CN112720375B - Wire harness collator and workbench - Google Patents

Abstract

The utility model discloses a wire harness collator and a workbench, comprising: the two flexible plate-shaped structures are oppositely arranged, one ends of the two plate-shaped structures are fixedly arranged, a containing space for containing the wire harness is defined between the two plate-shaped structures, a plurality of openings for the wire harness to enter and exit are formed in the containing space at the edge of the plate-shaped structures, and the openings are arranged at intervals and are communicated with the containing space; at least one limiting structure that limits the minimum spacing between the two plate-like structures but not the maximum spacing between the two plate-like structures. The utility model can realize the entry or the extraction of a plurality of positions of the wire harness.

Description

Wire harness collator and workbench

Technical Field

The utility model relates to the technical field of wire harness collators, in particular to a wire harness collator and a workbench comprising the same.

Background

The existing wire organizer can only comb wire harnesses in a single direction, for example, an utility model patent with publication number of CN205595719U is provided with a centrally installed cabinet of the wire organizer. In the case where a large number of wire harnesses are required to be frequently fed in and fed out and sorted in a plurality of directions, such a wire sorter is obviously difficult to satisfy the use requirements. On the other hand, such wire organizers typically have a fixed diameter raceway for receiving individual wires or harnesses, which cannot be adjusted according to the actual size of the harness.

Disclosure of Invention

In view of the above, an object of the present utility model is to provide a wire harness organizer capable of achieving wire feeding and wire discharging in a plurality of directions, and a work table including the wire harness organizer.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

a wire harness organizer, comprising:

the flexible plate-shaped structures are arranged oppositely, one ends of the two plate-shaped structures are fixedly arranged, a containing space for containing the wire harness is defined between the two plate-shaped structures, a plurality of openings for the wire harness to enter and exit are formed in the edge of the plate-shaped structures, and the openings are arranged at intervals and are communicated with the containing space;

at least one limiting structure, at least one limiting structure limits the minimum distance between two plate-shaped structures but not the maximum distance between the two plate-shaped structures.

The wire harness collator is characterized in that the limiting structure is formed by extending opposite surfaces of the two plate-shaped structures towards opposite directions.

The wire harness collator comprises one limiting structure, wherein the limiting structure is formed by extending one surface of two plate-shaped structures, which are opposite to each other, to the other surface, and a gap is formed between the end part of the limiting structure and the other surface;

or the limiting structure comprises two limiting structures which are arranged opposite to each other, wherein the two limiting structures are formed by extending opposite surfaces of the two plate-shaped structures, and a gap is reserved between the end parts of the two limiting structures.

The above-mentioned pencil organizer, wherein, limit structure is platy or strip, limit structure possesses: a wider base connected to the plate-like structure and a narrower end facing away from the plate-like structure;

more preferably, the longitudinal section of the limiting structure is triangular;

more preferably, the longitudinal section of the limiting structure is in a right triangle shape;

more preferably, the right-angle side of the longitudinal section of the limiting structure faces the accommodating space, and the oblique side of the longitudinal section of the limiting structure faces away from the accommodating space.

The wire harness collator, wherein the limit structure is positioned at the edge of the plate-shaped structure;

a gap is reserved between two adjacent limit structures on the same plate-shaped structure;

a gap is formed between the end parts of the two adjacent and opposite limiting structures between the two plate-shaped structures;

the openings are defined between four adjacent limit structures of the two plate-like structures.

The wire harness collator comprises a limiting structure, wherein the limiting structure is columnar, the limiting structure is located at the center of the platy structure, and a gap is reserved between the ends of the limiting structure.

The above-mentioned wire harness organizer, wherein a plurality of the openings include: a first opening positioned at one side of the accommodating space, a second opening positioned at the lower side of the other side of the accommodating space, and a third opening positioned at the upper side of the other side of the accommodating space.

The above-mentioned pencil organizer, wherein, limit structure includes:

the two opposite first plate-shaped limiting structures are positioned at the upper ends of the plate-shaped structures;

the two opposite second plate-shaped limiting structures are positioned on the other side of the plate-shaped structures;

the two opposite columnar limit structures are positioned in the middle of the platy structure;

more preferably, the method further comprises:

two fixing structures which are arranged oppositely and are connected mutually, wherein the two fixing structures are positioned at the lower end of the plate-shaped structure;

the first opening is formed between the first plate-shaped limiting structure and the fixed structure, the second opening is formed between the lower end of the second plate-shaped limiting structure and the fixed structure, and the third opening is formed between the upper end of the second plate-shaped limiting structure and the first plate-shaped structure.

