CN219919392U - Assembly component for stable connection of multiple 5G network devices - Google Patents

Abstract

The utility model discloses an assembly component for stable connection of a plurality of 5G network devices, and relates to the technical field of network devices. The utility model comprises a first diagonal plate and a second diagonal plate positioned on the right of the first diagonal plate, wherein telescopic columns are fixed at the front and rear parts of the lower sides of the first diagonal plate and the second diagonal plate, adjusting rods are arranged at the positions between the two telescopic columns which are consistent in the left and right directions, a semicircular jointed board is connected with the lower side of the first diagonal plate through bolts, a semicircular jointed board is connected with the lower side of the second diagonal plate through bolts, and a strip-shaped board is arranged at the middle part of the lower side of the semicircular jointed board. According to the utility model, the telescopic column slides on the surface side of the adjusting rod, so that the adjustment can be realized according to the width of the network equipment, the practicability of the whole assembly is improved, meanwhile, the disassembly and assembly between the semicircular connecting plate and the semicircular jointed plate are realized, the disassembly and assembly structure can be hidden while the rapid disassembly and assembly are realized, the protruding structures of the first diagonal plate and the second diagonal plate are avoided, and the influence on the network equipment is reduced.

Description

Assembly component for stable connection of multiple 5G network devices

Technical Field

The utility model belongs to the technical field related to network equipment, and particularly relates to an assembly component for stable connection of a plurality of 5G network equipment.

Background

In a 5G network, the internal structure of the existing communication device mostly has chips with corresponding levels, so in order to ensure the stability of signal transmission of the network device, the corresponding stable structure is generally used to position the network device, and when a plurality of network devices are connected, a corresponding assembly component is required to assemble and combine the plurality of network devices, so as to ensure the stability, but the following drawbacks still exist in practical use:

1. when the assembly component is used for connecting a plurality of 5G network devices, the component cannot be adjusted according to the width of the network devices because of the function of adjusting the width, so that the practicability of the component is reduced;

2. when using assembly subassembly, can't carry out dismouting work fast, the dismouting structure is in assembly subassembly's surface simultaneously, makes assembly subassembly's surface have more protruding structure from this, influences the operation to the network equipment.

Therefore, the existing assembly components for stably connecting multiple 5G network devices cannot meet the needs in practical use, so there is an urgent need for improved technologies in the market to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide an assembly component for stably connecting a plurality of 5G network devices, which can realize adjustment according to the width of the network devices by sliding a telescopic column on the surface side of an adjusting rod, improve the practicability of the whole assembly component, realize the disassembly and assembly between a semicircular connecting plate and a semicircular jointed plate, realize the quick disassembly and assembly, and simultaneously hide the disassembly and assembly structure, avoid the protruding structures of a first corner plate and a second corner plate and reduce the influence on the network devices.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to an assembly component for stably connecting a plurality of 5G network devices, which comprises a first diagonal plate and a second diagonal plate positioned on the right of the first diagonal plate, wherein telescopic columns are fixed at the front and rear parts of the lower sides of the first diagonal plate and the second diagonal plate, adjusting rods are arranged at positions between the two telescopic columns which are consistent in the left and right directions, a semicircular jointed plate is connected with the lower side bolt of the first diagonal plate, a semicircular jointed plate is connected with the lower side bolt of the second diagonal plate, a strip-shaped plate is arranged at the middle part of the lower side of the semicircular jointed plate, a limiting hole is formed in the lower side of the semicircular jointed plate, and a clamping rod is arranged in the limiting hole.

Further, the opposite end parts of the two telescopic columns are provided with adjusting holes, and the inner end surfaces of the adjusting holes are provided with movable holes.

Further, the end parts of the adjusting rods, which are arranged in the adjacent movable holes, are respectively fixed with a circular plate, and the surface sides of the adjusting rods, which are positioned in the movable holes, are respectively provided with a pushing spring in a sliding sleeve manner.

