CN104948805B - Connector and its control method - Google Patents
Connector and its control method Download PDFInfo
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- CN104948805B CN104948805B CN201410730206.XA CN201410730206A CN104948805B CN 104948805 B CN104948805 B CN 104948805B CN 201410730206 A CN201410730206 A CN 201410730206A CN 104948805 B CN104948805 B CN 104948805B
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- water
- delivery port
- sensing unit
- electric control
- water source
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K31/00—Actuating devices; Operating means; Releasing devices
- F16K31/02—Actuating devices; Operating means; Releasing devices electric; magnetic
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B49/00—Control, e.g. of pump delivery, or pump pressure of, or safety measures for, machines, pumps, or pumping installations, not otherwise provided for, or of interest apart from, groups F04B1/00 - F04B47/00
- F04B49/06—Control using electricity
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K11/00—Multiple-way valves, e.g. mixing valves; Pipe fittings incorporating such valves
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- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Domestic Plumbing Installations (AREA)
Abstract
The disclosure belongs to water-treatment technology field on a kind of connector and its control method.Connector includes:Connector body, water flow sensing unit, electric control element and control circuit;Water flow sensing unit and electric control element are connected with control circuit respectively;Connector body comprises at least delivery port and the first water inlet and the second water inlet that are connected respectively with delivery port, and the first water inlet is connected through water flow sensing unit with the first water source delivery port, and the second water inlet is connected through electric control element with second water source delivery port;When the first signal control electric control element that control circuit is sent according to water flow sensing unit is in the first working condition, the communication between the second water inlet and second water source delivery port;When the secondary signal control electric control element that control circuit is sent according to water flow sensing unit is in the second working condition, the path shut-off between the second water inlet and second water source delivery port.The problem of disclosure can solve control machinery valve one by one, and efficiency is low, it can reach the effect for improving control efficiency.
Description
Technical field
This disclosure relates to water-treatment technology field, more particularly to a kind of connector and its control method.
Background technology
Depotition cock refers to that water-outlet faucet can be controlled.Generally, the water inlet of depotition cock can go out with multichannel water source
The mouth of a river connects respectively, so as to control any water source water outlet all the way or control multichannel water source water outlet simultaneously in multichannel water source.
When controlling water outlet by depotition cock, one machinery valve can be set at depotition cock Shang Weimei roads water source,
When needing to control certain water source water outlet all the way, user can be with the machinery valve at the manual unlocking road water source, and the current at water source are successively
By water source delivery port and the water inlet of depotition cock, flowed out from depotition cock;When needing to forbid certain water source water outlet all the way, use
Family can be separated with the machinery valve at the manual-lock road water source, current by machinery valve, can not be flowed out by water source delivery port, from
And it can not be flowed out from depotition cock.
Publisher has found following defect at least be present in correlation technique during the disclosure is realized:When need simultaneously
When controlling multichannel water source, user needs to control the machinery valve at every road water source one by one, and control operation needs to consume the long period, leads
Cause control efficiency relatively low.
The content of the invention
Need to control the machinery valve at every road water source one by one to solve user, the problem of causing control efficiency relatively low, this public affairs
Open and provide a kind of connector and its control method.
According to the first aspect of the embodiment of the present disclosure, there is provided a kind of connector, the connector include:Connector body,
Water flow sensing unit, electric control element and control circuit;
The water flow sensing unit and the electric control element are connected with the control circuit respectively;
The connector body comprises at least delivery port and the first water inlet and second being connected respectively with the delivery port
Water inlet and delivery port, first water inlet are connected through the water flow sensing unit with the first water source delivery port, and described second enters
The mouth of a river is connected through the electric control element with second water source delivery port;
The first signal sent in the control circuit according to the water flow sensing unit controls the electric control element to be in the
During one working condition, the communication between second water inlet and the second water source delivery port;
The secondary signal sent in the control circuit according to the water flow sensing unit controls the electric control element to be in the
During two working conditions, the path shut-off between second water inlet and the second water source delivery port.
Optionally, the electric control element is the electrically-controlled valve of the flow velocity of current of the control through second water source delivery port outflow
Door.
Optionally, when second water source is storage tank, the electric control element is suction pump.
Optionally, when the second water source is storage tank, the electric control element includes:Electric control valve and suction pump;
Second water inlet is connected through the electric control valve and the suction pump with the second water source delivery port, or,
Second water inlet is connected through the suction pump and the electric control valve with the second water source delivery port.
Optionally, if first water source delivery port is at least two, each first water source delivery port is through a current
Sensor is connected with first water inlet, and each first water inlet is connected with the delivery port, each water flow sensing unit and institute
Control circuit is stated to be connected.
Optionally, if the second water source delivery port is at least two, each second water source delivery port is automatically controlled through one
Element is connected with second water inlet, and each second water inlet is connected with the delivery port, each electric control element pass through with it is described
Control circuit is connected.
Optionally, the water flow sensing unit is located in the tap belonging to first water source delivery port;Or, the current pass
Sensor is located in the connector body;Or, the water flow sensing unit is located at first water source delivery port and the connector
In pipeline between body.
