CN201155609Y

CN201155609Y - Tap opening-closing structure

Info

Publication number: CN201155609Y
Application number: CNU200720305543XU
Authority: CN
Inventors: 廖世文
Original assignee: Ways Technical Corp Ltd
Current assignee: Ways Technical Corp Ltd
Priority date: 2007-11-21
Filing date: 2007-11-21
Publication date: 2008-11-26
Anticipated expiration: 2017-11-21

Abstract

The utility model relates to an open-close structure of a water faucet, comprising a water faucet, a flow path system and a control system; wherein, the water faucet is provided with an water inlet; the flow path system comprises a water inlet end and a water outlet end; the water outlet end is connected with the water inlet; at least a first inlet branch and a second inlet branch are arranged in the flow path system between the water inlet end and the water outlet end; the control system comprises an inductor, a first electromagnetic valve, a second electromagnetic valve and a controller; wherein, the first electromagnetic valve is arranged on the first inlet branch to control the opening and closing of the first inlet branch; similarly, the second electromagnetic valve is arranged on the second inlet branch to control the opening and closing of the second inlet branch; the first electromagnetic valve and the second electromagnetic valve are regulated and controlled by the controller; thereby by controlling the opening and closing of the first electromagnetic valve and the second electromagnetic valve with the controller, the purpose of controlling the water volume can be achieved.

Description

The water tap on-off structure

Technical field

The utility model especially is applicable to the water tap on-off structure that can accurately control the water yield relevant for a kind of design of water tap on-off structure.

Background technique

See also shown in Figure 1, be the inductive water tap design of commonly using, it includes water tap 90, in water tap 90, be provided with induction installation 91, and the water route 92 of water tap 90 is provided with solenoid valve 93, use the keying state in control water route, in addition, tip position in water tap 90 is provided with battery 94 again, uses the power source that induction installation 91 and solenoid valve 93 are provided, and the inductive water tap of commonly using, it all is to transmit signal again to solenoid valve 93 after utilizing induction installation 91 inductions, use control electromagnetic valve 93 and whether open, but the circulation that solenoid valve 93 only can be controlled the water yield merely is whether, and the size of the uncontrollable water yield.

Therefore, occurred a kind of inductive water tap that utilizes controller to adjust water yield size on the market again, but it still exists the problem that can't reach accurate control water yield size.

The model utility content

Therefore, the utility model says that the technical problem that solves is to provide a kind of water tap on-off structure, to solve the known problem that can't precisely control the water yield, in order to enable feature of the present utility model and technical advantage can there be clearer presenting, be described in detail especially exemplified by some preferred embodiments.

The water tap on-off structure that first embodiment of the present utility model is provided comprises water tap, flow path system and control system, wherein has water inlet on the water tap and reaches and water outlet; Flow path system includes water intake end and waterexit end, wherein the waterexit end is communicated with water inlet, and the flow path system between water intake end and waterexit end includes first intake pipe and second intake pipe more at least, and first intake pipe all is connected with waterexit end and water intake end with second intake pipe; Control system then includes inductor, first solenoid valve, second solenoid valve and controller, wherein inductor is arranged in the water tap, first solenoid valve is arranged on first intake pipe, can be used for controlling the keying of first intake pipe, same, second solenoid valve is arranged on second intake pipe, can be used for controlling the keying of second intake pipe, last controller respectively with inductor, first solenoid valve and the second solenoid valve electrically connect, the detection signal that can receive self-inductor to send by controller, through sending pilot signal to first solenoid valve and second solenoid valve after the controller calculating, and controlled the switch of first solenoid valve and second solenoid valve, further circulation status and the water-outlet quantity of controllable flow in first intake pipe and second intake pipe.

The water tap on-off structure that second embodiment of the present utility model is provided, more include the 3rd intake pipe, and the 3rd intake pipe also is communicated with the waterexit end, and control system more comprises the 3rd solenoid valve, and the 3rd solenoid valve is arranged on the 3rd intake pipe, and with the controller electrically connect.

