CN220253686U - Heavy-duty connector module mounting frame - Google Patents

Abstract

The utility model discloses a heavy-load connector module mounting frame, which comprises a frame main body, a frame cover and a frame cover, wherein the frame main body is used for bearing a heavy-load connector module; the first sliding frame is slidably arranged on one side of the frame body, the second sliding frame is slidably arranged on the other side of the frame body, first connecting pieces are arranged at two ends of the first sliding frame, and second connecting pieces are arranged at two ends of the second sliding frame; the two locking connecting pieces are respectively connected between two ends of the first sliding frame and the second sliding frame, one side of each locking connecting piece is provided with a sliding rail, the first connecting piece is slidably arranged in the sliding rail, the second connecting piece is arranged on the other side of each locking connecting piece, a locking groove is formed in each sliding rail and used for clamping the first connecting piece, and when the first connecting piece slides to the locking groove to be clamped, the first sliding frame and the second sliding frame clamp the heavy-load connector module. The assembly and disassembly of the heavy-load connector module can be efficiently and quickly completed, and the disassembly and assembly efficiency is improved.

Description

Heavy-duty connector module mounting frame

Technical Field

The utility model relates to the technical field of connectors, in particular to a heavy-duty connector module mounting frame.

Background

The heavy-duty connector is widely applied to equipment which needs to be electrically and signally connected, such as construction machinery, textile machinery, packaging and printing machinery, tobacco machinery, robots, rail transit, hot runners, electric power, automation and the like. When the heavy-load connector is installed and used, different numbers of heavy-load connector modules are required to be fixed on equipment through the installation frame so as to realize electrical connection. At present, the mounting frame adopts a half-frame structure, the heavy-load connector module is placed in the half-frame structure and locked by screws, and the mounting mode is complex, labor-consuming and labor-consuming, so that the dismounting efficiency is low.

In summary, how to provide a heavy-duty connector module mounting frame, which can efficiently and conveniently assemble and disassemble a heavy-duty connector module.

Disclosure of Invention

Accordingly, an object of the present utility model is to provide a heavy-duty connector module mounting frame, which can efficiently and conveniently assemble and disassemble the heavy-duty connector module.

In order to achieve the above object, the present utility model provides the following technical solutions:

a heavy-duty connector module mounting frame, comprising:

a frame body for carrying a heavy-duty connector module;

the first sliding frame is slidably arranged on one side of the frame main body, the second sliding frame is slidably arranged on the other side of the frame main body, first connecting pieces are arranged at two ends of the first sliding frame, and second connecting pieces are arranged at two ends of the second sliding frame;

two locking connecting pieces are respectively connected between the two ends of the first sliding frame and the second sliding frame, a sliding rail is arranged on one side of the locking connecting pieces, the first connecting pieces are slidably arranged in the sliding rail, the second connecting pieces are arranged on the other side of the locking connecting pieces, locking grooves are formed in the sliding rail and used for clamping the first connecting pieces, and when the first connecting pieces slide to the locking grooves for clamping, the first sliding frame and the second sliding frame clamp the heavy-load connector module.

Preferably, one side of the locking connecting piece is of a hollow structure, an elastic suspension sheet is arranged in the hollow structure, the elastic suspension sheet and the side wall of the hollow structure form the sliding rail, an elastic protruding block is arranged on the elastic suspension sheet, and the elastic suspension sheet and the side wall of the end part of the sliding rail form the locking groove.

Preferably, a limiting block is arranged on the side wall of the end portion of the sliding rail, and the limiting block is arranged opposite to the elastic suspension piece and used for preventing the first connecting piece from sliding.

Preferably, the first connecting piece is a locking column, one end of the locking column is fixedly connected with the first sliding frame, and the other end of the locking column is inserted into the sliding rail and provided with an annular step through the sliding rail.

Preferably, a step mounting hole matched with the annular step is formed in one end, away from the locking groove, of the sliding rail.

Preferably, the second connecting piece is a guide post, and the guide post is provided with a plurality of guide posts.

Preferably, the frame body is of a hollow structure, two ends of the frame body in the vertical direction are open ends, and the first sliding frame and the second sliding frame are respectively buckled on two sides of the open ends of the frame body;

and two side walls of the frame main body are provided with a plurality of clamping grooves along the extending direction of the frame main body, two sides of the heavy-load connector module are provided with clamping blocks, and the clamping blocks are clamped in the clamping grooves.

