CN216052136U - Floating pulling and inserting mechanism for Type-C interface - Google Patents

Abstract

The utility model aims to provide a Type-C interface floating plugging mechanism which is simple in structure, good in plugging effect and capable of realizing batch testing. The utility model comprises a plug module, a carrier module and a bottom plate, wherein the plug module comprises a first mounting plate, the first mounting plate is arranged on the bottom plate in a sliding manner, a plurality of Type-C plug products are arranged on the first mounting plate, the Type-C plug products are elastically connected with the first mounting plate through equal-height screws and springs, the carrier module includes the second mounting panel, and the second mounting panel carries out relative slip with first mounting panel on the bottom plate, is provided with Type-C socket product on the second mounting panel, and Type-C plug product realizes the interpolation action through first uide pin and the accurate location of second uide pin with Type-C socket product, is provided with down the needle piece module on the bottom plate, and the top of needle piece module is provided with the needle piece module down, and lower needle piece module realizes switching on of contact about the Type-C socket product with last needle piece module combination. The utility model is applied to the technical field of plugging and unplugging mechanisms.

Description

Floating pulling and inserting mechanism for Type-C interface

Technical Field

The utility model is applied to the technical field of plugging and unplugging mechanisms, and particularly relates to a Type-C interface floating plugging and unplugging mechanism.

Background

The Type-C interface is a charging and data transmission product frequently used on electronic equipment such as various mobile phones and tablets, and is frequently used in plugging and unplugging actions, so that the Type-C interface needs to ensure quality control in the production process, and whether the function of the Type-C interface is intact or not needs to be detected, and the Type-C interface can be used by clients after various functional tests are completed. In the Type-C test process, a male connector and a female connector are required to be butted to conduct a signal.

The traditional pulling and inserting process is usually completed through manual whole-course operation, the labor intensity of workers is obviously increased for large-batch tests, the human input cost is high, the test efficiency is low, and meanwhile, the test effect is difficult to guarantee. Present pull out and insert mechanism test system can only be to the test product of single structure, is difficult to satisfy the requirement of test to the test subassembly that the structure is complicated, and most pull out and insert the mechanism simultaneously and be the single channel test, and hard collision takes place easily to inserting the in-process to lead to Type-C interface to receive the damage. Therefore, it is necessary to provide a floating plugging mechanism for a Type-C interface, which has a simple structure and a good plugging effect and can realize batch testing.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the defects of the prior art and provides the Type-C interface floating plugging mechanism which is simple in structure, good in plugging effect and capable of realizing batch testing.

The technical scheme adopted by the utility model is as follows: the utility model comprises a plug module, a carrier module and a bottom plate, wherein the plug module comprises a first mounting plate and a first driving air cylinder, the first mounting plate is arranged on the bottom plate in a sliding manner, the output end of the first driving air cylinder is in transmission connection with the first mounting plate, a plurality of test interfaces are arranged on the first mounting plate, the carrier module comprises a second mounting plate and a second driving air cylinder, the second mounting plate is arranged on the bottom plate in a sliding manner, the output end of the second driving air cylinder is in transmission connection with the second mounting plate, a carrier corresponding to the plurality of test interfaces is arranged on the second mounting plate, a Type-C socket product is loaded on the carrier, the test interfaces are matched with the Type-C socket product to realize opposite insertion, a lower needle block module is arranged on the bottom plate, and an upper needle block module is arranged above the lower needle block module, and the lower pin block module and the upper pin block module are matched to realize the conduction of the upper contact and the lower contact of the Type-C socket product.

