CN220422254U - Energy storage system coordination controller - Google Patents
Energy storage system coordination controller Download PDFInfo
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- CN220422254U CN220422254U CN202322054181.3U CN202322054181U CN220422254U CN 220422254 U CN220422254 U CN 220422254U CN 202322054181 U CN202322054181 U CN 202322054181U CN 220422254 U CN220422254 U CN 220422254U
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- 238000004146 energy storage Methods 0.000 title claims abstract description 25
- 238000009434 installation Methods 0.000 claims abstract description 23
- 238000004891 communication Methods 0.000 claims abstract description 11
- 230000005540 biological transmission Effects 0.000 claims description 7
- 238000013480 data collection Methods 0.000 claims description 2
- 238000010030 laminating Methods 0.000 claims description 2
- 238000013461 design Methods 0.000 abstract description 2
- 238000010248 power generation Methods 0.000 description 5
- 238000010586 diagram Methods 0.000 description 3
- 238000011161 development Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
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Abstract
The utility model discloses an energy storage system coordination controller, which comprises a main body assembly, wherein the main body assembly comprises a shell, a first mounting cavity, four clamping blocks, two five-pin relays, a wiring row, a connecting port, a spring, two support columns, a second mounting cavity, a data acquisition device, a control chip, a communication module and a control circuit board; the first installation cavity and the second installation cavity are symmetrically arranged on the upper surface of the shell. According to the utility model, the five-pin relay is placed between the two clamping blocks by opening the first cover plate, the five-pin relay is pressed downwards, when the contact end of the five-pin relay is inserted into the connecting port, the position of the five-pin relay can be limited by the clamping blocks, the five-pin relay is completely installed, the electric connection between the five-pin relay and the external converter can be realized through the access/exit port, and the quantity of the relay can be changed according to the actual use requirement by adopting a modularized design.
Description
Technical field:
the utility model relates to a controller, in particular to an energy storage system coordination controller, and belongs to the technical field of energy storage systems.
The background technology is as follows:
the large-scale development and utilization of new energy sources such as wind power, solar energy and the like are effective ways for realizing sustainable development, optimizing energy structures and improving environmental quality. However, the volatility and intermittence of new energy power generation are still main factors limiting the large-scale application of the new energy power generation. The battery energy storage system has the functions of load adjustment, cooperation with new energy access, improvement of electric energy quality, peak clipping, valley filling and the like. The energy storage power station is arranged at the outlet side of the new energy power generation power supply to stabilize the power fluctuation, so that the new energy power generation power supply can be converted into a schedulable power supply, and the impact of the fluctuation of the new energy power generation on a power system can be reduced. Along with the increase of the scale of the energy storage power station, the number of the energy storage converters of the energy storage power station is often tens or even hundreds, and the same power station is internally provided with so many battery packs and PCS at the same time, so that a coordination controller is required to perform coordination control, and the energy storage coordination controller plays an important role in optimizing the electric energy quality and improving the stability of a power grid for the energy storage power station.
The number of relay modules in the existing energy storage coordination controller is certain, so that the number of converters which can be regulated and controlled by the existing energy storage coordination controller is certain, the number of the relay modules cannot be increased or reduced according to actual use requirements, and custom-made use requirements cannot be realized.
The utility model comprises the following steps:
the present utility model is directed to a coordinated controller of an energy storage system, which solves one of the problems set forth in the background art.
The utility model is implemented by the following technical scheme: the energy storage system coordination controller comprises a main body assembly, wherein the main body assembly comprises a shell, a first mounting cavity, four clamping blocks, two five-pin relays, a wiring row, a connecting port, a spring, two support columns, a second mounting cavity, a data acquisition device, a control chip, a communication module and a control circuit board;
the utility model discloses a data acquisition device, including casing, data acquisition device, control chip and communication module, including first installation cavity, second installation cavity, connector, connecting port, first installation cavity and second installation cavity symmetry are seted up in the upper surface of casing, the inside wall middle part of installing in first installation cavity is arranged to the connector equidistance, four adjacent face symmetry laminating of fixture block is in the upper surface and the lower surface of two five foot relays of corresponding, fixture block sliding connection is in the lateral wall of two support columns, the spring cup joints in the lateral wall of support column, data acquisition device, control chip and communication module all install in the interior diapire of second installation cavity through control circuit board.