In the wire harness collator, the columnar limiting structure limits the accommodating space to be an annular space;

a first channel is formed between the first opening and the third opening, a second channel is formed between the first opening and the second opening, and a third channel is formed between the second opening and the third opening;

more preferably, the first channel is disposed obliquely upward from the first opening to the second opening, the second channel is disposed horizontally, and the third channel is disposed vertically.

The workbench comprises a workbench body with an inner space, and one or more wire harness collators, wherein one side of each wire harness collator is fixed on the workbench body through a fixing structure, and the accommodating space of each wire harness collator is communicated with the inner space of the workbench body.

More preferably, the wire harness arranging device comprises a plurality of wire harness arranging devices, and the plurality of wire harness arranging devices are arranged side by side.

The workbench is characterized in that grooves are formed along the outer edges of the surfaces of each plate-shaped structure, which are opposite to each other, the grooves enable the edges of the plate-shaped structures to form step structures, and the step structures protrude out of the limiting structures.

The workbench comprises a plurality of plate-shaped structures, wherein the outer edges of the surfaces of the plate-shaped structures, which are opposite to each other, extend in the direction opposite to each other to form a supporting structure;

more preferably, the support structure is located at the lower end of the plate-like structure and/or at the other side of the plate-like structure.

The workbench, wherein the workbench further comprises: the wire harness collators are arranged in the back plate gaps;

more preferably, two ends of the back plate extend to the inner space of the workbench body to form buckling strips, and the buckling strips are matched with the step structure;

more preferably, the support structure is supported on the back plate.

The utility model adopts the technology, so that compared with the prior art, the utility model has the positive effects that:

(1) The utility model can realize the entry or the extraction of a plurality of positions of the wire harness.

(2) The utility model allows the wire harness to be arranged arbitrarily in the accommodating space, while the plate-like structure is deformed adaptively according to the size of the wire harness to protect the wire harness.

(3) The utility model limits the minimum spacing of the plate-shaped structures by arranging the limiting structures so as to provide flexible and strong support for the plate-shaped structures 1 to protect the wire harness.

(4) According to the utility model, different support requirements of the plate-shaped structure at each position are realized by arranging different types of limiting structures.

(5) The utility model divides the accommodating space in the plate-shaped structure into a plurality of channels through the limiting structure arranged at the edge of the plate-shaped structure 1 and the limiting structure arranged in the middle of the plate-shaped structure so as to guide and arrange the wire harness to enter and be led out.

Drawings

Fig. 1 is a schematic view of a work table of the present utility model.

Fig. 2 is an enlarged view of a portion of the table of the present utility model.

Fig. 3 is an enlarged view of a portion of the table of the present utility model.

Fig. 4 is a partial enlarged view of the wire harness organizer of the work table of the present utility model.

Fig. 5 is a schematic view of the wire harness organizer of the present utility model.

Fig. 6 is a schematic view of the wire harness organizer of the present utility model.

Fig. 7 is a schematic view of the wire harness organizer of the present utility model.

Fig. 8 is a schematic view of the wire harness organizer of the present utility model.

Fig. 9 is a schematic view of the wire harness organizer of the present utility model.

Fig. 10 is a schematic view of the wire harness organizer of the present utility model.

Fig. 11 is a schematic view of the wire harness organizer of the present utility model.

Fig. 12 is a partial schematic structural view of the wire harness organizer of the present utility model.

Fig. 13 is a partial schematic structural view of the wire harness organizer of the present utility model.

In the accompanying drawings: 1. a plate-like structure; 11. a groove; 12. a support structure; 2. a limit structure; 21. a first plate-shaped limit structure; 22. a second plate-shaped limit structure; 23. a columnar limit structure; 31. a first opening; 32. a second opening; 33. a third opening; 4. a fixed structure; 5. a workbench body; 6. a workbench backboard; a. a first channel; b. a second channel; c. and a third channel.

Detailed Description

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that, if terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like are used, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, only for convenience of describing the present utility model and simplifying the description, and does not indicate or imply that the indicated apparatus or element must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," "third," and the like, as used herein, are used for descriptive purposes only and are not to be construed as indicating or implying any relative importance.

