CN218998089U - Network testing device - Google Patents

Abstract

The utility model provides a network testing device, which comprises a front shell, wherein a rear shell is arranged at an opening of the front shell, a tester is slidably arranged in the front shell, testing wires are accommodated in the rear shell at equal intervals, the top and the bottom of the front shell are respectively connected with a telescopic plate through rotation of a rotating shaft, the front shell and the rear shell are locked under the action of screws and screw holes to form a complete box body, the tester and the testing wires in the front shell are protected and accommodated, the extruding plate is driven by the limiting action of the transverse plate to move towards the inside of the front shell through the limiting action of the extruding plate, the tester is pushed to slide out of the front shell to leak out a connecting wire jack of the tester for testing and connecting the testing wires, compared with the existing accommodating mode of an accommodating box, occupied space is smaller, loss of part of elements of the whole network testing device is prevented, the network testing device is opened and used conveniently and quickly, and the protection effect on the tester is better.

Description

Network testing device

Technical Field

The utility model relates to the field of network testing, in particular to a network testing device.

Background

The network test is mainly directed to network equipment such as a switch, a router, a firewall and the like, whether the equipment can achieve a set function can be verified through manual test or automatic test, the manual network test is in an artificial setting up environment, equipment connection is carried out through a certain network topological structure, a series of commands such as enable, config and the like are manually input, certain protocols are configured, and finally whether the equipment can meet the function can be verified through a show config command or other commands, and the network tester is required to be matched for working.

The existing network tester test wire is connected with the test part and the host, so that the line fault position can be known through the numerical value displayed on the host, accurate detection is achieved, different test wires (such as RJ11 adapter wires, RJ45 adapter wires, crocodile clip adapter wires and the like) are required to be used by the network tester in face of different test objects, meanwhile, different sockets are required to be provided for different wires of the network tester, the whole set of test device is multiple in tools and comprises the test host and the test wires, more time is required to be spent in storage after each use, and loss of parts is easy to cause in the storage box.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a network testing device to solve the problems in the background art, the utility model has novel structure, the whole body formed by the front shell and the rear shell uniformly stores the tester and the testing line, the tester is convenient to find when in use, the original storage box is replaced, the use is more convenient, the occupied space is smaller, and the protection capability on the tester is stronger.

In order to achieve the above object, the present utility model is realized by the following technical scheme: the utility model provides a network testing arrangement, includes the preceding shell, preceding shell opening part is equipped with the backshell, and the inside slidable mounting of preceding shell has the tester, the inside equidistance of backshell has been accomodate the test wire, preceding shell top and bottom all rotate through the pivot and are connected with the expansion plate, and the other end of expansion plate rotates through the pivot and installs the top and the bottom at the backshell.

Further, a spring clamping plate is rotatably arranged on the inner wall of the rear shell, and the test wire is clamped between the spring clamping plate and the inner wall of the rear shell.

Further, a mobile power supply is fixedly arranged on one side of the front shell, and the mobile power supply is electrically connected with the tester.

Further, two screw holes are formed in one side, far away from the mobile power supply, of the front shell, two screws are inserted into one side, corresponding to the screw holes, of the rear shell through the engagement of the lug plates, and the front shell and the rear shell can be connected and locked through the engagement of the screws and the screw holes.

Further, U-shaped slideways are arranged on the top and bottom surfaces of the front shell, pulleys are arranged at corners of the top and bottom of the rear shell, which correspond to the U-shaped slideways, and the pulleys are in sliding clamping connection with the inside of the U-shaped slideways.

Further, the front shell back is equipped with the stripper plate, and is fixed with two spliced poles on the stripper plate surface, the spliced pole slip is pegged graft and is penetrated the front shell and fix on the tester back, the position that corresponds the stripper plate on the backshell surface is fixed with the diaphragm, and the diaphragm can with stripper plate extrusion contact.

Further, the plunger is located on the surface between the extrusion plate and the outer wall of the front shell, and the two ends of the return spring are respectively fixed with the extrusion plate and the outer wall of the front shell.

The utility model has the beneficial effects that: the utility model relates to a network testing device, which comprises a front shell; an extrusion plate; a screw hole; a U-shaped slideway; inserting a column; a return spring; a rear case; a cross plate; a screw; a pulley; a tester; a mobile power supply; a test line; a spring clamping plate; a telescoping plate;

1. this network testing device passes through pulley and U type slide slip joint effect, and preceding shell can translate to one side earlier, and one hundred eighty degrees of later upset turn over the opening direction of preceding shell, leak the tester position and use, seal preceding shell and backshell when not using and be an integer.

