CN216839708U - Automatic switching shower system and bathtub - Google Patents

Abstract

The utility model discloses an automatic switch-over shower system and bathtub. In the automatic switching shower system, the water dividing structure is provided with a first water dividing path and a second water dividing path; the first water dividing channel and the second water dividing channel are respectively provided with a first control valve and a second control valve for opening and closing the water channels; the water inlet end of the tap body is communicated with the water outlet end of the first control valve; the water inlet end of the sprinkler is communicated with the water outlet end of the second control valve; the shower seat is used for fixedly inserting the bottom of the shower; the induction element is arranged on the shower seat and respectively sends a first signal and a second signal when the shower is separated or inserted into the shower seat; the controller controls the first and second control valves to close in response to the first and second signals, respectively. The bathtub adopts the automatic switching shower system. This automatic switch shower system and bathtub's simple structure, with low costs, tap body and gondola water faucet are suitable for independent control to can the automatic switch use mode, convenient to use, user use experience height.

Description

Automatic switching shower system and bathtub

Technical Field

The utility model relates to a shower system technical field, concretely relates to automatic switch-over shower system and bathtub.

Background

The shower system generally comprises a water outlet faucet and a shower head, wherein in the prior art, the water outlet faucet is provided with a main valve and a shunt valve, and the shower head is provided with a hose connector with a switch structure; when the shower head is used, when the shower head is located on the shower head seat, the switching mechanism is matched with the shower head seat to close the water inlet end of the shower head, and the water diversion valve is driven to open the water outlet of the water outlet faucet under the action of water pressure; when the shower head is taken down from the shower head seat, the switch mechanism opens the water inlet end of the shower head, the shunt valve drives the shunt valve to open the shower head to discharge water and close the water outlet tap to discharge water under the action of water pressure, so that the switching between the water outlet tap and the shower head is realized; the hose connector adopts a special structure, and has the advantages of complex structure, high cost, low universality and high replacement cost; when the shower head is used, water can be temporarily stopped only under the condition of closing the main valve, and the operation can cause the adjusted water temperature and flow of the main valve to be influenced, so that the shower head is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned defect or the problem that exist among the background art, provide an automatic switch-over shower system and bathtub, its simple structure, with low costs, leading body and gondola water faucet are suitable for independent control to can the automatic switch-over user mode, convenient to use, user use experience height.

In order to achieve the purpose, the following technical scheme is adopted:

an automatic switching shower system comprising: the water distribution structure is provided with a first water distribution channel and a second water distribution channel; the first water dividing channel and the second water dividing channel are respectively provided with a first control valve and a second control valve for opening and closing the water channels; the water inlet end of the faucet body is communicated with the water outlet end of the first control valve; the water inlet end of the shower head is communicated with the water outlet end of the second control valve; the shower head seat is suitable for being fixedly inserted at the bottom of a shower head; the inductive element is arranged on the shower head seat and is suitable for respectively sending a first signal and a second signal when the shower head is separated or inserted into the shower head seat; a controller adapted to control the first and second control valves to close in response to the first and second signals, respectively.

Further, the induction element is a magnetic induction element; the shower head is communicated with the second control valve through a first connecting pipe; the shower head comprises a shower head body, a pipe joint and a sealing gasket; the pipe joint is screwed at the bottom of the shower head body and is used for connecting the shower head body with the first connecting pipe; the sealing gasket is in sealing butt joint between the shower head body and the first connecting pipe, and a magnetic part used for acting with the magnetic induction element is arranged in the sealing gasket.

Further, the controller is further adapted to control the second control valve to open when responsive to the first signal.

Further, the controller is further adapted to control the first control valve to open when responsive to the second signal.

Further, the water inlet component is also included; the water inlet assembly comprises a water mixing module and a temperature adjusting module; the water mixing module is provided with a hot water inlet channel, a cold water inlet channel and a mixed water outlet channel; the hot water inlet channel and the cold water inlet channel are respectively used for receiving hot water and cold water; the water outlet end of the mixed water outlet waterway is communicated with the water inlet ends of the first water dividing waterway and the second water dividing waterway; the temperature adjusting module is connected with the water outlet end of the hot water inlet channel, the water outlet end of the cold water inlet channel and the water inlet end of the mixed water outlet channel, and is suitable for controlling the hot water flow input by the hot water inlet channel and the cold water flow input by the cold water inlet channel according to the instruction of the controller.

