Wire harness isolation plate and battery
By incorporating multiple patent specifications into the wire harness isolation plate, the problems of the prior art are solved. By introducing multiple slidingly fitted first and second adjustment components into the wire harness isolation plate, the size of the installation area and the size of the overall frame are adjusted to adapt to different sizes and numbers of busbars, thus realizing the versatility and stability of the wire harness isolation plate.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- JIANGSU ZENIO NEW ENERGY BATTERY TECH CO LTD
- Filing Date
- 2024-12-10
- Publication Date
- 2026-06-26
AI Technical Summary
In existing technologies, different types of wire harness isolation boards need to be replaced when the battery model is different, which results in time-consuming and labor-intensive installation and serious waste of resources.
By introducing multiple sliding-fit first and second adjustment components into the wire harness isolation plate, the size of the installation area and the overall frame can be adjusted to adapt to different sizes and quantities of busbars, avoiding the need to replace different types of wire harness isolation plates.
It improves assembly efficiency, reduces resource waste, and achieves the versatility and stability of wire harness isolation plates.
Smart Images

Figure CN119764764B_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of battery technology, specifically to a wire harness separator and a battery. Background Technology
[0002] The wire harness separator in a battery provides mechanical support and conductivity. Installing busbars within the separator increases its rigidity and stability while providing a current transmission path to meet the current connection requirements of the battery system. In related technologies, different battery models require different busbar sizes, necessitating the replacement of different types of wire harness separators to accommodate these varying busbar sizes. Installing and removing additional types of separators is time-consuming and labor-intensive, and preparing different types of separators also leads to significant data waste. Summary of the Invention
[0003] To address the aforementioned technical problems, embodiments of this application provide a wire harness isolation plate and a battery, which can adjust the size of each mounting area and the overall frame size when the size and quantity of the busbar change, so that the adjusted mounting area is compatible with the busbar, avoiding the need to replace different types of wire harness isolation plates, effectively improving assembly efficiency and reducing resource waste.
[0004] In a first aspect, a wire harness isolation plate is provided, comprising:
[0005] The frame includes multiple first and second adjustment components that slide and engage with each other.
[0006] A circuit board is disposed between a plurality of first adjustment components and a plurality of second adjustment components to form a plurality of mounting areas; and the circuit board is slidably fitted with the plurality of first adjustment components and the plurality of second adjustment components.
[0007] The wire harness isolation plate is used to adjust the size of the multiple installation areas by sliding relative to each other between multiple first adjustment components and multiple second adjustment components, sliding relative to each other between the circuit board and multiple first adjustment components, and sliding relative to each other between the circuit board and multiple second adjustment components.
[0008] According to a first aspect of this application, the circuit board is provided with a first groove;
[0009] The first adjustment component includes:
[0010] The substrate is provided with a first limiting post; wherein, the first sliding groove slides in a first direction and engages with the first limiting post.
[0011] A first adjustment bracket is slidably engaged with the substrate along a second direction; wherein the second direction is perpendicular to the first direction.
[0012] According to a first aspect of this application, the substrate is provided with one of a second slide groove and a first guide post extending along the second direction, and the first adjustment frame is provided with the other of the second slide groove and the first guide post, wherein the second slide groove and the first guide post are slidably engaged along the second direction.
[0013] According to a first aspect of this application, the first adjustment frame has a first slot for holding the busbar on the side facing the installation area.
[0014] According to a first aspect of this application, at least one side of the first card slot is provided with a first limiting plate, the first limiting plate being used to abut against the top or bottom wall of the busbar.
[0015] According to a first aspect of this application, the first adjustment assembly further includes an end plate that abuts against the substrate. The end plate is provided with one of a limiting groove and a second limiting post, and the first adjustment frame is provided with the other of the limiting groove and the second limiting post, wherein the limiting groove and the second limiting post are engaged.
[0016] According to a first aspect of this application, the first adjusting frame is provided with one of a second guide post and a third slide along the first direction, and the second adjusting assembly is provided with the other of the second guide post and the third slide along the first direction.
