KR102260958B1 - Touchless sensor faucet operated manually and automatically - Google Patents

Abstract

The present invention relates to a sensor faucet which is an automatic sensor faucet and can be operated in a conventional way using a lever if necessary. To this end, a part of cold and hot water is supplied to a cartridge of a faucet body (1), the water temperature and flow rate are controlled only by the operation of a lever (2), and after passing through a mixed water pipe (inlet side, 8), the controlled water is discharged through a water outlet (14). The remaining part of the cold and hot water is not supplied to the cartridge of the faucet body (1), but is bypassed and connected to a solenoid valve (7), and the solenoid valve (7) is connected to the water outlet (14) via a mixed water pipe (outlet side, 9) so that the bypassed cold and hot water is discharged through the water outlet (14) after bypassing the solenoid valve (7) and the mixed water pipe (outlet side, 9) only by the operation of the solenoid valve (7) according to a sensor signal regardless of the operation of the lever (2).

Description

{Touchless sensor faucet operated manually and automatically}

The present invention relates to a sensor power receiving device that can be operated manually,

It is a sensor power receiving device that discharges or shuts off when a signal is sensed in the control box and the solenoid valve is activated when the power receiving body is touched or the pedal valve is turned on. In some cases, it is a conventional method by lever operation. It also relates to a sensor power receiving device that can also operate.

The sensor faucet is convenient to use, but the lever must be on for water jetting. However, since users habitually leave the lever off, there was a problem with the dual operation of turning the lever on again after turning on the touch or pedal valve. Since it is almost impossible to operate, there was a problem that rather inconvenient for objects unfamiliar with the sensor method, such as the elderly, was caused, but the present invention improves the dual operation problem and, at the same time, users unfamiliar with the sensor method It is characterized by convenient use.

In the case of power receiving devices used in kitchens and bathrooms of apartment houses, the use of automatic control devices using switches, infrared sensors, and touch sensors is rapidly increasing. These sensors are installed in the working part of the power receiving device to detect a signal. Control the solenoid valve to enable water discharge or shut off.

7 is a view schematically showing a touch power receiving device according to the prior art,

A cartridge operated by a lever 102 is embedded in the faucet body 101, a water jetting port 114 is provided at the tip, and the lower part is fixed to the sink, and the cartridge has a cold water pipe 103 and a hot water pipe 104. ) is connected to the inlet side, and the copper pipe connected to the discharge side is connected to the mixing water pipe (inlet side) 108 and is again connected to the inlet side of the solenoid valve 107 operated by the control box 106, the solenoid The discharge side of the valve 107 is connected to the mixing water pipe (discharge side) 109 so that water can be supplied to the water discharge port 114 via the power faucet body 101, and one end of the signal line is connected to the terminal and the copper pipe. They are connected together, and the other end of the signal wire is connected to the control box 106 so that the solenoid valve 107 is operated whenever the faucet body 101 is touched to control the water supply.

However, in the conventional touch-type faucet, the mixing ratio of cold and hot water, that is, the control of the water temperature and the discharge amount of the mixed water are basically determined by the cartridge built into the faucet body 101, and only the solenoid valve 107. Since the on/off control of the water discharge amount is performed by

Prior to the touch operation, while turning the lever 102 left and right to the desired water temperature, it must be adjusted to the desired flow rate by tilting it up and down.

That is, since only on/off control of the water discharge amount is performed by the solenoid valve 107, the flow rate set in advance by the lever 102 is supplied as it is when the solenoid valve 107 is on, and the solenoid When the valve 107 is in the off state, the flow rate supply itself is stopped.

As described above, in the conventional touch-type faucet, the lever 102 must be in an on state for water jetting, but users habitually turn off the lever 102 easily, so after the touch, the lever 102 must be turned on again. There was a problem.

In addition, manual operation can be used by turning the switching knob 107a of the solenoid valve 107 in the manual direction, but since the solenoid valve 107 is not exposed to the outside and the operation is difficult, manual operation is almost impossible from the user's point of view Therefore, there was a problem that rather caused inconvenience.

Korean Intellectual Property Office Registration No. 10-1666382 Korean Intellectual Property Office Registration No. 10-1309073

The object of the present invention is to

Basically, when the faucet body is touched or the pedal valve is turned on, the solenoid valve operates according to the signal sensed by the control box to discharge or shut off the sensor type faucet. The purpose is to make it more convenient to use by enabling it to operate in a conventional manner.

That is, in the conventional sensor-type faucet, users tend to habitually turn off the lever, so there is a problem of double operation of having to turn on the lever again after turning on the touch or pedal valve. There was a problem that caused inconvenience to an unfamiliar object, but the purpose of the present invention is to improve this dual operation problem and to make it convenient for users unfamiliar with the sensor method to use it. .

