water tank 26d is connected to the water pan through a water path.

The fourth water level detecting device 265d is provided to the fourth water tank 26d for detecting the water level of the fourth water tank 26 d. The third solenoid valve 34b of the foot bath tub 200b is turned on or off according to a signal of the fourth water level detecting device 265d to prevent the water in the fourth water tank 26d from overflowing due to the excessively high water level.

The fourth water tank 26d is provided at the bottom of the base, and when the foot bath tub 200b is parked at the base, the drain outlet of the foot bath tub 200b is located above the filtering net 27d, so that the foot bath tub 200b can discharge sewage to the fourth water tank 26d by opening the third solenoid valve 34b in a parked state of the base.

The inlet of the fifth pump body 25d is connected to the fourth water tank 26d and the outlet of the fifth pump body 25d is adapted to be connected to an external trapway, for example containing a floor drain 400.

As shown in fig. 17, the second water path 29d includes a second solenoid valve 291d, a sixth pump body 292d, and a second heater 293d, which are sequentially connected in series, the second heater 293d is communicable with the footbath 200b docked to the base, and an end of the second water path 29d away from the second heater 293d is used for connecting an external water source (e.g., the tap water source 300).

For example, the outlet of the second heater 293d or a first port (as can be understood with reference to the adapter on the base in any of the embodiments described above) connected to the outlet of the second heater 293d is disposed above the footbath 200b resting on the base, so that hot water discharged from the outlet of the second heater 293d can gravity enter the footbath 200b along the bung of the footbath 200b.

Through the scheme of the fifth embodiment of the foot soaking bucket device, the base station can be connected with the floor drain 400 and the household tap water source 300 through the running pipe, and the foot soaking bucket 200b can instantly take water and discharge water at the base station, so that the use is convenient.

Referring to fig. 18-20, a sixth embodiment of a foot bath bucket apparatus is shown.

The foot bath bucket device of the sixth embodiment comprises: a base station 100e and a foot bath bucket. The base station includes: a base 10e and a waterway system built in the base 10 e. The foot bath bucket removably rests on the lower portion of the base 100e or away from the base 100e.

The structure of the foot bath barrel can refer to the foot bath barrel of the first embodiment of the foot bath barrel device, and the detailed description is omitted here.

The waterway system includes a first tank 21e. The base comprises an upper body part 13e and a top cover, the side wall of the first water tank 21e protrudes inwards or outwards to form an end surface 214e, a water inlet 2141e and/or a water outlet 2142e of the first water tank 21e are arranged on the end surface 214e, a first accommodating groove 131e is arranged on the upper body part 13e, the first water tank 21e is positioned in the first accommodating groove 131e, and a water inlet interface 1311e connected with the water inlet 2141e in a matched mode and/or a water outlet interface 1312e connected with the water outlet 2142e in a matched mode are arranged on the side wall of the first accommodating groove 131 e.

The first tank 21 has a first pipe 2143e and a second pipe 2144e. One end of the first pipe 2143e is connected to the water inlet 2141e, and the other end extends to a position slightly above the inner bottom surface of the first pipe 2143 e. One end of the second tube 2144e is connected to the water outlet 2142e, and the other end extends to a position slightly above the inner bottom surface of the second tube 2144e.

Further, the waterway system further comprises a second water tank. The upper body portion 13e is further provided with a second receiving groove 132e for receiving the second water tank.

Referring to fig. 21-24, a seventh embodiment of the foot bath bucket apparatus is shown.

The foot bath tub device of the seventh embodiment includes: a base station 100f and a foot bath 200f. The base station 100f includes: a base 10f and a waterway system built in the base 10f. The foot soaking bucket 200f removably rests on the lower portion of the base 10f or is away from the base 10f.

The structure of the foot bath tub 200f can be referred to the foot bath tub 200 of the first embodiment of the foot bath tub apparatus, and will not be described herein.

