CN215645398U - Floating rapid opposite-inserting device for network port - Google Patents

Abstract

The utility model discloses a floating rapid plug-in device of a network port, which comprises a test bearing seat for placing a product to be tested, a translation plate arranged close to one end of the test bearing seat, and a translation driving mechanism in driving connection with the translation plate; the translation plate is also provided with a front plug-in assembly, and the front plug-in assembly comprises a mounting seat fixedly arranged on the translation plate, a floating buffer assembly arranged on the mounting seat and a plurality of net port adapters arranged on the top of the mounting seat; a crystal head is also inserted into one end of each net mouth adapter. The utility model is provided with the floating buffer assembly, can relieve the driving force when the crystal heads are inserted, and further can avoid damaging the product, and meanwhile, the utility model is provided with a plurality of net mouth adapters, can realize the insertion test work of a plurality of crystal heads at one time, has high insertion test efficiency, and in addition, through the mutual cooperation of the progressive pushing assembly and the translation driving mechanism, the front and back insertion action of the product can be realized only by driving the translation plate to slide by the translation driving mechanism, thus being simple and practical.

Description

Floating rapid opposite-inserting device for network port

Technical Field

The utility model relates to the technical field of automatic testing, in particular to a floating rapid plug-in device for a network port.

Background

At present, in the technical field of automatic production test or product assembly, the joints of the network cables are often required to be oppositely inserted into the corresponding network interfaces, the existing test mode is manual test, namely the network cable interfaces are manually and directly oppositely inserted into the network interfaces, the work is complicated, the workload is large, especially, time and labor are wasted during multi-station assembly, meanwhile, corresponding floating structures are not arranged, when manual assembly is carried out, the phenomenon that the products are damaged due to over-pressure of opposite insertion can occur, in addition, when the opposite insertion test is carried out, the test can be completed only by opposite insertion before and after the products are frequently encountered, and the existing test mode of opposite insertion before and after the products is generally that the products are fixed in the middle, then, a power source is respectively arranged at two ends of the products, and respective test components and the products are respectively driven to be oppositely inserted through the front and back power sources, and then the test is completed, and the test cost is higher because two power sources are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a floating rapid opposite-inserting device for a net port, which is reasonable in design and convenient to use, is provided with a floating buffer assembly, can relieve the driving force during opposite insertion, further can avoid damaging products, is provided with a plurality of net port adapters, can realize opposite-inserting test work of a plurality of crystal heads at one time, is high in opposite-inserting test efficiency, and is simple and practical, in addition, through the mutual matching of a progressive driving assembly and a translation driving mechanism, the front and back opposite-inserting actions of the products can be realized only by driving a translation plate to slide by the translation driving mechanism, and the device is simple and practical.

In order to realize the purpose, the following technical scheme is adopted:

a floating rapid plug-in device for a network port comprises a test bearing seat for placing a product to be tested, a translation plate arranged close to one end of the test bearing seat, and a translation driving mechanism in driving connection with the translation plate; the translation plate is also provided with a front plug-in assembly, and the front plug-in assembly comprises a mounting seat fixedly arranged on the translation plate, a floating buffer assembly arranged on the mounting seat and a plurality of net port adapters arranged on the top of the mounting seat; the one end of each net gape adapter is still inserted and is established a quartzy head, and translation actuating mechanism is used for driving the translation board to slide and accomplishes the butt joint with drive net gape adapter and product one end and inserts, and the buffering subassembly that floats is used for when net gape adapter and product one end are inserted, alleviates its driving force to the product.

Further, the floating bumper assembly includes a slider; the floating block is arranged on one side of the mounting seat, a plurality of first through holes are further formed in the upper portion of the floating block, and one end of each net port adapter correspondingly penetrates out of one first through hole; the mounting seat is also provided with a plurality of equal-height screws, the lower part of the floating block is also provided with a plurality of buffer grooves corresponding to the equal-height screws, and one end of each equal-height screw is correspondingly inserted into one buffer groove for arrangement; the outer wall of each equal-height screw is also sleeved with a first buffer spring, and two ends of the first buffer spring are respectively abutted against the floating block and the mounting seat.

