CN213206659U - Induction tap - Google Patents

Abstract

The application discloses response tap, it is including the leading body that is equipped with first water outlet end and second water outlet end, the first sensor of front response, the second sensor of side response, open and close the first solenoid valve of first water outlet end, open and close the second solenoid valve of first water outlet end and the controller that the signal through first sensor and second sensor controlled first solenoid valve and second solenoid valve respectively and opened and close. By adopting the technical scheme, the water outlet in two modes can be controlled through two induction modes.

Description

Induction tap

Technical Field

The application relates to the field of water outlet devices, in particular to an induction faucet.

Background

The induction tap can avoid people from contacting the tap so as to prevent cross infection. In the prior art, the induction faucet can only discharge water when sensing that a hand stretches out in front, cannot interact with a user in other induction modes, and cannot select two water discharge modes to discharge water through induction.

SUMMERY OF THE UTILITY MODEL

The present application is directed to overcoming the above-mentioned drawbacks or problems of the related art and providing an induction faucet having two induction modes and discharging water through the two water discharge modes by induction.

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

an induction faucet, comprising: the faucet body is provided with a first water outlet end and a second water outlet end; the first sensor is arranged on the front surface of the faucet body and sends a first signal when sensing that the front surface of an object is close to the faucet body; the second sensor is arranged on the side surface of the faucet body and sends a third signal when the side surface of the second sensor is sensed to be close to the faucet body; the first electromagnetic valve opens and closes the water outlet of the first water outlet end; the second electromagnetic valve opens and closes the water outlet of the second water outlet end; the controller controls the first electromagnetic valve to open the first water outlet end to discharge water when receiving the first signal; and when receiving the second signal, the second electromagnetic valve is controlled to open the second water outlet end to discharge water, and in the process, the first electromagnetic valve is kept closed even if the first signal is received.

Further, the first sensor also sends a third signal when sensing that an object is away from the faucet body; and the controller controls the first electromagnetic valve to close the first water outlet end to discharge water when receiving the third signal.

Furthermore, the controller controls the second electromagnetic valve to close the second water outlet end to discharge water after controlling the second electromagnetic valve to open the second water outlet end to discharge water after the first period.

Further, the first sensor is arranged in front of the first water outlet end and faces to the front lower part of the faucet body.

Further, the first sensor and the second sensor are both distance sensors, when the distance between the detected blocking object and the second sensor is smaller than a threshold value, the object is judged to be close to the faucet body, and when the distance between the detected blocking object and the second sensor is larger than the threshold value, the object is judged to be far away from the faucet body.

Further, the first sensor and the second sensor are both infrared sensors.

The controller controls the LED lamps to be sequentially lightened from the first side to the second side when controlling the first electromagnetic valve to open the first water outlet end and discharge water, and controls the LED lamps to be sequentially lightened from the second side to the first side when controlling the first electromagnetic valve to close the first water outlet end and discharge water; the controller controls the LED lamps to be sequentially lightened from the middle to two sides when the second electromagnetic valve is controlled to open the second water outlet end to discharge water, and controls the LED lamps to be sequentially lightened from two sides to the middle when the second electromagnetic valve is controlled to close the second water outlet end to discharge water.

Furthermore, the water-saving valve also comprises a cold water inlet pipe, a hot water inlet pipe, a valve body, a water passing pipe, a first water outlet pipe and a second water outlet pipe; the valve body is arranged in the faucet body and used for controlling the mixing ratio of cold water and hot water, the water inlet end of the valve body is respectively communicated with the cold water inlet pipe and the hot water inlet pipe, and the water outlet end of the valve body is communicated with the water passing pipe; the water inlet end of the first electromagnetic valve is communicated with the water pipe, and the water outlet end of the first electromagnetic valve is communicated with the first water outlet pipe; the water inlet end of the second electromagnetic valve is communicated with the water pipe, and the water outlet end of the second electromagnetic valve is communicated with the second water outlet pipe; the first water outlet pipe and the second water outlet pipe are respectively communicated with the first water outlet end and the second water outlet end.

Furthermore, the first water outlet end is provided with a shower nozzle for outputting shower water; and the second water outlet end is provided with a bubbler for outputting bubbling water.

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

in the application, the controller controls the first electromagnetic valve to open the first water outlet end to discharge water when receiving the first signal, and controls the second electromagnetic valve to open the second water outlet end to discharge water when receiving the second signal, so that water discharge in two modes can be realized through two induction modes.