Further, the water inlet assembly further comprises a flow regulating module; the flow regulating module is suitable for receiving a controller instruction to control the water flow output by the temperature regulating module towards the mixed water outlet waterway.

Further, the device also comprises a control box; the controller is arranged in the control box; the control box is provided with a knob, a first trigger key, a second trigger key, a third trigger key and a fourth trigger key; the first trigger key is suitable for adjusting the knob to be in a temperature adjusting mode through the controller when receiving trigger, and in the temperature adjusting mode, the knob is suitable for controlling the temperature adjusting module to adjust the proportion of hot water and cold water according to a preset value through the controller when being rotated under the action of external force; the second trigger key joint is suitable for adjusting the knob into a flow adjusting mode through the controller when receiving trigger, and under the flow adjusting mode, the knob is suitable for controlling the flow adjusting module to adjust water flow through the controller according to a preset value when being rotated under the action of external force; the third trigger key is suitable for receiving trigger according to a preset mode when the second control valve is closed and controlling the first control valve to be opened or closed through the controller; the fourth trigger key is suitable for receiving trigger according to a preset mode when the first control valve is closed and controlling the second control valve to be opened or closed through the controller.

The technical scheme also provides a bathtub, which comprises a bathtub body and the automatic switching shower system; the automatic switching shower system is mounted on the side of the bathtub body.

Compared with the prior art, the scheme has the following beneficial effects:

1. in the automatic switching shower system provided by the technical scheme, a first water dividing path and a second water dividing path are respectively arranged corresponding to the water inlet ends of the faucet body and the shower head, and the first water dividing path and the second water dividing path are respectively provided with a first control valve and a second control valve which are respectively used for controlling the on-off of the water inlet ends of the faucet body and the shower head; the faucet body and the shower head only need to meet the water outlet function, the structure is not required to be excessively complex, the structure is simple, the production cost is favorably controlled, in addition, the faucet body and the shower head can be independently controlled due to the arrangement of the first control valve and the second control valve, the opening and closing of the main valve cannot be influenced, and the existing mode of the main valve is not influenced; the shower head seat is provided with an induction element, when the shower head is taken down from the shower head seat for use, the induction element loses a trigger mechanism, and at the moment, the controller automatically controls the first control valve to be closed so as to avoid water resource waste caused by water mistakenly triggered out of the shower head body in the shower head use state; when the shower head is not needed to be used and is inserted on the shower head seat, the sensing element receives triggering, at the moment, the controller automatically controls the second control valve to be closed so as to prevent the shower head from being triggered by mistake to spray water out of the bathtub, and when the shower head is used, state judgment is realized based on the plugging and unplugging actions of the shower head, and the use mode is automatically switched, so that the shower head is convenient to use and high in use experience of a user; in the technical scheme, the sensing element can be a magnetic sensing element, a pressure sensing element and other physical sensors, and the sensing mechanism is formed without improving the joint structure on the shower head, so that the joint structure has good universality, excessive mechanical loss does not exist, and frequent replacement is not needed.

2. The sensing element is a magnetic sensing element, and has good sensitivity and reliable sensing function; be equipped with in the sealed pad and be used for with the magnetic part of magnetic induction component effect, its shaping mode is comparatively simple and to the location effect and the protective effect preferred of magnetic part, can prevent that magnetic part from becoming invalid.

3. The controller is controlling the second control valve and is opening when responding to first signal, promptly, takes off when preparing to use from gondola water faucet seat when the gondola water faucet, and the automatic water outlet in order to realize the gondola water faucet is opened in the second control valve automatic control water route, and the user need not other operation, and convenience in use and experience feel all preferred.

4. The controller is controlling first control valve and is opening when responding to the second signal, promptly, need not to use and is inserted when arranging in the gondola water faucet seat as the gondola water faucet, and first control valve automatic control water route is opened in order to realize the automatic play water of leading body, and the user need not other operation, and convenience in use and experience feel all preferred.