[0017] For the first adjusting frame and the second adjusting component adjacent to the first adjusting frame, the second guide post and the third slide groove slide in a sliding engagement along the first direction.
[0018] According to a first aspect of this application, the second adjustment component includes:
[0019] The second adjustment frame is provided with a fourth sliding groove, which slides in cooperation with the circuit board along the first direction;
[0020] The third adjusting bracket is slidably engaged with the second adjusting bracket along a second direction; wherein the first direction is perpendicular to the second direction.
[0021] According to a first aspect of this application, the third adjusting frame is provided with a third guide post and a fifth sliding groove along the first direction;
[0022] For two adjacent second adjustment components, the third guide post of the third adjustment frame of one second adjustment component slides in conjunction with the fifth slide groove of the third adjustment frame of the other second adjustment component along the first direction.
[0023] According to a first aspect of this application, the second adjusting frame is provided with one of a fourth guide post and a sixth slide groove along the second direction, and the third adjusting frame is provided with the other of the fourth guide post and the sixth slide groove along the second direction, wherein the fourth guide post and the sixth slide groove are slidably engaged along the second direction.
[0024] According to a first aspect of this application, the second adjusting frame is provided with a fourth guide post along the second direction, and the fourth guide post is provided with a plurality of limiting protrusions distributed along the second direction;
[0025] The third adjusting frame is provided with a sixth sliding groove and an assembly groove. Both the sixth sliding groove and the assembly groove extend along the second direction. The sixth sliding groove and the assembly groove are stacked and distributed. The sixth sliding groove and the fourth guide post slide in cooperation along the second direction. The assembly groove is provided with a plurality of limiting holes distributed along the second direction.
[0026] The second adjustment component also includes:
[0027] An elastomer is provided with a plurality of elastic protrusions distributed along the second direction. The elastomer is assembled in the assembly groove. The plurality of elastic protrusions respectively engage with the plurality of limiting holes, and the portion of the elastic protrusions extending out of the limiting holes abuts against the limiting protrusions.
[0028] According to a first aspect of this application, the second adjusting bracket has a second slot for holding the busbar on the side facing the mounting area; and / or,
[0029] The third adjustment frame has a third slot on the side facing the installation area for holding the busbar.
[0030] According to a first aspect of this application, at least one side of the second slot is provided with a second limiting plate, the second limiting plate being used to abut against the top or bottom wall of the busbar; and / or,
[0031] At least one side of the third slot is provided with a third limiting plate, which is used to abut against the top or bottom wall of the busbar.
[0032] Secondly, a battery is also provided, comprising:
[0033] The battery cell has multiple busbars on its top.
[0034] As described in the previous embodiment, the wire harness isolation plate is disposed on the top of the battery cell, and the plurality of mounting areas are respectively matched with the plurality of busbars.
[0035] The wire harness isolation plate and battery provided in this application embodiment can adjust the size of multiple installation areas by sliding between multiple first adjustment components and multiple second adjustment components, sliding between the circuit board and multiple first adjustment components, and sliding between the circuit board and multiple second adjustment components. This allows the installation areas after size adjustment to be adapted to the busbars after size adjustment, avoiding the need to replace different types of wire harness isolation plates, effectively improving assembly efficiency and reducing resource waste. Attached Figure Description
[0036] The above and other objects, features, and advantages of this application will become more apparent from the more detailed description of the embodiments of this application in conjunction with the accompanying drawings. The drawings are provided to further illustrate the embodiments of this application and form part of the specification. They are used together with the embodiments of this application to explain this application and do not constitute a limitation thereof. In the drawings, the same reference numerals generally represent the same components or steps.
[0037] Figure 1 This is a schematic diagram of the structure of a wire harness isolation plate provided for an exemplary embodiment of this application.
[0038] Figure 2 An exploded view of a first adjustment component and a circuit board provided for an exemplary embodiment of this application.
