CN115022222A

CN115022222A - Testing arrangement of network switch

Info

Publication number: CN115022222A
Application number: CN202210616377.4A
Authority: CN
Inventors: 刘旺勤
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-06-01
Filing date: 2022-06-01
Publication date: 2022-09-06

Abstract

The invention discloses a testing device of a network switch, which relates to the technical field of network equipment environment testing devices and comprises a high-temperature testing box; the high-temperature test box is characterized in that two box doors are oppositely and rotatably arranged on an opening at the front end of the high-temperature test box, a transmission frame is slidably arranged at the top end of the left and right inner walls of the high-temperature test box, and the transmission frame is integrally formed by a U-shaped sliding frame and a bottom connecting shaft welded below the rear end of the U-shaped sliding frame in a hanging and supporting manner; the lower half parts of the left inner wall and the right inner wall of the high-temperature test box are horizontally welded with a drying bracket, wherein two clamping pieces are symmetrically sleeved on the front transverse supporting rod and the rear transverse supporting rod in a sliding manner, and the switch to be tested is placed at the top end of the drying bracket and is clamped and fixed through the two clamping pieces. The invention can save the trouble of performing extraction and insertion combination and separation on the crystal head, the power connection insertion column and the switch in the high-temperature test box by additional manual force before and after the test, and solves the problems of complicated operation steps, inconvenience in use and low efficiency of the device.

Description

Testing arrangement of network switch

Technical Field

The invention relates to the technical field of network equipment environment testing devices, in particular to a testing device of a network switch.

Background

The finished product of network switch need carry out the weatherability test, can use devices such as high temperature test box when the high temperature test of giving an alarm, and current testing arrangement mostly lacks the synchronous pull-plug mechanism to net twine crystal head and power cord, causes to stretch the hand and inserts to be located the prohibitively space of switch rear side and take out the plug to net twine crystal head and power cord in proper order in shielding the space around the test, and the troublesome poverty inconvenience of operation.

Disclosure of Invention

The invention aims to provide a testing device of a network switch, which is provided with a transmission frame, wherein the transmission frame can drive three hexagonal sliding shafts to slide back and forth to control two crystal heads, an electric plug column and a socket on the switch to be subjected to plug-in combination and disassembly separation, so that the problem that the operation is troublesome and inconvenient because hands need to be stretched to sequentially plug network cables and power cables in a local shielding space inside a high-temperature testing box and at the rear side of the switch is solved.

In order to achieve the purpose, the invention provides the following technical scheme: a testing device of a network switch comprises a high-temperature testing box; two box doors are oppositely and rotatably arranged on the front end opening of the high-temperature test box, and a transmission frame is slidably arranged at the top end of the left inner wall and the right inner wall of the high-temperature test box, and the whole transmission frame consists of a U-shaped sliding frame and a bottom connecting shaft welded below the rear end of the U-shaped sliding frame; the lower half parts of the left inner wall and the right inner wall of the high-temperature test box are horizontally welded with a drying bracket, the whole drying bracket is formed by welding a row of square transverse supporting rods at equal intervals, two clamping pieces are symmetrically and slidably sleeved on the front transverse supporting rod and the rear transverse supporting rod, and the switch to be tested is placed at the top end of the drying bracket and is clamped and fixed through the two clamping pieces; two vertical support rods are symmetrically welded at the top end of the bottom plate of the high-temperature test box, a double-rotation-direction bolt is rotatably installed between the top end sections of the two vertical support rods, a hanging rod is downwards welded on the middle section of each of the two clamping pieces, and the tail end sections of the two hanging rods are in penetrating fit with the double-rotation-direction bolt; two limiting blocks are symmetrically welded on the square transverse stay bar from the back to the front, and the switch to be tested is pressed against the two limiting blocks in a sliding mode.

Preferably, two racks are symmetrically inserted through the front side positions of the top ends of the left and right inner walls of the high-temperature test box, and two connecting rods are oppositely and rotatably connected to tail end sections of the two racks in the high-temperature test box.

Preferably, the top ends of the two box door rotating shafts are sleeved with one driving gear, and the two driving gears are correspondingly meshed with the two racks for transmission.

Preferably, the sliding sleeve is equipped with the installation ear piece of three vertical braces on the horizontal vaulting pole of the rear side shape of stoving bracket, and it has a department puller bolt all to run through to twist soon on the bottom section of four department installation ear pieces, and the top of three department installation ear pieces all runs through to slide has a six arris smooth axle.

Preferably, the rear ends of the six-edge sliding shafts at three positions are respectively welded with a shaft collar, the bottom connecting shaft correspondingly penetrates through the three shaft collars in sliding fit, and the tail ends of the two connecting rods correspondingly and rotatably connected with the cross brace connecting shaft at the front end of the transmission frame.

