CN113466559A

CN113466559A - Data line sways electricity and surveys mechanism

Info

Publication number: CN113466559A
Application number: CN202110734478.7A
Authority: CN
Inventors: 程昌
Original assignee: Dongguan Wuxin Automation Technology Co ltd
Current assignee: Dongguan Wuxin Automation Technology Co ltd
Priority date: 2021-06-30
Filing date: 2021-06-30
Publication date: 2021-10-01
Anticipated expiration: 2041-06-30
Also published as: CN113466559B

Abstract

The utility model provides a data line sways electricity and surveys mechanism for sway and the test of electrical property to the data line that awaits measuring, include: the device comprises a data line carrier, a PLC (programmable logic controller), a wire rod swinging assembly, a positioning test assembly and a joint fixing assembly, wherein the wire rod swinging assembly, the positioning test assembly and the joint fixing assembly are respectively and electrically connected with the PLC; the wire swinging assembly is used for driving wires close to the two joints of the data line to swing in the front-back, left-right and up-down directions, and the wires are curved in an arc shape relative to the two joints of the data line; the positioning test assembly is used for detecting electrical performance parameters of the two joints of the data line in a multi-azimuth swinging process of the wire rods close to the two joints of the data line; the joint fixing component is used for clamping and fixing two joints of the data line. The invention has reasonable design, novel structure and high automation degree, does not need manual operation in the testing and detecting process, ensures that the data line can be swung to a corresponding position and a corresponding angle every time of swinging, and completely avoids that defective data lines cannot be detected and mixed into qualified data lines.

Description

Data line sways electricity and surveys mechanism

The technical field is as follows:

the invention relates to the technical field of data line detection, in particular to a data line swing electrical measurement mechanism.

Background art:

with the continuous development of society and the continuous progress of scientific level, the 3C industry is continuously developed and developed, and the 3C industry can not leave the data line. The data line is used for connecting the mobile equipment and the computer so as to achieve the purpose of data transmission or communication. Generally speaking, it is a channel tool for connecting a computer and a mobile device to transmit files such as video, ring tone, and picture.

Now, with the development of the electronic industry, data lines have become an indispensable part in our lives, the data lines transmit data by transmitting weak electrical signals at high speed, and the quality of cables affects the speed of data transmission. The existing data line comprises a USB line, an HDMI line and the like, the existing data line is often bent into various shapes in the use process, after the existing data line is repeatedly bent, a wire core in the cable can be broken to cause the disconnection or short circuit of the cable, and the data line is usually required to be subjected to swing test in the production process to examine the quality of the data line.

The conventional data line test swinging angle is completely controlled by the action of an arm of an operator, and whether the specific swinging meets the standard cannot be determined, so that a lot of defective products flow out.

The invention content is as follows:

the invention aims to solve the defect problems in the prior art and provides a data line swinging electrical measuring mechanism, namely, a data line swinging electrical measuring device which ensures that a data line can be swung to a corresponding position and a corresponding angle every time the data line is swung and has high swinging electrical measuring accuracy. The data line quality control device is simple in structure and convenient to use, improves working efficiency, and guarantees uniformity of data line quality.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a data line sways electricity and surveys mechanism for sway and the test of electrical property to the data line that awaits measuring, include: the device comprises a data line carrier, a PLC (programmable logic controller), a wire rod swinging assembly, a positioning test assembly and a joint fixing assembly, wherein the wire rod swinging assembly, the positioning test assembly and the joint fixing assembly are respectively and electrically connected with the PLC;

the data line carrier is used for inserting a data line to be tested and transmitting the data line to the data line swinging electric measuring mechanism;

the wire swinging assembly is used for driving wires close to the two joints of the data line to swing in the front-back, left-right and up-down directions, and the wires are curved in an arc shape relative to the two joints of the data line;

the positioning test assembly is used for detecting electrical performance parameters of the two joints of the data line in a multi-azimuth swinging process of the wire rods close to the two joints of the data line;

the joint fixing assembly is used for clamping and fixing two joints of the data line.

