CN220104477U - Buckle stress analysis platform - Google Patents

Abstract

The utility model discloses a buckle stress analysis platform, which comprises a workbench, wherein the top of the workbench is provided with a connecting plate, two sides of the top of the connecting plate are fixedly connected with sliding rails, the front side and the rear side of the top of the connecting plate are fixedly connected with partition boards, the inner cavities of the two partition boards are fixedly connected with clamping assemblies for positioning buckles, the top of the connecting plate is fixedly connected with a placing plate for placing the buckles, the clamping assemblies comprise electric telescopic rods, the surfaces of the electric telescopic rods are fixedly connected with the partition boards, and one side opposite to the output ends of the two electric telescopic rods is fixedly connected with a movable plate.

Description

Buckle stress analysis platform

Technical Field

The utility model belongs to the technical field of mechanical parts, and particularly relates to a buckle stress analysis platform.

Background

Mechanical parts, also known as mechanical elements, are the basic elements that make up a machine, are the individual pieces that make up the machine and are not separable, and are a subject of research and design of the mechanical base in various devices, and are a general term for parts and components.

In the production process of buckles, because the clamping force of each buckle is different, therefore, staff needs to analyze and detect the buckle, and the existing buckle analysis platform only can analyze and detect a single buckle when in use, but the mode is low in analysis efficiency and complex in positioning operation.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides the buckle stress analysis platform which has the advantage of being capable of carrying out positioning analysis on a plurality of buckles at a time, and solves the problems that the existing analysis platform only can carry out analysis and detection on a single buckle when in use, but the analysis efficiency is low and the positioning operation is complex.

The utility model is realized in such a way that the buckle stress analysis platform comprises a workbench;

the top of the workbench is provided with a connecting plate, two sides of the top of the connecting plate are fixedly connected with sliding rails, and the front side and the rear side of the top of the connecting plate are fixedly connected with a baffle;

the inner cavities of the two clapboards are fixedly connected with clamping assemblies for positioning the buckles, and the top of the connecting plate is fixedly connected with a placing plate for placing the buckles.

As the preferable mode of the utility model, the clamping assembly comprises electric telescopic rods, the surfaces of the electric telescopic rods are fixedly connected with the partition plates, one sides of the opposite output ends of the two electric telescopic rods are fixedly connected with movable plates, both sides of each movable plate are movably connected with a poking rod through a rotating shaft, one end of each poking rod, which is far away from each electric telescopic rod, is movably connected with a movable shell through the rotating shaft, the surfaces of the movable shells are provided with adjusting shells, the inner cavities of the adjusting shells are fixedly connected with sliding rods, and a pressing plate is fixedly connected between one sides of the two adjusting shells, which are far away from each electric telescopic rod.

As the preferable mode of the utility model, the surface of the sliding rod is movably connected with the inner cavity of the movable shell, the surface of the sliding rod is sleeved with a spring, and one side of the spring is fixedly connected with the movable shell.

As the preferable mode of the utility model, the surface of the electric telescopic rod is sleeved with the mounting sleeves, and one side opposite to the two mounting sleeves is fixedly connected with the partition plate.

As the preferable mode of the utility model, the two sides of the bottom of the pressing plate are fixedly connected with the sliding blocks, and the surfaces of the sliding blocks are movably connected with the inner cavities of the sliding rails.

As preferable in the utility model, the top of the adjusting shell is fixedly connected with a reinforcing plate, and one side of the reinforcing plate, which is close to the pressing plate, is fixedly connected with the pressing plate.

As a preferable mode of the utility model, the front side and the rear side of the opposite sides of the two sliding rails are fixedly connected with a fixing block, and the bottom of the fixing block is fixedly connected with the connecting plate.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, through the matched use of the workbench, the connecting plate, the sliding rail, the partition plate, the clamping assembly and the placing plate, the problem that the existing analysis platform can only analyze and detect a single buckle during use is solved, but the analysis efficiency is low and the positioning operation is complex in the mode.