In the present invention to achieve the above object,

A cartridge operated by a lever is built in the faucet body, a water jet is provided at the tip, and a cold water pipe and a hot water pipe are connected to the inlet side of the cartridge so that cold and hot water can be supplied, respectively, and a cartridge is located on the discharge side of the cartridge. The diesel mixed water pipe (inlet side) is connected so that water of the water temperature and flow rate determined by the lever and the cartridge can be discharged, and the diesel mixed water pipe (inlet side) of the cartridge is connected to the solenoid valve that operates when a sensor signal is detected. It is connected and again connected to the mixing water pipe (discharge side), so that water can be supplied to the water outlet via the faucet body, and the faucet body is connected to a control box operated by a sensor signal, so that the sensor signal is input In the sensor power receiving device configured to control the water supply by operating the solenoid valve whenever it occurs,

Part of the cold and hot water is supplied to the cartridge of the faucet body, the water temperature and flow rate are controlled only by the lever operation, and then passes through the mixed water pipe (inlet side) via the cartridge and then is discharged to the water outlet,

The remaining part of the cold and hot water is not supplied to the cartridge of the faucet but is bypassed and connected to the solenoid valve, and the solenoid valve is connected to the water outlet by the mixed water pipe (discharge side), so the bypassed cold and hot water is the lever Regardless of the operation, only the operation of the solenoid valve by the sensor signal is configured to pass through the solenoid valve and the mixing water pipe (discharge side) and then discharged to the water outlet.

On the other hand, when a part of the cold and hot water is supplied to the cartridge of the faucet body, the water temperature and flow rate are controlled only by the lever operation, and then passed through the cartridge diesel mixed water pipe (inlet side) and then discharged to the water outlet, the cartridge passes through Since the mixed water pipe (inlet side) is connected to the mixed water pipe (discharge side), it sequentially passes through the mixed water pipe (inlet side) and the mixed water pipe (discharge side) through the cartridge and then is configured to be discharged to the water outlet.

The water supply is connected to the cold water pipe and the hot water pipe, respectively, so that the cold water side bypass pipe and the hot water side bypass pipe are branched, and the cold water side bypass pipe and the hot water side bypass pipe are merged and then the mixed water can be discharged. It is connected to another shutoff, and the mixed water discharged through the shutoff is connected to the solenoid valve by a bypass mixing water pipe,

So that the water passing through the solenoid valve can be supplied to the mixed water pipe (discharge side) after it merges with the water passing through the mixed water pipe (inlet side) via the cartridge,

The bypass mixing water pipe passing through the solenoid valve and the mixed water pipe passing through the cartridge (inlet side) are connected to another water shutoff, and the mixed water discharged through the shutoff is supplied to the water outlet through the mixed water pipe (discharging side) It can be configured to be

In addition, a separate temperature control means may be provided to arbitrarily control the temperature of the bypassed cold and hot water mixed water before the water shutoff, that is, before the water shutoff connected to the cold water side bypass pipe and the hot water side bypass pipe.

By accommodating the cold water side bypass pipe, the hot water side bypass pipe, the bypass mixed water pipe (inlet side), the shutoff poles, and the solenoid valve in the control box, it will be possible to configure neatly and compactly.

According to the present invention,

It is a sensor-type faucet that discharges or shuts off by operating the solenoid valve by a signal detected from the control box when the faucet body is touched or the pedal valve is turned on, but in some cases, it is a conventional method by lever operation. Also, it has the effect of making it more convenient to use.

That is, in the conventional sensor-type faucet, users tend to habitually turn off the lever, so there is a problem of double operation of having to turn on the lever again after turning on the touch or pedal valve. There was a problem of causing inconvenience to an unfamiliar object, but the present invention has the effect of improving the problem of the double operation and at the same time allowing users unfamiliar with the sensor method to use it conveniently.

1 is a perspective view schematically showing a sensor power receiving device according to the present invention;
2 is a front view schematically showing a sensor power receiving device according to the present invention;
3 is a view schematically showing a pipe connection state in the sensor power receiving device according to the present invention;
4 is a view showing the flow of flow in the sensor power receiving device according to the invention;
5 is a state diagram of the present invention, a photograph showing automatic water jetting only by sensor recognition in a lever-off state.
Figure 6 is a state diagram of the use of the present invention, a photograph showing the manual jetting lever on.
7 is a view schematically showing a touch power receiving device according to the prior art.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them.

Meanwhile, the following description of the present invention is merely an example for structural or functional description. Therefore, the scope of the present invention should not be construed as being limited by the embodiments described in the text.

