CN220253677U - Flexible soft connection cabinet body conductive structure - Google Patents
Flexible soft connection cabinet body conductive structure Download PDFInfo
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- CN220253677U CN220253677U CN202321071278.9U CN202321071278U CN220253677U CN 220253677 U CN220253677 U CN 220253677U CN 202321071278 U CN202321071278 U CN 202321071278U CN 220253677 U CN220253677 U CN 220253677U
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- 238000009413 insulation Methods 0.000 claims description 8
- 230000005389 magnetism Effects 0.000 claims description 5
- 230000000149 penetrating effect Effects 0.000 abstract description 7
- 238000004804 winding Methods 0.000 abstract description 4
- GXVMAQACUOSFJF-UHFFFAOYSA-N 1,3-dichloro-5-(2-chlorophenyl)benzene Chemical compound ClC1=CC(Cl)=CC(C=2C(=CC=CC=2)Cl)=C1 GXVMAQACUOSFJF-UHFFFAOYSA-N 0.000 description 10
- 238000010586 diagram Methods 0.000 description 6
- 230000005540 biological transmission Effects 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 238000003466 welding Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 239000011120 plywood Substances 0.000 description 1
Abstract
The utility model discloses a flexible soft connection cabinet body conductive structure which comprises an input wire, a wire box, a magnetic conductive base and an electric output device, wherein one end of the input wire is arranged in the wire box, the other end of the input wire penetrates out of the wire box and is electrically connected with the electric output device, the magnetic conductive base is detachably connected with the wire box, the magnetic conductive base is electrically connected with the input wire, a wire length adjusting structure is arranged in the wire box, and the wire length adjusting structure can adjust the length of a part of the input wire penetrating out of the wire box. The utility model can be applied to a cabinet body, the input wire can be conveniently arranged in an embedded mode, and the exposed length of the input wire from the wire box can be conveniently limited due to the arrangement of the wire length adjusting structure, so that the winding probability of the input wire is effectively reduced, the size of various embedded structures can be better matched, and meanwhile, the distance from the wire box to the electric output device can be conveniently matched, thereby effectively reducing the setting difficulty of the utility model and having strong flexibility.
Description
Technical Field
The utility model relates to the field of cabinet fitting design, in particular to a flexible soft connection cabinet conductive structure.
Background
Electrical loads such as lighting lamps and temperature and humidity adjusting devices are often arranged in cabinets such as existing cabinets, bookcases, shoe cabinets, sideboards or wardrobe cabinets, and in order to facilitate the work of the electrical loads, wires are generally required to be correspondingly arranged in the cabinets, but the wires are easy to wind with the cabinet or other structures.
In order to solve the above-mentioned problems, patent No. ZL202320459502.5 describes a cabinet power supply device, which uses a connecting piece to replace a wire in a laminate of a cabinet to transmit current, so as to avoid the problem of arranging the wire in the cabinet. However, in the cabinet power supply device, the connecting piece is obviously a rigid connecting piece, on one hand, because the size of the rigid connecting piece is fixed, the requirement on the precision of the mounting groove position of the cabinet laminate is very high, otherwise, the mounting is difficult to effectively perform, on the other hand, after the rigid connecting piece is arranged, the positions of all elements on the rigid connecting piece are fixed, the positions of all elements on the rigid connecting piece cannot be effectively adjusted, other structures such as the connection of a conductive base are difficult to effectively match, and the flexibility is insufficient.
Disclosure of Invention
The utility model aims to provide a flexible soft connection cabinet body conductive structure which can solve one or more of the problems.
According to one aspect of the utility model, a flexible soft connection cabinet conductive structure is provided, which comprises an input wire, a wire box, a magnetic conductive base and an electric output device, wherein one end of the input wire is arranged in the wire box, the other end of the input wire penetrates out of the wire box and is electrically connected with the electric output device, the magnetic conductive base is detachably connected with the wire box, the magnetic conductive base is electrically connected with the input wire, a wire length adjusting structure is arranged in the wire box, and the wire length adjusting structure can adjust the length of a part of the input wire penetrating out of the wire box.
