CN114465965A - Network data transmission branch switch - Google Patents

Abstract

The invention relates to the technical field of network data, in particular to a network data transmission branch switch. The flow collecting assembly is positioned on one side of one end of the switch combined assembly, the switch combined assembly comprises a backing switch, a flow through groove, an upper bearing pipe, a reduced pitch fault, a connecting groove, a side bump, a superposed switch, a containing groove, an elastic telescopic rod and a rotary clamping rod, the flow through groove uniformly penetrates through the middle side of the upper end of the backing switch, the upper bearing pipe is welded on the middle side of the upper end of the backing switch, the reduced pitch fault is arranged on the outer side of the middle end of the upper bearing pipe, and the connecting groove penetrates through the middle side of the lower end of the upper bearing pipe; the method and the system are convenient for normal work of the switches, and meanwhile, the method and the system can limit splicing of a plurality of switches, so that workers can take the switches conveniently.

Description

Network data transmission branch switch

Technical Field

The invention relates to the technical field of network data, in particular to a network data transmission branch switch.

Background

And present network switch can be an embedded switch, and current imbeds when the wall to a plurality of embedded switches, can laminate between a plurality of network switches and superpose and place, and this kind of condition of placing can lead to being in the unable circulation of air heat dissipation of carrying on of switch in the middle of, leads to partial switch unable normal operation of carrying on, and the switch that the laminating was placed in addition is not convenient for staff's taking.

Disclosure of Invention

The present invention is directed to a network data transmission branch exchange to solve the above-mentioned problems.

In order to achieve the purpose, the invention provides the following technical scheme: a network data transmission branch switch is characterized in that a current collecting component is located on one side of one end of a switch combined component, wherein the switch combined component comprises a backing switch, a flow through groove, an upper bearing pipe, a reduction fault, a connecting groove, a side lug, a superposition switch, a containing groove, an elastic telescopic rod and a rotary clamping rod, the flow through groove uniformly penetrates through the middle side of the upper end of the backing switch, the upper bearing pipe is welded on the middle side of the upper end of the backing switch, the reduction fault is arranged on the outer side of the middle end of the upper bearing pipe, and the connecting groove penetrates through the middle side of the lower end of the upper bearing pipe;

the side convex blocks are symmetrically positioned on two sides of the inner end of the shrinkage distance fault, the stacking switch is positioned above the bedding switch, the containing groove is formed in the middle side of the lower end of the stacking switch, the elastic telescopic rod is positioned in the middle side of the inner end of the containing groove, and the rotary clamping rod is connected to the lower end of the elastic telescopic rod through a rotating shaft.

Preferably, the connecting groove is formed in a position corresponding to the through-flow groove, the cross section of the side projection is semicircular, the side projection and the upper bearing pipe are integrally formed, the stacking switch is located at the upper end of the upper bearing pipe, the elastic telescopic rod is connected to the stacking switch through a screw, and the rotary clamping rod is rectangular.

Preferably, an inner acting cylinder in welded connection is placed on one side of the inner end of the upper bearing pipe, a movable disc is placed on one side of the inner end of the inner acting cylinder, the middle end of the movable disc penetrates through a movable guide pipe in welded connection, one end of the movable guide pipe penetrates through one end of the inner acting cylinder to be arranged, a supporting spring is sleeved at one end of the movable guide pipe, a staggered through groove is uniformly formed in one end of the movable guide pipe in a penetrating mode, the supporting spring is located on the outer side of the movable disc, and a guiding supporting pipe in welded connection is arranged at one end of the movable guide pipe.

Preferably, the other side of the inner end of the upper bearing pipe is provided with a cut-in pipe in welded connection, the cut-in pipe is in a conical table shape, the cut-in joint ring is arranged on one side of the inner end of the pipe, one end of the joint ring is uniformly provided with a spring-open pressing plate in screw connection, the cross section of the spring-open pressing plate is in an arc shape, one end of the spring-open pressing plate is provided with an integrally-formed inner sticking ring, and the inner sticking ring is arranged in a manner of inclining for three degrees on the spring-open pressing plate.

Preferably, the containing groove lower extreme bilateral symmetry has placed solid fixed splint, wherein has placed the rotation fixture block, one of them solid fixed splint upper end rotate the fixture block welding in the upper end of one of them solid fixed splint, another solid fixed splint upper end sets up welded connection's increase apart from the cushion, another rotate fixture block welded connection in the upper end of increasing apart from the cushion, the conflict fixture block has been placed to rotation fixture block one end downside, and wherein carry out welded connection between conflict fixture block and the stack switch, well solid fixed splint lower extreme sets up integrated into one piece's introduction crop, and wherein solid fixed splint one end downside is seted up the embedding draw-in groove.

