CN205049897U - Accumulator plant environmental monitoring of transformer substation device - Google Patents
Accumulator plant environmental monitoring of transformer substation device Download PDFInfo
- Publication number
- CN205049897U CN205049897U CN201520450617.3U CN201520450617U CN205049897U CN 205049897 U CN205049897 U CN 205049897U CN 201520450617 U CN201520450617 U CN 201520450617U CN 205049897 U CN205049897 U CN 205049897U
- Authority
- CN
- China
- Prior art keywords
- control panel
- transformer substation
- storage batteries
- line concentrator
- sensor
- 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
Landscapes
- Arrangements For Transmission Of Measured Signals (AREA)
Abstract
The utility model relates to an accumulator plant environmental monitoring of transformer substation device, it includes: communication device, controlling means, line concentrator, a plurality of sensor, first control board, second control panel still include the device body, and the device body has a holding chamber, and communication device, controlling means, line concentrator, a plurality of sensor, first control board, second control panel set up in the holding chamber, the first control board is used for connecting the air conditioner of transformer substation's accumulator plant, and the second control panel is used for connecting the air exhauster of transformer substation's accumulator plant. Above -mentioned accumulator plant environmental monitoring of transformer substation device through the holding chamber, can make things convenient for fast with each components and parts assembled fitting, and it can only start or stop or the start -up of single control air exhauster or the problem that stops by the single control air conditioner to have solved traditional accumulator plant environmental monitoring device.
Description
Technical field
The utility model relates to the field of transformer station's technology, particularly relates to storage batteries of transformer substation room environmental supervising device.
Background technology
Storage batteries of transformer substation room is for placing accumulator, and this accumulator is aut.eq., the equipment such as protective device and communicator provides direct current.Accumulator can separate out hydrogen in charging process, and battery room is usually located at the Stall in floor, easily gathers moisture.When apparatus insulated decline causes short circuit dischange, very easily blast.Therefore need to install air exhauster additional or air-conditioning carries out environmental Kuznets Curves.But the environmental monitoring installation that current storage batteries of transformer substation indoor use is mainly used in controlling air exhauster start and stop, can not meet and control air exhauster and air-conditioning start and stop simultaneously.
Utility model content
Based on this, be necessary for how rapid-assembling, how be convenient to the problem that connects, a kind of storage batteries of transformer substation room environmental supervising device is provided.
A kind of storage batteries of transformer substation room environmental supervising device, it comprises: communicator, control device, line concentrator, some sensors, the first control panel, the second control panel, also comprise device body, described device body has accommodating cavity, and described communicator, described control device, described line concentrator, some described sensors, described first control panel, described second control panel are arranged in described accommodating cavity; Described device body offers the some openings, the first installing port and the second installing port that are communicated with described accommodating cavity, and described sensor wears described opening and exposes to described device body, opening described in sensor correspondence one described in; Described first control panel wears described first installing port and exposes to described device body, and described second control panel wears described second installing port and exposes to described device body; Described communicator is connected with described control device; Described line concentrator is connected with described control device, some described sensors, described first control panel and described second control panel respectively; Described first control panel is for connecting the air-conditioning of storage batteries of transformer substation room, and described second control panel is for connecting the air exhauster of storage batteries of transformer substation room.
Wherein in an embodiment, some described sensors comprise: hydrogen gas sensor and smoke transducer, and described hydrogen gas sensor is connected with described line concentrator respectively with described smoke transducer.
Wherein in an embodiment, some described sensors also comprise: humidity sensor and temperature sensor, and described humidity sensor is connected with described line concentrator respectively with described temperature sensor.
Wherein in an embodiment, described control device is single-chip microcomputer, and described single-chip microcomputer is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.
Wherein in an embodiment, described communicator is ethernet module, and described ethernet module is connected with described single-chip microcomputer.
Wherein in an embodiment, described control device is microprocessor, and described microprocessor is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.
Wherein in an embodiment, described control device is arm processor, and described arm processor is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.
Wherein in an embodiment, described communicator is also provided with WIFI breakout box, and described WIFI breakout box is connected with described ethernet module, for the data of described control device are wirelessly transferred to remote server.
