CN101900216B - Discharge mechanism capable of controlling water temperature and flow - Google Patents

Abstract

The invention discloses a discharge mechanism capable of controlling water temperature and flow. A water temperature adjusting mechanism comprises a mixing valve and a temperature motor; two water inlets of the mixing valve are respectively connected with cold and hot water pipes; the temperature motor controls the action of the mixing valve; a flow adjusting mechanism comprises a flow valve and a flow motor; the flow valve is connected with the outlet of the mixing valve; the flow motor controls the action of the flow valve; the water temperature of the cold water pipe is TC, and the flow is FC; the water temperature in the hot water pipe is TH, and the flow is FH; and the water temperature of the outlet of the flow valve is TM. A control device obtains the data of FC, TC, TH, FH, Tm, TM' and FM', controls the action of the flow valve according to the data so as to adjust the flow, calculates A1 and A2 according to the data, makes comparison between A1 and A2 and controls the action of the mixing valve according to the comparison result so as to adjust the temperature; therefore, a, the mixing valve is controlled by using the A1 and A2 result; the temperature adjusting speed is fast, and the adjustment is accurate; b, the invention skillfully combines the flow valve and the mixing valve, and the user can adjust the discharge water temperature and the discharge water flow; and the invention has practicality and saves water resource.

Description

The effluent mechanism of ability control water temperature and flow

Technical field

The present invention relates to the effluent mechanism of a kind of ability control water temperature and flow.

Background technique

At present, along with growth in the living standard and development of science and technology, electronic faucet multiple new sanitaryware appearred on the market, for example.Be provided with processor in the said electronic faucet, be provided with temperature controlled valve core in the processor, utilize temperature controlled valve core control water outlet water temperature, make the water outlet water temperature keep constant.Though electronic faucet can be realized the precisely advantage of control water outlet water temperature of intelligence, also have following shortcoming: 1. temperature controlled valve core is prone to scaling, and working life is shorter; 2. electronic faucet can't use after having a power failure.

To above-mentioned deficiency, the someone has proposed solution, like the patent CN200420150310.3 of Chinese patent database at bulletin on October 25th, 2006.A kind of numerical control is the constant temperature water supply tap initiatively, comprise that structure is identical, be used for importing respectively hot and cold water two valves, derive the depotition cock of cold and hot mixing water, said depotition cock comprises the current diverter switch, said valve comprises Joystick, valve body.Said numerical control initiatively constant temperature water supply tap also comprises governor circuit; Said valve also comprises valve driving mechanism, entering water temp testing circuit, flow detector; The signal output part of said entering water temp testing circuit, flow detector is connected with the signal input part of said governor circuit respectively; The control signal input end of said valve driving mechanism is connected said valve driving mechanism and said valve Joystick mechanical connection with the control signal output terminal of said governor circuit.Said numerical control initiatively constant temperature water supply tap also comprises the water outlet temperature sensing circuit; Said water outlet temperature sensing circuit comprises the water outlet temperature transducer; Be arranged at the water outlet place of said depotition cock, the testing signal output terminal of said water outlet temperature sensing circuit is electrically connected with said governor circuit.Contrast traditional temperature control valve; It is high that CN200420150310.3 has the constant temperature degree of accuracy, the advantage that control rate is fast, but also have following deficiency: 1. when opening; The user rotates the handle control water-exit temperature of two valves; Governor circuit is preserved water-exit temperature, and governor circuit keeps this water-exit temperature automatically then, and water-exit temperature is set inconvenience, inaccurate; 2. manual control can't realize the accurate control of the water outlet water yield, water-exit temperature; 3. the user can't realize the adjusting of the water outlet water yield, and governor circuit is controlled two valves and made its maintenance water-exit temperature after setting, and it also is the water flow maintenance that water-exit temperature keeps, and can't regulate.

