CN219801164U - Power supply container - Google Patents
Power supply container Download PDFInfo
- Publication number
- CN219801164U CN219801164U CN202320846207.5U CN202320846207U CN219801164U CN 219801164 U CN219801164 U CN 219801164U CN 202320846207 U CN202320846207 U CN 202320846207U CN 219801164 U CN219801164 U CN 219801164U
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- Prior art keywords
- guide rail
- opening
- baffle
- motor
- rack
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- 238000009434 installation Methods 0.000 claims description 26
- 230000000712 assembly Effects 0.000 claims description 7
- 238000000429 assembly Methods 0.000 claims description 7
- 230000005540 biological transmission Effects 0.000 claims description 3
- 230000004888 barrier function Effects 0.000 claims 1
- 238000000034 method Methods 0.000 description 9
- 238000012423 maintenance Methods 0.000 description 5
- 238000010030 laminating Methods 0.000 description 2
- 230000001960 triggered effect Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000000470 constituent Substances 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000004146 energy storage Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Abstract
The utility model provides a power supply container which comprises a container body, a travel switch, a driving assembly and a controller, wherein a first side surface of the container body is provided with a container door and a baffle, the container door is rotatably arranged on the side wall of the container body along a first rotating shaft, the baffle is rotatably arranged on the side wall of the container body along a second rotating shaft, and the second rotating shaft is arranged at an included angle with the vertical direction; the travel switch is arranged on the side wall of the box body and is used for detecting the opening and closing of the box door; the driving assembly comprises a motor, the motor is arranged on the box body and used for driving the baffle to rotate around the second rotating shaft, when the box door is opened, the baffle rotates to be arranged at an included angle with the first side surface, and when the box door is closed, the baffle rotates to be parallel or attached to the first side surface; the controller is used for controlling the starting and rotating directions of the motor. The opening and closing of the baffle are controlled through the opening and closing of the box door, so that the baffle plays a role in shielding workers and equipment, and the power supply container is more convenient for the workers to debug and maintain.
Description
Technical Field
The utility model relates to the technical field of power supplies, in particular to a power supply container.
Background
The battery energy storage system using the container as a module unit is called a box type power supply, and in order to store more energy, most of the space inside the container is provided with batteries, so that the space inside the container is basically not available for operations such as maintenance and debugging, and staff can only stand outside the container for operation.
The prior art has the following problems: the container is usually placed outdoors, maintenance and operation are carried out outside the container, workers and equipment can be exposed to the sun in a strong light environment, the screen is severely reflected in the strong light to see the operation screen, and the workers and the equipment can have the risk of raining and water inflow in overcast and rainy weather.
Disclosure of Invention
The utility model aims at: the power supply container is simple in structure and convenient for workers to debug and maintain.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
there is provided a power supply container comprising:
the box body is provided with a box door and a baffle plate on a first side surface of the box body, the box door and the baffle plate are arranged at intervals, an opening is formed in the first side surface, the box door is rotatably arranged on the side wall of the box body along a first rotating shaft, the box door seals the opening, the baffle plate is arranged above the opening, the baffle plate is rotatably arranged on the side wall of the box body along a second rotating shaft, and the second rotating shaft is arranged at an included angle with the vertical direction;
the travel switch is arranged on the side wall of the box body opposite to the box door and is used for detecting the opening and closing of the box door;
the driving assembly comprises a motor, the motor is arranged on the box body, the motor is in transmission connection with the baffle plate and is used for driving the baffle plate to rotate around the second rotating shaft, when the box door is opened, the baffle plate rotates to be arranged at an included angle with the first side surface, and when the box door is closed, the baffle plate rotates to be parallel or attached to the first side surface;
and the controller is in signal connection with the travel switch and the motor, and is used for controlling the starting and rotating directions of the motor.
As a preferable scheme of the power supply container, two driving assemblies are arranged, and the two driving assemblies are arranged on two opposite sides of the baffle at intervals along the X-axis direction.
As a preferred scheme of power container, drive assembly still includes first guide rail and bracing piece, first guide rail sets up on the lateral wall of box, the length of first guide rail extends along Z axle direction, the bracing piece is first end and second end respectively along its length direction's both ends, first end with the motor is connected, just first end is located on the first guide rail, the motor is used for the drive first end is in the first guide rail is interior to be removed, the second end with the baffle is articulated.
