CN218122023U - A quick interfacing apparatus for charger detects - Google Patents

Abstract

The utility model provides a quick docking device for charger detection, which comprises a charger limiting component, a probe component and a probe driving component, wherein the charger limiting component is positioned on one side of the probe component and used for limiting a charger to be detected; the probe driving assembly is located on the other side of the probe assembly, is connected with the probe assembly and is used for driving the probe assembly to move in parallel. When the charger is detected, the probe driving assembly drives the test probe of the probe assembly to be inserted into the wiring terminal of the charger to be detected, so that the charger to be detected and the test equipment are quickly butted, and after the charger is detected, the test probe of the probe assembly is separated from the wiring terminal of the charger to be detected, so that the dismounting of the wiring terminal of the charger and the test wire is quickly realized.

Description

A quick interfacing apparatus for charger detects

Technical Field

The utility model relates to a check out test set technical field, specific theory has related to a quick interfacing apparatus for charger detects.

Background

Before the charger (such as BAC 4812) leaves factory, it needs to perform various function tests, before the tests, one end of the test line needs to be connected with the product terminal, and the other end of the test line needs to be butted with the test equipment, and after the tests are finished, the test line needs to be detached from the product terminal.

The commonly used approach is: before detecting on the terminal that manual will test line access product corresponds, manual again after the test demolish the test line from the product terminal, but this kind of operation mode is wasted time and energy, can not satisfy the gradual rise of growing production demand and cost of labor.

In order to solve the above problems, people always seek an ideal technical solution.

Disclosure of Invention

The utility model aims at prior art's not enough to a quick interfacing apparatus for charger detects is provided.

In order to realize the purpose, the utility model discloses the technical scheme who adopts is: a quick docking device for charger detection comprises a charger limiting component, a probe component and a probe driving component, wherein the charger limiting component is positioned on one side of the probe component and used for limiting a charger to be detected; the probe driving component is positioned at the other side of the probe component, is connected with the probe component and is used for driving the probe component to move in parallel;

the charger limiting assembly comprises a supporting plate, a limiting seat and a limiting pin, the supporting plate is positioned below the limiting seat, the limiting pin is arranged on the upper surface of the limiting seat, and the limiting seat is fixedly connected with the supporting plate;

the probe driving assembly comprises a displacement piece, a probe fixing seat, a sliding block and a guide rail, the displacement piece is fixedly connected with the probe fixing seat, and the bottom of the probe fixing seat is slidably mounted on the guide rail through the sliding block;

the probe assembly comprises a test probe and a probe seat, the test probe is embedded on the probe seat, and the probe seat is arranged on the probe fixing seat; one end of the test probe is used for connecting a charger to be tested; and the other end of the test probe is used for connecting a test line of test equipment.

The beneficial effects of the utility model are that:

the utility model provides a quick docking device for charger detection, which comprises a charger limit component, a probe component and a probe driving component, wherein the charger limit component and the probe driving component are positioned at two sides of the probe component; when the charger is detected, the charger to be detected is fixed through the charger limiting assembly to enable a wiring terminal of the charger to be detected to be located at an appointed position, then the probe driving assembly drives the probe assembly to move in parallel, a test probe of the probe assembly is inserted into the wiring terminal of the charger to be detected, and rapid butt joint of the charger to be detected and test equipment is achieved;

after the charger is detected, the probe driving assembly drives the probe assembly to move in parallel again, so that the test probe of the probe assembly is separated from the wiring terminal of the charger to be detected, and the dismounting of the wiring terminal of the charger and the test wire is quickly realized.

Drawings

Fig. 1 is a schematic side view of the present invention;

fig. 2 is a schematic top view of the present invention;

fig. 3 and 4 are schematic perspective views of the present invention;

fig. 5 and fig. 6 are schematic structural diagrams of the present invention during charger testing;

in the figure: 1. a support plate; 2. a limiting seat; 3. a slider; 4. a probe fixing seat; 5. a fixed plate of the double-shaft cylinder; 6. a probe base; 7. testing the probe; 8. a housing; 9. a manual valve; 10. a barometer; 11. a pipe joint; 12. a guide rail; 13. a charger to be tested; 14. a spacing pin; 15. the telescopic link of biax cylinder.

Detailed Description

The technical solution of the present invention will be described in further detail through the following embodiments.