Compared with the background art, the heavy-load connector module mounting frame provided by the utility model comprises a frame main body, a first sliding frame, a second sliding frame and two locking connecting pieces, wherein the first sliding frame and the second sliding frame are respectively arranged on two sides of the frame main body in a sliding manner, the two locking connecting pieces are respectively connected between two ends of the first sliding frame and the second sliding frame, one side of each locking connecting piece is provided with a sliding rail, the first sliding frame is slidably connected in the sliding rail through the first connecting piece, the second sliding frame is fixedly connected with the locking connecting pieces through the second connecting piece, so that the first sliding frame and the second sliding frame simultaneously move towards or back to the center of the frame main body, and a locking groove is formed in the sliding rail and close to the center of the frame main body and used for clamping the first connecting piece.

When the structure is used, a plurality of heavy-load connector modules are arranged in the frame main body and are arranged along the length direction of the frame main body, the first sliding frame and the second sliding frame are pushed to slide in opposite directions, namely slide towards the center of the frame main body, when the first connecting piece slides into the locking groove along the sliding rail and is clamped, the first sliding frame and the second sliding frame stop sliding, at the moment, the first sliding frame and the second sliding frame clamp the plurality of heavy-load connector modules, and the locking connecting piece reaches a locking state so as to realize the assembly of the heavy-load connector modules; simultaneously, the first sliding frame and the second sliding frame are pushed to slide back, the first connecting piece is separated from the locking groove under the action of pushing force, the locking connecting piece reaches an unlocking state, the first sliding frame slides towards one side of the frame body, the second sliding frame slides towards the other side of the frame body, and at the moment, the first sliding frame and the second sliding frame loosen a plurality of heavy-load connector modules to realize the disassembly of the heavy-load connector modules.

Therefore, the first sliding frame and the first sliding frame which can slide relatively are locked and unlocked through the locking connecting piece, and accordingly the first sliding frame and the second sliding frame are clamped and loosened to the heavy-load connector module, so that the heavy-load connector module can be assembled and disassembled efficiently and rapidly, and the disassembly and assembly efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a heavy-duty connector module mounting frame provided by the present utility model in an unlocked state;

fig. 2 is a schematic structural view of a heavy-duty connector module mounting frame according to the present utility model in a locked state;

fig. 3 is a schematic structural view of a locking connector in a heavy-duty connector module mounting frame according to the present utility model.

In fig. 1 to 3, reference numerals include:

1 is a frame main body, 11 is a clamping groove, and 12 is a clamping block;

2 is a first sliding frame, and 21 is a first connecting piece;

3 is a second sliding frame, 31 is a second connecting piece;

the locking connector 4 is a sliding rail 41, a locking groove 42, an elastic suspension 43, an elastic lug 44, a positioning hole 45, a step mounting hole 46 and a limiting block 47.

And 5 is a heavy load connector module.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model aims to provide a heavy-duty connector module mounting frame which can efficiently and conveniently assemble and disassemble a heavy-duty connector module.

It should be noted that, in the present embodiment, the directions or positional relationships indicated by "left", "right", "front", "rear", "upper", "lower", etc. are directions or positional relationships based on the drawings, and are merely for convenience of description of the present application and simplification of description, and are not indicative or implying that the apparatus or element in question must have a specific direction, be configured and operated in a specific direction, and therefore should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 3, the present application provides a heavy-duty connector module mounting frame comprising a frame body 1 for carrying a heavy-duty connector module 5, a first sliding frame 2 and a second sliding frame 3, and two locking connectors 4.

The first sliding frame 2 is slidably arranged on one side of the frame body 1, the second sliding frame 3 is slidably arranged on the other side of the frame body 1, the two ends of the first sliding frame 2 are respectively provided with a first connecting piece 21, and the two ends of the second sliding frame 3 are respectively provided with a second connecting piece 31;

two locking connecting pieces 4 are respectively connected between two ends of the first sliding frame 2 and the second sliding frame 3, one side of the locking connecting piece 4 is provided with a sliding rail 41, the first connecting piece 21 is slidably arranged in the sliding rail 41, the second connecting piece 31 is arranged on the other side of the locking connecting piece 4, and a locking groove 42 is formed in the sliding rail 41 and used for clamping the first connecting piece 21, and when the first connecting piece 21 slides to the locking groove 42 to be clamped, the first sliding frame 2 and the second sliding frame 3 clamp the heavy-load connector module 5.

