CN214427775U - Energy efficiency control device - Google Patents
Energy efficiency control device Download PDFInfo
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- CN214427775U CN214427775U CN202023106767.2U CN202023106767U CN214427775U CN 214427775 U CN214427775 U CN 214427775U CN 202023106767 U CN202023106767 U CN 202023106767U CN 214427775 U CN214427775 U CN 214427775U
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Abstract
The utility model discloses an energy efficiency control device, which comprises a shell with a holding space, an energy efficiency controller, a power supply control module and a wiring terminal row; the energy efficiency controller, the power supply control module and the wiring terminal strip are all accommodated and fixedly arranged in the accommodating space; the energy efficiency controller is connected with the far-end energy efficiency equipment through the wiring terminal row so as to realize information acquisition and control of the far-end energy efficiency equipment; the power supply control module is connected with the far-end energy efficiency equipment through the wiring terminal row so as to realize power supply input and management of the far-end energy efficiency equipment. The utility model provides an efficiency controlling means, through power and the control integration with distal end efficiency equipment in efficiency controlling means, realize power management and the efficiency management to distal end efficiency equipment, realize the efficiency management that becomes more meticulous when having simplified the efficiency control structure to and strong and weak electricity efficiency integration management, saved construction cost, the later stage operation and the maintenance of being convenient for.
Description
Technical Field
The utility model relates to an efficiency control technical field especially relates to an efficiency control device.
Background
Energy efficiency control, for example air conditioner, water pump, fan coil, illumination and ammeter, water gauge, cold calorimeter etc. many kinds, and all included the power control based on forceful electric power and data management and control based on weak current, among the prior art, the management to the forceful electric power and the weak current of every kind of equipment is independent each other, builds at wiring and equipment and goes on respectively, makes the engineering cost of laying higher, and because the kind and the producer of equipment are different, has great difference between equipment, consequently, realize that energy efficiency control and charging measurement all need independent system or device to accomplish, and dispose complicacy, with high costs.
SUMMERY OF THE UTILITY MODEL
The utility model provides an energy efficiency control device aims at solving current energy efficiency control and management and deploys complicated, problem with high costs.
In order to achieve the above object, the present invention provides an energy efficiency control device, which comprises a housing having an accommodating space, an energy efficiency controller, a power control module and a wiring terminal row; the energy efficiency controller, the power supply control module and the wiring terminal strip are all accommodated and fixedly arranged in the accommodating space; the energy efficiency controller is connected with the far-end energy efficiency equipment through the wiring terminal row so as to realize information acquisition and control of the far-end energy efficiency equipment; the power supply control module is connected with the far-end energy efficiency equipment through the wiring terminal row so as to realize power supply input and management of the far-end energy efficiency equipment.
Preferably, the power control module comprises a smart meter, a circuit breaker, a contactor, a transformer and a switching power supply.
Preferably, the energy efficiency device comprises any one or more of an air conditioner, a fan, a water pump, a lighting, a fan coil controller, a smart meter, a smart water meter and a cooling and heating meter.
Preferably, the terminal row includes any one or more in fan power supply terminal, first fire control signal terminal, first freeze proof switch terminal, first filter screen pressure differential terminal, first air supply temperature terminal, first return air temperature terminal, first water valve aperture terminal, first blast gate aperture terminal, first water valve aperture control terminal, first valve power supply terminal, first fresh air valve regulating terminal and the 485 communication terminal.
Preferably, the energy efficiency controller comprises a main control board and a connection terminal, the main control board comprises a processor and a memory to run a program for energy efficiency control, and the connection terminal is used for being connected with the remote energy efficiency device and an external device through the connection terminal row.
Preferably, the energy efficiency control device further comprises a display screen, an indicator light and a key which are arranged on the outer surface of the shell, and the display screen, the indicator light and the key are respectively connected with the main control board; the display screen, the indicator light and the keys are used for setting, operating and checking the state of the energy efficiency control device.