[0039] Figure 3 An exploded view of a first adjustment component provided for an exemplary embodiment of this application.
[0040] Figure 4 An exploded view of a first adjustment frame, a second adjustment frame, and a third adjustment frame provided for an exemplary embodiment of this application.
[0041] Figure 5 An exploded view of two adjacent third adjustment frames provided for an exemplary embodiment of this application.
[0042] Figure 6 An exploded view of a second adjustment component provided for an exemplary embodiment of this application.
[0043] Figure 7 This is a schematic diagram of the structure of a third adjustment frame provided for an exemplary embodiment of this application.
[0044] Reference numerals: 100 - Wire harness isolation plate; 110 - Frame; 111 - First adjustment assembly; 1111 - Base plate; 1112 - First limiting post; 1113 - First adjustment frame; 1114 - Second slide groove; 1115 - First guide post; 1116 - First slot; 1117 - First limiting plate; 1118 - End plate; 1119 - Limiting groove; 1120 - Second limiting post; 1121 - Third slide groove; 113 - Second adjustment assembly; 1131 - Second adjustment frame; 1132 - Fourth slide groove; 1 133-Third Adjustment Frame; 1134-Second Guide Post; 1135-Third Guide Post; 1136-Fifth Slide; 1137-Fourth Guide Post; 1138-Sixth Slide; 1139-Limiting Protrusion; 1140-Assembly Slot; 1141-Limiting Hole; 1142-Elastic Body; 1143-Elastic Protrusion; 1145-Second Slot; 1146-Third Slot; 1147-Second Limiting Plate; 1148-Third Limiting Plate; 120-Circuit Board; 121-First Slide; 130-Installation Area. Detailed Implementation
[0045] Hereinafter, exemplary embodiments according to this application will be described in detail with reference to the accompanying drawings. Obviously, the described embodiments are merely some embodiments of this application, and not all embodiments of this application. It should be understood that this application is not limited to the exemplary embodiments described herein.
[0046] Figure 1 This is a schematic diagram of the structure of a wire harness isolation plate provided for an exemplary embodiment of this application. Figure 1 As shown, the wire harness isolation plate 100 provided in this application embodiment may include a frame 110 and a circuit board 120. The frame 110 includes a plurality of first adjustment components 111 and second adjustment components 113 that slide and cooperate with each other. The circuit board 120 is disposed between the plurality of first adjustment components 111 and the plurality of second adjustment components 113. A plurality of mounting areas 130 may be formed between the circuit board 120, the plurality of first adjustment components 111 and the plurality of second adjustment components 113. The plurality of mounting areas 130 may be used to cooperate with a plurality of busbars (the battery includes a cell, and the top of the cell is provided with a plurality of busbars). The circuit board 120 slides and cooperates with the plurality of first adjustment components 111 and the plurality of second adjustment components 113.
[0047] It should be noted that, in practical applications, the size of the multiple mounting areas 130 can be adjusted by sliding between the multiple first adjustment components 111 and the multiple second adjustment components 113; and / or, the size of the multiple mounting areas 130 can be adjusted by sliding between the circuit board 120 and the multiple first adjustment components 111; and / or, the size of the multiple mounting areas 130 can be adjusted by sliding between the circuit board 120 and the multiple second adjustment components 113.
[0048] It should be understood that in practical applications, for different battery models, the corresponding busbar sizes and quantities are different. By adjusting the size of the mounting area 130, the size of the mounting area 130 can be adapted to the size of the busbar, avoiding the need to replace different types of wire harness isolation plates 100. This can effectively improve assembly efficiency and reduce resource waste.
[0049] In one embodiment, during the process of adjusting the size of the mounting area 130 by sliding the circuit board 120, the first adjustment component 111 and the second adjustment component 113, the size of the overall frame 110 of the wire harness isolation plate 100 can also be changed, so that the wire harness isolation plate 100 can be adapted to batteries with larger sizes and numbers of busbars.
