CN215016545U - Combined foot bath barrel - Google Patents

Abstract

The utility model discloses a modular bubble foot bucket, be ordinary bucket or the special bucket of automatic temperature remote controller or the special bucket of foot accuse remote controller including first solenoid valve, bleeder line, bubble foot bucket, the remote controller is manual remote controller or foot accuse remote controller or automatic temperature remote controller, wireless receiving circuit controller, ordinary bucket and wireless receiving circuit controller and manual remote controller combined use. The special barrel for the automatic temperature remote controller, the automatic temperature remote controller and the wireless receiving circuit controller are combined for use. The special bucket for the foot-controlled remote controller, the foot-controlled remote controller and the wireless receiving circuit controller are combined for use. The combined foot soaking barrel is provided with the first electromagnetic valve which is in a closed state at ordinary times, the drain pipe is in a non-pressure state, the drain pipe is in a low-pressure state when the first electromagnetic valve is opened, the drain pipe can select low-pressure thin hoses such as a silicone pipe and the like, is soft, light, free to fold and unfold, and easy to move and accommodate.

Description

Combined foot bath barrel

Technical Field

The utility model relates to a bubble foot bucket technical field specifically is a modular bubble foot bucket.

Background

The foot bath with hot water is one of the traditional Chinese medicine treatment contents, is also a common external treatment method, and has the effects of relieving fatigue, benefiting sleep, dispelling cold, warming and dredging channels and collaterals, improving local blood circulation, exciting yang qi of a body, promoting metabolism and achieving the purposes of health preservation and health care.

Common bubble foot equipment in the existing market is the bubble foot bucket, and the hot water source of bubble foot bucket has two kinds of modes: the electric heating type foot soaking barrel is characterized in that water in the barrel is heated through a circuit, a sensor detects the water temperature to control the on and off of a heating power supply, when the required water temperature is heated, the power supply is turned off to stop heating, and when the water temperature is reduced, the heating is started, so that the water temperature is kept at the proper heat for foot soaking through the circulation intermittent heating. The electrified heating type foot soaking bucket has the defects that electricity needs to be plugged when the foot soaking bucket is used, electric energy is wasted, potential safety hazards such as short circuit and electric leakage are increased due to 220v voltage of the heating wire, the fault rate is high due to the fact that a circuit is complex, the cost is high, the selling price is high, the price is 5-50 times of that of a common foot soaking bucket, and therefore a use threshold is raised, and a certain part of people cannot enjoy the benefit of foot soaking health care.

The other hand-operated hot water adding type foot soaking barrel is characterized in that the water temperature is kept at a certain temperature by manually adding hot water for many times, and the main defect of the manual hot water adding type foot soaking barrel is that the manual hot water adding type foot soaking barrel is simple, low in cost and inconvenient to use; the foot bath time is generally 20-30 minutes, in the long time, the water needs to keep proper heat, hot water needs to be added for many times, a thermos bottle is needed to be prepared beside the hot water before foot bath, the thermos bottle needs to be lifted by hand when water is added, a bottle of water is heavy, difficult to lift and difficult to pour, the water pouring amount is not well controlled, the water is easily scalded or splashed by the hot water, and various inconveniences greatly reduce the heat of people for foot bath.

The foot bath barrel on the market at present needs manual water adding, manual water discharging and power-on heating, and the manual water adding is also needed to heat water, so that the society enters an information-based automatic era, and the manual water adding and discharging mode of the foot bath barrel also needs to be changed to adapt to a new era.

Almost every family of society has the water heater now, and the prevalence is very high, and some have two or three water heaters, and we open and see that there is so much hot water in the water heater, unfortunately can not make full use of, and the foot of soaking still needs to boil hot water with the foot bucket, and this is boiling water repeatedly and wastes electric energy and charges of electricity, increases the loss of the energy, this is not accorded with the theme that green environmental protection and energy saving were advocated in modern society.