2. According to the utility model, through the matched use of the electric telescopic rods, the movable plates, the toggle rods, the movable shells, the adjusting shells, the sliding rods and the pressing plates, when a worker needs to carry out stress analysis on the buckles, a plurality of buckles are sequentially placed on the placing plates, then the two electric telescopic rods are opened and extend to opposite sides, at the moment, the two movable plates move to opposite sides, the toggle rods movably connected with the two sides of the movable plates through the rotating shafts are outwards adjusted, so that the angles of the two toggle rods are enlarged, and are outwards supported, at the moment, the toggle rods are extruded to springs through the movable shells on the surfaces of the sliding rods when the angles are adjusted, and at the same time, the adjusting shells drive the pressing plates to move towards the placing plates through stress, so that the flexible clamping effect is achieved through the matched extruded springs, and the single stress analysis on the plurality of buckles by the worker is facilitated; through setting up the spring, one side and the movable shell fixed connection of spring have played the effect that carries out flexible exerting pressure when squeezing the buckle, can play effectual protective effect to the buckle, through setting up the installation cover, installation cover and baffle fixed connection have played the positioning action to electric telescopic handle, through setting up the slider, the inner chamber swing joint of slider and slide rail has played the spacing effect to the clamp plate, through setting up the gusset plate, gusset plate and clamp plate fixed connection have played the positioning action to adjusting the shell.

3. According to the utility model, the fixing block is fixedly connected with the connecting plate, so that the positioning effect on the sliding rail is achieved.

Drawings

FIG. 1 is a schematic diagram of a structure provided by an embodiment of the present utility model;

FIG. 2 is a schematic view of a partial structure provided by an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of a clamping assembly according to an embodiment of the present utility model.

In the figure:

1. a work table;

2. a connecting plate;

3. a slide rail;

4. a partition plate;

5. a clamping assembly; 501. an electric telescopic rod; 502. a movable plate; 503. a toggle rod; 504. a movable case; 505. a pressing plate; 506. an adjustment housing; 507. a slide bar; 508. a spring; 509. a slide block; 510. a reinforcing plate; 511. a mounting sleeve;

6. placing a plate;

7. and a retention block.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present utility model will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 3, the buckle stress analysis platform provided by the embodiment of the utility model comprises a workbench 1; the top of the workbench 1 is provided with a connecting plate 2, two sides of the top of the connecting plate 2 are fixedly connected with sliding rails 3, and the front side and the rear side of the top of the connecting plate 2 are fixedly connected with a baffle 4; the inner cavities of the two partition boards 4 are fixedly connected with clamping assemblies 5 for positioning the buckles, and the top of the connecting board 2 is fixedly connected with a placing board 6 for placing the buckles.

Referring to fig. 1, fig. 2 and fig. 3, the clamping assembly 5 includes electric telescopic rod 501, the surface of electric telescopic rod 501 and baffle 4 fixed connection, the equal fixedly connected with fly leaf 502 of one side that the output of two electric telescopic rods 501 is relative, the both sides of fly leaf 502 all are through pivot swing joint having toggle lever 503, the one end that toggle lever 503 kept away from electric telescopic rod 501 is through pivot swing joint having movable shell 504, the surface of movable shell 504 is provided with adjusting shell 506, the inner chamber fixedly connected with slide bar 507 of adjusting shell 506, fixedly connected with clamp plate 505 between the one side that two adjusting shells 506 kept away from electric telescopic rod 501, the surface of slide bar 507 and the inner chamber swing joint of movable shell 504, the surface cover of slide bar 507 is equipped with spring 508, one side and the movable shell 504 fixed connection of spring 508, the surface cover of electric telescopic rod 501 is equipped with installation cover 511, the opposite one side of two installation covers 511 all is fixedly connected with baffle 4 with the baffle, the both sides of clamp plate 505 bottom are all fixedly connected with slider 509, the surface of slider 509 and the inner chamber swing joint of slide rail 3, the top fixedly connected with reinforcing plate 510 of adjusting shell 506, one side that reinforcing plate 510 is close to clamp plate 505 and clamp plate 505 are fixedly connected with clamp plate 505.