The beneficial effects of the utility model are as follows: the utility model can be applied to the cabinet body, the magnetic conductive base can be used for being connected with an external power supply, and the electric output device can be used for being connected with an electric load, so that the external power supply can supply power to the electric load through the utility model, the input wire can be conveniently arranged in an embedded mode, the exposed length of the input wire from the wire box can be conveniently limited due to the arrangement of the wire length adjusting structure, the winding probability of the input wire can be effectively reduced, the sizes of various embedded structures can be better matched, meanwhile, the distance from the wire box to the electric output device can be conveniently matched, and the installation position requirements of different wire boxes and the electric output device can be better matched, so that the arrangement difficulty of the utility model can be effectively reduced, and the flexibility is strong.
In some embodiments, the wire box includes an insulating box body, an input contact block and a first magnet, wherein the first magnet is embedded on the insulating box body, and the input contact block is embedded on the insulating box body and is electrically connected with the input wire.
In some embodiments, the magnetic conductive base comprises a conductive spring pin, a housing, a second magnet and a PCB, wherein the PCB is embedded in the housing, the conductive spring pin is connected with the PCB and electrically connected with the PCB, one end of the conductive spring pin penetrates out of the housing, the second magnet is embedded in the housing, the first magnet can be magnetically connected with the second magnet, and meanwhile the input contact block can be in contact with the conductive spring pin and electrically connected with the conductive spring pin. The first magnet is connected with the second magnet in a magnetic attraction mode, and connection between the magnetic attraction conductive base and the wire box can be effectively achieved.
In some embodiments, the wire length adjustment structure includes a press block and a spring, one end of the spring is connected with the insulation box body, the other end is connected with the press block, and the press block abuts against the input wire. Thus, the user can change the compression amount of the spring by pulling the portion of the input wire located outside the wire box, thereby adjusting the pullout length.
In some embodiments, the line length adjusting structure includes a plurality of posts, the plurality of posts are connected in the insulating box, and the input line can bypass any one or more of the plurality of posts. Thus, the user can effectively adjust the length of the portion of the input wire located inside the wire box by selecting the boss around which the input wire bypasses, thereby achieving a change in the length of the portion of the input wire located outside the wire box.
In some embodiments, the insulation box is provided with a tensioning column, and the input wire passes through the wire box after bypassing the tensioning column. The tensioning column is arranged to ensure that the input wire passing out of the wire box is in a tight state as far as possible so as to avoid the input wire from winding.
In some embodiments, the magnetic conductive base comprises a wireless communicator electrically connected to the PCB, the wireless communicator being embedded in the housing. The wireless communicator is arranged to facilitate the user to control the work of the magnetic attraction conductive base in a wireless manner, such as the conduction of the magnetic attraction conductive base of the wireless switch.
In some embodiments, the electrical output device comprises a block provided with an output contact block. Therefore, the electric load can be conveniently electrically connected with the output contact block to obtain power supply.
In some embodiments, the utility model further comprises a cabinet back plate and a cabinet layer plate, wherein the cabinet layer plate is connected with the cabinet back plate, the cabinet layer plate is provided with a first side groove, a second side groove and a groove, the first side groove is communicated with the second side groove, the wire box is embedded in the first side groove, the input wire passes through the second side groove, the electric output device is embedded in the groove, and the magnetic conductive base is embedded in the cabinet back plate. Under the above-mentioned setting, can make things convenient for line box and electric output device to locate in the cabinet body plywood in advance, and the input line then can install by adopting the mode of burying hidden, can effectively avoid traditional in cabinet internal back arrangement wire degree of difficulty big, easy winding scheduling problem.
Drawings
Fig. 1 is a schematic structural diagram of a flexible connection cabinet conductive structure according to an embodiment of the present utility model in use.
Fig. 2 is a schematic structural view of a flexible connection cabinet conductive structure according to an embodiment of the present utility model when the cabinet back plate and the cabinet laminate are not provided.
Fig. 3 is a schematic structural diagram of a flexible soft connection cabinet conductive structure according to an embodiment of the present utility model, where the cabinet back plate and the magnetic conductive base are not provided.
Fig. 4 is an exploded view of a schematic structural diagram of a wire box of a conductive structure of a flexible connection cabinet according to an embodiment of the present utility model.
