CN205878333U - Intelligent temperature control system - Google Patents
Intelligent temperature control system Download PDFInfo
- Publication number
- CN205878333U CN205878333U CN201620690659.9U CN201620690659U CN205878333U CN 205878333 U CN205878333 U CN 205878333U CN 201620690659 U CN201620690659 U CN 201620690659U CN 205878333 U CN205878333 U CN 205878333U
- Authority
- CN
- China
- Prior art keywords
- temperature control
- office building
- data acquisition
- valve
- controller
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model relates to an intelligent temperature control system, including a plurality of office building control by temperature change subsystems, every office building control by temperature change subsystem corresponds an office building and every office building control by temperature change subsystem includes temperature controller, valve and data acquisition controller, a plurality of office building control by temperature change subsystems all are connected to the centralized control server at the upper reaches, the centralized control server still is connected to a plurality of residential building control by temperature change subsystems that correspond with the residential building to low reaches, is connected to heat supply center to the upper reaches. Pass through like this the centralized control server carries out flow distribution to office building and residential building, can rationally optimize the flow distribution in a certain region, moreover, the centralized control server still is connected to heat supply center, can be based on office building control by temperature change subsystem and the sub - system feedback's of residential building control by temperature change flow data confirms the heat that heat supply center need produce. Consequently, above -mentioned intelligent temperature control system has practiced thrift the energy, is fit for the popularization of large tracts of land.
Description
Technical field
This utility model relates to the intelligent temperature of heating system and controls, and is specifically related to a kind of intelligent temperature control system.
Background technology
In the north, heating installation can make people tide over the winter of cold.Especially in office, warm environment can make work
Make personnel preferably to work.But in office block, although Mei Jian office be both provided with switch heating installation switch, but by
The reason such as forgeing in coming off duty, heating installation remains on after often leading to come off duty or when day Saturday no one, such heating installation
Or heating, causes thermal waste.
At present, some Central Heating Providing sides develop a kind of intelligent temperature control system, and the period that is mainly used in heating in the winter time is automatic
Control indoor temperature, reach to save the purpose of the energy.This kind of intelligent temperature control system includes indoor temperature transmitter, data acquisition control
Device processed and electrodynamic valve, indoor temperature transmitter detects indoor temperature and is uploaded to data acquisition controller, data acquisition control
Device judges when indoor real time temperature reaches design temperature, and output order closes electrodynamic valve, and like this, room heater sheet stops supplying
Hot water, when indoor temperature is less than design temperature, electrodynamic valve is opened, and thus indoor temperature can be maintained at one and compare
Constant state.
Although above-mentioned intelligent temperature control system can saving heat energy.But what the most unresolved evening and weekend still heated asks
Topic.And above-mentioned intelligent temperature control system controlling is single, whole office block is not carried out overall centralized management, does not has yet
The heat supply center linkage big with the heat exchange station of higher level or boiler room etc..So, if evening clerical workforce come off duty, by whole greatly
After the electrodynamic valve in each room, building cuts out, the assignment of traffic etc. of whole heating network will certainly be affected,
The most above-mentioned intelligent temperature control system can not be suitable for large-area popularization.
Utility model content
The problem that this utility model exists for above-mentioned prior art, controls to meet the saving energy, Coupled motion etc.
Needs, it is provided that a kind of novel intelligent temperature control system.
The intelligent temperature control system that this utility model embodiment provides, including multiple office building temperature control subsystems, each described
The corresponding office building of office building temperature control subsystem, and each described office building temperature control subsystem includes:
Temperature controller, is disposed in the interior, and electrically connects with data acquisition controller, for gathering the temperature data of indoor, and
This temperature data is fed back to data acquisition controller;
Valve, is arranged on the supply channel of heating pipe network, and electrically connects with data acquisition controller, is used for receiving described
The instruction of data acquisition controller, and according to the aperture of described instruction control valve;
Data acquisition controller, electrically connects with described temperature controller and described valve, for receiving described temperature controller feedback
Temperature data, and this temperature data is compared with predetermined temperature data, send out to described valve according to comparative result
Send the instruction for regulating described valve opening;
The plurality of office building temperature control subsystem is connected to the centralized Control server of upstream, described centralized Control service
Device is additionally coupled to the multiple residential building temperature control subsystems corresponding with residential building to downstream, and upstream is connected to heat supply center, described
The data on flows that centralized Control server feeds back for the office building temperature control subsystem and residential building temperature control subsystem receiving downstream,
According to this data on flows, office building and residential building carried out assignment of traffic, and the situation of assignment of traffic is fed back to described for hankering
The heart, described heat supply center for determining the heat of production according to the situation of described assignment of traffic.
