A liner and box for placement of multi-beam components

By designing an inner lining structure for placing multi-wire harness components, and using the receiving parts and clearance grooves of the horizontal and vertical plates to fix the wire harnesses, the problem of wire harness tangling during transportation is solved, achieving the effect of saving labor for sorting.

CN224393380UActive Publication Date: 2026-06-23JIANGSU YIXIAN NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU YIXIAN NEW MATERIALS CO LTD
Filing Date
2025-05-12
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

In the automobile production process, the wiring harnesses of parts with multiple wiring harnesses are easily tangled during transportation, causing downstream manufacturers to spend a lot of manpower to sort them out, resulting in wasted costs.

Method used

Design an inner lining structure including horizontal and vertical plates to form multiple receiving parts and clearance slots, and fix the wire harness by snap-fit ​​and clearance slots to prevent the wire harness from moving during transportation.

Benefits of technology

It effectively secures the wire harness, prevents tangling, reduces the workload for downstream manufacturers, and saves labor costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to box technology field discloses a kind of for placing lining with multiple wire harness components, including horizontal plate and vertical plate;Wherein, horizontal plate includes first horizontal plate and second horizontal plate;Vertical plate includes first vertical plate and second vertical plate;First horizontal plate, second horizontal plate, first vertical plate and second vertical plate form first accommodating portion, second accommodating portion, third accommodating portion, and first vertical plate is equipped with first avoiding groove, and first avoiding groove is located between second accommodating portion, third accommodating portion. The application discloses a kind of box, and box inside is equipped with for placing lining with multiple wire harness components. The utility model provides a kind of for placing lining with multiple wire harness components and box can be connected to the wire harness of multiple wire harness components, to avoid multiple wire harnesses in the transport process movement, manufacturer receives multiple wire harnesses after having multiple wire harness components, without again arranging multiple wire harnesses, saves artificial cost.
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Description

Technical Field

[0001] This utility model relates to the field of box technology, and in particular to a liner and box for placing components with multiple wire harnesses. Background Technology

[0002] In the automobile manufacturing process, to facilitate assembly, downstream manufacturers generally require upstream manufacturers to install wiring harnesses on the supplied parts. Since there are many wiring harnesses on the parts, during the transportation process of loading parts with multiple wiring harnesses into boxes and sending them to downstream manufacturers, the positions of multiple wiring harnesses inside the boxes are constantly moving, resulting in multiple wiring harnesses getting tangled together. This means that downstream manufacturers need to sort out the multiple wiring harnesses after receiving the parts with multiple wiring harnesses, wasting labor costs.

[0003] Therefore, there is an urgent need for a liner for placing components with multiple wire harnesses to solve the above-mentioned technical problems. Utility Model Content

[0004] The purpose of this invention is to provide an inner liner for placing components with multiple wire harnesses. This solves the problem that during transportation, the multiple wire harnesses move continuously inside the box, causing them to become tangled. This forces downstream manufacturers to sort the multiple wire harnesses upon receiving the components, resulting in wasted labor costs.

[0005] To achieve this objective, the present invention adopts the following technical solution:

[0006] A liner for housing components with multiple wire harnesses, comprising,

[0007] The horizontal plate includes a first horizontal plate and a second horizontal plate, the first horizontal plate and the second horizontal plate are parallel along a first direction and have a gap between them;

[0008] The longitudinal plate includes a first longitudinal plate and a second longitudinal plate, the first longitudinal plate and the second longitudinal plate are parallel along a second direction and have a gap between them;

[0009] Wherein, the first direction and the second direction are perpendicular to each other, the first horizontal plate, the second horizontal plate, the first vertical plate and the second vertical plate form a first receiving part, a second receiving part and a third receiving part, the first vertical plate is provided with a first clearance groove, and the first clearance groove is located between the second receiving part and the third receiving part.

[0010] As an optional solution, the horizontal plate further includes a third horizontal plate and a fourth horizontal plate, the third horizontal plate and the fourth horizontal plate being parallel to each other along a first direction and having a gap between them; the third horizontal plate, the fourth horizontal plate, the first vertical plate and the second vertical plate form a fourth receiving portion, a fifth receiving portion and a sixth receiving portion; the second vertical plate is provided with a second clearance groove, the second clearance groove being located between the fourth receiving portion and the fifth receiving portion.