Preferably, the two fixed splint are arranged in an arc shape, wherein the two fixed splint are positioned at two sides of the inner end of the shrinkage distance fault, the middle side of the middle end of the fixed splint is provided with an access slot in a penetrating way, the shape of the lead-in cutting head arrangement is cylindrical, and one end of the side protruding block is placed at the inner end of the embedded slot.

Preferably, the flow collecting assembly comprises a flow collecting pipe, a butt joint clamping groove, a replaceable pipeline, a locking snap ring, a sealing end cap, a limiting plate, an extension outer plate, a placing cylinder, a turbulent flow fan, a cooling conveying pipe and a filter screen which are arranged at one end of the flow collecting assembly in a penetrating way, wherein the butt joint clamping groove is arranged at one side of one end of the collecting pipe, the replaceable pipeline is positioned at the upper end of the collecting pipe, wherein the locking snap ring is welded at the lower end of the replaceable pipeline, the sealing end cap is screwed at the upper end of the replaceable pipeline, wherein the limiting plate is sleeved at the middle side of one end of the collecting pipe, the extension outer plate is welded and connected with the two sides of one end of the limiting plate, wherein the placing cylinder is welded and connected with one end of the collecting pipe, the turbulent flow fan is movably connected with one side of the inner end of the placing cylinder, the cooling conveying pipe is connected to one side of the inner end of the placing cylinder through a screw, and the filter network card is connected to one side of the inner end of the placing cylinder in a buckled mode.

Preferably, the collecting pipe is located on one side of the bedding foundation switch, one of the cut-in guide pipes is arranged in the butt joint clamping groove in a penetrating mode, the locking clamping ring is screwed on the inner side of the upper end of the collecting pipe, and the two extension outer plates are connected to the bedding foundation switch through buckles.

Compared with the prior art, the invention has the beneficial effects that:

1. through the arrangement of the invention, when a plurality of switches are embedded and placed, the switches cannot be attached and superposed, so that the switches can normally work;

2. through the arrangement of the invention, in the process of splicing a plurality of switches, the air in the switches can be mutually circulated and finally circulated in the outside air, so that the heat emitted by the switches is prevented from being condensed and not dispersed in the embedded groove, and the problem of heat generation of the switches during long-time work can be effectively solved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of a half-section of the underfloor switch of the present invention;

FIG. 3 is a schematic front view of a half-section of a stacked switch according to the present invention;

FIG. 4 is a schematic view of a header in semi-section according to the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 2 according to the present invention;

fig. 6 is an enlarged view of the invention at B in fig. 3.

In the figure: the device comprises a bottoming exchanger 1, a through-flow groove 11, an upper bearing pipe 12, an inner acting cylinder 1201, a movable disc 1202, a movable guide pipe 1203, a supporting spring 1204, a dislocation through groove 1205, a guiding supporting pipe 1206, a cut-in guide pipe 1207, an attaching ring 1208, a spring-open pressing plate 1209, an inner attaching ring 1210, a shrinkage fault 13, a connecting groove 14, a side convex block 15, a superposed exchanger 16, a containing groove 17, a fixed clamping plate 1701, a rotating clamping block 1702, a distance-increasing cushion 1703, an abutting clamping block 1704, a leading-in cutting head 1705, an embedding clamping groove 1706, an access groove 1707, an elastic telescopic rod 18, a rotating clamping rod 19, a collecting pipe 2, a butt-joint clamping groove 21, a replaceable pipe 22, a locking clamping ring 23, a sealing end cap 24, a limiting plate 25, an extending outer plate 26, a placing cylinder 27, a disturbing flow fan 28, a cooling conveying pipe 29 and a filter screen 210.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: the switch assembly comprises a switch assembly with an attachment avoiding function and a current collecting assembly with a current collecting and heat dissipating function, wherein the current collecting assembly is positioned on one side of one end of the switch assembly, the switch assembly comprises a backing switch 1, a current flowing groove 11, an upper bearing pipe 12, a shrinkage fault 13, a connecting groove 14, a side convex block 15, a superposed switch 16, a containing groove 17, an elastic telescopic rod 18 and a rotary clamping rod 19, the current flowing groove 11 uniformly penetrates through the middle side of the upper end of the backing switch 1, the upper bearing pipe 12 is welded on the middle side of the upper end of the backing switch 1, the shrinkage fault 13 is arranged on the outer side of the middle end of the upper bearing pipe 12, and the connecting groove 14 penetrates through the middle side of the lower end of the upper bearing pipe 12;

by means of the arrangement of the through-flow groove 11 and the connecting groove 14, the upper bearing pipe 12 and the exchanger are communicated with each other, and later centralized heat dissipation treatment is facilitated.