Optionally, first water source delivery port is used to provide running water, and the second water source delivery port is used to provide
Filter obtains and the condensed water comprising impurity.
According to the second aspect of the embodiment of the present disclosure, there is provided a kind of control method of connector, methods described are used to control
Connector described in first aspect, methods described include:
The control circuit receives the Monitoring instruction that the water flow sensing unit is sent;
When carrying first signal in the Monitoring instruction, the electricity corresponding with the water flow sensing unit is controlled
Control element is in first working condition, when the electric control element is in first working condition, second water inlet
Communication mouthful between the second water source delivery port, first signal be the water flow sensing unit detect it is described
First water source delivery port begins to flow out what is sent after current;
When carrying the secondary signal in the Monitoring instruction, the electricity corresponding with the water flow sensing unit is controlled
Control element is in second working condition, when the electric control element is in second working condition, second water inlet
Path mouthful between the second water source delivery port turns off, the secondary signal be the water flow sensing unit detect it is described
Sent after first water source delivery port stopping outflow current.
Optionally, methods described, in addition to:
When the electric control element is the electric control valve of the flow velocity of current of the control through second water source delivery port outflow,
The control circuit controls the flow velocity of the current flowed out through the second water source delivery port by the electric control valve.
Optionally, when second water source is storage tank and the electric control element is suction pump, the control and the current
The electric control valve corresponding to sensor is in first working condition, including:
The control circuit controls the suction pump corresponding with the water flow sensing unit to be drawn water from the storage tank.
Optionally, when second water source is storage tank and the electric control element includes electric control valve and suction pump, the control
The system electric control element corresponding with the water flow sensing unit is in first working condition, including:
The control circuit controls the electric control valve corresponding with the water flow sensing unit to be in the described first work shape
State, and control the suction pump corresponding with the water flow sensing unit to be drawn water from the storage tank.
Optionally, methods described, in addition to:
If the second water source delivery port is at least two, in all electric control elements, the control circuit is according to pre-
If corresponding relation determine corresponding with the water flow sensing unit at least one electric control element.
The technical scheme provided by this disclosed embodiment can include the following benefits:
When the first signal control electric control element that control circuit is sent according to water flow sensing unit is in the first working condition,
Communication between second water inlet and second water source delivery port;In the second letter that control circuit is sent according to water flow sensing unit
When be in the second working condition, the path between the second water inlet and second water source delivery port turns off, and makes for number control electric control element
Control circuit can automatically control electric control element according to the first signal that water flow sensing unit is sent and connect the second water inlet and the
Path between two water source delivery ports, or, the secondary signal sent according to water flow sensing unit automatically control electric control element shut-off the
Path between two water inlets and second water source delivery port, controlled manually without user, solving user needs to control one by one
The machinery valve at Zhi Mei roads water source, the problem of causing control efficiency relatively low, the effect for improving control efficiency is reached.
It should be appreciated that the general description and following detailed description of the above are only exemplary, this can not be limited
It is open.
Brief description of the drawings
Accompanying drawing herein is merged in specification and forms a part for present disclosure specification, shows and meets the disclosure
Embodiment, and be used to together with specification to explain the principle of the disclosure.
Fig. 1 is a kind of block diagram of connector according to an exemplary embodiment.
Fig. 2 is a kind of block diagram of connector according to an exemplary embodiment.
Fig. 3 is a kind of flow chart of the control method of connector according to an exemplary embodiment.
Fig. 4 is a kind of flow chart of the control method of connector according to another exemplary embodiment.
Embodiment
Here exemplary embodiment will be illustrated in detail, its example is illustrated in the accompanying drawings.Following description is related to
During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represent same or analogous key element.Following exemplary embodiment
Described in embodiment do not represent all embodiments consistent with the disclosure.On the contrary, they be only with it is such as appended
The example of the consistent apparatus and method of some aspects be described in detail in claims, the disclosure.
Fig. 1 is a kind of block diagram of connector according to an exemplary embodiment, as shown in figure 1, the connector includes:
Connector body 100, water flow sensing unit 101, electric control element 102 and control circuit 103;
Water flow sensing unit 101 and electric control element 102 are connected with control circuit 103 respectively;
Connector body 100 comprise at least delivery port 104 and the first water inlet 105 for being connected respectively with delivery port 104 and
Second water inlet 106, the first water inlet 105 are connected through water flow sensing unit 101 with the first water source delivery port 107, the second water inlet
106 are connected through electric control element 102 with second water source delivery port 108;
The first work is in the first signal control electric control element 102 that control circuit 103 is sent according to water flow sensing unit 101
When making state, the communication between the second water inlet 106 and second water source delivery port 108;
The second work is in the secondary signal control electric control element 102 that control circuit 103 is sent according to water flow sensing unit 101
When making state, the path shut-off between the second water inlet 106 and second water source delivery port 108.