Wherein in an embodiment, described communicator is also provided with ZIGBEE module, and described ZIGBEE module is connected with described ethernet module, for the data of described control device are wirelessly transferred to remote server.
Above-mentioned storage batteries of transformer substation room environmental supervising device, pass through accommodating cavity, easily and fast by each components and parts assembly and connection, traditional battery room environmental monitoring installation can be solved and can only control separately starting of air conditioner or stopping or controlling the startup of air exhauster or the problem of stopping separately.
Accompanying drawing explanation
Fig. 1 is the structural representation of the storage batteries of transformer substation room environmental supervising device of the utility model one embodiment;
Fig. 2 is the structural representation at another visual angle embodiment illustrated in fig. 1;
Fig. 3 is the connection diagram of building block embodiment illustrated in fig. 1;
Fig. 4 is the connection diagram of the building block of the storage batteries of transformer substation room environmental supervising device of another embodiment of the utility model.
Embodiment
For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in detail embodiment of the present utility model below in conjunction with accompanying drawing.Set forth a lot of detail in the following description so that fully understand the utility model.But the utility model can be much different from alternate manner described here to implement, those skilled in the art can when doing similar improvement without prejudice to when the utility model intension, and therefore the utility model is by the restriction of following public specific embodiment.
See also Fig. 1, Fig. 2 and Fig. 3, storage batteries of transformer substation room environmental supervising device 10 comprises: device body 100, communicator 110, control device 120, line concentrator 130, some sensors 140, first control panel 150, second control panel 160.Such as, device body 100 has accommodating cavity, and communicator 110, control device 120, line concentrator 130, some sensors 140, first control panel 150, second control panel 160 are arranged in accommodating cavity.
Such as, device body 100 offers some openings 101, first installing port 102 and the second installing port 103 that are communicated with accommodating cavity.Such as, sensor 140 wears opening 101 and exposes to device body 100.Such as, a corresponding opening 101 of sensor 140.Such as, the probe of sensor 140 exposes to device body 100 through opening 101.Such as, the first control panel 150 is arranged in the first installing port 102 and exposes to device body 100, and the second control panel 160 is arranged in the second installing port 103 and exposes to device body 100.
It should be noted that, communicator, control device, line concentrator, some sensors, first control panel, second control panel is prior art, the present embodiment is only Sustainable use communicator, control device, line concentrator, some sensors, first control panel and the second control panel etc. reach the object of storage batteries of transformer substation room environmental monitoring, its structure and principle are known for those skilled in the art, for communicator, control device, line concentrator, some sensors, the structure of the first control panel and the second control panel etc. and principle, the present embodiment repeats no more.
Such as, communicator 110 and control device 120 are interconnected.Such as, line concentrator 130 is interconnected with control device 120, some sensors 140, first control panel 150 and the second control panel 160 respectively.Such as, the first control panel 150 is connected with air-conditioning.Such as, the second control panel 160 is connected with air exhauster.Such as, some sensors 140 comprise: humidity sensor, temperature sensor, hydrogen gas sensor and smoke transducer, and humidity sensor, temperature sensor, hydrogen gas sensor and smoke transducer are connected with line concentrator 130 respectively.
Storage batteries of transformer substation room environmental supervising device is applied to storage batteries of transformer substation room, and this battery room is provided with and is communicated with air-conditioning inside and outside battery room and air exhauster.Such as, air-conditioning and air exhauster are arranged on the wall of battery room, are communicated with the air inside and outside battery room when air-conditioning works with air exhauster.
Such as, communicator 110 is for transferring to remote server by the data of control device 120.And for example, communicator 110 is also for accepting parameter and then Long-distance Control air-conditioning and the air exhauster indirectly of user's input control control device 120.
Such as, line concentrator 130 is for receiving the data-signal of some sensor 140, first control panels 150 and the second control panel 160 and data-signal being transferred to control device 120.And for example, line concentrator 130 also for receiving control device 120 control signal and control signal is transferred to the first control panel 150 and the second control panel 160.
