CN218819084U - Building energy data acquisition device - Google Patents

Abstract

The utility model discloses a building energy data acquisition device, which relates to the field of data acquisition, and comprises a box body, the left side position in the box body is provided with a lifting mechanism, the lifting mechanism comprises a lifting rod, the bottom position of the lifting rod is provided with a lifting plate, and the lifting rod is provided with a lifting port, the bottom position in the left side of the box body is provided with a distribution box, the middle position in the top of the distribution box is provided with a motor, the top position of the motor is provided with a rotating shaft, the lifting plate is fixedly connected with the lifting rod, the lifting port and the lifting rod move up and down relatively, the lifting rod extends into the rotating shaft to perform up-and-down translation lifting, the motor is fixedly connected on the rotating shaft, and is fixedly connected on the distribution box, the left side wall of the distribution box is fixedly provided with a brake valve; the utility model has the advantages that: the service life of the data acquisition module can be effectively prolonged, so that the acquired data are more stable, and the transmission and the decentralized control of the data can be more intensively managed.

Description

Building energy data acquisition device

Technical Field

The utility model relates to a data acquisition field, in particular to building energy data acquisition device.

Background

The method is characterized in that a digital energy management and control system is built by applying an informatization technology, online monitoring of energy consumption is realized, and energy consumption of key industries, key enterprises and key processes is accurately mastered in real time, so that the method not only is necessary for the enterprises to realize refined energy-saving management and promote energy conservation and consumption reduction, but also is a premise and basis for all levels of industries and informatization departments to master energy consumption trends, enhance energy consumption prediction and early warning and scientifically make industrial policies, and is an inherent requirement for promoting industrial transformation and upgrading and green development and constructing a resource-saving and environment-friendly industrial system.

However, in the prior art, due to the building energy data acquisition device, most of the internal data acquisition modules are damaged due to environmental factors when being used, and the stability of the acquired data is affected.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a building energy data acquisition device, can effectively improve data acquisition module's life to make the data acquisition more stable.

In order to solve the technical problem, the utility model provides a, a building energy data acquisition device, the power distribution box comprises a box body, the inside left side position of box is provided with elevating system, elevating system includes the lifter, lifter bottom position is provided with the lifter plate, and is provided with the lifting port on the lifter, box left side bottom position is provided with the block terminal, block terminal top intermediate position is provided with the motor, motor top position is provided with the axis of rotation.

As a further aspect of the present invention: lifter plate fixedly connected with lifter, the relative up-and-down motion of lifter and lifter, the lifter extends into the axis of rotation inside and carries out the translation lift from top to bottom, motor fixed connection is in the axis of rotation, and its fixed connection is on the block terminal, block terminal left side wall fixed mounting has the brake valve.

As a further aspect of the present invention: box right side top corner position is provided with solar panel, box right side wall intermediate position is provided with the electronic box, the electronic box back is provided with the cable and lays the pipe, the box internal intermediate position is provided with the loading board, loading board right side wall front position is provided with storage module, storage module left side wall is provided with the data transmission interface, loading board right side wall top position is provided with terminal module, terminal module bottom position is provided with processing module, loading board left side wall is provided with the control end, the control end top position is provided with temperature sensor.

As a further aspect of the present invention: the solar panel is fixedly installed at the top end of the box body, the cable laying pipe is fixedly connected to the back of the electric box, the data transmission interface output end penetrates through the input fixedly connected with the bearing plate and the storage module, the terminal module is fixedly connected to the bearing plate, and the control end is fixedly installed inside the box body and fixedly connected with the bearing plate.

As a further aspect of the present invention: the box top is provided with data acquisition module, data acquisition module left side intermediate position is provided with the camera, box top left side intermediate position is provided with signal receiver, the positive position of data acquisition module is provided with the sample and keeps the module.

As a further aspect of the present invention: control end right side wall fixedly connected with heat dissipation fan, and heat dissipation fan fixed mounting is inside the box, temperature sensor fixed connection is on the control end.

As a further aspect of the present invention: according to collection system, its characterized in that: and the output ends of the storage module and the processing module are in communication connection with the input end of the terminal module.