Further, rubber strips are fixed on the opposite side walls of the first diagonal plate and the second diagonal plate.

Further, the front and rear parts of the left side of the diagonal plate I are respectively fixed with a convex block, and the positions of the right side of the diagonal plate I, which are consistent with the left and right directions of the convex blocks, are respectively provided with a notch.

Further, a semicircular block is fixed in the middle of the semicircular jointed board, a T-shaped hole is formed in the upper side of the semicircular block, and a T-shaped rod rotationally clamped with the T-shaped hole is fixed on the upper side wall of the strip-shaped plate.

Further, clamping holes are formed in the left and right parts of the strip-shaped plate, and semicircular openings matched with the semicircular blocks are formed in the side walls of the semicircular connecting plates.

Further, the inner end parts of the limiting holes are provided with moving holes, the clamping rods are fixed with moving plates at the inner end sides of the moving holes, and reset springs connected with the inner end surfaces of the moving holes are fixed on the side walls of the moving plates opposite to the clamping rods.

The utility model has the following beneficial effects:

1. when the telescopic device is used, the first diagonal plate and the second diagonal plate move in opposite directions, so that the first diagonal plate and the second diagonal plate can drive the telescopic column to slide on the surface side of the adjusting rod and compress the pushing spring, after the distance between the first diagonal plate and the second diagonal plate is adjusted to be consistent with the width of the network device, the device is placed at the position between the first diagonal plate and the second diagonal plate, the first diagonal plate and the second diagonal plate are loosened, the pushing spring can push the first diagonal plate and the second diagonal plate to reset, and the network device is clamped by the pushing spring, so that the telescopic device can be adjusted according to the width of the network device, and the practicability of the whole assembly is improved.

2. The utility model is used, the convex blocks on one side wall of one diagonal plate are put into the concave positions on the two side walls of the other diagonal plate, so that the semicircular connecting plates and the semicircular jointed plates on the two diagonal plates are connected, and then the strip-shaped plates are rotated, so that the clamping rods are directly clamped into the clamping holes, the semicircular connecting plates and the semicircular jointed plates are assembled together, a plurality of second diagonal plates and a plurality of first diagonal plates can be assembled together, a plurality of 5G network devices can be stably connected, the semicircular connecting plates and the semicircular jointed plates are positioned at the lower side positions of the first diagonal plates and the second diagonal plates, the disassembly structure can be hidden while the rapid disassembly is realized, the protruding structures of the first diagonal plates and the second diagonal plates are avoided, and the influence on network devices is reduced.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure;

FIG. 2 is a bottom schematic view of the overall structure;

FIG. 3 is a block diagram of the assembly of the first diagonal plate, the second diagonal plate and the adjustment lever;

FIG. 4 is a block diagram of a semi-circular splice plate and a semi-circular panel;

FIG. 5 is a block diagram of a half circle panel;

fig. 6 is a structural view of a semicircular plate.

In the drawings, the list of components represented by the various numbers is as follows:

1. a first diagonal plate; 101. a bump; 2. a second diagonal plate; 201. a notch; 3. an adjusting rod; 301. pushing and extruding a spring; 302. a circular plate; 4. a rubber strip; 5. semicircular connecting plates; 501. a moving hole; 502. a limiting hole; 503. a semicircular opening; 6. semicircular jointed boards; 601. a semicircle block; 602. a T-shaped aperture; 603. a strip-shaped plate; 604. a clamping hole; 605. a T-bar; 7. a telescopic column; 701. an adjustment aperture; 702. a movable hole; 8. a clamping rod; 801. a moving plate; 802. and a return spring.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 to 6, the utility model discloses an assembly for stably connecting a plurality of 5G network devices, which comprises a diagonal plate 1 and a diagonal plate 2 positioned on the right of the diagonal plate 1, wherein telescopic columns 7 are fixed at the front and rear parts of the lower sides of the diagonal plate 1 and the diagonal plate 2, an adjusting rod 3 is arranged at the position between the two telescopic columns 7 which are consistent in the left and right directions, when the distance between the diagonal plate 1 and the diagonal plate 2 needs to be adjusted, the diagonal plate 1 and the diagonal plate 2 can be moved relatively or reversely, and then the diagonal plate 1 and the diagonal plate 2 can slide along the surface side of the adjusting rod 3, so that the diagonal plate 1 and the diagonal plate 2 can be adjusted according to the width of the network device;