Summary of the invention

The invention provides the effluent mechanism of ability control water temperature and flow, it has overcome the existing deficiency of the water supply stopcock in the background technique.

The technological scheme that is adopted that the present invention solves its technical problem is:

The effluent mechanism of ability control water temperature and flow, it comprises cold water pipe, hot-water line, water temperature controlling mechanism, flow control device, control panel and control gear; Water temperature controlling mechanism comprises mixing valve and temperature motor, and two water intakes of mixing valve are connected cool and hot water pipe respectively, the action of temperature Electric Machine Control mixing valve; Flow control device comprises Flow valve and flow motor, and Flow valve connects the outlet of mixing valve, the action of flow Electric Machine Control Flow valve;

The water temperature of cold water pipe is T _C, flow is F _CWater temperature in the hot-water line is T _H, flow is F _HThe water temperature of the outlet of Flow valve is T _MControl panel is used to supply the user to import setting temperature T _M` and setting flow F <sub>M</sub>`;

Said control gear comprises:

The temperature computation module, it comprises:

First computing module, it is used to obtain T _C, F _C, T _H, F _HAnd T _M`, and through those data computation A1 and A2, wherein A1 is (T <sub>H</sub>-T <sub>M</sub>`)/(T _M`-T _C), A2 is F _C/ F _H, relatively A1 and A2 produce first temperature signal with control temperature machine operation according to comparative result, and the mixing valve action is to realize the temperature coarse adjustment; And

Second computing module is used to obtain T _MAnd T _M`, relatively T <sub>M</sub>And T <sub>M</sub>` produces second temperature signal with control temperature machine operation according to comparative result, and the mixing valve action is to realize the temperature accurate adjustment; And

The flow rate calculation module, it obtains F _M`, F <sub>C</sub>And F <sub>H</sub>, compare F <sub>M</sub>` and F _CAnd F _HSum produces flow control signal with the control flow rate machine operation according to comparative result, and the Flow valve action is called second computing module then to realize Flow-rate adjustment.

Among one preferred embodiment: said temperature computation module also comprises judge module, and judge module judges whether A2 is positioned within the predictive error of A1, if then call second computing module, otherwise calls first computing module.

Among one preferred embodiment: said temperature motor adopts synchronous machine.

Among one preferred embodiment: said Flow valve adopts quick opening valve.

Among one preferred embodiment: it also comprises power supply, and power supply is ABAP Adapter and built-in power, and ABAP Adapter is the whole system power supply, and built-in power is under the situation that ABAP Adapter breaks off, and is solenoid valve and control gear power supply.

Among one preferred embodiment: be provided with flow transducer within the said cold water pipe and the temperature-sensitive sensor is used to obtain T _C, F _CBe provided with flow transducer within the hot-water line and the temperature-sensitive sensor is used to obtain T _H, F _HThe outlet port of Flow valve also is provided with the temperature-sensitive sensor and is used to obtain T _M

Among one preferred embodiment: said control gear signal connects cold water pipe, the flow transducer of hot-water line, temperature-sensitive sensor, and said control gear signal connects the temperature-sensitive sensor of the outlet of mixing valve.

Among one preferred embodiment: said second computing module is used to obtain T _MAnd T _M`, relatively T <sub>M</sub>And T <sub>M</sub>` produces second temperature signal with control temperature machine operation according to comparative result, and the mixing valve action is called the flow rate calculation module then to realize the temperature accurate adjustment.

Among one preferred embodiment: said Flow valve outlet port is provided with solenoid valve.