As a preferred scheme of the power supply container, the power supply container further comprises two limit switches, wherein the limit switches are arranged on the side wall of the container body and comprise a first switch and a second switch, the first switch and the second switch are respectively arranged at two ends of the first guide rail along the length direction of the first guide rail, and the limit switches are connected with the controller and the motor and used for controlling the motor to stop.
As a preferred scheme of the power container, the driving assembly further comprises a rack and a gear, the rack is arranged in the first guide rail, the length of the rack extends along the length direction of the first guide rail, the gear is mounted on the rotating shaft of the motor, the gear is meshed with the rack, so that the gear drives the rack to move along the length direction of the first guide rail, and the rack is hinged with the first end.
As a preferred embodiment of the power container, the length of the rack is smaller than the length of the first rail.
As a preferred scheme of the power supply container, a first installation cavity is arranged in the first guide rail, the first installation cavity penetrates through two end faces of the first guide rail along the length direction of the first guide rail, the rack is installed in the first installation cavity, the first guide rail faces one side face of the support rod, the first opening is communicated with the first installation cavity, and the support rod penetrates through the first opening to be hinged with the rack.
As a preferable mode of the power supply container, the first end is provided with a first through hole, a first hinge shaft is arranged in the first through hole, the first hinge shaft penetrates through the first through hole and is arranged in the first guide rail, and the first hinge shaft is connected with the rack so that the first hinge shaft moves along the length direction of the first guide rail.
As a preferred scheme of power supply container, drive assembly still includes the second guide rail, the bracing piece with the second guide rail is articulated, the second guide rail sets up the baffle is close to a side of box, the second guide rail is followed perpendicularly the direction of second axis of rotation extends, be provided with the second installation cavity in the second guide rail, the second opening has been seted up on the second guide rail, the open-ended direction of second is along keeping away from the direction of baffle, the second opening intercommunication the second installation cavity, the bracing piece passes the second opening is installed in the second installation cavity.
As a preferable scheme of the power supply container, a second through hole is formed in the second end, a second hinge shaft is arranged in the second through hole, the second hinge shaft penetrates through the second through hole and is installed in the second guide rail, and two ends of the second hinge shaft along the length direction of the second hinge shaft are fixed on the inner side wall of the second installation cavity.
The beneficial effects of the utility model are as follows: through setting up travel switch, drive assembly and controller, when travel switch detects that the chamber door is opened, the controller control motor starts, makes the baffle rotate to personally submit the contained angle setting with first side to realize shielding to staff and equipment, when travel switch detects that the chamber door is closed, the baffle rotates to the position parallel or laminating with first side, opens and shuts through opening and closing of chamber door and control the opening and shutting of baffle, easy operation also makes things convenient for the staff to debug and maintain power container more.
Drawings
The utility model is described in further detail below with reference to the drawings and examples.
Fig. 1 is a structural diagram of the power container according to an embodiment of the present utility model.
Fig. 2 is an enlarged view at a in fig. 1.
In fig. 1 to 2:
1. a case; 101. a first side; 1011. a door; 1012. a baffle; 1013. an opening; 2. a travel switch; 3. a drive assembly; 301. a first guide rail; 3011. a first mounting cavity; 302. a support rod; 303. a motor; 3031. a rotating shaft; 304. a rack; 305. a gear; 306. a second guide rail; 3061. a second mounting cavity; 4. a controller; 5. a first switch; 6. and a second switch.
Detailed Description
Advantages and features of the present utility model and methods of accomplishing the same may become apparent with reference to the following detailed description of embodiments taken in conjunction with the accompanying drawings. However, the present utility model is not limited to the embodiments disclosed below, but may be embodied in various different forms, which are provided only for the purpose of completing the disclosure of the present utility model and fully understanding the scope of the present utility model by those skilled in the art, and the present utility model is limited only by the scope of the claims. Like reference numerals denote like constituent elements throughout the specification.
Hereinafter, the present utility model will be described in detail with reference to the accompanying drawings.