2. Under the action of the screw and the screw hole, the front shell and the rear shell are locked to form a complete box body, and the internal tester and the test wire are protected and stored.

3. Under the effect of this network testing arrangement top through stripper plate and diaphragm, the stripper plate receives the spacing effect of diaphragm and drives the inserted bar and move to the inside of the preceding shell, promotes the tester to slide and stretches out preceding shell and spill the connecting wire socket of tester, supplies test connection test wire to use.

4. This network testing device is for former receiver storage mode, and the space that occupies is littleer, prevents that whole network testing device part component from losing, opens convenient to use swift, and is better to the protection effect of tester.

Drawings

FIG. 1 is a schematic diagram of the overall front structure of a network testing device according to the present utility model;

FIG. 2 is a schematic diagram of the overall back structure of a network testing device according to the present utility model;

FIG. 3 is a schematic top view of a network testing device according to the present utility model;

FIG. 4 is a schematic diagram showing the connection between the front and rear shells of a network testing device according to the present utility model;

in the figure: 1. a front shell; 11. an extrusion plate; 12. a screw hole; 13. a U-shaped slideway; 14. inserting a column; 15. a return spring; 2. a rear case; 21. a cross plate; 22. a screw; 23. a pulley; 3. a tester; 4. a mobile power supply; 5. a test line; 6. a spring clamping plate; 7. and a telescopic plate.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Referring to fig. 1 to 4, the present utility model provides a technical solution: the utility model provides a network testing arrangement, includes preceding shell 1, preceding shell 1 opening part is equipped with backshell 2, and the inside slidable mounting of preceding shell 1 has tester 3, inside equidistance of backshell 2 has been accomodate test wire 5, preceding shell 1 top and bottom all are connected with expansion plate 7 through the pivot rotation, and the other end of expansion plate 7 is rotated through the pivot and is installed at the top and the bottom of backshell 2, tester 3 and test wire 5 are the same with current network tester structure and theory of operation, when not using, sealed box body is constituteed to preceding shell 1 and backshell 2, tester 3 and test wire 5 accomodate and protect therein, overturn preceding shell 1 during the use, and this process preceding shell 1 and backshell 2 keep the connectivity through expansion plate 7, the open direction of falling leaks the test end and uses, carries out network fault detection to the position of testing.

In this embodiment, the spring clamping plate 6 is rotatably mounted on the inner wall of the rear housing 2, and the test wire 5 is clamped between the spring clamping plate 6 and the inner wall of the rear housing 2, the test wire 5 comprises adapting wires with different signals, the spring clamping plate 6 is clamped and mounted inside the rear housing 2, and the corresponding test wire 5 is taken out by opening the spring clamping plate 6 during use.

In this embodiment, a mobile power source 4 is fixedly installed on one side of the front case 1, and the mobile power source 4 is electrically connected with the tester 3, and the tester 3 is powered and charged by the mobile power source 4, which is the same as the charging principle of the existing charger mobile phone, so that the tester 3 in the front case 1 is kept in an electric state all the time.

In this embodiment, two screw holes 12 are provided on a side of the front case 1 far away from the mobile power supply 4, two screws 22 are inserted on a side of the rear case 2 corresponding to the screw holes 12 through ear plates in a meshed manner, the front case 1 and the rear case 2 can be connected and locked through the screws 22 and the screw holes 12, and after the openings of the front case 1 and the rear case 2 are aligned and form a sealed box body, the screws 22 are inserted into the screw holes 12 to complete the locking of the front case 1 and the rear case 2.

In this embodiment, the top and bottom surfaces of the front shell 1 are provided with the U-shaped slide ways 13, and the corners of the top and bottom of the rear shell 2 corresponding to the U-shaped slide ways 13 are provided with the pulleys 23, the pulleys 23 are slidably clamped inside the U-shaped slide ways 13, the front shell 1 and the rear shell 2 are slidably connected through the U-shaped slide ways 13 and the pulleys 23, the front shell 1 can translate to one side firstly through the sliding clamping effect of the pulleys 23 and the U-shaped slide ways 13, then one hundred and eighty degrees are turned, the opening direction of the front shell 1 is turned, the position of the tester 3 is leaked out, and the front shell 1 and the rear shell 2 are sealed to form a whole when the tester is not used.