The water tap on-off structure that the 3rd embodiment of the present utility model is provided, the water-outlet quantity of first intake pipe is defined as a unit, the water-outlet quantity of second intake pipe is defined as two units, so the second intake pipe inflow is 2 times of the first intake pipe inflow, and the water-outlet quantity of the 3rd intake pipe is defined as three units, so the 3rd intake pipe inflow is 3 times of the first intake pipe inflow, when only needing the water-outlet quantity of a unit, promptly regulate and control system by controller, only open first solenoid valve, in like manner, open second solenoid valve when needing the water-outlet quantity of two units, open the 3rd solenoid valve when needing the water-outlet quantity of three units, when needs surpass water-outlet quantity more than three units, can utilize the mode of increasing first solenoid valve again or increasing second solenoid valve, can reach the control water-outlet quantity is the requirement of a unit of unit to six.

The water tap on-off structure that the 4th embodiment of the present utility model is provided, more include hot water inlet pipe and cold water inlet, and control system more includes cold and hot control valve, is arranged on the water intake end, and hot water inlet pipe and cold water inlet are communicated in cold and hot control valve.

The water tap on-off structure that the 5th embodiment of the present utility model is provided, its middle controller directly is arranged on the water tap, and on it and have water yield button, uses the operation for the user, can directly control the water yield.

The beneficial effects of the utility model are: the water yield unit's design by solenoid valve and flow path system can allow the user control the size of water discharge of water faucet amount voluntarily, and reach the purpose of saving water resources

Description of drawings

Fig. 1 is the inductive water tap generalized section of commonly using;

Fig. 2 is the utility model water tap start-stop device first embodiment's schematic representation;

Fig. 3 is the utility model water tap start-stop device second embodiment's schematic representation;

Fig. 4 is the utility model water tap start-stop device the 3rd embodiment's schematic representation;

Fig. 5 is the utility model water tap start-stop device the 4th embodiment's schematic representation;

Fig. 6 is the utility model water tap start-stop device the 5th embodiment's schematic representation.

[figure number explanation]

Water tap 10 water inlets 11

Water outlet 12 flow path systems 30

Water intake end 31 waterexit ends 32

First intake pipe, 33 second intake pipes 34

The 3rd intake pipe 35 control system 50

Inductor 51 first solenoid valves 52

Second solenoid valve 53 the 3rd solenoid valve 54

Cold and hot control valve 55 controllers 56

Water yield button 561 hot water inlet pipes 60

Cold water inlet 70 water taps 90

Induction installation 91 water routes 92

Solenoid valve 93 batteries 94

Embodiment

In order to make feature of the present utility model more clear, below will disclose the various embodiments of the utility model, the mode of execution of various features for example, and described specific components with only arrange to simplifying this case explanation, so it is not in order to limit the utility model.In addition, this case may be reused reference number and literal in various embodiments, and the purpose of repetition is to simplify and clearly demonstrate, and is not in order to specify the relation between various embodiments and/or the described framework.

Please refer to Fig. 2 illustrates according to the utility model water tap start-stop device first embodiment and illustrates 0, as shown in the figure: the water tap start-stop device includes water tap 10, flow path system 30 and control system 50 in the present embodiment, the water outlet 12 that wherein has water inlet 11 on the water tap 10 and be connected with water inlet 11; Flow path system 30 includes water intake end 31 and waterexit end 32, wherein waterexit end 32 is communicated with

