CN212875296U - Detachable wire arranging frame - Google Patents

Abstract

The utility model provides a dismantled and assembled reason line frame relates to distribution frame technical field, for solving prior art, the transportation that reason line frame exists and the technical problem with high costs of storage, the technical scheme of the utility model as follows: comprises a supporting plate and a wire body bracket; the side edges of the two line body supports are connected to the opposite surfaces of the two supporting plates through detachable structures, so that the two line body supports are arranged between the two supporting plates and are enclosed to form a wiring space.

Description

Detachable wire arranging frame

Technical Field

The utility model relates to a distribution frame technical field, in particular to dismantled and assembled reason line frame.

Background

The cable arranging frame has the functions of arranging and fixing cables, is particularly used on machine room wiring frames or machine room bridge frames erected in communication machine rooms, network machine rooms, electric power machine rooms and the like, and is used for arranging and fixing the cables, so that the cables are uniformly radiated, tidily and orderly, communication equipment in the communication machine rooms is improper in electrical equipment type selection and is not in accordance with the standard in installation, overload or short circuit fire is caused, improper circuit laying or crossing of external circuits easily causes strong current to invade the equipment, a core wire is caused to generate heat and fire, and the cable arranging frame is favorable for arranging the cables.

The wire arrangement frame is used as essential basic wire arrangement equipment of a machine room and is developed to be a mature product at present. Most of the wire arranging frames commonly used in the current market are formed by injection molding, and have the advantages of light weight, low price, firmness, durability and the like. However, the wire management frames on the market are all integrally formed structures or single-side detachable mechanisms, the wire management frames do not have the capability of complete disassembly and assembly, and the occupied space of the product is large, so that the transportation volume and the storage amount of a unit space are low, and the transportation and storage cost of the product is high; meanwhile, due to the influence of the use environment, the size standard of the wire arranging frame cannot be absolutely unified, and then a plurality of wire arranging frames are derived, so that a manufacturer needs to build a plurality of production lines, and a merchant needs to prepare a plurality of products with different sizes, and the production and stock cost is increased.

SUMMERY OF THE UTILITY MODEL

For solving prior art, the transportation that the reason line frame exists and the technical problem with high costs of storage, the technical scheme of the utility model as follows:

in a first aspect, the utility model provides a dismantled and assembled reason line frame, including backup pad and line body support, line body support is used for walking line and wiring, and the backup pad is used for supporting and installing line body support. The side of the two line body supports are connected to the opposite surfaces of the two supporting plates through detachable structures, so that the two line body supports are arranged between the two supporting plates and enclose a space for accommodating the line body. The detachable structure is a sliding rail structure and/or a buckle structure.

The utility model provides a dismantled and assembled reason line frame has changed traditional backup pad and line body support fixed connection's mode, through reasonable in design's detachable construction, makes backup pad and line body support can be convenient, quick completion is dismantled and the installation, in storage and transportation, will manage the line frame and dismantle, makes backup pad and line body support keep flat together, can reduce the package material volume, and then can deposit more reason line frame products in making the unit space to reduce the volume of material freight, also can reduce the storage cost simultaneously. In addition, because backup pad and line body support are demountable installation mode, as long as guarantee the connection structure of the side terminal surface of line body support and the connection structure looks adaptation in the backup pad can, the width of line body support, length, size such as thickness can change wantonly, and then can freely dismantle the equipment when making the customer use, select suitable line body support according to actual demand, the practicality is stronger, to manufacturer, because the backup pad can be general, consequently only need design not unidimensional line body support production line can, and then reduced the production line and built the cost. Meanwhile, for merchants, a plurality of wire management rack products with different sizes do not need to be purchased, the stock cost is lower, and the flexibility is higher.

Optionally, the two support plates and the wire body support can adopt the same detachable structure, such as a slide rail structure or a buckle structure, and the production and stock can be further reduced by adopting the same detachable structure; or two the backup pad uses different detachable construction, if use slide rail structure and eye-splice structure respectively, uses different detachable construction installation convenience better, and the practicality is stronger.

In a possible design, the slide rail structure comprises sliding grooves arranged on opposite surfaces of the two supporting plates and sliding blocks arranged on the side edges of the line body support, and the sliding blocks are in sliding fit with the sliding grooves. When the connecting device is used, the end part of the sliding groove in the length direction is aligned with the end part of the sliding block in the length direction, the sliding block is sleeved into the sliding groove and slides linearly along the sliding groove until all the sliding blocks of the line body support are arranged in the sliding groove in a sliding mode, and then the connecting action of the supporting plate and the line body support is completed.