[0050] Figure 2 An exploded view of a first adjustment component and a circuit board provided for an exemplary embodiment of this application. Figure 2 As shown, the circuit board 120 is provided with a first sliding groove 121, and the first adjustment assembly 111 may include a substrate 1111. The substrate 1111 is provided with a first limiting post 1112, and the first limiting post 1112 and the first sliding groove 121 are aligned along a first direction ( Figure 2 The first adjusting bracket 1113 and the base plate 1111 slide in the second direction (in the directions indicated by arrows A and B). Figure 2 The directions indicated by the middle arrows C and D (the second direction is perpendicular to the first direction) are used for sliding fit.
[0051] It should be understood that the first slide groove 121 can guide the first limiting post 1112, prevent the circuit board 120 from deviating from the first direction during the sliding process, and ensure that the moved circuit board 120 can effectively abut and cooperate with the busbar in the installation area 130.
[0052] It should be understood that the moving direction of the first adjustment bracket 1113 is perpendicular to the moving direction of the substrate 1111, and the size of the mounting area 130 can be adjusted in different directions so that the mounting area 130 can accommodate more busbars of different specifications.
[0053] Figure 3 An exploded view of a first adjustment component provided for an exemplary embodiment of this application. Figure 3 As shown, the substrate 1111 is provided with a second slide groove 1114 extending in the second direction, and the first adjustment frame 1113 is provided with a first guide post 1115 extending in the second direction. The second slide groove 1114 and the first guide post 1115 slide in the second direction.
[0054] It should be understood that the second slide 1114 can guide the first guide post 1115, prevent the first adjusting frame 1113 from deviating from the second direction during sliding, and improve the accuracy of the size adjustment of the installation area 130.
[0055] In one embodiment, the substrate 1111 is provided with a first guide post 1115 extending in a second direction, and the first adjustment frame 1113 is provided with a second slide groove 1114 extending in a second direction. The second slide groove 1114 and the first guide post 1115 slide in a second direction, which can prevent the first adjustment frame 1113 from deviating from the second direction during sliding.
[0056] like Figure 3 As shown, the first adjusting bracket 1113 has a first slot 1116 on the side facing the installation area 130. In practical applications, after the busbar is assembled into the installation area 130, the first slot 1116 can hold the busbar, which can limit the busbar and improve the assembly stability of the busbar in the installation area 130.
[0057] like Figure 3 As shown, the first adjustment frame 1113 is L-shaped, and the two corners of the first adjustment frame 1113 are provided with first slots 1116 to limit the busbar in different positions.
[0058] like Figure 3 As shown, at least one side of the first slot 1116 is provided with a first limiting plate 1117. The first limiting plate 1117 can be used to abut against the top wall or bottom wall of the busbar. In this way, the first limiting plate 1117 can limit the busbar and effectively prevent the busbar from leaving the first slot 1116, so that a part of the busbar can be continuously held in the first slot 1116, thereby improving the assembly stability of the busbar.
[0059] In one embodiment, a first limiting plate 1117 is provided on both sides of the first slot 1116. The first limiting plates 1117 on both sides abut against the top wall and bottom wall of the busbar, respectively, which can more firmly limit a part of the busbar within the first slot 1116, thereby further improving the assembly stability of the busbar.
[0060] like Figure 2 and Figure 3As shown, the first adjustment assembly 111 may further include an end plate 1118, which abuts against the base plate 1111. The end plate 1118 is provided with a second limiting post 1120, and the first adjustment frame 1113 is provided with a limiting groove 1119. The limiting groove 1119 engages with the second limiting post 1120, thus fixing the first adjustment frame 1113 onto the end plate 1118. In practical applications, to facilitate the overall transport of the wire harness isolation plate 100, the first adjustment frame 1113 can be fixed onto the end plate 1118 by engaging the limiting groove 1119 with the second limiting post 1120. Subsequently, after confirming the dimensions of the installation area 130 according to the busbar dimensions, the second limiting post 1120 and the limiting groove 1119 can be removed, and the position of the first adjustment frame 1113 can be adjusted along the first direction and / or the second direction.