water inlet

11, and 32 flow path system 30 includes first intake pipe 33 and second intake pipe 34 more at least in water intake end 31 and waterexit end, and first intake pipe 33 all is connected with waterexit end 32 and water intake end 31 with second intake pipe 34; 50 of control system include inductor 51, first solenoid valve 52, second solenoid valve 53 and controller 56, wherein inductor 51 is arranged in the water tap 10, first solenoid valve 52 is arranged on first intake pipe 33, can be used for controlling the keying of first intake pipe 33, under the state of first solenoid valve 52 for unlatching, first intake pipe 33 is negotiable state, current can flow in first intake pipe 33, if at first solenoid valve 52 is under the state of locking, current can't flow in first intake pipe 33, same, second solenoid valve 53 is arranged on second intake pipe 34, can be used for controlling the keying of second intake pipe 34, under the state of second solenoid valve 53 for unlatching, second intake pipe 34 is negotiable state, current can flow in second intake pipe 34, if at second solenoid valve 53 under the state of locking, current can't flow in second intake pipe 34; Last controller 56 respectively with inductor 51, first solenoid valve 52 and second solenoid valve, 53 electrically connects, the detection signal that can receive self-inductor 51 to send by controller 56, through sending pilot signal to first solenoid valve 52 and second solenoid valve 53 after controller 56 calculating, and controlled the switch of first solenoid valve 52 and second solenoid valve 53, the further circulation status of controllable flow in first intake pipe 33 and second intake pipe 34.For example: suppose that first intake pipe 33 and second intake pipe 34 respectively are considered as having the water-outlet quantity of a unit, when only needing the water-outlet quantity of a unit, promptly regulate and control system by controller 56, only open one of them of first solenoid valve 52 and second solenoid valve 53, thus, only first intake pipe 33 or second intake pipe 34 are circulation status, and this moment, the water-outlet quantity from water outlet 12 outflows of water tap 10 was a unit.When the water-outlet quantity of needs two units, regulate and control system by controller 56 equally, first solenoid valve 52 and second solenoid valve 53 are opened simultaneously, thus, first intake pipe 33 and second intake pipe 34 are circulation status, are the water-outlet quantity of two units this moment from the water-outlet quantity of water tap 10 water outlets 12.

See also Fig. 3, the utility model water tap start-stop device second embodiment's schematic representation, as shown in the figure: at present embodiment based on first embodiment, so repeat no more with first embodiment's same section, and on flow path system 30, more include the 3rd intake pipe 35 in the present embodiment, and the 3rd intake pipe 35 also is communicated with waterexit end 32, and control system 50 more comprises the 3rd solenoid valve 54, and the 3rd solenoid valve 54 is arranged on the 3rd intake pipe 35, and with controller 56 electrically connects.Same as above, for example: suppose that first intake pipe 33, second intake pipe 34 and the 3rd intake pipe 35 respectively are considered as having the water-outlet quantity of a unit, when only needing the water-outlet quantity of a unit, promptly regulate and control system by controller 56, only open one of them of first solenoid valve 52, second solenoid valve 53 and the 3rd solenoid valve 54, thus, only first intake pipe 33 or second intake pipe 34 or the 3rd intake pipe 35 are circulation status, and this moment, the water-outlet quantity from water outlet 12 outflows of water tap 10 was a unit.

When the water-outlet quantity of needs two units, regulate and control system by controller 56 equally, first solenoid valve 52 and second solenoid valve 53 are opened simultaneously, or first solenoid valve 52 and the 3rd solenoid valve 54 opened simultaneously, or second solenoid valve 53 and the 3rd solenoid valve 54 opened simultaneously, thus, first intake pipe 33 and second intake pipe 34 are circulation status, or first intake pipe 33 and the 3rd intake pipe 35 be circulation status, or second intake pipe 34 and the 3rd intake pipe 35 be circulation status, be the water-outlet quantity of two units this moment from the water-outlet quantity of water tap 10 water outlets 12.

When the water-outlet quantity of needs three units, regulate and control system by controller 56 equally, first solenoid valve 52, second solenoid valve 53 and the 3rd solenoid valve 54 are opened simultaneously, thus, first intake pipe 33 and second intake pipe 34 and the 3rd intake pipe 35 are circulation status, are the water-outlet quantity of three units this moment from the water-outlet quantity of water tap 10 water outlets 12.