At present, hot water in a water heater is not utilized by a foot bath barrel, namely, the hot water is not easy to be connected out due to high water pressure in a hot water pipe, for example, a high-pressure hose commonly used at present is used for connecting: firstly, the high-pressure hose has high cost, and secondly, because the high-pressure hose is provided with a metal explosion-proof layer which is hard and heavy, and high-pressure water in the hose is inconvenient to move, inconvenient to store and easy to leak; if the water valve is arranged at one end which is just fed with water, the user cannot get up to switch the water valve when soaking feet, and if the user uses a hard pipe to connect the water valve, most places cannot be moved, so that the user cannot be conveniently used and the application of people is limited.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a modular bubble foot bucket to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a combined foot bath barrel comprises a first electromagnetic valve, a water drain pipe, a common barrel, a barrel special for an automatic temperature remote controller or a barrel special for a foot-controlled remote controller, wherein the remote controller is a hand-controlled remote controller or a foot-controlled remote controller or an automatic temperature remote controller, and a wireless receiving circuit controller, and the common barrel, the wireless receiving circuit controller and the hand-controlled remote controller are used in a combined mode. The special barrel for the automatic temperature remote controller, the automatic temperature remote controller and the wireless receiving circuit controller are combined for use. The special bucket for the foot-controlled remote controller, the foot-controlled remote controller and the wireless receiving circuit controller are combined for use. The diameter of the water inlet and outlet of the first electromagnetic valve is 4mm-28mm, the water outlet of the first electromagnetic valve is connected with a water drain pipe, the diameter of the water drain pipe is 4mm-28mm, the other end of the water drain pipe is communicated with a common barrel or a barrel special for an automatic temperature remote controller or a barrel special for a foot-controlled remote controller, and the wireless receiving circuit controller is characterized in that: and receiving signals of the manual control remote controller, the foot control remote controller or the automatic temperature remote controller to control the opening and closing of the first electromagnetic valve.

Preferably, the foot-controlled remote controller is arranged on the special bucket for the foot-controlled remote controller, and the water outlet emission button of the foot-controlled remote controller is arranged at the bottom or the periphery or the inside of the special bucket for the foot-controlled remote controller.

Preferably, the automatic temperature remote controller is arranged on the barrel special for the automatic temperature remote controller and comprises a water temperature detection sensor, a temperature control circuit, a temperature display circuit, an automatic timing control circuit and a control signal transmitting circuit.

Preferably, the water inlet of the first electromagnetic valve is connected with a hot water pipe, the water discharge pipe is a hose or a hard pipe, and the length is selected as required.

Preferably, the frequency of the wireless receiving circuit controller and the remote controller is 315M or 433M or 2.4G, and the wireless receiving circuit controller and the remote controller combination can be replaced by wired control.

Preferably, the special bucket for the foot-controlled remote controller and the special bucket for the automatic temperature remote controller are provided with an overflow port and a water outlet, the overflow port is used for limiting the height of water in the buckets and discharging the cooled water to enable the water temperature to be recovered to the required heat value more quickly, and the water outlet is connected with a water discharge valve or a water discharge motor.

Preferably, the special barrel for the foot-controlled remote controller and the special barrel for the automatic temperature remote controller are provided with massage devices and movable casters.

Preferably, one path of cold water input is added, a water inlet of the second electromagnetic valve is connected with a cold water pipe, and a water outlet of the second electromagnetic valve is connected to a water discharge pipe.

Compared with the prior art, the beneficial effects of the utility model are that:

hot water in the original water heater is introduced into the foot soaking barrel, and the device mainly has the following 5 characteristics; firstly, the foot bath barrel can be used without power plug-in, energy is saved, environment is protected, and the electric leakage is not worried about; secondly, tap water is heated without manual water adding; the water inlet pipeline and the foot soaking barrel can be combined in a split mode, so that the personalized foot soaking barrel can be conveniently selected and matched, a common barrel can be used, the application range is wide, the local material is low in cost, the special barrel for the automatic temperature controller can be upgraded and selected, and the whole process from water inlet, timing temperature control to water drainage is completed automatically, so that the requirement of people on automatic product upgrading in new generations is met; wireless remote control is realized, no wire constraint exists, and the device is convenient to use and is suitable for various places; the water outlet pipe is normally in a non-pressure state, and low-pressure thin hoses such as silicone tubes and the like can be used, so that the water outlet pipe is soft, light and easy to move and store.