Fig. 5 is an exploded view of a schematic structural diagram of a wire box of a conductive structure of a flexible connection cabinet according to an embodiment of the present utility model.
Fig. 6 is a schematic structural diagram of an electrical output device of a flexible connection cabinet conductive structure according to an embodiment of the present utility model.
Fig. 7 is a schematic structural diagram of a magnetic attraction conductive base of a conductive structure of a flexible connection cabinet according to an embodiment of the utility model.
In the figure: 1. input wire, 2 wire box, 3 magnetic attraction conductive base, 4 electric output device, 5 cabinet backboard, 6 cabinet laminate, 7 electric load, 21 insulation box, 22 input contact block, 23 first magnet, 211 tension column, 201 convex column, 202 press block, 203 spring, 31 conductive spring pin, 32 shell, 33 second magnet, 34 PCB, 41 seat block, 42 output contact block, 61 first side groove, 62 second side groove and 63 groove.
Detailed Description
The utility model is described in further detail below with reference to the accompanying drawings.
Example 1
Referring to fig. 1, 2, 3, 4, 6 and 7, a flexible connection cabinet conductive structure of the present embodiment includes an input wire 1, a wire box 2, a magnetic conductive base 3 and an electric output device 4.
The input cord 1 can preferably be a commercially available standard input cord of TPE material No. 24, which has good softness.
The wire box 2 comprises an insulating box body 21, an input contact 22 and a first magnet 23. The insulating box 21 is hollow, the first magnets 23 are preferably magnets, the first magnets 23 are preferably two, the two first magnets 23 are fixedly embedded on the side part of the insulating box 21, the input contact blocks 22 are terminals, the input contact blocks 22 are preferably two, and the two input contact blocks 22 are fixedly embedded on the insulating box 21.
One end of the input wire 1 is fixed in the insulating box 21, and the input wire 1 contacts with the input contact block 22 to be electrically connected with the input contact block 22, and the insulating box 21 is provided with an opening, and the other end of the input wire 1 passes through the opening.
The wire box 2 is internally provided with a wire length adjusting structure, the wire length adjusting structure comprises a plurality of convex columns 201, the plurality of convex columns 201 are connected in the insulating box body 21, the input wire 1 can bypass any one or more of the plurality of convex columns 201, so that a user can adjust the length of the part of the input wire 1 in the wire box 2 by adjusting the position or the number of the convex columns 201 bypassed by the input wire 1, and the length of the part of the input wire 1 penetrating out of the wire box 2 can be effectively adjusted.
In addition, a tensioning column 211 is further provided in the insulation box 21, and the input wire 1 bypasses the tensioning column 211 before passing out from the insulation box 21.
The magnetically attractable conductive base 3 includes a conductive spring pin 31, a housing 32, a second magnet 33, and a PCB (i.e., printed circuit board) 34. The PCB 34 is fixedly embedded in the housing 32 by screws, preferably two conductive spring pins 31, one ends of the two conductive spring pins 31 are connected with the PCB 34 by welding so as to be electrically connected with the PCB 34, and the other ends of the conductive spring pins 31 are penetrated from the housing 32 and exposed. The second magnets 33 are also preferably magnets, the two second magnets 33 are preferably two, the two second magnets 33 are fixedly embedded on the shell 32, the setting positions of the second magnets 33 and the penetrating-out of the conductive spring pins 31 are all located on the same side of the shell 32, so that the two first magnets 23 can be respectively magnetically connected with the two second magnets 33, the detachable connection of the wire box 2 and the magnetically conductive base 3 is realized, meanwhile, the two input contact blocks 22 can be respectively contacted with the two conductive spring pins 31, the corresponding input contact blocks 22 are electrically connected with the conductive spring pins 31, and the electrical connection between the magnetically conductive base 3 and the input wire 1 can be effectively realized due to the electrical connection between the input wire 1 and the input contact blocks 22.
The magnetically conductive base 3 further comprises a wireless communicator (not shown). The wireless communicator can select WIFI wireless communicator or bluetooth wireless communicator etc. as required, and wireless communicator can weld on PCB 34 in order to with PCB 34 electric connection, and wireless communicator inlays in casing 32, and wireless communicator can make things convenient for the user to connect through wireless network to control magnetism and inhale the power supply condition of electrically conductive base 3.