See also Fig. 4, the utility model water tap start-stop device the 3rd embodiment's schematic representation, as shown in the figure: at present embodiment based on second embodiment, so the part identical with second example structure also repeats no more, water-outlet quantity with first intake pipe 33 is defined as a unit in the present embodiment, the water-outlet quantity of second intake pipe 34 is defined as two units, so second intake pipe, 34 inflows are 2 times of first intake pipe, 33 inflows, and the water-outlet quantity of the 3rd intake pipe 35 is defined as three units, so the 3rd intake pipe 35 inflows are 3 times of first intake pipe, 33 inflows, thus, the water-outlet quantity of first solenoid valve, 52 controls is the water-outlet quantity of a unit, and the water-outlet quantity of second solenoid valve, 53 controls is the water-outlet quantity of two units, and the water-outlet quantity of the 3rd solenoid valve 54 controls is the water-outlet quantity of three units, when only needing the water-outlet quantity of a unit, promptly regulate and control system by controller 56, only open first solenoid valve 52, thus, only first intake pipe 33 is a circulation status, this moment, the water-outlet quantity from water outlet 12 outflows of water tap 10 was a unit, in like manner, open second solenoid valve 53 when needing the water-outlet quantity of two units, open the 3rd solenoid valve 54 when needing the water-outlet quantity of three units, when needs surpass water-outlet quantity more than three units, can utilize the mode of increasing first solenoid valve 52 again or increasing second solenoid valve 53, by opening first solenoid valve 52, the permutation and combination method of second solenoid valve 53 and the 3rd solenoid valve 54, can reach the control water-outlet quantity is the requirement of a unit of unit to six.

See also Fig. 5, the utility model water tap start-stop device the 4th embodiment's schematic representation, as shown in the figure: at present embodiment based on second embodiment, so the part identical with second example structure also repeats no more, more include hot water inlet pipe 60 and cold water inlet 70 in the present embodiment, and control system 50 more includes cold and hot control valve 55, be arranged on the water intake end 31, hot water inlet pipe 60 is communicated in cold and hot control valve 55 with cold water inlet 70, by this, can be with hot and cold water in advance prior to after mixing in the cold and hot control valve 55, enter again in water intake end 31, then enter first intake pipe 33 more respectively, in second intake pipe 34 and the 3rd intake pipe 35, and by first solenoid valve 52,

second solenoid valve

53 and 54 controls of the 3rd solenoid valve, in addition, cold and hot control valve 55 also can link control with controller, or regulates and control with manual mode.

See also Fig. 6, the utility model water tap start-stop device the 5th embodiment's schematic representation, as shown in the figure: include water tap 10, flow path system 30 and control system 50 equally at present embodiment, the water outlet 12 that wherein has water inlet 11 on the water tap 10 and be connected with water inlet 11; Flow path system 30 includes water intake end 31 and waterexit end 32, wherein waterexit end 32 is communicated with

water inlet

11, and 32 flow path system 30 includes first intake pipe 33, second intake pipe 34 and the 3rd intake pipe 35 more at least in water intake end 31 and waterexit end, and all is connected with waterexit end 32 and water intake end 31; 50 of control system include first solenoid valve 52, second solenoid valve 53 and controller 56, its middle controller 56 directly is arranged on the water tap 10, and on it and have a water yield button 561, use operation for the user, can directly control the water yield, and first solenoid valve 52 is arranged on first intake pipe 33, can be used for controlling the keying of first intake pipe 33, under the state of first solenoid valve 52 for unlatching, first intake pipe 33 is negotiable state, current can flow in first intake pipe 33, if at first solenoid valve 52 under the state of locking, current can't flow in first intake pipe 33, same, second solenoid valve 53 is arranged on second intake pipe 34, can be used for controlling the keying of second intake pipe 34, under the state of second solenoid valve 53 for unlatching, second intake pipe 34 is negotiable state, current can flow in second intake pipe 34, if at second solenoid valve 53 under the state of locking, current can't flow in second intake pipe 34; Identical, the 3rd solenoid valve 54 is arranged on the 3rd intake pipe 35, and can be used for controlling the keying of the 3rd intake pipe 35 with controller 56 electrically connects, under the state of the 3rd solenoid valve 54 for unlatching, the 3rd intake pipe 35 is negotiable state, current can flow in the 3rd intake pipe 35, if at the 3rd solenoid valve 54 under the state of locking, current can't flow in the 3rd intake pipe 35.