The first sensor sends the third signal when sensing that the object is openly kept away from the tap body, and the controller controls the first solenoid valve to close first water outlet end and go out water when receiving the third signal, can realize like this that the hand advances water, and the hand is from stopping water, is favorable to the water conservation.

The controller controls the second electromagnetic valve to open the second water outlet end and close the second water outlet end after the first period. Therefore, the user can be prevented from reaching the side surface of the faucet body again to control water closing, and convenience is brought to the user.

The first sensor is arranged in front of the first water outlet end and can keep consistent with the water outlet direction of the first water outlet end, so that a user can stretch hands to the first water outlet end to enable the first water outlet end to discharge water.

Set up first sensor and second sensor as distance sensor, be favorable to the accurate distance of measuring object to tap body to decide to lead to water better.

The first sensor and the second sensor are set to be infrared sensors, so that the price is low and the cost is low.

The LED lamp interacts with a user, so that the user can more clearly determine the current state.

By introducing a valve body, the user can adjust the ratio of hot and cold water.

The first water outlet end is provided with the shower nozzle, so that a user can receive water in a larger area, and the hand washing time is faster. The second water outlet end is provided with foaming water, so that sputtering when the water yield is high can be avoided.

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 perspective view of an example first induction faucet;

FIG. 2 is an exploded view of a portion of an induction tap in accordance with one embodiment;

FIG. 3 is an exploded view of the upper housing, the water outlet body and the sensing control unit according to the first embodiment;

FIG. 4 is a cross-sectional view of an electronic control module according to one embodiment;

FIG. 5 is a perspective view of an electronic control module according to a second embodiment;

FIG. 6 is a schematic view of an embodiment of an induction tap mounted to a counter basin;

FIG. 7 is a schematic diagram illustrating a side sensing state of an induction faucet according to an embodiment;

FIG. 8 is a schematic diagram illustrating a front sensing state of an induction faucet according to an embodiment.

Description of the main reference numerals:

an induction tap 10; a faucet body 1; the upper shell 11, the upper shell 111, the connecting wall 1111, the handle hole 1112, the rotary groove 1113, the second sensor hole 1114, the water outlet hole 1115 and the first sensor hole 1116; a top cover 112; a lower case 12, a base 121, a lower case 122; a connecting pipe 13; a nut 14; a gasket 15; a valve body 2; a handle 3; a cold water inlet pipe 41; a hot water inlet pipe 42; a water pipe 5; an electronic control module 6; the water supply device comprises a first electromagnetic valve 61, a second electromagnetic valve 62, an electronic control box 63, a first chamber 631, a second chamber 632, a power supply 64, a water passing connector 65, a first water outlet connector 66, a second water outlet connector 67, a tee joint 68 and a power supply signal line 69; a first water outlet pipe 71; a second outlet pipe 72; a water outlet body 8; a first outlet end 81, a second outlet end 82; an induction control unit 9; a first sensor 91, a second sensor 92; and a controller 93.

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 "front" and "rear" are relative to a wall, "front" meaning further from the wall and "rear" meaning closer to the wall.

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.

Example one

Referring to fig. 1-4, fig. 1-4 illustrate an induction tap 10 according to a first embodiment. As shown in the figures, the sensing faucet 10 in the first embodiment includes a faucet body 1, a valve body 2, a handle 3, a cold water inlet pipe 41, a hot water inlet pipe 42, a water pipe 5, an electronic control module 6, a first water outlet pipe 71, a second water outlet pipe 72 and a sensing control unit 9.