The same as the base 10c of the fourth embodiment, the lower portion of the base 10f of the footbath device of the seventh embodiment encloses a docking bay having a door opening at the front side to accommodate the footbath 200f, an accommodating space is formed in the base 10f at a position above the docking bay, a first opening communicating with the accommodating space is formed at the top of the base 10f, the base 10f further includes an upper body portion and a top cover 113f, and the top cover 113f is used for opening or blocking the first opening; the base 10f is provided with a first water tank 21f, and a first accommodating groove for accommodating the first water tank 21f is formed on the upper body part in a concave manner; the first water tank 21f is provided with fourth water level detection means for detecting the water level in the first water tank 21 f; and/or the base 10f is provided with a second water tank 22f, a second accommodating groove for accommodating the second water tank 22f is concavely formed on the upper body part, and the second water tank 22f is provided with a third water level detection device for detecting the water level in the second water tank 22 f.

The difference is that the base 10f of the footbath device of the seventh embodiment is provided with a filtering device at the side of the first receiving groove and/or the second receiving groove, and the top cover 113f is used for taking out at least one of the following when being opened: a first water tank 21f, a second water tank 22f, or a filtering device.

Specifically, the top cover 113f is used to open or shield the first water tank 21f, the second water tank 22f, or the filter device. Therefore, the first water tank 21f, the second water tank 22f or the filtering device share the top cover 113f for shielding, and the product design is simpler.

As shown in fig. 21, when the top cover 113f is closed, the top cover 113f covers the first water tank 21f, the second water tank 22f, or the filter device.

As shown in fig. 22, when the top cover 113f is opened at a first angle smaller than 90 degrees, the filter device at the front side positions of the first and second water tanks 21f and 22f can be taken out.

As shown in fig. 23 and 24, when the top cover 113f is opened at a second angle, which is 90 degrees or more, any one of the first water tank 21f, the second water tank 22f and the filtering means can be taken out. In more detail, the filter device includes a plurality of filter elements 2311f, each filter element 2311f is installed on the base 10f, and each filter element 2311f can be independently placed on the base 10f or taken out from the base 10f, so that a user can replace each filter element 2311f as required without replacing all filter elements at one time.

Referring to fig. 25-31, an eighth embodiment of the foot bath 200g device is shown.

This foot bath bucket 200g equipment of eighth embodiment includes: a base station 100g and a foot bath 200g. The base station 100g includes: a base 10g and a waterway system built in the base 10g. The footbath bucket 200g can removably rest on the lower portion of the base 10g or away from the base 10g.

A cavity 32g is arranged in the foot soaking bucket 200g, and the cavity 32g is a plastic piece and used for containing foot soaking water. The shape of the cavity 32g is not limited, and may be a cube as shown in fig. 26, a rectangular body, or other irregular shape. The top of the cavity 32g is an open bung that can be used for a user to insert his or her feet into the cavity 32 g.

As shown in fig. 26, a drain pipe 3221g is disposed at a position below the cavity 32g in the foot bath tub 200g, a sewage outlet 322g is disposed at the bottom of the foot bath tub 200g, one end of the drain pipe 3221g is connected to the bottom of the cavity 32g so as to communicate with the space in the cavity 32g, and the other end of the drain pipe 3221g communicates with the sewage outlet 322g. A third electromagnetic valve 34g is connected in series on the sewage discharge pipe 3221g, and the third electromagnetic valve 34g is used for controlling the connection and disconnection between the sewage port 322g and the cavity 32 g.

As shown in fig. 25, rollers 33g are respectively provided at both ends of the bottom of the foot soaking tub 200g, and a sewage port 322g is provided at a position between the rollers 33g at both sides.

As shown in fig. 26, the waterway system includes a second water tank 22g. The lower portion of the base 10g encloses a docking chamber 121g having a door opening at the front side to detachably receive the footbath 200g. A second water tank 22g is accommodated in the base 10g at a position above the docking chamber 121g, and the second water tank 22g can be communicated with the water path of the foot bath tub 200g in a state where the foot bath tub 200g is docked in the docking chamber 121g of the base 10 g; the second water tank 22g serves to receive the drain water of the footbath tub 200g.

