CN203718925U - Water heating system energy saving controller - Google Patents
Water heating system energy saving controller Download PDFInfo
- Publication number
- CN203718925U CN203718925U CN201320810600.5U CN201320810600U CN203718925U CN 203718925 U CN203718925 U CN 203718925U CN 201320810600 U CN201320810600 U CN 201320810600U CN 203718925 U CN203718925 U CN 203718925U
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- temperature
- auxiliary reclay
- valve
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Abstract
The utility model relates to a water heating system energy saving controller. The utility model mainly solves the technical difficulties existing in conventional passive heating. The technical scheme adopted by the utility model is as follows: the water heating system energy saving controller comprises a multi-position timing controller (TK), an intermediate relay (CK), a high temperature controller (WK1), a low temperature controller (WK2) and an electromagnetic flow control valve (TA), wherein the live wire of a power supply is connected with one end of the multi-position timing controller (TK), the live wire is connected with one end of the intermediate relay (CK), i.e. the common end of the intermediate relay (CK), and the neutral wire of the power supply is connected with the other end of the multi-position timing controller (TK), the other end of the intermediate relay (CK) and the other end of the electromagnetic flow control valve (TA).
Description
Technical field
The utility model relates to a kind of water-heating system energy-saving controller, and it belongs to a kind of winter heating energy-saving control device.
Background technology
Traditional hot-water heating heating system divides single standpipe series connection heating, two kinds of systems of household heating, single standpipe series connection heating system is generally office space, in water-heating system water (flow) direction be upper confession next time, central heating supply system for families separately is generally resident family, in water-heating system, water (flow) direction is leftly to return for right.The heat-supplying mode of these two kinds of systems is all the heat supply mode that belongs to passive, heating system is from starting for being warmed to heating end, be called heating period, determine heating period according to the cold and hot degree in each area, the regional heating period having is long, there is regional heating period short, no matter whether have the heating of needs or indoor temperature height, heating duration is calculated in heating at the very start, especially office space, when working, need temperature high, coming off duty needs temperature low, when resident goes to work general daytime, family does not need too high temperature, come off duty evening needs temperature high, all unified according to the Passive Mode overall calculation expense of heating area by heat supply department, the energy can not balanced adjustment, office space evening wasting energy in vain, nobody wastes the energy resident's family on daytime, increase heat metering-calorimeter in high-end community, can not solve passive heating mode, this heating mode exists office space to waste energy evening, indoor energy waste on resident's daytime, user can only heat by passive receive, this is a kind of serious wasting energy, this passive heating exists and can not regulate indoor temperature, cause the technological difficulties of energy waste.
Summary of the invention
Main purpose of the present utility model is mainly the technological difficulties that solve existing passive heating, propose a kind of user and need to regulate indoor temperature according to oneself, save the energy, realize the initiatively technology of heating, and also provide a kind of simple in structure, use water-heating system energy-saving controller reliable and can A.T.C.
The utility model is that the technical scheme that the above-mentioned technological difficulties of solution adopt is: water-heating system energy-saving controller, wherein: it comprises that one by keeping off timing controller TK more, an auxiliary reclay CK, a temperature pyrostat WK1, a temperature cryostat WK2, the water-heating system energy-saving controller of a flow control electromagnetic valve TA composition, power firestreak connects one end of many gear timing controller TK, live wire connects one end of auxiliary reclay CK, live wire connects the common port of auxiliary reclay CK, zero-power line connects the other end of many gear timing controller TK, zero line connects the other end of auxiliary reclay CK, the zero line connection traffic control magnetic valve TA other end.
The normally opened contact CK1 of described auxiliary reclay CK connects one end of temperature pyrostat WK1, the normally-closed contact CK2 of auxiliary reclay CK connects one end of temperature cryostat WK2, connection traffic control magnetic valve TA one end after the other end parallel connection of the other end of temperature cryostat WK2 and temperature pyrostat WK1.
Described flow control electromagnetic valve TA is made up of solenoid 1, cut-off valve block metering orifice 2, stop valve control lever 3, cut-off valve block 4, cut-off valve block 5; Described stop valve metering orifice 2 is in the time controlling flow work, for guarantee system can thoroughly not ended, make generation air in system, affect heating effect, preformed hole in the time that cut-off valve block 4 is made, the sectional area of preformed hole is cut-off valve block sectional area 30%, forms a cut-off valve block metering orifice 2, and the hot water that keeps heating has 30% discharge to circulate in system.
The utility model has adopted technique scheme, compared with background technology, can be by adjusting indoor temperature controller, control flow, control the unlatching of magnetic valve, when flow controller leaves, indoor high temperature, while reaching design temperature, automatically close flow control electromagnetic valve, nobody time, indoor setting low temperature, flow control electromagnetic valve is closed, the flow control electromagnetic valve hot water that heats in the time closing has 30% discharge to circulate in system, realize so initiatively heat supply, by the metering of heat measuring meter, objectively reflect user's energy-saving effect, be equivalent to energy saving of system 30%, the energy resource consumption of saving 30%, reduce by 30% Pollution of Boiler discharge.
