CN220381277U - Connecting data line sways testing arrangement - Google Patents

Abstract

The utility model discloses a connection data line swing testing device, which comprises: the fixing plate is provided with two groups, one end of each of the two groups of fixing plates is provided with a mounting groove, and lifting assemblies are arranged in the mounting grooves; a sliding assembly. The utility model has the advantages that the data wire is inserted into the test interface, the data wire can be limited through the clamping assembly, the data wire can be subjected to the swing test by sliding the data wire left and right through the sliding assembly after the limiting, the data wire can be monitored through the first monitoring part during the test, the left and right swing amplitude of the data wire is prevented from not reaching the standard, the data wire can be subjected to the up and down swing test through the lifting assembly, the second monitoring part and the first monitoring part have the same principle, and the up and down swing amplitude of the data wire is prevented from not reaching the standard, so that the monitoring test device body can be implemented, workers are prevented from missing some bad data wires, and the detection efficiency of the data wire is low.

Description

Connecting data line sways testing arrangement

Technical Field

The utility model belongs to the technical field of data line detection, and particularly relates to a swing testing device for a connection data line.

Background

After the data wire is formed, electric measurement is performed to check whether the data wire has electrical defects or not, a swing test is needed, a conventional USB data wire swing test device is composed of a test jig and a test host, during the test, a USB end and a TAP EC end of the data wire are respectively inserted into a test socket of the test jig, and a swing angle is controlled by swinging the data wire through the arm action of a quality inspector, and the swing angle is respectively needed to swing upwards, downwards, leftwards and rightwards by 90 degrees.

However, the prior art has some problems: at present, when a data line is detected, the data line is detected through a swing detection device, but when the existing swing detection device swings the data line, the function of monitoring the swing amplitude is not available, generally, a protractor is installed on the amplitude detection device, so that a worker can conveniently check the data line, but the method cannot implement monitoring, so that the worker can miss some bad data lines, the detection efficiency of the data line is low, and therefore, the swing test device for connecting the data line is provided.

Disclosure of Invention

Aiming at the problems existing in the prior art, the utility model aims to provide the connecting data line swinging testing device, the data line is inserted into the testing interface through the data line, the clamping assembly is used for limiting the data line, the sliding assembly is used for driving the data line to perform a side-to-side swinging test after limiting, the effect of whether the side-to-side swinging meets the standard can be monitored in real time through the first monitoring part during testing, the lifting assembly is used for performing the side-to-side swinging test, and the second monitoring part is used for monitoring whether the side-to-side swinging meets the standard in real time, so that the monitoring testing device body can be implemented, workers are prevented from missing some bad data lines, and the data line detection efficiency is low.

The utility model is realized in such a way that a connection data line sways testing arrangement, includes:

the fixing plate is provided with two groups, one end of each of the two groups of fixing plates is provided with a mounting groove, and lifting assemblies are arranged in the mounting grooves;

the sliding assembly is arranged at the upper end of the lifting assembly, two groups of clamping assemblies are arranged at the upper end of the sliding assembly, the lifting assembly is used for driving the sliding assembly and the two groups of clamping assemblies to lift, and the sliding assembly can slide at the upper end of the lifting assembly and is used for sliding with the two groups of clamping assemblies;

the testing device comprises a testing device body, two groups of fixing plates and a clamping assembly, wherein the two groups of fixing plates are fixedly connected with the lower side of the surface of the testing device body, two groups of testing interfaces are arranged in the middle of the surface of the testing device body, and the clamping positions of the clamping assembly are horizontally consistent with the testing interfaces;

the first monitoring part is arranged between the sliding assembly and the testing device body;

the second monitoring portion, the second monitoring portion sets up the both sides at fixed plate and slip subassembly one end.

Optionally, the lifting assembly comprises a first cylinder and a first sliding block, and the first cylinder is fixedly installed at the top end in the fixing plate installation groove.

Optionally, the slip subassembly is including placing board and stopper, place board fixed mounting in the one end of first slider, the stopper is provided with two sets of, two sets of the one end of stopper is equal fixed mounting has the second cylinder.

