CN218919858U - Wire arranging frame - Google Patents

Abstract

A wire management frame includes: the wire management frame comprises a back plate and a bottom plate extending perpendicular to the back plate; and at least two clamps, wherein at least one clamp is respectively installed on both sides of the bottom plate for managing the cable entering and exiting the wire management frame. The wire arranging frame further comprises a cover plate, the cover plate is arranged on the front side of the wire arranging frame, and the cover plate is pivotally connected with the bottom plate through rivets. The structure of this reason line frame can provide great operating space for operating personnel to its structure is also comparatively firm.

Description

Wire arranging frame

Technical Field

The utility model belongs to the field of electrical equipment, and particularly relates to a wire management frame which is used for managing cables such as wires, signal wires and optical fibers in equipment such as an electrical cabinet.

Background

A wire management rack is a cable manager widely used in equipment such as an electrical cabinet, a data center, etc., for managing cables such as electric wires, signal wires, optical fibers, etc. therein. In particular, cables in equipment such as electrical cabinets may be supported by a wire management rack to avoid or at least reduce cable overhang with increasing length, which may result in cable damage. And the cable arranging frame is favorable for orderly arranging cables, so that the cables are prevented from being tangled together, and further, the cable management work of operators on equipment is facilitated. There are various types of optical fiber management racks, which are dedicated to managing the routing of optical fibers.

In the use, find that some wire management frame of current existence have such as the space is little, wire management inconvenient, wire management frame's structural stability need improve scheduling problem, in addition, some wire management frame is at the efficiency of on-the-spot installation also not high.

Therefore, there is a need for an improved wire management frame structure to solve the above-mentioned problems of the conventional wire management frame.

Disclosure of Invention

The present utility model has been made to overcome the above-described problems of the prior art. It is an object of the present utility model to provide a wire management frame with an improved structure, in particular an optical fiber management frame, which has a more stable structure. In addition, the cable management frame can provide a larger operation space for operators, and cables supported by the cable management frame can be operated conveniently.

According to the present utility model, a wire management frame includes: the wire management frame comprises a back plate and a bottom plate extending perpendicular to the back plate; and at least two clamps, wherein at least one clamp is respectively installed on both sides of the bottom plate for managing the cable entering and exiting the wire management frame. The wire arranging frame further comprises a cover plate, the cover plate is arranged on the front side of the wire arranging frame, and the cover plate is pivotally connected with the bottom plate through rivets.

In the structure of the wire management frame, the cover plate can be switched between the open position and the closed position relative to the wire management frame body, so that a passage and a space are provided for operating and maintaining each part and the cable in the wire management frame, and the operation and the maintenance of the wire management frame are convenient. In addition, the cover plate and the bottom plate are pivotally connected by means of rivets, so that the connection between the cover plate and the wire arranging frame body is more reliable and stable, and the cover plate is not easy to drop off from the wire arranging frame body.

Specifically, first tabs may be formed at both ends of the front edge of the base plate, respectively, and second tabs may be formed at the corresponding both ends of the lower edge of the cover plate, respectively, through which rivets pass and are fixed, thereby achieving pivotable connection of the cover plate with the base plate.

Preferably, at least one adapter mounting opening through which an adapter for a cable can be mounted into the wire management frame is formed in the back plate.

Further, it may include a plurality of adapter mounting openings, a spacer being formed between two adjacent adapter mounting openings, a fixing hole being provided on the spacer, the fixing hole being capable of being engaged with a screw to fix the adapter. In this way, for example, the fiber optic adapter may be secured in place in the organizer frame.

Wherein the adapter mounting opening is one of the following shapes: rectangular, circular, and oval.

Preferably, at least one operation bottom hole is provided on the bottom plate to provide additional space for operation maintenance.

In one specific construction, three operation bottom holes are provided in the bottom plate, comprising: two side operation bottom holes located at both sides; and an intermediate operation bottom hole located between the two side operation bottom holes, wherein an area of the intermediate operation bottom hole is larger than an area of the side operation bottom hole.

Preferably, the two sides of the bottom plate are respectively provided with a wire clamp mounting column, the wire clamp mounting column comprises a first part extending along the front-back direction of the wire management frame and a second part perpendicular to the first part, and the wire clamp is fixedly connected to the second part.