It is obvious by above-mentioned scheme, the support plate is used for placing Type-C socket product, a plurality of the support plate sets up side by side on the second mounting panel, and the socket orientation of Type-C socket product is met the end simultaneously, the second drives actuating cylinder drive the second mounting panel slides to the test position (directly over the needle piece module down), it will to go up the needle piece module the carrier is pressed down, lower needle piece module with go up the needle piece module and carry out the opposite insertion with the PAD point of Type-C socket product respectively, the probe is touched to two sides about the Type-C socket, realizes switching on of each contact of Type-C socket product, a plurality of sets up side by side with the corresponding test interface of Type-C socket product on the first mounting panel, the plug direction is facing towards the socket of Type-C socket product simultaneously, first drive actuating cylinder drive the first mounting panel slides to the test position (the end that inserts of Type-C socket product) Realize the action of inserting to carrying out the test of Type-C socket product, Type-C socket product all sets up with test interface independently, making each passageway Type-C socket product pull out to insert relatively independent, utilizing Type-C interface floats to pull out the mechanism of inserting and realizes once only pulling out and insert a plurality of Type-C socket products, has improved efficiency of software testing, has satisfied customer's big batch test, has fine economic benefits.

According to a preferable scheme, a plurality of first guide pins are arranged at the head-on end of the first mounting plate, and first guide sleeves corresponding to the first guide pins are arranged at the head-on end of the second mounting plate.

It is obvious by above-mentioned scheme, first uide pin is used for the thick guide effect of plug module realizes first fixed block with the accurate counterpoint of carrier, first uide pin with first guide pin bushing cooperation is to inserting, has established the basis for the accurate of test interface and Type-C socket product is to inserting.

One preferred scheme is that one end of keeping away from on the first mounting panel first drive actuating cylinder is provided with a plurality of fixed knot and constructs, and fixed knot constructs including first fixed block and briquetting, first fixed block sets up the head-on end of first mounting panel, first fixed block with the cooperation of briquetting realizes the fixed of test interface, the head-on end of first fixed block is provided with a plurality of second uide pin, the head-on end of carrier be provided with the second guide pin that corresponds.

According to the scheme, the first guide pin is used for the precise guiding function of the plug module, the second guide pin is matched with the second guide sleeve for plug, and the test interface and the Type-C socket product are precisely plugged.

According to a preferable scheme, the fixing structure further comprises a plurality of conical equal-height screws and a plurality of compression springs, the compression springs are sleeved on the conical equal-height screws, countersunk holes matched with the conical equal-height screws are formed in one ends, far away from the second guide pins, of the first fixing blocks, guide inclined holes matched with the conical equal-height screws are formed in the first mounting plates, the conical equal-height screws and the compression springs penetrate through the guide inclined holes to be matched and connected with the countersunk holes, and the plug module is guaranteed to be kept at basically consistent positions in each telescopic state.

According to the scheme, the plug module is in a floating state due to the matching of the conical equal-height screws and the compression springs, the plug module is plugged in a matching mode through the second guide pins and the second guide sleeves which are independent in each channel every time, the plug module is in a small difference with a floating effect and adaptable to the position of the carrier, the test interface is accurately inserted into a Type-C socket product, the conical equal-height screws ensure that the plug module keeps a basically consistent position in the telescopic state every time, the smooth insertion of the test interface into the Type-C socket product is facilitated, and meanwhile the compression springs avoid rigid collision in the plugging process so as to prevent the Type-C socket product from being damaged.

One preferred scheme is, the lower needle piece module include a plurality of with the corresponding second fixed block of carrier, a plurality of the second fixed block sets up side by side on the bottom plate, be provided with the first probe that switches on mutually with the lower contact of Type-C socket product on the second fixed block.

According to the scheme, the first probe is arranged on the second fixing block, and when the carrier presses the second fixing block downwards, the first probe is matched with a bottom contact of a Type-C socket product to be conducted.

Preferably, the second fixed block is provided with a plurality of third guide pins, and the carrier is provided with third guide sleeves corresponding to the third guide pins.

It can be seen from the above-mentioned scheme that the third uide pin is used for the accurate location of carrier guarantees that first probe switches on smoothly with the bottom contact of Type-C socket product.