The faucet body 1 comprises an upper shell 11, a water outlet body 8, a lower shell 12, a connecting pipe 13, a nut 14 and a gasket 15. The upper case 11 includes an upper shell 111 and a top cover 112. The upper shell 111 is L-shaped, a first portion of the upper shell is located at the rear and is vertically arranged, a second portion of the upper shell is located at the front and is formed by extending forwards from the upper end of the first portion, and the upper surface of the upper shell 111 is open. The bottom of the first part is provided with a connecting wall 1111, and the connecting wall 1111 is provided with a handle hole 1112, four screw holes and a pipe passing hole for the first water outlet pipe 71 and the second water outlet pipe 72 to penetrate through; the side wall of the first part close to the handle hole 1112 is provided with a rotary groove 1113, and the rotary groove 1113 is communicated with the handle hole 1112; a second sensor hole 1114 is also formed in the side wall of the first portion away from the handle hole 1112; the front of the second part is provided with a downward outlet hole 1115, and a first sensor hole 1116 facing the front lower part of the faucet body 1 is arranged in front of the outlet hole 1115. The upper surface of the upper shell 111 is further provided with a plurality of slots (not shown). The top cover 112 is made of a light-transmitting material, specifically, a frosted transparent organic glass material. The lower surface of the top cover 112 is provided with a downward buckle for realizing clamping with a clamping groove on the upper shell 111, and a sealing ring is arranged at the periphery of the clamping structure so as to enable the top cover 112 to be connected with the upper shell 111 in a sealing manner. After the clamping is completed, the top cover 112 is fastened on the upper shell 111 to form an inner cavity of the upper shell 11 for the water outlet body 8 to be placed in. The water outlet body 8 is fixedly connected to the lower shell 111, and the front end of the water outlet body is provided with a first water outlet end 81 and a second water outlet end 82, wherein the first water outlet end 81 is provided with a shower nozzle which extends out of the water outlet hole 1115 to output shower water; the second outlet end 82 is provided with a bubbler and is located coaxially within the first outlet end 81. The rear end of the water outlet body 8 is connected with a first water outlet pipe 71 and a second water outlet pipe 72, wherein the first water outlet pipe 71 is communicated with a first water outlet end 81, and the second water outlet pipe 72 is communicated with a second water outlet end 82. The lower case 12 includes a base 121 and a lower case 122. The base 121 is provided with a base hole, and the base hole is provided with an internal thread. The lower shell 122 is substantially annular and is fastened to the base 121. After the fastening is completed, the lower housing 12 is formed, and a portion of the outer surface of the base 121 is exposed below the lower housing 122. The upper casing 111 and the base 121 are connected by a screw, and the lower casing 122 is interposed therebetween, specifically, the screw penetrates through a screw hole of the connection wall 1111 of the upper casing 111 and the screw of the lower casing 122 and the base 121, so as to lock the upper casing 11 and the lower casing 12 together. The outer surface of the upper end of the connecting pipe 13 is provided with external threads which are matched with the internal threads of the base hole, so that the connecting pipe 13 is in threaded connection with the base 121. The lower end of the connecting pipe 13 penetrates through the table top of the counter basin, the outer surface of the connecting pipe is also provided with external threads to be in threaded connection with the nut 14, and the gasket 15 is arranged between the lower surface of the table top and the nut 14. By tightening the nut 14, the faucet body 1 is fixed to the counter basin.

The valve body 2 is a water mixing valve and is fixedly connected with the base 121 and arranged in the lower shell 12, the water inlet ends of the valve body are respectively communicated with the cold water inlet pipe 41 and the hot water inlet pipe 42, and the water outlet end of the valve body is connected with the water pipe 5 and is used for controlling the mixing ratio of cold water and hot water. The valve body 2 is a rotary valve, and the rotating shaft is vertical to the table surface of the counter basin. The cold water inlet pipe 41, the hot water inlet pipe 42 and the water pipe 5 extend into the lower shell 12 through the inner hole of the connecting pipe 13 and are connected with the water inlet end and the water outlet end at the bottom of the valve body 2. The other end of the cold water inlet pipe 41 is externally connected with a cold water source, the other end of the hot water inlet pipe 42 is externally connected with a hot water source, and the other end of the water pipe 5 is connected to the electronic control module 6, which will be described in detail below. The first outlet pipe 81 and the second outlet pipe 82 penetrate through the through hole on the connecting wall 1111, the lower shell 122, the base hole on the base 121 and the inner hole of the connecting pipe 14, and are connected to the electronic control module 6, which will be described in detail below.

The handle 3 is provided with a handle body integrally connected to each other and a handle extension portion radially extending from the handle body, the handle body is disposed in the first portion of the upper case 111 and is rotatably stopped by the driving end of the valve body 2 through a handle hole 1112, and the handle extension portion is protruded out of the rotary groove 1113 to rotate about an axis perpendicular to the table surface and drive the valve body 2 to change the mixing ratio of hot and cold water.

