CN213145473U - Near-end induction electronic tap - Google Patents

Abstract

A near-end induction electronic faucet comprises a manual mixing valve, an electronic switch valve, a nozzle and an electronic module. The manual mixing valve comprises a valve body and a temperature adjusting rod, the valve body is fluidly connected to the cold water source and the hot water source and outputs mixed water, and the temperature adjusting rod adjusts the cold water source and the hot water source to change the water temperature of the mixed water. The electronic on-off valve is switched between an open state and a closed state. The spout is fluidly connected to an electronic on-off valve. The electronic module comprises a near sensor and a controller, the controller is electrically connected with the near sensor, the near sensor is arranged and exposed on the top surface of the near-end induction electronic faucet, the near sensor has an activated state and a non-activated state, and the controller controls the action of the electronic switch valve according to the state of the near sensor.

Description

Near-end induction electronic tap

Technical Field

The utility model relates to a tap, and in particular to near-end response electron tap.

Background

A faucet is a device used to control water flow. After the faucet is provided with the water control valve and is connected with the cold water source and the hot water source, the temperature and the flow of output water can be changed by adjusting the water control valve.

However, operating the faucet by adjusting the water control valve has the problem of bacterial contact or recontamination. Along with the gradual improvement of the life quality of people, the convenience and the diversity of water are gradually paid more and more attention. Therefore, how to improve the function and the practicability of the faucet is the focus of attention of those skilled in the art.

The "prior art" section is provided merely to aid in understanding the present invention, and thus, what is disclosed in the "prior art" section may include some prior art that does not constitute prior art that is known to those of ordinary skill in the art. The disclosure of the "prior art" section is not intended to represent that item or the problem which one or more embodiments of the present invention would solve prior to filing the present application and is well known or recognized by those of ordinary skill in the art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a near-end response electronic tap can improve the convenience of using and installing to reduce cost and reduction installation procedure.

Other objects and advantages of the present invention can be further understood from the technical features disclosed in the present invention.

To achieve the above object, the present invention provides a near-end induction electronic faucet, which includes:

the manual mixing valve comprises a valve body and a temperature adjusting rod, wherein the temperature adjusting rod is connected to the valve body, the valve body is fluidly connected to a cold water source and a hot water source and outputs mixed water, and the temperature adjusting rod adjusts the cold water source and the hot water source entering the valve body to change the water temperature of the mixed water;

an electronic switch valve is switched between an open state and a closed state;

a nozzle fluidly connected to the electronic on-off valve; and

the electronic module comprises a near-distance sensor and a controller, wherein the controller is electrically connected with the near-distance sensor, the near-distance sensor is arranged and exposed on the top surface of the near-end induction electronic faucet, the near-distance sensor has an activated state and a non-activated state, and the controller controls the action of the electronic switch valve according to the state of the near-distance sensor.

The above-mentioned near-end induction electronic faucet further includes a housing, the manual mixing valve, the electronic switch valve and the electronic module are located in the housing, and the top surface is located above the housing.

The proximal sensing electronic faucet described above, wherein the top surface has a first end portion, a second end portion and a middle portion, the middle portion is located between the first end portion and the second end portion, the proximity sensor is located at the first end portion, and the spout is located below the second end portion.

In the above-mentioned proximal end induction electronic faucet, the manual mixing valve and the electronic switch valve are located below the electronic module.

The proximal end sensing electronic faucet described above, wherein the manual mixing valve is located below the electronic on-off valve.

The proximal sensing electronic faucet described above, wherein the first end portion is higher than the second end portion.

The proximal end induction electronic faucet further comprises a fluid channel, and the fluid channel is sequentially connected with the valve body, the electronic switch valve and the nozzle.

The proximal end induction electronic faucet further comprises a power module, wherein the power module is coupled with the electronic switch valve and the electronic module, and the power module provides power required by the operation of the electronic switch valve and the electronic module.

The proximal inductive electronic faucet described above, wherein the power module is located below the manual mixing valve.

In the above proximal end sensing electronic faucet, the electronic module, the electronic switch valve, the manual mixing valve and the power module are detachably connected.

Based on the above, the utility model provides a near-end response electronic tap passes through the setting of manual mixing valve, and the temperature of adjustment play water easily. Through the arrangement of the electronic module and the electronic switch valve, the water outlet of the near-end induction electronic faucet can be effectively and accurately controlled, the convenience in installation and use of the near-end induction electronic faucet is greatly improved, the installation procedure is reduced, and the cost is reduced.

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Drawings

Fig. 1 is a schematic view of a proximal inductive electronic faucet according to an embodiment of the present invention;

fig. 2 is a schematic view of a proximal inductive electronic faucet according to an embodiment of the present invention;

fig. 3 is a functional block diagram of a proximal inductive electronic faucet according to an embodiment of the present invention.