The combined foot soaking barrel is provided with a first electromagnetic valve which is closed at ordinary times, a drain pipe is in a non-pressure state, the drain pipe is in a low-pressure state when the first electromagnetic valve is opened, the drain pipe can be a flexible pipe with low pressure and thin thickness such as a silicon rubber pipe and the like, is flexible, light, flexible, easy to move and store, and a high-pressure pipe or a hard pipe can be selected in a fixed place, the diameter is 4mm-28mm, the length is selected as required, and the length is generally 0-20 m.

The common barrel is not limited by styles, shapes, materials and the like, a family has a water barrel, people can use the common barrel, the application range of local materials is wide, the cost is low, the use threshold of the foot soaking barrel is greatly reduced, the common barrel is matched with a manual control remote controller for use, when the foot feels that the water temperature is reduced, a water outlet emission button of the manual control remote controller is pressed by a hand, a receiving circuit receives a signal and outputs a control signal to open an electromagnetic valve for water drainage, the common barrel is used for feeding hot water, when the water is hot enough, the button is released, the emission signal is stopped, the electromagnetic valve is closed, the water feeding is stopped, when the water temperature is reduced again, the method is repeated, the hot water is discontinuously fed in the circulation manner and mixed with the water in the barrel, the water temperature is kept at the temperature suitable for soaking the foot, and the manual control remote controller can be set to be inching or self-locking.

The special bucket for the foot-controlled remote controller is provided with the foot-controlled remote controller, a hand can be vacated to soak feet and work simultaneously, when the feet feel that the water temperature is reduced, a water outlet emission button is stepped down or touched by feet, the wireless receiving circuit controller outputs a control signal to open the first electromagnetic valve after receiving the signal, the special bucket for the foot-controlled remote controller supplies hot water, when the water temperature is high enough, the button is released, the emission signal is stopped, the first electromagnetic valve is closed, the water supply is stopped, and when the water temperature is reduced again, the method is repeated, so that the hot water is circulated and discontinuously supplied and mixed with the water in the bucket, the water temperature is kept at the temperature suitable for soaking feet, the foot-controlled remote controller can be set to be inching or self-locking, the special bucket for the foot-controlled remote controller can be used with the hand-controlled remote controller in a dual-purpose in a matching mode, and the receiving circuit can also receive the control of the hand-controlled remote controller and the foot-controlled remote controller simultaneously.

The automatic temperature remote controller is arranged on the barrel special for the automatic temperature remote controller, the automatic temperature remote controller comprises a water temperature detection sensor, a temperature control circuit, a selectable temperature display circuit, a selectable automatic timing control circuit and a control signal transmitting circuit, when the water temperature detection sensor detects that the water temperature is reduced to 41 ℃, a control signal is transmitted, the wireless receiving circuit receives the control signal and then opens the electromagnetic valve, the barrel special for the automatic temperature remote controller is used for feeding hot water, when the water temperature detection sensor detects that the water temperature is reduced to 43 ℃, the transmission of the signal is stopped, the electromagnetic valve is closed, the hot water feeding is stopped, when the water temperature is reduced to 41 ℃, the steps are automatically repeated, the circulation is interrupted, the water is automatically heated, the purpose of automatically soaking feet at constant temperature is achieved, and the temperature control range is adjustable and can be set.