[0061] In one embodiment, the end plate 1118 is provided with a limiting groove 1119, and the first adjusting frame 1113 is provided with a second limiting post 1120. The limiting groove 1119 and the second limiting post 1120 are engaged, which can also achieve the function of fixing the first adjusting frame 1113 on the end plate 1118.
[0062] Figure 4 An exploded view of a first adjusting frame, a second adjusting frame, and a third adjusting frame provided for an exemplary embodiment of this application. Figure 4 As shown, the first adjustment frame 1113 is provided with a third slide groove 1121 along the first direction, and the second adjustment component 113 is provided with a second guide post 1134 along the first direction. For the first adjustment frame 1113 and the second adjustment component 113 adjacent to the first adjustment frame 1113, the second guide post 1134 and the third slide groove 1121 slide in a sliding fit along the first direction.
[0063] It should be understood that the third slide 1121 can guide the second guide post 1134, prevent the first adjusting frame 1113 and the second adjusting assembly 113 from deviating from the first direction during relative sliding, and improve the accuracy of the size adjustment of the installation area 130.
[0064] In one embodiment, the first adjustment frame 1113 is provided with a second guide post 1134 along the first direction, and the second adjustment assembly 113 is provided with a third slide groove 1121 along the first direction. The third slide groove 1121 and the second guide post 1134 slide in a sliding engagement along the first direction.
[0065] like Figure 4 As shown, the second adjustment assembly 113 may include a second adjustment frame 1131, the second adjustment frame 1131 being provided with a fourth slide groove 1132, the fourth slide groove 1132 being along a first direction ( Figure 4The direction indicated by the middle arrows A and B) is slidably engaged with the circuit board 120, which facilitates the sliding of the second adjustment bracket 1131 relative to the circuit board 120 and makes it easy to quickly adjust the position of the second adjustment bracket 1131 along the first direction.
[0066] like Figure 4 As shown, the second adjustment assembly 113 may further include a third adjustment bracket 1133, which is slidably engaged with the second adjustment bracket 1131 along a second direction. Figure 4 The mounting area 130 can be adjusted in the second direction by sliding relative to the directions indicated by the middle arrows C and D.
[0067] It should be noted that, in one embodiment, the aforementioned second guide post 1134 is provided on the third adjustment frame 1133 that is distributed adjacent to the first adjustment frame 1113.
[0068] Figure 5 An exploded view of two adjacent third adjustment frames provided for an exemplary embodiment of this application. Figure 5 As shown, the third adjustment frame 1133 is provided with a third guide post 1135 and a fifth slide groove 1136 along the first direction. For two adjacent second adjustment components 113, the third guide post 1135 of the third adjustment frame 1133 of one second adjustment component 113 slides and engages with the fifth slide groove 1136 of the third adjustment frame 1133 of the other second adjustment component 113 along the first direction. In this way, the size of the installation area 130 between the two adjacent second adjustment components 113 along the first direction can be adjusted.
[0069] It should be understood that the fifth slide groove 1136 can guide the third guide post 1135 and prevent the adjacent third adjustment frame 1133 from deviating from the first direction during relative sliding, effectively improving the accuracy of the size adjustment of the installation area 130.
[0070] Figure 6 An exploded view of a second adjustment component provided for an exemplary embodiment of this application. Figure 6 As shown, the second adjusting frame 1131 is provided with a fourth guide post 1137 along the second direction, and the third adjusting frame 1133 is provided with a sixth sliding groove 1138 along the second direction. The fourth guide post 1137 and the sixth sliding groove 1138 are slidably engaged along the second direction. In practical applications, by sliding the fourth guide post 1137 relative to the sixth sliding groove 1138, the relative positions of the second adjusting frame 1131 and the third adjusting frame 1133 in the second direction can be adjusted, thereby adjusting the dimensions of the mounting area 130 in the second direction.
