NL2034238B1

NL2034238B1 - A Multi-network Integrated Fiber Distribution Box for the Internet of Things

Info

Publication number: NL2034238B1
Application number: NL2034238A
Authority: NL
Inventors: Li Zheng; Lin Li; Xu Shichao; Meng Xuelei; Han Zheng; Ruan Jiuhong
Original assignee: Univ Lanzhou Jiaotong; Univ Shandong Jiaotong
Priority date: 2023-02-28
Filing date: 2023-02-28
Publication date: 2024-02-16
Also published as: NL2034238A

Abstract

The invention relates to the technical field of fiber distribution box, in particular to a fiber distribution box of multi-network fusion lnternet of things. It includes the fiber distribution box body, the surface of the fiber distribution box body sliding connected with the installation 5 component, the surface of the installation component is provided with a supporting component, for the slide of the fiber distribution box body to undertake the limit, between the fiber distribution box body and the installation component is provided with a locking mechanism, the lifting of the fiber distribution box body bearing limit; lts beneficial effects are: The multi-network fusion lnternet of Things fiber distribution box proposed by the 10 invention is designed separately with the box body and the installation component installed on the wall, and the fiber distribution box body can be lifted and adjusted along the installation component. When inspecting the internal line of the fiber distribution box body, the fiber distribution box body can be lowered along the installation component, and the locking mechanism can be used to limit the raised fiber distribution box body, so that the 15 fiber distribution box body can be repaired without the help of ladder.

Description

Lanzhou Jiaotong University

Shandong Jiaotong University 23/020 PDNL

A Multi-network Integrated Fiber Distribution Box for the Internet of Things

Technical Field

The invention relates to the technical field of fiber distribution box, in particular to a fiber distribution box of multi-network fusion Internet of things.

Background Technology

The Internet of Things refers to the real-time collection of any object or process that needs to be monitored, connected and interactive through various devices and technologies such as various information sensors, radio frequency identification technology, global positioning system, infrared sensors and laser scanners, and the collection of various required information such as sound, light, heat, electricity, mechanics, chemistry, biology and location through various possible network access. To realize the ubiquitous connection between things and things, and between things and people, and realize the intelligent perception, recognition and management of things and processes. The Internet of Things is an information carrier based on the Internet, traditional telecommunications network, etc., which enables all ordinary physical objects that can be independently addressed to form an interconnected network.

In the existing technology, the fiber division box, as the carrier of multi-network convergence Internet of things, is used for outdoor, corridor or indoor interface equipment connecting the main optical cable and distribution optical cable. The fiber distribution box must be able to work reliably in the specified environment, and the box can withstand a vertical pressure of no more than 500N. Usually, the fiber distribution box is mounted on the wall by hanging bolts.

However, in order to avoid misoperation of the fiber distribution box, the installation height of the fiber distribution box is usually set high. In this way, the adjustment of the network cable inside the fiber distribution box requires the help of tools such as escalators, which increases the complexity of the adjustment of the internal line of the fiber distribution box.

Description of the Invention

The purpose of the invention is to provide a multi-network convergence of the Internet of Things fiber distribution box to solve the problems raised in the background technology.

To realize the above purpose, the invention provides the following technical scheme:

The invention relates to a multi-network convergence Internet of Things fiber distribution box, including a fiber distribution box body. The surface of the fiber distribution box body is sliding connected with an installation component, and the surface of the installation component is provided with a supporting component, which is used to undertake a limit on the sliding fiber distribution box body. A locking mechanism is arranged between the fiber distribution box body and the installation component to carry a limit on the lifted fiber distribution box body.

Preferably, the installation component includes a guide rail groove, a guide rail, a mounting plate and a reserved hole, the guide rail groove is opened on the surface of the fiber distribution box body, the guide rail groove is provided with two groups, two groups of guide rail groove parallel, and the guide rail groove is "convex" groove, the guide rail groove through the fiber distribution box body, the guide rail is "convex" plate structure, the guide rail and the guide rail groove one by one, the guide rail sliding connected in the guide rail groove. The guide rail is fixed on the surface of the mounting plate. The surface of the mounting plate is provided with a plurality of reserved holes, and the surface of the mounting plate is provided with an anti-skid component.

Preferably, the anti-skid component comprises an embedded groove and a rubber gasket, the embedded groove is arranged on the surface of the installation plate, the embedded groove is a "ten" groove, the rubber gasket is a cruciform-structuredd plate, the rubber gasket is fixed in the embedded groove, and the rubber gasket protruding into the slot.