The electrical output device 4 comprises a block 41, the block 41 being provided with an output contact block 42. The end of the input wire 1 that protrudes from the wire box 2 penetrates into the block 41 of the electrical output device 4 and is connected and electrically connected to the contact block 42.
The flexible connection cabinet conductive structure of this embodiment can also include a cabinet back plate 5 and a cabinet layer plate 6. The cabinet body laminate 6 is fixedly connected with the cabinet body back plate 5 through bolts, the cabinet body laminate 6 is provided with a first side groove 61, a second side groove 62 and a groove 63, the first side groove 61 and the second side groove 62 are respectively arranged on different side parts of the cabinet body laminate 6, the groove 63 is arranged on the top of the cabinet body laminate 6, the first side groove 61 is communicated with one end of the second side groove 62, the groove 63 is communicated with the other end of the second side groove 62, the insulating box body 21 of the wire box 2 is fixedly embedded in the first side groove 61 through bolts, the input wire 1 passes through the second side groove 62, and the seat block 41 of the electric output device 4 is fixedly embedded in the groove 63 through bolts.
The cabinet body backboard 5 is provided with a through hole, and the shell 32 of the magnetic attraction conductive base 3 is fixedly embedded in the through hole of the cabinet body backboard 5.
When the cabinet body back plate 5 is used as a back plate of a conventional cabinet body, the cabinet body layer plate 6 can be used as a layer plate of the conventional cabinet body, the input wire 1, the wire box 2 and the electric output device 4 can be preset on the cabinet body layer plate 6, and the positions or the number of the convex columns 201 bypassed by the input wire 1 are adjusted according to the setting positions of the wire box 2 and the electric output device 4 and the length of the second side grooves 62, so that the length of the part of the input wire 1 in the wire box 2 is adjusted, and the length of the part of the input wire 1 penetrating out of the wire box 2 is effectively adjusted to adapt to use requirements.
The magnetically attracted conductive base 3 can be connected with an external power supply through a transmission line, and the two first magnets 23 are respectively magnetically attracted to the two second magnets 33, so that the connection between the wire box 2 and the magnetically attracted conductive base 3 is realized, then at this time, the two input contact blocks 22 can be respectively contacted with the two conductive spring pins 31, so that the corresponding input contact blocks 22 are electrically connected with the conductive spring pins 31, and because the input line 1 is electrically connected with the input contact blocks 22, the electrical connection between the magnetically attracted conductive base 3 and the input line 1 can be effectively realized, and the electrical load 7 can be electrically connected with the output contact blocks 42 of the electrical output device 4, so that the external power supply can supply power to the electrical load 7 through the utility model.
Example 2
Referring to fig. 1, 2, 3, 5, 6 and 7, a flexible connection cabinet conductive structure of the present embodiment includes an input wire 1, a wire box 2, a magnetic conductive base 3 and an electric output device 4.
The input cord 1 can preferably be a commercially available standard input cord of TPE material No. 24, which has good softness.
The wire box 2 comprises an insulating box body 21, an input contact 22 and a first magnet 23. The insulating box 21 is hollow, the first magnets 23 are preferably magnets, the first magnets 23 are preferably two, the two first magnets 23 are fixedly embedded on the side part of the insulating box 21, the input contact blocks 22 are terminals, the input contact blocks 22 are preferably two, and the two input contact blocks 22 are fixedly embedded on the insulating box 21.
One end of the input wire 1 is fixed in the insulating box 21, and the input wire 1 contacts with the input contact block 22 to be electrically connected with the input contact block 22, and the insulating box 21 is provided with an opening, and the other end of the input wire 1 passes through the opening.