Brief description of the drawings:
Accompanying drawing 1 the utility model water-heating system energy-saving controller circuit figure.
Accompanying drawing 2 flow control electromagnetic valve structural maps.
Accompanying drawing 3 heating system structure charts.
Below in conjunction with drawings and Examples, the utility model is further described.
As Fig. 1, shown in Fig. 2 and Fig. 3, water-heating system energy-saving controller in the present embodiment, wherein: it comprises that one by keeping off timing controller TK more, an auxiliary reclay CK, a temperature pyrostat WK1, a temperature cryostat WK2, the water-heating system energy-saving controller of a flow control electromagnetic valve TA composition, power firestreak connects one end of many gear timing controller TK, live wire connects one end of auxiliary reclay CK, live wire connects the common port of auxiliary reclay CK, zero-power line connects the other end of many gear timing controller TK, zero line connects the other end of auxiliary reclay CK, the zero line connection traffic control magnetic valve TA other end.
The normally opened contact CK1 of described auxiliary reclay CK connects one end of temperature pyrostat WK1, the normally-closed contact CK2 of auxiliary reclay CK connects one end of temperature cryostat WK2, connection traffic control magnetic valve TA one end after the other end parallel connection of the other end of temperature cryostat WK2 and temperature pyrostat WK1.
Described flow control electromagnetic valve TA is made up of solenoid 1, cut-off valve block metering orifice 2, stop valve control lever 3, cut-off valve block 4, cut-off valve block 5; Described stop valve metering orifice 2 is in the time controlling flow work, for guarantee system can thoroughly not ended, make generation air in system, affect heating effect, preformed hole in the time that cut-off valve block 4 is made, the sectional area of preformed hole is cut-off valve block sectional area 30%, forms a cut-off valve block metering orifice 2, and the hot water that keeps heating has 30% discharge to circulate in system.
The operation principle of the utility model in single standpipe series connection heating system is, as shown in Fig. 3 heating system structure chart, it comprises that a hot-water heating heat measuring meter WT, a radiator (radiator), a flow control electromagnetic valve, a control module form heating system, and one by the flow control system of keeping off timing controller TK, auxiliary reclay CK, temperature pyrostat WK1, temperature cryostat WK2, flow control electromagnetic valve TA more and forming, one end of heat measuring meter TW is connected with heat supply service main road, the other end of heat metering-calorimeter WT is connected with one end of radiator (radiator), the other end of radiator (radiator) is connected with the input of flow control electromagnetic valve TA, and the output of flow control electromagnetic valve TA is connected with heat supply return pipe, heating hot water enters through one end of heat measuring meter TW, enter one end of radiator (radiator) through the other end of heat measuring meter WT, the input that is entered flow control electromagnetic valve TA by the other end of radiator (radiator) enters heat supply return pipe through flow control electromagnetic valve TA by the output of flow control electromagnetic valve TA and forms circulation, at circulation time by radiator (radiator) release heat, the number of thermal release, the temperature range being set by the user, switching by adjust flux control magnetic valve TA determines, operation principle is, power connection, live wire connects one end of many gear timing controller TK, zero-power line connects the other end of many gear timing controller TK, many gear timing controller TK work, the time period of setting according to user is controlled auxiliary reclay CK, live wire connects one end of auxiliary reclay CK through too much keeping off the contact TK1 of timing controller TK, zero line connects the other end of auxiliary reclay CK, when user sets the contact not adhesives of TK1 that keep off timing controller TK of low temperature time period more, live wire connects the common port of auxiliary reclay CK, the normally-closed contact CK2 of auxiliary reclay CK connects one end of temperature cryostat WK2, other end connection traffic control magnetic valve TA one end of temperature cryostat WK2 is connected with zero-power line, flow control electromagnetic valve TA valve closing, (within the low temperature time period, if temperature is during lower than 5 DEG C, flow control electromagnetic valve TA valve opening), the flow control electromagnetic valve hot water that heats in the time closing has 30% discharge to circulate in system, when setting the low temperature time period, user finishes, the contact TK1 adhesive of many gear timing controller TK, auxiliary reclay CK work, the normally opened contact CK1 adhesive of auxiliary reclay CK, CK1 connects one end of temperature pyrostat WK1, other end connection traffic control magnetic valve TA one end of temperature pyrostat WK1 is connected with zero-power line, flow control electromagnetic valve TA opens, the discharge of heating hot water 100% circulates in system, in the time that temperature reaches temperature pyrostat WK1 ceiling temperature, automatically close flow controller magnetic valve TA.
