CN205783317U - The energy-conservation regulator control system of indoor heating of electrically-based ZAP - Google Patents
The energy-conservation regulator control system of indoor heating of electrically-based ZAP Download PDFInfo
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- CN205783317U CN205783317U CN201620615539.2U CN201620615539U CN205783317U CN 205783317 U CN205783317 U CN 205783317U CN 201620615539 U CN201620615539 U CN 201620615539U CN 205783317 U CN205783317 U CN 205783317U
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Abstract
The utility model discloses the energy-conservation regulator control system of indoor heating of a kind of electrically-based ZAP, including body of wall, floor, electric lines of force, between body of wall compartment floor, space is for for greenhouse and control room;Electric lines of force runs through body of wall.Heating indoor is provided with indoor radiating equipment;Register one's residence heat supply main-supply, heat supply main water return tube of registering one's residence runs through body of wall and extends to control room;Heat supply main-supply of registering one's residence in control room connects two-port valve;Two-port valve is connected with the electrical actuator of band electric power carrier communication module;Electrical actuator with electric power carrier communication module is connected with the electric lines of force in control room;The electric lines of force of heating indoor connects the indoor thermostat having band electric power carrier communication module.Native system is slotted on body of wall, is punched being not required to, it is not necessary to the problem solving temperature signal communication through walls on the premise of additionally mounted temperature control line.User can change the control area of indoor thermostat the most at any time, temperature sets and temperature controller type.
Description
Technical field
This utility model relates to heat supply process, more particularly to the energy-conservation tune of indoor heating of a kind of electrically-based ZAP
Ore-controlling Role.
Background technology
Along with the high speed development of society and improving constantly of human living standard, heating system is transported the most more and more widely
For the field such as business, hotel, office building, government bodies, residential quarters, high-grade apartment, school, hospital.Have at existing building
Temperature control system in the non-installation room of substantial amounts of central heating system, causes the waste of the energy, and comfort level is low and user's cost of use high.
According to statistics, in central heating system, in installation room, temperature control system not only can allow user freely arrange required temperature according to self-demand
Degree, and the non-installation room of ratio in energy-conservation about the 20-30% of temperature control system.
At present, when the transformation process to existing building central heating system installs additional Indoor Temperature Ore-controlling Role, need to be at body of wall
Temperature control line is installed in upper fluting, punching, and existing building structure and finishing are damaged by this, and is difficult to construction and safeguards.Not only change
Cause this height to look forward to, and destroy aesthetic property and the globality of existing building structure.
Utility model content
The purpose of this utility model is for solving existing building is added Indoor Temperature Ore-controlling Role to original building structural deterioration relatively
Big problem and the energy-conservation regulator control system of indoor heating of a kind of electrically-based ZAP is provided.
The technical scheme that this utility model solves above-mentioned technical problem is as follows:
A kind of indoor heating energy-conservation regulator control system of electrically-based ZAP, including body of wall, floor, electric lines of force, described
Body of wall separates the confession greenhouse and the control room on right side that space between described floor is left side;Described electric lines of force runs through described body of wall
Described control room is extended to for greenhouse from described.
Described heating indoor is provided with indoor radiating equipment;Described indoor radiating equipment connects the main water supply of heat supply of registering one's residence
Pipe, heat supply main water return tube of registering one's residence;Described heat supply main-supply of registering one's residence, described in register one's residence heat supply main water return tube run through described body of wall extend
To described control room;Heat supply main-supply of registering one's residence described in described control room connects two-port valve;Described two-port valve and described band
The electrical actuator of power carrier communication module is connected;The electrical actuator of described band electric power carrier communication module and described tune
The described electric lines of force of degree indoor is connected;The described electric lines of force of described heating indoor connects the room having band electric power carrier communication module
Interior temperature controller.
Further, it is provided with indoor between indoor thermostat and the described electric lines of force of described band electric power carrier communication module
Socket, user can the indoor thermostat of on-demand switch band electric power carrier communication module, be effectively improved service life of equipment.