5. A temperature adjusting module connected with the controller is arranged in the water inlet assembly and is suitable for being controlled by the controller to realize water temperature adjustment so as to meet the use requirements of users; in this technical scheme, because the subassembly of intaking sets up independently in the front end in first branch water route and second branch water route, its work is independent of first control valve and second control valve and is gone on, therefore, the control of controller to first control valve and second control valve can not influence temperature regulation module, and then guarantees can not influence the existing mode of temperature regulation module when carrying out the water route and switching.

6. Through add flow control module in the subassembly of intaking for the subassembly of intaking still possesses the function that can be by controller control regulation flow simultaneously, in order to satisfy the user demand better.

7. The control box is provided with a knob, a first trigger key, a second trigger key, a third trigger key and a fourth trigger key, and the first trigger key, the second trigger key, the third trigger key and the fourth trigger key can be press type trigger keys or touch type trigger keys; when the temperature-adjustable water heater is actually used, if temperature adjustment is needed, the first trigger key is pressed or touched, then the knob is rotated according to the set direction, and the controller receives signals and controls the temperature adjusting module to adjust the water passing areas of the hot water inlet channel and the cold water inlet channel according to the needed proportion; when the flow is required to be adjusted, the second trigger key is pressed or touched, then the knob is rotated according to the set direction, and the controller receives a signal and controls the flow adjusting module to adjust the water inlet flow of the mixed water outlet waterway according to the required proportion; if the shower head is inserted into the shower head seat, the first control valve is closed or re-opened, the third trigger key is pressed or touched in a preset mode, if the third trigger key is touched twice, a signal for closing the first control valve is sent to the controller, and if the third trigger key is touched once, a signal for opening the first control valve is sent to the controller, the controller responds to the signal and controls the first control valve to be opened or closed, so that water outlet or water outlet of the faucet body is suspended; if the shower head is separated from the shower head seat, the second control valve is closed or re-opened, the fourth trigger key is pressed or touched according to a preset mode, if the fourth trigger key is touched twice, a signal for closing the second control valve is sent to the controller, and if the fourth trigger key is touched once, a signal for opening the second control valve is sent to the controller, then the controller responds to the signals and controls the second control valve to be opened or closed, so that water outlet or water outlet of the shower head is suspended.

8. The bathtub provided by the technical scheme has the same advantages as the automatic switching shower system due to the adoption of the automatic switching shower system.

Drawings

In order to more clearly illustrate the technical solution of the embodiments, the drawings needed to be used are briefly described as follows:

FIG. 1 is a schematic perspective exploded view of a bathtub according to an embodiment of the present invention;

FIG. 2 is a perspective view of an embodiment of the bathtub of the present invention;

FIG. 3 is a schematic view of a gasket in an embodiment of the bathtub of the present invention;

FIG. 4 is a schematic sectional view of a gasket in an embodiment of the bathtub of the present invention;

FIG. 5 is a schematic structural view of a shower seat in an embodiment of the bathtub of the present invention;

FIG. 6 is a schematic structural view of a water inlet assembly in an embodiment of the bathtub of the present invention;

FIG. 7 is a schematic structural view of a control box in an embodiment of the bathtub of the present invention;

FIG. 8 is a schematic sectional view of the bathtub of the present invention when a shower is inserted into the shower base;

fig. 9 is a schematic sectional view of the embodiment of the bathtub of the present invention when the shower head is separated from the shower head seat.

Description of the main reference numerals:

a bathtub body 100; automatically switching shower system 200;

a water diversion structure 1; a second connecting pipe 11; a water diversion connector 12; a main tube 121; a first branch tube 122; a second branch pipe 123; a first control valve 13; a second control valve 14; a faucet body 2; a third connecting pipe 20; a shower head 3; a first connecting pipe 30; a stop flange 301; a shower body 31; a screw portion 311; a pipe joint 32; a stopper surface 321; a gasket 33; a magnetic member 331; a shower head seat 4; a seat hole 41; an inductive element 5; a water inlet assembly 6; a mounting box 61; a hot water inlet pipe 611; a cold water inlet pipe 612; a water mixing outlet pipe 613; a control box 7; a knob 71; a first trigger key 72; a second trigger key 73; a third trigger key 74; and a fourth toggle key 75.

Detailed Description

In the claims and specification, unless otherwise specified the terms "first", "second" or "third", etc., are used to distinguish between different items and are not used to describe a particular order.