It should be further noted that "one side" of the present utility model generally refers to the side facing the interior space of the table body, and "another side" of the present utility model generally refers to the side facing away from the interior space of the table body. The "upper end" or "upper side" and the like of the present utility model generally refer to the end or side of the table surface in the upward direction, and the "lower end" or "lower side" and the like of the present utility model generally refer to the end or side of the table surface in the downward direction.

It should also be noted that the table of the present utility model may be a single table or a small table disposed on a table surface.

Fig. 1 is a schematic view of a work table of the present utility model, fig. 2 is a partial enlarged view of the work table of the present utility model, fig. 3 is a partial enlarged view of a wire harness organizer of the present utility model, fig. 4 is a schematic view of the wire harness organizer of the present utility model, fig. 6 is a schematic view of the wire harness organizer of the present utility model, fig. 7 is a schematic view of the wire harness organizer of the present utility model, fig. 8 is a schematic view of the wire harness organizer of the present utility model, fig. 9 is a schematic view of the wire harness organizer of the present utility model, fig. 10 is a schematic view of the wire harness organizer of the present utility model, fig. 11 is a schematic view of a partial structure of the wire harness organizer of the present utility model, fig. 13 is a schematic view of a partial structure of the wire harness organizer of the present utility model, please refer to fig. 1 to 13, showing a preferred embodiment of the wire harness organizer comprising: two flexible plate-shaped structures 1 which are oppositely arranged are fixedly arranged at one ends of the two plate-shaped structures 1, a containing space for containing the wire harness is limited between the two plate-shaped structures 1, a plurality of openings for the wire harness to enter and exit are formed in the edge of the plate-shaped structure 1, and the openings are arranged at intervals and are communicated with the containing space. Since the plate-like structure 1 has a certain flexibility, the shape of the plate-like structure 1 can be spontaneously and adaptively changed in topography according to the wire harness accommodated therein, thereby having a better protective effect. On the other hand, since the plurality of openings are provided, the inlet and the outlet of the wire harness can be arbitrarily selected from two of the plurality of openings, with a large degree of freedom in selection.

Further, as a preferred embodiment, the wire harness organizer further includes: at least one spacing structure 2, the at least one spacing structure 2 limiting the minimum spacing between the two plate-like structures 1 and not limiting the maximum spacing between the two plate-like structures 1. It should be noted that, the limitation of the minimum distance between the two plate-like structures 1 may be regarded as a precise limitation, or may be regarded as a limitation of elasticity within a certain range. In some embodiments, the limiting structure 2 is a rigid member, so that a precise limitation can be achieved, and in other embodiments, the limiting structure 2 is a resilient member, so that a resilient, limited range can be achieved.

In addition, since the plate-like structures 1 have a certain area, and the plate-like structures 1 are also one flexible structure, the minimum pitch between the limiting plate-like structures 1 may be regarded as the minimum pitch of one of the positions of the plate-like structures 1, or may be regarded as the minimum pitch of a plurality of positions of the plate-like structures 1.

It should be noted that the limiting structure 2 has a certain guiding function for the wire harness in addition to the minimum distance between the plate-like structures 1, the wire harness being limited by the limiting structure 2 in the receiving space or in some specific position in the receiving space.

Preferably, the limiting structure 2 is also made of flexible material.

Further, as a preferred embodiment, the limiting structure 2 is formed by extending the mutually facing surfaces of the two plate-like structures 1 in mutually facing directions.

In one preferred embodiment, the device comprises a limiting structure 2, wherein the limiting structure 2 is formed by extending one surface of two plate-shaped structures 1 opposite to each other to the other surface, and a gap is formed between the end part of the limiting structure 2 and the other surface.

In another preferred embodiment, the device comprises two limiting structures 2 which are arranged opposite to each other, wherein the two limiting structures 2 are formed by extending opposite surfaces of the two plate-shaped structures 1 opposite to each other, and a gap is reserved between the end parts of the two limiting structures 2.

Further, as a preferred embodiment, the limiting structure 2 is plate-shaped or bar-shaped, and the limiting structure 2 includes: a wider base connected to the plate-like structure 1, and a narrower end facing away from the plate-like structure 1.

More preferably, the longitudinal section of the limiting structure 2 is triangular.

More preferably, the longitudinal section of the limiting structure 2 is in a right triangle shape.