Detailed Description

The following describes the structural and operational principles of the present invention in detail with reference to the accompanying drawings:

the foregoing and other features, aspects and utilities of the present invention will be apparent from the following more particular description of a preferred embodiment of the invention as illustrated in the accompanying drawings. Control terms mentioned in the following examples, for example: on, off, up, down, left, right, front or rear, etc., with reference only to the directions of the appended drawings. Accordingly, the control words used are intended to be illustrative and not limiting.

Referring to fig. 1, fig. 1 is a schematic view of a near-end induction electronic faucet 1 according to an embodiment of the present invention. The proximal sensing electronic faucet 1 includes a manual mixing valve 11, an electronic on-off valve 13 (shown in fig. 2 and 3), a spout 15, and an electronic module 17. The manual mixing valve 11 can control the temperature of the outlet water. The electronic module 17 can sense a user, and then control the electronic switch valve 13 to control water outlet, so that the use convenience can be greatly improved. The specific structural and operational details are set forth in the detailed description below.

Referring to fig. 2, fig. 2 is a schematic view of the near-end induction electronic faucet 1 shown in fig. 1. Specifically, fig. 2 is a schematic diagram of a cross section of the proximal induction electric faucet 1. The manual mixing valve 11 includes a valve body 111 and a temperature adjusting lever 113. The temperature adjusting lever 113 is connected to the valve body 111. The valve body 111 is fluidly connected to a cold water source 121 and a hot water source 123 and outputs a mixed water 125.

Referring to fig. 3, fig. 3 is a schematic diagram of functional blocks of the near-end induction electric faucet 1 shown in fig. 1. The temperature adjusting rod 113 can adjust the cold water source 121 and the hot water source 123 entering the valve body 111 to change a water temperature T of the mixed water 125. The electronic on-off valve 13 is switched by the electronic module 17 between an open state C1 and a closed state C2. In the open state C1, the electronic on-off valve 13 allows the mixed water 125 to circulate; in the closed state C2, the electronic on-off valve 13 closes the circulation of the mixed water 125.

The spout 15(spout) is fluidly connected to the electronic on-off valve 13. In fig. 3, the water temperature T of the mixed water 125 is indicated in the spout 15 as a schematic illustration. The electronic module 17 includes a proximity sensor 171(proximity sensor) and a controller 173. The controller 173 is electrically connected to the proximity sensor 171. The proximity sensor 171 is disposed on and exposed to a top surface 191 of the proximity sensing electronic faucet 1 as shown in fig. 1 and 2. The proximity sensor 171 has an activated state S1 and an inactivated state S2. The controller 173 controls the operation of the electronic switching valve 13 according to the state of the proximity sensor 171.

In detail, the proximity sensor 171 can detect an approaching object (e.g., a user who wants to use the proximity sensing electronic faucet 1). When the proximity sensor 171 does not detect the approach of an object, the proximity sensor 171 is in the inactive state S2. At this time, the controller 173 controls the electronic switch valve 13 to be in the closed state C2 according to the inactive state S2, thereby closing the circulation of the mixed water 125. When the proximity sensor 171 detects the approach of an object, the proximity sensor 171 is in the enabled state S1. At this time, the controller 173 controls the electronic switch valve 13 to be in the open state C1 according to the activation state S1, thereby circulating the mixed water 125. Therefore, by the arrangement of the close sensor 171, the water outlet of the near-end induction electronic faucet 1 can be controlled by whether an object is approaching or not.

The utility model discloses do not restrict the structure and the form of this manual mixing valve 11, as long as this manual mixing valve 11 can adjust this cold water source 121 and this hot water source 123 that get into this valve body 111 and change this temperature T of this mixed water 125 just within the scope that the utility model contains. The present invention does not limit the structure and form of the electronic switch valve 13, as long as the electronic switch valve 13 can be electronically controlled to switch between the open state C1 and the closed state C2, which is included in the present invention. The valve body 111, the tempering bar 113, the electronic on-off valve 13 can be realized in any possible mechanism or mechanical structure. The proximity sensor 171 may be implemented as an Infrared (IR) sensor, for example. The controller 173 may be implemented by, for example, a processor, an electronic and/or circuit element, and the invention is not limited thereto. The cold water source 121 may be implemented by a tap water tower, and the hot water source 123 may be implemented by a water heater, for example, but the present invention is not limited thereto.

In addition, as shown in fig. 1, the proximal induction electric faucet 1 further includes a housing 19. The manual mixing valve 11, the electronic on-off valve 13 and the electronic module 17 are located in the housing 19. The top surface 191 is located above the housing 19.

In detail, the top surface 191 has a first end portion 1911, a second end portion 1913 and a middle portion 1915. The middle portion 1915 is located between the first end portion 1911 and the second end portion 1913. As shown in fig. 2, the proximity sensor 171 is located at the first end portion 1911. The spout 15 is located below the second end portion 1913. Thereby, when the user approaches toward the spout 15, the proximity sensor 171 relatively far away from the user can more easily and accurately detect the user.