In the claims and specification, unless otherwise specified, the terms "central," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like are used in the orientation and positional relationship indicated in the drawings and are used for ease of description only and do not imply that the referenced device or element must have a particular orientation or be constructed and operated in a particular orientation.

In the claims and the specification, unless otherwise defined, the terms "fixedly" or "fixedly connected" are to be understood in a broad sense as meaning any connection which is not in a relative rotational or translational relationship, i.e. including non-detachably fixed connection, integrally connected and fixedly connected by other means or elements.

In the claims and specification, unless otherwise defined, the terms "comprising", "having" and variations thereof mean "including but not limited to".

The technical solution in the embodiments will be clearly and completely described below with reference to the accompanying drawings.

Referring to fig. 1 to 9, fig. 1 to 9 show a bathtub of the present embodiment. As shown in fig. 1 to 9, the present embodiment provides a bathtub including a bathtub body 100 and an automatic switching shower system 200.

As shown in fig. 1 and 2, the bathtub body 100 is a conventional rectangular parallelepiped structure with a cavity therein, and a skirt is provided at a side portion thereof.

The automatic switching shower system 200 is installed at a side portion of the tub body 100, and includes a water distribution structure 1, a faucet body 2, a shower head 3, a shower head holder 4, a sensing member 5, a controller (not shown), a water inlet assembly 6, and a control box 7.

Wherein, the water diversion structure 1 is provided with a first water diversion path and a second water diversion path; the first branch water path and the second branch water path are respectively provided with a first control valve 13 and a second control valve 14 for opening and closing the water paths.

Specifically, as shown in fig. 1 and 2, the water diversion structure 1 is mounted below the top wall of the skirt of the bathtub body 100 and is arranged on one side of the bathtub body 100, which is used for facing the wall surface, and comprises a second connecting pipe 11, a water diversion connector 12, a first control valve 13 and a second control valve 14; the second connecting pipe 11 extends horizontally, one end of the second connecting pipe is communicated with the water outlet end of the water inlet assembly 6, and the other end of the second connecting pipe is communicated with the water distribution joint 12; the water diversion connector 12 comprises a main pipe 121 extending horizontally, and a first branch pipe 122 and a second branch pipe 123 both extending vertically and having bottom ends connected with the main pipe 121; one end of the main pipe 121 is communicated with the second connecting pipe 11, and the other end of the main pipe is sealed; the passages in the first branch pipe 122 and the second branch pipe 123 respectively form a first water dividing path and a second water dividing path, and the water flow received by the second connecting pipe 11 from the water inlet assembly 6 is suitable for flowing into the first water dividing path and the second water dividing path through the main pipe 121; the water inlet end of the first control valve 13 is connected to the top end of the first branch pipe 122, and the water inlet end of the second control valve 14 is connected to the top end of the second branch pipe 123, that is, the first branch water path and the second branch water path are respectively provided with the first control valve 13 and the second control valve 14.

The faucet body 2 is a conventional faucet structure for a bathtub, and is installed below the top wall of the skirt of the bathtub body 100, and the water outlet thereof faces the inner cavity of the bathtub body 100. The water inlet end of the faucet body 2 penetrates through the top wall of the bathtub body 100 and is communicated with the water outlet end of the first control valve 13 through a connecting pipe three 20, that is, the water inlet end of the faucet body 2 is communicated with the water outlet end of the first control valve 13, and is controlled by the first control valve 13 to be communicated with or closed off from the first water dividing channel.