More preferably, the right-angle side of the longitudinal section of the limiting structure 2 faces the accommodating space, and the oblique side of the longitudinal section of the limiting structure 2 faces away from the accommodating space. Referring specifically to fig. 5, the longitudinal section of the right triangle forms a wider base while forming a narrower end. The wider base portion enables the limit structure 2 to be firmly connected with the plate-shaped structure 1, and meanwhile is not easy to bend along the radial direction of the limit structure 2, so that the limit structure 2 has certain toughness. Meanwhile, the narrower end parts enable the two opposite limiting structures 2 to be staggered and overlapped to a certain extent under the condition that the two opposite limiting structures 2 are subjected to the force in the opposite direction along the direction from the left upper part to the right lower part in fig. 5, so that the limiting structures have the function of limiting the minimum distance between the two plate-shaped structures 1, and also have certain redundancy so that the structures are not damaged.

It should be noted that in the embodiment shown in fig. 5, the central cylindrical limit structure 23 (see in particular the description below) has a planar end surface, and the minimum distance between the two plate-like structures 1 is determined when the end surfaces of the two cylindrical limit structures 23 abut. In the embodiment shown in fig. 5, the minimum distance in the middle of the two plate-like structures 1 is thus absolutely determined, whereas the minimum distance at the edges of the two plate-like structures 1 is provided with a certain redundancy by the above-mentioned structures.

Of course, the end surfaces of the columnar stopper structures 23 are not necessarily limited to be flat surfaces, and may be wavy, zigzag, or the like, which mesh with each other. In this case, the columnar stopper structure 23 has a more accurate stopper function.

Further, as a preferred embodiment, the limiting structure 2 is located at the edge of the plate-like structure 1; a gap is reserved between two adjacent limit structures 2 on the same plate-shaped structure 1; a gap is arranged between the end parts of the two adjacent and opposite limiting structures 2 between the two plate-shaped structures 1; the openings are defined between four adjacent limit structures 2 of the two plate-like structures 1.

Further, as a preferred embodiment, the limiting structure 2 is in a column shape, the limiting structure 2 is located at the center of the plate-shaped structure 1, and a gap is formed between the ends of the limiting structure 2. The gap enables the ends of the limiting structure 2 to be folded under pressure or pulled to be separated. The specific width of the gap can be set according to actual needs.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the embodiments and the protection scope of the present utility model.

The present utility model has the following embodiments based on the above description:

in a further embodiment of the present utility model, the plurality of openings include: a first opening 31 at one side of the receiving space, a second opening 32 at the lower side of the other side of the receiving space, and a third opening 33 at the upper side of the other side of the receiving space.

In a further embodiment of the present utility model, the limiting structure 2 includes: the two first plate-shaped limiting structures 21 are oppositely arranged, and the two first plate-shaped limiting structures 21 are located at the upper ends of the plate-shaped structures 1.

In a further embodiment of the present utility model, the limiting structure 2 includes: two second plate-shaped limiting structures 22 are oppositely arranged, and the two second plate-shaped limiting structures 22 are positioned on the other side of the plate-shaped structure 1.

In a further embodiment of the present utility model, the limiting structure 2 includes: two opposite columnar limit structures 23, two columnar limit structures 23 are located at the middle part of the platy structure.

More preferably, the wire harness organizer further includes: two oppositely arranged and mutually connected fixing structures 4, wherein both fixing structures 4 are positioned at the lower end of the plate-shaped structure 1.

Wherein, a first opening 31 is formed between the first plate-shaped limiting structure 21 and the fixed structure 4, a second opening 32 is formed between the lower end of the second plate-shaped limiting structure 22 and the fixed structure 4, and a third opening 33 is formed between the upper end of the second plate-shaped limiting structure 22 and the first plate-shaped structure 21.

In a further embodiment of the present utility model, the cylindrical limiting structure 23 defines the accommodating space as an annular space; wherein, a first channel a is formed between the first opening 31 and the third opening 33, a second channel b is formed between the first opening 31 and the second opening 32, and a third channel c is formed between the second opening 32 and the third opening 33.

More preferably, the first channel a is disposed obliquely upward from the first opening 31 to the second opening 32, the second channel b is disposed horizontally or substantially horizontally, and the third channel c is disposed vertically or substantially vertically. Wherein, the inclined upward refers to the direction of the first channel a in fig. 12, the horizontal arrangement refers to the direction of the second channel b in fig. 12, and the vertical arrangement refers to the direction of the third channel c in fig. 12.