[0071] It should be understood that the sixth slide groove 1138 can guide the fourth guide post 1137, preventing the second adjusting frame 1131 and the third adjusting frame 1133 from deviating from the second direction during relative sliding, effectively improving the accuracy of the size adjustment of the installation area 130.
[0072] In one embodiment, the second adjustment frame 1131 is provided with a sixth slide groove 1138 along the second direction, and the third adjustment frame 1133 is provided with a fourth guide post 1137 along the second direction. The fourth guide post 1137 and the sixth slide groove 1138 slide in a sliding engagement along the second direction.
[0073] Figure 7 This is a schematic diagram of the structure of a third adjustment frame provided for an exemplary embodiment of this application. Figure 6 and Figure 7 As shown, the fourth guide post 1137 is provided with a plurality of limiting protrusions 1139 distributed along the second direction, and the third adjusting frame 1133 is also provided with an assembly groove 1140. The aforementioned sixth sliding groove 1138 and the assembly groove 1140 are stacked and distributed. The assembly groove 1140 is provided with a plurality of limiting holes 1141 distributed along the second direction. The limiting holes 1141 connect the sixth sliding groove 1138 and the assembly groove 1140. The second adjusting assembly 113 may further include an elastic body 1142. The elastic body 1142 is provided with a plurality of elastic protrusions 1143 distributed along the second direction. The elastic body 1142 is assembled in the assembly groove 1140. The plurality of elastic protrusions 1143 respectively engage with the plurality of limiting holes 1141, and the portion of the elastic protrusions 1143 extending out of the limiting holes 1141 abuts against the limiting protrusions 1139.
[0074] It should be understood that the limiting hole 1141 can limit the elastic protrusion 1143. Without the action of external force, the elastic protrusion 1143 is not easy to slide relative to the limiting protrusion 1139. By the elastic protrusion 1143 abutting against the limiting protrusion 1139, the second adjusting frame 1131 can be fixed relative to the second adjusting frame 1139.
[0075] In practical applications, by operating the second adjusting bracket 1131 and / or the third adjusting bracket 1133, the relative positions of the second adjusting bracket 1131 and the third adjusting bracket 1133 are adjusted along the second direction, changing the size of the mounting area 130 in the second direction. After adjustment, the elastic protrusion 1143 abuts against the limiting protrusion 1139, ensuring that the second adjusting bracket 1131 is relatively fixed, so that the mounting area 130 maintains the current adjusted size. When further adjustment is needed, an external force can be applied, and the elastic protrusion 1143 and the limiting protrusion 1139 slide relative to each other, realizing the relative sliding of the second adjusting bracket 1131 and the third adjusting bracket 1133.
[0076] In one embodiment, the number of limiting holes 1141 can be two, three, four, etc., and the number of elastic protrusions 1143 can be two, three, four, etc., and the number of limiting holes 1141 and the number of elastic protrusions 1143 are the same and correspond one-to-one.
[0077] In one embodiment, the elastomer 1142 may be selected from the form of a sheet, an elastic rubber strip, etc.
[0078] like Figure 6 As shown, the second adjustment bracket 1131 has a second slot 1145 on the side facing the installation area 130. In practical applications, after the busbar is assembled into the installation area 130, the second slot 1145 can hold the busbar, which can limit the busbar and improve the assembly stability of the busbar in the installation area 130.
[0079] like Figure 6 As shown, the third adjustment bracket 1133 has a third slot 1146 on the side facing the installation area 130. In practical applications, after the busbar is assembled into the installation area 130, the third slot 1146 can hold the busbar, which can limit the busbar and improve the assembly stability of the busbar in the installation area 130.
[0080] like Figure 6 As shown, at least one side of the second slot 1145 is provided with a second limiting plate 1147. The second limiting plate 1147 can be used to abut against the top wall or bottom wall of the busbar. In this way, the second limiting plate 1147 can limit the busbar and effectively prevent the busbar from leaving the second slot 1145, so that a part of the busbar can be continuously held in the second slot 1145, thereby improving the assembly stability of the busbar.