As shown in fig. 1 and 2, the present utility model provides a power container, which comprises a case 1, a travel switch 2, a driving assembly 3 and a controller 4, wherein a first side 101 of the case 1 is provided with a case door 1011 and a baffle 1012, the case door 1011 and the baffle 1012 are arranged at intervals, an opening 1013 is arranged on the first side 101, the first side 101 is arranged on one side of the case 1 along the Y axis direction, the case door 1011 is rotatably arranged on the side wall of the case 1 along a first rotation axis, the case door 1011 seals the opening 1013, and when the case door 1011 is opened, a worker performs debugging and maintenance on equipment in the power container through the opening 1013. Baffle 1012 sets up in the top of opening 1013, and baffle 1012 rotates along the second axis of rotation and sets up on the lateral wall of box 1, and the second axis of rotation is the contained angle setting with vertical direction, and baffle 1012 can shelter from sunshine or rainwater to staff and equipment when opening the state, more makes things convenient for the staff to debug and maintain equipment. The travel switch 2 is provided on a side wall of the case 1 provided opposite to the door 1011, and the travel switch 2 is used to detect opening and closing of the door 1011. The driving assembly 3 is arranged in the box body 1, the driving assembly 3 comprises a motor 303, the motor 303 is arranged on the box body 1, the motor 303 is in transmission connection with the baffle 1012 and is used for driving the baffle 1012 to rotate around a second rotation shaft so as to enable the baffle 1012 to realize automatic opening and closing, and when the box door 1011 is opened, the baffle 1012 rotates to be arranged at an included angle with the first side face 101, so that the baffle 1012 can shield workers and equipment; after the equipment is debugged and maintained by the staff, when the box door 1011 is closed, the baffle 1012 rotates to a position parallel to or attached to the first side face 101, so that the baffle 1012 is restored to the initial position, the operation is convenient, the automatic opening and closing of the baffle 1012 is realized through the opening and closing of the box door 1011, and the working efficiency of the staff is improved. The controller 4 is in signal connection with the travel switch 2 and the motor 303, the controller 4 is used for controlling the starting and rotating directions of the motor 303, after the travel switch 2 detects the state of the box door 1011, the state is fed back to the controller 4, and the starting and rotating directions of the motor 303 are controlled through the controller 4, so that the baffle 1012 can be automatically opened and closed. Through setting up travel switch 2, drive assembly 3 and controller 4, when travel switch 2 detects that chamber door 1011 is opened, controller 4 controls motor 303 and starts, make baffle 1012 rotate to be the contained angle setting with first side 101, and realize sheltering from staff and equipment, when travel switch 2 detects chamber door 1011 and close, baffle 1012 rotates to the position parallel or laminating with first side 101, open and shut of controlling baffle 1012 through opening and closing of chamber door 1011, easy operation also makes things convenient for the staff to debug and maintain the power container more.
Preferably, two driving assemblies 3 are provided, and the two driving assemblies 3 are arranged on two opposite sides of the baffle 1012 at intervals along the X-axis direction, so that the driving assemblies 3 are stressed uniformly in the process of driving the baffle 1012 to rotate around the second rotation axis, and two ends of the baffle 1012 along the X-axis direction can simultaneously rotate.
Preferably, in this embodiment, the baffle 1012 is made of a sun-proof and rain-proof material so that the baffle 1012 can block sunlight or rain for personnel and equipment when rotated to an angle with the first side 101.
In other embodiments, the baffle 1012 and the door 1011 may be provided on either side of the housing 1, and the baffle 1012 is provided above the door 1011, without affecting the maintenance and debugging of the power container internal equipment by the personnel.
In this embodiment, as shown in fig. 2, the driving assembly 3 further includes a first guide rail 301 and a supporting rod 302, where the first guide rail 301 is disposed on a side wall of the box 1, the length of the first guide rail 301 extends along the Z-axis direction, two ends of the supporting rod 302 along the length direction are a first end and a second end, the first end is connected with a motor 303, the motor 303 is located on one side of the first guide rail 301, the first end is located on the first guide rail 301, the motor 303 is used to drive the first end to move in the first guide rail 301, the second end is hinged with a baffle 1012, when the first end moves along the length direction of the first guide rail 301, the included angle between the supporting rod 302 and the first guide rail 301 changes, so that the second end of the supporting rod 302 can support the baffle 1012 and drive the baffle 1012 to rotate around the second rotation axis, and the included angle between the baffle 1012 and the first side 101 is gradually increased, so that the baffle 1012 can shelter from staff and equipment.