Optionally, the upper end slidable mounting of first slider has first slide rail, the one end fixed mounting of first slide rail has the plate, the one end and the plate fixed connection of second cylinder.

Optionally, the clamping assembly includes holder and third cylinder, holder fixed mounting is in the upper end of first slide rail, the inside slidable mounting of holder has the grip block, the one end and the grip block fixed connection of third cylinder.

Optionally, the inside both ends of holder are all fixed mounting has the second slide rail, the one end slidable mounting second slider of second slide rail, the one end and the grip block fixed connection of second slider.

Optionally, the first monitoring portion includes first sensor and first inductor, first sensor is provided with three groups, and three groups first sensor is all fixed mounting on the surface of testing arrangement body, and sets up the lower extreme at test interface, first inductor is provided with two groups, two groups first inductor is all fixed mounting in the one end of first slide rail.

Optionally, the second monitoring portion includes second sensor and second inductor, the second sensor is provided with two sets of, and two sets of the equal fixed mounting of second sensor is on the surface of fixed plate, the second inductor is provided with two sets of, two sets of equal fixed mounting of second inductor is at the both ends of placing the board.

According to the embodiment of the utility model, the testing device body, the lifting assembly, the sliding assembly and the clamping assembly are matched, the data wire is inserted into the testing interface when in use, the clamping assembly is used for limiting the data wire, the sliding assembly is used for sliding the data wire left and right after limiting the data wire to perform a swinging test, the first monitoring part is used for monitoring the data wire during testing, the left and right swinging amplitude of the data wire is prevented from not reaching standards, the lifting assembly is used for performing the vertical swinging test on the data wire, the second monitoring part is in the same principle as the first monitoring part, and the data wire swinging amplitude is prevented from not reaching standards, so that the monitoring testing device body can be implemented, workers are prevented from missing some bad data wires, and the data wire detection efficiency is low.

Other features of the present utility model and its advantages will become apparent from the following detailed description of exemplary embodiments of the utility model, which proceeds with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of the structure provided by the present utility model;

FIG. 2 is a schematic view of a first slider provided by the present utility model;

FIG. 3 is a schematic view of a clamping plate provided by the present utility model;

fig. 4 is a schematic view of a first sensor provided by the present utility model.

In the figure: 1. a fixing plate; 2. a lifting assembly; 201. a first cylinder; 202. a first slider; 3. a sliding assembly; 301. placing a plate; 302. a limiting block; 303. a second cylinder; 304. a first slide rail; 305. a plate; 4. a clamping assembly; 401. a holder; 402. a third cylinder; 403. a clamping plate; 404. a second slide rail; 405. a second slider; 5. a testing device body; 6. testing an interface; 7. a first monitoring unit; 701. a first sensor; 702. a first inductor; 8. a second monitoring unit; 801. a second sensor; 802. a second inductor.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

Various exemplary embodiments of the present utility model will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present utility model unless it is specifically stated otherwise.

The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the utility model, its application, or uses.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of exemplary embodiments may have different values.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, a swing test device for connecting a data line according to an embodiment of the present utility model includes:

the fixing plate 1 is provided with two groups, one end of each of the two groups of fixing plates 1 is provided with a mounting groove, and lifting assemblies 2 are arranged in the mounting grooves;

the sliding component 3 is arranged at the upper end of the lifting component 2, two groups of clamping components 4 are arranged at the upper end of the sliding component 3, the lifting component 2 is used for driving the sliding component 3 and the two groups of clamping components 4 to lift, and the sliding component 3 can slide at the upper end of the lifting component 2 and is used for sliding with the two groups of clamping components 4;

the testing device body 5, two sets of fixed plates 1 are all fixedly connected with the downside on testing device body 5 surface, two sets of test interfaces 6 have been seted up at the middle part on testing device body 5 surface, the centre gripping department of clamping assembly 4 is unanimous with test interface 6 level. The method comprises the steps of carrying out a first treatment on the surface of the

A first monitoring portion 7, the first monitoring portion 7 being provided between the slider assembly 3 and the testing device body 5;

the second monitoring portion 8, the second monitoring portion 8 sets up the both sides of fixed plate 1 and slip subassembly 3 one end.