Preferably, the six-edge sliding shafts in the three positions are all in an L-shaped structure, a positioning lantern ring is fixedly welded at the head end of the six-edge sliding shaft on the right side, and an electric plug-in post penetrates through the positioning lantern ring in an inserted mode.

Preferably, the U-shaped clamping plates are welded and fixed at the head ends of the six-edge sliding shafts at the middle part and the right part, and two movable clamping plates are slidably mounted on the two stationary clamping plates.

Preferably, the upper half part of the two movable clamping plates is supported and welded with two positioning insertion shafts, the lower half part of the clamping plates is provided with two tensioning bolts in a penetrating and rotating mode, the two positioning insertion shafts and the two tensioning bolts are correspondingly matched with the two static clamping plates in a penetrating mode, and the four clamping plates are in a group of two clamping and fixing crystal heads of the network cable.

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

1. according to the invention, through power transmission of the two driving gears, when the two box doors are turned over and opened before and after being tested, the two racks can be meshed to drive the two racks to slide oppositely to provide drawing and inserting driving forces for the transmission frame, the two crystal heads and the electric plug posts, so that the trouble of drawing and inserting combination and separation of the crystal heads, the electric plug posts and the switch in the high-temperature test box by additional manual force before and after testing is saved, the operation steps of the device are simplified, and the device is convenient and efficient to use;

2. according to the invention, the three mounting lugs can drive the power connection plug posts and the two crystal heads to slide left and right to adjust, so that the power connection plug posts and the two crystal heads are suitable for being plugged and matched with network cable jacks with different intervals on different switches, the compatibility of the device is better, and the application is wider;

3. according to the invention, the transmission frame can drive the three hexagonal sliding shafts to slide back and forth to control the two crystal heads, the electric plug posts and the jacks on the switch to be subjected to plug-in combination and disassembly separation, so that the trouble of plugging and unplugging the network cable and the power line in a local shielding space inside the high-temperature test box and at the rear side of the switch is eliminated;

4. according to the invention, the four clamping plates are in a group of two-by-two clamping heads for clamping and fixing the network cable, and the elastic clamping sheet at the top end of the crystal head clamped and fixed in the two clamping plates is removed, so that the trouble that the elastic clamping sheet is matched with the structure clamping sheet in the network cable socket on the switch, and cannot be directly pulled out by the transmission frame in a backward sliding manner, and the elastic clamping sheet needs to be loosened by extra manual operation of personnel is avoided.

Drawings

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

FIG. 2 is a schematic view of the overall rear side structure of the present invention;

FIG. 3 is a schematic view of the overall internal structure of the present invention;

FIG. 4 is a schematic view of the installation position of the double-handed bolt of the present invention;

FIG. 5 is a schematic view of a drying rack according to the present invention;

FIG. 6 is a schematic view of a door of the present invention;

FIG. 7 is a schematic view of the clamp of the present invention mounted for sliding movement;

FIG. 8 is a schematic view of the mounting lug of the present invention;

FIG. 9 is a schematic view of a six-sided slip shaft configuration according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a high temperature test box; 101. a rack; 102. a connecting rod; 103. a double-rotation-direction bolt; 2. a box door; 201. a driving gear; 3. a transfer frame; 301. a bottom connecting shaft; 4. drying the bracket; 401. a clamping member; 402. a boom; 403. mounting an ear block; 404. a hexagonal sliding shaft; 405. a limiting block; 406. a clamping plate.

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.