Example 1

As shown in fig. 1 to 6, a quick docking device for charger detection comprises a charger limiting component, a probe component and a probe driving component, wherein the charger limiting component is located on one side of the probe component and used for limiting a charger to be detected; the probe driving assembly is positioned on the other side of the probe assembly, is connected with the probe assembly and is used for driving the probe assembly to move in parallel;

the charger limiting component comprises a supporting plate 1, a limiting seat 2 and a limiting pin 14, wherein the supporting plate 1 is positioned below the limiting seat 2, the limiting pin 14 is arranged on the upper surface of the limiting seat 2, and the limiting seat 2 is fixedly connected with the supporting plate 1;

the probe driving assembly comprises a displacement piece, a probe fixing seat 4, a sliding block 3 and a guide rail 12, wherein the displacement piece is fixedly connected with the probe fixing seat 4, the bottom of the probe fixing seat 4 is fixedly connected with the sliding block 3, and the sliding block 3 is arranged on the guide rail 12 in a sliding manner;

the probe assembly comprises a test probe 7 and a probe seat 6, the test probe 7 is embedded on the probe seat 6, and the probe seat 6 is arranged on the probe fixing seat 4; one end of the test probe 7 is used for connecting a charger 13 to be tested; the other end of the test probe 7 is used for connecting a test line of test equipment.

Further, the probe fixing seat 4 comprises a fixing plate I and a fixing plate II which are vertically arranged, and the fixing plate I is fixedly connected with the fixing plate II; the bottom of fixed plate I with slider 3 fixed connection, the side of fixed plate II with shift unit fixed connection.

Specifically, the fixing plate I and the fixing plate II are integrally formed.

Further, the probe seat 6 is of an L-shaped structure, the bottom of a transverse plate of the L-shaped structure is fixedly connected with the top of the fixing plate I, a probe sleeve is embedded in a vertical plate of the L-shaped structure, and the test probe 7 is inserted in the probe sleeve; it should be noted that, when the probe is replaced, the original test probe 7 is pulled out from the probe sleeve, and then a new test probe 7 is inserted into the probe sleeve, which is convenient and fast.

In order to ensure that the position of the probe seat 6 can be adjusted left and right, the probe seat is suitable for products of different models; the transverse plate of the L-shaped structure is further provided with an adjustable limiting hole, and the adjustable limiting hole is used for adjusting the position of the test probe 7. Specifically, the adjustable limiting hole is a long round hole, as shown in fig. 2; the probe base 6 is detachably mounted on the probe fixing base 4 through bolts, and the probe base 6 moves left and right along the long round hole to further drive the test probe 7 to move left and right.

Furthermore, the quick docking device for charger detection further comprises a docking platform, wherein the docking platform is located below the charger limiting assembly, the probe assembly and the probe driving assembly, and the charger limiting assembly is detachably mounted on the docking platform. Specifically, the spacing seat 2 of the spacing subassembly of charger is detachably installed on the butt joint platform through a bolt.

It should be noted that the chargers to be tested have different sizes and different installation sizes, and the positions corresponding to the limit pins 14 are also different; the number P of the wiring terminals of the chargers to be tested is different, and the number of the corresponding test probes is different; because the spacing seat 2 of the charger spacing component and the butt joint platform adopt the detachable installation mode, the probe seat 6 and the probe fixing seat 4 adopt the detachable installation mode, when the chargers to be tested of different models are butted, the spacing seat 2 and the probe seat 6 corresponding to the models are replaced.

It can be understood that the installation size of the chargers to be tested in part of models is the same as the number P of the connecting terminals, when the chargers to be tested are in butt joint with the test equipment, the limiting seat 2 and the probe seat 6 do not need to be replaced, the probe seat 6 is enabled to move left and right along the oblong hole, and the left and right positions of the probe seat 6 are finely adjusted to enable the connecting terminals of the chargers to be tested to be in accurate butt joint with the test probes of the probe assembly.

In a specific embodiment, the displacement member comprises a double-shaft cylinder and an air source connected with the double-shaft cylinder, and the end part of the telescopic rod 15 of the double-shaft cylinder is fixedly connected with the probe fixing seat 4 through the fixing plate 5 of the double-shaft cylinder, so as to drive the test probe 7 to move in the horizontal direction.

Further, the quick butt joint device for charger detection further comprises a shell 8, the double-shaft cylinder and the air source are located in the shell 8, a manual valve 9 used for controlling the double-shaft cylinder, a barometer 10 used for monitoring the air source and a pipe joint 11 connected with the air source are further arranged on the shell 8, and the air source is used for supplementing the air source when being communicated with the pipe joint 11 in a sealing mode.

In a specific embodiment, the displacement member is a miniature precision module, and the end of a telescopic rod of the miniature precision module is fixedly connected with the probe fixing seat 4 through a fixing plate 5 of a double-shaft cylinder, and is used for driving the test probe 7 to move in the horizontal direction.

It is understood that the displacement member can adopt the above two modes, and other devices capable of driving the probe assembly to move in parallel can also be adopted.

Specifically, the limit pins are cylindrical pins, and the number of the cylindrical pins is four, as shown in fig. 2.