The drain pipe can be used for selectively increasing one path of cold water input, when the foot soaking barrel is far from a hot water source by more than 3 meters, because water in the section of pipeline is already cooled into cold water and is mixed with hot water to obtain initial hot water quantity in the foot soaking barrel, the one path of hot water input can be selected, the one path of hot water input mode and the use mode are as described above, when the foot soaking barrel is near to the hot water source within 3 meters, or the initial hot water quantity in the foot soaking barrel needs to be more, the cold water is required to be mixed, the temperature of the hot water is reduced, the initial hot water quantity is increased, the hot water and cold water input can be selected, namely 1 path of cold water input is increased, and the mode is as follows: the water inlet of the second electromagnetic valve is connected with a cold water pipe, the water outlet of the second electromagnetic valve is connected with a water discharge pipe, when the foot bath is started, some cold water is discharged first, then hot water is discharged, hot water and cold water are mixed and neutralized, the cold water is discharged when the water temperature is higher, the hot water is discharged when the water temperature is lower, until the water temperature and the water quantity which are initially needed by foot bath are reached, and the cold water which is simultaneously discharged is optionally set as the initial hot water quantity, the method comprises the following steps: the remote controller transmits cold and hot water control signals by one key, the wireless receiving circuit controller simultaneously opens the first electromagnetic valve and the second electromagnetic valve after receiving the signals, the foot soaking barrel enters hot water mixed with cold and hot water, the signal transmission is stopped after the required initial hot water amount is reached, the water inlet is stopped, and the mode of keeping the constant temperature of the hot water is the same as that of the hot water inlet.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the top view of the bucket dedicated for the foot-controlled remote controller of the present invention;

fig. 3 is the internal structure diagram of the barrel dedicated for the automatic temperature remote controller of the present invention.

In the figure: 1. a first solenoid valve; 2. a water discharge pipe; 3. a wireless receiving circuit controller; 4. a common barrel; 5. a barrel dedicated for an automatic temperature remote controller; 6. a bucket special for a foot-controlled remote controller; 7. a manual remote controller; 8. a foot-controlled remote controller; 9. an automatic temperature remote controller; 11. a hot water pipe; 12. an overflow port; 13. a water outlet; 14. a drain valve; 15. a second solenoid valve; 16. a cold water pipe; 17. Go out water transmission button.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

Example (b):

example 1:

as shown in fig. 1-2, the utility model relates to a combined foot bath bucket, including first solenoid valve 1, bleeder 2, foot bath bucket be ordinary bucket 4 or special bucket 5 of automatic temperature remote controller or special bucket 6 of foot control remote controller, the remote controller is manual remote controller 7 or foot control remote controller 8 or automatic temperature remote controller 9, wireless receiving circuit controller 3, ordinary bucket 4 and wireless receiving circuit controller 3 and manual remote controller 7 use in combination. The special barrel 5 for the automatic temperature remote controller, the automatic temperature remote controller 9 and the wireless receiving circuit controller 3 are combined for use. The special bucket 6 for the foot-controlled remote controller, the foot-controlled remote controller 8 and the wireless receiving circuit controller 3 are combined for use. The diameter of the water inlet and outlet of the first electromagnetic valve 1 is 4mm-28mm, the water outlet of the first electromagnetic valve 1 is connected with a water discharge pipe 2, the diameter of the water discharge pipe 2 is 4mm-28mm, the other end of the water discharge pipe 2 is communicated with a common barrel 4 or a barrel 5 special for an automatic temperature remote controller or a barrel 6 special for a foot-controlled remote controller, and the wireless receiving circuit controller 3 is characterized in that: and receiving signals of the manual control remote controller 7, the foot control remote controller 8 or the automatic temperature remote controller 9 to control the opening and closing of the first electromagnetic valve 1.

The utility model discloses when using, hot-water line 11 is connected to the water inlet of first solenoid valve 1, bleeder 2 is connected to 1 delivery port of first solenoid valve, common bucket 4 is led to the other end of bleeder 2, press manual remote controller 7's play water transmission button with the hand, after 3 received the signal of wireless receiving circuit controller, output control signal opens first solenoid valve 1, hot water puts into common bucket 4 through bleeder 2, reach required temperature after, loosen the button, stop transmitting signal, first solenoid valve 1 closes, common bucket 4 stops into hot water, after the temperature descends, press the transmission button again, repeat above-mentioned step, the circulation is interrupted into hot water and the mixing of bucket normal water like this, make the temperature keep at the temperature that is fit for the bubble foot.