Preferably, the wire sway assembly comprises: a fixed frame component, a left-right swinging mechanism, an up-down swinging mechanism and a front-back swinging mechanism which are arranged on the fixed frame component.

Further, the horizontal swing mechanism is provided with a horizontal straight connecting plate, the horizontal straight connecting plate is fixedly connected to the fixed column assembly, the horizontal straight connecting plate is provided with a transverse guide rail and a transverse sliding block, the transverse sliding block is provided with a vertical connecting plate, the horizontal straight connecting plate is provided with a first horizontal straight screw rod pair assembly and a transverse sliding plate in a sliding connection mode, the transverse sliding plate is fixed to the vertical connecting plate, one end of the first horizontal straight screw rod pair assembly is connected with a left-right swing power assembly through a coupler, and the left-right swing power assembly provides a power source for the horizontal direction left-right movement of the horizontal swing mechanism.

The vertical screw pair assembly is fixed on the vertical connecting plate, the vertical sliding plate is connected to the vertical screw pair assembly in a sliding mode, a second transverse and straight connecting plate is arranged on one side of the vertical sliding plate, one end of the vertical screw pair assembly is connected with an up-and-down swinging power piece through a coupler, and the up-and-down swinging power piece provides a power source for the up-and-down swinging mechanism to move up and down in the vertical direction.

The front-back swinging mechanism is provided with a horizontal connecting plate fixedly connected to the second transverse straight connecting plate, one end of the horizontal connecting plate is fixedly connected with a front-back swinging power part, and the front-back swinging power part provides a power source for the front-back swinging mechanism to move back and forth in the horizontal direction through a mechanical transmission assembly; the horizontal connecting plate is connected with the longitudinal guide rail in a sliding manner through a longitudinal sliding block, the longitudinal sliding block is connected with a swinging clamping jaw connecting plate, and the swinging clamping jaw connecting plate is connected with two groups of swinging clamping jaw assemblies and respectively used for clamping cables at two wire ends close to the data wire; two sets of swing clamping jaw subassembly is provided with four groups of clamp fingers that can rotate, the clamp finger is the calabash shape.

Preferably, the clamping fingers are arranged on the clamping finger connecting block, clamping finger mounting holes are formed in the clamping finger connecting block, sleeves are arranged between the inner side walls of the clamping finger mounting holes and the surfaces of the clamping fingers in a cushioning mode, and two ends of each clamping finger extend out of the mounting holes.

Preferably, swing clamping jaw subassembly still including embracing the clamp control panel, embracing splint power part and cam mechanism, embrace the clamp control panel and embrace the splint through spliced pole fixedly connected with, cam mechanism is used for controlling opening and shutting of pressing from both sides the finger.

Preferably, the positioning test assembly comprises a test module, a test module power piece and a positioning piece, the test module power piece provides a power source for the test module to move back and forth in the horizontal direction, and the positioning piece is matched with the positioning hole in the data line carrier for use.

The joint fixing assembly is fixedly connected to the lower end of the swing mechanism and provided with a clamp power piece and a wire end clamp, and the clamp power piece provides a power source for opening and closing the wire end clamp;

when the data line is transmitted to the swinging electric measuring mechanism, the PLC control system controls the positioning test assembly to position the data line carrier and extend forwards to connect the test module for resistance detection, then controls the joint fixing assembly to clamp two line ends of the fixed data line, and controls the swinging clamping jaw assemblies to clamp cables at the two line ends close to the data line to perform swinging tests in the front-back, left-right and up-down directions through the swinging mechanism.

