CN109297839B

CN109297839B - Data line swing test machine

Info

Publication number: CN109297839B
Application number: CN201811113645.0A
Authority: CN
Inventors: 丁升生; 丁升清
Original assignee: Dongguan Liangxun Electronic Technology Co ltd
Current assignee: Dongguan Liangxun Electronic Technology Co ltd
Priority date: 2018-09-25
Filing date: 2018-09-25
Publication date: 2021-04-30
Anticipated expiration: 2038-09-25
Also published as: CN109297839A

Abstract

The invention provides a data line swing test machine, which comprises: the connector fixing device is used for clamping and fixing the first connector and the second connector and is used for driving the wire rod to swing the wire rod in a multi-direction swinging mode, the wire rod swinging device enables the wire rod to swing in a multi-direction mode, the wire rod is bent relative to the first connector and the second connector to generate an arc-shaped surface, the wire rod is detected in the multi-direction swinging process, the first connector and the electrical performance testing device of the electrical performance parameters of the second connector are connected in an inserted mode respectively, and the electrical performance testing device is connected to the first connector and the second connector in an inserted mode respectively. The invention provides a data line swing testing machine, which can simultaneously carry out bending swing fatigue testing and electrical property detection on a data line to be tested, and can complete the testing of the data line at one time without transferring, thereby greatly improving the production efficiency.

Description

Data line swing test machine

Technical Field

The invention relates to the technical field of data line test equipment, in particular to a data line swing test machine.

Background

Generally, the data line is mainly a data transmission line, such as a USB data line, and generally includes: the wire rod and the plug are arranged at two ends of the wire rod. During production, the wire is cut into a rated length, then the core wire in the wire is electrically connected with the corresponding terminal in the plug, and then the plug is assembled.

The data line after production needs to be detected, and the general detection mainly includes two aspects, one of which is to detect the electrical property of the data line, including detecting the resistance, voltage and the like between plugs at two ends of the data line, and mainly detecting whether the data line is conducted or not and whether each electrical index reaches the standard or not. The other detection mainly detects the mechanical property of the data line, and mainly detects whether the connection between the wire rod of the data line and the plug is stable or not, so that bending test is needed, namely, the fatigue test of bending and swinging is continuously carried out on the wire rod through a testing device, so as to simulate whether the connection between the wire rod and the plug drops or not when the data line is bent in the using process. However, the current electrical test and mechanical performance test are separate tests, which require an operator to transfer materials, resulting in low production efficiency.

Disclosure of Invention

In order to solve the technical problems, the invention provides a data line swing test machine which can simultaneously perform bending and swinging fatigue test and electric property detection on a data line to be tested, and complete the test on the data line at one time without transferring, thereby greatly improving the production efficiency.

The invention provides the following technical scheme that a data line swing tester is used for swinging a data line to be tested and testing the electrical performance of the data line to be tested, wherein the data line to be tested comprises a wire rod, a first connector and a second connector, and the first connector and the second connector are fixedly connected to two ends of the wire rod; the data line swing tester includes: the connector fixing device is used for clamping and fixing the first connector and the second connector; the wire rod swinging device is used for driving the wire rod to swing in multiple directions, and the wire rod swinging device enables the wire rod to generate arc-shaped surface bending relative to the first connector and the second connector when swinging in multiple directions; and the electrical performance testing device is used for detecting electrical performance parameters of the first connector and the second connector in the process of multi-directional swinging of the wire rod, and the electrical performance testing device is respectively inserted into the first connector and the second connector.

Furthermore, the connector fixing device comprises a first slide rail, a test carrier, a carrier positioning unit and a carrier opening unit, wherein the test carrier is arranged in the first slide rail in a sliding manner, the carrier positioning unit is fixed on the first slide rail, and one end of the carrier positioning unit is inserted into the first slide rail in a telescopic manner to position the test carrier; the carrier opening unit is arranged above the test carrier, and one end of the carrier opening unit is inserted into the test carrier in a telescopic mode to enable the test carrier to be opened and closed.