Specifically, the driving assembly 3 further includes a rack 304 and a gear 305, the rack 304 is disposed in the first guide rail 301, the length of the rack 304 extends along the length direction of the first guide rail 301, the gear 305 is mounted on the rotating shaft 3031 of the motor 303, one side of the motor 303, on which the rotating shaft 3031 is disposed, is close to the first guide rail 301, the gear 305 is meshed with the rack 304, so that the gear 305 drives the rack 304 to move along the length direction of the first guide rail 301, after the motor 303 is started, the rotating shaft 3031 rotates and drives the gear 305 to rotate, due to the meshing of the gear 305 and the rack 304, the rack 304 can be driven to move in the first guide rail 301 in the rotation process of the gear 305, the top end of the rack 304 is hinged with the first end along the length direction of the first guide rail 301, the first end can move along the length direction of the first guide rail 301, the included angle between the support bar 302 and the first guide rail 301 is changed, and the support bar 302 drives the baffle 1012 to rotate around the second rotation axis, so that the included angle is formed between the baffle 1012 and the first side 101. Because the controller 4 can control the rotation direction of the motor 303, when the rotating shaft 3031 rotates along the first direction, the gear 305 can drive the rack 304 to move upwards along the Z-axis direction, so that the support rod 302 can support the baffle 1012 and enable the baffle 1012 to rotate around the second rotation axis, so that the included angle between the baffle 1012 and the first side face 101 is gradually increased and the baffle 1012 is opened; when the shaft 3031 rotates along the second direction, the gear 305 can drive the rack 304 to move downwards along the Z-axis direction, so that the support rod 302 drives the baffle 1012 to rotate around the second rotation axis, so that the included angle between the baffle 1012 and the first side 101 is gradually reduced, and the baffle 1012 is closed.
Preferably, the length of the rack 304 is smaller than that of the first guide rail 301, so that the whole rack 304 moves in the first guide rail 301, and the first end can be ensured to support the baffle 1012 by the support rod 302 when moving in the first guide rail 301, and the baffle 1012 can be rotated around the second rotation axis, so that the baffle 1012 can be opened and closed.
As shown in fig. 2, a first installation cavity 3011 is provided in the first guide rail 301, the first installation cavity 3011 penetrates through two end faces of the first guide rail 301 along the length direction of the first guide rail 301, a rack 304 is installed in the first installation cavity 3011, the rack 304 can be movably arranged in the first installation cavity 3011 along the extending direction of the first guide rail 301, a first opening is formed in one side face of the first guide rail 301, which faces the support rod 302, the first opening is communicated with the first installation cavity 3011, the support rod 302 penetrates through the first opening to be hinged with the rack 304, so that an included angle between the support rod 302 and the first guide rail 301 can be changed in the rotation process of the rotating shaft 3031, and the gear 305 is meshed with the rack 304 through the first opening, so that the gear 305 drives the rack 304 to rotate in the rotation process of the rotating shaft 3031.
Specifically, be provided with first through-hole on the first end, be provided with first articulated shaft in the first through-hole, first articulated shaft passes first through-hole and installs in first guide rail 301, first articulated shaft all blocks along its length direction's both ends and establishes in first installation cavity 3011, first articulated shaft is connected with rack 304, in pivot 3031 rotation in-process rack 304 along Z axial direction, so that first articulated shaft moves along first guide rail 301's length direction, and drive first end and remove along Z axial direction in first guide rail 301, make bracing piece 302 can support baffle 1012 and rotate around the second axis of rotation, and then realize baffle 1012's opening and shutting.
As shown in fig. 2, the power container further includes two limit switches, the limit switches are disposed on the side wall of the case 1, the limit switches include a first switch 5 and a second switch 6, the first switch 5 and the second switch 6 are disposed at two ends of the first rail 301 along the length direction thereof, and the limit switches are connected with the controller 4 and the motor 303 for controlling the stopping of the motor 303.