[0011] As an alternative, the second horizontal plate and the third horizontal plate are parallel to each other along the first direction and are spaced apart. The second horizontal plate, the third horizontal plate, the first vertical plate and the second vertical plate form the seventh receiving part, the eighth receiving part and the ninth receiving part.

[0012] As an alternative, the second horizontal plate is provided with a third clearance groove, which is located between the third receiving portion and the ninth receiving portion; and / or, the third horizontal plate is provided with a fourth clearance groove, which is located between the sixth receiving portion and the ninth receiving portion, and the third clearance groove and the fourth clearance groove are arranged opposite to each other.

[0013] As an alternative, the second horizontal plate is provided with a fifth clearance groove, which is located between the second receiving portion and the eighth receiving portion; and / or, the third horizontal plate is provided with a sixth clearance groove, which is located between the fifth receiving portion and the eighth receiving portion.

[0014] As an alternative, the second horizontal plate is provided with a seventh clearance groove, which is located between the first receiving portion and the seventh receiving portion; and / or, the third horizontal plate is provided with an eighth clearance groove, which is located between the third receiving portion and the seventh receiving portion, and the seventh clearance groove and the eighth clearance groove are arranged opposite to each other.

[0015] As an alternative, the first longitudinal plate is provided with a ninth clearance groove, which is located between the eighth and ninth receiving portions, and / or the second longitudinal plate is provided with a tenth clearance groove, which is located between the seventh and eighth receiving portions.

[0016] As an alternative, a partition is also included, which is disposed at the lower end of the horizontal and vertical plates and is opposite to the first clearance groove.

[0017] As an alternative, the second receiving portion and the fifth receiving portion are each provided with a protective pad, the protective pad being adjacent to the partition, and the protective pad having a snap-fit ​​groove.

[0018] This application also provides a box, including a bottom plate, a side plate, and a liner as described in any one of the claims for placing components with multiple wire harnesses, the liner for placing components with multiple wire harnesses is disposed inside the box, the side plate is provided with an opening for retrieving items and a baffle, the baffle being used to open or close the opening for retrieving items.

[0019] This utility model has at least the following beneficial effects:

[0020] This utility model provides an inner liner and box for placing multiple wire harness components, which can clamp the wire harnesses with multiple wire harness components, thereby preventing multiple wire harnesses from moving during transportation. After receiving the multiple wire harness components, the manufacturer does not need to reorganize the multiple wire harnesses, saving labor costs. Attached Figure Description

[0021] To more clearly illustrate the technical solutions in the embodiments of this utility model, the accompanying drawings used in the description of the embodiments of this utility model will be briefly introduced below.

[0022] Figure 1 A schematic diagram of a structure for placing a liner with multiple wire harness components, provided for an embodiment of this utility model;

[0023] Figure 2 A schematic diagram of the structure of the protective pad provided in the embodiment of this utility model;

[0024] Figure 3 This is a structural schematic diagram of a box provided for an embodiment of the present utility model.

[0025] Figure label:

[0026] 1. First horizontal plate; 2. Second horizontal plate; 21. Third clearance groove; 22. Fifth clearance groove; 23. Seventh clearance groove; 3. Third horizontal plate; 31. Fourth clearance groove; 32. Sixth clearance groove; 33. Eighth clearance groove; 4. Fourth horizontal plate; 5. First vertical plate; 51. First clearance groove; 52. Ninth clearance groove; 6. Second vertical plate; 61. Second clearance groove; 62. Tenth clearance groove; 7. Partition plate; 8. Protective pad; 81. Snap-fit ​​groove; 9. Enclosure plate; 91. Baffle plate. Detailed Implementation

[0027] In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, the specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this utility model, but are not intended to limit the scope of this utility model.

[0028] In the existing technology, during the automobile production process, in order to facilitate assembly by manufacturers, downstream manufacturers generally require upstream manufacturers to install wiring harnesses on the provided parts. Since there are many wiring harnesses on the parts, during the transportation process of upstream manufacturers packing parts with multiple wiring harnesses into the box and sending them to downstream manufacturers, the positions of multiple wiring harnesses inside the box are constantly moving, resulting in multiple wiring harnesses getting tangled together. This means that downstream manufacturers need to sort out the multiple wiring harnesses after receiving the parts with multiple wiring harnesses, which wastes labor costs.