Preferably, the connection terminal comprises any one or more of a fan start-stop terminal, a smart electric meter terminal, a BACnet terminal, a fan fault terminal, a fan operation terminal, a second filter screen differential pressure terminal, a second anti-freezing switch terminal, a second fire signal terminal, a second air supply temperature terminal, a second air return temperature terminal, a second water valve opening terminal, a second air valve opening terminal, a second water valve opening control terminal, a second valve power supply terminal and a second fresh air valve adjusting terminal.
Preferably, the energy efficiency controller is connected with a sensor or an actuator of the remote energy efficiency device through the wiring terminal to acquire a sensing signal or send an execution instruction to the actuator to execute an action.
Preferably, the sensor comprises any one or more of a return air temperature sensor, a supply air temperature sensor, a medium filter differential pressure sensor, an anti-freezing switch sensor and a fire signal generator.
Preferably, the actuator comprises any one or more of a water valve actuator, a fresh air valve actuator, a switch actuator and a temperature regulation actuator.
The utility model provides an efficiency controlling means, through power and the control integration with distal end efficiency equipment in efficiency controlling means, realize power management and the efficiency management to distal end efficiency equipment, realize the efficiency management that becomes more meticulous when having simplified the efficiency control structure to and strong and weak electricity efficiency integration management, saved construction cost, the later stage operation and the maintenance of being convenient for.
Drawings
Fig. 1 is a schematic perspective view of an energy efficiency control apparatus according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of a power control module and a terminal block inside an energy efficiency control device according to an embodiment of the present invention;
fig. 3 is a schematic view of the terminal block of fig. 2;
fig. 4 is a schematic structural diagram of an energy efficiency controller inside an energy efficiency control device according to an embodiment of the present invention;
fig. 5 is an air conditioner energy efficiency control schematic diagram of an energy efficiency control device according to an embodiment of the present invention.
In the figure, 10, the housing; 20. an energy efficiency controller; 30. a power supply control module; 40. a terminal row; 401. a fan power supply terminal; 402. a first fire signal terminal; 403. a first freeze switch terminal; 404. a first screen differential pressure terminal; 405. a first air supply temperature terminal; 406. a first return air temperature terminal; 407. a first water valve opening terminal; 408. a first damper opening degree terminal; 409. a first water valve opening control terminal; 410. a first valve power supply terminal; 411. a first fresh air valve adjustment terminal; 412. 485 communication terminals; 31. a first circuit breaker; 32. a second circuit breaker; 33. a smart meter; 34. a contactor; 35. a switching power supply; 36. a transformer; 21. a main control board; 22. a wiring terminal; 201. a display screen; 202. an indicator light; 203. pressing a key; 1. an energy efficiency control device for an air conditioner.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1, 2, 3 and 4 together, an embodiment of the present invention provides an energy efficiency control device, which includes a housing 10 having a receiving space, an energy efficiency controller 20, a power control module 30 and a terminal strip 40; one side surface of the housing 10 is used as an openable door 11, and a door handle 111 for opening and closing is installed on the door 11; the energy efficiency controller 20, the power supply control module 30 and the terminal strip 40 are accommodated and fixedly mounted in the accommodating space; the energy efficiency controller 20 is connected with a far-end energy efficiency device through the wiring terminal row 40 to realize information acquisition and control of the far-end energy efficiency device; the power control module 30 is connected to the remote energy efficient device through the terminal strip 40 to implement power input and management of the remote energy efficient device. The energy efficiency equipment comprises any one or more of an air conditioner, a fan, a water pump, a lighting device, a fan coil controller, an intelligent electric meter, an intelligent water meter and a cooling and heating meter.
The terminal row 40 includes any one or more of a fan power terminal 401, a first fire-fighting signal terminal 402, a first anti-freezing switch terminal 403, a first screen pressure difference terminal 404, a first blowing temperature terminal 405, a first return air temperature terminal 406, a first water valve opening terminal 407, a first air valve opening terminal 408, a first water valve opening control terminal 409, a first valve power terminal 410, a first fresh air valve adjusting terminal 411, and a 485 communication terminal 412.