For example, since the embodiment is capable of various changes and may have various forms, it should be understood that the scope of the present invention includes equivalents capable of realizing the technical idea.

In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only such effects, it should not be understood that the scope of the present invention is limited thereby.

The meaning of the terms described in the present invention should be understood as follows.

When a component is referred to as being “connected” or “connected” to another component, it is understood that the other component may be directly connected or connected to the other component, but other components may exist in between. it should be On the other hand, when it is mentioned that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle. Other expressions describing the relationship between elements, such as "between" and "immediately between" or "neighboring to" and "directly adjacent to", etc., should be interpreted similarly.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention.

The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present specification, terms such as "comprise" or "have" are intended to designate that the described feature, number, step, operation, component, part, or a combination thereof exists, and includes one or more other features or numbers. , it is to be understood that it does not preclude the possibility of the presence or addition of steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present specification. does not

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings. Like reference numerals in each figure indicate like elements.

1 is a perspective view schematically showing a sensor power receiving device according to the present invention, FIG. 2 is a front view schematically showing a sensor power receiving device according to the present invention, and FIG. 3 is a schematic view of a pipe connection state in the sensor power receiving device according to the present invention 4 is a view showing the flow of flow in the sensor power receiving device according to the present invention, and FIG. 5 is a view showing the use of the present invention, which is a photograph showing automatic water jetting only by sensor recognition in the lever-off state, and FIG. As a use state diagram of the present invention, as a photograph showing that the water is discharged manually by turning on the lever,

A cartridge operated by a lever 2 is embedded in the faucet body 1, a water jet 14 is provided at the tip, and a cold water pipe 3 and a cold water pipe 3 so that hot and cold water can be supplied to the inlet side of the cartridge, respectively. The hot water pipe 4 is connected, and a mixed water pipe (inlet side) 8 is connected to the discharge side of the cartridge so that water of the water temperature and flow rate determined by the lever 2 and the cartridge can be discharged. .

The cartridge, also called a ceramic filter, is operated by a lever (2), and while turning the lever (2) left and right to set the desired water temperature, it can be tilted up and down to match the desired flow rate.

The mixed water pipe (inlet side) 8 via the cartridge is connected to the solenoid valve 7 that operates when a sensor signal is detected and is again connected to the mixed water pipe (discharge side) 9, via the faucet body (1) It is connected so that water can be supplied to the water outlet 14,

The power receiving body 1 is connected to a control box 6 operated by a sensor, so that the solenoid valve 7 is operated whenever the power receiving body 1 is touched or the pedal valve is turned on. configured to be controlled.

On the other hand, in the present invention, part of the cold and hot water is supplied to the cartridge of the power receiving body (1), the water temperature and flow rate are adjusted only by the operation of the lever (2), and then passes through the mixed water pipe (inlet side) 8 via the cartridge It is discharged to the water spout 14, but

The remaining part of the cold and hot water is not supplied to the cartridge of the power receiving body 1, but is bypassed and connected to the solenoid valve 7, and the solenoid valve 7 is connected to the water outlet by the mixing water pipe (discharge side) 9. 14), the bypassed cold and hot water is only operated by the solenoid valve 7 by a sensor signal regardless of the operation of the lever 2, and the solenoid valve 7 and the mixed water pipe (discharge side) ( It is configured to be discharged to the water jetting port 14 after passing through 8).

A part of cold and hot water is supplied to the cartridge of the faucet body (1), and the water temperature and flow rate are adjusted only by the operation of the lever (2), passing through the mixed water pipe (inlet side) (8) via the cartridge, and then the water outlet (14) ), since the cartridge diesel mixed water pipe (inlet side) 8 is connected to the mixed water pipe (discharge side) 9, the cartridge diesel mixed water pipe (inlet side) 8 and the mixed water pipe (discharge side) ) (9) is sequentially passed through and then discharged to the water jetting port (14).

To this end, in the present invention, the cold water pipe (3) and the hot water pipe (4) are respectively connected to the water shutoff (10a, 10b), so that the cold water side bypass pipe 11 and the hot water side bypass pipe 12 are branched. and the cold water side bypass pipe 11 and the hot water side bypass pipe 12 are connected to another shutoff cistern 10c to discharge the mixed water after they merge, and through the shutoff cistern 10c The discharged mixed water is connected to the solenoid valve 7 by a bypass mixing water pipe 13,

So that the water passing through the solenoid valve 7 joins the water passing through the mixed water pipe (inlet side) 8 through the cartridge and then the mixed water pipe (discharge side) 9 can be supplied,

The bypass mixing water pipe 13 through the solenoid valve 7 and the mixed water pipe (inlet side) 8 via the cartridge are connected to another water shutoff stop 10d, and discharged through the shutoff stop 10d. The mixed water is supplied to the water jetting port 14 through the mixing water pipe (discharge side) 9 .