[0029] Therefore, such as Figures 1 to 2 As shown, an embodiment of this utility model provides a liner for placing components with multiple wire harnesses, in order to solve the above-mentioned technical problems.

[0030] A liner for accommodating components with multiple wire harnesses includes a horizontal plate and a vertical plate. The horizontal plate includes a first horizontal plate 1 and a second horizontal plate 2, which are parallel along a first direction and spaced apart. The vertical plate includes a first vertical plate 5 and a second vertical plate 6, which are parallel along a second direction and spaced apart. The first and second directions are perpendicular to each other. The "components with multiple wire harnesses" refers to a component having multiple wire harnesses. The first horizontal plate 1 and the second horizontal plate 2 are respectively provided with slots, which are respectively engaged with the first vertical plate 5 and the second vertical plate 6, so that the first horizontal plate 1, the second horizontal plate 2, the first vertical plate 5, and the second vertical plate 6 form a first receiving portion, a second receiving portion, and a third receiving portion. Alternatively, the first vertical plate 5 and the second vertical plate 6 can also be provided with slots, which are respectively engaged with the first horizontal plate 1 and the second horizontal plate 2, so that the first horizontal plate 1, the second horizontal plate 2, the first vertical plate 5, and the second vertical plate 6 form a first receiving portion, a second receiving portion, and a third receiving portion. The system comprises a first receiving section, a second receiving section, and a third receiving section. Multiple wire harness components are placed inside the second receiving section. The spacing between the first horizontal plate 1 and the second horizontal plate 2, and the spacing between the first vertical plate 5 and the second vertical plate 6, can be determined based on the volume of the multiple wire harness components, ensuring that the first horizontal plate 1, the second horizontal plate 2, the first vertical plate 5, and the second vertical plate 6 respectively abut against the multiple wire harness components, thereby preventing the multiple wire harness components from moving within the second receiving section during transportation. The first vertical plate 5 is provided with a first clearance groove 51, located between the second and third receiving sections. The first clearance groove 51 can be a U-shaped groove, the specific size of which can be determined based on the diameter of the wire harness. Multiple wire harnesses extend from the second receiving section into the third receiving section through the first clearance groove 51, and can be secured within the first clearance groove 51, thus preventing the multiple wire harnesses from moving during transportation. Therefore, when the manufacturer receives the multiple wire harness components, there is no need to reorganize the multiple wire harnesses, saving labor costs.

[0031] In some embodiments, to share the first longitudinal plate 5 and the second longitudinal plate 6 and reduce the manufacturing cost of producing the liner of this application, the horizontal plate further includes a third horizontal plate 3 and a fourth horizontal plate 4. The third horizontal plate 3 and the fourth horizontal plate 4 are parallel to each other along a first direction and have a gap between them. The third horizontal plate 3, the fourth horizontal plate 4, the first longitudinal plate 5, and the second longitudinal plate 6 form a fourth receiving portion, a fifth receiving portion, and a sixth receiving portion. The connection method between the third horizontal plate 3, the fourth horizontal plate 4, the first longitudinal plate 5, and the second longitudinal plate 6 is the same as the connection method between the first horizontal plate 1, the second horizontal plate 2, the first longitudinal plate 5, and the second longitudinal plate 6, and will not be described again here. Multiple wire harness components are placed inside the fifth receiving portion. The third horizontal plate 3, the fourth horizontal plate 4, the first longitudinal plate 5, and the second longitudinal plate 6 are connected in the same way as the first horizontal plate 1, the second horizontal plate 2, the first longitudinal plate 5, and the second longitudinal plate 6. The horizontal plate 4, the first vertical plate 5, and the second vertical plate abut against the multi-wire harness component, thereby ensuring that the multi-wire harness component cannot move within the fifth receiving section during transportation. The second vertical plate 6 is provided with a second clearance groove 61, which is located between the fourth and fifth receiving sections. The second clearance groove 61 can be a U-shaped groove, and its specific size can be determined according to the diameter of the wire harness. Multiple wire harnesses extend from the fifth receiving section into the fourth receiving section through the second clearance groove 61. The multiple wire harnesses can be locked within the second clearance groove 61, thereby preventing the multiple wire harnesses from moving during transportation. Therefore, when the manufacturer receives the multi-wire harness component, there is no need to reorganize the multiple wire harnesses, saving labor costs.