The present technique scheme is compared with background technique, and it has following advantage:

Control gear obtains F _C, T _C, T _H, F _H, T _M, T _M`, F <sub>M</sub>The ` data; To regulate flow, go out A1 and A2 according to this numerical control Flow valve action, compare A1 and A2 and utilize the action of comparative result control mixing valve to regulate temperature according to this data computation; It has overcome the existing deficiency of background technique and has produced following beneficial effect: a. and utilizes A1 and A2 result to control mixing valve; Temperature regulation speed is fast, regulates accurately, once calculates basically can obtain coarse adjustment and put in place; B. ingenious combination Flow valve and mixing valve, the user can regulate the water outlet water temperature, also can adjust water flow, has practicability, can save water resources; C. the user can directly set T through control panel _M`, F <sub>M</sub>`, it is convenient, accurate to set; D. compare T _MAnd T _M` according to comparative result accurate adjustment mixing valve, regulates the accuracy rate height; E. adopt mixing valve to regulate hot and cold water pipe flow, add function, but still water outlet after the power failure, and effluent functions is simple in structure at regular time and quantity, long service life; F. the temperature and preset temperature that export through relatively actual Flow valve; According to comparative result accurate adjustment temperature motor; Improve the accuracy rate of water-exit temperature, avoid influencing water-exit temperature (Flow-rate adjustment can influence water-exit temperature, and water-exit temperature is regulated also can influence water flow) because of Flow-rate adjustment.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the present invention is described further.

Fig. 1 has illustrated the perspective exploded view of the effluent mechanism of a preferred embodiment.

Fig. 2 has illustrated the structural representation of the effluent mechanism of a preferred embodiment.

Fig. 3 has illustrated the solid that has the water route signal of the effluent mechanism of a preferred embodiment and has partly cutd open schematic representation.

Fig. 4 has illustrated the generalized section of the effluent mechanism of a preferred embodiment.

Fig. 5 has illustrated the principle schematic of the effluent mechanism of a preferred embodiment.

Fig. 6 has illustrated the single-chip microcomputer PIC16F916 of a preferred embodiment and the circuit diagram of electronic parts and components.

Fig. 7 has illustrated the circuit diagram of the sensitive switch of a preferred embodiment.

Fig. 8 has illustrated the circuit diagram of the sensor of a preferred embodiment.

Fig. 9 has illustrated the drive circuit of the flow motor of a preferred embodiment.

Figure 10 has illustrated the drive circuit of the temperature motor of a preferred embodiment.

Figure 11 has illustrated the drive circuit of the solenoid valve of a preferred embodiment.

Embodiment

Please refer to Fig. 1 to Fig. 5, the effluent mechanism of ability control water temperature and flow, it comprises cold water pipe 100, hot-water line 200, water temperature controlling mechanism, flow control device, control panel 500, control gear, body 700 and loam cake 800.

Be provided with first flow sensor 110 within the cold water pipe 100 and the first temperature-sensitive sensor 120 is used to obtain the cold water water temperature T _C, cold water flow F _CBe provided with second flow transducer 210 within the hot-water line 200 and the second temperature-sensitive sensor 220 is used to obtain the hot water water temperature T _H, hot water flow F _HAbove-mentioned first flow sensor 110, second flow transducer 210 for example adopt hydraulic pressure sensor or flow transducer etc.

Water temperature controlling mechanism comprises mixing valve 310 and temperature motor 320, and temperature motor 320 adopts stepper motor.Two water intakes of mixing valve 310 are connected cool and hot water pipe 100,200 respectively, and the hot water or cold water gets into and mixing from two water intakes respectively.Temperature motor 320 can be controlled mixing valve 310 actions; Output shaft like temperature motor 320 rotates; Rotate 310 actions of drive mixing valve through output shaft, the inflow of mixing valve 310 actions and adjusting cool and hot water pipe 100,200 is regulated through hot and cold water quantitative change realization mixed water temperature.