Optionally, the sliding groove and the sliding block in the sliding rail structure can be interchanged to form a base body, the sliding block can also be arranged on the opposite surfaces of the two supporting plates, and the sliding groove is formed in the side edge of the line body support.

In a possible design, the sliding groove is formed by two elastic plates, the outer edges of the elastic plates are inclined in opposite directions, so that the width of the sliding groove is gradually reduced from inside to outside, and the width of the notch of the sliding groove is smaller than the thickness of the sliding block. This design is for making the installation more convenient, makes the slide rail structure has the grafting function, and when the installation environment is than narrow and small, be not convenient for through slider along spout sliding connection, need peg graft through this mode.

Specifically, the sliding groove is formed by an elastic plate made of elastic materials, the notch of the sliding groove is provided with a deformation amount, when the sliding block is abutted against the notch of the sliding groove, the notch is pressed hard to deform, the sliding block is extruded into the notch, all the sliding blocks of the line body support are inserted into the sliding groove in an extrusion mode, and then the connection action of the supporting plate and the line body support is completed in an insertion mode. Simultaneously, because the outward flange of elastic plate further tightens up the notch with the opposite direction slope, when the slider was pegged graft in the spout, the notch can the reconversion and form to enclose to close to tighten up the slider, further provided the joint strength of slider and spout, made backup pad and line body support more be difficult to separate.

In one possible design, the sliding block is an arc plate, the tail end of the sliding block is bent towards one side to form a hook-shaped part, and the elastic plate of the sliding chute is accommodated in the inner side of the hook-shaped part. The hook-shaped part of the sliding block forms a barb function, and the outer edge of the elastic plate forming the sliding groove inclines in the opposite direction, so that after the sliding block and the sliding groove are plugged, the elastic plate recovers and is just contained in the inner side of the hook-shaped part, and the elastic plate and the hook-shaped part are matched with each other to further improve the connection strength of the support plate and the line body support.

Simultaneously, this design also can use the slider as the pivot in order to let the slider of arc board type can be at the spout internal rotation promptly, and the line body support is the activity fan to the space that line body support and backup pad enclose is opened and shut to the rotation mode of similar door body.

Furthermore, a plurality of the sliders are evenly arranged in the length direction of the line body support, and the sliders positioned at the end parts are provided with limiting reinforcing ribs. The limiting reinforcing ribs have two functions, namely, the limiting reinforcing ribs are used for improving the structural strength of the end sliding blocks, and are used for limiting, so that the wire body support is prevented from exceeding the designed rotation angle when rotating by taking the sliding blocks as a shaft.

In a possible design, the insertion buckle structure comprises insertion grooves arranged on opposite surfaces of the two support plates and insertion parts arranged on the side edges of the line body support, and the insertion parts are connected with the insertion grooves in a socket-and-spigot mode.

Optionally, the base body can be arranged in an interchangeable manner between the slot and the inserting portion in the inserting and buckling structure, the inserting portion is arranged on the opposite surfaces of the two supporting plates, and the slot is arranged on the side edge of the line body support.

Wherein, for the socket joint intensity of guaranteeing grafting portion and slot, grafting portion and slot are interference fit, and the external diameter of grafting portion is greater than the internal diameter of slot, makes the two extrusion deformation and then improves the joint strength of junction, improves the joint strength of backup pad and line body support from this.

In a possible design, the eye-splice structure further comprises buckling grooves formed in the opposite surfaces of the two supporting plates and elastic buckles arranged on the side edges of the line body support, and the elastic buckles are buckled in the buckling grooves, so that the connection strength of the eye-splice mechanism is improved.

Optionally, the fastening groove and the elastic buckle in the insertion buckle structure may be interchangeably provided with the base body, the elastic buckle is provided on the opposite surfaces of the two support plates, and the fastening groove is provided on the side of the wire support.

Optionally, the elastic buckle abuts against the installation position of the insertion part, and the corresponding installation position of the buckling groove and the insertion groove abuts against each other.

Preferably, the elastic buckle is arranged close to the inserting part, and the buckling groove is arranged close to the inserting groove, so that the structure is compact, and the positioning and the assembly are convenient.