In summary, the connector that the disclosure provides, in the first signal control that control circuit is sent according to water flow sensing unit
When electric control element processed is in the first working condition, the communication between the second water inlet and second water source delivery port;Controlling
When secondary signal that circuit is sent according to water flow sensing unit control electric control element is in the second working condition, the second water inlet and the
Path shut-off between two water source delivery ports so that control circuit can be controlled automatically according to the first signal that water flow sensing unit is sent
Electric control element processed connects the path between the second water inlet and second water source delivery port, or, the sent according to water flow sensing unit
Binary signal automatically controls the path between electric control element the second water inlet of shut-off and second water source delivery port, without user's hand
Dynamic control, solving user needs to control the machinery valve at every road water source one by one, the problem of causing control efficiency relatively low, reaches
Improve the effect of control efficiency.
Fig. 2 is a kind of block diagram of connector according to an exemplary embodiment, as shown in Fig. 2 the connector includes:
Connector body 200, water flow sensing unit 201, electric control element 202 and control circuit 203.
Water flow sensing unit 201 and electric control element 202 are connected with control circuit 203 respectively.
Wherein, water flow sensing unit 201 can be connected by wired or wireless with control circuit 203.Such as water flow sensing unit
201 can be connected by wire or netting twine with control circuit 203, or, water flow sensing unit 201 can pass through bluetooth, WiFi
Wireless networks such as (Widely Fidelity, Wireless Fidelitys) is connected with control circuit 203.Likewise, electric control element 202 also may be used
To be connected by wired or wireless with control circuit 203, do not repeat herein.
After control circuit 203 is connected with water flow sensing unit 201, the signal that water flow sensing unit 201 is sent is received, according to signal
The control signal for controlling electric control element 202 is generated, sends control signals to electric control element 202.
Water flow sensing unit 201 is that the water flow sensing unit 201 can be impeller for detecting whether the sensor of current be present
Formula water flow sensing unit or other types of water flow sensing unit, the present embodiment do not limit the type of water flow sensing unit 201.
If water flow sensing unit 201 is vane type water flow sensing unit, when current flow through water flow sensing unit 201, current drive the leaf of magnetic
Wheel rotates so that the Hall sensor close to impeller produces pulse signal, and pulse signal is sent to control by water flow sensing unit 201
Circuit 203.
Electric control element 202 is used for the on off operating mode of control access.Such as when electric control element 202 receives control circuit 203
During the first control signal sent, control access is in connected state;Sent out when electric control element 202 does not receive control circuit 203
During the second control signal sent, control access is off state.
Connector body 200 comprise at least delivery port 204 and the first water inlet 205 for being connected respectively with delivery port 204 and
Second water inlet 206, the first water inlet 205 are connected through water flow sensing unit 201 with the first water source delivery port 207, the second water inlet
206 are connected through electric control element 202 with second water source delivery port 208.
Wherein, the first water source delivery port 207 can be the delivery port of total valve, now, connector body 200 and total valve
It is connected, the total valve can be machinery valve or electric control valve, can also be other types of valve, the present embodiment
The type of total valve is not limited.
In the present embodiment, total valve is used to control the current for flowing to connector body 200.Wherein, it is in and beats in total valve
During open state, the water at the first water source flows through the first water source delivery port 207 and flows to the first water inlet 205, is flowed out from delivery port 204;
When total valve is closed, the first water source delivery port 207 flows out without current so that flows into the first water inlet without current
Mouth 205.
Water flow sensing unit 201 is provided between the first water source delivery port 207 and the first water inlet 205, when the first water source
Current when starting to flow to the first water inlet 205 through the first water source delivery port 207, water flow sensing unit 201 detects the presence of current,
The first signal is sent to control circuit 203, and the first signal, which is water flow sensing unit 201, is detecting that the first water source delivery port 207 opens
Sent after beginning outflow current.When the current at the first water source stop flowing to the first water inlet 205 through the first water source delivery port 207
When, water flow sensing unit 201 is detected in the absence of current, sends secondary signal to control circuit 203, secondary signal is current sensing
What device 201 was sent after detecting that the first water source delivery port 207 stops outflow current.
In the present embodiment, electric control element 202 controls the path between the second water inlet 206 and second water source delivery port 208
On off operating mode.Wherein, when electric control element 202 is in open mode, the water of second water source flows through second water source delivery port 208
The second water inlet 206 is flowed to, is flowed out from delivery port 204;When electric control element 202 is closed, second water source delivery port
208 flow out without current so that flow into the second water inlet 206 without current.
The first work is in the first signal control electric control element 202 that control circuit 203 is sent according to water flow sensing unit 201
When making state, the communication between the second water inlet 206 and second water source delivery port 208.
When electric control element 202 receives the first control signal, make itself to be in open mode, i.e. the first working condition,
Now, the communication between the second water inlet 206 and second water source delivery port 208.Wherein, the first control signal is control electricity
What road 203 generated after the first signal is received.
The second work is in the secondary signal control electric control element 202 that control circuit 203 is sent according to water flow sensing unit 201
When making state, the path shut-off between the second water inlet 206 and second water source delivery port 208.