The waterway system further comprises a first water tank and a filtering device, the structures of the first water tank and the filtering device are the same as those of the first water tank and the filtering device of the foot bath 200g device of the first embodiment, the first water tank is accommodated in the base 10g above the stopping bin 121g, the first water tank is positioned on the side of the second water tank 22g, the filtering device is communicated with the first water tank, the filtering device is communicated with the water channel of the foot bath 200g in the state that the foot bath 200g stops in the stopping bin 121g of the base 10g, and the filtering device is used for filtering the discharged water of the foot bath 200g stopping on the base 10g and transmitting the filtered water to the first water tank.

As shown in fig. 25-30, a base module is provided within the base 10g at a location below the docking bin 121 g. The bottom module includes a bottom wall 1215g for carrying the footbath 200g within the docking bay 121 g. The bottom wall 1215g is integrally provided with a filter water tank 26g, and the bottom wall 1215g is provided with a support surface at the positions of both sides of the filter water tank 26g, respectively, and the support surfaces are used for supporting the rollers 33g at both sides of the foot soaking bucket 200g. The bottom wall 1215g is extended toward the front side with a slope 16g, and the slope 16g is formed such that the front end is gradually raised toward the rear end. The rear end of the ramp 16g is joined to the bottom wall 1215g, and the ramp 16g is adapted to allow the footbed bucket 200g to climb up the ramp 16g from the ground onto the bottom wall 1215g. In order to prevent the foot soaking bucket 200g from slipping or falling on the slope 16g, a plurality of anti-slipping ribs distributed at intervals are convexly arranged on the surface of the slope 16 g.

The filtering water tank 26g is a part of the waterway system, the upper end of the filtering water tank 26g is opened to serve as a water inlet end of the filtering water tank 26g, and the sewage port 322g at the bottom of the foot soaking bucket 200g is just positioned at the upper side of the upper end opening (namely, a water inlet end) of the filtering water tank 26g in a state that the foot soaking bucket 200g is parked in the parking bin 121g of the base 10g, so that the water outlet 322g corresponds to the upper end opening of the filtering water tank 26g in position, and the water discharge port 264g of the filtering water tank 26g is communicated with the waterway of the foot soaking bucket 200g.

The bottom surface of the filtered water tank 26g is provided with an inclined bottom 263g, and the side wall of the filtered water tank 26g is provided with a drain port 264g serving as a drain port, and the drain port 264g is located at the lower end of the inclined bottom 263g and communicates with the space in the filtered water tank 26 g. Wherein, the waterway system further comprises a water pipe 265g, one end of the water pipe 265g is connected to the water outlet 264g, and the other end is connected to the second water tank 22g above the docking chamber 121 g.

As shown in fig. 27, a filter screen 27g is covered on the open top end of the filter water tank 26g, and the filter screen 27g is used for filtering the water entering the filter water tank 26g and outputting the water through a water outlet 264g of the filter water tank 26 g.

Preferably, the filter screen 27g and the filter water tank 26g are detachably connected. So that the user can conveniently remove the filter net 27g for cleaning. For example, as shown in fig. 31 and 29, one of the two ends of the filter screen 27g is provided with three insertion tongues 272g, the other end is provided with an elastic buckle 271g, one of the two sides of the upper end of the filter water tank 26g is provided with three insertion holes 12152g, and the other side is provided with a buckle groove 12151g. The three insertion tongues 272g are correspondingly inserted into the three insertion holes 12152g to form an insertion fit, and the filter screen 27g rotates around the insertion fitting end, so that the elastic buckle 271g is clamped in the buckle groove 12151g or separated from the buckle groove 12151g. Has the convenience of assembly and disassembly.