It should be noted that, the operation steps of the quick docking device for charger detection are as follows: placing the charger 13 to be tested on the charger limiting component, as shown in fig. 2; the charger 13 to be tested is limited by the four cylindrical pins, the bottom of the probe fixing seat 4 is slidably mounted on the guide rail 12 through the sliding block 3, the manual valve 9 is pulled leftwards, the telescopic rod of the double-shaft cylinder extends out to push the probe seat 6 on the probe fixing seat 4 to move, the test probe 7 is inserted into a wiring terminal of the charger 13 to be tested, the other end of the test probe 7 is welded with a test line, and the test line is connected with test equipment. At the moment, the butt joint of the test line and the charger 13 to be tested is realized, and the probe seat 6 limits and defines the test probe 7, so the utility model can avoid the phenomenon that the test product and the test equipment are damaged due to the wrong connection number of the test line and the wiring terminal of the charger 13 to be tested;

after the function of the charger 13 to be tested is tested by using the testing equipment, the manual valve 9 is pulled rightwards, the telescopic rod of the double-shaft cylinder is retracted, the probe seat 6 on the probe fixing seat 4 is pulled backwards, so that the testing probe 7 is separated from the wiring terminal of the charger 13 to be tested, and at the moment, the testing wire is separated from the wiring terminal of the charger 13 to be tested, so that the operation is simple, convenient and fast.

Example 2

It should be noted that, the sizes of the chargers to be tested are different, so that the front and rear positions of the connecting terminals of the chargers to be tested are different (when in butt joint, a situation that the test probe cannot be inserted into the connecting terminal and cannot collect a test signal exists), and in order to accurately butt joint the connecting terminals of the chargers to be tested and the test probe of the probe assembly, the position adjusting assembly is additionally arranged on the basis of embodiment 1, so that the quick butt joint device is higher in universality.

Specifically, the quick docking device for detecting the charger further comprises a position adjusting assembly, wherein the position adjusting assembly is located below the charger limiting assembly and used for driving the charger to be tested to move back and forth, so that the position of a wiring terminal of the charger to be tested is finely adjusted, and the wiring terminal of the charger to be tested is accurately docked with the test probe of the probe assembly.

It can be understood that the position adjusting assembly can adopt a manual fine adjustment sliding table or other driving devices capable of realizing the functions, and plays a role in fine adjustment of distance when the charger is tested.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (8)

1. The utility model provides a quick interfacing apparatus for charger detects which characterized in that: the device comprises a charger limiting component, a probe component and a probe driving component, wherein the charger limiting component is positioned on one side of the probe component and used for limiting a charger to be tested; the probe driving assembly is positioned on the other side of the probe assembly, is connected with the probe assembly and is used for driving the probe assembly to move in parallel;

the charger limiting component comprises a supporting plate, a limiting seat and a limiting pin, the supporting plate is positioned below the limiting seat, the limiting pin is arranged on the upper surface of the limiting seat, and the limiting seat is fixedly connected with the supporting plate;

the probe driving assembly comprises a displacement piece, a probe fixing seat, a sliding block and a guide rail, the displacement piece is fixedly connected with the probe fixing seat, and the bottom of the probe fixing seat is slidably mounted on the guide rail through the sliding block;

the probe assembly comprises a test probe and a probe seat, the test probe is embedded on the probe seat, and the probe seat is arranged on the probe fixing seat; one end of the test probe is used for connecting a charger to be tested; and the other end of the test probe is used for connecting a test line of test equipment.

2. The quick docking device for charger detection as claimed in claim 1, wherein: the probe fixing seat comprises a fixing plate I and a fixing plate II which are vertically arranged, and the fixing plate I is fixedly connected with the fixing plate II; the bottom of the fixing plate I is fixedly connected with the sliding block, and the side face of the fixing plate II is fixedly connected with the shifting piece.

3. The quick docking device for charger detection as recited in claim 2, wherein: the probe seat is of an L-shaped structure, the bottom of a transverse plate of the L-shaped structure is fixedly connected with the top of the fixing plate I, a probe sleeve is embedded in a vertical plate of the L-shaped structure, and the test probe is inserted in the probe sleeve.

4. The quick docking device for charger detection as claimed in claim 3, wherein: the transverse plate of the L-shaped structure is provided with an adjustable limiting hole, and the adjustable limiting hole is used for adjusting the position of the test probe.

5. The quick docking device for charger detection as recited in claim 1, wherein: the shift part comprises a double-shaft cylinder and an air source connected with the double-shaft cylinder, and the end part of a telescopic rod of the double-shaft cylinder is fixedly connected with the probe fixing seat and used for driving the test probe to move in the horizontal direction.

6. The quick docking device for charger detection as recited in claim 5, wherein: the double-shaft air cylinder and the air source are located in the shell, and a manual valve used for controlling the double-shaft air cylinder is further arranged on the shell.

7. The quick docking device for charger detection as recited in claim 1, wherein: the probe assembly is arranged on the probe driving assembly, the probe assembly is arranged on the charger limiting assembly, and the probe driving assembly is arranged on the probe driving assembly.

8. The quick docking device for charger detection as claimed in claim 1, wherein: the charger positioning device is characterized by further comprising a position adjusting assembly, wherein the position adjusting assembly is located below the charger limiting assembly and used for driving the charger to be tested to move back and forth.

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