Preferably, the supporting components include a block, installation slot, spring, rubber column, buffer plate, rubber pad, limit block and chute, block fixed on the surface of the installation plate, the surface of the body is provided with a lap slot, block into the lap slot, the installation slot is "convex" groove, the installation slot is set on the surface of the block, the height of the installation slot is less than the height of the block.

Preferably, the buffer plate is inserted in the installation slot, the rubber pad is fixed at the top of the buffer plate, the bottom of the buffer plate is fixed with a spring and a rubber column, the spring is set on the outside of the rubber column.

Preferably, the surface of the block is provided with a chute, the chute and the installation slot is connected, the limit block is fixed on the surface of the buffer plate, and the limit block is sliding connected in the chute.

Preferably, the locking mechanism comprises a connecting block, screw hole, positioning screw, positioning hole and screw handle, the connecting block is fixed on the bottom surface of the fiber distribution box body, the screw hole is set on the surface of the connecting block, positioning screw through and screw hole, positioning screw one end is inserted into the positioning hole, positioning hole is set on the surface of the mounting plate.

Preferably, the rotating handle is fixed on the other end of the positioning screw, the rotating handle is a cruciform-structured plate structure.

Compared with the prior art, the beneficial effects of the invention are:

The multi-network fusion Internet of Things fiber distribution box proposed by the invention is designed separately between the box body and the installation component installed on the wall, and the fiber distribution box body can be lifted and adjusted along the installation component. When inspecting the internal line of the fiber distribution box body, the fiber distribution box body can be lowered along the installation component, and the lifting fiber distribution box body can be limited by locking mechanism. In this way, the body of the fiber distribution box can be repaired without the aid of the ladder.

Brief Description of the Drawings

Figure 1 is a schematic diagram of the invention;

Figure 2 is a schematic diagram of the bottom structure of the invention;

Figure 3 is a schematic diagram of the back structure of the invention;

Figure 4 is an intention of the half-section structure of the invention;

Figure 5 is a schematic diagram of the mounting plate structure of the invention;

Figure 6 is a schematic diagram of the connection structure of the baffle and the buffer plate of the invention;

Figure 7 is a schematic diagram of the back structure of the fiber distribution box body of the invention.

In the Figures: fiber distribution box body 1, guide rail groove 2, guide rail 3, mounting plate 4, reserved hole 5, lap groove 6, stop block 7, installation slot 8, spring 9, rubber column 10, buffer plate 11, rubber pad 12, limit block 13, slide 14, connecting block 15, screw hole 18, positioning screw 17, positioning hole 18, screw handle 19, embedded groove 20, rubber pad 21.

Specific Implementation Methods

The following is a clear and complete description of the technical scheme in the implementation method of the invention in combination with the Figures attached to the implementation method of the invention. Obviously, the described implementation method is only a part of the implementation method of the invention, but not the whole implementation method. Based on the implementation methods of the invention, all other implementation methods obtained by ordinary technicians in the field without creative labor are within the scope of protection of the invention.

Implementation method 1

Please refer to Figure 1 to Figure 4. The invention provides a technical scheme: The invention relates to a multi-network convergence Internet of Things fiber distribution box, including fiber distribution box body 1, the surface of the fiber distribution box body 1 is sliding connected with an installation component, the surface of the installation component is provided with a supporting component, used for the sliding fiber distribution box body 1 to undertake a limit, a locking mechanism is arranged between the fiber distribution box body 1 and the installation component, the lifting of the fiber distribution box body 1 bearing limit;

The box body and the installation component installed on the wall are designed separately, and the fiber distribution box body 1 can be adjusted up and down along the installation component. When inspecting the internal line of fiber distribution box body 1, the fiber distribution box body 1 can be lowered along the installation component. The locking mechanism is used to limit the lifted fiber distribution box body 1, so that the fiber distribution box body 1 can be repaired without the help of a ladder.