As shown in fig. 26, the base 10g further has a drying component 40g, the drying component 40g is a hot air device, for example, the filtering water tank 26g further includes an air inlet 266g, the air inlet 266g is located on the side wall of the filtering water tank 26g and located above the water outlet 264g of the filtering water tank 26g, so that the filtering water tank 26g can be conveniently designed with a pipe running on the same side. The air outlet of the drying component 40g is communicated with the air inlet 266g of the filtering water tank 26g, and the drying component 40g is used for drying the filtering water tank 26 g. Therefore, the position 26g of the filter water tank is kept dry, and odor is avoided.

The side wall of the filtered water tank 26g is further provided with a first water level detection device 262g, the first water level detection device 262g specifically comprises a first water level detection piece 2621g and a second water level detection piece 2622g which are positioned on the side wall of the filtered water tank 26g, and the position of the second water level detection piece 2622g is higher than that of the first water level detection piece 2621g. The first water level detecting member 2621g is used for detecting whether the water level of the filtered water tank 26g is lower than a first preset water level, and the second water level detecting member 2622g is used for detecting whether the water level of the filtered water tank 26g is higher than a second preset water level, wherein the first preset water level is lower than the second preset water level. If the second water level detection piece 2622g detects that the current water level in the filter water tank 26g is higher than the second preset water level, in order to prevent the water in the filter water tank 26g from overflowing, the foot bath tub 200g is controlled to stop discharging water; if the first water level detecting member 2621g detects that the current water level in the filtered water tank 26g is lower than the first predetermined water level, indicating that the water has been drained, the second pump body (i.e., the water pump) on the water pipe 265g is controlled to stop pumping water.

With the foot bath bucket 200g apparatus of the eighth embodiment, after the user finishes soaking the foot, the foot bath bucket 200g can be pushed into the docking bin 121g so that the foot bath bucket 200g is located on the bottom wall 1215g, at which time the waste outlet 322g at the bottom of the foot bath bucket 200g is located just above the open mouth at the top of the filtered water tank 26 g. By opening the third electromagnetic valve 34g, the water in the cavity 32g of the footbath bucket 200g is discharged from the sewage outlet 322g along the sewage discharge pipe 3221g, the water discharged from the sewage outlet 322g is filtered by the filter screen 27g and then enters the filter water tank 26g below the sewage outlet 322g, the water in the filter water tank 26g flows back to the second water tank 22g along the water pipe 265g, and the water in the second water tank 22g is filtered by the filter device and then enters the first water tank, so that the filtered clean water is stored in the first water tank. Under the state that the foot bath bucket 200g stops in the stopping bin 121g of the base 10g, the first water tank can be communicated with the water channel of the foot bath bucket 200g, and purified water stored in the first water tank can be conveyed to the foot bath bucket 200g. So, realized waterway system's hydrologic cycle, more saved the water resource, avoid the user to change water frequently simultaneously.

Optionally, in any of the above embodiments, the base further includes a drain outlet, and the drain outlet is communicated with the water outlet end of the second water tank, and is used for draining the drain water contained in the second water tank.

Optionally, in any of the above embodiments, the base further includes a drain outlet, and the drain outlet is disposed on the filter water tank and is used for draining the drain water contained in the filter water tank. The user can drain the second water tank and/or the filtering water tank more conveniently and more conveniently.

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 (19)

1. A footbath device, comprising:

a foot soaking barrel;

the base station comprises a base, and the base can be used for the foot soaking barrel to stop;

the base is provided with a first water tank, and the first water tank can be communicated with a water path of the foot bath barrel in a state that the foot bath barrel is stopped on the base; the first water tank is used for supplying water to the foot soaking barrel;

and/or

The base is provided with a second water tank, and the second water tank can be communicated with the water channel of the foot bath bucket under the state that the foot bath bucket is stopped on the base; the second water tank is used for containing the discharged water of the foot soaking barrel.

2. The foot bath bucket apparatus according to claim 1,

the base is equipped with first water tank and filter equipment, filter equipment with first water tank water route intercommunication, filter equipment with bubble foot bucket water route intercommunication, filter equipment be used for stop in the base the drainage of bubble foot bucket filters, with the water transmission after filtering extremely first water tank.