The wire box 2 is internally provided with a wire length adjusting structure, the wire length adjusting structure comprises a pressing block 202 and a spring 203, a baffle is arranged in the insulating box body 21, one end of the spring 203 is fixedly connected with the baffle of the insulating box body 21 through a bolt, the other end of the spring 203 is fixedly connected with the pressing block 202 through a bolt, and the pressing block 202 butts against the part of the input wire 1 positioned in the wire box 2. Thus, the user can make more parts of the input wire 11 pass out of the wire box 2 by pulling the parts of the input wire 1 passing out of the wire box 2, so that the input wire 1 can compress the spring 203 through the pressing block 202, otherwise, when the pulling force is reduced, the spring 203 can stretch to push the pressing block 202 to push the input wire 11, so that more parts of the input wire 11 are pushed into the wire box 2, namely, the parts of the input wire 11 passing out of the wire box 2 are reduced, and the length of the parts of the input wire 1 passing out of the wire box 2 can be effectively adjusted in the mode.
In addition, a tensioning column 211 is further provided in the insulation box 21, and the input wire 1 bypasses the tensioning column 211 before passing out from the insulation box 21.
The magnetically attractable conductive base 3 includes a conductive spring pin 31, a housing 32, a second magnet 33, and a PCB (i.e., printed circuit board) 34. The PCB 34 is fixedly embedded in the housing 32 by screws, preferably two conductive spring pins 31, one ends of the two conductive spring pins 31 are connected with the PCB 34 by welding so as to be electrically connected with the PCB 34, and the other ends of the conductive spring pins 31 are penetrated from the housing 32 and exposed. The second magnets 33 are also preferably magnets, the two second magnets 33 are preferably two, the two second magnets 33 are fixedly embedded on the shell 32, the setting positions of the second magnets 33 and the penetrating-out of the conductive spring pins 31 are all located on the same side of the shell 32, so that the two first magnets 23 can be respectively magnetically connected with the two second magnets 33, the detachable connection of the wire box 2 and the magnetically conductive base 3 is realized, meanwhile, the two input contact blocks 22 can be respectively contacted with the two conductive spring pins 31, the corresponding input contact blocks 22 are electrically connected with the conductive spring pins 31, and the electrical connection between the magnetically conductive base 3 and the input wire 1 can be effectively realized due to the electrical connection between the input wire 1 and the input contact blocks 22.
The magnetically conductive base 3 further comprises a wireless communicator (not shown). The wireless communicator can select WIFI wireless communicator or bluetooth wireless communicator etc. as required, and wireless communicator can weld on PCB 34 in order to with PCB 34 electric connection, and wireless communicator inlays in casing 32, and wireless communicator can make things convenient for the user to connect through wireless network to control magnetism and inhale the power supply condition of electrically conductive base 3.
The electrical output device 4 comprises a block 41, the block 41 being provided with an output contact block 42. The end of the input wire 1 that protrudes from the wire box 2 penetrates into the block 41 of the electrical output device 4 and is connected and electrically connected to the contact block 42.
The flexible connection cabinet conductive structure of this embodiment can also include a cabinet back plate 5 and a cabinet layer plate 6. The cabinet body laminate 6 is fixedly connected with the cabinet body back plate 5 through bolts, the cabinet body laminate 6 is provided with a first side groove 61, a second side groove 62 and a groove 63, the first side groove 61 and the second side groove 62 are respectively arranged on different side parts of the cabinet body laminate 6, the groove 63 is arranged on the top of the cabinet body laminate 6, the first side groove 61 is communicated with one end of the second side groove 62, the groove 63 is communicated with the other end of the second side groove 62, the insulating box body 21 of the wire box 2 is fixedly embedded in the first side groove 61 through bolts, the input wire 1 passes through the second side groove 62, and the seat block 41 of the electric output device 4 is fixedly embedded in the groove 63 through bolts.
The cabinet body backboard 5 is provided with a through hole, and the shell 32 of the magnetic attraction conductive base 3 is fixedly embedded in the through hole of the cabinet body backboard 5.
When the cabinet body back plate 5 is used as a back plate of a conventional cabinet body, the cabinet body layer plate 6 can be used as a layer plate of the conventional cabinet body, the input wire 1, the wire box 2 and the electric output device 4 can be preset on the cabinet body layer plate 6, the part of the input wire 2 penetrating out of the wire box 2 is pulled according to the arrangement positions of the wire box 2 and the electric output device 4 and the length of the second side groove 62, so that the length of the part of the input wire 1 penetrating out of the wire box 2 is adjusted, the length can be fixed along with the fixation of the electric output device 4, and the length of the part of the input wire 1 penetrating out of the wire box 2 can be adapted to different use requirements.