Furthermore, the carrier positioning unit comprises a positioning cylinder, a positioning cylinder mounting block and a positioning block, the first slide rail is provided with an insertion groove, and the test carrier is provided with a positioning hole; the positioning cylinder mounting block is fixed on the first slide rail, the positioning cylinder is mounted on the positioning cylinder mounting block, the output end of the positioning cylinder is fixedly connected with the positioning block, the positioning block is partially accommodated in the insertion groove, and the positioning cylinder drives the positioning block to slide in the insertion groove and be inserted into the positioning hole to position the test carrier.

Furthermore, the test carrier comprises a positioning seat, a clamping hand and an elastic piece which is respectively abutted against the positioning seat and the clamping hand, and a clamping space is arranged in the clamping hand; the carrier opens the unit and includes the connecting plate, opens the cylinder and connects and open the inserted bar at this opening cylinder output, the connecting plate is fixed on the location cylinder installation piece, open the cylinder and install on the connecting plate, open the cylinder drive open the inserted bar and insert make in the centre gripping space the tong opens.

Further, the wire swinging device comprises a rack, a direction module and a wire clamping unit; the direction module is arranged on the rack, and the wire rod clamping unit is arranged on the direction module.

Further, the direction module comprises an X-direction component, a Y-direction component and a Z-direction component which are perpendicular to each other; the Z-direction assembly is mounted on the rack and comprises a Z-direction slide rail, a Z-direction sliding plate and a Z-direction motor, the Z-direction sliding plate is arranged on the Z-direction slide rail in a sliding mode, the Y-direction assembly is mounted on the Z-direction sliding plate, and the Z-direction motor drives the Z-direction sliding plate and the Y-direction assembly to slide on the Z-direction slide rail; the Y-direction component comprises a Y-direction sliding rail, a Y-direction sliding plate and a Y-direction motor, the Y-direction sliding plate is arranged on the Y-direction sliding rail in a sliding mode, the X-direction component is installed on the Y-direction sliding plate, and the Y-direction motor drives the Y-direction sliding plate and the X-direction component to slide on the Y-direction sliding rail; the X-direction assembly comprises an X-direction sliding rail, an X-direction sliding plate and an X-direction motor, the X-direction sliding plate is arranged on the X-direction sliding rail in a sliding mode, the wire clamping unit is arranged on the X-direction sliding plate, and the X-direction motor drives the X-direction sliding plate and the wire clamping unit to slide on the X-direction sliding rail.

Further, wire rod clamping unit includes the centre gripping mounting panel and fixes the centre gripping subassembly on this centre gripping mounting panel, the centre gripping subassembly includes centre gripping cylinder and installs the tong on this centre gripping cylinder, centre gripping cylinder drive the tong is tight or is relaxed.

Furthermore, the electrical performance testing device comprises a testing driving component and an electrical performance testing component, the electrical performance testing component is installed on the testing driving component, the testing driving component drives the electrical performance testing component to be inserted into the first connector and the second connector, and electrical performance parameters of the first connector and the second connector are detected.

Furthermore, the test driving assembly comprises a second slide rail, a test sliding plate, a test assembly mounting block and a test driving cylinder, the test sliding plate is arranged on the second slide rail in a sliding mode, the test assembly mounting block is arranged on the test sliding plate, the electrical performance test assembly is arranged on the test assembly mounting block, the test driving cylinder is fixed at one end of the second slide rail, and the test driving cylinder drives the test sliding plate, the test assembly mounting block and the electrical performance test assembly to slide on the second slide rail.

Further, the electrical performance testing assembly comprises a testing seat and an electrical performance testing element installed in the testing seat.