It should be noted that, the frame body 1 is installed on equipment, be used for placing a plurality of heavy load connector module 5 in the frame body 1, the frame body 1 is rectangular structure, and heavy load connector module 5 distributes along the length direction of frame body 1, first sliding frame 2 sets up along the length direction of frame body 1 and rather than one side sliding connection, first sliding frame 2 sets up along the length direction of frame body 1 and rather than the opposite side sliding connection, make first sliding frame 2 and second sliding frame 3 can be towards or deviate from the center removal of frame body 1, namely both along the width direction relative movement of frame body 1. In addition, the front end and the rear end of the first sliding frame 2 and the front end and the rear end of the second sliding frame 3 are all connected with each other through the locking connecting piece 4, specifically, the front end and the rear end of the first sliding frame 2 are both provided with the first connecting piece 21, the front end and the rear end of the second sliding frame 3 are both provided with the second connecting piece 31, the first connecting piece 21 is inserted into the sliding rail 41 on one side of the locking connecting piece 4, and a locking groove 42 is arranged in the sliding rail 41 and near the center position of the frame body 1, the second connecting piece 31 is fixedly connected with the other side of the locking connecting piece 4, so that the first sliding frame 2 and the second sliding frame 3 move towards the center of the frame body 1 at the same time, when the first connecting piece 21 slides into the locking groove 42 to be clamped, the first sliding frame 2 and the second sliding frame 3 are locked and cannot move relatively, and simultaneously, the first sliding frame 2 and the second sliding frame 3 clamp a plurality of heavy load connector modules 5 positioned in the frame body 1.

The left side of the locking connector 4 is slidably connected with the first connector 21, and is of a hollow structure, an elastic suspension 43 is disposed in the hollow structure, and forms a sliding rail 41 with the lower side wall of the hollow structure, an elastic projection 44 facing the lower side wall is disposed on the elastic suspension 43, and a locking groove 42 is formed between the elastic projection 44 and the right end of the sliding rail 41.

When the sliding frame is used, the first connecting piece 21 is inserted into the sliding rail 41 to push the first sliding frame 2 to move towards the center of the frame body 1, the first connecting piece 21 moves rightwards along the sliding rail 41, when the first connecting piece 21 slides to the elastic protruding block 44, the elastic hanging piece 43 is forced to spring upwards, the first connecting piece 21 is clamped into the locking groove 42, the right side of the second connecting piece 31 and the right side of the locking connecting piece 4 are fixedly connected all the time, when the first connecting piece 21 is clamped into the locking groove 42, pushing of the first sliding frame 2 is stopped, at the moment, the first sliding frame 2 and the second sliding frame 3 are locked, and a plurality of heavy-load connector modules 5 are clamped, and contrary to the process, the first sliding frame 2 is pushed to move away from the center of the frame body 1, so that the first sliding frame 2 and the second sliding frame 3 can be unlocked, and the first sliding frame 2 and the second sliding frame 3 can be moved away from each other, and the dry heavy-load connector modules 5 can be released. Therefore, the locking connector 4 adopting the structure has a simple structure, and can be guided accurately so as to lock and unlock the heavy-load connector module 5 through the locking and unlocking of the two sliding frames. In addition, the two sliding frames are always kept connected through the locking connecting piece 4 no matter in the locking state or the unlocking state, so that the two sliding frames are stably arranged on the frame main body 1, and the firm stability of the sliding frames is improved.

Further, a limiting block 47 is disposed on the side wall of the end portion of the sliding rail 41, and the limiting block 47 is disposed opposite to the elastic suspension 43, so as to prevent the first connecting piece 21 from sliding. Specifically, the right side end of the sliding rail 41 is provided with a limiting block 47 at the lower side wall thereof, so that the limiting block 47, the elastic protruding block 44 and the upper side wall and the lower side wall of the hollow structure form a locking groove 42, when the first connecting piece 21 passes through the elastic protruding block 44 and then touches the limiting block 47, the movement is stopped, and at this time, the first connecting piece 21 is locked in the locking groove 42, so that the first connecting piece 21 is clamped more firmly, and the heavy-load connector module 5 is clamped firmly by the two sliding frames, so that the heavy-load connector module 5 is assembled on equipment stably and firmly.

