CN223108113U - A frame panel for convenient installation and removal of optical fiber connector - Google Patents

Abstract

The utility model relates to the technical field of matched components of optical fiber connectors, in particular to a machine frame panel which is convenient for assembling and disassembling the optical fiber connectors, is provided with holes for inserting the optical fiber connectors, and consists of an outer plate and an inner plate, wherein the outer plate at least comprises an upper outer plate, a front outer plate and a lower outer plate, the inner plate at least comprises an upper inner plate, a front inner plate and a lower inner plate, the upper outer plate comprises a high plate connected with the front outer plate into a whole and a low plate connected with the upper inner plate, the length of the upper outer plate is identical to that of the front outer plate, the low plate is provided with more than two upper external threaded holes, the upper inner plate consists of massive convex plates with the same number as that of the upper external threaded holes, and the low plate of the upper outer plate is connected with the upper inner plate through a threaded structure. The scheme provides the inner panel can be for the whole frame panel of dismantling and installing of planking, and the inner panel is direct simultaneously to be connected with fiber connector, takes out the inner panel and can once take out all fiber connectors, avoids operating in the frame panel, and convenient loading and unloading is maintained and is changed fiber connector.

Description

Frame panel convenient for assembling and disassembling optical fiber connector

Technical Field

The utility model relates to the technical field of mating components of optical fiber connectors, in particular to a machine frame panel convenient for assembling and disassembling the optical fiber connectors.

Background

The common frame panel size that connects fiber connector is narrow, when breaking down and need carry out after-sales maintenance, the fiber connector who is connected with the frame panel can only dismantle in proper order, can't wholly once take out entirely, simultaneously because the size of frame panel is narrow, the staff's finger is difficult to put into the frame panel and removes the equipment, leads to no matter when loading and unloading or during maintenance operation all inconvenient. It is desirable to design a subrack panel that facilitates removal of fiber optic connectors.

Disclosure of Invention

In order to solve the problems, the utility model designs the frame panel which consists of the outer plate and the inner plate, wherein the inner plate can be detached and installed integrally relative to the outer plate, meanwhile, the inner plate is directly connected with the optical fiber connectors, all the optical fiber connectors can be taken out once by taking out the inner plate, the operation in the frame panel is avoided, and the optical fiber connectors are convenient to assemble, disassemble, maintain and replace.

The technical scheme is that the machine frame panel convenient for assembling and disassembling the optical fiber connector is provided with at least a plurality of holes for inserting the optical fiber connector, the machine frame panel is composed of an outer plate and an inner plate, the outer plate at least comprises an upper outer plate, a front outer plate and a lower outer plate, the inner plate at least comprises an upper inner plate, a front inner plate and a lower inner plate, the outer plate is slightly larger than the inner plate in size, the inner plate can be arranged inside the outer plate, the front outer plate and the front inner plate are provided with holes corresponding in number and position, the upper outer plate comprises a high plate and a low plate connected with the upper inner plate, the low plate is closer to the upper inner plate relative to the high plate, the length of the upper outer plate is identical to that of the front outer plate, the low plate is provided with more than two upper external threaded holes, the upper inner plate is composed of block-shaped convex plates with the same number as the upper external threaded holes, each block-shaped convex plate is provided with an upper internal threaded hole corresponding to the corresponding upper external threaded hole, and the low plate of the upper outer plate is connected with the upper inner plate through a threaded structure.

Furthermore, one end of the outer plate is provided with a side outer plate which is connected to the upper outer plate, the front outer plate and the lower outer plate at the same time.

Moreover, the lower outer plate and the lower inner plate are provided with screw holes or mutually matched convex grooves, and the lower outer plate and the lower inner plate are connected through a thread structure or a convex groove structure.

And the height difference between the high plate and the low plate of the upper outer plate is slightly larger than the thickness of the head of the countersunk head screw for connecting the low plate and the upper inner plate.

Furthermore, the optical fiber connector is inserted into the hole of the inner plate, and both the optical fiber connector and the inner plate are positioned inside the outer plate.