In one possible design, the support plate comprises a front support plate and a rear support plate, wherein a lead slot is formed in the middle of the rear support plate, and mounting holes are formed in two ends of the rear support plate in the length direction. Two support plates are respectively set as: the front support plate without the through groove is detachably connected with the wire body support through a slide rail structure; the rear supporting plate with the lead slot is detachably connected with the wire body support through a plug-in structure, and mounting holes are formed in the two ends of the rear supporting plate in the length direction and used for integrally mounting the wire arranging frame on a use site.

In one possible design, the wire body support is provided with a grid-shaped lead groove along the length direction, and the wire body enters a space enclosed by the wire body support and the supporting plate from the outside and penetrates out of the lead groove.

Drawings

Fig. 1 is an assembly view of a stub wire body support according to an embodiment of the present invention;

fig. 2 is an assembly view of a linear body support according to an embodiment of the present invention;

fig. 3 is an exploded view of a removable wire management rack according to an embodiment of the present invention;

fig. 4 is an assembly view of a slide rail structure according to an embodiment of the present invention;

FIG. 5 is an exploded view of FIG. 3 from another perspective;

fig. 6 is a partially enlarged view of the latching structure of fig. 5.

Reference numerals: 10. a support plate; 11. a front support plate; 12. a rear support plate; 121. a lead slot; 122. mounting holes; 20. a wire body support; 21. a stub wire body support; 22. a linear support; 31. a chute; 311. an elastic plate; 32. a slider; 321. a hook-shaped part; 33. limiting reinforcing ribs; 41. a plug-in part; 42. a slot; 43. snapping; 44. and (4) buckling the groove.

Detailed Description

The technical solution of the present invention will be described below with reference to the accompanying drawings. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "side", "inner", "outer", "top", "bottom", and the like, indicate orientations or positional relationships based on installation, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

It should be noted that, in the embodiments of the present invention, the same reference numerals are used to denote the same components or parts, and for the same components or parts in the embodiments of the present invention, only one of the components or parts may be used as an example to denote the reference numeral in the drawings, and it should be understood that the reference numerals are also applicable to other similar components or parts.

As shown in fig. 1 to 5, the present embodiment provides a removable wire arranging rack, which includes a supporting plate 10 and a wire body support 20, wherein the wire body support 20 is used for routing and wiring, and the supporting plate 10 is used for supporting and installing the wire body support 20. The sides of the two wire body supports 20 are connected to the opposite surfaces of the two support plates 10 through detachable structures, so that the two wire body supports 20 are installed between the two support plates 10 and enclose a space for accommodating a wire body. The detachable structure is a slide rail structure and/or a buckle structure.

Dismantled and assembled reason line frame in this embodiment has changed traditional backup pad 10 and line body support 20 fixed connection's mode, detachable construction through reasonable in design, make backup pad 10 and line body support 20 can be convenient, quick completion is dismantled and the installation, in storage and transportation, will manage the line frame and dismantle, make backup pad 10 and line body support 20 keep flat together, can reduce a packet material volume, and then can deposit more reason line frame products in making the unit space, thereby reduce the long-pending freight of timber, also can reduce the storage cost simultaneously. In addition, because the backup pad 10 and the line body support 20 are demountable installation, as long as the connection structure of the side terminal surface of the line body support 20 and the connection structure on the backup pad 10 are ensured to be matched, the width, length, thickness and other dimensions of the line body support 20 can be changed at will, and then the customer can freely disassemble and assemble when using, and select a proper line body support 20 according to actual requirements, the practicability is stronger, for manufacturers, because the backup pad 10 can be universal, only the production line of the line body support 20 with different dimensions needs to be designed, and then the production line building cost is reduced. Meanwhile, for merchants, a plurality of wire management rack products with different sizes do not need to be purchased, the stock cost is lower, and the flexibility is higher.

As shown in fig. 1-2, the short line body support 21 and the long line body support 22 can be freely collocated with the support plate 10, the support plate 10 and the detachable structure are the same, and only the width of the line body support 20 is adjusted, so that the utility model has stronger practicability.

Alternatively, the two supporting plates 10 and the wire body support 20 can use the same detachable structure, such as a sliding rail structure or a buckle structure, and the production and stock can be further reduced by using the same detachable structure; or the two supporting plates 10 use different detachable structures, for example, a sliding rail structure and a buckle structure are respectively used, so that the mounting convenience and the practicability are better when different detachable structures are used.