When electric control element 202 receives the second control signal, the closed mode residing for itself, i.e., the second work shape are kept
State, now, the path shut-off between the second water inlet 206 and second water source delivery port 208.Wherein, the second control signal is control
What circuit 203 processed generated after the second control signal is received.
It should be noted that the first water source delivery port 207 may be used to provide running water, second water source delivery port 208 is used
It is filtrated to get and condensed water comprising impurity in providing.
Wherein, condensed water can be the water for including impurity obtained after purified device filters.Because running water can not be direct
Drink, be generally used by the user to cleaning of objects, although containing impurity in condensed water, have no effect on the cleaning to object, therefore,
Running water and condensed water can be gone out mixing in delivery port 204, use the water cleaning of objects after mixing so that condensed water can
It is fully used, with saving water resource.
It should be noted that electric control element 202 can be realized by Various Components, present embodiment assumes that electric control element 202
Including at least one of electric control valve and suction pump, electric control valve, electric control element are included to electric control element 202 separately below
202 include suction pump, electric control element 202 includes electric control valve and the situation of suction pump is described:
First, electric control element 202 is the electric control valve of the flow velocity for the current that control is flowed out through second water source delivery port 208.
When electric control element 202 is electric control valve, electric control valve with the on off operating mode of control access except that be able to can also be controlled
The flow velocity for the current that system flows out through second water source delivery port 208.When the flow velocity difference of current, the first water source outflow current with
The current of second water source outflow can be mixed according to the ratio of flow velocity, to reach the effect of the water outlet of regulation connector.
When the first water source is running water, second water source is including of being obtained after being filtered by water purifier to running water
During the condensed water of impurity, running water and condensed water can proportionally be mixed.For example if user needs impurity less
Water, the flow velocity of condensed water can be reduced;If user needs the more water of impurity, the flow velocity of condensed water can be increased.Or, when first
Water source is fresh milk, when second water source is coffee, can proportionally be mixed fresh milk and coffee.For example if user needs
The denseer beverage of milk taste, the flow velocity of coffee can be reduced;If user needs the denseer beverage of caf, the stream of coffee can be increased
Speed.Or, it is hot water to work as the first water source, when second water source is cold water, can proportionally be mixed hot water and cold water.Than
Such as, if user needs the slightly higher warm water of temperature, the flow velocity of cold water can be reduced;, can be with if user needs the slightly lower warm water of temperature
Increase the flow velocity of cold water.
Such as if the flow velocity from the current of the first water source outflow is 1.5 meter per seconds, from the stream of the current of second water source outflow
Speed is 1.5 meter per seconds, then in the water that delivery port 204 flows out, the volume and the water of second water source outflow of the current of the first water source outflow
The ratio between volume of stream is 1:1;If the flow velocity from the current of the first water source outflow is 1.5 meter per seconds, from the current of second water source outflow
Flow velocity be 0.5 meter per second, then in the water that delivery port 204 flows out, volume and the second water source of the current of the first water source outflow flow out
The ratio between the volume of current be 3:1.
In the flow velocity for the current that control is flowed out through second water source delivery port 208, control circuit 203 can be according to the first control
Signal coutroi velocity processed.For example control circuit 203 can carry flow velocity numerical value in the first control signal, electric control valve according to
Flow velocity numerical value determines flow velocity.Or, flow velocity and the corresponding relation of grade are stored with control circuit 203 and electric control valve respectively, control
Circuit 203 processed can carry level value in the first control signal, and electric control valve determines flow velocity according to level value.Certainly,
Electric control valve can also determine flow velocity otherwise, and the present embodiment is not construed as limiting.
Second, when second water source is storage tank, electric control element 202 is suction pump.
Storage tank is the water tank for storing water.Wherein, the water stored in storage tank can be the water that other water sources provide,
Can also be the water obtained after the water provided other water sources is handled, such as, condensed water or use after Water purifier filter
Coffee or cold water that pure water bubbles out etc..
When electric control element 202 is suction pump, if suction pump receives the first control signal, draws water, take out from storage tank
The water gone out flows out through second water source delivery port 208;If suction pump receives the second control signal, stop drawing water from storage tank,
Second water source delivery port 208 flows out without current.
3rd, when second water source is storage tank, electric control element 202 includes:Electric control valve and suction pump;Second water inlet
206 are connected through electric control valve and suction pump with second water source delivery port 208, or, the second water inlet 206 is through suction pump and electrically-controlled valve
Door is connected with second water source delivery port 208.
When electric control element 202 includes electric control valve and suction pump, electric control valve and suction pump are connected in series, now, the
Two water inlets 206 first can be connected with electric control valve, and electric control valve is connected with suction pump again, suction pump again with second water source water outlet
Mouth 208 is connected;Or, second water inlet 206 first can be connected with suction pump, suction pump is connected with electric control valve again, electric control valve
It is connected again with second water source delivery port 208.
If electric control valve receives the first control signal, make itself to be in open mode, i.e. the first working condition, now,
Suction pump draws water from storage tank, and the water of extraction flows out through second water source delivery port 208;If electric control valve receives the second control
Signal, the closed mode residing for itself, i.e. the second working condition are kept, now, stop drawing water from storage tank, second water source goes out
Flowed out without current at the mouth of a river 208.