The power control module 30 includes a smart meter 33(PM3), a first circuit breaker 31(QF1), a second circuit breaker 32(QF2), a contactor 34(KM1), a transformer 36(BK1), and a switching power supply 35 (EDR-50).
The energy efficiency controller 20 comprises a main control board 21 and a connection terminal 22, the main control board 21 comprises a processor and a memory to run programs for energy efficiency control, and the connection terminal 22 is used for being connected with a remote energy efficiency device and an external device through the terminal row 40. Binding post 22 opens including the fan and stops in terminal, smart electric meter terminal, BACnet terminal, fan trouble terminal, fan operation terminal, second filter screen pressure differential terminal, the freeze-proof switch terminal of second, second fire control signal terminal, second air supply temperature terminal, second return air temperature terminal, second water valve aperture terminal, second air valve aperture terminal, second water valve aperture control terminal, second valve power supply terminal and the second new trend valve regulation terminal or a plurality of. Specifically, as shown in fig. 4, the terminal 1 of the a pole connection terminal DO0 of the ac power input and the terminal 2 of the DO0 of the ac power input are connected through the third breaker QF3, the N pole of the ac power input is connected in series through the thermal relay FR1 and the contactor 34(KM1) and then connected to the terminal 2 of the DO0, and the second breaker 32(QF2) is provided at the ac power input; the ac power input is converted into ac and dc power through a transformer 36 and connected to the power input terminal of the connection terminal 22. The wire connecting terminal 22 is connected with the 485 communication terminal 412 through a terminal D1+ and a terminal D1-, so that the intelligent ammeter can be remotely connected; the connection terminal 22 is connected with the 485 communication terminal 412 through a terminal D0+ and a terminal D0-to realize the remote connection of a control device of building automatic control BACnet MS/TP and the connection of a remote control device.
The energy efficiency control device further comprises a display screen 201, an indicator light 202 and a key 203 which are arranged on the outer surface of the shell 10, wherein the display screen 201, the indicator light 202 and the key 203 are respectively connected with the main control panel 21; the display screen 201, the indicator light 202 and the keys 203 are used for setting, operating and viewing the state of the energy efficiency control device. Specifically, the indicator lamp 202 includes an auto, fault, run, TX, and RX lamp for displaying an operation state of the energy efficiency control apparatus, and a TX and RX lamp for displaying a communication transceiving state of the current energy efficiency control apparatus. The keys 203 include start, manual/automatic, stop, up, down and confirm keys to effect operation of the energy control device. The display screen 201 is used for displaying data such as setting, state, electric quantity, cold quantity and the like of the energy efficiency control device.
Referring to fig. 5, in an embodiment of the present invention, an energy efficiency controller 20 is remotely connected to a sensor or an actuator of an air conditioning unit to obtain a sensing signal or send an execution instruction to the actuator to execute an action; the sensors comprise any one or more of a return air temperature sensor, an air supply temperature sensor, a medium-efficiency filter differential pressure sensor, an anti-freezing switch sensor and a fire-fighting signal generator; the actuator comprises any one or more of a water valve actuator, a fresh air valve actuator, a switch actuator and a temperature adjusting actuator. Specifically, the energy efficiency control device 1 of the air conditioner is connected with sensors and actuators through an energy efficiency controller 20, wherein the sensors comprise a return air temperature sensor WA1, a supply air temperature sensor WA2, a medium-efficiency filter differential pressure sensor WB1, an anti-freezing switch sensor WB2 and a fire signal generator WB 3; the actuators comprise a water valve actuator WA3 and a fresh air valve actuator WA 4.
Compared with the prior art, the utility model provides an efficiency control device through power and the control integration with distal end efficiency equipment in efficiency control device, realizes the power management and the efficiency management of distal end efficiency equipment, realizes the efficiency management that becomes more meticulous when having simplified the efficiency control structure to and strong and weak electricity efficiency integration management, saved construction cost, the later stage operation and the maintenance of being convenient for.