The control of intervalometer, described intervalometer and described data acquisition controller is also included in described data acquisition controller
Unit electrically connects, and when the first date that described intervalometer sets and/or the first moment arrive, described control unit is to described valve
Door sends shutdown signal, and when the second date that described intervalometer sets and/or the second moment arrive, described control unit is to institute
State valve and send unlatching signal.
Time-delay trigger, described time-delay trigger and described data acquisition control is also included in described data acquisition controller
The control unit electrical connection of device, through predetermined time interval after described first moment, triggers described control unit to described
Valve sends shutdown signal.
In technique scheme, described temperature controller is hotlist, and described valve is electrically operated valve.
Copper core polyvinyl chloride-insulated polyvinyl chloride screen is used between described temperature controller and described data acquisition controller
Covering flexible cable electrical connection, the specification of described shielded flexible cable is 2 × 2.5 square millimeters.
Copper core polyvinyl chloride-insulated polyvinyl chloride is used to control between described valve and described data acquisition controller
Flexible cable electrically connects, and the specification of described control flexible cable is 3 × 1.0 square millimeters.
Net is used between described centralized Control server and described office building temperature control subsystem and residential building temperature control subsystem
Network connects, and the communication mode that described network connects is that RS485 hands in hand communication mode.
One described centralized Control server at most connects 255 described office building temperature control subsystems and/or residential building temperature
Control subsystem.
Described network is wireless network or cable network.
This utility model can reach following beneficial effect: is connected to office building temperature control by described centralized Control server
Subsystem and residential building temperature control subsystem, and described centralized Control server is additionally coupled to heat supply center, thus can be right
Whole office buildings and residential building in whole office block, the most a certain region carry out overall centralized management, and with higher level's
The heat supply center that heat supply center such as heat exchange station or boiler room etc. is big is linked.So, if evening or weekend are by whole
After the valve in each room of individual office block is closed, with little need for for this office building distribution heating flow, and gas in evening
The temperature drop low moment needing just to increase heating flow for residential building, by described centralized Control server to office building and resident
Building carries out assignment of traffic, the assignment of traffic in a certain region can be carried out reasonably optimizing;Moreover, described centralized Control clothes
Business device is additionally coupled to heat supply center, and this heat supply center can be according to described office building temperature control subsystem and residential building temperature control subsystem
The data on flows of feedback, determines that described heat supply center needs the heat produced.The most above-mentioned intelligent temperature control system has saved energy
Source, is suitable for large-area popularization.
Accompanying drawing explanation
Fig. 1 is the structural representation of this utility model embodiment intelligent temperature control system.
Reference:
101-temperature controller, 102-valve, 103-data acquisition controller;
First office building (or residential building) of 11-, second office building (or residential building) of 12-, n-th office building of 1n-(or
Residential building);
20-centralized Control server, 30-heat supply center.
Detailed description of the invention
For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing and be embodied as
This utility model is described in further detail by example.
As it is shown in figure 1, this utility model embodiment provides a kind of intelligent temperature control system, including multiple office building temperature controls
System, the corresponding office building of each described office building temperature control subsystem, and each described office building temperature control subsystem include:
Temperature controller 101, is disposed in the interior, and electrically connects with data acquisition controller 103, for gathering the temperature number of indoor
According to, and this temperature data is fed back to data acquisition controller 103;
Valve 102, is arranged on the supply channel of heating pipe network, and electrically connects with data acquisition controller 103, is used for connecing
Receive the instruction of described data acquisition controller 103, and according to the aperture of described instruction control valve 102;
Data acquisition controller 103, electrically connects with temperature controller 101 and valve 102, for receiving temperature controller 101 feedback
Temperature data, and this temperature data is compared with predetermined temperature data, send to valve 102 according to comparative result
Instruction for control valve 102 aperture;
The plurality of office building temperature control subsystem is connected to the centralized Control server 20 of upstream, centralized Control server
20 pairs of downstreams are additionally coupled to the multiple residential building temperature control subsystems corresponding with residential building, and upstream is connected to heat supply center 30, institute
State centralized Control server 20 for receiving office building temperature control subsystem and the flow of residential building temperature control subsystem feedback in downstream
Data, carry out assignment of traffic according to this data on flows, and the situation of assignment of traffic are fed back to described office building and residential building
Heat supply center 30, heat supply center 30 for determining the heat of production according to the situation of described assignment of traffic.
The top of Fig. 1 demonstrates that centralized Control server 20 is connected to multiple temperature control subsystem 11,12 to 1n, the plurality of temperature
Control subsystem both can be office building temperature control subsystem, it is also possible to be residential building temperature control subsystem, these temperature control subsystem conducts
Upstream device is connected to centralized Control server 20, and centralized Control server 20 is connected to again its upstream equipment heat supply center 30,
This heat supply center 30 can be heat exchange station or boiler room.The bottom of Fig. 1 shows the temperature control subsystem of a wherein office building
Complete diagram, this office building has multiple office, is both provided with at least one temperature controller 101 He in each office
Valve 102, temperature controller 101 and the valve 102 of each office are connected to data acquisition controller 103, data acquisition control
Device 103 is finally coupled to centralized Control server 20.
In the above-described embodiments, office building temperature control subsystem and residential building temperature control are connected by centralized Control server 20
System 11,12 to 1n, and by centralized Control server 20 is connected to heat supply center 30, can to whole office block,
Whole office buildings in the most a certain region and residential building carry out overall centralized management, and and the heat supply center of higher level carry out
Linkage.So, if after the valve 102 in each for whole office block room is closed by evening or weekend, with little need for
Distribute heating flow for this office building, and temperature in evening reduces the moment needing to increase heating flow for residential building just, passes through
Centralized Control server 20 carries out assignment of traffic to office building and residential building, can close the assignment of traffic in a certain region
Reason optimizes;Moreover, centralized Control server 20 is additionally coupled to heat supply center 30, and heat supply center 30 can be according to described office
Building temperature control subsystem and the data on flows of residential building temperature control subsystem feedback, determine that it needs the heat produced.The most above-mentioned
Intelligent temperature control system has saved the energy, is suitable for large-area popularization.
Further, although not shown in FIG. 1, but in actual applications it is fixed also to include in data acquisition controller 103
Time device, described intervalometer electrically connects with the control unit of data acquisition controller 103, on the first date that described intervalometer sets
And/or during the first moment arrival, described control unit sends shutdown signal to valve 102, stops office building and/or residential building
The supply of heating installation.Aforementioned first date can be weekend and legal festivals and holidays, aforementioned first moment can be workaday evening
Upper ten one or other times, naturally it is also possible to be not limited to working day, such as, can be the point in evening 11 of every day.Because
In above-mentioned first date and/or after the first moment, the staff in usual office building comes home from work the most, if finally from
The personnel opened forget that turning off steam switchs, or for the office building of old-fashioned heating, these office buildings do not have heating installation at all
Switch, staff is left the still supply as usual of rear heating installation, is so carried out whole office building by data acquisition controller 103
Centralized Control, closes the valve for heating installation valve in office building, it is to avoid remains as its heating office no one when, saves circulation
Pump power consumption, thus save the energy.
But it should be noted that after valve 102 is closed by data acquisition controller 103, if now in office
Still having personnel to handle official business, this staff still can manually opened valve 102, in order to heat office.But, if at this
The late gate that staff leaves is not manually turned off, and still can cause the waste of the energy.Now can be in data acquisition control
Time-delay trigger (display the most in FIG), described time-delay trigger and the control of data acquisition controller 103 are set in device 103 processed
Unit processed electrically connects, and through predetermined time interval after described first moment, triggers described control unit and sends to valve 102
Shutdown signal.Such as, this ticket reserving time interval can be 2 hours, and ten one data acquisition controllers 103 are by valve at night
After 102 close, morning next day, valve 102 103 was closed by some data acquisition controllers by trial again.And it is not limited to set
Put a time-delay trigger, multiple time-delay trigger with different predetermined time interval can be set.
Data acquisition controller 103 is in addition to can be with automatic-closing valve 102, it is also possible in the triggering of described intervalometer
Under automatically turn on valve 102.Setting the second date and/or the second moment in described intervalometer, this second date can be work
Making day, this second moment can be point in workaday morning eight, when this second date and/or the second moment arrive, and described control
Unit processed sends to valve 102 and opens signal, starts the Central Heating Providing to office building and/or residential building.If in order in work
Office is preheated before arriving by personnel in advance, it is also possible to is shifted to an earlier date in the second moment arranged in intervalometer, such as, arranges
For point in workaday morning seven.
In the above-described embodiments, described temperature controller 101 can be hotlist, and described valve 102 can be electrically operated valve, in order to
The information sent to data acquisition controller 103 feedback information or reception data acquisition controller 103.
When being attached, copper core polrvinyl chloride can be used between temperature controller 101 and data acquisition controller 103 exhausted
Edge pvc sheath shielded flexible cable (i.e. RVVP), the specification of described shielded flexible cable is 2 × 2.5 square millimeters, uses screen
Cover the information that flexible cable can make temperature controller 101 collect and be sent to data acquisition controller 103 with not producing error.
Furthermore, it is possible to use copper core polyvinyl chloride-insulated polyvinyl chloride to control between valve 102 and data acquisition controller 103
Flexible cable electrical connection (i.e. KVVR), the specification of described control flexible cable is 3 × 1.0 square millimeters, uses control flexible cable permissible
It is controlled the transmission of instruction.
And between centralized Control server 102 and described office building temperature control subsystem and residential building temperature control subsystem, use net
Network connects, and the communication mode that described network connects can be that RS485 hands in hand communication mode.Wherein, a centralized Control service
Device 102 at most can connect 255 described office building temperature control subsystems and/or residential building temperature control subsystem.Described network is permissible
For wireless network or cable network.
Described above to the disclosed embodiments, it is therefore an objective to make professional and technical personnel in the field be capable of or use this
Utility model.Multiple amendment to these embodiments will be apparent from, herein for those skilled in the art
Defined in General Principle can be real in other embodiments in the case of without departing from spirit or scope of the present utility model
Existing.Therefore, this utility model is not intended to be limited to the embodiments shown herein, and is to fit to disclosed herein
Principle and the consistent the widest scope of features of novelty.
Claims (9)
1. an intelligent temperature control system, it is characterised in that include multiple office building temperature control subsystem, each described office building temperature control
The corresponding office building of subsystem, and each described office building temperature control subsystem includes:
Temperature controller, is disposed in the interior, and electrically connects with data acquisition controller;
Valve, is arranged on the supply channel of heating pipe network, and electrically connects with data acquisition controller;
Data acquisition controller, electrically connects with described temperature controller and described valve;
The plurality of office building temperature control subsystem is connected to the centralized Control server of upstream, described centralized Control server pair
Downstream is additionally coupled to the multiple residential building temperature control subsystems corresponding with residential building, and upstream is connected to heat supply center.
Intelligent temperature control system the most according to claim 1, it is characterised in that: it is fixed also to include in described data acquisition controller
Time device, described intervalometer electrically connects with the control unit of described data acquisition controller, first day set at described intervalometer
When phase and/or the first moment arrive, described control unit sends shutdown signal to described valve, the set at described intervalometer
When two dates and/or the second moment arrive, described control unit sends to described valve and opens signal.
Intelligent temperature control system the most according to claim 2, it is characterised in that: also include in described data acquisition controller prolonging
Time trigger, described time-delay trigger electrically connects with the control unit of described data acquisition controller, described first moment it
After through predetermined time interval, trigger described control unit to described valve send shutdown signal.
4. according to the intelligent temperature control system described in any one of claim 1-3, it is characterised in that: described temperature controller is hotlist, institute
Stating valve is electrically operated valve.