Optionally, if the first water source delivery port 207 is at least two, each first water source delivery port 207 is through a water
Flow sensor 201 is connected with first water inlet 205, and each first water inlet 205 is connected with delivery port 204, each current
Sensor 201 is connected with control circuit 203.
When N number of first water source be present, connector body 200 includes N number of water flow sensing unit 201 and N number of first water inlet
205, now, each first water source delivery port 207 in N number of first water source delivery port 207 is through a water flow sensing unit 201 and
One water inlet 205 is connected, and N is the positive integer more than 1.Each water flow sensing unit 201 is also connected with control circuit 203 so that every
Individual water flow sensing unit 201 can send signal to control circuit 203.Wherein, water flow sensing unit 201 and the company of control circuit 203
The mode of connecing may refer to foregoing description, not repeat herein.
Illustrated in Fig. 2 using N as 2, now connector body 200 includes two water flow sensing units 201 and 2 first are entered
The mouth of a river 205, each first water inlet 205 are connected with a water flow sensing unit 201, each water flow sensing unit 201 again with one
One water source delivery port 207 is connected.
Optionally, if second water source delivery port 208 is at least two, each second water source delivery port 208 is through an electricity
Control element 202 is connected with second water inlet 206, and each second water inlet 206 is connected with delivery port 204, each automatically controlled member
Part 202 is connected with control circuit 203.
When M second water source be present, connector body 200 includes M electric control element 202 and M the second water inlets
206, now, each second water source delivery port 208 in M second water source delivery port 208 is through an electric control element 202 and second
Water inlet 206 is connected, and M is the positive integer more than 1.Each electric control element 202 is also connected with control circuit 203 so that Mei Ge electricity
Control element 202 can receive the control signal of the transmission of control circuit 203.Wherein, electric control element 202 and control circuit 203
Connected mode may refer to foregoing description, not repeat herein.
Illustrated in Fig. 2 using M as 2, now connector body 200 includes two electric control elements 202 and 2 second water inlets
Mouthfuls 206, each second water inlet 206 is connected with an electric control element 202, each electric control element 202 again with a second water source
Delivery port 208 is connected.
Wherein, the number of the first water source delivery port 207 can be identical with the number of second water source delivery port 208, can also
Difference, the present embodiment are not construed as limiting.
Optionally, water flow sensing unit 201 is located in the tap belonging to the first water source delivery port 207;Or, water flow sensing unit
201 are located in connector body 200;Or, water flow sensing unit 201 be located at the first water source delivery port 207 and connector body 200 it
Between pipeline in.
Because water flow sensing unit 201 is used to detect whether the first water source delivery port 207 has current outflow, therefore, current pass
Sensor 201 can be located in the tap belonging to the first water source delivery port 207, when tap controls current from the first water source delivery port
During 207 outflow, water flow sensing unit 201 can detect current;Or, water flow sensing unit 201 can be located at connector body 200
In, when there is current to be flowed into from the first water inlet 205, water flow sensing unit 201 can detect current;Or, water flow sensing unit 201
Can be in the pipeline between the first water source delivery port 207 and connector body 200, when having current from the first water source delivery port
207 when flowing to the first water inlet 205, it is necessary to by the pipeline between the first water source delivery port 207 and connector body 200, water
Flow sensor 201 can detect current.Certainly, water flow sensing unit 201 may be located on that the first water source delivery port can be detected
The other positions of 207 outflow current, the present embodiment are not construed as limiting.
In summary, the connector that the disclosure provides, in the first signal control that control circuit is sent according to water flow sensing unit
When electric control element processed is in the first working condition, the communication between the second water inlet and second water source delivery port;Controlling
When secondary signal that circuit is sent according to water flow sensing unit control electric control element is in the second working condition, the second water inlet and the
Path shut-off between two water source delivery ports so that control circuit can be controlled automatically according to the first signal that water flow sensing unit is sent
Electric control element processed connects the path between the second water inlet and second water source delivery port, or, the sent according to water flow sensing unit
Binary signal automatically controls the path between electric control element the second water inlet of shut-off and second water source delivery port, without user's hand
Dynamic control, solving user needs to control the machinery valve at every road water source one by one, the problem of causing control efficiency relatively low, reaches
Improve the effect of control efficiency.
In addition, electric control element is the electric control valve of the flow velocity of current of the control through the outflow of second water source delivery port so that warp
The current of first water source delivery port outflow and the current flowed out through second water source delivery port can be mixed according to the ratio of flow velocity
Close, reach the effect of the water outlet of regulation connector.
In addition, the first water source delivery port is used to provide running water, second water source delivery port is filtrated to get dense for offer
Shrink, when user uses running water cleaning of objects, condensed water is synchronously discharged, user is used running water and condensed water
Mixed water cleaning of objects, ensure that condensed water can be fully used, with saving water resource.