Still further, connect fixed subassembly still includes the cohesion subassembly, the cohesion subassembly includes cylinder deflector, cam deflector and cam mechanism, the top of cylinder deflector and the bottom of cam deflector are equipped with a plurality of magnetic force pieces, through magnetic force piece with the cooperation of clip power piece is controlled cam mechanism operation and control opening and shutting of line end clip.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable design and novel structure, integrates the left-right swinging mechanism, the up-down swinging mechanism, the front-back swinging mechanism and the electrical performance test into a whole, has high automation degree, does not need manual operation, can realize the structural design of the data line swinging electrical measurement mechanism, and ensures that the data line can be swung to a corresponding position and a corresponding angle every swinging, thereby greatly improving the accuracy of the swinging electrical measurement, completely avoiding that defective data lines cannot be detected and mixed into qualified data lines due to insufficient swinging positions or angles, ensuring that the data lines are qualified products, having strong practicability and improving the detection efficiency and accuracy.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only a part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a perspective view of an electrical data line swing measurement mechanism according to the present invention;

FIG. 2 is a schematic diagram of a front side of the data line wobble electrical measurement mechanism shown in FIG. 1;

FIG. 3 is a schematic side view of an electrical mechanism for measuring the swing of a data line shown in FIG. 1;

FIG. 4 is a schematic top view of the electrical mechanism for measuring data line swing shown in FIG. 1;

FIG. 5 is a perspective view of a rocking mechanism and joint securing assembly of an electrical rocking data line measuring mechanism;

FIG. 6 is a perspective view of a positioning test assembly of a data line swing electrical measurement mechanism;

FIG. 7 is a perspective view of another perspective of a positioning test assembly of a data line swing electrical measurement mechanism;

FIG. 8 is a perspective view of a rocking clip of a data line rocking electrical measuring mechanism;

FIG. 9 is a perspective view of another view of the rocking clip of the data line rocking electrical measuring mechanism;

FIG. 10 is a perspective view of a joint securing assembly of a data line rocking electrical measurement mechanism;

the reference numerals include:

1-wire swinging component 11-left-right swinging mechanism 111-transverse straight connecting plate 112-transverse guide rail 113-transverse sliding block 114-vertical connecting plate 115-first transverse straight screw rod pair component 116-transverse sliding plate 117-left-right swinging power part

12-up-down swinging mechanism 121-vertical screw rod pair assembly 122-vertical sliding plate 123-second transverse and straight connecting plate 124-up-down swinging power part

13-fore-and-aft swinging mechanism 131-horizontal connecting plate 132-fore-and-aft swinging power part 133-mechanical transmission assembly 134-longitudinal sliding block 135-longitudinal guide rail

14-Mount Assembly

15-support rod assembly

2-positioning test assembly 21-test module 22-test module power part 23-positioning part

3-joint fixing component 31-clamp power part 32-wire end clamp 33-cohesion component 331-cylinder guide plate 332-cam guide plate 333-cam mechanism

4-data line carrier

5-swinging clamping jaw assembly 51-clamping finger 52-clamping finger connecting block 53-clamping finger mounting hole 54-sleeve 55-clamping clamp control plate 56-clamping clamp power part 57-cam mechanism

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

The specific implementation mode is as follows:

the invention is described in further detail below with reference to fig. 1-9.

The embodiments described by referring to the drawings are exemplary and intended to be used for explaining the present application and are not to be construed as limiting the present application. In the description of the present application, it is to be understood that the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "leading," "trailing," and the like, as used herein, are used in an orientation or positional relationship indicated based on the orientation or positional relationship shown in fig. 1, which is for convenience in describing the present application and simplifying the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be construed as limiting the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

The invention provides a data line swing electrical measurement mechanism.