As a further preferred aspect of the present utility model: the contact end of the five-pin relay is inserted into the connection port, and the adjacent surfaces of the two five-pin relays which are vertically corresponding are symmetrically attached to the upper surface and the lower surface of the wiring row.
As a further preferred aspect of the present utility model: the adjacent surfaces of the two clamping blocks are inclined planes, one end of the spring is fixedly connected with the clamping blocks, and the other end of the spring is fixedly connected with the shell.
As a further preferred aspect of the present utility model: the first cover plate is arranged at the top of the inner side wall and at the bottom of the inner side wall of the first installation cavity.
As a further preferred aspect of the present utility model: and a second cover plate is arranged at the top of the inner side wall of the second installation cavity.
As a further preferred aspect of the present utility model: the front surface of the shell is provided with a control component, and the control component comprises a display screen, an operation key, a switch, an indicator light, an access/output port, a data transmission port, a network interface and a power interface;
the display screen, the operation keys, the switches and the indicator lamps are all arranged on the front surface of the shell.
As a further preferred aspect of the present utility model: the access/exit ports are symmetrically arranged on the upper part of the rear surface and the lower part of the rear surface of the shell.
As a further preferred aspect of the present utility model: the data transmission port, the network interface and the power interface are all arranged in the middle of the rear surface of the shell.
The utility model has the advantages that: according to the utility model, the five-pin relay is placed between the two clamping blocks by opening the first cover plate, the five-pin relay is pressed downwards, and as the adjacent surfaces of the two clamping blocks are inclined surfaces, the two clamping blocks can be pushed by the five-pin relay to slide along the supporting column, when the contact end of the five-pin relay is inserted into the connecting port, the two clamping blocks are pushed by the spring to reset, the position of the five-pin relay can be limited by the clamping blocks at the moment, the five-pin relay is completely installed, the electric connection between the five-pin relay and an external converter can be realized by the connection/disconnection port, and the quantity of the relay can be changed according to the actual use requirement by adopting a modularized design.
Description of the drawings:
in order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic view of the main assembly of the present utility model;
FIG. 3 is a schematic diagram of a five-pin relay and wiring harness connection according to the present utility model;
FIG. 4 is a schematic view of a wiring harness structure according to the present utility model;
fig. 5 is a schematic diagram of a latch structure according to the present utility model.
In the figure: 101. a body assembly; 11. a housing; 12. a first mounting cavity; 13. a clamping block; 14. five-pin relay; 15. a wiring row; 16. a connection port; 17. a spring; 18. a support column; 19. a second mounting cavity; 20. a first cover plate; 21. a second cover plate; 22. a data collector; 23. a control chip; 24. a communication module; 25. a control circuit board; 301. a control assembly; 31. a display screen; 32. operating the key; 33. a switch; 34. an indicator light; 35. an access/exit port; 36. a data transmission port; 37. a network interface; 38. and a power interface.
