CN205619573U - Mobile control system of hot and cold water - Google Patents

Abstract

The utility model discloses a mobile control system of hot and cold water, including a hot water runner, a cold water runner, obs core control ware, circulation booster pump, holding water box, pulse valve and line control ware, circulation booster pump and line control ware and obs core control ware electric connection, holding water box sets up on the hot water runner, holds near the hot water inflow of hot water runner, circulation booster pump sets up on the cold water runner, is close to the cold water outflow end of cold water runner, hot water runner and cold water runner are equipped with a connecting pipe, and the connecting pipe is close to the hot water outflow end of hot water runner, the pulse valve sets up on the connecting pipe, and the line control ware is connected with pulse valve electricity. The utility model discloses mobile control system of hot and cold water closes after hot water accomplish to flow immediately, reaches the purpose of water economy resource, the heating energy, realizes comprehensive energy -conservation of water, the heating energy, electricity, can avoid the flow latency of front -seat air cooling water of hot water simultaneously.

Description

A kind of hot and cold water flow system

Technical field

The present invention relates to a kind of current autocontrol system, be specifically related to a kind of hot and cold water flow system.

Background technology

Now along with expansion and the raising of people's quality of life of the area of residence in the middle of society, people are the most increasing to the demand of domestic hot-water, and energy waste increases the most therewith.Hot-water heating system in family is respectively more and more remote by the distance of water spot, when need to use hot water, the long period to be waited after opening hot water valve, treats that the cold water having in pipeline is drained, and hot water just can flow out, and causes energy loss the biggest.The energy dissipation caused in order to avoid hot and cold water flowing needs to use water return pipeline, a lot of families do not take into account this respect when of decoration in house, it is fitted without water return pipeline, on market, existing product is all there to be return pipe to design, some can also circulate in the situation without return pipe, but circulation time is long during using, and hot water can waste substantial amounts of combustion gas when entering cold water pipes, and cold water cannot be used after having circulated, affect comfortableness and the freedom of use water.

Summary of the invention

Main purpose of the present utility model is to provide a kind of hot and cold water flow system, it is possible to when realizing starting hot water, hot water has been enter in hot water flux, opens the effect of existing hot water, this utility model by the following technical solutions:

A kind of hot and cold water flow system, including a hot water flux and a cold water runner, also includes: core controller, circularly-supercharged pump, attemperater, impulse valve and line controller；Described circularly-supercharged pump and line controller are electrically connected with described core controller；Described attemperater is arranged at described hot water flux hot water upper, near described hot water flux and flows into end；Described circularly-supercharged pump is arranged on described cold water runner, the cold water outflow end of close described cold water runner；Being provided with a connecting tube between described hot water flux and described cold water runner, described connecting tube is near the hot water outflow end of described hot water flux；Described impulse valve is arranged in described connecting tube, and described line controller electrically connects with described impulse valve.

Further, also including the first temperature sensor and the second temperature sensor, described first temperature sensor is arranged at the water outlet of described attemperater, and described second temperature sensor is arranged in described connecting tube.

Further, also include that a wireless sensor, described line controller and described second temperature sensor electrically connect with described wireless sensor, described core controller and described wireless sensor wireless connections.

Further, also include that stream impulse sensor, described stream impulse sensor are arranged at the water inlet of described circularly-supercharged pump.

Further, described line controller internal battery is powered, and described hot water flux and described cold water runner are respectively provided with the hot water flow generator and cold water flow generator being connected with described storage battery.

Further, also including water heater, the described hot water of described hot water flux flows into end and is connected with the hot water outlet of described water heater；The cold water outflow end of described cold water runner is connected with the cold water inlet of described water heater.

Further, also including using water end (W.E.), described water end (W.E.) is connected with the hot water outflow end of described hot water flux and described cold water runner by water mixing valve.