Through inserting the data line in the test interface 6, rethread clamping assembly 4 can be spacing with the data line, and can slide the data line side by side through sliding assembly 3 after spacing and swing the test, and rethread first monitoring part 7 can monitor the data line during the test, prevent that the data line side by side swing range is not up to standard, and can carry out the test of swaing from top to bottom to the data line through lifting assembly 2, and the same principle of second monitoring part 8 and first monitoring part 7 prevents that the data line from swaing from top to bottom the range is not up to standard, thereby reach and can implement monitoring test device body 5, prevent that the staff from missing some bad data lines, make the effect that data line detection efficiency is low.

Specifically, the lifting assembly 2 includes a first cylinder 201 and a first slider 202, and the first cylinder 201 is fixedly installed at the top end in the installation groove of the fixing plate 1.

The first sliding block 202 is driven to lift when the first air cylinder 201 stretches and contracts, so that the first sliding block 202 can drive the sliding component 3 and the clamping component 4 to lift, and the clamping component 4 can realize the effect of swinging up and down through the first air cylinder 201 after clamping the data line.

Specifically, the sliding assembly 3 includes a placing plate 301 and a limiting block 302, the placing plate 301 is fixedly mounted at one end of the first sliding block 202, the limiting block 302 is provided with two groups, one ends of the two groups of limiting blocks 302 are fixedly mounted with a second air cylinder 303, the upper end of the first sliding block 202 is slidably mounted with a first sliding rail 304, one end of the first sliding rail 304 is fixedly mounted with a plate 305, and one end of the second air cylinder 303 is fixedly connected with the plate 305.

The second air cylinder 303 can be limited by the limiting block 302, and the plate 305 can be pushed when the second air cylinder 303 stretches and contracts, so that the plate 305 can drive the first sliding rail 304 to slide on the first sliding block 202, and the first sliding rail 304 drives the clamping assembly 4 when sliding, so that the clamping assembly 4 and the data line can realize the left-right swinging effect.

Specifically, the clamping assembly 4 includes a clamp 401 and a third air cylinder 402, the clamp 401 is fixedly mounted at the upper end of the first sliding rail 304, a clamping plate 403 is slidably mounted in the clamp 401, one end of the third air cylinder 402 is fixedly connected with the clamping plate 403, two ends of the interior of the clamp 401 are fixedly mounted with second sliding rails 404, one end of the second sliding rail 404 is slidably mounted with a second sliding block 405, and one end of the second sliding block 405 is fixedly connected with the clamping plate 403.

The clamping plate 403 can be pushed by the third air cylinder 402, so that the clamping plate 403 and the clamp 401 are matched to clamp the data line for limiting, and the effect that the clamping assembly 4 can swing up and down and swing left and right through the lifting assembly 2 and the sliding assembly 3 to test the data line is achieved.

Specifically, the first monitoring portion 7 includes a first sensor 701 and a first sensor 702, the first sensor 701 is provided with three groups, the three groups of first sensors 701 are fixedly mounted on the surface of the testing device body 5 and are disposed at the lower end of the testing interface 6, the first sensor 702 is provided with two groups, and the two groups of first sensors 702 are fixedly mounted at one end of the first slide rail 304.

When driving the data line side-to-side through sliding component 3, the cooperation of the first sensor 702 on the rethread first slide rail 304 and the first sensor 701 on testing arrangement body 5 surface can realize the response monitoring to the data line when the data line side-to-side sways, prevents the effect that data line side-to-side sways range and does not reach standard.

Specifically, the second monitoring section 8 includes a second sensor 801 and a second sensor 802, the second sensor 801 is provided with two groups, the two groups of second sensors 801 are fixedly mounted on the surface of the fixing plate 1, the second sensor 802 is provided with two groups, and the two groups of second sensors 802 are fixedly mounted at both ends of the placing plate 301.