[0032] In some embodiments, for storing other parts, the second horizontal plate 2 and the third horizontal plate 3 are parallel to each other along a first direction and are spaced apart. The second horizontal plate 2, the third horizontal plate 3, the first vertical plate 5, and the second vertical plate 6 form a seventh receiving part, an eighth receiving part, and a ninth receiving part. The connection method between the second horizontal plate 2, the third horizontal plate 3, the first vertical plate 5, and the second vertical plate 6 is the same as the connection method between the first horizontal plate 1, the second horizontal plate 2, the first vertical plate 5, and the second vertical plate 6, and will not be described again here. Other parts can be placed in the seventh receiving part, the eighth receiving part, and the ninth receiving part.

[0033] In some embodiments, for multi-wire harness components with long wire harnesses, one end of the second horizontal plate 2 is provided with a third clearance groove 21, which is located between the third receiving portion and the ninth receiving portion; one end of the third horizontal plate 3 is provided with a fourth clearance groove 31, which is located between the sixth receiving portion and the ninth receiving portion. The third clearance groove 21 and the fourth clearance groove 31 are arranged opposite to each other. In this way, the multi-wire harness component placed inside the second receiving portion can be placed in the second receiving portion, the ninth receiving portion, and the sixth receiving portion, and can be snapped in place by the first clearance groove 51, the third clearance groove 21, and the fourth clearance groove 31. Of course, the third clearance groove 21 can be provided alone.

[0034] In some embodiments, the other end of the second horizontal plate 2 may be provided with a seventh clearance groove 23, which is located between the first receiving portion and the seventh receiving portion. The other end of the third horizontal plate 3 is provided with an eighth clearance groove 33, which is located between the third receiving portion and the seventh receiving portion. The seventh clearance groove 23 and the eighth clearance groove 33 are arranged opposite to each other. In this way, the wire harness with multi-wire harness components placed inside the fourth receiving portion can be placed in the fourth receiving portion, the seventh receiving portion, and the first receiving portion, and can be snapped together by the second clearance groove 61, the eighth clearance groove 33, and the seventh clearance groove 23. Of course, the eighth clearance groove 33 can be provided separately.

[0035] In some embodiments, the middle part of the second horizontal plate 2 is provided with a fifth clearance groove 22, which is located between the second receiving portion and the eighth receiving portion. In this way, a wire harness with multiple wire harness components placed in the second receiving portion can be placed in the eighth receiving portion and can be snapped in place by the fifth clearance groove 22. The middle part of the third horizontal plate 3 may also be provided with a sixth clearance groove 32, which is located between the fifth receiving portion and the eighth receiving portion. In this way, a wire harness with multiple wire harness components placed in the fifth receiving portion can be placed in the eighth receiving portion and can be snapped in place by the sixth clearance groove 32.

[0036] In some embodiments, for multi-wire harness components with long wire harnesses, the first vertical plate 5 is provided with a ninth clearance groove 52, which is located between the eighth and ninth receiving portions. In this way, the wire harness with multi-wire harness components placed inside the second receiving portion can be placed inside the eighth and ninth receiving portions and can be snapped in place by the fifth clearance groove 22 and the ninth clearance groove 52. The second vertical plate 6 is provided with a ninth clearance groove 52, which is located between the seventh and eighth receiving portions. In this way, the wire harness with multi-wire harness components placed inside the fourth receiving portion can be placed inside the eighth and seventh receiving portions and can be snapped in place by the fifth clearance groove 22 and the ninth clearance groove 52.

[0037] In some embodiments, in order to provide multiple layers of the lining of this application for placing components with multiple wire harnesses inside the box, this application also includes a partition 7, which is disposed at the lower end of the horizontal and vertical plates, and the partition 7 is opposite to the first clearance groove 51.

[0038] In some embodiments, the second receiving portion and the fifth receiving portion are respectively provided with protective pads 8, the protective pads 8 are adjacent to the partition 7, and the protective pads 8 are provided with snap-fit ​​grooves 81, so that at least some of the multi-wire harness components can be placed in the snap-fit ​​grooves 81.

[0039] This application also provides a box, such as Figure 3As shown, it includes a base plate, a side plate 9, and an inner liner for placing components with multiple wire harnesses. The inner liner for placing components with multiple wire harnesses is located inside the box. The side plate 9 has a retrieval opening and a baffle 91. The baffle 91 and the side plate 9 may be hinged. The baffle 91 is used to open or close the retrieval opening to facilitate the placement of components with multiple wire harnesses in the inner liner.