Further preferably, the wire clip mounting posts are disposed at intermediate positions of side edges of the bottom plate in the front-rear direction of the wire management frame, the wire clip is located between the wire clip mounting posts and the cover plate, and a side opening is formed between the wire clip mounting posts and the back plate.

Further, a lock catch is arranged on the cover plate. In addition, a locking column is formed at the middle position of the front edge of the bottom plate, a lock hole is formed on the locking column, and the lock catch can be detachably clamped in the lock hole, so that the cover plate is locked at the closed position. The operator may pull the latch outwardly to disengage the latch from the latch aperture and may grasp the latch to pivot the cover outwardly to the open position.

Drawings

Embodiments of the present utility model will be more clearly understood from the structure shown in the accompanying drawings, in which:

fig. 1 is a perspective view of an optical fiber organizer of the present utility model with a cover of the optical fiber organizer in an open position.

Fig. 2 is another perspective view of the optical fiber organizer shown in fig. 1 with a cover of the optical fiber organizer in a closed position.

(symbol description)

1 optical fiber wire arranging frame

2 wire-arranging frame

3 cover plate

10 backboard

11 adapter mounting opening

12 spacer column

13 fixing hole

20 bottom plate

21 side operation bottom hole

22 middle operation bottom hole

23 fastener erection column

24 locking post

25 lockhole

26 first tab

31 lock catch

32 rivet

33 second tab

40 wire clip

Detailed Description

In order to facilitate understanding of the present utility model, a detailed description of specific embodiments of the wire management frame of the present utility model will be described below with reference to the accompanying drawings. It is to be understood that the drawings illustrate only the preferred embodiments of the utility model and are not to be considered limiting of the scope of the utility model. Various obvious modifications, variations, equivalent substitutions of the utility model will be apparent to those skilled in the art based on the embodiments shown in the drawings, and the technical features of the different embodiments described below can be arbitrarily combined with each other without contradiction, and these fall within the scope of the utility model.

In the following description of the exemplary embodiments of the present application, the terms of orientation such as "front", "rear", "side", "bottom" are used with reference to the orientation of the optical fiber management frame 1 in a normal use state. It will be appreciated that if the orientation of the optical fiber organizer 1 is changed, the relative positions of its components will also change.

The preferred structure of the present utility model will be disclosed below specifically taking an optical fiber management frame 1 for optical fibers as an example. It is understood that the structures disclosed below are applicable to other types of wire management frames, and are within the scope of the present utility model.

As can be seen from the perspective view shown in fig. 1, the main body of the optical fiber management frame 1 includes a management frame body 2, and the management frame body 2 has a back plate 10 vertically arranged at the rear of the optical fiber management frame 1 and a bottom plate 20 at the bottom of the optical fiber management frame 1.

The back plate 10 is provided with at least one adapter mounting opening 11, for example four adapter mounting openings 11 as shown in the figures. Depending on the particular application, a desired number of adapter mounting openings 11 may be provided in the back plate 10. Through these adapter mounting openings 11, fiber optic adapters (not shown in the drawings) can be placed into the fiber optic line frame 1 and secured in the fiber optic line frame 1.

In a specific construction, as shown in fig. 1, between two adjacent adapter mounting openings 11 are spacer posts 12, and fixing holes 13 are formed in the spacer posts 12, and the above-described optical fiber adapters can be connected to the back plate 10 by engagement of fasteners such as screws with the fixing holes 13, thereby fixing the optical fiber adapters in place in the optical fiber organizer 1.

In the structure shown in the drawings, the adapter mounting opening 11 is rectangular. In addition, the adapter mounting opening 11 may be other shapes, such as circular, oval, etc., depending on the particular fiber optic adapter shape and other particular requirements. The number and size of the adapter mounting openings 11 may also be set according to the actual application.

The base plate 20 is connected to the back plate 10 at the bottom of the back plate 10, and the wire management frame 2 thus formed has a substantially L-shaped cross-sectional shape. The base plate 20 preferably has a plurality of operation bottom holes formed therein through which an operator can perform operation and maintenance, such as disassembly and assembly of the optical fibers, extending in the optical fiber organizer 1, and the optical fiber adapters mounted to be hung in the optical fiber organizer 1. It follows that these bottom holes provide a larger operating space for the operator.