When the data line swings up and down, the second sensor 802 is driven, so that the second sensor 802 and the second sensor 801 are matched, the data line can be monitored when swinging up and down, and the effect that the amplitude of the swinging up and down of the data line does not reach the standard is prevented.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (8)

1. A connecting data line sways testing arrangement, its characterized in that: comprising the following steps:

the fixing device comprises fixing plates (1), wherein the fixing plates (1) are provided with two groups, one ends of the two groups of fixing plates (1) are provided with mounting grooves, and lifting assemblies (2) are arranged in the mounting grooves;

the sliding assembly (3) is arranged at the upper end of the lifting assembly (2), two groups of clamping assemblies (4) are arranged at the upper end of the sliding assembly (3), the lifting assembly (2) is used for driving the sliding assembly (3) and the two groups of clamping assemblies (4) to lift, and the sliding assembly (3) can slide at the upper end of the lifting assembly (2) and is used for sliding with the two groups of clamping assemblies (4);

the testing device comprises a testing device body (5), wherein two groups of fixing plates (1) are fixedly connected with the lower side of the surface of the testing device body (5), two groups of testing interfaces (6) are arranged in the middle of the surface of the testing device body (5), and the clamping positions of the clamping assemblies (4) are horizontally consistent with the testing interfaces (6);

a first monitoring section (7), the first monitoring section (7) being arranged between the sliding assembly (3) and the testing device body (5);

the second monitoring part (8), second monitoring part (8) set up the both sides of fixed plate (1) and slip subassembly (3) one end.

2. The connection data line swing test apparatus according to claim 1, wherein: the lifting assembly (2) comprises a first air cylinder (201) and a first sliding block (202), and the first air cylinder (201) is fixedly arranged at the top end in the mounting groove of the fixed plate (1).

3. The connection data line swing test apparatus according to claim 2, wherein: the sliding assembly (3) comprises a placing plate (301) and a limiting block (302), wherein the placing plate (301) is fixedly arranged at one end of the first sliding block (202), two groups of limiting blocks (302) are arranged, and second air cylinders (303) are fixedly arranged at one ends of the two groups of limiting blocks (302).

4. A connection data line swing test apparatus according to claim 3, wherein: the upper end slidable mounting of first slider (202) has first slide rail (304), the one end fixed mounting of first slide rail (304) has plate (305), the one end and the plate (305) fixed connection of second cylinder (303).

5. The connection data line swing test apparatus according to claim 4, wherein: the clamping assembly (4) comprises a clamp holder (401) and a third air cylinder (402), the clamp holder (401) is fixedly arranged at the upper end of the first sliding rail (304), a clamping plate (403) is slidably arranged in the clamp holder (401), and one end of the third air cylinder (402) is fixedly connected with the clamping plate (403).

6. The connection data line swing test apparatus according to claim 5, wherein: two ends inside the clamp holder (401) are fixedly provided with second sliding rails (404), one end of each second sliding rail (404) is slidably provided with a second sliding block (405), and one end of each second sliding block (405) is fixedly connected with the clamping plate (403).

7. The connection data line swing test apparatus according to claim 1, wherein: the first monitoring part (7) comprises a first sensor (701) and a first sensor (702), wherein the first sensor (701) is provided with three groups, the three groups of the first sensors (701) are fixedly installed on the surface of the testing device body (5) and are arranged at the lower end of the testing interface (6), the first sensors (702) are provided with two groups, and the two groups of the first sensors (702) are fixedly installed at one end of the first sliding rail (304).

8. The connection data line swing test apparatus according to claim 1, wherein: the second monitoring part (8) comprises a second sensor (801) and a second sensor (802), wherein the second sensor (801) is provided with two groups, the two groups of second sensors (801) are fixedly installed on the surface of the fixed plate (1), the second sensor (802) is provided with two groups, and the two groups of second sensors (802) are fixedly installed at two ends of the placing plate (301).