As shown in fig. 1 to 4, an electrical measuring mechanism for data line swing is used to test the swing and electrical performance of the data line to be tested, and includes: the device comprises a data line carrier 4, a PLC control device, a wire rod swinging assembly 1, a positioning test assembly 2 and a joint fixing assembly 3, wherein the wire rod swinging assembly 1, the positioning test assembly 2 and the joint fixing assembly 3 are respectively and electrically connected with the PLC control device;

the data line carrier 4 is used for inserting a data line to be tested and transmitting the data line to the data line swing electrical measurement mechanism;

the wire swinging assembly 1 is used for driving wires close to two joints of the data line to swing in the front-back, left-right and up-down directions, and generates arc bending relative to the two joints of the data line;

the positioning test assembly 2 is used for detecting electrical performance parameters of two joints of the data line in a multi-azimuth swinging process of wires close to the two joints of the data line;

the connector fixing component 3 is used for clamping and fixing two connectors of a data line.

As shown in fig. 5, 7 and 9, preferably, the wire sway assembly 1 comprises: the device comprises a fixed frame assembly 14, a left-right swinging mechanism 11, an up-down swinging mechanism 12, a front-back swinging mechanism 13 and a supporting rod assembly 15 which is fixedly connected to the outer side of the material swinging assembly 1 and used for preventing the data wire from being damaged by moving friction.

Further, the left-right swinging mechanism 11 is provided with a transverse straight connecting plate 111, the transverse straight connecting plate 111 is fixedly connected to the fixed column assembly 14, the transverse straight connecting plate 111 is provided with a transverse guide rail 112 and a transverse sliding block 113, the transverse sliding block 113 is provided with a vertical connecting plate 114, the transverse straight connecting plate 111 is provided with a first transverse straight screw rod sub-assembly 115 and is slidably connected with a transverse sliding plate 116, the transverse sliding plate 116 is fixed to the vertical connecting plate 114, one end of the first transverse straight screw rod sub-assembly 115 is connected with a left-right swinging power assembly 117 through a coupler, the left-right swinging power assembly 117 is a motor, and the left-right swinging power assembly 117 provides a power source for the left-right swinging mechanism 11 to move left and right in the horizontal direction.

The up-and-down swinging mechanism 12 is provided with a vertical screw pair assembly 121 fixed on the vertical connecting plate 114 and is connected with a vertical sliding plate 122 in a sliding manner, one side of the vertical sliding plate 122 is provided with a second transverse and straight connecting plate 123, one end of the vertical screw pair assembly 121 is connected with an up-and-down swinging power part 124 through a coupler, the up-and-down swinging power part 124 is a motor, and the up-and-down swinging power part 124 provides a power source for the up-and-down swinging mechanism 12 to move up and down in the vertical direction.

The front-back swinging mechanism 13 is provided with a horizontal connecting plate 131 fixedly connected to the second horizontal straight connecting plate 123, one end of the horizontal connecting plate 131 is fixedly connected with a front-back swinging power part 132, the front-back swinging power part 132 is a motor, and the front-back swinging power part 132 provides a power source for the front-back swinging mechanism 13 to move back and forth in the horizontal direction through a mechanical transmission assembly 133; the mechanical transmission assembly 133 is a synchronous belt assembly, the horizontal connecting plate 131 is connected with the longitudinal guide rail 135 in a sliding manner through a longitudinal sliding block 134, the longitudinal sliding block 134 is connected with a swinging clamping jaw connecting plate 135, and the swinging clamping jaw connecting plate is connected with two groups of swinging clamping jaw assemblies 5 which are respectively used for clamping cables at two line ends close to the data line; two sets of but swing clamping jaw subassembly 5 is provided with four groups of clamp fingers 51 of rotation, but the clamp finger is calabash shape, and the calabash shape clamping jaw of rotation can furthest's reduction is to the friction of data line, avoids the wire rod surface impaired.

Preferably, the clamping finger 51 is mounted on the clamping finger connecting block 52, a clamping finger mounting hole 53 is formed in the clamping finger connecting block 52, a sleeve 54 is padded between the inner side wall of the clamping finger mounting hole 53 and the surface of the clamping finger 51, and two ends of the clamping finger 51 extend out of the mounting hole 53.