The magnetically attracted conductive base 3 can be connected with an external power supply through a transmission line, and the two first magnets 23 are respectively magnetically attracted to the two second magnets 33, so that the connection between the wire box 2 and the magnetically attracted conductive base 3 is realized, then at this time, the two input contact blocks 22 can be respectively contacted with the two conductive spring pins 31, so that the corresponding input contact blocks 22 are electrically connected with the conductive spring pins 31, and because the input line 1 is electrically connected with the input contact blocks 22, the electrical connection between the magnetically attracted conductive base 3 and the input line 1 can be effectively realized, and the electrical load 7 can be electrically connected with the output contact blocks 42 of the electrical output device 4, so that the external power supply can supply power to the electrical load 7 through the utility model.
What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.
Claims (9)
1. The utility model provides a flexible soft connection cabinet body conductive structure, its characterized in that, including input line, line box, magnetism inhale conductive base and electric output device, in the line box was located to the one end of input line, the other end of input line was worn out from the line box to with electric output device electric connection, magnetism inhale conductive base and line box detachable connection, magnetism inhale conductive base and input line electric connection, be equipped with line length adjustment structure in the line box, line length adjustment structure can adjust the length of the part that the input line was worn out from the line box.
2. The flexible connection cabinet conductive structure of claim 1, wherein the wire box comprises an insulating box body, an input contact block and a first magnet, wherein the first magnet is embedded on the insulating box body, and the input contact block is embedded on the insulating box body and is electrically connected with the input wire.
3. The flexible connection cabinet electrically conductive structure of claim 2, wherein the magnetically attracted electrically conductive base comprises a conductive spring pin, a housing, a second magnet and a PCB, the PCB is embedded in the housing, the conductive spring pin is connected to the PCB and electrically connected to the PCB, one end of the conductive spring pin penetrates out of the housing, the second magnet is embedded in the housing, the first magnet is magnetically attracted to the second magnet, and the input contact is in contact with and electrically connected to the conductive spring pin.
4. The flexible connection cabinet conductive structure of claim 2, wherein the wire length adjustment structure comprises a press block and a spring, one end of the spring is connected with the insulation box body, the other end of the spring is connected with the press block, and the press block abuts against the input wire.
5. The flexible connection cabinet conductive structure of claim 2, wherein the wire length adjustment structure comprises a plurality of posts, wherein the plurality of posts are connected in an insulating box, and wherein the input wire can bypass any one or more of the plurality of posts.
6. A flexible connection cabinet electrically conductive structure according to claim 4 or claim 5, wherein the insulating housing is provided with a tensioning post, and the input wire passes through the wire housing after bypassing the tensioning post.
7. The flexible connection cabinet electrically conductive structure of claim 2, wherein the magnetically attractable electrically conductive base comprises a wireless communicator electrically connected to the PCB, the wireless communicator being embedded in the housing.
8. A flexible connection cabinet electrically conductive structure according to claim 1, wherein the electrical output means comprises a block provided with output contacts.
9. The flexible soft connection cabinet body conductive structure according to claim 1, comprising a cabinet body back plate and a cabinet body laminate, wherein the cabinet body laminate is connected with the cabinet body back plate, the cabinet body laminate is provided with a first side groove, a second side groove and a groove, the first side groove is communicated with the second side groove, the wire box is embedded in the first side groove, the input wire passes through the second side groove, the electric output device is embedded in the groove, and the magnetic conductive base is embedded in the cabinet body back plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321071278.9U CN220253677U (en) | 2023-05-06 | 2023-05-06 | Flexible soft connection cabinet body conductive structure |
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Application Number | Priority Date | Filing Date | Title |
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CN202321071278.9U CN220253677U (en) | 2023-05-06 | 2023-05-06 | Flexible soft connection cabinet body conductive structure |
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CN220253677U true CN220253677U (en) | 2023-12-26 |
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CN202321071278.9U Active CN220253677U (en) | 2023-05-06 | 2023-05-06 | Flexible soft connection cabinet body conductive structure |
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- 2023-05-06 CN CN202321071278.9U patent/CN220253677U/en active Active
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