[0081] In one embodiment, a second limiting plate 1147 is provided on both sides of the second slot 1145. The second limiting plates 1147 on both sides abut against the top wall and bottom wall of the busbar, respectively, which can more firmly limit a part of the busbar within the second slot 1145, thereby further improving the assembly stability of the busbar.
[0082] like Figure 6 As shown, at least one side of the third slot 1146 is provided with a third limiting plate 1148. The third limiting plate 1148 can be used to abut against the top wall or bottom wall of the busbar. In this way, the third limiting plate 1148 can limit the busbar and effectively prevent the busbar from leaving the third slot 1146, so that a part of the busbar can be continuously held in the third slot 1146, thereby improving the assembly stability of the busbar.
[0083] In one embodiment, a third limiting plate 1148 is provided on both sides of the third slot 1146. The third limiting plates 1148 on both sides abut against the top wall and bottom wall of the busbar, respectively, which can more firmly limit a part of the busbar in the third slot 1146, thereby further improving the assembly stability of the busbar.
[0084] This application embodiment also provides a battery, which includes a battery cell and a wire harness isolation plate as described in the previous embodiment. The top of the battery cell is provided with multiple busbars, the wire harness isolation plate is provided on the top of the battery cell, and multiple mounting areas respectively cooperate with multiple busbars.
[0085] It should be noted that the battery provided in this application embodiment has all the functions of the wire harness isolation plate described in the foregoing embodiment, and its beneficial effects can be referred to the beneficial effects of the foregoing wire harness isolation plate.
[0086] The basic principles of this application have been described above with reference to specific embodiments. However, it should be noted that the advantages, benefits, and effects mentioned in this application are merely examples and not limitations, and should not be considered as essential features of each embodiment of this application. Furthermore, the specific details disclosed above are for illustrative and facilitative purposes only, and are not limitations. These details do not limit the application to the necessity of employing the aforementioned specific details for implementation.
[0087] The block diagrams of devices, apparatuses, devices, and systems involved in this application are merely illustrative examples and are not intended to require or imply that they must be connected, arranged, or configured in the manner shown in the block diagrams. As those skilled in the art will recognize, these devices, apparatuses, devices, and systems can be connected, arranged, and configured in any manner. Words such as “comprising,” “including,” “having,” etc., are open-ended terms meaning “including but not limited to,” and are used interchangeably with them. The terms “or” and “and” as used herein refer to the terms “and / or,” and are used interchangeably with them unless the context clearly indicates otherwise. The term “such as” as used herein refers to the phrase “such as but not limited to,” and is used interchangeably with it.
[0088] It should also be noted that in the apparatus, equipment, and methods of this application, the components or steps can be disassembled and / or recombined. These disassemblies and / or recombinations should be considered as equivalent solutions of this application.
[0089] The above description of the disclosed aspects is provided to enable any person skilled in the art to make or use this application. Various modifications to these aspects will be readily apparent to those skilled in the art, and the general principles defined herein can be applied to other aspects without departing from the scope of this application. Therefore, this application is not intended to be limited to the aspects shown herein, but rather to be accorded the widest scope consistent with the principles and novel features disclosed herein.
[0090] The above description has been given for purposes of illustration and description. Furthermore, this description is not intended to limit the embodiments of this application to the forms disclosed herein. Although numerous exemplary aspects and embodiments have been discussed above, those skilled in the art will recognize certain variations, modifications, alterations, additions, and sub-combinations thereof.
