CN210953296U - Quick assembly Pogo pin elasticity detection device - Google Patents

Abstract

The utility model discloses a quick-assembly Pogo pin elasticity detection device, guide rail groove including a plurality of align to grid, locate guide rail groove top have a plurality of impress needle lead positive piece, connect the sensor that the impress needle is used for detecting its pressurized elasticity, and locate guide rail groove below and the corresponding constant head tank of impress needle, the tip in guide rail groove is equipped with the small opening that corresponds impress needle and constant head tank position, the product is arranged in between constant head tank and the guide rail groove, Pogo pin is pressed into in the product and is positioned in the constant head tank by the impress needle from the small opening. The utility model discloses a realize fast assembly Pogo pin group to detect the integration with elasticity, improve detection efficiency.

Description

Quick assembly Pogo pin elasticity detection device

Technical Field

The utility model belongs to the technical field of the connecting piece detects, especially, relate to a quick assembly Pogo pin elasticity detection device.

Background

The Pogo pin is a precision connector applied to electronic products in the fields of mobile phones, communication equipment, automobiles, medical treatment, aerospace and the like, mainly plays a role in connection, and has the advantages of small size and stable contact. Traditional Pogo pin multiunit needs to carry out artifical equipment, and Pogo pin multiunit needs to carry out elasticity and detects, assembles and detects unable completion simultaneously, and it is longer to cause the station, and detection efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving above-mentioned technical problem, and provide quick-assembly Pogo pin elasticity detection device to realize fast assembly Pogo pin group, and detect the integration with elasticity, improve detection efficiency. In order to achieve the above purpose, the utility model discloses technical scheme as follows:

quick assembly Pogo pin elasticity detection device, guide rail groove including a plurality of align to grid, locate guide rail groove top have a plurality of impress needle lead positive piece, connect the sensor that the needle of impressing is used for detecting its pressurized elasticity, and locate guide rail groove below with the corresponding constant head tank of the needle of impressing, the tip in guide rail groove is equipped with the small opening that corresponds the needle of impressing and the constant head tank position, the product is arranged in between constant head tank and the guide rail groove, Pogo pin is pressed into in the product and is fixed a position in the constant head tank by the needle of impressing from the small opening.

Specifically, a plurality of guide rail grooves are arranged on the fixed plate at equal intervals.

Specifically, the distance between the front section grooves of the guide rail groove is smaller than that between the rear section grooves of the guide rail groove.

Specifically, the guide block is internally provided with a guide groove, the top of the press-in needle is provided with a round head, the diameter of the round head is larger than that of the press-in needle, the round head is arranged in the guide groove, and the press-in needle penetrates through and extends out of the guide block to the bottom of the guide block.

Specifically, the locating slot is arranged in the locating block, and the locating block is embedded into the fixing block.

Specifically, the positioning groove and the guide rail groove are arranged vertically and relatively, and the positioning groove and the guide rail groove are arranged in parallel relatively.

Specifically, the locating piece surface flushes with the fixed block and sets up, and the side of fixed block is equipped with the stopper of spacing locating piece tip.

Compared with the prior art, the utility model discloses quick assembly Pogo pin elasticity detection device's beneficial effect mainly embodies:

the positioning block is movably arranged in the fixed block and can be replaced and adjusted at any time according to the size of the Pogo pin; the guide rail groove is arranged on the fixed plate, and the front section of the guide rail groove is thin, and the rear section of the guide rail groove is thick, so that the correct guide of the Pogo pin is facilitated, and the inverse installation problem of the Pogo pin is avoided; the needle of impressing corresponds with guide rail groove and constant head tank position, and the accurate Pogo pin of assembling is to the product in, and simultaneously, the sensor detects the pressure elasticity change of the needle of impressing to test Pogo pin's elasticity, will assemble and elasticity test integration, improve detection efficiency.

Drawings

Fig. 1 is a schematic diagram of an explosive structure according to an embodiment of the present invention;

FIG. 2 is a schematic view of an assembly structure of the present embodiment;

FIG. 3 is a schematic view of the structure of a guide rail groove according to this embodiment;

the figures in the drawings represent:

the guide rail groove 1, the leak hole 11, the press-in needle 2, the guide block 21, the guide groove 22, the positioning groove 3, the positioning block 31, the fixing plate 4, the round head 5, the fixing block 6 and the limiting block 61.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments.