The side convex blocks 15 are symmetrically positioned on two sides of the inner end of the shrinkage fault 13, the stacking switch 16 is positioned above the bedding switch 1, the containing groove 17 is formed in the middle side of the lower end of the stacking switch 16, the elastic telescopic rod 18 is positioned on the middle side of the inner end of the containing groove 17, and the rotary clamping rod 19 is connected to the lower end of the elastic telescopic rod 18 through a rotating shaft.

The stacking exchanger 16 is provided with an upper bearing pipe 12 and the like which are arranged on the same underlying exchanger 1.

The connecting groove 14 is opened at a position corresponding to the through-flow groove 11, wherein the lateral convex block 15 is arranged with a semicircular cross section, the upper adapting pipe 12 and the lateral convex block 15 are in an integrally formed structure, the superposition switch 16 is positioned at the upper end of the upper adapting pipe 12, the elastic telescopic rod 18 is connected on the superposition switch 16 by a screw, and the rotary clamping rod 19 is arranged with a rectangular shape.

An inner working cylinder 1201 which is connected in a welding mode is placed on one side of the inner end of the upper bearing pipe 12, a movable disc 1202 is placed on one side of the inner end of the inner working cylinder 1201, a movable guide pipe 1203 which is connected in a welding mode penetrates through the middle end of the movable disc 1202, one end of the movable guide pipe 1203 penetrates through one end of the inner working cylinder 1201 and is arranged, a supporting spring 1204 is sleeved at one end of the movable guide pipe 1201, a staggered through groove 1205 is evenly formed in one end of the movable guide pipe 1201 in a penetrating mode, the supporting spring 1204 is located on the outer side of the movable disc 1202, and a guiding supporting pipe 1206 which is connected in a welding mode is arranged at one end of the movable guide pipe 1203.

When a plurality of exchangers are stacked in a left-right transverse mode, the cut-in guide pipe 1207 is inserted into one end of the upper bearing pipe 12, one end of the moving guide pipe 1203 enters one side of the inner end of the cut-in guide pipe 1207, the moving guide pipe 1203 is squeezed by the bouncing pressing plate 1209, the supporting spring 1204 is deformed, then one end of the moving guide pipe 1203 penetrates through one end of the inner acting cylinder 1201 to be arranged, the staggered through groove 1205 is made to leak out, then the moving guide pipe 1203 pushes the bouncing pressing plate 1209 and the inner sticking ring 1210, and the bouncing pressing plate 1209 is deformed, so that the moving guide pipe 1203 and the cut-in guide pipe 1207 are communicated.

Further, when the pop-up flaps 1209 are not pressed, the pop-up flaps 1209 close together, which allows the incised catheter 1207 to be sealed when not in use.

The other side of the inner end of the upper bearing pipe 12 is provided with a cut-in guide pipe 1207 which is connected in a welding mode, the cut-in guide pipe 1207 is arranged in a conical table shape, a fit ring 1208 is arranged on one side of the inner end of the guide pipe 1207, one end of the fit ring 1208 is evenly provided with a spring-open pressing plate 1209 which is connected through screws, the cross section of the spring-open pressing plate 1209 is in an arc shape, one end of the spring-open pressing plate 1209 is provided with an integrally formed inner pasting ring 1210, and the inner pasting ring 1210 is arranged on the spring-open pressing plate 1209 in a tilting mode for three degrees.

Accomodate and hold 17 lower extreme bilateral symmetry and place fixed splint 1701, wherein fixed splint 1701 upper end has placed rotation fixture block 1702, one of them rotation fixture block 1702 welds the upper end at one of them fixed splint 1701, another fixed splint 1701 upper end sets up welded connection's increase apart from cushion 1703, another rotation fixture block 1702 welded connection is in the upper end of increase apart from cushion 1703, rotation fixture block 1702 one end downside has placed conflict fixture block 1704, wherein carry out welded connection between conflict fixture block 1704 and the superimposed switch 16, well fixed splint 1701 lower extreme sets up integrated into one piece's introduction crop 1705, wherein embedding draw-in groove 1706 is seted up to fixed splint 1701 one end downside.