Adopt above-mentioned technical scheme: when the data acquisition module carries out energy acquisition work, elevating system moves, current in the block terminal begins to flow in the brake valve and carries out the start-up of equipment, and the axis of rotation on the drive motor rotates, lift mouth and lifter can carry out the elevating work, the data acquisition module can rise along with the lifter plate this moment, rise to on the box top, the camera can monitor all ring edge borders, if weather such as sleet can remove the data acquisition module to the box inside through elevating system and protect it, avoid it to damage because of environmental factor, can effectively improve the life of data acquisition module through above operation, thereby make data collection more stable.

When solar panel absorbed energy and converted the electric energy transmission for the electronic box, and the pipe is laid to the cable at electronic box back, continuously transmit the electric quantity for consumer, and storage module can go up and down inside the box when data acquisition module has gathered data, input for data transmission interface in the storage module of fixed connection on the loading board, storage module can convey data to terminal module, signal receiver can make terminal module's data transfer to display platform more stable, operate when the control end, temperature sensor can convey data transmission for the control end, and then convey for processing module, processing module again with the data transmission of handling for terminal module can make energy acquisition data centralized management more, data transfer is timely, when the control end moves, can control the operation of heat dissipation fan simultaneously, dispel the heat for the box, transmission and the decentralized control of centralized management data that can be more through above operation.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a building energy data acquisition device;

FIG. 2 is a schematic diagram of the internal structure of a box of the building energy data acquisition device;

FIG. 3 is a schematic structural diagram of a lifting mechanism of the building energy data acquisition device;

fig. 4 is a schematic structural diagram of a processing module of the building energy data acquisition device.

In the figure: 1. a box body; 2. a solar panel; 3. a data acquisition module; 4. a camera; 5. a lifting mechanism; 6. a lifting plate; 7. a sample-and-hold module; 8. a lifting rod; 9. a lifting port; 10. a rotating shaft; 11. a motor; 12. a distribution box; 13. a brake valve; 14. a heat dissipation fan; 15. a signal receiver; 16. an electric box; 17. a storage module; 18. a data transmission interface; 19. a terminal module; 20. a processing module; 21. a control end; 22. a temperature sensor; 23. a carrier plate; 24. the cable laying pipe.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Example one

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a building energy data acquisition device, includes box 1, and 1 inside left side position of box is provided with elevating system 5, and elevating system 5 includes lifter 8, and 8 bottom positions of lifter are provided with lifter 6, and are provided with lifting port 9 on the lifter 8, and 1 left side bottom position of box is provided with block terminal 12, and 12 top intermediate positions of block terminal are provided with motor 11, and 11 top positions of motor are provided with axis of rotation 10.

Lifting plate 6 fixedly connected with lifter 8, relative up-and-down motion of lifter 9 and lifter 8, lifter 8 extend into axis of rotation 10 inside and go on the translation lift from top to bottom, motor 11 fixed connection is on axis of rotation 10, and its fixed connection is on block terminal 12, and block terminal 12 left side wall fixed mounting has brake valve 13.

During the use, when data acquisition module 3 carries out energy acquisition work, elevating system 5 moves, current in block terminal 12 begins to flow in brake valve 13 and carries out the start-up of equipment, and drive axis of rotation 10 on the motor 11 and rotate, lift mouth 9 and lifter 8 can carry out the elevating work, data acquisition module 3 can rise along with lifter plate 6 this moment, rise to on 1 top of box, camera 4 can monitor all ring edge borders, if weather such as sleet can remove data acquisition module 3 to 1 inside protecting it of box through elevating system 5, avoid it to damage because of environmental factor, can effectively improve data acquisition module 3's life through above operation, thereby make the data collection more stable.

Example two

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a building energy data acquisition device, be provided with solar panel 2 including 1 right side top corner position of box, 1 right side wall intermediate position of box is provided with electronic box 16, 16 backs of electronic box are provided with cable laying pipe 24, 1 inside intermediate position of box is provided with loading board 23, 23 right side wall front end positions of loading board are provided with storage module 17, storage module 17 left side wall is provided with data transmission interface 18, 23 right side wall top positions of loading board are provided with terminal module 19, 19 bottom positions of terminal module are provided with processing module 20, 23 left side wall of loading board is provided with control end 21, 21 top positions of control end are provided with temperature sensor 22.

Solar panel 2 fixed mounting is in the top position of box 1, and cable laying pipe 24 fixed connection is at the back of electronic box 16, and data transmission interface 18 output runs through loading board 23 and the input rigid coupling of storage module 17, and terminal module 19 fixed connection is on loading board 23, and control end 21 fixed mounting is inside box 1, and with loading board 23 fixed connection.