As shown in fig. 3-5, the present embodiment preferably uses different detachable structures for the two support plates 10 to connect with the wire body support 20.

As shown in fig. 3, in an embodiment, the slide rail structure includes sliding grooves 31 disposed on opposite surfaces of the two support plates 10 and sliding blocks 32 disposed on lateral sides of the wire body support 20, and the sliding blocks 32 are slidably engaged with the sliding grooves 31. When the connecting device is used, the end part of the sliding groove 31 in the length direction is aligned with the end part of the sliding block 32 in the length direction, the sliding block 32 is sleeved in the sliding groove 31 and slides linearly along the sliding groove 31 until all the sliding blocks 32 of the line body support 20 are arranged in the sliding groove 31 in a sliding mode, and then the connecting action of the supporting plate 10 and the line body support 20 is completed.

In one embodiment, the sliding chute 31 is composed of two elastic plates 311, the outer edges of the elastic plates 311 are inclined in opposite directions, so that the width of the sliding chute 31 is gradually reduced from inside to outside, and the width of the notch of the sliding chute 31 is smaller than the thickness of the sliding block 32. This design makes the slide rail structure have the grafting function in order to make the installation more convenient, and when the installation environment is than narrow and small, be not convenient for through slider 32 along spout 31 sliding connection, need peg graft through this mode.

Specifically, the sliding groove 31 is formed by an elastic plate 311 made of an elastic material, so that the notch of the sliding groove 31 has a deformation amount, when the sliding block 32 abuts against the notch of the sliding groove 31, the notch is deformed by pressing hard, the sliding block 32 is extruded into the notch, all the sliding blocks 32 of the wire body support 20 are inserted into the sliding groove 31 in an extruded manner, and then the connection between the support plate 10 and the wire body support 20 is completed in an inserted manner. Simultaneously, because the outward flange of elastic plate 311 inclines with relative direction, further tightens up the notch, when slider 32 pegged graft in spout 31, the notch can the reconversion and form to enclose to close to tighten up slider 32, further provides slider 32 and spout 31's joint strength, makes backup pad 10 and line body support 20 more be difficult to separate.

In one embodiment, the slider 32 is an arc plate, the end of the slider is bent to one side to form a hook 321, and the elastic plate 311 of the sliding chute 31 is accommodated inside the hook 321. The hook 321 of the slider 32 forms a barb, and since the outer edge of the elastic plate 311 forming the sliding slot 31 is inclined in the opposite direction, when the slider 32 is inserted into the sliding slot 31, the elastic plate 311 is restored and just accommodated inside the hook 321, and the two cooperate with each other, so as to further improve the connection strength between the support plate 10 and the wire support 20.

Meanwhile, the design is also to enable the arc-shaped plate-shaped sliding block 32 to rotate in the sliding groove 31, namely, the sliding block 32 is used as a rotating shaft, the line body support 20 is a movable fan, and the space enclosed by the line body support 20 and the supporting plate 10 is opened and closed in a rotating mode similar to a door body.

Further, a plurality of sliders 32 are uniformly arranged in the length direction of the wire body support 20, and the slider 32 positioned at the end portion is provided with a limiting reinforcing rib 33. The limiting ribs 33 serve to improve the structural strength of the end sliders 32 and prevent the wire body support 20 from exceeding a designed rotation angle when rotating around the sliders 32 for limiting.

As shown in fig. 4-5, in an embodiment, the buckle structure includes insertion grooves 42 formed on opposite surfaces of the two support plates 10 and insertion parts 41 disposed on the lateral sides of the wire body support 20, and the insertion parts 41 are inserted into the insertion grooves 42.

In order to ensure the socket connection strength between the insertion part 41 and the slot 42, the insertion part 41 and the slot 42 are in interference fit, and the outer diameter of the insertion part 41 is larger than the inner diameter of the slot 42, so that the insertion part and the slot are extruded and deformed to improve the connection strength at the connection position, thereby improving the connection strength between the support plate 10 and the line body support 20.

In one embodiment, the inserting and buckling structure further includes a buckling groove 44 formed on the opposite surfaces of the two supporting plates 10 and an elastic buckle 43 disposed on the side of the wire body support 20, and the elastic buckle 43 is buckled in the buckling groove 44, thereby improving the connection strength of the inserting and buckling mechanism.