The operation bottom holes may be the same or different. For example, in one exemplary structure shown in fig. 1, three operation bottom holes are provided on the bottom plate 20, in which side operation bottom holes 21 having a smaller area are provided on both sides, and between the two side operation bottom holes 21 is a middle operation bottom hole 22 having a larger area. Corresponding to such an arrangement, the components and cables in the optical fiber management frame 1 can be arranged such that the arrangement density thereof is large in the middle portion and the arrangement density is small on both sides, so that the operation maintenance of the optical fiber adapters and the optical fibers mounted in the optical fiber management frame 1 mainly occurs in the middle portion. Thus, the operation of operators can be further facilitated.

The wire clip mounting posts 23 are respectively provided at both sides of the base plate 20, and the wire clips 40 are respectively fixedly installed on each wire clip mounting post 23. As shown, the clip 40 is in the form of an elastic ring, which can respectively clip the optical fibers entering and exiting the optical fiber management frame 1 at the left and right sides of the optical fiber management frame 1, so as to prevent the optical fibers from being scattered, entangled, etc. As further shown in fig. 1, the clip mounting post 23 includes two parts, a first part of which extends in the front-rear direction of the optical fiber management frame 1 along the side edge of the bottom plate 20, and a second part extending at substantially right angles to the first part, so that the clip mounting post 23 has a substantially L-shaped cross section. A mounting hole is provided on the second portion of the wire clip mounting post 23 for fixedly mounting the wire clip 40 to the wire clip mounting post 23. For example, the clip 40 may be formed with a threaded stem on one side that can be passed through a mounting hole in the clip mounting post 23 and engaged with a threaded rod by a nut or the like from the other side to secure the clip 40. Of course, the clip 40 may be secured to the clip mounting post 23 by other structures known in the art. The clip mounting post 23 of this structure can ensure stable fixation of the clip 40.

In the structure shown in the drawings, the clip mounting post 23 is disposed at a position substantially midway along the side edge of the bottom plate 20 in the front-rear direction of the optical fiber management frame 1, and the clip 40 is fixed to one side of the clip mounting post 23, for example, the side away from the back plate 10 shown in the drawings, or the clip 40 is located between the clip mounting post 23 and the cover plate 3. It can thus be seen that the side openings between the wire clip mounting posts 23 and the back plate 10 form the optical fiber organizer 1. The side opening may serve as an additional pathway for operator maintenance. Alternatively, another wire clamp 40 may be installed in the side opening, so that more wires can be managed.

The optical fiber management frame 1 of the present utility model further includes a cover plate 3, and the cover plate 3 closes the optical fiber management frame 1 from the front. A catch 31, for example a resilient catch, is provided in a substantially central position of the cover plate 3, which catch 31 can be used by an operator as a grip to rotate the cover plate 3.

The cover 3 can also be locked in its position closing the optical fibre organizer 1 by means of the co-operation of the catches 31 with corresponding structures on the organizer frame 2. Specifically, as shown in the drawings, a locking post 24 extending vertically is formed at a substantially middle position of the front edge of the base plate 20, and a locking hole 25 is formed on the locking post 24, the locking hole 25 being positioned and shaped to correspond to the locking catch 31 such that the locking catch 31 can be releasably engaged in the locking hole 25. When the cover plate 3 is in the closed position, the push-pull catch 32 may fit into the locking aperture 25 to lock the cover plate 3 in the closed position. And when the operator pulls the catch 31 outwards, the catch 31 will disengage from the locking hole 25, so that the cover plate 3 can be opened.

In the present application, the cover plate 3 is pivotally connected to the bottom plate 20 of the wire management frame 2 by rivets 32. Specifically, first tabs 26 are formed on both ends of the front edge of the base plate 20, respectively, and second tabs 33 are formed on the corresponding both ends of the lower edge of the cover plate 3, respectively. A rivet 32 is secured through the first tab 26 and the second tab 33 forming a pivotable connection between the cover plate 3 and the base plate 20. Preferably, the connection by rivets 32 allows the cover plate 3 to rotate relative to the base plate 20 through at least 180 ° so that the cover plate 3 can be switched between an open position and a closed position.