Referring to fig. 1 to 9, an embodiment of the present invention includes: a testing device of a network switch comprises a high-temperature testing box 1; the front end opening of the high-temperature test box 1 is oppositely and rotatably provided with two box doors 2, the top ends of the left and right inner walls of the high-temperature test box 1 are slidably provided with a transmission frame 3, and the whole transmission frame 3 consists of a U-shaped sliding frame and a bottom connecting shaft 301 which is welded below the rear end of the U-shaped sliding frame in a hanging and supporting manner; a drying bracket 4 is horizontally welded on the lower half part of the left inner wall and the right inner wall of the high-temperature test box 1, the whole drying bracket 4 is formed by welding a row of square transverse supporting rods at equal intervals, two clamping pieces 401 are symmetrically and slidably sleeved on the front and the rear square transverse supporting rods, and a switch to be tested is placed at the top end of the drying bracket 4 and is clamped and fixed through the two clamping pieces 401; two vertical support rods are symmetrically welded at the top end of the bottom plate of the high-temperature test box 1, a double-rotation-direction bolt 103 is rotatably installed between the top end sections of the two vertical support rods, a suspender 402 is downwards welded on the middle section of each of the two clamping pieces 401, and the tail end sections of the suspender 402 are in penetrating fit with the double-rotation-direction bolt 103; two limiting blocks 405 are symmetrically welded on the second formula transverse supporting rod from back to front, the switch to be tested is internally and slidably abutted against the two limiting blocks 405, and the two clamping pieces 401 are driven to oppositely slide by forward and reverse rotation of the double-rotation-direction bolt 103 so as to implement tightness of the switch to be tested; two racks 101 are symmetrically inserted through the front side positions of the top ends of the left and right inner walls of the high-temperature test box 1, and two connecting rods 102 are oppositely and rotatably connected to tail end sections of the two racks 101 in the high-temperature test box 1; the top ends of the rotating shafts of the two box doors 2 are sleeved with a driving gear 201, the two driving gears 201 are correspondingly meshed with the two racks 101 for transmission, the two connecting rods 102, the two racks 101 and the transmission frame 3 are connected together to form a double-crank slider mechanism, the two racks 101 slide left and right in opposite directions to drive the transmission frame 3 to slide back and forth through the mechanism, and the two box doors 2 can be meshed to drive the two racks 101 to slide in opposite directions to provide a drawing and inserting driving force for the transmission frame 3, the two crystal heads and the electric plug columns when being overturned and opened before and after being tested, so that the trouble of drawing and inserting combination and separation of the crystal heads, the electric plug columns and the switchboard in the high-temperature test box 1 by additional manual force before and after the test is eliminated, the operation steps of the device are simplified, and the use is convenient and efficient; the three hexagonal sliding shafts 404 are all in an L-shaped structure, the head end of the right hexagonal sliding shaft 404 is fixedly welded with a positioning lantern ring, and a power connection plug is inserted in the positioning lantern ring in a penetrating manner; the head ends of the middle and right hexagonal sliding shafts 404 are respectively welded and fixed with a U-shaped clamping plate 406, and two movable clamping plates 406 are slidably mounted on the two stationary clamping plates 406.

As shown in fig. 6, the rear lateral transverse brace of the drying bracket 4 is slidably sleeved with three vertically supporting mounting lug blocks 403, the bottom sections of the four mounting lug blocks 403 are all penetrated and screwed with a tightening bolt, the top ends of the three mounting lug blocks 403 are all penetrated and slid with a hexagonal sliding shaft 404, the three mounting lug blocks 403 can drive the power connection plug posts and the two crystal heads to slide left and right for adjusting and matching with network cable sockets at different intervals on different switches, so that the compatibility of the device is better, and the application is wider.

As shown in fig. 7, the rear ends of the three hexagonal sliding shafts 404 are welded with a shaft collar, the bottom connecting shaft 301 is correspondingly matched with the three shaft collars in a penetrating and sliding manner, the tail ends of the two connecting rods 102 are correspondingly connected with the cross-brace connecting shaft at the front end of the transmission frame 3 in a rotating manner, the transmission frame 3 can drive the three hexagonal sliding shafts 404 to slide back and forth to control the two crystal heads and the power receiving plug posts to be combined with and detached from the sockets on the switch in a pulling and inserting manner, and therefore the trouble of pulling and inserting the network cables and the power cables in the tight shielding space inside the high-temperature test box 1 and at the rear side of the switch is eliminated.

As shown in fig. 8, the upper half of the two movable clamping plates 406 is supported and welded with two positioning insertion shafts, the lower half thereof is rotatably provided with two tensioning bolts, the two positioning insertion shafts and the two tensioning bolts are correspondingly matched with the two stationary clamping plates 406 in a penetrating manner, and the four clamping plates 406 are a group of two clamping crystal heads for clamping and fixing the network cable, the top elastic clamping piece of the crystal head clamped in the two groups of clamping plates 406 is removed, so that the trouble that the elastic clamping piece is not directly pulled out by the transmission frame 3 due to the fact that the elastic clamping piece is matched with the structure clamping piece in the network cable socket on the switch in a penetrating manner and is loosened by extra manual operation of personnel is avoided.