The water shutoff valves 10a, 10b, 10c, and 10d are intended to be introduced into two places and discharged to one place, and are composed of a three-way type valve.

On the other hand, a separate temperature control means 17 may be provided before the water shutoff (10c), that is, the water shutoff connected to the cold water side bypass pipe 11 and the hot water side bypass pipe 12, which is bypassed cold, This is so that the temperature of the mixed water of the hot water can be arbitrarily adjusted.

In addition, Figure 3 is an exemplary view of the present invention,

The cold water side bypass pipe 11, the hot water side bypass pipe 12, the bypass mixed water pipe (inlet side) 13, and the shutoff poles 10a, 10b, 10c, and 10d; By allowing all of the solenoid valves 7 to be accommodated in the control box 6, a neat and compact configuration is possible.

The temperature control means 17 may be configured as an analog type knob, and the temperature of the mixed water can be adjusted by adjusting the opening degree of cold and hot water.

5 is a state diagram of the present invention, a photograph showing automatic water jetting only by sensor recognition in a lever-off state, and FIG. 6 is a use state diagram of the present invention, as a photograph showing manual water jetting by lever-on,

Basically, when the faucet body is touched or the pedal valve is turned on, the solenoid valve operates according to the signal sensed by the control box to discharge or shut off the sensor type faucet. By allowing it to operate in a conventional manner, it becomes more convenient to use.

In the conventional sensor power faucet, when users habitually touch the faucet in the off state of the lever 2 or turn on the pedal valve, etc., the water is not discharged. Therefore, after touching or turning on the pedal valve, the lever 2 must be turned on again. Although there is a problem in operation, in the present invention, as shown in FIG. 5 , since the water is discharged even when the faucet is touched while the lever 2 is off or the pedal valve is turned on, there is no need for a double operation.

That is, if the faucet is touched while the lever 2 is off or the pedal valve is turned on, the cartridge in the faucet body 1 is closed, so the cold and hot water pipes 3 and 4 are directly supplied to the cartridge. Water will not be supplied to the mixing water pipe (inlet side) through the cartridge, but

The water bypassed in the cold and hot water pipes 3 and 4 passes through the cold water side bypass pipe 11 and the hot water side bypass pipe 12, respectively, and is joined at the shutoff power tank 10a, and the solenoid valve 7 Since the solenoid valve 7 is in an open state when the faucet is touched or the pedal valve is turned on, the bypass mixed water is supplied to the water shutoff power 10d through the bypass mixed water pipe (inlet side) 13 and ,

In the water shutoff (10d), the mixed water pipe (inlet side) via the cartridge is blocked, but the bypass mixed water pipe (inlet side) 13 is connected,

The bypass mixed water may be discharged through the water jetting port 14 as shown in FIG. 5 via the water stop 10d and the mixing water pipe (discharge side) 9 .

In addition, in the present invention, when the lever (2) is manually operated, the cartridge in the faucet body (1) is in an open state, so the water supplied directly from the cold and hot water pipes (3) (4) to the cartridge is mixed through the cartridge. It is supplied to the water stop (10d) via the water pipe (inlet side) (9),

The water bypassed in the cold and hot water pipes 3 and 4 passes through the cold water side bypass pipe 11 and the hot water side bypass pipe 12, respectively, and is joined at the shutoff power tank 10a, and the solenoid valve 7 When the solenoid valve 7 is opened, the bypass mixed water is supplied to the water shutoff power 10d through the bypass mixing water pipe (inlet side) 13,

In the water stop 10d, after the water supplied from the mixed water pipe (inlet side) 9 of the cartridge diesel and the water supplied from the bypass mixed water pipe (inlet side) 13 are merged, the mixed water pipe (discharge side) 9 ) through which it can be discharged through the water outlet 14 as shown in FIG. 6 .

On the other hand, when the solenoid valve 7 is closed, the bypass mixed water will not be supplied to the water shutoff tank 10d, so only the water supplied from the cartridge diesel mixing water pipe (inlet side) 9 in the shutoff tank 10d It can be discharged through the water jetting port 14 via the mixing water pipe (discharge side) 9 .

In the conventional sensor-type faucet, users tend to habitually turn off the lever, so there is a problem of the double operation of having to turn on the lever again after turning on the touch or pedal valve. There was a problem of causing inconvenience to an unfamiliar object, but the present invention has the effect of improving the problem of the double operation and at the same time allowing users unfamiliar with the sensor method to use it conveniently.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such modifications or variations shall fall within the scope of the claims of the present invention.