Preferably, swing clamping jaw assembly 5 still includes embracing and presss from both sides control panel 55, embraces splint power spare 56 and cam mechanism 57, it is the cylinder to embrace splint power spare 56, it embraces clamp control panel 54 through two spliced poles fixed connection to embrace splint power spare 56, cam mechanism 57 is used for controlling the opening and shutting of pressing from both sides finger 51.

As shown in fig. 6, preferably, the positioning test assembly 2 includes a test module 21, a test module power component 22 and a positioning component 23, the test module power component 22 provides a power source for the test module 21 to move forward and backward in the horizontal direction, the test module power component 22 is an air cylinder, and the positioning component 23 is matched with a positioning hole on the data line carrier 4 for use.

As shown in fig. 9, the joint fixing component 3 is fixedly connected to the lower end of the swing mechanism 1, the joint fixing component is provided with a clip power part 31 and a wire end clip 32, the clip power part 31 provides a power source for opening and closing the wire end clip 32, and the clip power part 31 is an air cylinder;

when the data line is transmitted to the swing electric measuring mechanism 1, the PLC control system controls the positioning test component 2 to position the data line carrier 4 and extend forwards to be connected with the test module 21 for resistance detection, then controls the joint fixing component 3 to clamp two line ends of the fixed data line, and controls the two groups of swing clamping jaw components 5 to clamp the wire rods at the two line ends close to the data line to perform swing tests in the front-back, left-right and up-down directions through the swing mechanism 1.

Still further, the joint fixing component 3 further comprises a clasping component 33, the clasping component 33 comprises an air cylinder guide plate 331, a cam guide plate 332 and a cam mechanism 333, a plurality of magnetic parts are arranged at the top of the air cylinder guide plate 331 and the bottom of the cam guide plate 332, and the cam mechanism 332 is controlled to operate and control the opening and closing of the wire end clamp 32 through the matching of the magnetic parts and the clamp power part 31.

In conclusion, the beneficial effects of the invention are as follows: the invention has reasonable design and novel structure, integrates the left-right swinging mechanism, the up-down swinging mechanism, the front-back swinging mechanism and the electrical performance test into a whole, has high automation degree, does not need manual operation, can realize the structural design of the data line swinging electrical measurement mechanism, and ensures that the data line can be swung to a corresponding position and a corresponding angle every swinging, thereby greatly improving the accuracy of the swinging electrical measurement, completely avoiding that defective data lines cannot be detected and mixed into qualified data lines due to insufficient swinging positions or angles, ensuring that the data lines are qualified products, having strong practicability and improving the detection efficiency and accuracy.

The working principle is as follows: the data line is manually placed into a data line carrier (two data lines can be placed at one time), the data line to be detected is sent to a swing electrical measurement mechanism through the data line carrier, a clamping jaw of a joint fixing assembly clamps and fixes the data line to swing front and back, left and right, up and down in multiple directions and generate arc bending, electrical performance parameters of two joints of the data line are detected and reset, after the swing electrical measurement process is completed, the clamping jaw is loosened, the data line carrier bears the data line after swing electrical measurement, the next process is carried out, and the process is circulated in sequence.

The above-mentioned embodiments only express one of the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides an electricity mechanism is surveyed to data line sways for sway and the test of electrical property to the data line that awaits measuring, its characterized in that includes: the device comprises a data line carrier, a PLC (programmable logic controller), a wire rod swinging assembly, a positioning test assembly and a joint fixing assembly, wherein the wire rod swinging assembly, the positioning test assembly and the joint fixing assembly are respectively and electrically connected with the PLC;

2. The electrical data line sway measurement mechanism of claim 1, wherein the wire sway assembly comprises: a fixed frame component, a left-right swinging mechanism, an up-down swinging mechanism and a front-back swinging mechanism which are arranged on the fixed frame component.