Fig. 3 is a kind of flow chart of the control method of connector according to an exemplary embodiment, the connector
Control method can apply in the connector shown in Fig. 1 or Fig. 2, as shown in figure 3, the control method of the connector is including following
Step.
In step 301, control circuit receives the Monitoring instruction that water flow sensing unit is sent.
In step 302, when the first signal is carried in Monitoring instruction, automatically controlled member corresponding with water flow sensing unit is controlled
Part is in the first working condition, when electric control element is in the first working condition, the second water inlet and second water source delivery port it
Between communication, the first signal is that water flow sensing unit is sent after detecting that the first water source delivery port begins to flow out current.
In step 303, when secondary signal is carried in Monitoring instruction, automatically controlled member corresponding with water flow sensing unit is controlled
Part is in the second working condition, when electric control element is in the second working condition, the second water inlet and second water source delivery port it
Between path shut-off, secondary signal is water flow sensing unit to be sent after detecting that the first water source delivery port stops outflow current.
In summary, the control method for the connector that the disclosure provides, by carrying the first signal in Monitoring instruction
When, control electric control element corresponding with water flow sensing unit to be in the first working condition, the first working condition is in electric control element
When, the communication between the second water inlet and second water source delivery port;When secondary signal is carried in Monitoring instruction, control
Electric control element corresponding with water flow sensing unit is in the second working condition, when electric control element is in the second working condition, second
Path shut-off between water inlet and second water source delivery port so that control circuit can be according to the first of water flow sensing unit transmission
Signal automatically controls the path between electric control element the second water inlet of connection and second water source delivery port, or, is sensed according to current
The secondary signal that device is sent automatically controls the path between electric control element the second water inlet of shut-off and second water source delivery port, without
User is needed to control manually, solving user needs to control the machinery valve at every road water source one by one, causes control efficiency relatively low
Problem, the effect for improving control efficiency is reached.
Fig. 4 is a kind of flow chart of the control method of connector according to another exemplary embodiment, the connector
Control method can apply in the connector shown in Fig. 1 or Fig. 2, as shown in figure 4, the control method of the connector include such as
Lower step.
In step 401, control circuit receives the Monitoring instruction that water flow sensing unit is sent.
Monitoring instruction is after water flow sensing unit is monitored to the first water source delivery port with the presence or absence of current, to control circuit
Send.Wherein, water flow sensing unit sends the mode and water flow sensing unit and the company of control circuit of Monitoring instruction to control circuit
It is corresponding to connect mode.For example when water flow sensing unit is connected through wire with control circuit, water flow sensing unit is through wire to control circuit
Send Monitoring instruction;When water flow sensing unit is connected through wireless network with control circuit, water flow sensing unit is through wireless network to control
Circuit processed sends Monitoring instruction.
In the present embodiment, the description in the detailed embodiment as shown in Figure 2 of flow of water flow sensing unit monitoring current, herein not
Repeat.
In step 402, when the first signal is carried in Monitoring instruction, if second water source delivery port is at least two,
In all electric control elements, control circuit determines at least one electricity corresponding with water flow sensing unit according to default corresponding relation
Element is controlled, controls electric control element corresponding with water flow sensing unit to be in the first working condition, the first work is in electric control element
During state, the communication between the second water inlet and second water source delivery port, the first signal is that water flow sensing unit is detecting
First water source delivery port begins to flow out what is sent after current.
If in the presence of the first signal is carried in a second water source delivery port and Monitoring instruction, control circuit can control
The electric control element being connected with the second water source delivery port is in the first working condition, and now, the second water inlet goes out with second water source
Communication between the mouth of a river.I.e. control circuit control electric control element is in open mode, and the water of second water source flows through the second water
Source delivery port flows into the second water inlet, is flowed out from delivery port.
If in the presence of the first signal is carried at least two second water source delivery ports and Monitoring instruction, control circuit can be controlled
Make all or part of electric control element and be in the first working condition.When control circuit needs control section electric control element to be in the first work
When making state, the corresponding relation of water flow sensing unit and electric control element can be pre-set, when receiving Monitoring instruction, is first determined
The water flow sensing unit of the Monitoring instruction is sent, then electric control element corresponding with the water flow sensing unit is searched in corresponding relation, control
Make these electric control elements and be in the first working condition.
For example water flow sensing unit 1 is corresponding with electric control element 1 and electric control element 2 respectively, water flow sensing unit 2 and electric control element 3
It is corresponding, if control circuit receives the Monitoring instruction of the transmission of water flow sensing unit 1, control electric control element 1 and electric control element 2 is in the
One working condition.
It should be noted that electric control element can be realized by Various Components, present embodiment assumes that electric control element includes electricity
Control at least one of valve and suction pump, separately below to electric control element include electric control valve, electric control element include suction pump,
Electric control element includes electric control valve and the situation of suction pump is described:
First, when electric control element is the electric control valve of the flow velocity of current of the control through the outflow of second water source delivery port, control
Circuit processed controls the flow velocity of the current flowed out through second water source delivery port by electric control valve.
Wherein, the flow of the flow velocity of current of the electric control valve control through the outflow of second water source delivery port is in detail as shown in Figure 2
Description in embodiment, is not repeated herein.