The upper part of the box body 1 is provided with a data acquisition module 3, the middle position on the left side of the data acquisition module 3 is provided with a camera 4, the middle position on the left side of the top end of the box body 1 is provided with a signal receiver 15, and the front position of the data acquisition module 3 is provided with a sampling and holding module 7.

Control end 21 right side wall fixedly connected with heat dissipation fan 14, and heat dissipation fan 14 fixed mounting is inside box 1, and temperature sensor 22 fixed connection is on control end 21.

The output terminals of the memory module 17 and the processing module 20 are both connected to the input terminal of the terminal module 19 in a communication manner.

Specifically, when the solar panel 2 absorbs energy and converts the energy into electric energy to be transmitted to the electric box 16, and the cable laying pipe 24 on the back of the electric box 16 continuously transmits electric energy to the electric equipment, the storage module 17 can be lifted inside the box body 1 when the data acquisition module 3 finishes acquiring data, the data is transmitted to the storage module 17 fixedly connected to the bearing plate 23 by the data transmission interface 18 after being input, the storage module 17 transmits the data to the terminal module 19, the signal receiver 15 enables the data of the terminal module 19 to be transmitted to the display platform more stably, when the control end 21 operates, the temperature sensor 22 transmits the data to the control end 21 and then transmits the data to the processing module 20, the processing module 20 transmits the processed data to the terminal module 19, so that the energy acquisition data can be managed more intensively, the data can be transmitted timely, when the control end 21 operates, the heat dissipation fan 14 can be controlled to operate simultaneously, the heat of the box body 1 is dissipated, and the transmission and the decentralized control of the data can be managed intensively.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (7)

1. The utility model provides a building energy data acquisition device, includes box (1), its characterized in that, box (1) inside left side position is provided with elevating system (5), elevating system (5) include lifter (8), lifter (8) bottom position is provided with lifter plate (6), and is provided with lift mouth (9) on lifter (8), box (1) left side bottom position is provided with block terminal (12), block terminal (12) top intermediate position is provided with motor (11), motor (11) top position is provided with axis of rotation (10).

2. The building energy data acquisition device according to claim 1, wherein: lifter (8) fixedly connected with lifter (6), the relative up-and-down motion of lifter (8) and lifter (9), lifter (8) extend into axis of rotation (10) inside and carry out the translation lift from top to bottom, motor (11) fixed connection is on axis of rotation (10), and its fixed connection is on block terminal (12), block terminal (12) left side wall fixed mounting has brake valve (13).

3. The building energy data acquisition device according to claim 2, wherein: box (1) right side top corner position is provided with solar panel (2), box (1) right side wall intermediate position is provided with electronic box (16), electronic box (16) back is provided with cable laying pipe (24), box (1) inside intermediate position is provided with loading board (23), loading board (23) right side wall front end position is provided with storage module (17), storage module (17) left side wall is provided with data transmission interface (18), loading board (23) right side wall top position is provided with terminal module (19), terminal module (19) bottom position is provided with processing module (20), loading board (23) left side wall is provided with control end (21), control end (21) top position is provided with temperature sensor (22).

4. The building energy data acquisition device according to claim 3, wherein: solar panel (2) fixed mounting is in the top position of box (1), pipe (24) fixed connection is laid to the cable at the back of electronic box (16), data transmission interface (18) output runs through the input rigid coupling of loading board (23) and storage module (17), terminal module (19) fixed connection is on loading board (23), control end (21) fixed mounting is inside box (1), and with loading board (23) fixed connection.

5. The building energy data acquisition device according to claim 1, wherein: the improved multifunctional box is characterized in that a data acquisition module (3) is arranged above the box body (1), a camera (4) is arranged at the middle position of the left side of the data acquisition module (3), a signal receiver (15) is arranged at the middle position of the left side of the top end of the box body (1), and a sampling and holding module (7) is arranged at the front position of the data acquisition module (3).

6. The building energy data acquisition device according to claim 3, wherein: control end (21) right side wall fixedly connected with heat dissipation fan (14), and heat dissipation fan (14) fixed mounting is inside box (1), temperature sensor (22) fixed connection is on control end (21).

7. The building energy data acquisition device according to claim 3, wherein: and the output ends of the storage module (17) and the processing module (20) are in communication connection with the input end of the terminal module (19).

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