Example 2:

as shown in fig. 1-2, the utility model discloses when using, hot-water line 11 is connected to the water inlet of first solenoid valve 1, bleeder 2 is connected to first solenoid valve 1 delivery port, the other end of bleeder 2 leads to the special bucket 6 of foot control remote controller, step on the play water transmission button of foot control remote controller 8 with the foot, after wireless receiving circuit controller 3 received the signal, output control signal opened first solenoid valve 1, the special bucket 6 of foot control remote controller advances hot water, when the temperature is hot enough, loosen the button, stop the transmission signal, first solenoid valve 1 closes, stop advancing hot water, after the temperature descends, step on out water transmission button again, repeat above-mentioned step, the circulation is interrupted like this and is advanced hot water and bucket normal water mixture, make the temperature keep at the heat degree that is fit for the bubble foot.

Example 3:

as shown in figure 1, when the utility model is used, the water inlet of a first electromagnetic valve 1 is connected with a hot water pipe 11, the water outlet of the first electromagnetic valve 1 is connected with a water discharge pipe 2, the other end of the water discharge pipe 2 is communicated with a special barrel 5 of an automatic temperature remote controller, an automatic temperature remote controller 9 switch is opened, the timing or the default time length of foot soaking can be set, at the moment, a water temperature detection sensor detects that the water temperature is lower than 41 ℃, a control signal is transmitted, after a wireless receiving circuit controller 3 receives the control signal, the first electromagnetic valve 1 is opened, the special barrel 5 of the automatic temperature remote controller feeds hot water, when the water temperature detection sensor detects that the water temperature reaches 43 ℃, the transmission of the signal is stopped, the first electromagnetic valve 1 is closed, the hot water feeding is stopped, when the water temperature drops to 41 ℃, the steps are automatically repeated, the circulation is interrupted, the automatic water heating is achieved, the purpose of automatic constant temperature foot soaking is achieved, the temperature control range can be adjusted and set, when the water level in the barrel reaches the overflow port 12, the water cooled on the barrel automatically flows out, when the foot soaking time is finished, the switch is automatically closed, the drain valve 14 or the drain motor is opened, the water is drained through the drain port 13, the drain valve 14 or the drain motor, the automatic shutdown of the drained water is finished, and the whole process is completed fully automatically.

Example 4:

as shown in fig. 1, the utility model relates to a modular bubble foot bucket, including first solenoid valve 1, second solenoid valve 15, bleeder 2, ordinary bucket 4, wireless receiving circuit controller 3, manual remote controller 7, first solenoid valve 1 exit linkage bleeder 2, the bleeder 2 other end lead to ordinary bucket 4.

When the utility model is used, the water inlet of the first electromagnetic valve 1 is connected with the hot water pipe 11, the water outlet of the first electromagnetic valve 1 is connected with the water discharge pipe 2, the other end of the water discharge pipe 2 is communicated with the common barrel 4, the water inlet of the second electromagnetic valve 15 is connected with the cold water pipe 16, the water outlet of the second electromagnetic valve 15 is connected with the water discharge pipe 2, firstly, the cold water emission button of the manual remote controller 7 is pressed by hands, after the wireless receiving circuit controller 3 receives the signal, the second electromagnetic valve 15 is opened by outputting a control signal, the cold water is put into the common barrel 4 through the water discharge pipe 2, after the required water amount is reached, the button is released, the emission signal is stopped, the second electromagnetic valve 15 is closed, the common barrel 4 stops feeding the cold water, the hot water emission button of the manual remote controller 7 is pressed by hands, after the receiving circuit 3 receives the signal, the first electromagnetic valve 1 is opened by outputting the control signal, the hot water is put into the common barrel 4 through the water discharge pipe 2, after the water quantity and the water temperature which need to be mixed are reached, the button is loosened, the signal is stopped to be transmitted, the first electromagnetic valve 1 is closed, the common barrel 4 stops feeding hot water, after the water temperature is reduced, the hot water transmitting button is pressed, the steps are repeated, the hot water is fed intermittently in the circulation mode and is mixed with the water in the barrel, and the water temperature is kept at the temperature suitable for soaking feet.