The invention has the beneficial effects that: according to the data line swinging test machine provided by the invention, the wire swinging device is arranged to drive the data line to be tested to swing in multiple directions, and the electrical property test device is used for detecting the electrical property in the process of swinging the data line to be tested in multiple directions; the invention can simultaneously carry out fatigue test of bending swing and detection of electrical property on the data line to be tested, and can complete the test of the data line at one time without transfer, thereby greatly improving the production efficiency.

Drawings

FIG. 1 is a schematic structural diagram of a data line to be tested according to the present invention;

FIG. 2 is a schematic structural diagram of a data line swing tester according to the present invention;

FIG. 3 is a left side view of the data line swing tester of the present invention;

fig. 4 is a front view of the connector fixing device of the present invention;

FIG. 5 is a top view of the first slide rail of the present invention;

FIG. 6 is a top view of the test carrier of the present invention;

FIG. 7 is a schematic structural view of the wire swinging apparatus according to the present invention;

fig. 8 is a schematic structural diagram of the electrical property testing apparatus according to the present invention.

Description of reference numerals:

the connector fixing device 1, the first slide rail 11, the insertion groove 111, the test carrier 12, the positioning hole 121, the positioning seat 122, the slide channel 1221, the clamping hand 123, the clamping space 1231, the elastic member 124, the carrier positioning unit 13, the positioning cylinder 131, the positioning cylinder mounting block 132, the positioning block 133, the carrier expanding unit 14, the connecting plate 141, the expanding cylinder 142, and the expanding insertion rod 143.

The wire rod swinging device 2, a rack 21, a direction module 22, an X-direction component 221, an X-direction slide rail 2211, an X-direction slide plate 2212, an X-direction motor 2213, a Y-direction component 222, a Y-direction slide rail 2221, a Y-direction slide plate 2222, a Y-direction motor 2223, a Z-direction component 223, a Z-direction slide rail 2231, a Z-direction slide plate 2232, a Z-direction motor 2233, a wire rod clamping unit 23, a clamping mounting plate 231, a clamping component 232, a clamping cylinder 2321 and a clamping hand 2322.

The test device comprises an electrical property test device 3, a test driving component 31, a second slide rail 311, a test sliding plate 312, a test component mounting block 313, a test driving cylinder 314, an electrical property test component 32, a test seat 321 and an electrical property test element 322.

The data line 4 to be tested, the wire 41, the first connector 42 and the second connector 43.

Detailed Description

In order to make the object, technical solution and technical effect of the present invention more apparent, the present invention will be further described with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 3, a data line swing tester is used for swinging a data line 4 to be tested and testing electrical performance, wherein the data line 4 to be tested comprises a wire 41, and a first connector 42 and a second connector 43 fixedly connected to two ends of the wire 41; the data line swing tester includes: a connector fixing device 1 for clamping and fixing the first connector 42 and the second connector 43; the wire swinging device 2 is used for driving the wire 41 to swing in multiple directions, and the wire swinging device 2 makes the wire 41 generate arc-shaped surface bending relative to the first connecting head 42 and the second connecting head 43 when swinging in multiple directions; and the electrical performance testing device 3 is used for detecting electrical performance parameters of the first connector 42 and the second connector 43 in the process of multi-directional swinging of the wire 41, and the electrical performance testing device 3 is respectively inserted into the first connector 42 and the second connector 43. It should be understood that, by setting the wire swinging device 2, the data line 4 to be tested is driven to swing in multiple directions, and by the electrical property testing device 3, the electrical property is detected in the process that the data line 4 to be tested swings in multiple directions; the invention can simultaneously carry out fatigue test of bending swing and detection of electrical property on the data wire 4 to be tested, and can complete the test of the data wire at one time without transfer, thereby greatly improving the production efficiency.