The shower head 3 is also a conventional shower head structure, and the water inlet end of the shower head is communicated with the second control valve 14 through a first connecting pipe 30. Specifically, as shown in fig. 1 to 4, 8 and 9, the showerhead 3 includes a showerhead body 31, a pipe joint 32 and a packing 33. Wherein, the top side of the shower body 31 is provided with a water outlet, and the bottom thereof is provided with a screw part 311. The pipe joint 32 is a conventional inverted conical tubular structure for connecting the shower head body 31 and the first connecting pipe 30, and is sleeved and screwed on the screwed portion 311 of the shower head 3, and an annular limiting surface 321 is formed on the inner wall of the bottom end thereof. The first connection pipe 30 is a flexible pipe, the bottom end of which is connected to the water outlet end of the second control valve 14, and the top end of which is inserted into the pipe joint 32 and is formed with an annular limiting flange 301 for matching with the limiting surface 321 so that the top end of the first connection pipe 30 is held in the pipe joint 32. The sealing gasket 33 is an annular gasket made of an elastic material, and is disposed in the pipe joint 32 and is in sealing contact with the sprinkler body 31 and the first connection pipe 30 to realize a sealing communication relationship between the sprinkler body 31 and the first connection pipe 30. In this embodiment, the annular magnetic member 331 is disposed in the gasket 33, the magnetic member 331 is formed inside the gasket 33 in the molding process of the gasket 33, and is adapted to act on the sensing element 5, and is wrapped by the gasket 33 and isolated from the water path, so that the gasket has good stability and the magnetism is not easy to lose efficacy.

The shower head seat 4 is suitable for fixedly inserting the bottom of the shower head 3, in particular for inserting the pipe joint 32. Specifically, as shown in fig. 1, 5, 8 and 9, the shower head seat 4 penetrates through the top wall of the skirt of the bathtub body 100, the top of the shower head seat is in limit abutting contact with the top surface of the skirt, the bottom of the shower head seat is provided with a nut in threaded connection, and the shower head seat 4 is fixed on the top wall of the skirt by abutting the nut against the bottom surface of the skirt. A seat hole 41 penetrating along the vertical direction is formed in the shower head seat 4, and the seat hole 41 is a circular hole with an inverted cone shape, and can be used for the first connecting pipe 30 to pass through and also suitable for the pipe joint 32 to be fixedly inserted.

The sensing element 5 is fixed on the outer wall of the bottom of the shower head seat 4 through screws and is suitable for respectively sending a first signal and a second signal when the shower head 3 is separated or inserted into the shower head seat 4. The sensing element 5 can be, but is not limited to, a magnetic sensing element 5 and a pressure sensing element 5, and in the embodiment, the sensing element 5 is a magnetic sensing element 5 adapted to interact with the magnetic member 331. Since the sensing mechanism between the sensing element 5 and the magnetic member 331 is formed without modifying the structure of the pipe joint 32, the pipe joint 32 of the shower head 3 has good versatility, and does not have excessive mechanical loss, so that frequent replacement is not required, which is beneficial to reducing maintenance cost.

The controller is suitable for respectively controlling the first control valve 13 and the second control valve 14 to close when responding to the first signal and the second signal, in particular, when the shower head 3 is taken off from the shower head seat 4 for use, the induction element 5 loses a triggering mechanism, and at the moment, the controller automatically controls the first control valve 13 to close so as to avoid water resource waste caused by water mistakenly triggering the faucet body 2 to discharge water in the using state of the shower head 3; when the shower head 3 is not needed to be used and is inserted into the shower head seat 4, the sensing element 5 receives triggering, at the moment, the controller automatically controls the second control valve 14 to be closed so as to prevent the shower head 3 from being triggered by mistake to spray water out of the bathtub, during use, state judgment is realized based on the plugging and unplugging actions of the shower head 3, and the use modes are automatically switched, so that the use is convenient, and the use experience of a user is high.

Preferably, in this embodiment, the controller is further adapted to control the second control valve 14 to open when responding to the first signal, that is, when the shower head 3 is taken off from the shower head seat 4 and is ready for use, the second control valve 14 automatically controls the water path to open to realize automatic water outlet of the shower head 3, the user does not need to perform additional operations, and the convenience and experience are both better. In addition, the controller is further adapted to control the first control valve 13 to open when responding to the second signal, that is, when the shower head 3 is not needed to be used and is inserted on the shower head seat 4, the first control valve 13 automatically controls the waterway to open so as to realize automatic water outlet of the faucet body 2, the user does not need to additionally operate, and the use convenience and the experience feeling are both better.