Specifically, when the rotating shaft 3031 rotates along the first direction, the gear 305 drives the rack 304 to move along the direction close to the first switch 5, and in the process that the rack 304 moves along the direction close to the first switch 5, the first end is driven to move in the first guide rail 301, so that the support rod 302 can support the baffle 1012 to rotate around the second rotating shaft, the opening of the baffle 1012 is realized, and one end of the rack 304 close to the first switch 5 can be abutted with the first switch 5 and trigger the first switch 5, the first switch 5 controls the motor 303 to stop rotating, and when the rack 304 triggers the first switch 5 to stop rotating the motor 303, the baffle 1012 also stops rotating, so that the support rod 302 supports the baffle 1012, the baffle 1012 is opened, and the workers and the equipment are shielded from sunlight or rainwater. When the rotating shaft 3031 rotates along the second direction, the rack 304 is driven to move along the direction close to the second switch 6, so that one end of the rack 304 close to the second switch 6 can be abutted against the second switch 6, the second switch 6 is triggered, the second switch 6 controls the motor 303 to stop rotating, and the first end is driven to move downwards along the Z-axis direction in the moving process of the rack 304 along the direction close to the second switch 6, so that the support rod 302 drives the baffle 1012 to return to the initial position, and the baffle 1012 is parallel or attached to the first side 101.
As shown in fig. 2, the driving assembly 3 further includes a second guide rail 306, where the support rod 302 is hinged to the second guide rail 306, so that an included angle between the support rod 302 and the second guide rail 306 can be changed during the rotation of the support baffle 1012 around the second rotation axis, the second guide rail 306 is disposed on a side surface of the baffle 1012 near the box body 1, the second guide rail 306 extends along a direction perpendicular to the second rotation axis, a second installation cavity 3061 is disposed in the second guide rail 306, a second opening is formed in the second guide rail 306, an opening direction of the second opening is along a direction away from the baffle 1012, the second opening is communicated with the second installation cavity 3061, and the support rod 302 is installed in the second installation cavity 3061 through the second opening. Specifically, a second through hole is disposed at the second end, a second hinge shaft is disposed in the second through hole, and the second hinge shaft passes through the second through hole and is installed in the second guide rail 306, so that the second end can be rotatably disposed on the second hinge shaft, and both ends of the second hinge shaft along the length direction thereof are fixed on the inner side wall of the second installation cavity 3061, so that the second end can be stably hinged to the second guide rail 306, the support rod 302 is prevented from shaking in the rotation process, and the support baffle 1012 can be stably supported by the support rod 302.
When a worker opens the box door 1011, the travel switch 2 detects the opening of the box door 1011, controls the motor 303 to start through the controller 4, enables the rotating shaft 3031 of the motor 303 to rotate along a first direction, drives the rack 304 to move upwards along the Z-axis direction on the first guide rail 301, enables the first end to move along a direction close to the first switch 5, and drives the support rod 302 to support the baffle 1012 to rotate around a second rotating shaft, so that the baffle 1012 can rotate to a position forming an included angle with the second side, and after the gear 305 moves to abut against the first switch 5, the first switch 5 is triggered, the motor 303 stops rotating, and the baffle 1012 is opened, thereby realizing the shielding effect on the worker and equipment; when the door 1011 is closed, the travel switch 2 detects the closing of the door 1011, controls the motor 303 to start through the controller 4, and enables the rotating shaft 3031 of the motor 303 to rotate along the second direction, drives the rack 304 to move downwards along the Z-axis direction on the first guide rail 301, enables the first end to move along the direction close to the second switch 6, enables the support rod 302 to drive the baffle 1012 to rotate around the second rotating shaft, enables the baffle 1012 to restore to the initial position and be parallel or attached to the first side 101, and after the gear 305 moves to abut against the second switch 6, triggers the second switch 6, enables the motor 303 to stop rotating, and enables the motor 303 to close, thereby realizing the automatic opening and closing of the baffle 1012, and facilitating the maintenance of the internal equipment of the power container by workers.
Although the embodiments of the present utility model have been described above with reference to the accompanying drawings, the present utility model is not limited to the above embodiments, but may be manufactured in various forms, and it will be understood by those skilled in the art that the present utility model may be embodied in other specific forms without changing the technical spirit or essential features of the present utility model. Accordingly, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive.