In the above-described embodiment, the first plate-like stopper structure 21, the second plate-like stopper structure 22 and the columnar stopper structure 23 are only one preferred embodiment, and in practice, the number and position of the plate-like stopper structures may be optional, and the number and position of the columnar stopper structures may be optional. However, it is generally considered preferable that the plate-like spacing structure is provided at the edge of the plate-like structure 1, and that the columnar spacing structure is provided in the middle of the plate-like structure 1. Since in this case the middle part of the plate-like structure 1 has a strong support, making it less prone to collapse, with a better protection of the wire harness, while the edges of the plate-like structure 1 have a certain redundancy to adapt to the specific situation. This is because the wire harness is easily concentrated around the columnar limit structure in the middle portion in a general use case, and the number of wire harnesses near the edge of the plate-like structure 1 is small.

Preferably, the first plate-shaped limiting structure 21, the second plate-shaped limiting structure 22 and the columnar limiting structure 23 are made of flexible materials. In one embodiment, the flexibility of the first plate-shaped limiting structure 21 and the second plate-shaped limiting structure 22 is stronger than that of the columnar limiting structure 23.

In a further embodiment of the present utility model, there is further provided a workbench, wherein the workbench comprises a workbench body 5 having an inner space, and further comprises one or more wire harness organizers as described above, one side of each wire harness organizer is fixed on the workbench body 5 through a fixing structure 4, and a containing space of each wire harness organizer is communicated with the inner space of the workbench body 5.

In a further embodiment of the utility model, grooves 11 are formed along the outer edges of the mutually opposite surfaces of each plate-shaped structure 1 in the workbench, and the grooves 11 enable the edges of the plate-shaped structures 1 to form a step-shaped structure, and the step-shaped structure protrudes out of the limiting structures 2.

In a further embodiment of the utility model, the outer edges of the mutually facing surfaces of each plate-like structure 1 extend in mutually facing directions forming a support structure 12.

More preferably, the support structure 12 is located at the lower end of the plate-like structure 1 and/or at the other side of the plate-like structure 1.

In a further embodiment of the utility model, the table further comprises: and a plurality of workbench back plates 6, wherein back plate gaps are formed among the workbench back plates 6, and the wire harness collators are arranged in the back plate gaps. Referring to fig. 2 and 3, the workbench back plate 6 has a semi-annular structure, wherein an open side of the semi-annular structure is communicated with the inner space of the workbench body 5, and a closed side of the semi-annular structure is opposite to the inner space of the workbench body 5.

Preferably, the shape of the semi-annular structure of the table body 5 matches the shape of the outer edge of the plate-like structure 1.

More preferably, both ends of the back plate 6 extend to the inner space of the worktable body 5 to form a buckling strip 61, and the buckling strip 61 is matched with the step structure. Referring to fig. 3 and 4, the side with the larger width of the step structure is disposed in the buckling strip 61 of the back plate 6, and the side with the smaller width of the step structure is flush with the surface of the buckling strip 61, so that the plate-shaped structure 1 is limited in the range of the buckling strip 61 by the step structure. And because of the flush arrangement, the mutually opposite surfaces of the plate-like structure 1 are a complete plane, and the wire harness is not easy to scratch.

More preferably, the support structure 12 is supported on the back plate 6. Obviously, since the plate-like structure 1 is subjected to the effect of gravity downwards, a good supporting effect can be achieved only by providing the supporting structure 12 at the lower end of the plate-like structure 1 and/or at the other side of the plate-like structure 1.

In a preferred method of use, the adapter draws power from a socket on the table body 5, and the harness enters the harness organizer through the second opening 32 and from the first opening 31 through the second passage b into the interior space of the table body 5 to connect other equipment within the interior space of the table body 1.

Obviously, the second channel b is bidirectional, and the wire harness can also enter from the first opening 31, pass through the second channel b and be led out from the second opening 32.

In a preferred method of use, the wire harness is routed from the equipment within the interior space of the table body 1, through the first opening 31 into the harness organizer, and out through the first passage a from the third opening 33 to the table top of the table to connect to other equipment on the table top.

Obviously, the first passage a is bidirectional, and the wire harness may also enter from the third opening 33, pass through the first passage a, and be led out from the first opening 31.

In a preferred method of use, the adapter draws power from a socket on the table body 5, the harness enters the harness organizer through the second opening 32 and exits through the second channel c from the third opening 33 to the table top of the table to connect to other equipment on the table top.