Claims
1. A wire harness isolation plate, characterized in that, include: The frame (110) includes a plurality of first adjustment components (111) and second adjustment components (113) that slide and cooperate with each other. A circuit board (120) is disposed between a plurality of first adjustment components (111) and a plurality of second adjustment components (113) to form a plurality of mounting areas (130); and the circuit board (120) is slidably fitted to the plurality of first adjustment components (111) and the plurality of second adjustment components (113). The wire harness isolation plate is used to adjust the size of the plurality of mounting areas (130) by sliding relative to each of the plurality of first adjustment components (111) and the plurality of second adjustment components (113), sliding relative to each of the circuit board (120) and the plurality of first adjustment components (111), and sliding relative to each of the circuit board (120) and the plurality of second adjustment components (113). The circuit board (120) is provided with a first groove (121). The first adjustment component (111) includes: The substrate (1111) is provided with a first limiting post (1112); wherein the first sliding groove (121) slides in cooperation with the first limiting post (1112) along a first direction; The first adjustment bracket (1113) is slidably engaged with the substrate (1111) along a second direction; wherein the second direction is perpendicular to the first direction; The second adjustment component (113) includes: The second adjustment frame (1131) is provided with a fourth slide groove (1132), which slides in cooperation with the circuit board (120) along the first direction; the second adjustment frame (1131) is provided with a fourth guide post (1137) along the second direction, which is provided with a plurality of limiting protrusions (1139) distributed along the second direction. The third adjusting frame (1133) is slidably engaged with the second adjusting frame (1131) along the second direction; wherein the first direction is perpendicular to the second direction; the third adjusting frame (1133) is provided with a sixth sliding groove (1138) and an assembly groove (1140), both the sixth sliding groove (1138) and the assembly groove (1140) extend along the second direction, the sixth sliding groove (1138) and the assembly groove (1140) are stacked, the sixth sliding groove (1138) is slidably engaged with the fourth guide post (1137) along the second direction, and the assembly groove (1140) is provided with a plurality of limiting holes (1141) distributed along the second direction. The elastic body (1142) is provided with a plurality of elastic protrusions (1143) distributed along the second direction. The elastic body (1142) is assembled in the assembly groove (1140). The plurality of elastic protrusions (1143) respectively engage with the plurality of limiting holes (1141), and the portion of the elastic protrusion (1143) extending out of the limiting hole (1141) abuts against the limiting protrusion (1139). The third adjustment frame (1133) is provided with a third guide post (1135) and a fifth slide groove (1136) along the first direction. For two adjacent second adjustment components (113), the third guide post (1135) of the third adjustment frame (1133) of one second adjustment component (113) and the fifth slide groove (1136) of the third adjustment frame (1133) of the other second adjustment component (113) slide in the first direction.
2. The wire harness isolation plate according to claim 1, characterized in that, The substrate (1111) is provided with one of a second slide groove (1114) extending along the second direction and a first guide post (1115), and the first adjustment frame (1113) is provided with the other of the second slide groove (1114) and the first guide post (1115), and the second slide groove (1114) and the first guide post (1115) slide in cooperation along the second direction.
3. The wire harness isolation plate according to claim 1, characterized in that, The first adjustment frame (1113) has a first slot (1116) for holding the busbar on the side facing the installation area (130). At least one side of the first slot (1116) has a first limiting plate (1117) for abutting against the top or bottom wall of the busbar.
4. The wire harness isolation plate according to claim 1, characterized in that, The first adjusting frame (1113) is provided with one of a second guide post (1134) and a third slide groove (1121) along the first direction, and the second adjusting assembly (113) is provided with the other of the second guide post (1134) and the third slide groove (1121) along the first direction. For the first adjusting frame (1113) and the second adjusting assembly (113) adjacent to the first adjusting frame (1113), the second guide post (1134) and the third slide groove (1121) slide in the first direction.
5. The wire harness isolation plate according to claim 1, characterized in that, The second adjusting frame (1131) is provided with one of a fourth guide post (1137) and a sixth slide groove (1138) along the second direction, and the third adjusting frame (1133) is provided with the other of the fourth guide post (1137) and the sixth slide groove (1138) along the second direction, and the fourth guide post (1137) and the sixth slide groove (1138) slide in cooperation along the second direction.
6. A battery, characterized in that, include: The battery cell has multiple busbars on its top. The wire harness isolation plate as described in any one of claims 1 to 5 is disposed on the top of the battery cell, and the plurality of mounting areas (130) respectively cooperate with the plurality of busbars.