Referring to fig. 4, the connector fixing device 1 includes a first slide rail 11, a test carrier 12, a carrier positioning unit 13, and a carrier opening unit 14, wherein the test carrier 12 is slidably disposed in the first slide rail 11, the carrier positioning unit 13 is fixed on the first slide rail 1, and one end of the carrier positioning unit 13 is telescopically inserted into the first slide rail 1 to position the test carrier 2; the carrier expanding unit 14 is disposed above the test carrier 12, and one end of the carrier expanding unit 14 is telescopically inserted into the test carrier 12 to expand and close the test carrier 12.

Referring to fig. 4 to 6, the carrier positioning unit 13 includes a positioning cylinder 131, a positioning cylinder mounting block 132 and a positioning block 133, the first slide rail 11 is provided with an insertion slot 111, and the test carrier 12 is provided with a positioning hole 121; the positioning cylinder mounting block 132 is fixed on the first slide rail 11, the positioning cylinder 131 is mounted on the positioning cylinder mounting block 132, the output end of the positioning cylinder 131 is fixedly connected to the positioning block 133, the positioning block 133 is partially accommodated in the insertion slot 111, and the positioning cylinder 131 drives the positioning block 133 to slide in the insertion slot 111 and is inserted into the positioning hole 121 to position the test carrier 12. It should be understood that the test carrier 12 slides in the first slide rail 11, when a test station is reached, the test carrier 12 stops moving, the positioning hole 121 and the insertion slot 111 are located on the same vertical line, and the positioning cylinder 131 drives the positioning block 133 to slide in the insertion slot 111 and insert into the positioning hole 121 to position the test carrier 12, so as to ensure that the data line 4 to be tested can be smoothly performed in a subsequent test process, and ensure the accuracy of the test.

Referring to fig. 4 and 6, the test carrier 12 includes a positioning seat 122, a clamping hand 123 and an elastic member 124 abutting against the positioning seat 122 and the clamping hand 123, specifically, a sliding channel 1221 is disposed in the positioning seat 122, the clamping hand 123 is slidably disposed in the sliding channel 1221, the elastic member 124 abuts against a side wall of the positioning seat 122 and the clamping hand 123, and a clamping space 1231 is disposed in the clamping hand 123; the carrier expanding unit 14 includes a connecting plate 141, an expanding cylinder 142 and an expanding insertion rod 143 connected to an output end of the expanding cylinder 142, the connecting plate 141 is fixed on the positioning cylinder mounting block 132, the expanding cylinder 142 is mounted on the connecting plate 141, and the expanding cylinder 142 drives the expanding insertion rod 143 to be inserted into the clamping space 1231 to expand the clamping hand 123.

It should be understood that, in the process of fixing the first connection head 42 and the second connection head 43, the expanding cylinder 142 drives the expanding insertion rod 143 to be inserted into the clamping space 1231 to expand the clamping jaw 123, the elastic member 124 is compressed to place the first connection head 42 and the second connection head 43 in the clamping space 1231, the expanding cylinder 142 drives the expanding insertion rod 143 to reset, and the elastic member 124 releases the elastic potential energy to push the clamping jaw 123 to clamp the first connection head 42 and the second connection head 43, so as to fix the first connection head 42 and the second connection head 43 on the test carrier 12.

Referring to fig. 7, the wire rocking device 2 includes a frame 21, a direction module 22, and a wire clamping unit 23; the direction module 22 is disposed on the frame 21, and the wire clamping unit 23 is disposed on the direction module 22. It should be understood that wire rod swing device 2 is used for detecting the mechanical properties of data line 4 that awaits measuring mainly detects wire rod 41 with whether the combination of the junction of first connector 42 with second connector 43 is firm, specifically, wire rod clamping unit 23 centre gripping wire rod 41 with first connector 42 with the junction of second connector 43, direction module 22 drives wire rod clamping unit 23 with data line 4 that awaits measuring carries out diversified swing, right data line 4 that awaits measuring carries out bending swing's fatigue test, in order to simulate when the bending that data line 4 that awaits measuring received in the use, wire rod 41 with first connector 42 with whether the junction of second connector 43 can appear droing.