Obviously, the third channel c is bidirectional, and the wire harness can also enter from the third opening 33, pass through the first channel c and be led out from the second opening 33.

Of course, in other embodiments, the fourth channel, the fifth channel, and the like may be formed by specific arrangement of the plate-like stopper structure and the columnar stopper structure.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (12)

1. A wire harness organizer, characterized by comprising:

the flexible plate-shaped structures are arranged oppositely, one ends of the two plate-shaped structures are fixedly arranged, a containing space for containing the wire harness is defined between the two plate-shaped structures, a plurality of openings for the wire harness to enter and exit are formed in the edge of the plate-shaped structures, and the openings are arranged at intervals and are communicated with the containing space;

at least one limiting structure limiting a minimum spacing between two plate-like structures without limiting a maximum spacing between the two plate-like structures;

the limiting structure is columnar, the limiting structure is positioned at the center of the platy structure, and a gap is reserved between the end parts of the limiting structure;

the plurality of openings includes: a first opening at one side of the accommodating space, a second opening at a lower side of the other side of the accommodating space, and a third opening at an upper side of the other side of the accommodating space;

the columnar limiting structure limits the accommodating space to be an annular space;

the first opening and the third opening form a first channel, the first opening and the second opening form a second channel, and the second opening and the third opening form a third channel.

2. The wire harness organizer of claim 1, wherein the spacing structure is formed by two mutually facing surfaces of the plate-like structures extending in mutually facing directions.

3. The wire harness organizer of claim 1, comprising one of the limit structures formed by two of the plate-like structures extending from one of opposite surfaces thereof toward the other surface, an end of the limit structure having a gap with the other surface;

or the limiting structure comprises two limiting structures which are arranged opposite to each other, wherein the two limiting structures are formed by extending opposite surfaces of the two plate-shaped structures, and a gap is reserved between the end parts of the two limiting structures.

4. The wire harness organizer of claim 1, wherein the spacing structure comprises:

the two opposite first plate-shaped limiting structures are positioned at the upper ends of the plate-shaped structures;

the two opposite second plate-shaped limiting structures are positioned on the other side of the plate-shaped structures;

and the two columnar limiting structures are oppositely arranged and are both positioned in the middle of the platy structure.

5. The wire harness organizer of claim 4, further comprising:

two fixing structures which are arranged oppositely and are connected mutually, wherein the two fixing structures are positioned at the lower end of the plate-shaped structure;

the first opening is formed between the first plate-shaped limiting structure and the fixed structure, the second opening is formed between the lower end of the second plate-shaped limiting structure and the fixed structure, and the third opening is formed between the upper end of the second plate-shaped limiting structure and the first plate-shaped limiting structure.

6. The wire harness organizer of claim 5, wherein the first plate-like spacing structure and the second plate-like spacing structure each comprise: a base connected to the plate-like structure, and an end facing away from the plate-like structure.

7. The wire harness organizer of claim 6, wherein longitudinal sections of the first and second plate-like spacing structures are triangular.

8. The wire harness organizer of claim 7, wherein longitudinal sections of the first and second plate-like spacing structures are right-angled triangles.

9. The wire harness organizer of claim 8, wherein right-angle sides of longitudinal sections of the first and second plate-like spacing structures face toward the accommodation space, and hypotenuses of longitudinal sections of the spacing structures face away from the accommodation space.

10. The wire harness organizer of claim 9, wherein the spacing structure is located at an edge of the plate-like structure;

a gap is reserved between two adjacent limit structures on the same plate-shaped structure;

a gap is formed between the end parts of the two adjacent and opposite limiting structures between the two plate-shaped structures;

the openings are defined between four adjacent limit structures of the two plate-like structures.

11. The wire harness organizer of claim 4, wherein,

the first channel is obliquely upwards arranged from the first opening to the second opening, the second channel is horizontally arranged, and the third channel is vertically arranged.

12. A workbench, which is characterized by comprising a workbench body with an inner space, and further comprising the wire harness collators as claimed in any one of claims 1 to 7, wherein the number of the wire harness collators is one, one side of the wire harness collators is fixed on the workbench body through a fixing structure, and the accommodating space of the wire harness collators is communicated with the inner space of the workbench body;

or the number of the wire harness collators is multiple, and the wire harness collators are arranged side by side.