One preferred scheme is, go up the needle module and drive actuating cylinder including support frame and third, the support frame sets up on the bottom plate, the support frame bottom is connected with the third mounting panel, the third drives actuating cylinder setting and is in on the support frame and the output with the transmission of third mounting panel is connected, third mounting panel bottom be provided with side by side a plurality of with the corresponding third fixed block of carrier, the bottom of third fixed block is provided with the second probe that switches on mutually with the last contact of Type-C socket product.

It is seen by above-mentioned scheme that the third drives actuating cylinder drive the third mounting panel downstream will the carrier is pressed on the second fixed block, makes the contact of Type-C socket product bottom the first probe, and the contact at Type-C socket product top makes each contact point realization of Type-C socket product switch on simultaneously the second probe.

Preferably, a plurality of fourth guide pins are arranged on the third fixed block, and fourth guide sleeves corresponding to the fourth guide pins are arranged on the carrier.

It can be seen by above-mentioned scheme that the third uide pin is used for the accurate location of carrier guarantees that the second probe switches on smoothly with the top contact of Type-C socket product.

One preferred scheme is that a buffer is arranged at the head-on end of the first mounting plate, and a lug matched with the buffer is arranged at the head-on end of the second mounting plate.

It is obvious by above-mentioned scheme, work as first mounting panel removes when inserting the end of second mounting panel, the buffer with the lug contacts, because the buffer adopts elastic construction, can absorb the impact force to inserting the process, guarantees that Type-C socket product does not take place to shift because of the vibrations that the striking produced, is favorable to testing interface to insert smoothly in the Type-C socket product.

One preferred scheme is that a limiting block is arranged on the bottom plate, a limiting screw is arranged at one end, far away from the first fixing block, of the first mounting plate, and the limiting screw is matched with the limiting block to achieve limiting.

It is obvious by above-mentioned scheme, the stop screw with the stopper cooperation is realized spacingly, avoids first mounting panel removes to cross the support to damage Type-C socket product.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention with the lower needle block removed;

fig. 3 is a schematic perspective view of the plug module;

FIG. 4 is an exploded perspective view of the fixation structure;

fig. 5 is a schematic perspective view of the carrier module;

fig. 6 is a schematic perspective view of the second fixing block;

fig. 7 is a schematic perspective view of the upper needle block module.

Detailed Description

As shown in fig. 1 to 7, in the present embodiment, the present invention includes a plug module 1, a carrier module 2, and a base plate 3, where the plug module 1 includes a first mounting plate 11 and a first driving cylinder 12, the first mounting plate 11 is slidably disposed on the base plate 3, an output end of the first driving cylinder 12 is in transmission connection with the first mounting plate 11, a plurality of test interfaces are disposed on the first mounting plate 11, the carrier module 2 includes a second mounting plate 21 and a second driving cylinder 22, the second mounting plate 21 is slidably disposed on the base plate 3, an output end of the second driving cylinder 22 is in transmission connection with the second mounting plate 21, a carrier 23 corresponding to the plurality of test interfaces is disposed on the second mounting plate 21, a Type-C socket product is loaded on the carrier 23, and the test interfaces are matched with the Type-C socket product to realize opposite insertion, be provided with down needle piece module 4 on the bottom plate 3, the top of lower needle piece module 4 is provided with needle piece module 5, lower needle piece module 4 with the cooperation of last needle piece module 5 realizes switching on of contact about the Type-C socket product.

In this embodiment, the first mounting plate 11 is provided with a plurality of first guide pins 13 at the head-on end thereof, and the second mounting plate 21 is provided with a first guide sleeve 24 corresponding to the first guide pins 13 at the head-on end thereof.