5. according to the intelligent temperature control system described in any one of claim 1-3, it is characterised in that: described temperature controller and described data
The electrical connection of copper core polyvinyl chloride-insulated polyvinyl chloride shielded flexible cable is used between acquisition controller.
6. according to the intelligent temperature control system described in any one of claim 1-3, it is characterised in that: described valve and described data acquisition
Copper core polyvinyl chloride-insulated polyvinyl chloride is used to control flexible cable electrical connection between collection controller.
7. according to the intelligent temperature control system described in any one of claim 1-3, it is characterised in that: described centralized Control server with
Network is used to connect between described office building temperature control subsystem and residential building temperature control subsystem, the communication mode that described network connects
Hand in hand communication mode for RS485.
Intelligent temperature control system the most according to claim 7, it is characterised in that: a described centralized Control server at most connects
Connect 255 described office building temperature control subsystems and/or residential building temperature control subsystem.
Intelligent temperature control system the most according to claim 8, it is characterised in that: described network is wireless network or wired network
Network.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620690659.9U CN205878333U (en) | 2016-07-01 | 2016-07-01 | Intelligent temperature control system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620690659.9U CN205878333U (en) | 2016-07-01 | 2016-07-01 | Intelligent temperature control system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205878333U true CN205878333U (en) | 2017-01-11 |
Family
ID=57693649
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620690659.9U Active CN205878333U (en) | 2016-07-01 | 2016-07-01 | Intelligent temperature control system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205878333U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106051909A (en) * | 2016-07-01 | 2016-10-26 | 北京大龙供热中心 | Dynamic balance method and system of heating pipe network |
-
2016
- 2016-07-01 CN CN201620690659.9U patent/CN205878333U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106051909A (en) * | 2016-07-01 | 2016-10-26 | 北京大龙供热中心 | Dynamic balance method and system of heating pipe network |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108240679B (en) | A kind of heat supply method based on building heating load prediction, device and system | |
CN103162346B (en) | Based on central heating supervisory control system and the central heating system control method of cloud service | |
CN106014165A (en) | Intelligent control louver sun shading system | |
CN109000301A (en) | A kind of central heating end balance adjusting method | |
CN102411346B (en) | Heating and decentralized air-conditioning system for teaching or office building and control method | |
CN205536115U (en) | Electric heating system of intelligence based on high in clouds control | |
CN103528110A (en) | Heat supply system for community | |
CN111795426A (en) | Novel indoor intelligent heating system and method | |
Vattano | Smart buildings for a sustainable development | |
CN110296539A (en) | A kind of zero cold water circulating system and method based on zero circulating chilled water device | |
CN114165825A (en) | Heat supply regulation and control system and method for heat exchange station | |
CN205196035U (en) | Intelligence house lighting system | |
CN205878333U (en) | Intelligent temperature control system | |
CN208418940U (en) | A kind of campus Central heating monitoring system | |
CN208418939U (en) | A kind of Multifunctional air heater for bathroom wireless control system | |
CN107490136A (en) | A kind of centralized temperature and humidity intelligent control system | |
CN208175004U (en) | A kind of Electric heater Intelligent wireless network control system | |
CN201314632Y (en) | Energy-saving and emission reduction heat supply combination control device combined with meteorological information | |
CN205536114U (en) | Control system warms up large capacity | |
CN104165411A (en) | Energy-saving type campus heating automatic control system | |
CN205299726U (en) | Control system warms up large capacity based on adHoc technique | |
CN104808712A (en) | Multi-power ground heating system | |
Cheng et al. | Integrated control of blind and lights in daily office environment | |
CN209524805U (en) | Control the device and heat-exchange system of heat-exchange unit | |
CN203799238U (en) | Electricity and heating energy-saving remote control system of buildings in colleges and universities |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder | ||
CP01 | Change in the name or title of a patent holder |
Address after: 101300 east side of Shun Yi Road, Shunyi District, Beijing, No. 22 Patentee after: Beijing Shun Zheng Dlong heating Co., Ltd. Address before: 101300 east side of Shun Yi Road, Shunyi District, Beijing, No. 22 Patentee before: Beijing Dalong Heat Supply Center |