the lower side bolt connection of the first diagonal plate 1 has semicircle makeup 6, the downside bolt connection of the second diagonal plate 2 has semicircle makeup 5, the middle part position of semicircle makeup 6 downside is provided with strip shaped plate 603, limit hole 502 has been seted up to the position department of semicircle makeup 5 downside, limit hole 502's inside is provided with clamping lever 8, when carrying out assembly work to a plurality of first diagonal plates 2 and first diagonal plate 1, put into the recess 201 position on the lateral wall of another diagonal plate 2 with the lug 101 on the first diagonal plate 1 of one, thereby make semicircle makeup 5 and semicircle makeup 6 on both meet, and then rotate at strip shaped plate 603, so that clamping lever 8 directly blocks into the inside of clamping hole 604, thereby make semicircle fishplate 5 and semicircle makeup 6 assemble together, can make a plurality of first diagonal plates 2 and first diagonal plates 1 assemble together, thereby can be to a plurality of 5G network equipment stable connection.

As shown in fig. 1 to 3, opposite ends of the two telescopic columns 7 are provided with adjusting holes 701, inner end surfaces of the adjusting holes 701 are provided with movable holes 702, ends of the adjusting rods 3 in the adjacent movable holes 702 are fixed with circular plates 302, pushing springs 301 are sleeved on the surface sides of the adjusting rods 3 in the movable holes 702 in a sliding manner, when the first diagonal plate 1 and the second diagonal plate 2 move oppositely, the first diagonal plate 1 and the second diagonal plate 2 drive the telescopic columns 7 to move, so that the telescopic columns 7 slide on the surface sides of the adjusting rods 3 and compress the pushing springs 301, and therefore after the first diagonal plate 1 and the second diagonal plate 2 are loosened, the pushing springs 301 push the telescopic columns 7, so that the telescopic columns 7 are reset, and network equipment of the first diagonal plate 1 and the second diagonal plate 2 is clamped;

rubber strips 4 are fixed on opposite side walls of the diagonal plates 1 and 2, after network equipment is located at a position between the diagonal plates 1 and 2, the network equipment is connected with the rubber strips 4, friction between the rubber strips 4 and the network equipment is increased, so that the network equipment cannot easily deviate from the positions of the diagonal plates 1 and 2, protruding blocks 101 are fixed on front and rear parts of the left side of the diagonal plates 1, notches 201 are formed in positions, consistent with the left and right directions of the protruding blocks 101, of the right side of the diagonal plates 2, and the diagonal plates 1 and 2 can be stably spliced through the protruding blocks 101 located in the notches 201.

As shown in fig. 1, 5 and 6, a semicircular block 601 is fixed in the middle of the semicircular block 6, a T-shaped hole 602 is formed on the upper side of the semicircular block 601, a T-shaped rod 605 rotationally clamped with the T-shaped hole 602 is fixed on the upper side wall of the strip 603, clamping holes 604 are formed on the left and right parts of the strip 603, when the clamping holes 604 on the side wall of the strip 603 are required to be rotated to be consistent with the upper and lower directions of the positions of the limiting holes 502, the strip 603 is directly rotated, and therefore the strip 603 can drive the T-shaped rod 605 to rotate in the T-shaped hole 602 and can drive the clamping holes 604 to rotate to the positions of the clamping rods 8;