The electric control module 6 comprises an electric control box 63, a first electromagnetic valve 61, a second electromagnetic valve 62, a power supply 64, a water passing joint 65, a first water outlet joint 66, a second water outlet joint 67, a tee joint 68, two plastic pipes and a power supply signal wire 69. The electric control box 63 is provided with a first chamber 631, a second chamber 632 and a connecting lug 633 positioned on the outer wall, and a through hole for passing a power supply line is arranged between the first chamber 631 and the second chamber 632; the first chamber 631 has the power supply 64 clamped therein; the second chamber 632 is used for fixedly connecting the first solenoid valve 61 and the second solenoid valve 62; the attachment ears 633 allow screws to pass through to attach the electrical control box 63 to a wall surface. In this embodiment, the power supply 64 is a battery, specifically a rechargeable battery, to supply power to the first solenoid valve 61, the second solenoid valve 62 and the sensing control unit 9. The water passing joint 65 is fixedly connected with the electric control box 63 and penetrates through the lower surface of the second chamber 632, one end of the water passing joint is connected with the water passing pipe 5, and the other end of the water passing joint is connected with the tee joint 68. The tee joint 68 is a plastic pipe, and the other two ends of the tee joint are respectively connected with the first electromagnetic valve 61 and the second electromagnetic valve 62. The first water outlet joint 66 is fixedly connected with the electric control box 63 and penetrates through the upper surface of the second cavity 632, one end of the first water outlet joint is connected with the first electromagnetic valve 61 through a plastic pipe, and the other end of the first water outlet joint is connected with the first water outlet pipe 71; the second water outlet joint 67 is fixedly connected with the electric control box 63, penetrates through the upper surface of the second cavity 632, one end of the second water outlet joint is connected with the second electromagnetic valve 62 through another plastic pipe, and the other end of the second water outlet joint is connected with the second water outlet pipe 72. The power signal line 69 is electrically connected to the power supply 64, the first solenoid valve 61 and the second solenoid valve 62 in the electronic control box 63, penetrates through the lower surface of the second chamber 632 of the electronic control box 63, and extends into the inner cavity of the upper housing 11 through the inner hole of the connecting pipe 14, the base hole of the base 121, the lower housing 122 and the through-pipe hole of the connecting wall 1111 to be electrically connected to the sensing control unit 9.

The sensing control unit 9 includes a first sensor 91, a second sensor 92, a controller 93, and five LED lamps. The first sensor 91 is installed at the first sensor hole 1116 of the upper case 111 to face the front lower side of the faucet body 1, and employs a laser distance sensor, and determines that an object is close to the faucet body 1 and transmits a first signal to the controller 93 when the distance between the detected obstacle and the sensor is less than a threshold value, and determines that the object is far from the faucet body 1 and transmits a third signal to the controller 93 when the distance between the detected obstacle and the sensor becomes greater than the threshold value. The second sensor 92 is installed at the second sensor hole 1114 of the upper case 111 to face the side of the faucet body, and also employs a laser distance sensor, and determines that an object approaches the faucet body 1 and transmits a second signal to the controller 93 when the distance between the detected obstacle and the sensor is less than a threshold value. Five LED lights are provided behind the upper surface of the induction control module 9 and face the top cover 112, which are viewed through the top cover 112 when illuminated. Five LED lamps are arranged in a straight line from left to right. The controller 93 is electrically connected to the first sensor 91, the second sensor 92, and the five LED lamps, and is connected to the power signal line 69. When receiving the first signal, the controller 93 controls the first electromagnetic valve 61 to open so that the first water outlet end 81 discharges water, and simultaneously controls the five LED lamps to be sequentially turned on twice from left to right. When receiving the third signal, the controller 93 controls the first electromagnetic valve 61 to close, so that the first water outlet end 81 stops water, and simultaneously controls the five LED lamps to light up twice from right to left. The controller 93 controls the second electromagnetic valve 62 to open when receiving the second signal so as to enable the second water outlet end 82 to discharge water, and in the process, even if the first signal is received, the first electromagnetic valve 61 is kept closed, and meanwhile, the five LED lamps are controlled to be sequentially lightened from the middle to the two sides twice, after the controller 93 controls the second electromagnetic valve 62 to open, the second electromagnetic valve 62 is controlled to close during the first period so as to enable the second water outlet end 82 to stop discharging water, and meanwhile, the five LED lamps are controlled to be sequentially lightened from the two sides to the middle twice. In this embodiment, the first period is 180 seconds.