Flow control device comprises Flow valve 410 and flow motor 420, and Flow valve 410 connects the outlet of mixing valve 310, and 410 actions of flow motor 420 control flows metered valves are regulated to realize water flow.Among the present embodiment, Flow valve 410 can adopt quick opening valve.The outlet port of Flow valve 410 also is provided with the 3rd temperature-sensitive sensor 430 and is used to obtain mixed water temperature T _M

Control panel 500 is used to supply the user to import setting temperature T _M` and setting flow F <sub>M</sub>`, above-mentioned control panel 500 for example adopts touch screen or knob.Operation panel can pass through datawire connection PCB control panel, and to the PCB control panel, operation panel is provided with several buttons of regulating temperature height and flow size, and is simple to operate, convenient with data transmission.

Control gear is used for receiving and handles operation panel and each assembly feedack and send control command, and it comprises a flow computing module and a temperature computation module, and the temperature computation module comprises first computing module, second computing module and judge module.The control gear signal connects first flow sensor 110, the first temperature-sensitive sensor 120, second flow transducer 210, the second temperature-sensitive sensor 220, the 3rd temperature-sensitive sensor 430, control panel 500 is used to obtain F _C, T _C, T _H, F _H, T _M, T _M`, F <sub>M</sub>`, the control gear signal connects temperature motor 320 and measure motor 420, is used to control temperature motor 320 and measure motor 420 work.

The first above-mentioned computing module, it is used to obtain T _C, F _C, T _H, F _HAnd T _M`, and through those data computation A1 and A2, wherein A1 is (T <sub>H</sub>-T <sub>M</sub>`)/(T _M`-T _C), A2 is F _C/ F _HCompare A1 and A2; Produce first temperature signal with 320 work of control temperature motor according to comparative result, the angle of the running of control temperature motor 320, temperature motor 320 is according to running angle work and drive mixing valve 310 actions so that the coarse adjustment temperature is in preset water-exit temperature scope fast.

Its principle is following:

Suppose that the energy of cold water is Q before mixing _C, the energy of hot water is Q _HMixed mixing water energy is Q _MThen, have: Q according to principle of conservation of energy _M=Q _C+ Q _HThen the energy theorem according to water is: Q=CMT (C is a constant, and M, T are respectively the quality and the temperature of water)

Then have:

M _MT _M＝M _CT _C+M _HT _H

Because in the identical time, the mass M that flows through water in the pipe then has with the proportional relation of flow F of water again:

Wherein, F ' _C, F ' _HFor reaching the theoretic hot and cold water flow of inlet water of established temperature, T ' _MBe the temperature value that the user sets, TH is hot water temperature's value, and TC is the cold water temperature value.

By predetermined water-exit temperature value T ' _MDraw the flow of inlet water ratio that will reach the required hot and cold water of preset water-exit temperature value with above formula and should be A ₁, again by the actual flow value F of the hot and cold water of system feedback _CAnd F _H, formula A ₂=F _C/ F _HDraw A ₂, with actual ratio A ₂With the required ratio A of theory ₁Comparison, feedback regulation, thus the rotation of control mixed valve core realizes A ₁And A ₂Close, quick adjustment is to required temperature range, and coarse adjustment finishes.

The second above-mentioned computing module is used to obtain T _MAnd T _M`, relatively T <sub>M</sub>And T <sub>M</sub>` produces second temperature signal with 320 work of control temperature motor according to comparative result, the running angle of control temperature motor 320, and mixing valve 310 actions realize the temperature accurate adjustment according to the running angular turn, call the 4th computing module then.

Above-mentioned judge module judges whether A2 is positioned within the predictive error of A1, and for example whether A2 is positioned at and (within the A1-0.5～A1+0.5), if then call second computing module, otherwise calls first computing module.