In this embodiment, the back of the front housing 1 is provided with the extrusion plate 11, and two inserting columns 14 are fixed on the surface of the extrusion plate 11, the inserting columns 14 are slidably inserted and inserted into the front housing 1 to be fixed on the back of the tester 3, the transverse plate 21 is fixed on the surface of the rear housing 2 corresponding to the position of the extrusion plate 11, and the transverse plate 21 can be in extrusion contact with the extrusion plate 11, the inserting columns 14 are located on the surface between the extrusion plate 11 and the outer wall of the front housing 1, the two ends of the return spring 15 are respectively fixed with the extrusion plate 11 and the outer wall of the front housing 1, when the rear housing 2 keeps different front housings 1 to be turned over, the extrusion plate 11 can be in extrusion contact with the transverse plate 21 (the initial position of the extrusion plate 11 stretches out of the front housing 1, and is in a convex shape), when the front housing 1 is turned over with the rear housing 2, the extrusion plate 11 is subjected to the limiting action of the transverse plate 21 to drive the inserting columns 14 to move inwards of the front housing 1, the tester 3 is pushed to slide out of the connecting wire inserting holes of the tester 3, the connecting wire 5 is used for testing, when the front housing 1 is turned over, the return spring 15 is driven to stretch out of the front housing 1, and the inserting columns 11 is driven to stretch out of the front housing 1 to the front housing 1.

When not in use, the front shell 1 can translate to one side, then turn over one hundred eighty degrees, turn over the opening direction of the front shell 1, when the rear shell 2 keeps different front shells 1 turning over, the extrusion plate 11 can be in extrusion contact with the transverse plate 21, when the front shell 1 turns over and the rear shell 2 is folded, the extrusion plate 11 is limited by the transverse plate 21 to drive the inserting column 14 to move towards the inside of the front shell 1, the tester 3 is pushed to slide and extend out of the front shell 1 to leak a connecting wire jack of the tester 3 for testing and connecting the testing wire 5, network fault detection is carried out on tested parts, the front shell 1 and the rear shell 2 are sealed into a whole when not in use, and after the front shell 1 and the rear shell 2 are aligned and form a sealed box body, the front shell 1 and the rear shell 2 are inserted into the screw hole 12 through the screw 22, and locking of the front shell 1 and the rear shell 2 is completed.

While the fundamental and principal features of the utility model and advantages of the utility model have been shown and described, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. Network test device, comprising a front shell (1), characterized in that: the opening of the front shell (1) is provided with a rear shell (2), the inside of the front shell (1) is slidably provided with a tester (3), the inside of the rear shell (2) is equidistantly provided with a test wire (5), the top and the bottom of the front shell (1) are respectively connected with a telescopic plate (7) through a rotating shaft, and the other ends of the telescopic plates (7) are rotatably arranged at the top and the bottom of the rear shell (2) through rotating shafts.

2. A network testing device according to claim 1, wherein: the spring clamping plate (6) is rotatably arranged on the inner wall of the rear shell (2), and the test wire (5) is clamped between the spring clamping plate (6) and the inner wall of the rear shell (2).

3. A network testing device according to claim 1, wherein: a mobile power supply (4) is fixedly arranged on one side of the front shell (1), and the mobile power supply (4) is electrically connected with the tester (3).

4. A network testing device according to claim 3, wherein: two screw holes (12) are formed in one side, far away from the mobile power supply (4), of the front shell (1), two screws (22) are inserted into one side, corresponding to the screw holes (12), of the rear shell (2) in a meshed mode through an ear plate, and the front shell (1) and the rear shell (2) can be connected and locked through the screws (22) and the screw holes (12) in a meshed mode.

5. A network testing device according to claim 1, wherein: the top and bottom surfaces of the front shell (1) are provided with U-shaped slide ways (13), and the corners of the top and bottom of the rear shell (2) corresponding to the U-shaped slide ways (13) are provided with pulleys (23), and the pulleys (23) are in sliding clamping connection with the inside of the U-shaped slide ways (13).

6. A network testing device according to claim 1, wherein: the back of the front shell (1) is provided with an extrusion plate (11), two inserting posts (14) are fixed on the surface of the extrusion plate (11), the inserting posts (14) are inserted into the front shell (1) in a sliding way and fixed on the back of the tester (3), A transverse plate (21) is fixed on the surface of the rear shell (2) at a position corresponding to the extrusion plate (11), and the transverse plate (21) can be in extrusion contact with the extrusion plate (11).

7. The network testing device of claim 6, wherein: the plunger (14) is positioned on the surface between the extrusion plate (11) and the outer wall of the front shell (1), a return spring (15) is sleeved on the surface, and two ends of the return spring (15) are respectively fixed with the extrusion plate (11) and the outer wall of the front shell (1).

Images