Such as, the first control panel 150 controls the start and stop of air-conditioning for reception control signal.Such as, the first control panel 150 is for receiving the parameter of adjustment instruction adjustment air-conditioning.
Such as, the second control panel 160 controls the start and stop of air exhauster for reception control signal.Such as, the second control panel 160 is for receiving the parameter of adjustment instruction adjustment air exhauster.
Above-mentioned storage batteries of transformer substation room environmental supervising device, the air-conditioning of storage batteries of transformer substation indoor or the startup of air exhauster or stopping can be controlled by control device 120 simultaneously, solve traditional battery room environmental monitoring installation and can only control separately starting of air conditioner or stopping or controlling the startup of air exhauster or the problem of stopping separately.
For the ease of selecting suitable control device 120 to improve the data-handling efficiency of storage batteries of transformer substation room environmental supervising device, refer to Fig. 2, such as, control device 120 is single-chip microcomputer 121.And for example, control device 120 is arm processor.And for example, control device 120 is microprocessor.Be appreciated that the treatment effeciency of the control device 120 of dissimilar function is had any different, can select according to concrete battery room environment in actual mechanical process.Such as, when battery room environmental change frequency is larger, that is, when battery room environment is unstable, because air-conditioning 170 is different with the duty of air exhauster 180 in different environments, need commutation circuit state back and forth when environmental change frequency is very fast and need data volume to be processed comparatively large, now, the control device 120 needing data-handling efficiency higher.In the present embodiment, control device 120 is single-chip microcomputer 121, it is for the indoor temperature and humidity that gathers and all kinds of gas content data, air-conditioning 170 and air exhauster 180 duty etc., and by communicator 110, indoor temperature and humidity and all kinds of gas content data, air-conditioning 170 and air exhauster 180 duty are uploaded to network, such as, by communicator 110, indoor temperature and humidity and all kinds of gas content data, air-conditioning 170 and air exhauster 180 duty are uploaded in the remote server of user preset.Like this, user revises the air-conditioning 170 and air exhauster 180 start and stop parameter that store in single-chip microcomputer 121 via communicator 110 by network, or remote opening or close air-conditioning 170 and air exhauster 180.
Such as, described control device is single-chip microcomputer, and described single-chip microcomputer is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.Such as, described communicator is ethernet module, and described ethernet module is connected with described single-chip microcomputer.
Such as, described control device is microprocessor, and described microprocessor is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.
Such as, described control device is arm processor, and described arm processor is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.
For the ease of the data such as indoor temperature and humidity and all kinds of gas content data, air-conditioning 170 and air exhauster 180 duty being transferred to the remote server of network or user preset, such as, communicator 110 is ethernet module 111.And for example, communicator 110 is network module.In the present embodiment, communicator 110 is ethernet module 111.Such as, communicator 110 is also provided with WIFI breakout box, and WIFI breakout box is connected with ethernet module 111, and WIFI breakout box is used for the data of control device 120 wirelessly to transfer to remote server.And for example, communicator 110 is provided with ZIGBEE module, and ZIGBEE module is connected with ethernet module 111, and ZIGBEE module is used for the data of control device 120 wirelessly to transfer to remote server.Such as, communicator 110 is also provided with user input, the burning program of control device 120 can be entered control device 120 by this user input by user, or user is by the ratings of this user input setting humiture and all kinds of gas content data, air-conditioning 170 and air exhauster 180 duty, obtain a result for the actual comparison with humiture and all kinds of gas content data, air-conditioning 170 and air exhauster 180 duty.Like this, user can be facilitated by wireless communication mode the data such as indoor temperature and humidity and all kinds of gas content data, air-conditioning 170 and air exhauster 180 duty to be transferred to the remote server of network or user preset by communicator 110 and WIFI breakout box or ZIGBEE module, save the wiring in battery room, optimize battery room environment and improve the security performance of battery room to a certain extent, being convenient to the renewal upgrading of system.