Above-mentioned flow rate calculation module, it obtains F _M`, F <sub>C</sub>And F <sub>H</sub>, compare F <sub>M</sub>` and F _CAnd F _HSum produces flow control signal with 420 work of control flow rate motor according to comparative result, and Flow valve 410 moves with the realization Flow-rate adjustment, and then calls second computing module water temperature is carried out accurate adjustment.The reasons are as follows: water-exit temperature and the flow depressed in different hot and cold water temperature, different water just have nothing in common with each other, and this just causes when temperature fixedly the time, when regulating flow; Can appearance temperature deviation, non-constant, perhaps when flow fixedly the time; When regulating temperature, flow deviation can appear, and non-constant.This programme is in the adjusting of flow, and through real-time feedback signal, system is through the temperature value and the flow of inlet water of collection, and self revises in real time, constantly regulates, thereby guarantees effluent temperature constancy.In the adjusting of temperature, constantly feedback signal, adjusting in real time realizes the constant of flow, and temperature and flow are accurately controlled in real realization.

Among the present embodiment, be provided with first solenoid valve 600 of a control effluent switch in addition in Flow valve 410 outlet ports.Above-mentioned solenoid valve adopts the operating voltage of DC6V, and can add and establish dry battery, but the function of the still water outlet that can realize having a power failure.

As required, it also comprises power supply, and power supply is that control gear, temperature motor and flow motor provide electric energy.Said power supply can comprise built-in power supply and external power supply, and external power supply is that whole system provides power supply, and built-in power supply is not for when external power supply has input, and solenoid valve and PCB control panel are given in power supply, do not supply power to miscellaneous part.Said built-in power supply can comprise dryelement cell, lithium cell or electricity generation module, and said electricity generation module comprises that one is located at the impeller and a power facility in water route (cold water pipe, hot-water line or mixing valve outlet port), rotates through the relative power facility of impeller and realizes generating.Then externally do not have under the situation of power supply, the PCB control panel just is communicated with dry battery, thereby realizes under the power down mode still may command effluent switch of solenoid valve.

Among the present embodiment, each module of said control gear is integrated into PCB control panel 900, please refers to Fig. 6, and it comprises single-chip microcomputer PIC16F916, and other electronic parts and components.Please refer to Fig. 8, it has illustrated the sensing circuit of each sensor.Please refer to Fig. 9; It has illustrated the drive circuit of flow motor; It comprises one first optical coupler MOC3063, one first controllable silicon TA1, the second optical coupler MOC3063, the second controllable silicon TA2; The input end of the said first optical coupler MOC3063 and the second optical coupler MOC3063 is connected PIC16F913 to obtain control signal, and the said first controllable silicon TA1 and the second controllable silicon TA2 are connected the output terminal and the connection traffic motor of first optical coupler and second optical coupler.Owing at PIC16F913 and flow motor optical coupler and controllable silicon are set, then control is accurately avoided motor interference PIC16F913.Please refer to Figure 10, it has illustrated the drive circuit of temperature motor.Please refer to Figure 11, it has illustrated the drive circuit of solenoid valve.

Above-mentioned body 700 cooperates with loam cake 800 and forms the housing that containing space is arranged in; Said cold water pipe 100, hot-water line 200, water temperature controlling mechanism, flow control device, control panel 500, control gear, first solenoid valve 600 all are arranged within the housing; And; Said cold water pipe 100 passes housing with external watering with hot-water line 200, and the outlet port of said first solenoid valve 600 is installed with an outlet pipe, and said outlet pipe passes housing with outside water supply.

In addition, starting point temperature position (being generally 38 ℃) can be set also, if setting temperature is higher than 38 ℃, system can point out temperature too high.In addition; Initial flow position (in minimum flow position, under 0.1bar pressure, supplying water is generally 1-1.5L/min) also can be set; Behind the starting up; System's automatic control motor drives Flow valve and is in half-open position, the default traffic when promptly starting shooting, and the user can regulate the flow size through control panel afterwards.Flow-rate adjustment is except that can being set to adjusting continuously, and the gear that also can be set to preset is regulated (the principle adjusting continuously together that gear is regulated is repeated no more) here.