The above embodiments of the present invention are only described, and it should be noted that, for those skilled in the art, modifications can be made without departing from the inventive concept, but these all fall into the protection scope of the present invention.
Claims (10)
1. The energy efficiency control device is characterized by comprising a shell with an accommodating space, an energy efficiency controller, a power supply control module and a wiring terminal row; the energy efficiency controller, the power supply control module and the wiring terminal strip are all accommodated and fixedly arranged in the accommodating space; the energy efficiency controller is connected with the far-end energy efficiency equipment through the wiring terminal row so as to realize information acquisition and control of the far-end energy efficiency equipment; the power supply control module is connected with the far-end energy efficiency equipment through the wiring terminal row so as to realize power supply input and management of the far-end energy efficiency equipment.
2. The energy efficiency control apparatus according to claim 1, wherein the power supply control module includes a smart meter, a circuit breaker, a contactor, a transformer, and a switching power supply.
3. The energy efficiency control apparatus according to claim 1, wherein the energy efficiency device includes any one or more of an air conditioner, a fan, a water pump, a lighting, a fan coil controller, a smart meter, a smart water meter, and a cooling and heating meter.
4. The energy efficiency control device according to claim 1, wherein the terminal bank includes any one or more of a fan power supply terminal, a first fire signal terminal, a first freeze switch terminal, a first screen pressure difference terminal, a first supply air temperature terminal, a first return air temperature terminal, a first water valve opening terminal, a first air valve opening terminal, a first water valve opening control terminal, a first valve power supply terminal, a first fresh air valve adjustment terminal, and a 485 communication terminal.
5. The energy efficiency control apparatus according to claim 1, wherein the energy efficiency controller comprises a main control board including a processor and a memory to run a program for energy efficiency control, and a connection terminal for connection with a remote energy efficiency device through the terminal bank and for connection with an external device.
6. The energy efficiency control device according to claim 5, further comprising a display screen, an indicator light and a key arranged on the outer surface of the casing, wherein the display screen, the indicator light and the key are respectively connected with the main control panel; the display screen, the indicator light and the keys are used for setting, operating and checking the state of the energy efficiency control device.
7. The energy efficiency control device according to claim 5, wherein the connection terminal comprises any one or more of a fan start/stop terminal, a smart meter terminal, a BACnet terminal, a fan failure terminal, a fan operation terminal, a second filter screen pressure difference terminal, a second anti-freezing switch terminal, a second fire signal terminal, a second air supply temperature terminal, a second return air temperature terminal, a second water valve opening terminal, a second air valve opening terminal, a second water valve opening control terminal, a second valve power terminal, and a second fresh air valve adjustment terminal.
8. The energy efficiency control device according to claim 7, wherein the energy efficiency controller is connected with a sensor or an actuator of a remote energy efficiency device through the wiring terminal to acquire a sensing signal or send an execution command to the actuator to execute an action.
9. The energy efficiency control apparatus according to claim 8, wherein the sensor includes any one or more of a return air temperature sensor, a supply air temperature sensor, a medium efficiency filter differential pressure sensor, an anti-freeze switch sensor, and a fire signal generator.
10. The energy efficiency control apparatus of claim 8 wherein the actuator comprises any one or more of a water valve actuator, a fresh air valve actuator, a switch actuator, and a temperature adjustment actuator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023106767.2U CN214427775U (en) | 2020-12-21 | 2020-12-21 | Energy efficiency control device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023106767.2U CN214427775U (en) | 2020-12-21 | 2020-12-21 | Energy efficiency control device |
Publications (1)
Publication Number | Publication Date |
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CN214427775U true CN214427775U (en) | 2021-10-19 |
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CN202023106767.2U Active CN214427775U (en) | 2020-12-21 | 2020-12-21 | Energy efficiency control device |
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2020
- 2020-12-21 CN CN202023106767.2U patent/CN214427775U/en active Active
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