The pivotable connection between the cover plate 3 and the bottom plate 20 of the wire management frame body 2 is realized through the rivet 33, so that the connection between the cover plate 3 and the bottom plate 20 is more stable, and the cover plate 3 is not easy to fall off from the bottom plate 20.

The wire management frame 2 may be integrally formed of a cold-rolled steel sheet, for example, a cold-rolled steel sheet having a thickness of 1.5mm, which is commonly used. In the manufacturing process, the above-mentioned adaptor mounting opening 11, side operation bottom hole 21, intermediate operation bottom hole 22, and the like may be punched out of one cold-rolled steel sheet, and the portions forming the clip mounting post 23, locking post 24, and the like may be left at the time of punching. Then, the cold-rolled steel sheet may be bent into two parts perpendicular to each other.

Similarly, the cover plate 3 is preferably also made of cold-rolled steel sheet, for example, pressed from a cold-rolled steel sheet 1mm thick.

As described above, the cover plate 3 is pivotable relative to the base plate 20 between the open position and the closed position. Therefore, the operator can also open the cover plate 3 from the front of the optical fiber management frame 1 to operate the components, cables, and the like in the optical fiber management frame 1. After the operation is completed, the cover plate 3 is turned back to the closed position and locked in the closed position by the engagement between the utility catch 31 and the lock hole 25, as shown in fig. 2.

Claims (10)

1. A wire management frame, the wire management frame comprising:

the wire arranging frame comprises a back plate and a bottom plate which extends perpendicular to the back plate; and

at least two wire clamps, wherein at least one wire clamp is respectively arranged on two sides of the bottom plate and is used for managing cables entering and leaving the wire arranging frame;

the wire arranging frame is characterized by further comprising a cover plate, wherein the cover plate is arranged on the front side of the wire arranging frame, and the cover plate is pivotally connected with the bottom plate through rivets.

2. The wire management frame of claim 1, wherein first tabs are formed at both ends of a front edge of the base plate, respectively, and second tabs are formed at corresponding both ends of a lower edge of the cover plate, respectively, and the rivet passes through the first tabs and the second tabs and is fixed, thereby achieving pivotable connection of the cover plate with the base plate.

3. The wire management frame of claim 1, wherein at least one adapter mounting opening is formed in the back plate through which an adapter for a cable can be mounted into the wire management frame.

4. A wire management frame as claimed in claim 3, comprising a plurality of said adapter mounting openings, a spacer being formed between adjacent two of said adapter mounting openings, a securing hole being provided in said spacer, said securing hole being engageable with a screw to secure said adapter.

5. The wire management frame of claim 3 or 4, wherein the adapter mounting opening is one of the following shapes: rectangular, circular, and oval.

6. The wire management frame of claim 1, wherein at least one handling base aperture is provided in the base plate.

7. The wire management frame of claim 6, wherein three of said bottom apertures are provided in said base plate, comprising: two side operation bottom holes located at both sides; and an intermediate bottom hole located between the two side bottom holes, wherein an area of the intermediate bottom hole is larger than an area of the side bottom hole.

8. The wire management frame of claim 1, wherein wire clip mounting posts are provided on both sides of the base plate, respectively, the wire clip mounting posts including a first portion extending in a front-rear direction of the wire management frame and a second portion perpendicular to the first portion, the wire clip being fixedly connected to the second portion.

9. The wire management frame of claim 8, wherein the wire clip mounting posts are disposed at intermediate positions of side edges of the bottom plate along a front-to-rear direction of the wire management frame, the wire clip being located between the wire clip mounting posts and the cover plate, and a side opening being formed between the wire clip mounting posts and the back plate.

10. The wire management frame of claim 1, wherein a latch is provided on the cover plate; and

a locking column is formed in the middle of the front edge of the bottom plate, a lock hole is formed in the locking column, and the lock catch can be detachably clamped in the lock hole, so that the cover plate is locked in the closed position.

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