The water inlet assembly 6 includes a mounting box 61, a water mixing module (not shown), a temperature adjusting module (not shown), and a flow adjusting module (not shown). The mounting box 61 is located below the top wall of the skirt and is suitable for being fixed with the bathtub body 100 or the wall surface, the outer wall of the mounting box 61 is provided with a hot water inlet pipe 611, a cold water inlet pipe 612 and a mixed water outlet pipe 613, wherein the hot water inlet pipe 611 and the cold water inlet pipe 612 are respectively used for being communicated with a hot water bent foot or a cold water bent foot on the wall surface; the mixed water outlet pipe 613 is connected to the second connecting pipe 11. The water mixing module, the temperature adjusting module and the flow adjusting module are all installed in the installation box 61, and the water mixing module is provided with a hot water inlet channel, a cold water inlet channel and a mixed water outlet channel; the hot water inlet path and the cold water inlet path are respectively used for accessing hot water and cold water, and specifically, the hot water inlet path and the cold water inlet path are respectively communicated with the hot water inlet pipe 611 and the cold water inlet pipe 612; the water outlet end of the mixed water outlet channel is communicated with the water inlet ends of the first branched channel and the second branched channel, specifically, the mixed water outlet channel is communicated with the mixed water outlet pipe 613, and the mixed water outlet channel is communicated with the first branched channel and the second branched channel through the mixed water outlet pipe 613, the second connecting pipe 11 and the main pipe 121; the temperature adjusting module is connected with the water outlet end of the hot water inlet path, the water outlet end of the cold water inlet path and the water inlet end of the mixed water outlet path, and is suitable for controlling the hot water flow input by the hot water inlet path and the cold water flow input by the cold water inlet path according to the instruction of the controller; the flow adjusting module is suitable for receiving a controller instruction to control the water flow output by the temperature adjusting module towards the mixed water outlet waterway. It should be noted that the temperature adjusting module and the flow adjusting module are respectively a temperature control valve and a flow adjusting valve commonly used in a shower device, and those skilled in the art can understand that corresponding implementation manners thereof may also be known, and therefore, the structure thereof is not described herein in detail.

In the embodiment, the temperature adjusting module connected with the controller is arranged in the water inlet assembly 6, and the temperature adjusting module can be controlled by the controller to adjust the water temperature, so that the use requirements of users can be better met; and because the water inlet assembly 6 is independently arranged at the front ends of the first water dividing channel and the second water dividing channel, and the work of the water inlet assembly is independent of the first control valve 13 and the second control valve 14, the temperature adjusting module cannot be influenced by the control of the controller on the first control valve 13 and the second control valve 14, and the existing mode of the temperature adjusting module cannot be influenced when the water channels are switched. In addition, through add flow control module in subassembly 6 of intaking for subassembly 6 of intaking still possesses the function that can be by controller control regulation flow simultaneously, in order to satisfy the user demand better.

The control box 7 is mounted on the top wall of the skirt of the bathtub body 100, and a cavity is arranged in the control box for mounting the controller. The top surface of the control box 7 is electrically connected to the controller, and the knob 71, the first trigger key 72, the second trigger key 73, the third trigger key 74 and the fourth trigger key 75 may be a pressing type trigger key or a touch type trigger key, and in this embodiment, are specifically pressing type trigger keys. The knob 71 is disposed in the middle of the top surface of the control box 7, and specifically, a hall element may be used to realize signal connection with the controller. A first trigger key 72, a second trigger key 73, a third trigger key 74, and a fourth trigger key 75 are provided along the outer periphery of the knob 71. The first trigger key 72 is suitable for adjusting the knob 71 to be in a temperature adjusting mode through the controller when receiving trigger, and in the temperature adjusting mode, when the knob 71 rotates under the action of external force, the first trigger key is suitable for controlling the temperature adjusting module to adjust the proportion of hot water and cold water through the controller according to a preset value; the second trigger key 73 is connected with a controller and is suitable for adjusting the knob 71 into a flow adjusting mode when receiving trigger, and in the flow adjusting mode, the knob 71 is suitable for controlling the flow adjusting module to adjust water flow according to a preset value by the controller when being rotated under the action of external force; the third trigger key 74 is suitable for receiving triggering according to a preset mode when the second control valve 14 is closed and controlling the first control valve 13 to be opened or closed through the controller; the fourth trigger key 75 is adapted to receive triggering in a preset manner when the first control valve 13 is closed and to control the second control valve 14 to open or close by the controller.