The lower outer plate is substantially integral with or connected to the frame.

Compared with the prior art, the beneficial effect of this technical scheme lies in:

1. The frame panel comprises planking and inner panel, planking and inner panel pass through threaded structure and connect, and the inner panel can be whole dismantlement and the installation for the planking, and the inner panel is direct to be connected with fiber connector simultaneously. The inner plate is taken out, all the optical fiber connectors can be taken out once, and the optical fiber connectors are assembled on the inner plate and then are integrally inserted into the outer plate during installation. Thereby avoiding loading and unloading operations in a narrow frame panel, and facilitating the loading, unloading, maintenance and replacement of the optical fiber connector;

2. The upper outer plate comprises a high plate connected with the front outer plate into a whole and a low plate connected with the upper inner plate, the low plate is closer to the upper inner plate relative to the high plate, the height difference between the high plate and the low plate of the upper outer plate is slightly larger than the thickness of the head part of a countersunk head screw for connecting the low plate with the upper inner plate, and the head part of the countersunk head screw can be prevented from protruding after the upper outer plate and the upper inner plate are connected through the countersunk head screw, so that the countersunk head screw is prevented from collision deformation;

3. The upper inner plate is composed of the blocky convex plates with the same number as the upper outer threaded holes, and the weight of the upper inner plate can be reduced on the basis of guaranteeing the connecting structure, so that the inner plate is more labor-saving to detach and install integrally relative to the outer plate.

Drawings

FIG. 1 is a schematic view of the structure of an outer plate;

FIG. 2 is a schematic structural view of an inner panel;

FIG. 3 is an assembled schematic view of an embodiment;

Reference numerals illustrate:

The novel panel comprises an upper outer plate 1, a front outer plate 2, a lower outer plate 3, a side outer plate 4, a hole 5 of the front outer plate, a high plate 6, a low plate 7, an external threaded hole 8, an upper inner plate 9, a front inner plate 10, a lower inner plate 11, a hole 12 of the front inner plate, a block-shaped convex plate 13, an internal threaded hole 14 and countersunk screws 15.

Detailed Description

The present utility model will be described in detail with reference to the accompanying drawings and examples, which are not intended to limit the scope of the utility model.

The utility model provides a be convenient for loading and unloading fiber connector's frame panel, frame panel comprises planking and inner panel, and fiber connector inserts in the hole of inner panel, and fiber connector and inner panel all are located the planking inside. As shown in fig. 1, the outer plate includes at least an upper outer plate 1, a front outer plate 2 and a lower outer plate 3 which are integrally formed, one end of the outer plate is provided with a side outer plate 4, the side outer plate is connected with the upper outer plate, the front outer plate and the lower outer plate at the same time, and the side outer plate can enhance the structural strength and also can serve as a limit baffle to limit the insertion position of the inner plate. The front outer plate is provided with a plurality of holes, and the number and positions of the holes 5 of the front outer plate correspond to those of the holes of the front inner plate. The upper outer plate comprises a high plate 6 connected with the front outer plate into a whole and a low plate 7 connected with the upper inner plate, the low plate is closer to the upper inner plate relative to the high plate, the length of the upper outer plate is the same as that of the front outer plate, and the low plate is provided with more than two upper external threaded holes 8.

The size of the outer plate is slightly larger than that of the inner plate, so that the inner plate can be arranged inside the outer plate, and as shown in fig. 2, the inner plate at least comprises an upper inner plate 9, a front inner plate 10 and a lower inner plate 11 which are integrally formed, holes 12 of the front inner plate can be inserted into the optical fiber connector, and the number and the positions of the holes of the front outer plate correspond to those of the holes of the front inner plate. The upper inner plate is composed of block convex plates 13 with the same number as the upper outer threaded holes, each block convex plate is provided with an upper inner threaded hole 14 corresponding to the corresponding upper outer threaded hole, and the block convex plates can reduce the weight of the upper inner plate on the basis of ensuring a connecting structure, so that the inner plate is more labor-saving to detach and install integrally relative to the outer plate.