When a plurality of exchangers are spliced up and down, the backing exchanger 1 is placed at the lower part, the superposed exchanger 16 is placed above the backing exchanger 1, and the middle end of the upper bearing pipe 12 is clamped by using the leading-in cut end 1705 and the fixed splint 1701;

in addition, when the upper and lower overlapping between the exchanges is not performed, the fixed clamping plates 1701 can rotate through the rotating clamping blocks 1702, and under the action of the distance increasing cushion blocks 1703, the two fixed clamping plates 1701 are overlapped and stored in the storage containing grooves 17, meanwhile, the rotating clamping rods 19 sequentially penetrate through the two access grooves 1707, then the rotating clamping rods 19 are rotated, and the positions of the two fixed clamping plates 1701 are limited through the elastic telescopic rods 18.

The two rotating latch 1702 and the stacking switch 16 are connected by a torsion spring, so that the rotating latch 1702 can be opened outwards, and the interference latch 1704 can limit the position of the rotating latch 1702, and then the rotating latch 1702 can be stopped after rotating ninety degrees.

The two fixed clamping plates 1701 are arranged in an arc shape, wherein the two fixed clamping plates 1701 are positioned on two sides of the inner end of the reduced pitch fault 13, the middle side of the middle end of each fixed clamping plate 1701 is provided with an access slot 1707 in a penetrating mode, the leading-in cut ends 1705 are arranged in a cylindrical shape, and one end of the side protruding block 15 is placed at the inner end of the embedding clamping slot 1706.

The collecting assembly comprises a collecting pipe 2, a butt joint clamping groove 21, a replaceable pipeline 22, a locking snap ring 23, a sealing end cap 24, a limiting plate 25, an extension outer plate 26, a placing cylinder 27, a turbulent flow fan 28, a cooling conveying pipe 29 and a filter screen 210, wherein the butt joint clamping groove 21 is formed in one end side of the collecting pipe 2, the replaceable pipeline 22 is located at the upper end of the collecting pipe 2, the locking snap ring 23 is welded to the lower end of the replaceable pipeline 22, the sealing end cap 24 is screwed to the upper end of the replaceable pipeline 22, the limiting plate 25 is sleeved on the middle side of one end of the collecting pipe 2, the extension outer plate 26 is welded to two sides of one end of the limiting plate 25, the placing cylinder 27 is welded to one end of the collecting pipe 2, the turbulent flow fan 28 is movably connected to one side of the inner end of the placing cylinder 27, the cooling conveying pipe 29 is connected to one side of the inner end of the placing cylinder 27 through screws, the filter screen 210 is snap-fitted to the inner end side of the placing cylinder 27.

The number of the replaceable pipelines 22 stacked up and down can be added, wherein one end of each replaceable pipeline 22 is provided with a butt joint clamping groove as the same as the collecting pipe 2.

The incision conduit 1207 inside the docking bay 21 does not have an incision plate 1209 and an inner attachment ring 1210.

The collecting pipe 2 is located at one side of the bedding foundation switch 1, wherein one cut-in conduit 1207 is arranged in the butt joint clamping groove 21 in a penetrating mode, the locking clamping ring 23 is in threaded connection with the inner side of the upper end of the collecting pipe 2, and the two extending outer plates 26 are connected to the bedding foundation switch 1 through a buckle.

When needs dispel the heat to a plurality of switches, start vortex fan 28, vortex fan 28 can be bled or aerify a plurality of switches for the heat of switch receives the disturbance, is convenient for quick dispels the heat to the switch.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a network data transmission branch switch, including the switch built-up component of avoiding laminating the function with the collection stream subassembly that has the mass flow heat dissipation function, its characterized in that: the flow collecting assembly is positioned on one side of one end of the switch combined assembly, wherein the switch combined assembly comprises a backing switch, a flow through groove, an upper bearing pipe, a shrinkage fault, a connecting groove, a side bump, a superposed switch, a containing groove, an elastic telescopic rod and a rotary clamping rod;

the flow through grooves are uniformly penetrated and arranged in the middle side of the upper end of the bedding foundation exchanger, the upper bearing pipe is welded in the middle side of the upper end of the bedding foundation exchanger, the shrinkage distance fault is arranged on the outer side of the middle end of the upper bearing pipe, and the connecting grooves penetrate through the middle side of the lower end of the upper bearing pipe;

the side convex blocks are symmetrically positioned on two sides of the inner end of the shrinkage distance fault, the stacking switch is positioned above the bedding switch, the containing groove is formed in the middle side of the lower end of the stacking switch, the elastic telescopic rod is positioned in the middle side of the inner end of the containing groove, and the rotary clamping rod is connected to the lower end of the elastic telescopic rod through a rotating shaft.