Example 5:

as shown in figure 1, when the utility model is used, the water inlet of the first electromagnetic valve 1 is connected with the hot water pipe 11, the water outlet of the first electromagnetic valve 1 is connected with the water discharge pipe 2, the other end of the water discharge pipe 2 is communicated with the special barrel 6 of the foot-controlled remote controller, the water inlet of the second electromagnetic valve 15 is connected with the cold water pipe 16, the water outlet of the second electromagnetic valve 15 is connected with the water discharge pipe 2, three emission buttons are arranged on the special barrel of the foot-controlled remote controller, namely, a hot water emission button, a cold water emission button and a cold and hot water emission button, when the user just starts, the cold and hot water emission button of the foot-controlled remote controller 8 is stepped on by the foot, after the wireless receiving circuit controller 3 receives the signals, 2 paths of control signals are simultaneously output, the first electromagnetic valve 1 and the second electromagnetic valve 15 are simultaneously opened, the special barrel 6 of the foot-controlled remote controller simultaneously enters hot water and cold water, when the required initial hot water amount is reached, the button is released, at this moment, if the water temperature is higher, the cold water emitting button can be stepped on, the wireless receiving circuit controller 3 outputs a control signal to open the second electromagnetic valve 15 after receiving the signal, cold water is put into the special barrel 6 for the foot-controlled remote controller through the water drain pipe 2, the button is released after the cold water and the hot water are mixed to reach the required water temperature, the emission of the signal is stopped, and the second electromagnetic valve 15 is closed to stop the cold water entering. If the water temperature is low, the hot water emission button is stepped by feet, the wireless receiving circuit controller 3 outputs a control signal to open the first electromagnetic valve 1 after receiving the signal, the special barrel 6 for the foot-controlled remote controller enters hot water, when the water temperature is hot enough, the button is released, the emission signal is stopped, the first electromagnetic valve 1 is closed, the hot water entering is stopped, after the water temperature is reduced, the hot water emission button is stepped again, and the steps are repeated, so that the hot water is circulated and discontinuously enters the hot water to be mixed with the water in the barrel, and the water temperature is kept at the temperature suitable for soaking feet.

Example 6:

as shown in figure 1, when the utility model is used, the water inlet of a first electromagnetic valve 1 is connected with a hot water pipe 11, the water outlet of the first electromagnetic valve 1 is connected with a water discharge pipe 2, the other end of the water discharge pipe 2 is communicated with a special barrel 5 of an automatic temperature remote controller, the water inlet of a second electromagnetic valve 15 is connected with a cold water pipe 16, the water outlet of the second electromagnetic valve 15 is connected with the water discharge pipe 2, the other end of the water discharge pipe 2 is communicated with the special barrel 5 of the automatic temperature remote controller, a switch of the automatic temperature remote controller 9 is opened, two control signals are simultaneously transmitted, after a wireless receiving circuit controller 3 receives the signals, 2 paths of control signals are simultaneously output, the first electromagnetic valve 1 and the second electromagnetic valve 15 are simultaneously opened, the special barrel 5 of the automatic temperature remote controller simultaneously enters hot water and cold water, the water automatically stops to flow out when the required initial hot water amount is reached, at the moment, a water temperature detection sensor starts to work, when the water temperature is detected to be higher than 43 degrees, the cold water control signal is automatically emitted, the second electromagnetic valve 15 is opened after the wireless receiving circuit controller 3 receives the control signal, the special barrel 5 for the automatic temperature remote controller enters cold water, when the water temperature is reduced to 42 ℃, the cold water circuit is closed for a long time, the cold water is stopped to be discharged, when the water temperature is detected to be lower than 41 ℃, the hot water control signal is emitted, the wireless receiving circuit controller 3 receives the control signal, the first electromagnetic valve 1 is opened, the special barrel for the automatic temperature remote controller enters hot water, when the water temperature detection sensor detects that the water temperature reaches 43 ℃, the signal is stopped to be emitted, the first electromagnetic valve 1 is closed, the hot water is stopped to be discharged, when the water temperature is reduced to 41 ℃, the steps are automatically repeated, so that the water is discontinuously and automatically heated, the purpose of automatic constant temperature foot soaking is achieved, the temperature control range can be adjusted, when the water level in the barrel reaches the overflow port 12, the water cooled on the barrel automatically flows out, when the foot soaking time is finished, the automatic temperature remote controller 9 is automatically closed, the drain valve 14 or the drain motor is automatically opened, water is drained through the drain port 13, the drain valve 14 or the drain motor, the automatic shutdown is carried out after the water is drained, and the whole process is fully automatically finished.