When the temperature-adjustable water heater is actually used, if the temperature is adjusted as required, the first trigger key 72 is pressed or touched, then the knob 71 is rotated according to the set direction, and the controller receives signals and controls the temperature adjusting module to adjust the water passing areas of the hot water inlet channel and the cold water inlet channel according to the required proportion; when the flow is required to be adjusted, the second trigger key 73 is pressed or touched, then the knob 71 is rotated according to the set direction, and the controller receives a signal and controls the flow adjusting module to adjust the water inlet flow of the mixed water outlet waterway according to the required proportion; if the shower head 3 is inserted into the shower head seat 4, the first control valve 13 is closed or re-opened, the third trigger key 74 is pressed or touched in a preset mode, if the third trigger key 74 is touched twice, a signal for closing the first control valve 13 is sent to the controller, and if the third trigger key 74 is touched once, a signal for opening the first control valve 13 is sent to the controller, and then the controller responds to the signals and controls the first control valve 13 to be opened or closed, so that water outlet is suspended or discharged from the faucet body 2; if the shower head 3 is separated from the shower head seat 4, the second control valve 14 is closed or opened again, the fourth trigger key 75 is pressed or touched in a preset manner, if the fourth trigger key 75 is touched twice, a signal for closing the second control valve 14 is sent to the controller, and if the fourth trigger key 75 is touched once, a signal for opening the second control valve 14 is sent to the controller, and then the controller responds to the signals and controls the second control valve 14 to be opened or closed, so that the shower head 3 is suspended to discharge water or discharge water. It should be noted that, since the signal sensing mechanisms between the knob 71, the first triggering key 72, the second triggering key 73, the third triggering key 74, and the fourth triggering key 75 and the controller are not the innovative points of the present embodiment, and those skilled in the art can understand and know the corresponding implementation manners, the detailed description thereof is omitted here.

The usage principle of the automatic bathtub switching shower system 200 provided in this embodiment is as follows:

the shower head 3 is kept in a state of being inserted in the shower head seat 4, the first trigger key 72 is pressed to enable the knob 71 to be adjusted to be in a temperature adjusting mode, then the knob 71 is rotated to a specific position, so that the temperature adjusting module is controlled by the controller to adjust the proportion of hot water and cold water respectively flowing in the hot water inlet channel and the cold water inlet channel according to a preset value, and the outlet water temperature of the water inlet assembly 6 is determined; pressing the second trigger key 73 to adjust the knob 71 to a flow adjusting mode, and then rotating the knob 71 to a specific position to adjust the water outlet flow according to a preset value by the controller controlling the flow adjusting module, so as to determine the water outlet flow of the water inlet assembly 6; at this time, since the shower head 3 is inserted into the shower head seat 4, the controller responds to the second signal, and controls the second control valve 14 to close, and also controls the first control valve 13 to open, so that the faucet body 2 injects water into the bathtub body 100, and the shower head 3 does not discharge water, at this time, if it is necessary to suspend discharging water from the faucet body 2, the third trigger key 74 is pressed once to send a signal to the controller to close the first control valve 13, and the controller controls the first control valve 13 to close, and then, if it is necessary to reopen the faucet body 2 to discharge water, the third trigger key 74 is pressed twice to send a signal to the controller to open the first control valve 13, and the controller controls the first control valve 13 to open, so that water is continuously discharged from the faucet body 2. When the shower head 3 needs to be used, the shower head 3 is taken down from the shower head seat 4, at this time, the controller responds to the first signal, the first control valve 13 is controlled to be closed, and the second control valve 14 is also controlled to be opened, so that the shower head 3 discharges water, and the faucet body 2 does not discharge water any more, at this time, if the water discharge of the shower head 3 needs to be suspended, the fourth trigger key 75 is pressed once to send a signal for closing the second control valve 14 to the controller, and the controller controls the second control valve 14 to be closed, and then, if the shower head 3 discharges water needs to be re-opened, the fourth trigger key 75 is pressed twice to send a signal for opening the second control valve 14 to the controller, and the controller controls the second control valve 14 to be opened, so that the continuous water discharge of the shower head 3 can be realized.