Claims (10)
1. A power container comprising:
the box body is provided with a box door and a baffle plate on a first side surface of the box body, the box door and the baffle plate are arranged at intervals, an opening is formed in the first side surface, the box door is rotatably arranged on the side wall of the box body along a first rotating shaft, the box door seals the opening, the baffle plate is arranged above the opening, the baffle plate is rotatably arranged on the side wall of the box body along a second rotating shaft, and the second rotating shaft is arranged at an included angle with the vertical direction;
the travel switch is arranged on the side wall of the box body opposite to the box door and is used for detecting the opening and closing of the box door;
the driving assembly comprises a motor, the motor is arranged on the box body, the motor is in transmission connection with the baffle plate and is used for driving the baffle plate to rotate around the second rotating shaft, when the box door is opened, the baffle plate rotates to be arranged at an included angle with the first side surface, and when the box door is closed, the baffle plate rotates to be parallel or attached to the first side surface;
and the controller is in signal connection with the travel switch and the motor, and is used for controlling the starting and rotating directions of the motor.
2. A power container according to claim 1, wherein there are two of said drive assemblies, two of said drive assemblies being spaced apart on opposite sides of said barrier along the X-axis.
3. The power container of claim 1, wherein the driving assembly further comprises a first guide rail and a supporting rod, the first guide rail is arranged on the side wall of the box body, the length of the first guide rail extends along the Z-axis direction, two ends of the supporting rod along the length direction of the supporting rod are a first end and a second end respectively, the first end is connected with the motor, the first end is located on the first guide rail, the motor is used for driving the first end to move in the first guide rail, and the second end is hinged with the baffle plate.
4. A power container according to claim 3, further comprising two limit switches, said limit switches being provided on the side walls of said container body, said limit switches comprising a first switch and a second switch, said first switch and said second switch being provided at both ends of said first rail along the length direction thereof, respectively, said limit switches being connected to said controller and said motor for controlling the stopping of said motor.
5. A power container as claimed in claim 3, wherein the drive assembly further comprises a rack and a pinion, the rack being disposed within the first rail, the length of the rack extending along the length of the first rail, the pinion being mounted on the shaft of the motor, the pinion being engaged with the rack such that the pinion drives the rack to move along the length of the first rail and the rack being hinged to the first end.
6. The power container of claim 5, wherein the rack has a length less than a length of the first rail.
7. The power container according to claim 5, wherein a first installation cavity is provided in the first guide rail, the first installation cavity penetrates through two end faces of the first guide rail along the length direction of the first guide rail, the rack is installed in the first installation cavity, a first opening is formed in the first guide rail towards one side face of the support rod, the first opening is communicated with the first installation cavity, and the support rod is hinged with the rack through the first opening.
8. The power container of claim 5, wherein the first end is provided with a first through hole, a first hinge shaft is disposed in the first through hole, the first hinge shaft is installed in the first rail through the first through hole, and the first hinge shaft is connected to the rack so that the first hinge shaft moves along a length direction of the first rail.
9. A power container according to claim 3, wherein the driving assembly further comprises a second guide rail, the supporting rod is hinged to the second guide rail, the second guide rail is arranged on one side surface of the baffle close to the box body, the second guide rail extends along a direction perpendicular to the second rotation axis, a second installation cavity is formed in the second guide rail, a second opening is formed in the second guide rail, the opening direction of the second opening is in a direction away from the baffle, the second opening is communicated with the second installation cavity, and the supporting rod is installed in the second installation cavity through the second opening.
10. The power container as claimed in claim 9, wherein a second through hole is provided at the second end, a second hinge shaft is provided in the second through hole, the second hinge shaft is installed in the second guide rail through the second through hole, and both ends of the second hinge shaft along the length direction thereof are fixed on the inner side wall of the second installation cavity.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202320846207.5U CN219801164U (en) | 2023-04-14 | 2023-04-14 | Power supply container |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202320846207.5U CN219801164U (en) | 2023-04-14 | 2023-04-14 | Power supply container |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN219801164U true CN219801164U (en) | 2023-10-03 |
Family
ID=88154578
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202320846207.5U Active CN219801164U (en) | 2023-04-14 | 2023-04-14 | Power supply container |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN219801164U (en) |
-
2023
- 2023-04-14 CN CN202320846207.5U patent/CN219801164U/en active Active
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