Furthermore, the floating rapid opposite-inserting device of the net port further comprises a sliding rail assembly, a fixed seat and a progressive pushing assembly; the test bearing seat and the translation plate are arranged on the slide rail assembly in a sliding manner, the fixed seat is arranged at one end, far away from the translation plate, of the test bearing seat, and the top of the fixed seat is also provided with a rear plug-in assembly; the progressive pushing assembly is arranged at the bottom of the test bearing seat and is connected with the translation driving mechanism; the progressive pushing assembly is used for driving the test bearing seat to slide when the translation driving mechanism drives the translation plate to slide, so that the other end of the product is inserted into the rear insertion assembly.

Furthermore, the translation driving mechanism comprises a pushing block fixedly installed at the bottom of the translation plate, a pushing rod installed on one side of the pushing block, and a pushing clamp connected with one end of the pushing rod in a driving mode.

Furthermore, the progressive pushing assembly comprises two fixed blocks which are arranged at the bottom of the test bearing seat in parallel at intervals, a plurality of guide posts connected between the two fixed blocks, and sliding blocks sleeved outside the guide posts in a sliding manner; one side of promotion piece still is equipped with a plurality of extension connecting blocks, sliding block and extension connecting block fixed connection.

Furthermore, a buffer block is further installed at the bottom of the translation plate; one end of one guide column penetrates out of a fixed block and is movably inserted into the buffer block; a second buffer spring is further arranged between the buffer block and the fixed block, and the second buffer spring is sleeved on the outer wall of one end, penetrating out of the fixed block, of the guide column.

By adopting the scheme, the utility model has the beneficial effects that:

the device reasonable in design, convenient to use are equipped with the buffering subassembly that floats, when inserting, can alleviate its driving force, and then can avoid damaging the product, simultaneously, are equipped with a plurality of net gape adapters, can once only realize the test work of inserting of a plurality of quartzy heads, and it is high to inserting the efficiency of software testing, in addition, through promoting mutually supporting of subassembly and translation actuating mechanism progressively, only need translation actuating mechanism drive translation board to slide and can realize the front and back of product and insert the action, simple and practical.

Drawings

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

FIG. 2 is a perspective view of FIG. 1 from another perspective;

FIG. 3 is a perspective view of the front docking assembly of the present invention;

FIG. 4 is a perspective view of the translational drive mechanism and incremental launching assembly of the present invention;

wherein the figures identify the description:

1-testing the bearing seat; 2-a translation plate;

3-a translation driving mechanism; 4-front plug-in assembly;

5, a slide rail component; 6, a fixed seat;

7-a progressive pushing assembly; 8-rear plug-in assembly;

21-a buffer block; 31-a pushing block;

32-a push rod; 33-pushing the clamp;

41-a mounting seat; 42-a network port adapter;

43-crystal head; 44-a slider;

45-equal height screws; 71-fixing block;

72-a guide post; 73-a slider;

74-extension connection block.

Detailed Description

The utility model is described in detail below with reference to the figures and the specific embodiments.

Referring to fig. 1 to 4, the present invention provides a floating fast plug-in device for a network port, which includes a test bearing seat 1 for placing a product to be tested, a translation plate 2 disposed near one end of the test bearing seat 1, and a translation driving mechanism 3 in driving connection with the translation plate 2; the translation plate 2 is also provided with a front plug-in component 4, and the front plug-in component 4 comprises a mounting seat 41 fixedly arranged on the translation plate 2, a floating buffer component arranged on the mounting seat 41 and a plurality of net port adapters 42 arranged on the top of the mounting seat 41; a quartzy head 43 is still inserted to the one end of each net gape adapter 42, and translation actuating mechanism 3 is used for driving translation board 2 to slide and accomplishes the butt joint with product one end in order to drive net gape adapter 42, and the buffering subassembly that floats is used for when net gape adapter 42 inserts with product one end pair, alleviates its driving force to the product.