3. The foot tub apparatus according to claim 1,

the base is equipped with second water tank and filter equipment, filter equipment's one end with second water tank water route intercommunication, filter equipment with bubble foot bucket water route intercommunication, filter equipment be used for with the drainage that the second water tank held filters, with the water transmission after filtering to berth in the base bubble foot bucket.

4. The foot bath apparatus according to claim 3, wherein the base further defines a first water tank, the foot bath apparatus further comprising a first water path connected between the first water tank and the second water tank for the second water tank to supply water to the first water tank along the first water path, the filter device being defined in the first water path;

the other end of the filtering device is communicated with the first water tank, and the filtering device is used for transmitting the filtered water to the first water tank so that the first water tank supplies water to the foot soaking barrel stopped at the base.

5. The foot soaking bucket device according to any one of claims 2 to 4, wherein the base is further provided with a filtering water tank which is communicated with a sewage port waterway of the foot soaking bucket, and the filtering water tank is provided with a filtering net which is used for filtering water entering the filtering water tank and outputting the water through a water outlet end of the filtering water tank.

6. The foot bath tub apparatus according to claim 5, wherein a water inlet end of the filtering water tank communicates with a sewage port of the foot bath tub;

the water outlet end of the filtering water tank is communicated with the water inlet end of the filtering device through a water channel; or the like, or, alternatively,

the base is provided with a second water tank, and the water outlet end of the filter water tank is communicated with the water inlet end of the second water tank through a water path.

7. The foot bath apparatus as recited in claim 5, wherein the filtered water tank further comprises:

the water level detection device comprises a first water level detection piece and/or a second water level detection piece, wherein the first water level detection piece is used for detecting whether the water level of the filtering water tank is lower than a first preset water level, the second water level detection piece is used for detecting whether the water level of the filtering water tank is higher than a second preset water level, and the first preset water level is lower than the second preset water level.

8. The foot bath bucket apparatus of claim 5, wherein said base is further provided with a drying assembly,

the filter water tank further comprises an air inlet, the air outlet of the drying component is communicated with the air inlet of the filter water tank, and the drying component is used for drying the filter water tank.

9. The foot bath bucket apparatus as set forth in any one of claims 2 to 4, wherein said base further comprises:

and the water inlet of the sterilizing device is communicated with the water outlet end of the filtering device, and the sterilizing device is used for sterilizing the water output by the filtering device and outputting the water through the water outlet of the sterilizing device.

10. The foot bath bucket apparatus of claim 5, wherein said base is provided with a second water tank,

the base station comprises a filtering water tank, a foot soaking barrel, a base station and a base station, wherein the filtering water tank is provided with a second interface which can be communicated with a water channel of the foot soaking barrel, and the base station also comprises a second pump body connected with the water outlet end of the filtering water tank and the water inlet end of the second water tank; and/or

The base further comprises a third pump body, and the third pump body is connected between the water outlet end of the second water tank and the water inlet end of the filtering device.

11. The foot bath bucket apparatus of any one of claims 1-4, wherein the base is provided with a first water tank, the base is provided with a first interface, and the first interface is communicable with the foot bath bucket waterway; the base further includes:

the first pump body is connected with the water outlet end of the first water tank; and/or

The first heater is connected between the first interface and the first water tank and used for heating water contained in the first water tank so as to provide hot water for the foot soaking bucket;

and the fourth pump body is connected between the water outlet end of the first water tank and the first heater, or between the water outlet end of the first heater and the first interface.

12. The foot bath bucket device of any one of claims 1-4,

the lower part of the base is surrounded with a docking bin with a door hole at the front side to accommodate the foot soaking barrel, the docking bin is provided with a top wall positioned at the upper side of the docking bin, the base is provided with a first interface, the first interface can be communicated with a water channel of the foot soaking barrel, and the first interface is arranged on the top wall;

the base is provided with a first water tank, the first water tank is arranged in the base and positioned on the upper side of the parking bin, and the first interface is communicated with a first water tank waterway; and/or

The base is equipped with the second water tank, the second water tank is located in the base and be located the upside of berthhing the storehouse.