Second, when second water source is storage tank and electric control element is suction pump, control electricity corresponding with water flow sensing unit
Control element is in the first working condition, including:Control circuit controls suction pump corresponding with water flow sensing unit to be taken out from storage tank
Water.
Storage tank is the water tank for storing water.Wherein, the water stored in storage tank can be the water that other water sources provide,
Can also be the water obtained after the water provided other water sources is handled, such as, condensed water or use after Water purifier filter
Coffee or cold water that pure water bubbles out etc..
Wherein, the description in the embodiment of the flow that suction pump draws water from storage tank in detail as shown in Figure 2, does not go to live in the household of one's in-laws on getting married herein
State.
3rd, when second water source is storage tank and electric control element includes electric control valve and suction pump, control passes with current
Electric control element corresponding to sensor is in the first working condition, including:Control circuit controls electrically-controlled valve corresponding with water flow sensing unit
Door is in the first working condition, and controls suction pump corresponding with water flow sensing unit to be drawn water from storage tank.
Wherein, electric control valve, which is set, itself is in the first working condition and flow that suction pump draws water from storage tank refers to
The description in embodiment shown in Fig. 2, is not repeated herein.
It should be noted that start being detected by water flow sensing unit after the first water source delivery port outflow current, control
Circuit control electric control element processed is in the first working condition so that the path between the first water source delivery port and the first water inlet connects
Logical, the current flowed out through second water source delivery port can flow into the first water inlet, then be flowed out from delivery port, without user's hand
Dynamic control electric control element is in the first working condition, can improve the control efficiency to current.
In step 403, when secondary signal is carried in Monitoring instruction, automatically controlled member corresponding with water flow sensing unit is controlled
Part is in the second working condition, when electric control element is in the second working condition, the second water inlet and second water source delivery port it
Between path shut-off, secondary signal is water flow sensing unit to be sent after detecting that the first water source delivery port stops outflow current.
Wherein, when carrying secondary signal in the Monitoring instruction that control circuit receives, control circuit controls automatically controlled member
Part keeps the closed mode residing for its own, i.e. the second working condition, now, between the second water inlet and second water source delivery port
Path shut-off.
It should be noted that stop being detected by water flow sensing unit after the first water source delivery port outflow current, control
Circuit control electric control element processed is in the second working condition so that the path between second water source delivery port and the second water inlet closes
Disconnected, no water flows through the outflow of second water source delivery port, controls electric control element to be in the second working condition manually without user,
The control efficiency to current can be improved.
In summary, the control method for the connector that the disclosure provides, when the first signal is carried in Monitoring instruction, control
System electric control element corresponding with water flow sensing unit is in the first working condition, when electric control element is in the first working condition, the
Communication between two water inlets and second water source delivery port;When secondary signal is carried in Monitoring instruction, control and water
Electric control element corresponding to flow sensor is in the second working condition, when electric control element is in the second working condition, the second water inlet
Path between mouth and second water source delivery port turns off so that the first signal that control circuit can be sent according to water flow sensing unit
The path between electric control element the second water inlet of connection and second water source delivery port is automatically controlled, or, is sent out according to water flow sensing unit
The secondary signal sent automatically controls the path between electric control element the second water inlet of shut-off and second water source delivery port, without
User controls manually, and solving user needs to control the machinery valve at every road water source one by one, the problem of causing control efficiency relatively low,
The effect for improving control efficiency is reached.
In addition, controlling the flow velocity of the current flowed out through second water source delivery port by electric control element by control circuit, make
Obtain the current through the first water source delivery port outflow and the current through the outflow of second water source delivery port can enter according to the ratio of flow velocity
Row mixing, reach the effect of the water outlet of regulation connector.
Those skilled in the art will readily occur to this other implementations after considering specification and putting into practice disclosure herein
Scheme.The application is intended to this any modification, purposes or adaptations, and these modifications, purposes or adaptability become
Change and follow general principle originally and including the undocumented common knowledge or conventional techniques in the art of the disclosure.
Description and embodiments are considered only as exemplary, and this true scope and spirit are pointed out by following claim.
It should be appreciated that the precision architecture for being described above and being shown in the drawings originally is not limited to, and can
To carry out various modifications and changes without departing from the scope.This scope is only limited by appended claim.
Claims (13)
1. a kind of connector, it is characterised in that the connector includes:Connector body, water flow sensing unit, electric control element and control
Circuit processed;
The water flow sensing unit and the electric control element are connected with the control circuit respectively;
The connector body comprises at least delivery port and the first water inlet being connected respectively with the delivery port and the second water inlet
Mouthful, first water inlet is connected through the water flow sensing unit with the first water source delivery port, and second water inlet is through the electricity
Control element is connected with second water source delivery port;
The electric control element is controlled to be in the first work in the first signal that the control circuit is sent according to the water flow sensing unit
When making state, the communication between second water inlet and the second water source delivery port;
The electric control element is controlled to be in the second work in the secondary signal that the control circuit is sent according to the water flow sensing unit
When making state, the path shut-off between second water inlet and the second water source delivery port;
Wherein, first signal is the water flow sensing unit after detecting that first water source delivery port begins to flow out current
Send, the secondary signal is that the water flow sensing unit is sent out after detecting that first water source delivery port stops outflow current
Send.