The operation principle of the utility model in central heating supply system for families separately is, as shown in Fig. 3 heating system structure chart, it comprises that a hot-water heating heat measuring meter WT, a radiator (radiator), a flow control electromagnetic valve, a control module form heating system, and one by the flow control system of keeping off timing controller TK, auxiliary reclay CK, temperature pyrostat WK1, temperature cryostat WK2, flow control electromagnetic valve TA more and forming, one end of heat measuring meter TW is connected with heat supply service main road, the other end of heat metering-calorimeter WT is connected with one end of radiator (radiator), the other end of radiator (radiator) is connected with the input of flow control electromagnetic valve TA, and the output of flow control electromagnetic valve TA is connected with heat supply return pipe, heating hot water enters through one end of heat measuring meter TW, enter one end of radiator (radiator) through the other end of heat measuring meter WT, the input that is entered flow control electromagnetic valve TA by the other end of radiator (radiator) enters heat supply return pipe through flow control electromagnetic valve TA by the output of flow control electromagnetic valve TA and forms circulation, at circulation time by radiator (radiator) release heat, the number of thermal release, the temperature range being set by the user, switching by adjust flux control magnetic valve TA determines, operation principle is, power connection, live wire connects one end of many gear timing controller TK, zero-power line connects the other end of many gear timing controller TK, many gear timing controller TK work, the time period of setting according to user is controlled auxiliary reclay CK, live wire connects one end of auxiliary reclay CK through too much keeping off the contact TK1 of timing controller TK, zero line connects the other end of auxiliary reclay CK, when user sets the contact not adhesives of TK1 that keep off timing controller TK of low temperature time period more, live wire connects the common port of auxiliary reclay CK, the normally-closed contact CK2 of auxiliary reclay CK connects one end of temperature cryostat WK2, other end connection traffic control magnetic valve TA one end of temperature cryostat WK2 is connected with zero-power line, flow control electromagnetic valve TA valve closing, (within the low temperature time period, if temperature is during lower than 5 DEG C, flow control electromagnetic valve TA valve opening), the flow control electromagnetic valve hot water that heats in the time closing has 30% discharge to circulate in system, when setting the low temperature time period, user finishes, the contact TK1 adhesive of many gear timing controller TK, auxiliary reclay CK work, the normally opened contact CK1 adhesive of auxiliary reclay CK, CK1 connects one end of temperature pyrostat WK1, other end connection traffic control magnetic valve TA one end of temperature pyrostat WK1 is connected with zero-power line, flow control electromagnetic valve TA opens, the discharge of heating hot water 100% circulates in system, in the time that temperature reaches temperature pyrostat WK1 ceiling temperature, automatically close flow controller magnetic valve TA.
Claims (2)
1. a water-heating system energy-saving controller, it is characterized in that: it comprises that one by keeping off timing controller TK more, an auxiliary reclay CK, a temperature pyrostat WK1, a temperature cryostat WK2, the water-heating system energy-saving controller of a flow control electromagnetic valve TA composition, power firestreak connects one end of many gear timing controller TK, live wire connects one end of auxiliary reclay CK, live wire connects the common port of auxiliary reclay CK, zero-power line connects the other end of many gear timing controller TK, zero line connects the other end of auxiliary reclay CK, the zero line connection traffic control magnetic valve TA other end, the normally opened contact CK1 of described auxiliary reclay CK connects one end of temperature pyrostat WK1, the normally-closed contact CK2 of auxiliary reclay CK connects one end of temperature cryostat WK2, connection traffic control magnetic valve TA one end after the other end parallel connection of the other end of temperature cryostat WK2 and temperature pyrostat WK1.
2. water-heating system energy-saving controller according to claim 1 is characterized in that: described flow control electromagnetic valve TA is made up of solenoid (1), cut-off valve block metering orifice (2), stop valve control lever (3), cut-off valve block (4), cut-off valve block (5); Described stop valve metering orifice (2) is in the time controlling flow work, for guarantee system can thoroughly not ended, make generation air in system, affect heating effect, preformed hole in the time that cut-off valve block (4) is made, the sectional area of preformed hole is cut-off valve block sectional area 30%, forms a cut-off valve block metering orifice (2), and the hot water that keeps heating has 30% discharge to circulate in system.
Priority Applications (1)
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CN201320810600.5U CN203718925U (en) | 2013-12-08 | 2013-12-08 | Water heating system energy saving controller |
Applications Claiming Priority (1)
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CN201320810600.5U CN203718925U (en) | 2013-12-08 | 2013-12-08 | Water heating system energy saving controller |
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CN203718925U true CN203718925U (en) | 2014-07-16 |
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CN201320810600.5U Expired - Fee Related CN203718925U (en) | 2013-12-08 | 2013-12-08 | Water heating system energy saving controller |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111442346A (en) * | 2020-03-31 | 2020-07-24 | 同济大学建筑设计研究院(集团)有限公司 | Central heating control method and device, computer equipment and storage medium |
-
2013
- 2013-12-08 CN CN201320810600.5U patent/CN203718925U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111442346A (en) * | 2020-03-31 | 2020-07-24 | 同济大学建筑设计研究院(集团)有限公司 | Central heating control method and device, computer equipment and storage medium |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140716 Termination date: 20201208 |
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CF01 | Termination of patent right due to non-payment of annual fee |