3. The mechanism of claim 2, wherein the left-right swinging mechanism is provided with a transverse connecting plate, the transverse connecting plate is fixedly connected to the fixed column assembly, the transverse connecting plate is provided with a transverse guide rail and a transverse sliding block, the transverse sliding block is provided with a vertical connecting plate, the transverse connecting plate is provided with a first transverse straight screw pair assembly and is connected with a transverse sliding plate in a sliding manner, the transverse sliding plate is fixed to the vertical connecting plate, one end of the first transverse straight screw pair assembly is connected with a left-right swinging power part through a coupling, and the left-right swinging power part provides a power source for the left-right swinging mechanism to move horizontally left and right.

4. The mechanism of claim 2, wherein the up-down swinging mechanism is provided with a vertical screw pair assembly fixed on the vertical connecting plate and connected with a vertical sliding plate in a sliding manner, one side of the vertical sliding plate is provided with a second transverse connecting plate, one end of the vertical screw pair assembly is connected with an up-down swinging power piece through a coupler, and the up-down swinging power piece provides a power source for the up-down swinging mechanism to move up and down in the vertical direction.

5. The mechanism of claim 2, wherein the back-and-forth swinging mechanism is provided with a horizontal connecting plate fixedly connected to the second horizontal straight connecting plate, one end of the horizontal connecting plate is fixedly connected with a back-and-forth swinging power part, and the back-and-forth swinging power part provides a power source for the back-and-forth swinging mechanism to move back and forth in the horizontal direction through a mechanical transmission assembly; the horizontal connecting plate is connected with the longitudinal guide rail in a sliding manner through a longitudinal sliding block, the longitudinal sliding block is connected with a swinging clamping jaw connecting plate, and the swinging clamping jaw connecting plate is connected with two groups of swinging clamping jaw assemblies and respectively used for clamping cables at two wire ends close to the data wire; two sets of swing clamping jaw subassembly is provided with four groups of clamp fingers that can rotate, the clamp finger is the calabash shape.

6. The mechanism of claim 5, wherein the clamp finger is mounted on a clamp finger connecting block, a clamp finger mounting hole is formed in the clamp finger connecting block, a sleeve is arranged between the inner side wall of the clamp finger mounting hole and the surface of the clamp finger, and two ends of the clamp finger extend out of the mounting hole.

7. The mechanism of claim 5, wherein the swinging clamping jaw assembly further comprises a clamping control plate, a clamping power part and a cam mechanism, the clamping control plate is fixedly connected with the clamping plate through a connecting column, and the cam mechanism is used for controlling the clamping fingers to open and close.

8. The mechanism of claim 1, wherein the positioning and testing assembly comprises a testing module, a testing module power member and a positioning member, the testing module power member provides a power source for the testing module to move back and forth in the horizontal direction, and the positioning member is used in cooperation with the positioning hole on the data line carrier.

9. The mechanism of claim 8, wherein the connector fixing component is fixedly connected to the lower end of the swing mechanism, the connector fixing component is provided with a clamp power piece and a wire end clamp, and the clamp power piece provides a power source for opening and closing of the wire end clamp;

when the data line conveys when swaing electric measuring mechanism, PLC control system control the location test subassembly is right the data line carrier is fixed a position and is stretched out forward and connect test module and carry out resistance detection, control then connect fixed subassembly to clip two line ends of fixed data line, control two sets of again sway clamping jaw subassembly and clip the wire rod that is close to two line ends of data line and pass through the swing mechanism carries out the test of swaing of all directions all around.

10. The mechanism of claim 9, wherein the joint fixing assembly further comprises a clasping assembly, the clasping assembly comprises a cylinder guide plate, a cam guide plate and a cam mechanism, the top of the cylinder guide plate and the bottom of the cam guide plate are provided with a plurality of magnetic members, and the magnetic members are matched with the clamp power members to control the operation of the cam mechanism and control the opening and closing of the wire end clamp.