The specific embodiment is as follows:
the following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Examples
Referring to fig. 1-5, the present utility model provides a technical solution: the energy storage system coordination controller comprises a main body assembly 101, wherein the main body assembly 101 comprises a shell 11, a first mounting cavity 12, four clamping blocks 13, two five-foot relays 14, a wiring row 15, a connecting port 16, a spring 17, two support columns 18, a second mounting cavity 19, a data collector 22, a control chip 23, a communication module 24 and a control circuit board 25;
the first installation cavity 12 and the second installation cavity 19 are symmetrically arranged on the upper surface of the shell 11, the wiring row 15 is arranged in the middle of the inner side wall of the first installation cavity 12, the connecting ports 16 are equidistantly arranged on the upper surface and the lower surface of the wiring row 15, the adjacent surfaces of the four clamping blocks 13 are symmetrically attached to the upper surface and the lower surface of the corresponding two five-foot relays 14, the clamping blocks 13 are slidably connected to the outer side walls of the two support columns 18, the springs 17 are sleeved on the outer side walls of the support columns 18, and the data collector 22, the control chip 23 and the communication module 24 are arranged on the inner bottom wall of the second installation cavity 19 through the control circuit board 25.
In this embodiment, specific: the contact ends of the five-pin relays 14 are inserted into the connection ports 16, the adjacent surfaces of the two five-pin relays 14 which correspond up and down are symmetrically attached to the upper surface and the lower surface of the wiring row 15, and then the contact ends of the five-pin relays 14 can be communicated with the wiring row 15 through the connection ports 16.
In this embodiment, specific: the adjacent faces of the two clamping blocks 13 are inclined planes, one end of the spring 17 is fixedly connected with the clamping blocks 13, the other end of the spring 17 is fixedly connected with the shell 11, when the five-pin relay 14 is added, the five-pin relay 14 is placed between the two clamping blocks 13, then the five-pin relay 14 is pressed downwards, as the adjacent faces of the two clamping blocks 13 are inclined planes, the five-pin relay 14 can push the two clamping blocks 13 to slide along the supporting columns 18, when the contact end of the five-pin relay 14 is inserted into the connecting port 16, the spring 17 pushes the two clamping blocks 13 to reset, and at the moment, the position of the five-pin relay 14 can be limited through the clamping blocks 13, so that the installation of the five-pin relay 14 is completed.
In this embodiment, specific: the first apron 20 is all installed at the inside wall top and the inside wall bottom of first installation cavity 12, and first apron 20 passes through the screw to be connected with casing 11, and then conveniently dismantle first apron 20 to realize the installation to five-pin relay 14.
In this embodiment, specific: the second cover plate 21 is installed at the inside wall top of second installation cavity 19, and second cover plate 21 passes through the screw to be connected with casing 11, and then conveniently dismantle second cover plate 21 to overhaul or increase electronic component to data collection station 22, control chip 23, communication module 24.
In this embodiment, specific: the front surface of the housing 11 is provided with a control assembly 301, and the control assembly 301 comprises a display screen 31, an operation key 32, a switch 33, an indicator light 34, an access/exit port 35, a data transmission port 36, a network interface 37 and a power interface 38;
the display screen 31, the operation key 32, the switch 33 and the indicator lamp 34 are all installed on the front surface of the shell 11, the access/output port 35 is symmetrically arranged on the upper part and the lower part of the rear surface of the shell 11, the data transmission port 36, the network interface 37 and the power interface 38 are all arranged on the middle part of the rear surface of the shell 11, the electric input and output end of the wiring row 15 is electrically connected with the access/output port 35, the signal receiving and transmitting end of the wiring row 15 is respectively communicated with the signal receiving and transmitting ends of the control chip 23 and the five-pin relay 14, the signal receiving end of the data collector 22 is communicated with the signal transmitting end of an external converter for collecting data information, the data information is transmitted to the control chip 23, the control signal is transmitted to the five-pin relay 14 through the control chip 23, and the five-pin relay 14 performs coordinated control on the external converter.
In the present utility model, the model of the control chip 23 is: CKS32F103C8T6, the model of communication module 24 is: ML307S.