As shown in fig. 3, the lower plate of the upper outer plate is connected with the upper inner plate through countersunk screws 15, and the height difference between the upper plate and the lower plate of the upper outer plate is slightly greater than the thickness of the head of the countersunk screws connecting the lower plate with the upper inner plate. For further connection stability, screw holes or mutually matched convex grooves corresponding to each other can be formed in the lower outer plate and the lower inner plate, so that the lower outer plate and the lower inner plate are connected through a threaded structure or a convex groove structure.

The lower outer plate is substantially integral with or connected to the frame.

Compared with the prior art, the beneficial effect of this technical scheme lies in:

1. The frame panel comprises planking and inner panel, planking and inner panel pass through threaded structure and connect, and the inner panel can be whole dismantlement and the installation for the planking, and the inner panel is direct to be connected with fiber connector simultaneously. The inner plate is taken out, all the optical fiber connectors can be taken out once, and the optical fiber connectors are assembled on the inner plate and then are integrally inserted into the outer plate during installation. Thereby avoiding loading and unloading operations in a narrow frame panel, and facilitating the loading, unloading, maintenance and replacement of the optical fiber connector;

2. The upper outer plate comprises a high plate connected with the front outer plate into a whole and a low plate connected with the upper inner plate, the low plate is closer to the upper inner plate relative to the high plate, the height difference between the high plate and the low plate of the upper outer plate is slightly larger than the thickness of the head part of a countersunk head screw for connecting the low plate with the upper inner plate, and the head part of the countersunk head screw can be prevented from protruding after the upper outer plate and the upper inner plate are connected through the countersunk head screw, so that the countersunk head screw is prevented from collision deformation;

3. The upper inner plate is composed of the blocky convex plates with the same number as the upper outer threaded holes, and the weight of the upper inner plate can be reduced on the basis of guaranteeing the connecting structure, so that the inner plate is more labor-saving to detach and install integrally relative to the outer plate.

Claims (6)

1. The machine frame panel is characterized by comprising an outer plate and an inner plate, wherein the outer plate at least comprises an upper outer plate, a front outer plate and a lower outer plate, the inner plate at least comprises an upper inner plate, a front inner plate and a lower inner plate, the outer plate is slightly larger than the inner plate in size, the inner plate can be arranged inside the outer plate, the front outer plate and the front inner plate are provided with holes with corresponding number and positions, the upper outer plate comprises a high plate connected with the front outer plate into a whole and a low plate connected with the upper inner plate, the low plate is closer to the upper inner plate relative to the high plate, the length of the upper outer plate is identical to that of the front outer plate, the low plate is provided with more than two upper external threaded holes, the upper inner plate is composed of block-shaped convex plates with the same number as the upper external threaded holes, each block-shaped convex plate is provided with an upper internal threaded hole corresponding to the corresponding upper external threaded hole, and the lower plate of the upper outer plate is connected with the upper inner plate through a threaded structure.

2. The frame panel for facilitating the removal of an optical fiber connector as set forth in claim 1, wherein one end of the outer panel is provided with a side outer panel which is connected to the upper outer panel, the front outer panel and the lower outer panel at the same time.

3. The panel of claim 1, wherein the lower outer plate and the lower inner plate are provided with corresponding screw holes or mutually matched convex grooves, and the lower outer plate and the lower inner plate are connected through a screw structure or a convex groove structure.

4. The panel of claim 1, wherein the difference between the height of the upper and lower plates is slightly greater than the thickness of the head of the countersunk head screw connecting the lower plate to the upper inner plate.

5. The subrack panel for facilitating handling of fiber optic connectors according to claim 1, wherein the fiber optic connector is inserted into a hole in the inner panel, and wherein the fiber optic connector and the inner panel are both positioned inside the outer panel.

6. The panel of claim 1, wherein the lower outer panel is substantially integral with or connected to the frame.