The most further, the described electric lines of force end in described control room is provided with ammeter.
Described electric lines of force includes zero line and live wire.Described indoor thermostat is week to program temperature controller or cloud temperature controller.
The beneficial effects of the utility model are: slot on body of wall, punch being not required to, it is not necessary to install the premise of temperature control line
Under solve the problem of temperature signal communication through walls.Native system have be prone to construction, it is easy to the advantage of maintenance.User can be according to need
To change the control area of indoor thermostat at any time, temperature sets and temperature controller type.
Accompanying drawing explanation
Fig. 1 is the indoor heating energy-conservation regulator control system schematic diagram of the electrically-based ZAP of this utility model.
In figure: two-port valve 1;Electrical actuator 2 with electric power carrier communication module;Register one's residence heat supply main-supply 3;Register one's residence confession
Hot main water return tube 4;Ammeter 5;Electric lines of force 6;Indoor socket 7;Indoor thermostat 8 with electric power carrier communication module;Indoor radiating
Equipment 9;Body of wall 10;Floor 11;For greenhouse A;Control room B.
Detailed description of the invention
Being described principle of the present utility model and feature below in conjunction with accompanying drawing, example is served only for explaining this practicality
Novel, it is not intended to limit scope of the present utility model.
As shown in drawings, the energy-conservation regulator control system of indoor heating of a kind of electrically-based ZAP, including body of wall 10, floor
11, electric lines of force 6, electric lines of force 6 includes live wire and zero line, between body of wall 10 compartment floor 11 space be left side for greenhouse A and
The control room B on right side;Electric lines of force 6 runs through body of wall 10 and extends to control room B from for greenhouse A.
It is provided with indoor radiating equipment 9 in greenhouse A;Indoor radiating equipment 9 connects heat supply main-supply 3 of registering one's residence, enters
Family heat supply main water return tube 4;Register one's residence heat supply main-supply 3, heat supply main water return tube 4 of registering one's residence runs through body of wall 10 and extends to control room B;Adjust
Heat supply main-supply 3 of registering one's residence in degree room B connects two-port valve 1;Two-port valve 1 and the electrical actuator of band electric power carrier communication module
2 are connected;Electrical actuator 2 with electric power carrier communication module is connected with the electric lines of force 6 in the B of control room;For in greenhouse A
Electric lines of force 6 is connected with the indoor thermostat 8 of band electric power carrier communication module by indoor socket 7.
Electric lines of force 6 end in the B of control room is provided with ammeter 5.Electric lines of force 6 connects 220v, 50hz domestic power supply.Two-port valve 1,
Heat supply main-supply 3 of registering one's residence heat supply main water return tube 4 of registering one's residence uses DN25 or DN32 or DN40 type.With electric power carrier communication module
Electrical actuator 2 uses DN20 type.Indoor thermostat 8 can be week programming temperature controller HT5000 or cloud temperature controller HTY3000.
With reference to following principle during native system work:
When indoor temperature is less than the design temperature of the indoor thermostat 8 of band electric power carrier communication module, band power carrier
The indoor thermostat 8 of communication module passes through indoor socket 7 and electric lines of force 6 to the electrical actuator 2 of band electric power carrier communication module
Sending opening signal, the electrical actuator 2 of band electric power carrier communication module opens two-port valve 1, heat supply main-supply 3 dozens of registering one's residence
Opening, indoor radiating equipment 9 starts heat supply.
When indoor temperature is higher than when the arranging temperature of indoor thermostat 8 of band electric power carrier communication module, band power carrier
The indoor thermostat 8 of communication module passes through indoor socket 7 and electric lines of force 6 to the electrical actuator 2 of band electric power carrier communication module
Sending shutdown signal, the electrical actuator 2 of band electric power carrier communication module closes two-port valve 1, and heat supply main-supply 3 of registering one's residence closes
Closing, indoor radiating equipment 9 stops heat supply.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all in this practicality
Within novel spirit and principle, any modification, equivalent substitution and improvement etc. made, should be included in guarantor of the present utility model
Within the scope of protecting.