For making the auditor further understand the present invention, following mask body is introduced one of effluent mechanism operating method:

1. start:

When the control panel detection has the start key to be pressed, send power-on command at once and give control gear, after single-chip microcomputer (PIC16F916) receives power-on command, drive solenoid valve at once and open, actuation temperature motor and flow reset motor are to initial position simultaneously.The motor Coupling Shaft is provided with sensitive switch, please refers to the circuit diagram of the sensitive switch of Fig. 7, when sensitive switch detects the groove of Coupling Shaft, stops motor at once and rotates.

2. control temperature:

When control panel detected temperature (+) key, mutually deserved temperature gear progressively increased, and sent the temperature value T ' that sets simultaneously _MReceive temperature value T ' for single-chip microcomputer (PIC16F916) _MAfter, the actuation temperature motor increases direction toward temperature and rotates, and single-chip microcomputer passes through the cold water temperature sensor simultaneously, hot water temperature's sensor, the cold water flowmeter, the hot water flow meter is gathered cold water T in real time _CWith flow F _C, the temperature T of hot water _HWith flow F _H, through formula A ₂=F _C/ F _HCalculate theoretical required hot and cold water flow ratio A respectively ₁Hot and cold water flow ratio A with reality ₂, and with A ₁With A ₂Relatively.Work as A ₂Between (A ₁-0.5, A ₁+ 0.5) time, stop coarse adjustment, use mixing water temperature meter collecting temperature instead and finely tune, when temperature value between (T ' _M-0.1, T ' _M+ 0.1) time, stops fine setting.So far, the temperature adjustment finishes.

On the contrary, when control panel detected temperature (-) key, mutually deserved temperature gear successively decreased.

MCU driving temperature motor rotates toward the lapse of temperature direction.Until temperature between (T ' _M-0.1, T ' _M+ 0.1) in the scope, the temperature adjustment finishes.

In the adjusting of temperature, for control flow rate is constant, the real-time feedback signal of internal system, adjusting, the accuracy of dependable flow.

3. control flow rate:

When control panel detected flow (+) key, mutually deserved flow gear progressively increased, and sent the flow value F ' that sets simultaneously _MGive control gear.Single-chip microcomputer (PIC16F916) receives flow value F ' _MAfter, the actuation temperature motor increases direction toward flow and rotates.Single-chip microcomputer is gathered cold water flow F respectively simultaneously _CWith hot water flow F _H, through formula F _M=F _C+ F _HCalculate the flow of mixing water, and with set flow value F ' _MRelatively.F _MBetween (F ' _M-0.5, F ' _M+ 0.5) in the time of in the scope, stop the flow motor and rotate, the flow adjustment finishes since then.At the same time, system detects coolant-temperature gage in real time, and the regulation and control synchronous machine, makes temperature keep constant.

On the contrary, when control panel detected flow (-) key, mutually deserved flow gear successively decreased.

The MCU driving temperature motor flow direction of successively decreasing is rotated.F _MBetween (F ' _M-0.5, F ' _M+ 0.5) in the time of in the scope, stop the flow motor and rotate, the flow adjustment finishes since then.

In the adjusting of flow, in order to control temperature constant, the real-time feedback signal of internal system, adjusting, the accuracy of assurance temperature.

4. shutdown:

When the control panel detection has closing key to be pressed, send shutdown command at once and give control gear.After single-chip microcomputer (PIC16F916) receives shutdown command, actuation temperature motor at once, the flow motor stops operating.Simultaneously, drive closed electromagnetic valve, stop water outlet.

Among the present embodiment, said effluent mechanism can be water tap, but not as limit.As be water tap, then, can the concealed installation of housing only be installed in shower nozzle in the bathroom, and control panel adopts the Wireless remote control mode with data transmission to PCB control panel in order to practice thrift the space resources in the bathroom and to reach aesthetic effect, easy to operate.In addition,, can realize that multichannel supplies water, except that supplying the shower use, also can supply uses such as kitchen, washstand through a plurality of outlet pipes are set.