The working principle is as follows: the high-temperature test box 1 is used for testing the high-temperature resistance of the switch, and the elastic card at the top end of the crystal head clamped and fixed in the two groups of clamping plates 406 is removed, so that the trouble that the elastic card cannot be pulled out by the transmission frame 3 after being inserted and matched with the structural card in the network cable socket on the switch, and the elastic card is loosened by extra manual force of personnel is avoided, the power connection insertion column is inserted and matched with the power connection hole on the switch, the network cables on the two crystal heads penetrate through the rear side wall of the high-temperature test box 1, and the two crystal heads are respectively inserted and matched with the input socket and the output socket on the switch;

during the use, at first place the switch on the top of drying bracket 4 and the inside slip supports and leans on two stopper 405, and press from both sides tightly fixedly through two clamping piece 401, then close two chamber doors 2, can mesh when two chamber doors 2 are turned over and are opened and shut before and after the test and order about two rack 101 to the slip of opposition, because two connecting rod 102, two rack 101 and transmission frame 3 connect jointly and constitute a pair of crank slider mechanism, and then two rack 101 left and right sides opposite direction slip can order about transmission frame 3 to slip, transmission frame 3 can drive three six arris sliding shaft 404 slip control two crystal heads and connect the socket on electric inserted column and the switch to take out and insert the combination and dismantle the separation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A testing device of a network switch is characterized in that: the testing device comprises a high-temperature testing box (1); the high-temperature testing box comprises a high-temperature testing box (1), wherein two box doors (2) are oppositely and rotatably arranged on an opening at the front end of the high-temperature testing box (1), a transmission frame (3) is slidably arranged at the top end of the left and right inner walls of the high-temperature testing box (1), and the transmission frame (3) is integrally formed by a U-shaped sliding frame and a bottom connecting shaft (301) welded below the rear end of the U-shaped sliding frame in a hanging and supporting mode; the lower half parts of the left inner wall and the right inner wall of the high-temperature test box (1) are horizontally welded with a drying bracket (4), the whole drying bracket (4) is formed by welding a row of square transverse supporting rods at equal intervals, two clamping pieces (401) are symmetrically and slidably sleeved on the front and the rear square transverse supporting rods, and a switch to be tested is placed at the top end of the drying bracket (4) and is clamped and fixed through the two clamping pieces (401); two vertical support rods are symmetrically welded at the top end of the bottom plate of the high-temperature test box (1), a double-rotation-direction bolt (103) is rotatably installed between the top end sections of the two vertical support rods, a hanging rod (402) is downwards welded on the middle sections of the two clamping pieces (401), and the tail end sections of the two hanging rods (402) are in penetrating fit with the double-rotation-direction bolt (103); two limit blocks (405) are symmetrically welded on the square transverse stay rod from the back to the front, and the switch to be tested is pressed against the two limit blocks (405) in a sliding manner.

2. The testing apparatus of a network switch according to claim 1, wherein: two racks (101) are symmetrically inserted in the front side of the top end of the left inner wall and the right inner wall of the high-temperature test box (1), and two connecting rods (102) are oppositely and rotatably connected to the tail end sections of the two racks (101) in the high-temperature test box (1).

3. The testing apparatus of a network switch according to claim 2, wherein: the top ends of the rotating shafts of the two box doors (2) are sleeved with a driving gear (201), and the two driving gears (201) are correspondingly meshed with the two racks (101) for transmission.

4. The testing apparatus of a network switch according to claim 2, wherein: the drying rack is characterized in that the rear lateral transverse supporting rod of the drying bracket (4) is slidably sleeved with three mounting lug blocks (403) which are vertically supported, the bottom sections of the four mounting lug blocks (403) are all penetrated and screwed with a jacking bolt, and the top ends of the three mounting lug blocks (403) are all penetrated and slid with a six-edge sliding shaft (404).

5. The testing apparatus of a network switch according to claim 4, wherein: the rear ends of the six-edge sliding shafts (404) are respectively welded with a shaft collar, the bottom connecting shaft (301) is correspondingly in through sliding fit with the three shaft collars, and the tail ends of the two connecting rods (102) are correspondingly connected with the cross brace connecting shaft at the front end of the transmission frame (3) in a rotating mode.

6. The testing apparatus of a network switch according to claim 4, wherein: the six-edge sliding shaft (404) is in an L-shaped structure, a positioning lantern ring is fixedly welded at the head end of the right six-edge sliding shaft (404), and a power connection plug post penetrates through the positioning lantern ring in an inserted mode.

7. The testing apparatus of a network switch according to claim 4, wherein: the head ends of the six-edge sliding shafts (404) at the middle and the right are respectively welded and fixed with a U-shaped clamping plate (406), and two movable clamping plates (406) are arranged on the two stationary clamping plates (406) in a sliding way.

8. The apparatus for testing a network switch according to claim 7, wherein: two positioning insertion shafts are supported and welded on the upper half parts of the two movable clamping plates (406), two tensioning bolts are rotatably arranged on the lower half parts of the two movable clamping plates in a penetrating manner, the two positioning insertion shafts and the two tensioning bolts are correspondingly matched with the two static clamping plates (406) in a penetrating manner, and the four clamping plates (406) are in a group of two clamping and fixing crystal heads.