Further, the direction module 22 includes an X-direction component 221, a Y-direction component 222 and a Z-direction component 223 which are perpendicular to each other; the Z-directional component 223 is mounted on the frame 21, the Z-directional component 223 includes a Z-directional slide rail 2231, a Z-directional slide plate 2232, and a Z-directional motor 2233, the Z-directional slide plate 2232 is slidably disposed on the Z-directional slide rail 2231, the Y-directional component 222 is mounted on the Z-directional slide plate 2232, and the Z-directional motor 2233 drives the Z-directional slide plate 2232 and the Y-directional component 222 to slide on the Z-directional slide rail 2231; the Y-direction component 222 includes a Y-direction slide rail 2221, a Y-direction slide plate 2222, and a Y-direction motor 2223, the Y-direction slide plate 2222 is slidably disposed on the Y-direction slide rail 2221, the X-direction component 221 is mounted on the Y-direction slide plate 2222, and the Y-direction motor 2223 drives the Y-direction slide plate 2222 and the X-direction component 221 to slide on the Y-direction slide rail 2221; the X-direction assembly 221 includes an X-direction slide rail 2211, an X-direction slide plate 2212, and an X-direction motor 2213, the X-direction slide plate 2212 is slidably disposed on the X-direction slide rail 2211, the wire clamping unit 23 is mounted on the X-direction slide plate 2212, and the X-direction motor 2213 drives the X-direction slide plate 2212 and the wire clamping unit 23 to slide on the X-direction slide rail 2211. It should be understood that, through the X-direction component 221, the Y-direction component 222 and the Z-direction component 223 which are perpendicular to each other, the motion requirements of the wire clamping unit 23 in all directions in a three-dimensional space can be realized, so as to truly simulate the bending of the data wire 4 to be tested in the using process, and meet the fatigue test of the bending swing of the data wire 4 to be tested; in this embodiment, the direction module 22 drives the wire clamping unit 23 and the data line 4 to be tested to perform only basic actions such as up, down, left, right, front, and back, and some complex actions such as circular swing can be performed according to different requirements.

Further, the wire clamping unit 23 includes a clamping mounting plate 231 and a clamping assembly 232 fixed on the clamping mounting plate 231, the clamping assembly 232 includes a clamping cylinder 2321 and a clamping hand 2322 installed on the clamping cylinder 2321, and the clamping cylinder 2321 drives the clamping hand 2322 to clamp or release.

Referring to fig. 8, the electrical performance testing apparatus 3 includes a testing driving component 31 and an electrical performance testing component 32, the electrical performance testing component 32 is mounted on the testing driving component 31, the testing driving component 31 drives the electrical performance testing component 32 to be plugged into the first connector 42 and the second connector 43, and electrical performance parameters of the first connector 42 and the second connector 43 are detected.

Further, the test driving assembly 31 includes a second slide rail 311, a test sliding plate 312, a test assembly mounting block 313 and a test driving cylinder 314, the test sliding plate 312 is slidably disposed on the second slide rail 311, the test assembly mounting block 313 is mounted on the test sliding plate 312, the electrical performance test assembly 32 is mounted on the test assembly mounting block 313, the test driving cylinder 314 is fixed at one end of the second slide rail 311, and the test driving cylinder 314 drives the test sliding plate 312, the test assembly mounting block 313 and the electrical performance test assembly 32 to slide on the second slide rail 311.

Further, the electrical performance testing component 32 includes a testing socket 321 and an electrical performance testing element 322 installed in the testing socket 321, where the electrical performance testing element 322 detects resistance, voltage, and the like between the first connector 42 and the second connector 43, mainly detects whether the data line 4 to be tested is conducted, and whether each electrical index meets the standard.