The above is merely preferred embodiment of the present invention, so can not limit the scope that the present invention implements according to this, the equivalence of promptly doing according to claim of the present invention and description changes and modifies, and all should still belong in the scope that the present invention contains.

Claims (9)

1. can control water temperature and the effluent mechanism of flow, it is characterized in that:

It comprises cold water pipe, hot-water line, water temperature controlling mechanism, flow control device, control panel and control gear; Water temperature controlling mechanism comprises mixing valve and temperature motor, and two water intakes of mixing valve are connected cool and hot water pipe respectively, the action of temperature Electric Machine Control mixing valve; Flow control device comprises Flow valve and flow motor, and Flow valve connects the outlet of mixing valve, the action of flow Electric Machine Control Flow valve;

The water temperature of cold water pipe is T _C, flow is F _CWater temperature in the hot-water line is T _H, flow is F _HThe water temperature of the outlet of Flow valve is T _MControl panel is used to supply the user to import setting temperature T _M` and setting flow F <sub>M</sub>`;

Said control gear comprises:

The temperature computation module, it comprises:

First computing module, it is used to obtain T _C, F _C, T _H, F _HAnd T _M`, and through those data computation A1 and A2, wherein A1 is (T <sub>H</sub>-T <sub>M</sub>`)/(T _M`-T _C), A2 is F _C/ F _H, relatively A1 and A2 produce first temperature signal with control temperature machine operation according to comparative result, and the mixing valve action is to realize the temperature coarse adjustment; And

Second computing module is used to obtain T _MAnd T _M`, relatively T <sub>M</sub>And T <sub>M</sub>` produces according to comparative result

Second temperature signal is with control temperature machine operation, and the mixing valve action is to realize the temperature accurate adjustment; And

The flow rate calculation module, it obtains F _M`, F <sub>C</sub>And F <sub>H</sub>, compare F <sub>M</sub>` and F _CAnd F _HSum produces flow control signal with the control flow rate machine operation according to comparative result, and the Flow valve action is called second computing module then to realize Flow-rate adjustment.

2. the effluent mechanism of ability control water temperature according to claim 1 and flow; It is characterized in that: said temperature computation module also comprises judge module; Judge module judges whether A2 is positioned within the predictive error of A1, if then call second computing module, otherwise calls first computing module.

3. the effluent mechanism of ability control water temperature according to claim 1 and flow is characterized in that: said temperature motor adopts synchronous machine.

4. the effluent mechanism of ability control water temperature according to claim 1 and flow is characterized in that: said Flow valve adopts quick opening valve.

5. the effluent mechanism of ability control water temperature according to claim 1 and flow, it is characterized in that: it also comprises power supply, power supply is that control gear, temperature motor and flow motor provide electric energy.

6. according to claim 1 can control water temperature and the effluent mechanism of flow, it is characterized in that: be provided with flow transducer within the said cold water pipe and the temperature-sensitive sensor is used to obtain T _C, F _CBe provided with flow transducer within the hot-water line and the temperature-sensitive sensor is used to obtain T _H, F _HThe outlet port of Flow valve also is provided with the temperature-sensitive sensor and is used to obtain T _M

7. the effluent mechanism of ability control water temperature according to claim 6 and flow; It is characterized in that: said control gear signal connects cold water pipe, the flow transducer of hot-water line, temperature-sensitive sensor, and said control gear signal connects the temperature-sensitive sensor of the outlet of mixing valve.

8. the effluent mechanism of ability control water temperature according to claim 1 and flow, it is characterized in that: said second computing module is used to obtain T _MAnd T _M`, relatively T <sub>M</sub>And T <sub>M</sub>` produces second temperature signal with control temperature machine operation according to comparative result, and the mixing valve action is called the flow rate calculation module then to realize the temperature accurate adjustment.

9. the effluent mechanism of ability control water temperature according to claim 1 and flow, it is characterized in that: said Flow valve outlet port is provided with solenoid valve.

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