CN219219229U

CN219219229U - Bathroom faucet capable of supplying water and soap through infrared induction

Info

Publication number: CN219219229U
Application number: CN202320065749.9U
Authority: CN
Inventors: 陈科德; 欧安; 杨远鸿
Original assignee: Guangzhou Seagull Housing Industry Co ltd
Current assignee: Guangzhou Seagull Housing Industry Co ltd
Priority date: 2023-01-10
Filing date: 2023-01-10
Publication date: 2023-06-20
Anticipated expiration: 2033-01-10

Abstract

The utility model discloses a bathroom faucet for feeding water and soap through infrared induction, which comprises: a tap body; the water supply way is provided with a water outlet at the water outlet end of the tap main body, penetrates through the tap main body and is communicated with a water source; the infusion tube is arranged in the tap main body, one end of the infusion tube is communicated with the soap supply port, and the other end of the infusion tube passes through the tap main body and is communicated with the container for containing soap liquid; the double-inductor comprises a first infrared inductor arranged at the water outlet end of the faucet main body and a second infrared inductor arranged on the outer wall of the water outlet end of the faucet main body, wherein the first infrared inductor is configured to discharge water when shielding is sensed, and the second infrared inductor is configured to discharge soap liquid when shielding is sensed. The utility model uses the hand induction action and the infrared double induction, the water and the soap liquid are not interfered with each other and are combined into one design, the operation of a user is convenient, and the infection of bacteria can be avoided because of the non-contact operation.

Description

Bathroom faucet capable of supplying water and soap through infrared induction

Technical Field

The utility model belongs to the technical field of bathroom equipment, and relates to a bathroom faucet capable of supplying water and soap through infrared induction.

Background

At present, the flowing viruses are more in life, people pay attention to the sanitation of the people in ordinary life, especially the hand disinfection is important, the flowing water is adopted to clean the hands to be the most main hand cleaning mode, and the application of the hand sanitizer can help people to reduce the harm of viruses and bacteria. However, in using the faucet and soap, most of the current devices such as the faucet are capable of preventing people from directly contacting the faucet switch, such as the faucet described in application number 201310711897.4, but most of the containers for containing the soap need to be directly contacted, which increases the possibility of indirect contact. To reduce such contact, the present utility model has been made.

Disclosure of Invention

It is an object of the present utility model to address at least the above problems and/or disadvantages and to provide at least the advantages described below.

The utility model designs and develops a bathroom faucet capable of feeding water and soap through infrared induction. The utility model relates to a water delivery pipeline and a transfusion tube, and a set of device formed by independent double infrared induction.

The technical scheme provided by the utility model is as follows:

an infrared-sensing toilet and bathroom faucet for water supply and soap supply, comprising:

the water outlet end of the tap main body is provided with a soap supply port;

the water supply path is arranged in the tap main body, penetrates through the tap main body and is communicated with a water source;

an infusion tube arranged in the tap main body, wherein one end of the infusion tube is communicated with the soap supply port, and the other end of the infusion tube passes through the tap main body and is communicated with a container for containing soap solution;

the double-inductor comprises a first infrared inductor arranged at the water outlet end of the faucet main body and a second infrared inductor arranged on the outer wall of the water outlet end of the faucet main body, wherein the first infrared inductor is configured to enable a water source to discharge water from the water outlet through the water supply path when shielding is sensed, and the second infrared inductor is configured to enable soap to discharge soap through the soap supply port through the infusion tube when shielding is sensed.

Preferably, the bathroom faucet for feeding water to soap through infrared induction further comprises:

and the electromagnetic valve is arranged on the water supply path and is connected with the first infrared sensor.

the power mechanism is arranged on the pipeline of the infusion tube and is connected with the second infrared sensor.

Preferably, in the bathroom faucet for feeding water to soap through infrared induction, the first infrared sensor is further configured to not feel shielding or the faucet body does not discharge water when shielding is felt for 60 seconds.

Preferably, in the bathroom faucet for feeding water to soap by infrared induction, the second infrared sensor is configured to discharge soap for 2 seconds every time shielding is sensed.

Preferably, in the bathroom faucet for supplying water and soap by infrared induction, the second infrared sensor is arranged at the left side, the right side or the lower side of the outer wall of the water outlet end of the faucet main body.