In this embodiment, one end of the first mounting plate 11, which is far away from the first driving cylinder 12, is provided with a plurality of fixing structures, each fixing structure includes a first fixing block 14 and a pressing block 15, the first fixing block 14 is disposed at a head-on end of the first mounting plate 11, the first fixing block 14 is matched with the pressing block 15 to fix the test interface, the head-on end of the first fixing block 14 is provided with a plurality of second guide pins 16, and the head-on end of the carrier 23 is provided with second guide sleeves 25 corresponding to the second guide pins 16.

In this embodiment, the fixing structure further includes a plurality of conical equal-height screws 17 and a plurality of compression springs 18, the compression springs 18 are sleeved on the conical equal-height screws 17, a counter bore adapted to the conical equal-height screws 17 is formed in one end of the first fixing block 14, which is far away from the second guide pin 16, a guide inclined hole adapted to the conical equal-height screws 17 is formed in the first mounting plate 11, and the conical equal-height screws 17 and the compression springs 18 penetrate through the guide inclined holes to be connected with the counter bore in a matching manner, so that the plug module 1 is ensured to maintain a substantially consistent position in each telescopic state.

In this embodiment, the lower pin block module 4 includes a plurality of second fixing blocks 41 corresponding to the carriers 23, the plurality of second fixing blocks 41 are arranged on the bottom plate 3 in parallel, and the second fixing blocks 41 are provided with first probes conducted with lower contacts of a Type-C socket product.

In this embodiment, the second fixed block 41 is provided with a plurality of third guide pins 42, and the carrier 23 is provided with third guide sleeves 26 corresponding to the third guide pins 42.

In this embodiment, the upper needle block module 5 includes a support frame 51 and a third driving cylinder 52, the support frame 51 is disposed on the bottom plate 3, a third mounting plate 53 is connected to the bottom of the support frame 51, the third driving cylinder 52 is disposed on the support frame 51, an output end of the third driving cylinder is in transmission connection with the third mounting plate 53, a plurality of third fixing blocks 54 corresponding to the carriers 23 are disposed at the bottom of the third mounting plate 53 in parallel, and a second probe conducted with an upper contact of a Type-C socket product is disposed at the bottom of the third fixing blocks 54.

In this embodiment, a plurality of fourth guide pins 55 are disposed on the third fixing block 54, and a fourth guide sleeve 27 corresponding to the fourth guide pins 55 is disposed on the carrier 23.

In the present embodiment, the head-on end of the first mounting plate 11 is provided with a bumper 6, and the head-on end of the second mounting plate 21 is provided with a bump 7 adapted to the bumper 6.

In this embodiment, be provided with the stopper on the bottom plate 3, keep away from on the first mounting panel 11 the one end of first fixed block 14 is provided with stop screw 8, stop screw 8 with the stopper cooperation is realized spacingly.

The working principle of the utility model is as follows: place a plurality of Type-C socket product correspondence in the carrier, the second drives actuating cylinder drive the second mounting panel slides under the needle piece module directly over, the third drives actuating cylinder drive the third mounting panel downstream, will the carrier is pressed down, and the contact on two sides switches on with second probe and first probe respectively about the Type-C socket product, first drive actuating cylinder drive first mounting panel slides to the end of inserting of Type-C socket product, realizes the motion of inserting to Type-C socket product and test interface, begins to carry out the test of Type-C socket product correlation, and after the test was accomplished, the test interface kept away from Type-C socket product, go up needle piece module upward movement, the carrier moves initial position.

Claims (10)

1. The utility model provides a Type-C interface floats pulls out mechanism of inserting which characterized in that: the device comprises a plug module (1), a carrier module (2) and a base plate (3), wherein the plug module (1) comprises a first mounting plate (11) and a first driving cylinder (12), the first mounting plate (11) is arranged on the base plate (3) in a sliding manner, the output end of the first driving cylinder (12) is in transmission connection with the first mounting plate (11), a plurality of test interfaces are arranged on the first mounting plate (11), the carrier module (2) comprises a second mounting plate (21) and a second driving cylinder (22), the second mounting plate (21) is arranged on the base plate (3) in a sliding manner, the output end of the second driving cylinder (22) is in transmission connection with the second mounting plate (21), a carrier (23) corresponding to the plurality of test interfaces is arranged on the second mounting plate (21), and a Type-C socket product is loaded on the carrier (23), test interface and Type-C socket product cooperation are realized inserting, be provided with down needle piece module (4) on bottom plate (3), the top of needle piece module (4) is provided with last needle piece module (5) down, down needle piece module (4) with go up needle piece module (5) cooperation and realize switching on of contact about the Type-C socket product.