In the bathtub provided by the application, a first water dividing channel and a second water dividing channel are respectively arranged at the water inlet ends corresponding to the faucet body 2 and the shower head 3, and a first control valve 13 and a second control valve 14 are respectively arranged on the first water dividing channel and the second water dividing channel to respectively control the on-off of the water inlet ends of the faucet body 2 and the shower head 3; tap body 2 and gondola water faucet 3 only need satisfy go out the water function can, its inside need not to set up too complicated structure, simple structure is favorable to controlling manufacturing cost, in addition, the setting of first control valve 13 and second control valve 14 still makes tap body 2 and gondola water faucet 3 can be by independent control to can not influence opening and close of main valve, guarantee that the existing mode of main valve is not influenced.

The above description of the specification and examples is intended to illustrate the scope of the invention, but should not be construed as limiting the scope of the invention.

Claims (8)

1. An automatic switching shower system, comprising:

the water distribution structure is provided with a first water distribution channel and a second water distribution channel; the first water dividing channel and the second water dividing channel are respectively provided with a first control valve and a second control valve for opening and closing the water channels;

the water inlet end of the faucet body is communicated with the water outlet end of the first control valve;

the water inlet end of the shower head is communicated with the water outlet end of the second control valve;

the shower head seat is suitable for being fixedly inserted at the bottom of a shower head;

the inductive element is arranged on the shower head seat and is suitable for respectively sending a first signal and a second signal when the shower head is separated or inserted into the shower head seat;

a controller adapted to control the first and second control valves to close in response to the first and second signals, respectively.

2. The automatic switching shower system of claim 1 wherein said inductive element is a magnetic inductive element;

the shower head is communicated with the second control valve through a first connecting pipe; the shower head comprises a shower head body, a pipe joint and a sealing gasket; the pipe joint is screwed at the bottom of the shower head body and is used for connecting the shower head body with the first connecting pipe; the sealing gasket is in sealing butt joint between the shower head body and the first connecting pipe, and a magnetic part used for acting with the magnetic induction element is arranged in the sealing gasket.

3. An automatic switching shower system as claimed in claim 1 wherein said controller is further adapted to control said second control valve to open when responsive to said first signal.

4. An automatically switching shower system as claimed in claim 3 wherein said controller is further adapted to control said first control valve to open in response to said second signal.

5. The automatic switching shower system of claim 1 further comprising a water intake assembly;

the water inlet assembly comprises a water mixing module and a temperature adjusting module; the water mixing module is provided with a hot water inlet channel, a cold water inlet channel and a mixed water outlet channel; the hot water inlet channel and the cold water inlet channel are respectively used for receiving hot water and cold water; the water outlet end of the mixed water outlet waterway is communicated with the water inlet ends of the first water dividing waterway and the second water dividing waterway; the temperature adjusting module is connected with the water outlet end of the hot water inlet channel, the water outlet end of the cold water inlet channel and the water inlet end of the mixed water outlet channel, and is suitable for controlling the hot water flow input by the hot water inlet channel and the cold water flow input by the cold water inlet channel according to the instruction of the controller.

6. The automatic switching shower system of claim 5 wherein said water intake assembly further comprises a flow regulating module; the flow regulating module is suitable for receiving a controller instruction to control the water flow output by the temperature regulating module towards the mixed water outlet waterway.

7. The automatic switching shower system of claim 6 further comprising a control box;

the controller is arranged in the control box;

the control box is provided with a knob, a first trigger key, a second trigger key, a third trigger key and a fourth trigger key; the first trigger key is suitable for adjusting the knob to be in a temperature adjusting mode through the controller when receiving trigger, and in the temperature adjusting mode, the knob is suitable for controlling the temperature adjusting module to adjust the proportion of hot water and cold water according to a preset value through the controller when being rotated under the action of external force; the second trigger key joint is suitable for adjusting the knob into a flow adjusting mode through the controller when receiving trigger, and under the flow adjusting mode, the knob is suitable for controlling the flow adjusting module to adjust water flow through the controller according to a preset value when being rotated under the action of external force; the third trigger key is suitable for receiving trigger according to a preset mode when the second control valve is closed and controlling the first control valve to be opened or closed through the controller; the fourth trigger key is suitable for receiving trigger according to a preset mode when the first control valve is closed and controlling the second control valve to be opened or closed through the controller.

8. A bath comprising a bath body and an automatically switchable shower system as claimed in any one of claims 1 to 7; the automatic switching shower system is mounted on the side of the bathtub body.

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