Example (b):

referring to fig. 1-3, the Pogo pin elasticity detecting device of the present embodiment includes a plurality of guide rail grooves 1 uniformly arranged, a guide block 21 having a plurality of pressing pins 2 and disposed above the guide rail grooves 1, a sensor (not shown) connected to the pressing pins 2 for detecting the pressing elasticity thereof, and a positioning groove 3 disposed below the guide rail grooves 1 and corresponding to the pressing pins 2. The end part of the guide rail groove 1 is provided with a leak hole 11 corresponding to the positions of the press-in needle 2 and the positioning groove 3, a product is arranged between the positioning groove 3 and the guide rail groove 1, and a Pogo pin (not marked in the figure) is pressed into the product from the press-in needle 2 from the leak hole 11 and is positioned in the positioning groove 3.

A plurality of guide rail grooves 1 equidistance interval are arranged and are located on fixed plate 4, and the anterior segment groove interval of guide rail groove 1 is less than its back end groove interval, is favorable to Pogo pin to follow guide rail groove 1 and slides in the back end from the front end, avoids not yet reaching the condition about just derailing in place, and Pogo pin slides and stops to guide rail groove 1 terminal small opening 11 position.

The guide block 21 is internally provided with a guide groove 22, the top of the press-in needle 2 is provided with a round head 5, the diameter of the round head 5 is larger than that of the press-in needle 2, the round head 5 is arranged in the guide groove 22, and the press-in needle 2 penetrates through and extends out of the guide block 21 to the bottom of the guide block.

The positioning groove 3 is arranged in the positioning block 31, the positioning groove 3 is relatively vertically arranged with the guide rail groove 1, and the positioning groove 3 is relatively parallel to the guide rail groove 22. The positioning block 31 is embedded into the fixing block 6, the surface of the positioning block 31 is flush with the fixing block 6, and the side edge of the fixing block 6 is provided with a limiting block 61 for limiting the end part of the positioning block 31.

When the embodiment is applied, the positioning block 31 is movably arranged in the fixing block 6, and can be replaced and adjusted at any time according to the size of the Pogo pin; the guide rail groove 1 is arranged on the fixed plate 4, and the front section of the guide rail groove 1 is thin and the rear section of the guide rail groove is thick, so that correct guiding of the Pogo pins is facilitated, and the inverse mounting problem of the Pogo pins is avoided; the needle of impressing 2 corresponds with guide rail groove 1 and 3 positions of constant head tank, and the accurate assembly Pogo pin is to the product in, simultaneously, the sensor detects the pressure elasticity change of the needle of impressing 2 to the elasticity of test Pogo pin will assemble and elasticity test integration, improves detection efficiency.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (7)

1. Quick-assembly Pogo pin elasticity detection device, its characterized in that: the product positioning device comprises a plurality of guide rail grooves which are uniformly arranged, a guide block which is arranged above the guide rail grooves and is provided with a plurality of pressing needles, a sensor which is connected with the pressing needles and is used for detecting the pressing elasticity of the pressing needles, and positioning grooves which are arranged below the guide rail grooves and correspond to the pressing needles, wherein the end parts of the guide rail grooves are provided with leak holes which correspond to the pressing needles and the positioning grooves, the product is arranged between the positioning grooves and the guide rail grooves, and Pogo pins are pressed into the product from the leak holes by the pressing needles and are positioned in the positioning grooves.

2. The apparatus of claim 1, wherein the elastic force of the snap-fit Pogo pin is detected by: a plurality of guide rail grooves are arranged on the fixed plate at equal intervals.

3. The apparatus of claim 1, wherein the elastic force of the snap-fit Pogo pin is detected by: the distance between the front section grooves of the guide rail grooves is smaller than that between the rear section grooves of the guide rail grooves.

4. The apparatus of claim 1, wherein the elastic force of the snap-fit Pogo pin is detected by: the guide block is internally provided with a guide groove, the top of the press-in needle is provided with a round head, the diameter of the round head is larger than that of the press-in needle, the round head is arranged in the guide groove, and the press-in needle penetrates through the guide block and extends out of the guide block to the bottom of the guide block.

5. The apparatus of claim 1, wherein the elastic force of the snap-fit Pogo pin is detected by: the locating slot is arranged in the locating block, and the locating block is embedded into the fixing block.

6. The apparatus of claim 1, wherein the elastic force of the snap-fit Pogo pin is detected by: the positioning groove and the guide rail groove are arranged vertically and are arranged in parallel.

7. The apparatus of claim 5, wherein the elastic force of the snap-fit Pogo pin is detected by: the locating piece surface flushes the setting with the fixed block, and the side of fixed block is equipped with the stopper of spacing locating piece tip.

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