The utility model at least comprises the following beneficial effects:

the utility model realizes water supply and soap supply through double induction and double waterways. The design has a double inductor above the water outlet, and the hand can induce water from the lower side and soap liquid from the left side. By the method, the action of pressing the soap dispenser can be eliminated, unnecessary contact is reduced, and convenience and rapidness are realized. The utility model uses the hand induction action and the infrared double induction, the water and the soap liquid are not interfered with each other and are combined into one design, the operation of a user is convenient, and the infection of bacteria can be avoided because of the non-contact operation.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a bathroom faucet for feeding water to soap through infrared induction in one technical scheme of the utility model.

Fig. 2 is an exploded view of a faucet body according to one embodiment of the present utility model.

Fig. 3 is a schematic structural diagram of a control box according to one embodiment of the present utility model.

Fig. 4 is a schematic diagram of the working principle in one of the technical schemes of the utility model.

The faucet body 100, a power supply and control line 101, a water delivery pipeline 102, a soap supply port 103, a water outlet 104 of the water delivery pipeline, a transfusion tube 105, and second

infrared sensing units

106 and 107 are infrared dual sensors, a control box body 200, a water inlet 201, a water outlet 202 of the control box, a power supply and control line 203 of the control box, a power supply line 204 of the control box, a 6v plug 205 and a soap outlet 206 of the control box.

Detailed Description

The present utility model is described in further detail below with reference to the drawings to enable those skilled in the art to practice the utility model by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

It should be noted that, in the description of the present utility model, the terms "transverse", "longitudinal", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 and 2, the present utility model provides a bathroom faucet for infrared induction water supply to soap, comprising:

a tap main body 100, a water outlet of which is provided with a soap-feeding port 103;

a water supply path 102, the water outlet of which is arranged at the water outlet of the tap main body, the water supply path 102 is arranged in the tap main body, and passes through the tap main body and is communicated with a water source;

an infusion tube 105 disposed within the faucet body 100, one end of the infusion tube 105 being in communication with the soap dispensing port 103, and the other end passing through the faucet body 100 and being in communication with a container containing soap;

the double-inductor comprises a first infrared inductor and a second infrared inductor 106, wherein the first infrared inductor is arranged at the water outlet end of the faucet main body 100, the second infrared inductor 106 is arranged on the outer wall of the water outlet end of the faucet main body, the first infrared inductor is configured to enable a water source to discharge water from the water outlet of the faucet main body 100 through the water supply channel when shielding is sensed, and the second infrared inductor 106 is configured to enable soap to discharge soap through the soap supply port 103 through the infusion tube 105 when shielding is sensed.

In the above aspect, preferably, the method further includes:

and a solenoid valve provided on the water supply path 102, the solenoid valve being connected to the first infrared sensor. The electromagnetic valve is in communication connection with the control box.

In the above aspect, preferably, the method further includes:

and the power mechanism is arranged on the pipeline of the infusion tube 105 and is connected with the second infrared sensor 106. Preferably, the power mechanism is a soap solution pump, and the soap solution pump is connected with the second infrared sensor. The soap liquid pump is in communication connection with the control box.

In the above aspect, preferably, the first infrared sensor is further configured such that the water tap body 100 does not discharge water when shielding is not sensed or when shielding is sensed for 60 seconds.

In the above-mentioned scheme, preferably, the second infrared sensor 106 is configured to emit soap for 2 seconds every time shielding is sensed.

In the above aspect, preferably, the second infrared sensor 106 is disposed on the left side, the right side or the lower side of the outer wall of the outlet end of the faucet body 100.

For a better understanding of the technical solution of the present utility model, the following examples are now provided for further illustration:

the tap mainly comprises a tap main body 100, a double sensor 107, a water supply channel 102, a transfusion tube 105, a control box 200, a cold water inlet and a soap supply bottle;

the water tap body 100 is a traditional hardware water tap, a double sensor is positioned above a water outlet hole of the water tap, water is supplied to soap by means of infrared sensing, a water supply channel passes through the body from a water outlet of the water tap body 100 to a water outlet of the control box 200, a water inlet of the control box 200 is connected with a water supply pipe, a transfusion pipe 105 passes through the body from a soap supply hole of the water tap body to the soap supply pipe above the control box, and is connected to a soap supply bottle.