This utility model hot and cold water flow system is closed after hot water completes flowing immediately, reach the purpose of saving water resource, heating energy source, it is capable of the function with the hot and cold water flow system of return pipe, in use save the heating energy source consumption of half, reach the effect of intelligent automatic control, environmental protection, realize water, heating energy source, electricity the most energy-conservation, simultaneously it can be avoided that hot water flows out the waiting time of front-seat air cooling water.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of this utility model hot and cold water flow system embodiment 1.

In figure: 1 is hot water flux；2 is cold water runner；3 is attemperater；4 is circularly-supercharged pump；5 is core controller；6 is stream impulse sensor；7 is the first temperature sensor；8 is hot water flow generator；9 is cold water flow generator；10 is impulse valve；11 is line controller；12 is the second temperature sensor；13 is wireless sensor；14 is connecting tube；20 is water heater；30 for using water end (W.E.).

Detailed description of the invention

Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not used to limit this utility model.

With reference to Fig. 1, Fig. 1 is the module map of this utility model hot and cold water flow system embodiment 1, and this hot and cold water flow system includes for hot water flux 1, cold water runner 2, attemperater 3, circularly-supercharged pump 4, core controller 5, the 6, first temperature sensor 7 of stream impulse sensor, hot water flow generator 8, cold water flow generator 9, impulse valve 10, line controller the 11, second temperature sensor 12, wireless sensor 13, connecting tube 14, water heater 20 and with water end (W.E.) 30.

Wherein, the hot water outlet of water heater 20 flows into end with the hot water of hot water flux 1 and is connected, and the cold water inlet of water heater 20 is connected with the cold water outflow end of cold water runner 2；It is connected with hot water outflow end and the cold water runner 2 of hot water flux 1 by water mixing valve (not shown) with water end (W.E.) 30.When implementing, water heater 20 can be electric heater, solar water heater or gas heater etc.；The gondola water faucet that could be for having a bath with water end (W.E.) 30, for faucet washing thing etc..

Attemperater 3 is arranged on hot water flux 1 and the hot water of close hot water flux 1 flows into end, i.e. near one end of water heater 20；Attemperater 3 internal memory contains the hot water of uniform temperature, and can be more lasting this temperature of holding.Circularly-supercharged pump 4 is arranged on cold water runner 2 and the cold water outflow end of close cold water runner 2, i.e. near one end of water heater 20.Connecting tube 14 connects hot water flux 1 and cold water runner 2, and near the hot water outflow end of hot water flux 1, i.e. near using water end (W.E.) 30.Impulse valve 10 is arranged in connecting tube 14, is preferably located at the middle part of connecting tube 14.First temperature sensor 7 is arranged at the water outlet of attemperater 3, for sensing the water temperature of the water outlet of attemperater 3；Second temperature sensor 12 is arranged in connecting tube 14, is preferably disposed in one end of the close cold water runner 2 of connecting tube 14.

Circularly-supercharged pump 4, the 6, first temperature sensor 7 of stream impulse sensor are all electrically connected with core controller 5, wireless sensor 13 and core controller 5 wireless connections；Line controller the 11, second temperature sensor 12 is electrically connected with wireless sensor 13, and impulse valve 10 is electrically connected with line controller 11.Stream impulse sensor 6 is arranged at the water inlet of circularly-supercharged pump 4, for sensing the water inlet water-flow signal of circularly-supercharged pump 4.

Work to make line controller 11 keep for a long time, line controller 11 internal battery is powered, the hot water flow generator 9 being arranged on hot water flux 1 and the cold water flow generator 8 being arranged on cold water runner 2 are all connected with storage battery, in hot water flux 1 and cold water runner 2 during water flowing, hot water flow generator 9 and cold water flow generator 8 charge for accumulator.