1: faucet body 2: lever
3: cold water pipe 4: hot water pipe
5: power supply unit 6: control box
7: Solenoid valve 8: Cartridge diesel mixed water pipe (inlet side)
9: Mixed water pipe (discharge side) 10a, 10b, 10c, 10d: Water shutoff
11: cold water side bypass pipe 12: hot water side bypass pipe
13: bypass mixing water pipe (inlet side) 14: water outlet
16: cartridge 17: temperature control means

Claims (5)

A cartridge operated by a lever 2 is embedded in the faucet body 1, a water jet 14 is provided at the tip, and a cold water pipe 3 and a cold water pipe 3 so that hot and cold water can be supplied to the inlet side of the cartridge, respectively. A hot water pipe 4 is connected, and a mixed water pipe (inlet side) 8 is connected to the discharge side of the cartridge so that water of the water temperature and flow rate determined by the lever 2 and the cartridge can be discharged. , The mixed water pipe (inlet side) 8 via the cartridge is connected to the solenoid valve 7 that operates when a sensor signal is detected, and is again connected to the mixed water pipe (discharge side) 9, via the faucet body (1) is connected so that water can be supplied to the water outlet 14, and the faucet body 1 is connected to a control box 6 operated by a sensor signal, so that whenever the sensor signal is input, the solenoid valve 7 ) in the sensor power receiving device configured to operate to control the water supply,
Part of the cold and hot water is supplied to the cartridge of the power faucet body (1), the water temperature and flow rate are controlled only by the operation of the lever (2), passes through the cartridge mixed water pipe (inlet side) (8), and then the water outlet (14) is emitted as
The remaining part of the cold and hot water is not supplied to the cartridge of the power receiving body 1, but is bypassed and connected to the solenoid valve 7, and the solenoid valve 7 is connected to the water outlet by the mixing water pipe (discharge side) 9. 14), the bypassed cold and hot water is only operated by the solenoid valve 7 by a sensor signal regardless of the operation of the lever 2, and the solenoid valve 7 and the mixed water pipe (discharge side) ( It is configured to be discharged to the water jetting port 14 after passing through 8),
The cold water pipe (3) and the hot water pipe (4) are respectively connected to the water shutoff (10a, 10b), so that the cold water side bypass pipe 11 and the hot water side bypass pipe 12 are branched and connected, and the cold water side bypass pipe 11 and the hot water side bypass pipe 12 are branched. The pass pipe 11 and the hot water side bypass pipe 12 are connected to another shutoff cistern 10c to discharge the mixed water after they merge, and the mixed water discharged through the shutoff cistern 10c is bypassed. connected to the solenoid valve (7) by a pass mixing water pipe (13),
So that the water passing through the solenoid valve 7 joins the water passing through the mixed water pipe (inlet side) 8 through the cartridge and then the mixed water pipe (discharge side) 9 can be supplied,
The bypass mixing water pipe 13 through the solenoid valve 7 and the mixed water pipe (inlet side) 8 via the cartridge are connected to another water shutoff stop 10d, and discharged through the shutoff stop 10d. Manually and automatically operated sensor power receiving device, characterized in that the mixed water is supplied to the water outlet (14) through the mixed water pipe (discharge side) (9).
The method of claim 1,
Part of the cold and hot water is supplied to the cartridge of the power faucet body (1), and the water temperature and flow rate are controlled only by the operation of the lever (2), passing through the mixed water pipe (inlet side) (8) via the cartridge, and then the water outlet (14) ), since the cartridge diesel mixed water pipe (inlet side) 8 is connected to the mixed water pipe (discharge side) 9, the cartridge diesel mixed water pipe (inlet side) 8 and the mixed water pipe (discharge side) Manually and automatically operated sensor power receiving device, characterized in that it is configured to be discharged to the water spout (14) after sequentially passing through (9).
delete The method of claim 1,
Separate temperature control means to arbitrarily control the temperature of the bypassed cold and hot water mixed water before the water shutoff 10c, that is, the cold water side bypass pipe 11 and the hot water side bypass pipe 12 are connected. (17) Manually and automatically operated sensor power receiving device, characterized in that provided.
The method of claim 1,
Cold water side bypass pipe 11, hot water side bypass pipe 12, bypass mixed water pipe (inlet side) 13, water shutoff poles 10a, 10b, 10c, 10d, and a solenoid valve A sensor power receiving device operated manually and automatically, characterized in that all (7) are accommodated in the control box (6).

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