13. The foot tub apparatus according to claim 5,

the lower part of the base is surrounded with a parking bin with a door hole at the front side to accommodate the foot soaking barrel, the parking bin is also provided with a bottom wall positioned at the lower side of the parking bin,

the filter water tank is detachably arranged on the bottom wall, or the filter water tank and the bottom wall are integrally arranged;

the base is further provided with a slope, one end of the slope is connected to the bottom wall, the position, away from one end of the bottom wall, of the slope is lower than that of the bottom wall, and the slope inclines downwards from the junction position of the slope and the bottom wall to the end, away from the bottom wall, of the slope.

14. The foot bath bucket device of any one of claims 2 to 4,

the lower part of the base is surrounded with a parking bin with a door opening at the front side to accommodate the foot soaking barrel,

the base is provided with a first water tank, a first accommodating groove capable of accommodating the first water tank is arranged at a position above the parking bin in the base, an installation bin is arranged at a position on the upper side of a door opening at the front side of the parking bin on the base, the installation bin is positioned at the side part of the first accommodating groove, and the filtering device is accommodated in the installation bin; and/or the presence of a gas in the atmosphere,

the base is provided with a second water tank, a second accommodating groove capable of accommodating the second water tank is formed in the position above the parking bin in the base, an installation bin is arranged at the position of the upper side of a door opening in the front side of the parking bin on the base and located at the side of the second accommodating groove, and the filtering device is accommodated in the installation bin.

15. The foot bath bucket device of any one of claims 2 to 4,

the lower part of the base is surrounded with a parking bin with a door opening at the front side to accommodate the foot soaking barrel,

an accommodating space is formed in the base above the docking bin, a first opening communicated with the accommodating space is formed in the top of the base, the base further comprises an upper body part and a top cover, and the top cover is used for opening or shielding the first opening;

the base is provided with a first water tank, and a first accommodating groove for accommodating the first water tank is formed in the upper body part in a concave manner; the first water tank is provided with a second water level detection device for detecting the water level in the first water tank; and/or

The base is provided with a second water tank, a second accommodating groove for accommodating the second water tank is formed in the upper body part in a concave mode, and the second water tank is provided with a third water level detection device for detecting the water level in the second water tank.

16. The footbath device of claim 15, wherein the side of the first receptacle and/or the second receptacle is provided with the filtering means, the top cover being adapted to remove at least one of the following when opened: the first water tank, the second water tank, or the filtering device.

17. The bubble retort apparatus according to any one of claims 2 to 4, wherein the lower portion of the base encloses a docking bay having a door opening in the front side to receive the bubble retort;

the base is provided with a second opening at the position of the upper side of the door opening at the front side of the parking bin, the base further comprises a side cover and an upper body part, the side cover is used for opening or shielding the second opening, the upper body part is used for accommodating at least one of the first water tank and the second water tank, a filtering device is accommodated in the base at the position in front of or on the side of the upper body part, and the filtering device is opposite to the second opening.

18. The foot bath bucket apparatus according to any one of claims 1 to 4, wherein the base further comprises an upper body portion and a top cover, the side wall of the first water tank protrudes inward or outward to form an end surface, the water inlet and/or the water outlet of the first water tank are/is disposed on the end surface, and the upper body portion is provided with a water inlet interface connected with the water inlet in a matching manner and/or a water outlet interface connected with the water outlet in a matching manner.

19. The foot bath bucket apparatus of claim 5, wherein the base further comprises a waste drain,

the sewage discharge port is communicated with a water outlet end waterway of the second water tank and is used for discharging the discharged water contained in the second water tank; and/or

The sewage draining port is arranged on the filtering water tank and used for draining the drained water contained in the filtering water tank.

Images