When the five-pin relay 14 is used, the first cover plate 20 is opened, the five-pin relay 14 is placed between the two clamping blocks 13, then the five-pin relay 14 is pressed downwards, the two clamping blocks 13 can be pushed to slide along the supporting columns 18 due to the fact that the adjacent surfaces of the two clamping blocks 13 are inclined surfaces, when the contact end of the five-pin relay 14 is inserted into the connecting port 16, the springs 17 push the two clamping blocks 13 to reset, the position of the five-pin relay 14 can be limited through the clamping blocks 13, the installation of the five-pin relay 14 is completed, the five-pin relay 14 is communicated with the control chip 23 and the access/output port 35 through the wiring row 15, and the five-pin relay 14 can be electrically connected with the external converter 14 through the access/output port 35.
The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.
Claims (8)
1. The coordination controller of the energy storage system is characterized by comprising a main body assembly (101), wherein the main body assembly (101) comprises a shell (11), a first mounting cavity (12), four clamping blocks (13), two five-pin relays (14), a wiring row (15), a connecting port (16), a spring (17), two support columns (18), a second mounting cavity (19), a data collector (22), a control chip (23), a communication module (24) and a control circuit board (25);
the utility model discloses a wire connection device for a solar cell, including casing (11), first installation cavity (12) and second installation cavity (19), wire connection row (15) are installed in the inside wall middle part of first installation cavity (12), connector (16) equidistance is seted up in upper surface and lower surface of wire connection row (15), four adjacent face symmetry laminating of fixture block (13) is in the upper surface and the lower surface of two five foot relays (14) that correspond, fixture block (13) sliding connection is in the lateral wall of two support columns (18), spring (17) cup joint in the lateral wall of support column (18), data collection station (22), control chip (23) and communication module (24) are all installed in the interior diapire of second installation cavity (19) through control circuit board (25).
2. The coordinated controller of an energy storage system according to claim 1, wherein the contact ends of the five-pin relays (14) are inserted into the connection ports (16), and the adjacent faces of the two five-pin relays (14) corresponding up and down are symmetrically attached to the upper surface and the lower surface of the wiring row (15).
3. The energy storage system coordination controller according to claim 1, wherein adjacent surfaces of two clamping blocks (13) are inclined planes, one end of the spring (17) is fixedly connected with the clamping blocks (13), and the other end of the spring (17) is fixedly connected with the shell (11).
4. The energy storage system coordination controller of claim 1, wherein a first cover plate (20) is mounted on both the top and bottom of the inner side wall of the first mounting cavity (12).
5. The energy storage system coordination controller according to claim 1, wherein a second cover plate (21) is mounted on top of the inner side wall of the second mounting cavity (19).
6. A coordinated controller of an energy storage system according to claim 3, characterized in that a control assembly (301) is mounted on the front surface of the housing (11), the control assembly (301) comprising a display screen (31), operating keys (32), a switch (33), an indicator light (34), an access/exit port (35), a data transmission port (36), a network interface (37) and a power interface (38);
the display screen (31), the operation keys (32), the switch (33) and the indicator lamp (34) are all arranged on the front surface of the shell (11).
7. The energy storage system coordination controller according to claim 6, wherein the in/out ports (35) are symmetrically opened at an upper portion of a rear surface and a lower portion of the rear surface of the housing (11).
8. The energy storage system coordination controller as claimed in claim 6, wherein the data transmission port (36), the network interface (37) and the power interface (38) are all formed in the middle of the rear surface of the housing (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322054181.3U CN220422254U (en) | 2023-08-01 | 2023-08-01 | Energy storage system coordination controller |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202322054181.3U CN220422254U (en) | 2023-08-01 | 2023-08-01 | Energy storage system coordination controller |
Publications (1)
Publication Number | Publication Date |
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CN220422254U true CN220422254U (en) | 2024-01-30 |
Family
ID=89660123
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202322054181.3U Active CN220422254U (en) | 2023-08-01 | 2023-08-01 | Energy storage system coordination controller |
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CN (1) | CN220422254U (en) |
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2023
- 2023-08-01 CN CN202322054181.3U patent/CN220422254U/en active Active
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