[0040] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A liner for accommodating components with multiple wire harnesses, characterized in that, include, The horizontal plate includes a first horizontal plate (1) and a second horizontal plate (2), the first horizontal plate (1) and the second horizontal plate (2) are parallel to each other along a first direction and have a gap between them; The longitudinal plate includes a first longitudinal plate (5) and a second longitudinal plate (6), the first longitudinal plate (5) and the second longitudinal plate (6) are parallel to each other along a second direction and have a gap between them; Wherein, the first direction is perpendicular to the second direction, the first horizontal plate (1), the second horizontal plate (2), the first vertical plate (5) and the second vertical plate (6) form a first receiving part, a second receiving part and a third receiving part, the first vertical plate (5) is provided with a first clearance groove (51), the first clearance groove (51) is located between the second receiving part and the third receiving part.

2. A liner for accommodating components with multiple wire harnesses according to claim 1, characterized in that, The horizontal plate also includes a third horizontal plate (3) and a fourth horizontal plate (4). The third horizontal plate (3) and the fourth horizontal plate (4) are parallel to each other along a first direction and have a gap between them. The third horizontal plate (3), the fourth horizontal plate (4), the first vertical plate (5) and the second vertical plate (6) form a fourth receiving part, a fifth receiving part and a sixth receiving part. The second vertical plate (6) is provided with a second clearance groove (61), which is located between the fourth receiving part and the fifth receiving part.

3. A liner for placing components with multiple wire harnesses according to claim 2, characterized in that, The second horizontal plate (2) and the third horizontal plate (3) are parallel to each other in the first direction and there is a gap between them. The second horizontal plate (2), the third horizontal plate (3), the first vertical plate (5) and the second vertical plate (6) form the seventh receiving part, the eighth receiving part and the ninth receiving part.

4. A liner for accommodating components with multiple wire harnesses according to claim 3, characterized in that, The second horizontal plate (2) is provided with a third clearance groove (21), which is located between the third receiving part and the ninth receiving part; and / or, the third horizontal plate (3) is provided with a fourth clearance groove (31), which is located between the sixth receiving part and the ninth receiving part, and the third clearance groove (21) and the fourth clearance groove (31) are arranged opposite to each other.

5. A liner for placing components with multiple wire harnesses according to claim 3, characterized in that, The second horizontal plate (2) is provided with a fifth clearance groove (22), which is located between the second receiving part and the eighth receiving part; and / or, the third horizontal plate (3) is provided with a sixth clearance groove (32), which is located between the fifth receiving part and the eighth receiving part.

6. A liner for placing components with multiple wire harnesses according to claim 3, characterized in that, The second horizontal plate (2) is provided with a seventh clearance groove (23), which is located between the first receiving part and the seventh receiving part; and / or, the third horizontal plate (3) is provided with an eighth clearance groove (33), which is located between the third receiving part and the seventh receiving part, and the seventh clearance groove (23) and the eighth clearance groove (33) are arranged opposite to each other.

7. A liner for placing components with multiple wire harnesses according to claim 3, characterized in that, The first longitudinal plate (5) is provided with a ninth clearance groove (52), which is located between the eighth receiving part and the ninth receiving part, and / or the second longitudinal plate (6) is provided with a tenth clearance groove (62), which is located between the seventh receiving part and the eighth receiving part.

8. A liner for placing components with multiple wire harnesses according to any one of claims 2 to 7, characterized in that, It also includes a partition (7), which is disposed at the lower end of the horizontal plate and the vertical plate, and the partition (7) is opposite to the first clearance groove (51).

9. A liner for accommodating components with multiple wire harnesses according to claim 8, characterized in that, The second receiving part and the fifth receiving part are respectively provided with protective pads (8), the protective pads (8) are adjacent to the partition (7), and the protective pads (8) are provided with snap-fit ​​grooves (81).

10. A box, characterized in that, The package includes a base plate, a side panel (9), and a liner for placing components with multiple wire harnesses as described in any one of claims 1 to 9. The liner for placing components with multiple wire harnesses is disposed inside the box. The side panel (9) is provided with an opening for taking out items and a baffle (91). The baffle (91) is used to open or close the opening for taking out items.