In order to improve the communication quality of storage batteries of transformer substation room environmental supervising device, such as, line concentrator 130 is RS-485 line concentrator 1301, line concentrator 130 and control device 120, adopts RS-485 communication protocol between some sensors 140, first control panel 150 and the second control panel 160.Like this, adopt unified RS-485 communication protocol, line concentrator 130 and control device 120, communication efficiency between some sensors 140, first control panel 150 and the second control panel 160 can be improved, improve noise proof feature, ensure transmission quality between each Component Interface data and facilitate user to carry out maintenance and the upgrading of system, thus improving the total quality of storage batteries of transformer substation room environmental supervising device.
In order to measure the air ambient of battery room more accurately, such as, the distinct locations in battery room is distributed with multiple humidity sensor 141, multiple temperature sensor 142, multiple hydrogen gas sensor 143 and multiple smoke transducer 144.In the present embodiment, four humidity sensors, 141, four temperature sensors, 142, four hydrogen gas sensors 143 and four smoke transducers 144 are comprised in battery room, a humidity sensor 141, temperature sensor 142, hydrogen gas sensor 143 and a smoke transducer 144 form a combination sensor, have four combination sensors.Each combination sensor is distributed in the orientation, four, all directions in battery room, and each sensor in each combination sensor is intervally installed, to prevent from interacting.Like this, by various types of sensor that distributes at the distinct locations of battery room, can air ambient more in accurate sense battery room, thus improve the security performance of battery room.
For the ease of controlling air-conditioning 170 and air exhauster 180, such as, the first control panel 150 is air-conditioning control panel 151.Such as, the first control panel 150 is provided with first interface, is connected with air-conditioning 170 main frame by this first interface.Such as, the second control panel 160 is air exhauster control panel 161.Such as, the second control panel 160 is provided with the second interface, is connected with air exhauster 180 main frame by this second interface.Such as, the first control panel 150 and the second control panel 160 are pcb board.Such as, the first control panel 150 and air-conditioning 170 simplex.Such as, the first control panel 150 and line concentrator 130 duplex communication.Like this, control device 120 be sent to line concentrator 130 control signal or adjustment instruction transfer to air-conditioning 170 by the first control panel 150, thus control air-conditioning 170 start and stop or adjustment air-conditioning 170 running parameter.Further, due to the first control panel 150 and line concentrator 130 duplex communication, make when line concentrator 130 is to the first control panel 150 transmission of control signals, the first control panel 150 also transmits the status information of air-conditioning 170 to line concentrator 130.Thus when needing the state adjusting air-conditioning 170, line concentrator 130 can transmit adjustment instruction to the first control panel 150 in time, convenient control air-conditioning 170.Such as, the second control panel 160 and air exhauster 180 simplex.Such as, the second control panel 160 and line concentrator 130 duplex communication.Like this, control device 120 be sent to line concentrator 130 control signal or adjustment instruction transfer to air exhauster 180 by the second control panel 160, thus control air exhauster 180 start and stop or adjustment air exhauster 180 running parameter.Further, due to the second control panel 160 and line concentrator 130 duplex communication, make when line concentrator 130 is to the second control panel 160 transmission of control signals, the second control panel 160 also transmits the status information of air exhauster 180 to line concentrator 130.Thus when needing the state adjusting air exhauster 180, line concentrator 130 can transmit adjustment instruction to the second control panel 160 in time, convenient control air exhauster 180.
In order to improve the safety and reliability of storage batteries of transformer substation room, such as, battery room is provided with multiple stage air-conditioning 170 and multiple stage air exhauster 180.Such as, battery room is provided with two air-conditionings and two air exhausters.Such as, two air-conditionings comprise the first air-conditioning and the second air-conditioning.Such as, two air exhausters comprise the first air exhauster and the second air exhauster.Such as, the first air exhauster carries out exhausting to battery room, and the second air exhauster is blown to battery room, that is, carries out exhausting and air-supply respectively in two air exhausters to battery room.Like this, by control device 120 control two air exhausters open simultaneously time, the air circulation in battery room can be made, the hydrogen content of abundant guarantee storage batteries of transformer substation indoor maintains normal level, and reduce humidity content in battery room, thus avoid the danger causing battery room blast because apparatus insulated decline causes short circuit dischange, improve the safety and reliability of storage batteries of transformer substation room.