In the present embodiment, as shown in FIG. 2, the first end portion 1911 is higher than the second end portion 1913, so that the proximity sensor 171 is disposed at a higher position than the nozzle 15. The proximity sensor 171, which is higher than the spout 15, can detect a user more efficiently and accurately.

In this embodiment, the manual mixing valve 11 and the electronic switching valve 13 are located below the electronic module 17. The manual mixing valve 11 is located below the electronic on-off valve 13.

In detail, the proximal induction electronic tap 1 further comprises a fluid channel 16. The fluid passage 16 is connected to the valve body 111, the electronic switching valve 13 and the nozzle 15 in sequence, whereby the mixed water 125 can flow through the fluid passage 16.

Specifically, as shown in fig. 2 and 3, the proximal induction electronic faucet 1 further includes a power module 18. The power module 18 is coupled to the electronic switch valve 13 and the electronic module 17. The power module 18 provides the power required for the operation of the electronic on-off valve 13 and the electronic module 17. The power module 18 may be connected to the mains or include a battery, for example, but the invention is not limited thereto.

In the present embodiment, the power module 18 is located below the manual mixing valve 11, but the present invention is not limited thereto.

In this embodiment, the electronic module 17, the electronic on-off valve 13, the manual mixing valve 11 and the power module 18 of the proximal induction electronic faucet 1 are detachable and separable from each other. That is, each of the electronic module 17, the electronic on-off valve 13, the manual mixing valve 11, and the power module 18 may be provided as an independent module, each module having a corresponding function, and each module having a mechanism, a mechanical structure, and/or an electronic circuit, etc. connected to each other. Through the modularized electronic module 17, the electronic switch valve 13, the manual mixing valve 11 and the power module 18, the near-end induction electronic faucet 1 can be easily assembled, set, maintained and/or replaced with damaged modules, and the applicability of the near-end induction electronic faucet 1 is greatly improved.

To sum up, the utility model discloses near-end response electronic tap passes through the setting of manual mixing valve, and the temperature of adjustment play water that can be easy. Through the arrangement of the electronic module and the electronic switch valve, the water outlet of the near-end induction electronic faucet can be effectively and accurately controlled, the convenience in installation and use of the near-end induction electronic faucet is greatly improved, the installation procedure is reduced, and the cost is reduced.

Naturally, the present invention can be embodied in many other forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit or essential attributes thereof, and it is intended that all such changes and modifications be considered as within the scope of the appended claims.

Claims (10)

1. A proximal-end induction electronic faucet, comprising:

the manual mixing valve comprises a valve body and a temperature adjusting rod, wherein the temperature adjusting rod is connected to the valve body, the valve body is fluidly connected to a cold water source and a hot water source and outputs mixed water, and the temperature adjusting rod adjusts the cold water source and the hot water source entering the valve body to change the water temperature of the mixed water;

an electronic switch valve is switched between an open state and a closed state;

a nozzle fluidly connected to the electronic on-off valve; and

the electronic module comprises a near-distance sensor and a controller, wherein the controller is electrically connected with the near-distance sensor, the near-distance sensor is arranged and exposed on the top surface of the near-end induction electronic faucet, the near-distance sensor has an activated state and a non-activated state, and the controller controls the action of the electronic switch valve according to the state of the near-distance sensor.

2. The proximal inductive electronic faucet of claim 1, further comprising a housing, the manual mixing valve, the electronic on-off valve, and the electronics module being located within the housing, the top surface being located above the housing.

3. The proximal inductive electronic faucet of claim 1, wherein the top surface has a first end portion, a second end portion, and an intermediate portion, the intermediate portion being located between the first end portion and the second end portion, the proximity sensor being located at the first end portion, the spout being located below the second end portion.

4. The proximal inductive electronic faucet of claim 3, wherein the manual mixing valve and the electronic on-off valve are located below the electronics module.

5. The proximal inductive electronic faucet of claim 4, wherein the manual mixing valve is located below the electronic on-off valve.

6. The proximal inductive electronic faucet of claim 3, wherein the first end portion is taller than the second end portion.

7. The proximal inductive electronic faucet of claim 1, further comprising a fluid channel connecting the valve body, the electronic on-off valve, and the spout in sequence.

8. The proximal inductive electronic faucet of claim 1, further comprising a power module, the power module coupled to the electronic on-off valve and the electronics module, the power module providing power for operation of the electronic on-off valve and the electronics module.

9. The proximal inductive electronic faucet of claim 8, wherein the power module is located below the manual mixing valve.

10. The proximal inductive electronic faucet of claim 8, wherein the electronics module, the electronic on-off valve, the manual mixing valve, and the power module are removably connected.

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