In use, core controller 5 controls circularly-supercharged pump 4 and works, deliver a signal to line controller 11 by wireless sensor 13 simultaneously, line controller 11 controls impulse valve 10 and opens, and forms the pipelined channel of attemperater 3-hot water flux 1-connecting tube 14-cold water runner 2-circularly-supercharged pump 4-water heater 20-hot water flux's 1-attemperater 3；First temperature sensor 7 senses the temperature of attemperater 3 water outlet and passes to core controller 5, and the second temperature sensor 12 senses coolant-temperature gage in connecting tube 14, and by wireless sensor 13, temperature information passes to core controller 5；The first temperature sensor 7 received when core controller 5 and the difference of Temperature numerical of the second temperature sensor 12 sensing reach predetermined value, the temperature of the such as first temperature sensor 7 sensing is less than or equal to 3 DEG C with the temperature difference of the second temperature sensor 12 sensing, it is out of service that core controller 5 controls circularly-supercharged pump 4, delivering a signal to line controller 11 by wireless sensor 13, line controller 11 controls impulse valve 10 and closes simultaneously.At this moment hot water flux 1 between attemperater 3 and connecting tube 14 has the hot water close with hot water temperature in attemperater 3, cold water in former hot water flux 1 between attemperater 3 and connecting tube 14 enters cold water runner 2, and then promotes cold water runner 2 Central Plains cold water to enter in attemperater 3.When unlatching water end (W.E.) 30 uses hot water, after flowing out a small amount of cold water with water end (W.E.) 30, begin to flow out hot water, it is to avoid emptying the water heater 20 and phenomenon of hot water could be waited until with cold water in hot water flux 1 between water end (W.E.) 30, reduce the time waiting hot water greatly.

Core controller 5 is by receiving the water flow signal of stream impulse sensor 6 feedback, when the value of discharge is in less than the discharge numerical value preset, it is incremental that the circularly-supercharged pump 4 of startup is carried out supercharging to the current in runner by core controller 5, meets low hydraulic pressure user's requirement.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to be made or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical fields, the most in like manner it is included in scope of patent protection of the present utility model.

Claims (7)

1. a hot and cold water flow system, including hot water flux and cold water runner, it is characterised in that also include: core controller, circularly-supercharged pump, attemperater, impulse valve and line controller；Described circularly-supercharged pump and line controller are electrically connected with described core controller；Described attemperater is arranged at described hot water flux hot water upper, near described hot water flux and flows into end；Described circularly-supercharged pump is arranged on described cold water runner, the cold water outflow end of close described cold water runner；Being provided with connecting tube between described hot water flux and described cold water runner, described connecting tube is near the hot water outflow end of described hot water flux；Described impulse valve is arranged in described connecting tube, and described line controller electrically connects with described impulse valve.

Hot and cold water flow system the most according to claim 1, it is characterized in that, also including the first temperature sensor and the second temperature sensor, described first temperature sensor is arranged at the water outlet of described attemperater, and described second temperature sensor is arranged in described connecting tube.

Hot and cold water flow system the most according to claim 2, it is characterized in that, also include that a wireless sensor, described line controller and described second temperature sensor electrically connect with described wireless sensor, described core controller and described wireless sensor wireless connections.

Hot and cold water flow system the most according to claim 1, it is characterised in that also include that stream impulse sensor, described stream impulse sensor are arranged at the water inlet of described circularly-supercharged pump.

Hot and cold water flow system the most according to claim 1, it is characterized in that, described line controller internal battery is powered, and described hot water flux and described cold water runner are respectively provided with the hot water flow generator and cold water flow generator being connected with described storage battery.

6., according to the hot and cold water flow system described in any one of claim 1-5, it is characterised in that also include water heater, the described hot water of described hot water flux flows into end and is connected with the hot water outlet of described water heater；The cold water outflow end of described cold water runner is connected with the cold water inlet of described water heater.

Hot and cold water flow system the most according to claim 6, it is characterised in that also including using water end (W.E.), described water end (W.E.) is connected with the hot water outflow end of described hot water flux and described cold water runner by water mixing valve.