For the ease of installing each components and parts such as communicator 110, control device 120, line concentrator 130, some sensors 140, first control panel 150, second control panel 160, such as, each components and parts adopt modular dismountable mounting means.Like this, while being convenient to install each components and parts, also can maintain easily and upgrade each components and parts.
For a battery room environmental monitoring process.
First, be distributed in the actual value that the humidity sensor 141 in the different orientation in battery room, temperature sensor 142, hydrogen gas sensor 143 and smoke transducer 144 detect humidity, temperature, density of hydrogen and smog on predeterminated position respectively, simultaneously, the actual value of the humidity on correspondence position, temperature, density of hydrogen and smog is transferred to line concentrator 130 by humidity sensor 141, temperature sensor 142, hydrogen gas sensor 143 and smoke transducer 144 respectively, and this actual value is transferred to control device 120 by line concentrator 130 again.Further, user pre-sets the ratings of humidity, temperature, density of hydrogen and smog on control device 120.That is, after the value of humidity, temperature, density of hydrogen and smog in the battery room actual environment that receives of control device 120, the ratings of the humidity, temperature, density of hydrogen and the smog that pre-set on control device 120 with user is carried out contrasting and drawing comparing result.Then, control device 120 processes this comparing result and judges whether open air-conditioning 170 and/or air exhauster 180 or stop air-conditioning 170 and/or air exhauster 180, generates control signal.Or control device 120 processes this comparing result and judges whether to adjust the parameter of air-conditioning 170 and/or air exhauster 180, generates adjustment instruction.Then, control device 120 by corresponding control signal or adjustment command to line concentrator 130, line concentrator 130 again by control signal or adjustment command to corresponding air-conditioning 170 and/or air exhauster 180.Finally, air-conditioning 170 and/or air exhauster 180 perform the operation of start or power failure or adjustment inherent parameters.Thus, complete the process that the monitoring of storage batteries of transformer substation room environmental controls adjustment.
Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this instructions is recorded.
The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.
Claims (9)
1. a storage batteries of transformer substation room environmental supervising device, it comprises: communicator, control device, line concentrator, some sensors, the first control panel, the second control panel, is characterized in that,
Also comprise device body, described device body has accommodating cavity, and described communicator, described control device, described line concentrator, some described sensors, described first control panel, described second control panel are arranged in described accommodating cavity;
Described device body offers the some openings, the first installing port and the second installing port that are communicated with described accommodating cavity, and described sensor wears described opening and exposes to described device body, opening described in sensor correspondence one described in; Described first control panel wears described first installing port and exposes to described device body, and described second control panel wears described second installing port and exposes to described device body;
Described communicator is connected with described control device; Described line concentrator is connected with described control device, some described sensors, described first control panel and described second control panel respectively;
Described first control panel is for connecting the air-conditioning of storage batteries of transformer substation room, and described second control panel is for connecting the air exhauster of storage batteries of transformer substation room.
2. storage batteries of transformer substation room environmental supervising device according to claim 1, is characterized in that, some described sensors comprise: hydrogen gas sensor and smoke transducer, and described hydrogen gas sensor is connected with described line concentrator respectively with described smoke transducer.
3. storage batteries of transformer substation room environmental supervising device according to claim 2, is characterized in that, some described sensors also comprise: humidity sensor and temperature sensor, and described humidity sensor is connected with described line concentrator respectively with described temperature sensor.
4. storage batteries of transformer substation room environmental supervising device according to claim 3, it is characterized in that, described control device is single-chip microcomputer, and described single-chip microcomputer is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.
5. storage batteries of transformer substation room environmental supervising device according to claim 4, is characterized in that, described communicator is ethernet module, and described ethernet module is connected with described single-chip microcomputer.
6. storage batteries of transformer substation room environmental supervising device according to claim 3, it is characterized in that, described control device is microprocessor, and described microprocessor is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.