Claims (7)
1. the energy-conservation regulator control system of the indoor heating of electrically-based ZAP, including body of wall (10), floor (11), electric lines of force
(6), described body of wall (10) separates confession greenhouse (A) and the control room (B) on right side that space between described floor (11) is left side;
Described electric lines of force (6) runs through described body of wall (10) and extends to described control room (B) from described for greenhouse (A), it is characterised in that:
Described for being provided with indoor radiating equipment (9) in greenhouse (A);Described indoor radiating equipment (9) connects the heat supply master that registers one's residence
Feed pipe (3), heat supply main water return tube (4) of registering one's residence;Described heat supply main-supply (3) of registering one's residence, described in register one's residence heat supply main water return tube (4)
Run through described body of wall (10) and extend to described control room (B);Heat supply main-supply (3) of registering one's residence described in described control room (B) is even
It is connected to two-port valve (1);Described two-port valve (1) is connected with the electrical actuator (2) of band electric power carrier communication module;Described charged
The electrical actuator (2) of power carrier communication module is connected with the described electric lines of force (6) in described control room (B);Described heating
Described electric lines of force (6) in room (A) connects the indoor thermostat (8) having band electric power carrier communication module.
The energy-conservation regulator control system of indoor heating of electrically-based ZAP the most according to claim 1, it is characterised in that: institute
State and between the indoor thermostat (8) of band electric power carrier communication module and described electric lines of force (6), be provided with indoor socket (7).
The energy-conservation regulator control system of indoor heating of electrically-based ZAP the most according to claim 1, it is characterised in that: institute
State electric lines of force (6) and include zero line and live wire.
4., according to the energy-conservation regulator control system of indoor heating of the electrically-based ZAP described in Claims 2 or 3, its feature exists
In: described indoor thermostat (8) is week to program temperature controller or cloud temperature controller.
The energy-conservation regulator control system of indoor heating of electrically-based ZAP the most according to claim 1, it is characterised in that: institute
State indoor thermostat (8) for week programming temperature controller or cloud temperature controller.
The energy-conservation regulator control system of indoor heating of electrically-based ZAP the most according to claim 4, it is characterised in that: institute
Described electric lines of force (6) end stated in control room (B) is provided with ammeter (5).
The energy-conservation regulator control system of indoor heating of electrically-based ZAP the most according to claim 2, it is characterised in that: institute
State electric lines of force (6) and include zero line and live wire.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620615539.2U CN205783317U (en) | 2016-06-21 | 2016-06-21 | The energy-conservation regulator control system of indoor heating of electrically-based ZAP |
Applications Claiming Priority (1)
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CN201620615539.2U CN205783317U (en) | 2016-06-21 | 2016-06-21 | The energy-conservation regulator control system of indoor heating of electrically-based ZAP |
Publications (1)
Publication Number | Publication Date |
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CN205783317U true CN205783317U (en) | 2016-12-07 |
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Family Applications (1)
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CN201620615539.2U Active CN205783317U (en) | 2016-06-21 | 2016-06-21 | The energy-conservation regulator control system of indoor heating of electrically-based ZAP |
Country Status (1)
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CN (1) | CN205783317U (en) |
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2016
- 2016-06-21 CN CN201620615539.2U patent/CN205783317U/en active Active
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CP03 | Change of name, title or address |
Address after: 430056 Wuhan economic and Technological Development Zone, Wuhan City, Wuhan, Hubei Province, No. 107, No. 107 Patentee after: Wuhan Hongtu Energy Conservation and Environmental Protection Group Co.,Ltd. Address before: 430056, 107, No. four, Wuhan economic and Technological Development Zone, Hubei, China Patentee before: WUHAN HONGTU ENERGY-SAVING TECHNOLOGY Co.,Ltd. |
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CP03 | Change of name, title or address |