The working principle of the data line swing testing machine is as follows: the test carrier 12 slides in the first slide rail 11, when reaching a test station, the test carrier 12 stops moving, the positioning hole 121 and the insertion slot 111 are located on the same vertical line, and the positioning cylinder 131 drives the positioning block 133 to slide in the insertion slot 111 and insert into the positioning hole 121 to position the test carrier 12; the expanding cylinder 142 drives the expanding insertion rod 143 to be inserted into the clamping space 1231 to expand the clamping handle 123, the elastic member 124 is compressed to place the first connecting head 42 and the second connecting head 43 in the clamping space 1231, the expanding cylinder 142 drives the expanding insertion rod 143 to reset, and the elastic member 124 releases elastic potential energy to push the clamping handle 123 to clamp the first connecting head 42 and the second connecting head 43.

On one hand, the test driving cylinder 314 drives the test sliding plate 312, the test component mounting block 313 and the electrical performance testing component 32 to slide forward on the second sliding rail 311, specifically, the first connector 42 and the second connector 43 are respectively inserted into the test socket 321 and electrically connected to the electrical performance testing element 322, and the electrical performance testing element 322 detects resistance, voltage and the like between the first connector 42 and the second connector 43.

On the other hand, wire rod clamping unit 23 centre gripping wire rod 41 with first connector 42 with the junction of second connector 43, direction module 22 drives wire rod clamping unit 23 with the data line 4 that awaits measuring carries out diversified swing, right the data line 4 that awaits measuring carries out the fatigue test of buckling the swing. Specifically, Z drives to subassembly 223 wire rod clamping unit 23 downstream, wire rod clamping unit 23 centre gripping wire rod 41 with first connector 42 with the stereoplasm junction of second connector 43, afterwards, X drives to subassembly 221 wire rod clamping unit 23 moves forward, makes wire rod clamping unit 23 centre gripping wire rod 41 with first connector 42 with the soft junction of second connector 43 accomplishes the preliminary centre gripping before the test of swaying. Entering a swing test state: the Z-direction component 223 drives the wire clamping unit 23 and the wire 41 to move upwards, complete the upward swinging action and return to the original point; the Z-direction component 223 drives the wire clamping unit 23 and the wire 41 to move downwards, complete the downward swinging action and return to the original point; the Y-direction component 222 drives the wire clamping unit 23 and the wire 41 to move left, complete left swing motion and return to the original point; the Y-direction component 222 drives the wire clamping unit 23 and the wire 41 to move right, completes the right swing action and returns to the original point; and finishing the whole swing test action.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the present invention pertains, the architecture form can be flexible and varied without departing from the concept of the present invention, and a series of products can be derived. But rather a number of simple derivations or substitutions are made which are to be considered as falling within the scope of the invention as defined by the appended claims.

Claims

1. A data line swing tester is used for swinging a data line to be tested and testing the electrical performance of the data line to be tested, wherein the data line to be tested comprises a wire rod, a first connector and a second connector, wherein the first connector and the second connector are fixedly connected to two ends of the wire rod; the method is characterized in that: the data line swing tester includes:

the connector fixing device is used for clamping and fixing the first connector and the second connector;

the wire rod swinging device is used for driving the wire rod to swing in multiple directions, and the wire rod swinging device enables the wire rod to generate arc-shaped surface bending relative to the first connector and the second connector when swinging in multiple directions;

the electrical performance testing device is used for detecting electrical performance parameters of the first connector and the second connector in the process of multi-directional swinging of the wire rod, and the electrical performance testing device is respectively inserted into the first connector and the second connector;

the connector fixing device comprises a first slide rail, a test carrier, a carrier positioning unit and a carrier opening unit, wherein the test carrier is arranged in the first slide rail in a sliding manner, the carrier positioning unit is fixed on the first slide rail, and one end of the carrier positioning unit is inserted into the first slide rail in a telescopic manner to position the test carrier; the carrier opening unit is arranged above the test carrier, and one end of the carrier opening unit is inserted into the test carrier in a telescopic mode to enable the test carrier to be opened and closed.