Last controller 56 respectively with first solenoid valve 52, second solenoid valve 53 and the 3rd solenoid valve 54 electrically connects, can receive the pilot signal of sending from water yield button 561 by controller 56, can be after process controller 56 calculates to first solenoid valve 52, second solenoid valve 53 and the 3rd solenoid valve 54 send pilot signal, and controlled first solenoid valve 52, the switch of second solenoid valve 53 or the 3rd solenoid valve 54, further controllable flow is in first intake pipe 33, circulation status in second intake pipe 34 and the 3rd intake pipe 35, and reach the purpose of controlling water yield size.

Be with, water tap on-off structure provided by the utility model, the most important thing is water yield unit's design, can allow the user control the size of water discharge of water faucet amount voluntarily, and reach the purpose of saving water resources by solenoid valve and flow path system.Therefore the utility model has novelty and progressive, and fills part and meet the important document of apply for utility model patent, hence files an application in accordance with the law, prays an ancient unit of weight office and grants quasi patent early, and the true feeling moral just.

Below the utility model is done one and describe in detail, only the above person only is preferred embodiment of the present utility model, when not limiting the scope that the utility model is implemented.Be that all equalizations of doing according to the utility model application range change and modify etc., all should still belong in the patent covering scope of the present utility model.

Claims

1. a water tap on-off structure is characterized in that, comprising:

One water tap has a water inlet and a water outlet;

One stream system, include a water intake end and a waterexit end, wherein the waterexit end is communicated with this water inlet, and this flow path system between this water intake end and this waterexit end comprises one first intake pipe and one second intake pipe at least, and this first intake pipe all is communicated with this waterexit end and water intake end with this second intake pipe; And

One control system comprises at least:

One first solenoid valve is arranged on this first intake pipe;

One second solenoid valve is arranged on this second intake pipe; And

One controller is respectively with this first solenoid valve and this second solenoid valve electrically connect.

2. water tap on-off structure as claimed in claim 1 is characterized in that, this controller is arranged on this water tap.

3. water tap on-off structure as claimed in claim 2 is characterized in that, this controller is provided with a water yield button.

4. water tap on-off structure as claimed in claim 1 is characterized in that this control system more comprises an inductor, be arranged in this water tap and with this controller electrically connect.

5. as claim 1 or 4 described water tap on-off structures, it is characterized in that the inflow of this first intake pipe equals the inflow of this second intake pipe.

6. as claim 1 or 4 described water tap on-off structures, it is characterized in that this second intake pipe inflow is 2 times of this first intake pipe inflow.

7. as claim 1 or 4 described water tap on-off structures, it is characterized in that, this flow path system more comprises one the 3rd intake pipe, and the 3rd intake pipe also is communicated with this waterexit end, and this control system more comprises one the 3rd solenoid valve, and the 3rd solenoid valve is arranged on the 3rd intake pipe, and with this controller electrically connect.

8. water tap on-off structure as claimed in claim 7 is characterized in that, this second intake pipe inflow is 2 times of this first intake pipe inflow, and the 3rd intake pipe inflow is 3 times of this first intake pipe inflow.

9. as claim 1 or 4 described water tap on-off structures, it is characterized in that this control system more includes a cold and hot control valve, is arranged on this water intake end.

10. water tap on-off structure as claimed in claim 9 is characterized in that, more comprises:

One hot water inlet pipe; And

One cold water inlet;

Wherein this hot water inlet pipe and this cold water inlet all are communicated in this cold and hot control valve.