Implementation method 2

On the basis of implementation method 1, in order to realize the suspension installation of fiber distribution box body 1, the installation component includes guide groove 2, guide rail 3, mounting plate 4 and reserved hole 5, guide groove 2 is set on the surface of fiber distribution box body 1, guide groove 2 is provided with two groups, two groups of guide groove 2 parallel, and guide groove 2 is a "convex"-shaped groove, guide groove 2 through fiber distribution box body 1. The guide rail 3 is a "convex"-shaped plate structure, guide rail 3 and guide rail groove 2 one by one, the guide rail 3 sliding connected in the guide rail groove 2, and the guide rail 3 is fixed on the surface of the installation plate 4, the surface of the installation plate 4 is provided with a plurality of reserved holes 5, the surface of the installation plate 4 is provided with anti-skid components, anti-skid components include embedded groove 20 and rubber pad 21. The embedding groove 20 is arranged on the surface of the mounting plate 4. The embedding groove 20 is a cruciform-structured groove, and the rubber gasket 21 is a cruciform-structured plate. The rubber gasket 21 is fixed inside the embedding groove 20, and the rubber gasket 21 is protruding from the embedding groove 20.

Implementation method 3

Referring to the attached Figure 6, on the basis of implementation method 2, in order to realize the supporting limit for the lower fiber distribution box body 1, the supporting components include stop block 7, mounting slot 8, spring 9, rubber column 10, buffer plate 11, rubber cushion strip 12, limiting block 13 and chute 14, stop block 7 is fixed on the surface of mounting plate 4, and lap slot 6 is provided on the surface of fiber distribution box body 1.

Block 7 extends into the lap slot 6, the installation slot 8 is a "convex" groove, the installation slot 8 is opened on the surface of block 7, the height of the installation slot 8 is less than the height of block 7, the buffer plate 11 activity inserted in the installation slot 8, the rubber pad 5 strip 12 is fixed on the top of the buffer plate 11, the buffer plate 11 is fixed at the bottom of the spring 9 and rubber column 10. The spring © set is located on the outside of the rubber column 10, the surface of the block 7 is provided with a chute 14, chute 14 and the installation slot 8 is connected, the limit block 13 is fixed on the surface of the buffer plate 11, and the limit block 13 is sliding connected in the chute 14.

Implementation method 4

On the basis of implementation method 3, in order to realize the support limit for the fiber distribution box body 1 after lifting, the locking mechanism comprises connecting block 15, screw hole 16, positioning screw 17, positioning hole 18 and screwing handle 19.

Connecting block 15 is fixed on the bottom surface of fiber distribution box body 1, screw hole 16 is set on the surface of connecting block 15, positioning screw 17 runs through and is connected to screw hole 16. One end of the positioning screw 17 is inserted into the positioning hole 18, which is arranged on the surface of the mounting plate 4. The screw 19 is fixed on the other end of the positioning screw 17, and the screw 19 is a cruciform- structured plate structure.

In actual use, a bolt is used to fix the mounting plate 4 on the wall through the reserved hole 5. After the reserved hole 5 is locked, the rubber washer plate 21 is squeezed into slot 20, and the resilience of the rubber washer plate 21 compensates the spring of the gasket of the bolt. When the fiber distribution box body 1 needs to be lowered, manually twist the handle 19 and screw the positioning screw 17 out of the positioning hole 18. At this time, the fiber distribution box body 1 can slide along the guide rail 3 until the top surface of lap slot 6 hits the buffer plate 11, the buffer plate 11 moves down the extrusion spring 9 and rubber column 10 to realize the buffer of the fiber distribution box body 1, and the fiber distribution box body 1 after falling is easy to operate the internal line.

Notwithstanding that implementation methods of the invention have been shown and described, it is understandable to the ordinary technical person in the field that many variations, modifications, substitutions and variations may be made to these implementation methods without deviating from the principle and spirit of the invention, and that the scope of the invention is limited by the attached claims and their equivalents.

Claims

Conclusions

1. Fiber distribution box for convergent multi-network of the Internet of Things ("Internet of Things"), comprising a fiber distribution box body (1), characterized in that the surface of the fiber distribution box body (1) is slidingly connected to an installation element , wherein the surface of the installation element is provided with a support element, so that the sliding fiber distribution box body (1) can reach the boundary, wherein the fiber distribution box body (1) and the installation element are provided with a locking mechanism, which allows the lifting of the fiber distribution box body (1) is limited.

2. Fiber distribution box for multi-network convergence according to Claim 1, characterized in that the mounting structure comprises at least one groove (2) for a guide rail, as well as at least one guide rail (3), a mounting plate (4) and a pre-drilled hole ( 5), wherein the at least one guide rail groove (2) is provided on the surface of the fiber distribution box body (1), wherein the at least one guide rail groove (2) includes two grooves parallel to each other, and the at least one groove (2) for the guide rail is a "convex" groove passing through the fiber distribution box body (1), the guide rail (3) being a plate structure of "convex" shape, the guide rail (3) and the groove (2) for the guide rail correspond one to one with each other and the guide rail (3) is slidably fitted into the groove (2) for the guide rail, with the guide rail (3) being fixed on the surface of the installation plate (4), the The surface of the installation plate {4} is provided with several pre-drilled holes (5) and with anti-slip elements.