2. connector according to claim 1, it is characterised in that the electric control element is that control goes out through the second water source
The electric control valve of the flow velocity of the current of mouth of a river outflow.
3. connector according to claim 1, it is characterised in that when second water source is storage tank, the electric control element
It is suction pump.
4. connector according to claim 1, it is characterised in that described automatically controlled when the second water source is storage tank
Element includes electric control valve and suction pump;
Second water inlet is connected through the electric control valve and the suction pump with the second water source delivery port, or, described
Second water inlet is connected through the suction pump and the electric control valve with the second water source delivery port.
5. according to the connector described in any one of Claims 1-4, it is characterised in that if first water source delivery port is extremely
Few two, then each first water source delivery port is connected through a water flow sensing unit with first water inlet, each first water inlet
Mouth is connected with the delivery port, and each water flow sensing unit is connected with the control circuit.
6. according to the connector described in any one of Claims 1-4, it is characterised in that if the second water source delivery port is extremely
Few two, then each second water source delivery port is connected through an electric control element with second water inlet, each second water inlet
It is connected with the delivery port, each electric control element is connected with the control circuit.
7. connector according to claim 1, it is characterised in that
The water flow sensing unit is located in the tap belonging to first water source delivery port;Or,
The water flow sensing unit is located in the connector body;Or,
In pipeline of the water flow sensing unit between first water source delivery port and the connector body.
8. according to the connector described in any one of Claims 1-4 or claim 7, it is characterised in that first water source
Delivery port is used to provide running water, and the second water source delivery port is filtrated to get for offer and the condensed water comprising impurity.
9. a kind of control method of connector, it is characterised in that methods described is used to control such as any one of claim 1 to 8 institute
The connector stated, methods described include:
The control circuit receives the Monitoring instruction that the water flow sensing unit is sent;
When carrying first signal in the Monitoring instruction, the automatically controlled member corresponding with the water flow sensing unit is controlled
Part is in first working condition, when the electric control element is in first working condition, second water inlet with
Communication between the second water source delivery port, first signal are that the water flow sensing unit is detecting described first
Water source delivery port begins to flow out what is sent after current;
When carrying the secondary signal in the Monitoring instruction, the automatically controlled member corresponding with the water flow sensing unit is controlled
Part is in second working condition, when the electric control element is in second working condition, second water inlet with
Path shut-off between the second water source delivery port, the secondary signal is that the water flow sensing unit is detecting described first
Sent after water source delivery port stopping outflow current.
10. according to the method for claim 9, it is characterised in that methods described, in addition to:
It is described when the electric control element is the electric control valve of the flow velocity of current of the control through second water source delivery port outflow
Control circuit controls the flow velocity of the current flowed out through the second water source delivery port by the electric control valve.
11. according to the method for claim 9, it is characterised in that when second water source is storage tank and the electric control element is
It is described to control the electric control element corresponding with the water flow sensing unit to be in first working condition during suction pump, including:
The control circuit controls the suction pump corresponding with the water flow sensing unit to be drawn water from the storage tank.
12. according to the method for claim 9, it is characterised in that when second water source is storage tank and the electric control element bag
It is described to control the electric control element corresponding with the water flow sensing unit to be in first work when including electric control valve and suction pump
Make state, including:
The control circuit controls the electric control valve corresponding with the water flow sensing unit to be in first working condition, and
The control suction pump corresponding with the water flow sensing unit draws water from the storage tank.
13. according to the method described in any one of claim 9 to 12, it is characterised in that methods described, in addition to:
If the second water source delivery port is at least two, in all electric control elements, the control circuit is according to default
Corresponding relation determines at least one electric control element corresponding with the water flow sensing unit.
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CN201410730206.XA CN104948805B (en) | 2014-12-03 | 2014-12-03 | Connector and its control method |
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CN201410730206.XA CN104948805B (en) | 2014-12-03 | 2014-12-03 | Connector and its control method |
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JP2004278761A (en) * | 2003-03-18 | 2004-10-07 | Yanmar Sangyo Kk | Composite single faucet |
CN101424447B (en) * | 2008-10-07 | 2011-02-02 | 艾欧史密斯(中国)热水器有限公司 | Mixed energy thermostatic control water heater |
CN101503223A (en) * | 2009-03-14 | 2009-08-12 | 李锦洪 | Waste water reclamation apparatus |
CN202430781U (en) * | 2012-01-17 | 2012-09-12 | 路达(厦门)工业有限公司 | Multifunctional kitchen water treatment system |
CN103523863B (en) * | 2013-10-21 | 2015-05-27 | 柯照 | Household water recycling system and method for prolonging life of filter element of water purifier in household water recycling system |
CN203928472U (en) * | 2014-07-17 | 2014-11-05 | 龚康 | upper water control system |
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