Claims (8)

1. A combined foot bath barrel comprises a first electromagnetic valve (1), a water discharge pipe (2), a common barrel (4) or a barrel (5) special for an automatic temperature remote controller or a barrel (6) special for a foot-controlled remote controller, wherein the remote controller is a manual remote controller (7) or a foot-controlled remote controller (8) or an automatic temperature remote controller (9), a wireless receiving circuit controller (3), the common barrel (4), the wireless receiving circuit controller (3) and the manual remote controller (7) are combined for use, the barrel (5) special for the automatic temperature remote controller, the automatic temperature remote controller (9) and the wireless receiving circuit controller (3) are combined for use, the barrel (6) special for the foot-controlled remote controller, the foot-controlled remote controller (8) and the wireless receiving circuit controller (3) are combined for use, the diameter of a water inlet and a water outlet of the first electromagnetic valve (1) is 4-28 mm, the water outlet of the first electromagnetic valve (1) is connected with a water drain pipe (2), the diameter of the water drain pipe (2) is 4-28 mm, the other end of the water drain pipe (2) is communicated with a common barrel (4) or a barrel (5) special for an automatic temperature remote controller or a barrel (6) special for a foot-controlled remote controller, and the wireless receiving circuit controller (3) is characterized in that: and receiving signals of the manual control remote controller (7), the foot control remote controller (8) or the automatic temperature remote controller (9) to control the opening and closing of the first electromagnetic valve (1).

2. The combination foot bath bucket of claim 1, wherein: the foot-controlled remote controller special barrel (6) is provided with a foot-controlled remote controller (8), and a water outlet emission button (17) of the foot-controlled remote controller (8) is arranged at the bottom or the periphery or the inside of the foot-controlled remote controller special barrel (6).

3. The combination foot bath bucket of claim 1, wherein: the automatic temperature remote controller is characterized in that an automatic temperature remote controller (9) is arranged on the barrel (5) special for the automatic temperature remote controller, and the automatic temperature remote controller (9) comprises a water temperature detection sensor, a temperature control circuit, a temperature display circuit, an automatic timing control circuit and a control signal transmitting circuit.

4. The combination foot bath bucket of claim 1, wherein: the water inlet of the first electromagnetic valve (1) is connected with a hot water pipe (11), the water discharge pipe (2) is a hose or a hard pipe, and the length is selected as required.

5. The combination foot bath bucket of claim 1, wherein: the frequency of the wireless receiving circuit controller (3) and the remote controller is 315M or 433M or 2.4G, and the wireless receiving circuit controller (3) and the remote controller combination can be replaced by wired control.

6. The combination foot bath bucket of claim 1, wherein: the special bucket (6) for the foot-controlled remote controller and the special bucket (5) for the automatic temperature remote controller are provided with overflow ports (12) and water outlets (13), the overflow ports (12) are used for limiting the height of water in the bucket and discharging cooled water above the bucket to enable the water temperature to recover to the required heat more quickly, and the water outlets (13) are connected with a drain valve (14) or a drain motor.

7. The combination foot bath bucket of claim 1, wherein: the special barrel (6) for the foot-controlled remote controller and the special barrel (5) for the automatic temperature remote controller are provided with massage devices and movable trundles.

8. The combination foot bath bucket of claim 1, wherein: one path of cold water input is added, the water inlet of the second electromagnetic valve (15) is connected with the cold water pipe (16), and the water outlet of the second electromagnetic valve (15) is connected with the water discharge pipe (2).

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