Fig. 6 to 8 show a state that the induction tap 10 of the first embodiment is mounted on a counter basin and a use state. As shown in the drawings, when the induction tap 10 is installed in a counter basin, the first sensor 91 senses the approaching or departing of an object toward the front lower side of the tap body 1, and the second sensor 92 senses the approaching of an object toward the side of the tap body 1. When a hand extends into the sensing range of the first sensor 91, the first sensor 91 sends a first signal, the controller 93 controls the first electromagnetic valve 61 to be opened to enable the first water outlet end 81 to spray shower water until the hand is far away from the sensing range of the first sensor 91, the first sensor 91 sends a third signal, and the controller 93 controls the first electromagnetic valve 61 to be closed to enable the first water outlet end 81 to stop water outlet. When a hand extends into the sensing range of the second sensor 92 from the side, the second sensor 92 sends a second signal, the controller 93 controls the second electromagnetic valve 62 to open the second water outlet end 82 to spray bubble water, but the first electromagnetic valve 61 is kept closed even if the first signal is received in the process, and the controller 93 controls the second electromagnetic valve 62 to close the second water outlet end 82 to stop water outlet until 180 seconds later.

As can be seen from the above description, in the first embodiment, the water outlet body 8 is disposed in the upper casing 11, the valve body 2 is disposed in the lower casing 12, and the upper casing 11 is fastened to the lower casing 12, so that at least three components (the upper casing 11, the lower casing 12, and the handle 3) are exposed on the counter basin, and the three components can be selected from various materials and/or colors for matching with consumers. The upper housing 11 includes an upper housing 111 and a top cover 112 for engaging the upper housing 111, and the upper housing 11 is divided into two parts, which is more advantageous for matching. The lower casing 12 comprises a base 121 and a lower casing 122 buckled on the base 121, and the lower casing 12 is divided into two parts, which is more beneficial to matching. The top cover 112 and the upper shell 111 are connected in a sealing mode through the sealing rings and buckled through the clamping structure in the sealing rings, so that the assembly between the top cover and the upper shell is easier, water stains can be prevented from being immersed in the upper shell 11, and the outer surface of the water outlet body 8 is mildewed. The top cover 112 is made of a light-transmitting material, which facilitates installation of a light-emitting material such as an LED lamp in the upper housing 11. The upper casing 11 and the lower casing 12 are conveniently fixed together by screw coupling the upper casing 111 with the base 121 and sandwiching the lower casing 122 therebetween. The induction tap 10 in the first embodiment can realize two water outlet modes through two induction modes. The controller enables the first water outlet end 81 to stop water when the hands leave, water saving is facilitated, water is stopped after the second water outlet end 82 is controlled to discharge water in the first period, the situation that the user stretches the hands to the side face of the faucet body again can be avoided, and convenience is brought to the user. The first sensor 91 is disposed in front of the first water outlet end 81, so that the user can discharge water when reaching the first water outlet end 81. Providing the first and second sensors 91 and 92 as distance sensors facilitates accurate measurement of the distance of an object to the faucet body 1, thereby better determining the passing of water. The LED lamp interacts with a user, so that the user can know the current state more clearly. The present embodiment allows the user to adjust the ratio of hot and cold water by introducing the valve body 2. The first water outlet 81 is provided with a shower nozzle, which is beneficial for users to receive water in a larger area, and the hand washing time is faster. The second water outlet end 82 is provided with foaming water, so that sputtering when the water outlet amount is large can be avoided. With electric control module 6 and 1 components of a whole that can function independently setting of tap to introduce power 64 and first solenoid valve 61 and second solenoid valve 62 in electric control module 6, be favorable to avoiding the electric leakage and having the space to set up two solenoid valves 61 and 62 when realizing that the water route is automatically controlled, implement control to two water routes. The separation of the first chamber 631 from the second chamber 632 facilitates the installation of the power supply 64 and the two solenoid valves 61 and 62, respectively. The power supply 64 is jammed in the first chamber 631, facilitating removal of the charge from the first chamber 631.

Example two

Referring to fig. 5, the second embodiment is different from the first embodiment in the following three points, and the rest parts are the same:

in the first embodiment, the power supply 64 is a plug through which a socket can be directly connected.