7. storage batteries of transformer substation room environmental supervising device according to claim 3, it is characterized in that, described control device is arm processor, and described arm processor is connected with described hydrogen gas sensor, described smoke transducer, described humidity sensor and described temperature sensor by described line concentrator.
8. storage batteries of transformer substation room environmental supervising device according to claim 5, it is characterized in that, described communicator is also provided with WIFI breakout box, and described WIFI breakout box is connected with described ethernet module, for the data of described control device are wirelessly transferred to remote server.
9. storage batteries of transformer substation room environmental supervising device according to claim 5, it is characterized in that, described communicator is also provided with ZIGBEE module, and described ZIGBEE module is connected with described ethernet module, for the data of described control device are wirelessly transferred to remote server.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520450617.3U CN205049897U (en) | 2015-06-25 | 2015-06-25 | Accumulator plant environmental monitoring of transformer substation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520450617.3U CN205049897U (en) | 2015-06-25 | 2015-06-25 | Accumulator plant environmental monitoring of transformer substation device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205049897U true CN205049897U (en) | 2016-02-24 |
Family
ID=55343463
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201520450617.3U Active CN205049897U (en) | 2015-06-25 | 2015-06-25 | Accumulator plant environmental monitoring of transformer substation device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205049897U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108376804A (en) * | 2018-01-12 | 2018-08-07 | 江苏华源新能源科技有限公司 | A kind of accumulator cell management method of photovoltaic plant |
CN109038828A (en) * | 2018-08-27 | 2018-12-18 | 深圳供电局有限公司 | Transformer substation storage battery and storage battery chamber integrated control system and control method thereof |
-
2015
- 2015-06-25 CN CN201520450617.3U patent/CN205049897U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108376804A (en) * | 2018-01-12 | 2018-08-07 | 江苏华源新能源科技有限公司 | A kind of accumulator cell management method of photovoltaic plant |
CN109038828A (en) * | 2018-08-27 | 2018-12-18 | 深圳供电局有限公司 | Transformer substation storage battery and storage battery chamber integrated control system and control method thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN201226102Y (en) | Remote-control multifunctional controller of air conditioner | |
CN103312827B (en) | Based on home cloud control method and the system of mobile network | |
CN108709299A (en) | One kind being based on LoRa wireless remote intelligents air-conditioner control system and its control method | |
CN103312583A (en) | System and method for monitoring home intelligently and remotely | |
CN201265934Y (en) | Energy-saving central control system of split type air conditioner | |
CN203421794U (en) | Remote monitoring system of non-intelligent air conditioner of machine room | |
CN101900394A (en) | Building air-conditioner control system and method based on ZigBee wireless technology | |
CN201866891U (en) | Electric room air conditioner energy-saving control device | |
CN104793671A (en) | Temperature and humidity regulating system and temperature and humidity regulating method of control cubicle of intelligent substation | |
CN201652705U (en) | Intelligent air-conditioning remote controller | |
CN204462676U (en) | Intelligent home control system | |
JP2016533468A (en) | Infrared repeater providing demand control for a ductless separated HVAC device | |
CN205049897U (en) | Accumulator plant environmental monitoring of transformer substation device | |
CN202057989U (en) | Learning-type energy saving controller for communication base station/machine room | |
CN201265933Y (en) | Long-range control circuit of split type air conditioner | |
CN109634331A (en) | A kind of transformer substation switch room temperature humidity control system | |
CN114397824A (en) | Intelligent home management system based on Internet of things | |
CN203163094U (en) | Air conditioning system | |
CN204216676U (en) | Based on transformer station's temperature and humidity intelligent supervisory control system of EnOcean technology | |
CN208967988U (en) | A kind of wireless Heating,Ventilating and Air Conditioning control system | |
CN106647315A (en) | Method for controlling smart home based on computer and network | |
CN207299293U (en) | A kind of complete intelligent Total heat exchange fresh air purifying processing system | |
CN206330261U (en) | A kind of wireless PM2.5 monitoring systems | |
CN205302616U (en) | Temperature control device and system based on homeplug | |
CN111609538A (en) | System and method for calling user side control for hollow building |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |