A kind of intelligent backwater effluent mechanism
Technical field
The utility model relates to a kind of intelligent backwater effluent mechanism.
Background technique
Along with the expansion day by day of urban construction and the quickening of industrialization step, global lack of water is serious day by day, has become the cardinal task of restriction human economic development.Energy-conservation is that countries nowadays government does one's utmost to advocate, so using water wisely more need be fulfilled.China is the country of a serious water shortage resource, and it is even more important to economize on water.But can run into a lot of helpless a large amount of wastes again every day on domestic water.Just as people in the kitchen or bathroom need use hot water the time, because of the water of remnants or the on the low side of water temperature that causes because of the oversize heat radiation of pipeline in the hot water pipeline can not satisfy the required hot water temperature of people, this part water causes a large amount of wastes of water often by meaningless emitting at this moment.In order to address these problems, people constantly find out various ways, as pipeline heating, emptying way etc., but those ways all can not tackle the problem at its root, for example pipeline heating way can be wasted electric energy, before the emptying way is being wasted in of water, therefore all can not really accomplish energy-conservation, water saving.
The model utility content
The utility model provides a kind of intelligent backwater effluent mechanism, and it has overcome the deficiency at the leading existing waste water source in the background technique.
The technological scheme that is adopted that the utility model solves its technical problem is:
A kind of intelligent backwater effluent mechanism, it comprises:
One tap (100), it has an exhalant canal; And
One water supply mechanism (200), it has a cold water pipe (201), a hot-water line (202) and a mixing valve (203), described mixing valve (203) has two water intakes and a water outlet, described two water intakes are connected cold water pipe (201) and hot-water line (202) respectively, and described water outlet is connected the exhalant canal of tap (100);
Described water supply mechanism (200) also has one first temperature inductance probe (204), one first solenoid valve (205), a processor (206), a return pipe (207) and one second solenoid valve (209), described first temperature inductance probe (204) is located on the hot-water line (202), described first solenoid valve (205) is located between first end of hot-water line (202) and return pipe (207), described second solenoid valve (209) is located at the water outlet of mixing valve (203), and described processor (206) signal connects first temperature inductance probe (204), first solenoid valve (205) and second solenoid valve (209).
Among one preferred embodiment: connect by mixed conduit (208) between the exhalant canal of the water outlet of described mixing valve (203) and tap (100).
Among one preferred embodiment: described return pipe (207) second terminations are led to hot-water line (202).
Among one preferred embodiment: described return pipe (207) second terminations are led to water storage box.
Among one preferred embodiment: be provided with control panel (110) on the described tap (100), described control panel (110) signal connecting treatment device (206).
Among one preferred embodiment: described hot-water line (202) has an outer end and a inner, the described inner water intake of connecting mixing valve (203), and described first solenoid valve (205) is located between hot-water line (202) the inner and the return pipe (207).
Among one preferred embodiment: it also comprises:
One box body (300), described water supply mechanism (200) is installed within the box body (300), and end all stretches out outside the box body (300) outside described cold water pipe (201), hot-water line (202), return pipe (207), the mixed conduit (208).
Among one preferred embodiment: described water supply mechanism (200) also comprises motor (210,212) and second temperature inductance probe (211), described second temperature inductance probe (211) is located at water outlet and signal connecting treatment device (206), described motor (210,212) signal connecting treatment devices (206) and the mixing valve that is in transmission connection (203) of mixing valve (203).
Among one preferred embodiment: described water supply mechanism (200) also comprises motor (210,212) and second temperature inductance probe (211), described second temperature inductance probe (211) is located at water outlet and signal connecting treatment device (206), described motor (210,212) signal connecting treatment devices (206) and the mixing valve that is in transmission connection (203) of mixing valve (203).
The technical program is compared with background technique, and it has following advantage:
1. processor is judged the hot-water line water temperature by first temperature inductance probe, and cutout cock water outlet when water temperature is lower than the predetermined set temperature, open first solenoid valve simultaneously so that the water within the hot-water line can be back to water storage container by return pipe, in the water tank of cold water pipes or top of building, when being greater than or equal to setting temperature, the hot-water line water temperature then controls first closed electromagnetic valve, simultaneously second solenoid valve is opened and normally by leading water outlet, then can effectively avoid the water within the hot-water line to be wasted, can realize real water-saving function, the energy safe water can realize intelligent control.
2. first solenoid valve is located between hot-water line the inner and the return pipe, and then all water all can reflux by return pipe within the hot-water line.
3. water supply mechanism is installed within the box body, and is then rationally distributed, can effectively assemble water supply mechanism.
4. between the water outlet of mixing valve and mixed conduit, establish second solenoid valve, avoid when the hot-water line water temperature is lower than setting temperature leading water outlet.
Description of drawings
The utility model is described in further detail below in conjunction with drawings and Examples.
Fig. 1 has illustrated the schematic representation of the effluent mechanism of a preferred embodiment.
Fig. 2 has illustrated the A-A generalized section of Fig. 1.
Fig. 3 has illustrated the controlling party block diagram of the effluent mechanism of a preferred embodiment.
Embodiment
Please refer to Fig. 1, Fig. 2 and Fig. 3, a kind of intelligent backwater effluent mechanism, it comprises a tap 100 and one water supply mechanism 200.
Described leading 100, it has an exhalant canal.Among the present embodiment, be provided with control panel 110 on described leading 100, be provided with on ﹠ off switch, temperature height adjusting key and current size adjustment key on the described control panel 110.
Described water supply mechanism 200, it has a cold water pipe 201, a hot-water line 202, a mixing valve 203, one first temperature inductance probe 204, one first solenoid valve 205, a processor 206, a return pipe 207, a mixed conduit 208, one second solenoid valve 209, two motors 210,212 and one second temperature inductance probe 211.
Described mixing valve 203 has two water intakes and a water outlet, and described two water intakes are connected cold water pipe 201 and hot-water line 202 respectively, and described water outlet is connected mixed conduit 208, and described mixed conduit 208 is connected the exhalant canal of tap 100.Described motor 210 is the temperature motor, and described motor 212 is the flow motor.Described temperature motor 210 and flow motor 212 mixing valve 203 that is in transmission connection can drive mixing valve 203 actions and blend coolant-temperature gage and blend water flow with adjusting.
Described first solenoid valve 205 is located between first end of the inner of hot-water line 202 and return pipe 207, is used to control the break-make between it.Logical hot-water line 202 of described return pipe 207 second terminations or water storage box.Described second solenoid valve 209 is located between the water outlet and mixed conduit 208 of mixing valve 203, is used to control the break-make between it.
Described first temperature inductance probe 204 is located on the hot-water line 202, is used to obtain the real-time water temperature of hot-water line 202.Described second temperature inductance probe 211 is located at the water outlet of mixing valve 203, is used to obtain the real-time water temperature of the water outlet of mixing valve 203.
Described processor 206 signals connect first temperature inductance probe 204, second temperature inductance probe 211, to obtain hot-water line 202 real-time water temperatures, obtain the real-time water temperature of mixing valve 203 water outlets.Described processor 206 connects control panel 110 by signaling line 213 signals, to obtain the switch temperature that the user sets by control panel 110, obtains mixed water temperature and mixed flow that the user sets by control panel 110.
Described processor 206 signals connect first solenoid valve 205 and second solenoid valve 209, wherein: when hot-water line 202 real-time water temperatures are lower than switch temperature, processor 206 sends control signal, to close second solenoid valve 209, to open first solenoid valve 205, be used for the water within the hot-water line 202 is back to cold water pipe or water storage box etc. by return pipe 207; When hot-water line 202 real-time water temperatures were greater than or equal to switch temperature, processor 206 sent control signal, to open second solenoid valve 209 and to close first solenoid valve 205, with water outlet.Described processor 206 signals connect temperature motor 210 and flow motor 212, processor 206 is according to the real-time water temperature of mixed water temperature, mixed flow and mixing water, send control signal, control temperature motor 210 or and 212 actions of flow motor, mix water outlet water temperature and flow to adjust.
Best, also comprise a box body 300, described water supply mechanism 200 is installed within the box body 300, and end all stretches out outside the box body 300 outside described cold water pipe 201, hot-water line 202, return pipe 207, the mixed conduit 208.
Effluent mechanism among the present embodiment can be applied to all kinds of taps, gondola water faucet, shower house etc.
The above, it only is the utility model preferred embodiment, so can not limit the scope that the utility model is implemented according to this, i.e. the equivalence of doing according to the utility model claim and description changes and modifies, and all should still belong in the scope that the utility model contains.