2. The data line sway testing machine of claim 1, wherein: the carrier positioning unit comprises a positioning cylinder, a positioning cylinder mounting block and a positioning block, the first slide rail is provided with an insertion groove, and the test carrier is provided with a positioning hole; the positioning cylinder mounting block is fixed on the first slide rail, the positioning cylinder is mounted on the positioning cylinder mounting block, the output end of the positioning cylinder is fixedly connected with the positioning block, the positioning block is partially accommodated in the insertion groove, and the positioning cylinder drives the positioning block to slide in the insertion groove and be inserted into the positioning hole to position the test carrier.

3. The data line sway tester of claim 2, wherein: the test carrier comprises a positioning seat, a clamping hand and an elastic piece which is respectively abutted against the positioning seat and the clamping hand, and a clamping space is arranged in the clamping hand; the carrier opens the unit and includes the connecting plate, opens the cylinder and connects and open the inserted bar at this opening cylinder output, the connecting plate is fixed on the location cylinder installation piece, open the cylinder and install on the connecting plate, open the cylinder drive open the inserted bar and insert make in the centre gripping space the tong opens.

4. The data line sway testing machine of claim 1, wherein: the wire rod swinging device comprises a rack, a direction module and a wire rod clamping unit; the direction module is arranged on the rack, and the wire rod clamping unit is arranged on the direction module.

5. The data line sway testing machine of claim 4, wherein: the direction module comprises an X-direction component, a Y-direction component and a Z-direction component which are mutually vertical; the Z-direction assembly is mounted on the rack and comprises a Z-direction slide rail, a Z-direction sliding plate and a Z-direction motor, the Z-direction sliding plate is arranged on the Z-direction slide rail in a sliding mode, the Y-direction assembly is mounted on the Z-direction sliding plate, and the Z-direction motor drives the Z-direction sliding plate and the Y-direction assembly to slide on the Z-direction slide rail; the Y-direction component comprises a Y-direction sliding rail, a Y-direction sliding plate and a Y-direction motor, the Y-direction sliding plate is arranged on the Y-direction sliding rail in a sliding mode, the X-direction component is installed on the Y-direction sliding plate, and the Y-direction motor drives the Y-direction sliding plate and the X-direction component to slide on the Y-direction sliding rail; the X-direction assembly comprises an X-direction sliding rail, an X-direction sliding plate and an X-direction motor, the X-direction sliding plate is arranged on the X-direction sliding rail in a sliding mode, the wire clamping unit is arranged on the X-direction sliding plate, and the X-direction motor drives the X-direction sliding plate and the wire clamping unit to slide on the X-direction sliding rail.

6. The data line sway testing machine of claim 4, wherein: the wire rod clamping unit comprises a clamping mounting plate and a clamping assembly fixed on the clamping mounting plate, the clamping assembly comprises a clamping cylinder and a clamping hand installed on the clamping cylinder, and the clamping cylinder drives the clamping hand to clamp or loosen.

7. The data line sway testing machine of claim 1, wherein: the electrical property testing device comprises a testing driving assembly and an electrical property testing assembly, wherein the electrical property testing assembly is installed on the testing driving assembly, the testing driving assembly drives the electrical property testing assembly to be inserted into the first connector and the second connector, and electrical property parameters of the first connector and the second connector are detected.

8. The data line sway testing machine of claim 7, wherein: the test driving assembly comprises a second slide rail, a test sliding plate, a test assembly mounting block and a test driving air cylinder, the test sliding plate is arranged on the second slide rail in a sliding mode, the test assembly mounting block is mounted on the test sliding plate, the electrical performance test assembly is mounted on the test assembly mounting block, the test driving air cylinder is fixed to one end of the second slide rail, and the test driving air cylinder drives the test sliding plate, the test assembly mounting block and the electrical performance test assembly to slide on the second slide rail.

9. The data line sway testing machine of claim 7, wherein: the electrical performance testing assembly includes a test socket and an electrical performance testing element mounted in the test socket.