Wherein the floating bumper assembly includes a slider 44; the floating block 44 is arranged on one side of the mounting base 41, a plurality of first through holes are further formed in the upper portion of the floating block 44, and one end of each net mouth adapter 42 correspondingly penetrates out of one first through hole; a plurality of equal-height screws 45 are further mounted on the mounting base 41, a plurality of buffer grooves are further formed in the lower portion of the floating block 44 corresponding to the equal-height screws 45, and one end of each equal-height screw 45 is correspondingly inserted into one buffer groove to be arranged; a first buffer spring is sleeved on the outer wall of each equal-height screw 45, and two ends of the first buffer spring are respectively abutted against the floating block 44 and the mounting base 41.

The floating rapid opposite-inserting device for the net port further comprises a sliding rail assembly 5, a fixed seat 6 and a progressive pushing assembly 7; the test bearing seat 1 and the translation plate 2 are both arranged on the sliding rail assembly 5 in a sliding manner, the fixed seat 6 is arranged at one end, far away from the translation plate 2, of the test bearing seat 1, and the top of the fixed seat 6 is further provided with a rear plug-in assembly 8; the progressive pushing assembly 7 is arranged at the bottom of the test bearing seat 1 and is connected with the translation driving mechanism 3; the progressive pushing assembly 7 is used for driving the test bearing seat 1 to slide when the translation driving mechanism 3 drives the translation plate 2 to slide, so that the other end of the product is inserted into the rear insertion assembly 8; the translation driving mechanism 3 comprises a pushing block 31 fixedly arranged at the bottom of the translation plate 2, a pushing rod 32 arranged at one side of the pushing block 31, and a pushing clamp 33 in driving connection with one end of the pushing rod 32; the progressive pushing assembly 7 comprises two fixed blocks 71 which are arranged at the bottom of the test bearing seat 1 in parallel at intervals, a plurality of guide posts 72 connected between the two fixed blocks 71, and sliding blocks 73 which are sleeved outside the guide posts 72 in a sliding manner; a plurality of extension connecting blocks 74 are arranged on one side of the pushing block 31, and the sliding block 73 is fixedly connected with the extension connecting blocks 74; the bottom of the translation plate 2 is also provided with a buffer block 21; one end of one of the guide posts 72 penetrates out of a fixed block 71 and is movably inserted into the buffer block 21; a second buffer spring is further arranged between the buffer block 21 and a fixed block 71, and the second buffer spring is sleeved on the outer wall of one end, penetrating out of the fixed block 71, of the guide column 72.

The working principle of the utility model is as follows:

with reference to fig. 1 to 4, in this embodiment, a limiting block is further disposed below one end of the test bearing seat 1, a limiting sliding groove is further disposed at a position corresponding to the limiting block at one end of the bottom of the test bearing seat 1, an upper portion of the limiting block is inserted into the limiting sliding groove, a sliding stroke of the test bearing seat 1 can be limited by the limiting block, and safety of the back opposite insertion assembly 8 in opposite insertion is ensured; a plurality of positioning blocks are further arranged on the periphery of the top of the test bearing seat 1, so that a product to be tested can be placed conveniently; when the device is used, a product can be placed on the test bearing seat 1, then the pushing clamp 33 is pulled manually, and then pushing force can be exerted on the pushing block 31 through the pushing rod 32, so that the pushing block 31 can drive the translation plate 2, the front plug-in component 4 and the front end of the product to be plugged, when the front plug-in component 4 is plugged with the product, the floating buffer component formed by the equal-height screws 45, the first buffer springs and the floating blocks 44 can buffer the pushing force of the front plug-in component on the product (the second buffer springs can also play a buffer role), so that the front plug-in component can be buffered and protected, meanwhile, the net port adapter 42 is also provided with a chamfer which plays a guide role, so that the net port adapter 42 is easily guided into a net port of the product, and then is pushed to be in place until the state to be tested, and the device is simple and convenient; in addition, when pushing block 31 and sliding, can exert the driving force to sliding block 73 through extending connecting block 74, sliding block 73 slides to the lateral wall of a fixed block 71 along guide post 72, and then supports fixed block 71 and slide in order to promote the test and bear seat 1, and then drives the product and to the direction slip of inserting subassembly 8 backward to accomplish with it and to inserting simple and practical.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A floating rapid plug-in device of a network port is characterized by comprising a test bearing seat for placing a product to be tested, a translation plate arranged close to one end of the test bearing seat, and a translation driving mechanism in driving connection with the translation plate; the translation plate is also provided with a front plug-in assembly, and the front plug-in assembly comprises a mounting seat fixedly arranged on the translation plate, a floating buffer assembly arranged on the mounting seat and a plurality of net port adapters arranged on the top of the mounting seat; the one end of each net gape adapter is still inserted and is established a quartzy head, and translation actuating mechanism is used for driving the translation board to slide and accomplishes the butt joint with drive net gape adapter and product one end and inserts, and the buffering subassembly that floats is used for when net gape adapter and product one end are inserted, alleviates its driving force to the product.

2. The floating fast opposite-inserting device of the net port according to claim 1, wherein the floating buffer component comprises a floating block; the floating block is arranged on one side of the mounting seat, a plurality of first through holes are further formed in the upper portion of the floating block, and one end of each net port adapter correspondingly penetrates out of one first through hole; the mounting seat is also provided with a plurality of equal-height screws, the lower part of the floating block is also provided with a plurality of buffer grooves corresponding to the equal-height screws, and one end of each equal-height screw is correspondingly inserted into one buffer groove for arrangement; the outer wall of each equal-height screw is also sleeved with a first buffer spring, and two ends of the first buffer spring are respectively abutted against the floating block and the mounting seat.

3. The floating rapid opposite-inserting device of the net port according to claim 2, further comprising a sliding rail component, a fixed seat and a progressive pushing component; the test bearing seat and the translation plate are arranged on the slide rail assembly in a sliding manner, the fixed seat is arranged at one end, far away from the translation plate, of the test bearing seat, and the top of the fixed seat is also provided with a rear plug-in assembly; the progressive pushing assembly is arranged at the bottom of the test bearing seat and is connected with the translation driving mechanism; the progressive pushing assembly is used for driving the test bearing seat to slide when the translation driving mechanism drives the translation plate to slide, so that the other end of the product is inserted into the rear insertion assembly.

4. The floating rapid opposite-inserting device for the net port as recited in claim 3, wherein the translational driving mechanism comprises a pushing block fixedly installed at the bottom of the translational plate, a pushing rod installed at one side of the pushing block, and a pushing clip drivingly connected with one end of the pushing rod.

5. The floating rapid opposite-inserting device of the net port according to claim 4, wherein the progressive pushing assembly comprises two fixed blocks which are arranged at the bottom of the test bearing seat in parallel at intervals, a plurality of guide posts connected between the two fixed blocks, and a sliding block which is sleeved outside the guide posts in a sliding manner; one side of promotion piece still is equipped with a plurality of extension connecting blocks, sliding block and extension connecting block fixed connection.

6. The floating rapid opposite-inserting device of the net port is characterized in that a buffer block is further installed at the bottom of the translation plate; one end of one guide column penetrates out of a fixed block and is movably inserted into the buffer block; a second buffer spring is further arranged between the buffer block and the fixed block, and the second buffer spring is sleeved on the outer wall of one end, penetrating out of the fixed block, of the guide column.

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