2. The network data transmission branch switch according to claim 1, wherein: the position that the spread groove was seted up corresponds with the position that the through-flow groove was seted up, and wherein the lateral lobe piece is arranged the cross section shape and is semi-circular, be integrated into one piece's structure between lateral lobe piece and the last bolster, wherein superpose the switch and be located the upper end of last bolster, the elasticity telescopic link is connected on superpose the switch by the screw, and wherein the shape that rotatory kelly was arranged is the rectangle.

3. The network data transmission branch switch according to claim 2, wherein: the inner working cylinder is welded to one side of the inner end of the upper bearing pipe, the movable disc is placed on one side of the inner end of the inner working cylinder, the middle end of the movable disc penetrates through the movable guide pipe which is welded to be arranged, one end of the movable guide pipe penetrates through one end of the inner working cylinder to be arranged, one end of the movable guide pipe is sleeved with a supporting spring, one end of the movable guide pipe uniformly penetrates through a staggered through groove, the supporting spring is located on the outer side of the movable disc, and one end of the movable guide pipe is provided with a guide supporting pipe which is welded to be connected.

4. A network data transmission branch switch according to claim 3, characterized in that: the utility model discloses a pipe is opened to last bolster, including last bolster, it sets up welded connection's the pipe of cutting into to go up the inner opposite side of bolster, wherein cuts into the shape that the pipe was arranged and be the toper platform, cut into the laminating ring that pipe inner one side was arranged, wherein laminating ring one end evenly sets up the bullet of screw connection and opens the clamp plate, the cross sectional shape that the clamp plate was arranged is the arc to the bullet, wherein pops open clamp plate one end and sets up integrated into one piece's interior subsides ring, interior subsides ring inclines three degrees on the bullet opens the clamp plate and arranges.

5. The network data transmission branch switch according to claim 1, wherein: accomodate and hold groove lower extreme bilateral symmetry and placed solid fixed splint, wherein solid fixed splint upper end has placed and has rotated the fixture block, one of them the rotation fixture block welding is in the upper end of one of them solid fixed splint, another solid fixed splint upper end sets up welded connection's increase apart from the cushion, another rotate fixture block welded connection in the upper end of increasing apart from the cushion, the conflict fixture block has been placed to rotation fixture block one end downside, wherein carries out welded connection between conflict fixture block and the stack switch, well solid fixed splint lower extreme sets up integrated into one piece's introduction crop, and wherein solid fixed splint one end downside is seted up the embedding draw-in groove.

6. The network data transmission branch switch according to claim 5, wherein: two the shape that the solid fixed splint arranged is the arc, wherein two the solid fixed splint are located the inner both sides of shrinkage distance fault, the inboard of solid fixed splint middle-end runs through and sets up the access slot, and the shape that wherein introduces the crop and arrange is cylindrical, the one end of side lug is placed to the inner of embedding draw-in groove.

7. The network data transmission branch switch according to claim 1, wherein: the collecting assembly comprises a collecting pipe, a butt joint clamping groove, a replaceable pipeline, a locking clamping ring, a sealing end cap, a limiting plate, an extension outer plate, a placing cylinder, a turbulent flow fan, a cooling conveying pipe and a filter screen which are arranged at one end of the collecting pipe, wherein the butt joint clamping groove is arranged at one side of one end of the collecting pipe, the replaceable pipeline is positioned at the upper end of the collecting pipe, wherein the locking snap ring is welded at the lower end of the replaceable pipeline, the sealing end cap is screwed at the upper end of the replaceable pipeline, wherein the limiting plate is sleeved at the middle side of one end of the collecting pipe, the extension outer plate is welded and connected with the two sides of one end of the limiting plate, wherein the placing cylinder is welded and connected with one end of the collecting pipe, the turbulent flow fan is movably connected with one side of the inner end of the placing cylinder, wherein the cooling delivery pipe is connected to one side of the inner end of the placing cylinder through a screw, and the filter screen card is connected to one side of the inner end of the placing cylinder in a buckling manner.

8. The network data transmission branch switch according to claim 7, wherein: the collecting pipe is located on one side of the bedding foundation switch, one cut-in conduit is arranged in the butt joint clamping groove in a penetrating mode, the locking clamping ring is in screwed connection with the inner side of the upper end of the collecting pipe, and the two extending outer plates are connected to the bedding foundation switch through buckles.

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