Optionally, the elastic buckle 43 abuts against the installation position of the insertion portion 41, and correspondingly, the buckling groove 44 abuts against the installation position of the insertion groove 42, when in connection, the insertion portion 41 and the insertion groove 42 are firstly used for positioning, and then the elastic buckle 43 is buckled in the buckling portion.

Preferably, the elastic buckle 43 is arranged close to the inserting part 41, and the buckling groove 44 is arranged close to the inserting groove 42, so that the structure is compact, and the positioning and the assembly are convenient.

Preferably, in order to reduce the production and processing cost, the elastic buckle 43 and the buckling groove 44 are arranged only at the insertion part 41 and the insertion groove 42 at the end positions at the distribution positions of the insertion part 41 and the insertion groove 42 arranged in a row.

In one embodiment, the supporting plate 10 includes a front supporting plate 11 and a rear supporting plate 12, wherein a lead groove 121 is formed in the middle of the rear supporting plate 12, and mounting holes 122 are formed at both ends in the length direction. The two support plates 10 are respectively set as: the front support plate 11 without a through groove, the side front support plate 11 is detachably connected with the wire body support 20 through a slide rail structure; the rear support plate 12 with the lead groove 121 is detachably connected with the wire body support 20 through a buckle structure, and mounting holes 122 are formed at two ends in the length direction of the rear support plate for integrally mounting the wire management frame on a use site.

The wire body support 20 is provided with a grid-shaped lead groove 121 along the length direction thereof, and the wire body enters a space enclosed by the wire body support 20 and the support plate 10 from the outside and penetrates out of the lead groove 121.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The detachable wire arranging frame is characterized by comprising a supporting plate (10) and a wire body bracket (20); the side edges of the two wire body supports (20) are connected to the opposite surfaces of the two supporting plates (10) through detachable structures, so that the two wire body supports (20) are arranged between the two supporting plates (10) and are enclosed to form a wiring space.

2. The removable wire organizer of claim 1, wherein the removable structures are slide rail structures and/or snap structures.

3. The removable wire organizer of claim 2, wherein the track structure comprises a slide groove (31) and a slide block (32) slidably engaged with each other; the sliding grooves (31) are formed in one of the opposite surfaces of the two supporting plates (10) and the side edges of the wire body support (20), and the sliding blocks (32) are formed in the other of the opposite surfaces of the two supporting plates (10) and the side edges of the wire body support (20).

4. The removable wire organizer according to claim 3, wherein the slide slot (31) is formed by two resilient plates (311), the outer edges of the resilient plates (311) being inclined in opposite directions so that the width of the slide slot (31) decreases from the inside to the outside, and the width of the slot opening of the slide slot (31) is smaller than the thickness of the slider (32).

5. The removable wire arranging rack according to claim 4, wherein the sliding block (32) is an arc plate, the end of the sliding block is bent to one side to form a hook-shaped portion (321), the elastic plate (311) of the sliding slot (31) is received inside the hook-shaped portion (321), and the sliding slot (31) is used for fixing and limiting the sliding block (32).

6. The removable wire arranging stand according to claim 5, wherein the plurality of sliding blocks (32) are uniformly arranged in the length direction of the wire body support (20), and the sliding blocks (32) at the end parts are provided with limiting reinforcing ribs (33).

7. The removable wire organizer of claim 2, wherein the latch structure comprises a mating portion (41) and a slot (42) that mate with each other; the inserting parts (41) are arranged on one of the opposite surfaces of the two supporting plates (10) and the side edges of the wire body support (20), and the inserting grooves (42) are arranged on the other of the opposite surfaces of the two supporting plates (10) and the side edges of the wire body support (20).

8. The removable wire organizer of claim 7, wherein the latching structure further comprises snap-fit latches (43) and snap-fit slots (44) that snap-fit to each other; the elastic buckle (43) is arranged on one of the opposite surfaces of the two support plates (10) and the side edge of the wire body support (20), and the buckling groove (44) is arranged on the other of the opposite surfaces of the two support plates (10) and the side edge of the wire body support (20).

9. The removable organizer of claim 8, wherein the snap (43) is disposed adjacent the plug portion (41) and the snap slot (44) is disposed adjacent the slot (42).

10. The removable wire organizer of any one of claims 1-9, wherein the support plate (10) comprises a front support plate (11) and a rear support plate (12), the rear support plate (12) having a wire guide slot (121) in the middle and mounting holes (122) at both ends in the length direction.

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