the semicircular opening 503 matched with the semicircular block 601 is formed in the side wall of the semicircular connecting plate 5, the moving holes 501 are formed in the inner end portions of the limiting holes 502, the moving plate 801 is fixed on the end side, located inside the moving holes 501, of the clamping rod 8, the reset spring 802 connected with the inner end face of the moving holes 501 is fixed on the side wall, opposite to the side wall, of the clamping rod 8, of the moving plate 801, when the strip 603 is disconnected with the clamping rod 8, the clamping rod 8 can be pressed out of the inside of the clamping hole 604, the clamping rod 8 can drive the moving plate 801 to move in the inside of the moving holes 501 and squeeze the reset spring 802, and therefore after the clamping rod 8 is loosened, the reset spring 802 pushes the moving plate 801 to reset, and the clamping rod 8 can be directly moved out of the inside of the limiting holes 502.

The foregoing is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present utility model.

Claims (8)

1. An assembly for stable connection of a plurality of 5G network devices, comprising a diagonal first (1) and a diagonal second (2) positioned on the right of the diagonal first (1), characterized in that: the telescopic support is characterized in that telescopic columns (7) are fixed on the front and rear parts of the lower sides of the first diagonal plate (1) and the second diagonal plate (2), adjusting rods (3) are arranged at positions between the telescopic columns (7) which are consistent in the left and right directions, semicircular jointed plates (6) are connected to the lower sides of the first diagonal plate (1) through bolts, semicircular jointed plates (5) are connected to the lower sides of the second diagonal plate (2) through bolts, a strip-shaped plate (603) is arranged at the middle position of the lower side of the semicircular jointed plates (6), limiting holes (502) are formed in the positions of the lower sides of the semicircular jointed plates (5), and clamping rods (8) are arranged inside the limiting holes (502).

2. A mounting assembly for stable connection of a plurality of 5G network devices according to claim 1, wherein: the opposite end parts of the two telescopic columns (7) are provided with adjusting holes (701), and the inner end surfaces of the adjusting holes (701) are provided with movable holes (702).

3. A mounting assembly for stable connection of a plurality of 5G network devices according to claim 2, wherein: the adjusting rods (3) are arranged at the end parts inside the adjacent movable holes (702) and are fixedly provided with circular plates (302), and pushing springs (301) are sleeved on the surfaces of the adjusting rods (3) inside the movable holes (702) in a sliding mode.

4. A mounting assembly for stable connection of a plurality of 5G network devices according to claim 1, wherein: rubber strips (4) are fixed on the opposite side walls of the first diagonal plate (1) and the second diagonal plate (2).

5. A mounting assembly for stable connection of a plurality of 5G network devices according to claim 1, wherein: the front and rear parts of the left side of the first diagonal plate (1) are respectively fixed with a lug (101), and the right side of the second diagonal plate (2) is provided with a notch (201) at the position consistent with the left and right directions of the lug (101).

6. A mounting assembly for stable connection of a plurality of 5G network devices according to claim 1, wherein: the middle part position of semicircle makeup (6) is fixed with semicircle piece (601), T shape hole (602) have been seted up to the upside of semicircle piece (601), the upper side wall of strip shaped plate (603) be fixed with T shape pole (605) of T shape hole (602) rotation joint.

7. The assembly for stable connection of a plurality of 5G network devices of claim 6, wherein: clamping holes (604) are formed in the left and right parts of the strip-shaped plate (603), and semicircular openings (503) matched with the semicircular blocks (601) are formed in the side walls of the semicircular connecting plates (5).

8. The assembly for stable connection of a plurality of 5G network devices of claim 7, wherein: the inner end parts of the limiting holes (502) are respectively provided with a moving hole (501), the clamping rods (8) are positioned at the end sides of the inner parts of the moving holes (501), moving plates (801) are fixed on the side walls of the moving plates (801) opposite to the side walls of the clamping rods (8), and reset springs (802) connected with the inner end surfaces of the moving holes (501).