A fiber distribution box for multi-network convergence according to Claim 2, characterized in that the anti-slip element comprises an embedded groove (20) and a rubber seal (21), the embedded groove (20) on the surface of the installation plate (4) is fitted, the embedded groove (20} is a "ten" groove, the rubber sealing plate (21) is a cross-shaped plate, the rubber sealing plate (21) is fixed in the embedded groove (20), and the rubber sealing plate ( 21) protrudes from the embedded groove (20).

4, Fiber distribution box for multi-network convergence according to Claim 2, characterized in that the supporting element has a stop block (7), a mounting slot (8), a spring (9), a rubber column (10), a buffer plate (11), a rubber filler strip {12), a limiter block {13) and a filler opening (14), with a stop block (7) attached to the surface of the mounting plate (4) and the surface of the fiber distribution box body (1) of a overlap groove (6) is provided, with block (7) extending into the overlap groove (6), the installation groove (8) being a "convex" groove, which is attached to the surface of the block (7)

where the height of the installation groove (8) is less than the height of the block

(7).

A fiber distribution box for multi-network convergence according to Claim 4, characterized in that the buffer plate (11) is inserted into the mounting slot (8), the rubber filler strip (12) is fixed on the top of the buffer plate (11), and a spring (9) and a rubber column (10) are attached to the bottom of the buffer plate (11), with the spring (9) being fitted on the outside around the rubber column (10).

6. Fiber distribution box for multi-network convergence according to Claim 4, characterized in that the surface of the stop block (7) is provided with a filling opening (14), the filling opening (14) being connected to the mounting slot (8), the limiter block (13) is fixed on the surface of the buffer plate (11) and the limiter block (13) is securely fastened in the filler opening (14).

A multi-network converged fiber distribution box according to Claim 1, characterized in that the locking mechanism comprises a connecting block (15), a screw hole (16), a positioning screw (17), a positioning hole (18) and a screw handle (19), wherein the connecting block (15) is fixed on the base surface of the fiber distribution box body (1), the screw hole (16) is on the surface of the connecting block (15), the positioning screw (17) passes through the screw hole (16) and one end of the positioning screw (17) is inserted into the positioning hole (18) provided on the surface of the mounting plate (4).

A multi-network convergence fiber distribution box according to Claim 7, characterized in that the screw handle {19) is attached to the other end of the positioning screw (17), and the screw handle (19) has a cross-shaped plate structure.

9. Fiber distribution box for convergent multi-network of the Internet of Things, comprising a fiber distribution box body (1), characterized in that the surface of the fiber distribution box body (1) is slidingly connected to an installation element, the surface of the installation element is provided with a support element, so that the sliding fiber distribution box body (1) can reach the limit, wherein the fiber distribution box body (1) and the installation element are provided with a locking mechanism, which allows the lifting of the fiber distribution box body (1) limited, wherein the mounting structure comprises at least one groove (2) for a guide rail, as well as at least one guide rail (3), a mounting plate (4) and a pre-drilled hole (5), wherein the at least one groove (2) ) for the guide rail is provided on the surface of the fiber distribution box body (1), the at least one groove (2) for the guide rail comprising two grooves parallel to each other, and the at least one groove (2) for the guide rail guide rail is a "convex" groove running through the fiber distribution box body (1), wherein the guide rail (3) is a plate structure of "convex" shape, where the guide rail (3) and the groove (2) for the guide rail are one in one correspond with each other and the guide rail (3) is slidably arranged in the groove (2) for the guide rail, whereby the guide rail (3) is fixed to the surface of the installation plate (4), the surface of the installation plate (4) is provided of several pre-drilled holes (5) and of anti-slip elements, where the support element is a stop block (7), a mounting slot (8), a spring (9), a rubber column (10), a buffer plate (11), a rubber filler strip (12), a limiter block (13) and a filler hole (14), wherein a stop block {7) is fixed on the surface of the mounting plate (4) and the surface of the fiber distribution box body (1) of an overlap groove ( 6) is provided, with block (7) extending into the overlap groove (6), the installation groove (8) being a "convex" groove arranged on the surface of the block (7), the height of the installation groove (8) is less than the height of the block (7).