Provided is a bathroom faucet for feeding water to soap by infrared induction, comprising:

the double-inductor comprises a first infrared inductor and a second infrared inductor 106, wherein the first infrared inductor is arranged at the water outlet end of the faucet main body 100, the second infrared inductor 106 is arranged on the outer wall of the water outlet end of the faucet main body, the first infrared inductor is configured to enable a water source to discharge water from the water outlet of the faucet main body 100 through the water supply channel when shielding is sensed, and the second infrared inductor 106 is configured to enable soap to discharge soap through the soap supply port 103 through the infusion tube 105 when shielding is sensed. The first infrared sensor is also configured such that no occlusion is felt or when occlusion is felt for 60 seconds, the faucet body 100 does not emit water. The second infrared sensor 106 is configured to output soap for 2 seconds each time a shade is sensed. The second infrared sensor 106 is disposed on the left side, the right side or the lower side of the outer wall of the water outlet end of the faucet main body 100.

And a solenoid valve provided on the water supply path 102, the solenoid valve being connected to the first infrared sensor. The electromagnetic valve is in communication connection with the control box, and the electromagnetic valve and the soap liquid pump are both arranged in the control box.

And the power mechanism is arranged on the pipeline of the infusion tube 105 and is connected with the second infrared sensor 106. The power mechanism is a soap solution pump, and the soap solution pump is connected with the second infrared sensor. The soap liquid pump is also connected with the control box in a communication way.

As shown in fig. 3 and 4, when the first infrared sensor on the upper and lower sides of the infrared dual sensor 107 senses that the hand is blocked in the state of water and soap closing, a signal is transmitted to the control box 200 through the power supply and control line 101, and when the control box receives the signal sensed by the infrared sensor on the lower side, the electromagnetic valve is opened to discharge water. In the state of water outlet, when the infrared sensor senses the hand at all times, the electromagnetic valve can be kept in an opened state until the hand leaves, a signal can send a command to the control box through a power supply and a control wire, and the electromagnetic valve can be closed. When the lower Fang Cegong external sensing unit continues to the hand and the water nozzle below the faucet is in a water outlet state, the control box receives signals from the infrared control panel after the lower Fang Cegong external sensing unit continuously senses the hand for 60s, and the electromagnetic valve is closed. In the case of continuous induction, no water will be discharged. After the hand leaves the induction unit at the lower side, the induction is carried out again, and water can be discharged normally.

In the state of water and soap closing, when the second infrared sensing unit 106 on the left side of the infrared double sensing unit 107 senses that the hand is shielded, a signal is transmitted to the control box 200 through the power supply and the control wire 101, after the control box receives the signal of the left side infrared sensing, the soap pump is started to suck, soap flows from the soap bottle to the infusion tube 105 through the soap outlet 206 under the action of the control box, and after 2 seconds, the soap does not flow out. Soap can be continuously discharged after re-induction.

When the water tap is turned off Shui Guan, the lower side senses infrared signals to turn on water, and the water is turned off after the hands leave or last for 60 seconds. And when the left side senses an infrared signal, the soap is discharged for 2 seconds, and then the soap discharge is stopped.

The utility model uses the hand induction action and the infrared double induction, the water and the soap liquid are not interfered with each other and are combined into one design, which is convenient for the user to operate, and the utility model can avoid the infection of bacteria because of the non-contact operation.

The number of modules and the scale of processing described herein are intended to simplify the description of the present utility model. Applications, modifications and variations of the present utility model will be readily apparent to those skilled in the art.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims

1. An infrared induction water supply soap-giving bathroom faucet, which is characterized by comprising:

the water outlet end of the tap main body is provided with a soap supply port;

2. The infrared-sensing water-to-soap bathroom faucet of claim 1, further comprising:

3. The infrared-sensing water-to-soap bathroom faucet of claim 1, further comprising:

4. The infrared-sensed water-to-soap bathroom faucet of claim 1, wherein the first infrared sensor is further configured to not experience a shade or when a shade of 60 seconds is experienced, the faucet body does not emit water.

5. The infrared-sensed water-to-soap bathroom faucet of claim 1, wherein the second infrared sensor is configured to output soap for 2 seconds each time a shade is sensed.

6. The infrared-sensing water-supply soap-giving bathroom faucet according to claim 1, wherein the second infrared sensor is provided at the left side, the right side or the lower side of the outer wall of the water outlet end of the faucet body.