When the heavy-load connector module mounting frame is used, the frame body 1 is mounted on equipment, a plurality of heavy-load connector modules 5 are mounted in the frame body 1 and are arranged along the length direction of the frame body 1, when the heavy-load connector modules 5 are required to be assembled, the first sliding frame 2 and the second sliding frame 3 are pushed to slide oppositely, namely slide towards the center of the frame body 1, the first connecting piece 21 moves towards the right side of the sliding rail 41 along the left side of the sliding rail 41, the first connecting piece 21 slides to the elastic protruding block 44, the elastic hanging piece 43 is sprung upwards under force, the first connecting piece 21 slides into the locking groove 42 and is clamped, at the moment, the first sliding frame 2 and the second sliding frame 3 stop sliding and reach a locking state, and meanwhile, the first sliding frame 2 and the second sliding frame 3 clamp the plurality of heavy-load connector modules 5, and the locking connecting piece 4 reach a locking state so as to realize the assembly of the heavy-load connector modules 5; when the heavy-duty connector module 5 needs to be disassembled, the first sliding frame 2 and the second sliding frame 3 are simultaneously pushed to slide back, the first connecting piece 21 moves to the left side along the right side of the sliding rail 41 under the action of pushing force, and overcomes the resistance of the elastic projection 44, so that the elastic suspension piece 43 moves upwards to be separated from the locking groove 42, the locking connecting piece 4 reaches the unlocking state, the first sliding frame 2 slides towards one side of the frame body 1, the second sliding frame 3 slides towards the other side of the frame body 1, and at the moment, the first sliding frame 2 and the second sliding frame 3 loosen a plurality of heavy-duty connector modules 5 to realize the disassembly of the heavy-duty connector module 5.

Therefore, the first sliding frame 2 and the first sliding frame 2 which can slide relatively are locked and unlocked through the locking connecting piece 4, and accordingly, the first sliding frame 2 and the second sliding frame 3 are clamped and loosened to the heavy-load connector module 5, so that the heavy-load connector module 5 can be assembled and disassembled efficiently and rapidly, and the disassembly and assembly efficiency is improved.

On the basis of the above embodiment, the first connecting member 21 is a locking column, one end of which is fixedly connected with the first sliding frame 2, and the other end of which is inserted into the slide rail 41 and is provided with an annular step therethrough.

Specifically, the front end of the locking column is provided with an annular step, the rear end of the locking column is fixedly connected with the first sliding frame 2, the annular step is positioned in front of the front end face of the locking connecting piece 4, the two sliding frames are unlocked and locked in sliding process, the locking connecting piece 4 always slides on the locking column between the side wall of the sliding frame and the annular boss, so that the locking connecting piece 4 is prevented from generating elastic deformation to be separated from the first connecting piece 21, and the locking connecting piece 4 is stably connected between the two sliding frames.

In addition, the left side end portion of the slide rail 41 is provided with a step-fitting hole 46 that is fitted with the annular step so that the annular step of the lock post end portion is inserted into the slide through the step-fitting hole 46, thereby achieving the slide connection of the first slide frame 2 with the lock link 4.

It should be noted that, the bottom of the first sliding frame 2 and the bottom of the second sliding frame 3 are both provided with anti-falling blocks, and correspondingly, the leftmost side and the rightmost side of the upper end face of the frame body 1 are both provided with anti-falling grooves, and when the two sliding frames move to the two sides of the center of the frame body 1 respectively, the anti-falling blocks are clamped in the anti-falling grooves, so that the two sliding blocks are prevented from completing to be separated from the frame body 1.

On the basis of the above embodiment, the second connecting piece 31 is a guide post, the guide post is provided with a plurality of corresponding, the right side of the locking connecting piece 4 is provided with a plurality of positioning holes 45, one end of each guide post is fixedly connected with the second sliding frame 3, and the other end passes through the corresponding positioning hole 45 and is fixedly connected, so that the two sliding frames are firmly connected through the locking connecting piece 4.

Optionally, a plurality of guide posts are distributed along the width direction of the frame body 1, i.e., along the relative movement direction of the two sliding frames, to improve the tensile strength of the locking connection 4.