Secondly, the first sensor 91 and the second sensor 92 both adopt infrared sensors, the first sensor 91 sends a first signal when the front of a human body or part of the human body approaches the faucet body 1, and sends a third signal when the human body or part of the human body is far away from the faucet body 1; the second sensor 92 sends a second signal when a partial side of a human body approaches the faucet body 1. The function is the same as in the first embodiment.

Third, the controller 93 also has the following functions: when the controller 93 controls the first electromagnetic valve 61 to be opened, the second signal is received, and the first electromagnetic valve 61 is also controlled to be closed when the second electromagnetic valve 62 is controlled to be opened. This also contributes to water conservation.

Other technical effects of the second embodiment are the same as those of the first embodiment, and are not described herein again.

The description of the above specification and examples is intended to be illustrative of the scope of the present application and is not intended to be limiting.

The description of the above specification and examples is intended to be illustrative of the scope of the present application and is not intended to be limiting.

Claims (9)

1. An induction faucet, comprising:

the faucet body is provided with a first water outlet end and a second water outlet end;

the first sensor is arranged on the front surface of the faucet body and sends a first signal when sensing that the front surface of an object is close to the faucet body;

the second sensor is arranged on the side surface of the faucet body and sends a third signal when the side surface of the second sensor is sensed to be close to the faucet body;

the first electromagnetic valve opens and closes the water outlet of the first water outlet end;

the second electromagnetic valve opens and closes the water outlet of the second water outlet end; and

the controller controls the first electromagnetic valve to open the first water outlet end to discharge water when receiving the first signal; and when receiving the second signal, the second electromagnetic valve is controlled to open the second water outlet end to discharge water, and in the process, the first electromagnetic valve is kept closed even if the first signal is received.

2. The induction faucet of claim 1, further comprising: the first sensor also sends a third signal when sensing that the object is away from the faucet body; and the controller controls the first electromagnetic valve to close the first water outlet end to discharge water when receiving the third signal.

3. The induction faucet of claim 2, wherein the controller controls the second solenoid valve to close the second outlet port during a first period after the second solenoid valve is controlled to open the second outlet port.

4. The induction faucet of claim 3, wherein said first sensor is disposed forward of said first outlet end and toward a front lower portion of said faucet body.

5. The induction faucet of claim 4, wherein said first sensor and said second sensor are both distance sensors, and wherein an object is determined to be close to said faucet body when the distance between the measured obstruction and said sensor is less than a threshold value, and wherein an object is determined to be far from said faucet body when the distance between the measured obstruction and said sensor is greater than a threshold value.

6. The induction faucet of claim 4, wherein said first sensor and said second sensor are both infrared sensors.

7. The induction faucet of claim 3, further comprising a plurality of linearly arranged LED lights visible on the faucet body, wherein the controller controls the LED lights to sequentially illuminate from the first side to the second side when the first solenoid valve is controlled to open the first outlet end and discharge water, and controls the LED lights to sequentially illuminate from the second side to the first side when the first solenoid valve is controlled to close the first outlet end and discharge water; the controller controls the LED lamps to be sequentially lightened from the middle to two sides when the second electromagnetic valve is controlled to open the second water outlet end to discharge water, and controls the LED lamps to be sequentially lightened from two sides to the middle when the second electromagnetic valve is controlled to close the second water outlet end to discharge water.

8. The induction faucet of claim 1, further comprising a cold water inlet pipe, a hot water inlet pipe, a valve body, a water pipe, a first water outlet pipe and a second water outlet pipe; the valve body is arranged in the faucet body and used for controlling the mixing ratio of cold water and hot water, the water inlet end of the valve body is respectively communicated with the cold water inlet pipe and the hot water inlet pipe, and the water outlet end of the valve body is communicated with the water passing pipe; the water inlet end of the first electromagnetic valve is communicated with the water pipe, and the water outlet end of the first electromagnetic valve is communicated with the first water outlet pipe; the water inlet end of the second electromagnetic valve is communicated with the water pipe, and the water outlet end of the second electromagnetic valve is communicated with the second water outlet pipe; the first water outlet pipe and the second water outlet pipe are respectively communicated with the first water outlet end and the second water outlet end.

9. The induction faucet of claim 1, wherein said first water outlet end is provided with a shower head for outputting shower water; and the second water outlet end is provided with a bubbler for outputting bubbling water.

Images