2. The Type-C interface floating plugging mechanism of claim 1, wherein: the head-on end of the first mounting plate (11) is provided with a plurality of first guide pins (13), and the head-on end of the second mounting plate (21) is provided with first guide sleeves (24) corresponding to the first guide pins (13).

3. The Type-C interface floating plugging mechanism of claim 1, wherein: keep away from on first mounting panel (11) the one end of first actuating cylinder (12) is provided with a plurality of fixed knot and constructs, and fixed knot constructs including first fixed block (14) and briquetting (15), first fixed block (14) set up the meeting end of first mounting panel (11), first fixed block (14) with the cooperation of briquetting (15) is realized testing interface's fixed, the meeting end of first fixed block (14) is provided with a plurality of second uide pin (16), the meeting end of carrier (23) be provided with second guide pin bushing (25) corresponding in second uide pin (16).

4. The Type-C interface floating plugging mechanism of claim 3, wherein: the fixing structure further comprises a plurality of conical equal-height screws (17) and a plurality of compression springs (18), the compression springs (18) are sleeved on the conical equal-height screws (17), countersunk holes matched with the conical equal-height screws (17) are formed in one ends, far away from the second guide pins (16), of the first fixing blocks (14), guide inclined holes matched with the conical equal-height screws (17) are formed in the first mounting plates (11), and the conical equal-height screws (17) and the compression springs (18) penetrate through the guide inclined holes to be matched and connected with the countersunk holes.

5. The Type-C interface floating plugging mechanism of claim 1, wherein: lower needle piece module (4) include a plurality of with corresponding second fixed block (41) of carrier (23), a plurality of second fixed block (41) set up side by side on bottom plate (3), be provided with the first probe that switches on mutually with the lower contact of Type-C socket product on second fixed block (41).

6. The Type-C interface floating plugging mechanism of claim 5, wherein: a plurality of third guide pins (42) are arranged on the second fixing block (41), and third guide sleeves (26) corresponding to the third guide pins (42) are arranged on the carrier (23).

7. The Type-C interface floating plugging mechanism of claim 1, wherein: go up needle piece module (5) and drive actuating cylinder (52) including support frame (51) and third, support frame (51) set up on bottom plate (3), support frame (51) bottom is connected with third mounting panel (53), the third drives actuating cylinder (52) and sets up on support frame (51) and the output with third mounting panel (53) transmission is connected, third mounting panel (53) bottom be provided with side by side a plurality of with carrier (23) corresponding third fixed block (54), the bottom of third fixed block (54) is provided with the second probe that switches on mutually with the last contact of Type-C socket product.

8. The Type-C interface floating plugging mechanism of claim 7, wherein: a plurality of fourth guide pins (55) are arranged on the third fixing block (54), and a fourth guide sleeve (27) corresponding to the fourth guide pins (55) is arranged on the carrier (23).

9. The Type-C interface floating plugging mechanism of claim 1, wherein: the head-on end of first mounting panel (11) is provided with buffer (6), the head-on end of second mounting panel (21) be provided with lug (7) of buffer (6) looks adaptation.

10. The Type-C interface floating plugging mechanism of claim 3, wherein: the bottom plate (3) is provided with a limiting block, one end of the first fixing block (14) is far away from the first mounting plate (11) and is provided with a limiting screw (8), and the limiting screw (8) is matched with the limiting block to realize limiting.

Images