On the basis of the above embodiment, the frame body 1 is of a hollow structure, two ends of the frame body along the vertical direction are open ends, and the first sliding frame 2 and the second sliding frame 3 are respectively buckled on two sides of the open ends of the frame body 1; and two side walls of the frame body 1 are provided with a plurality of clamping grooves 11 along the extending direction, two sides of the plurality of heavy-load connector modules 5 are provided with clamping blocks 12, and the clamping blocks 12 are clamped in the clamping grooves 11.

Specifically, the upper end and the lower end of the frame body 1 are both open ends, and the inside of the frame body 1 is of a hollow structure, the left side wall and the right side wall of the frame body 1 are provided with a plurality of clamping grooves 11 along the extending direction (length direction) of the left side wall and the right side wall, and the notch of the clamping groove 11 and the top end surface of the side wall are positioned on the same horizontal plane, so that after the heavy-load connector module 5 is inserted into the frame body 1, the bottom surfaces of the clamping blocks 12 on the two sides of the heavy-load connector module 5 are abutted against the bottom surfaces of the clamping grooves 11, and the heavy-load connector module 5 is stably placed in the frame body 1. In addition, the side wall of the first sliding frame 2 is movably buckled with the left side wall of the frame body 1, and the side wall of the second sliding frame 3 is movably buckled with the right side wall of the frame body 1, so that the two sliding frames clamp and loosen a plurality of heavy-load connector modules 5, and the locking and unlocking of a plurality of heavy-load connector modules 5 are realized.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The heavy duty connector module mounting frame provided by the present utility model has been described in detail above. The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (7)

1. A heavy-duty connector module mounting frame, comprising:

a frame body (1) for carrying a heavy-duty connector module (5);

the sliding frame comprises a first sliding frame (2) and a second sliding frame (3), wherein the first sliding frame (2) is slidably arranged on one side of a frame main body (1), the second sliding frame (3) is slidably arranged on the other side of the frame main body (1), first connecting pieces (21) are arranged at two ends of the first sliding frame (2), and second connecting pieces (31) are arranged at two ends of the second sliding frame (3);

two locking connecting pieces (4) are respectively connected between the two ends of the first sliding frame (2) and the second sliding frame (3), one side of the locking connecting piece (4) is provided with a sliding rail (41), the first connecting piece (21) is slidably arranged in the sliding rail (41), the second connecting piece (31) is arranged on the other side of the locking connecting piece (4), a locking groove (42) is formed in the sliding rail (41) and used for clamping the first connecting piece (21), and when the first connecting piece (21) slides to the locking groove (42) for clamping, the first sliding frame (2) and the second sliding frame (3) clamp the heavy-load connector module (5).

2. The heavy-duty connector module mounting frame according to claim 1, wherein one side of the locking connector (4) is a hollow structure, an elastic suspension (43) is arranged in the hollow structure, the elastic suspension and the side wall of the hollow structure form the sliding rail (41), an elastic projection (44) is arranged on the elastic suspension (43), and the locking groove (42) is formed with the end side wall of the sliding rail (41).

3. The heavy-duty connector module mounting frame according to claim 2, wherein end side walls of the slide rail (41) are provided with stopper blocks (47), and the stopper blocks (47) are disposed opposite to the elastic suspension pieces (43) for preventing the first connecting member (21) from sliding.

4. The heavy-duty connector module mounting frame according to claim 2, wherein the first connecting member (21) is a locking post, one end of which is fixedly connected with the first sliding frame (2), and the other end of which is inserted into the slide rail (41) and provided with an annular step therethrough.

5. The heavy-duty connector module mounting frame according to claim 4, wherein an end of the slide rail (41) remote from the locking groove (42) is provided with a step-fitting hole (46) that fits into the annular step.

6. The heavy-duty connector module mounting frame according to any one of claims 1 to 5, wherein the second connecting members (31) are guide posts provided in a plurality.

7. The heavy-duty connector module mounting frame according to any one of claims 1 to 5, wherein the frame body (1) is a hollow structure, two ends of which in the vertical direction are open ends, and the first sliding frame (2) and the second sliding frame (3) are respectively buckled on two sides of the open ends of the frame body (1);

and the two side walls of the frame main body (1) are provided with a plurality of clamping grooves (11) along the extending direction, the two sides of the heavy-load connector module (5) are provided with clamping blocks (12), and the clamping blocks (12) are clamped in the clamping grooves (11).