The scheme is adopted: through the cooperation of the electric telescopic rods 501, the movable plates 502, the poking rods 503, the movable shells 504, the adjusting shells 506, the sliding rods 507 and the pressing plates 505, when a worker needs to carry out stress analysis on the buckles, a plurality of buckles are firstly placed on the placing plates 6 in sequence, then the two electric telescopic rods 501 are opened and extend to opposite sides, at the moment, the two movable plates 502 move to opposite sides, the poking rods 503 which are movably connected through the rotating shafts on the two sides of the movable plates 502 are outwards adjusted, the angles of the two poking rods 503 are enlarged, so that the poking rods 503 are outwards supported, at the moment, the surface of the sliding rods 507 is extruded by the movable shells 504 when the angles are adjusted, and at the same time, the adjusting shells 506 also drive the pressing plates 505 to move towards the placing plates 6 by stress, so that the extruded springs 508 are matched again to achieve the effect of flexible clamping, and the single stress analysis on the plurality of buckles is facilitated for the worker; through setting up spring 508, one side and movable shell 504 fixed connection of spring 508 have played the effect that carries out flexible exerting pressure when squeezing the buckle, can play effectual protective effect to the buckle, through setting up installation cover 511, installation cover 511 and baffle 4 fixed connection have played the positioning action to electric telescopic handle 501, through setting up slider 509, slider 509 and slide rail 3's inner chamber swing joint, have played the spacing effect to clamp plate 505, through setting up gusset plate 510, gusset plate 510 and clamp plate 505 fixed connection have played the positioning action to adjusting shell 506.

Referring to fig. 1 and 2, the front side and the rear side of the opposite sides of the two sliding rails 3 are fixedly connected with a fixing block 7, and the bottom of the fixing block 7 is fixedly connected with the connecting plate 2.

The scheme is adopted: through setting up retainer block 7, retainer block 7 and connecting plate 2 fixed connection have played the positioning action to slide rail 3.

The working principle of the utility model is as follows:

when in use, when a worker needs to carry out stress analysis on buckles, a plurality of buckles are firstly sequentially placed on the placing plate 6, then the two electric telescopic rods 501 are opened and extend to opposite sides, at the moment, the two movable plates 502 are moved to opposite sides, the toggle rods 503 which are movably connected through the rotating shafts are outwards adjusted on two sides of the movable plates 502, the angles of the two toggle rods 503 are enlarged, so that the toggle rods 503 are outwards supported, at the moment, the toggle rods 503 are extruded to the springs 508 on the surfaces of the sliding rods 507 through the movable shells 504 when the angles are adjusted, and meanwhile, the adjusting shells 506 also drive the pressing plates 505 to move to the placing plate 6 through stress, so that the effect of flexible clamping is achieved by matching with the extruded springs 508, the stress analysis is carried out on the plurality of buckles by a single time by the worker conveniently, and the problem that the traditional analysis platform can only analyze and detect a single buckle when in use is solved, but the mode is low in analysis efficiency and the positioning operation is complex.

To sum up: this buckle atress analysis platform uses through setting up workstation 1, connecting plate 2, slide rail 3, baffle 4, clamping component 5 and placing the cooperation of board 6, has solved current analysis platform and can only carry out analysis detection to single buckle when using, but this kind of mode is not only analysis efficiency low location complex operation's problem.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Buckle atress analysis platform, including workstation (1), its characterized in that:

the top of the workbench (1) is provided with a connecting plate (2), two sides of the top of the connecting plate (2) are fixedly connected with sliding rails (3), and the front side and the rear side of the top of the connecting plate (2) are fixedly connected with a partition plate (4);

the inner cavities of the two partition boards (4) are fixedly connected with clamping assemblies (5) used for positioning the buckles, and the top of the connecting board (2) is fixedly connected with a placing board (6) used for placing the buckles.

2. The snap-fit force analysis platform of claim 1, wherein:

clamping assembly (5) are including electric telescopic handle (501), the surface and baffle (4) fixed connection of electric telescopic handle (501), the equal fixedly connected with fly leaf (502) in one side that the output of two electric telescopic handles (501) is relative, the both sides of fly leaf (502) all are through pivot swing joint having toggle rod (503), the one end that electric telescopic handle (501) was kept away from to toggle rod (503) is through pivot swing joint having movable shell (504), the surface of movable shell (504) is provided with regulation shell (506), the inner chamber fixedly connected with slide bar (507) of regulation shell (506), fixedly connected with clamp plate (505) between one side that electric telescopic handle (501) was kept away from to two regulation shells (506).

3. The snap-fit force analysis platform of claim 2, wherein:

the surface of the sliding rod (507) is movably connected with the inner cavity of the movable shell (504), a spring (508) is sleeved on the surface of the sliding rod (507), and one side of the spring (508) is fixedly connected with the movable shell (504).

4. A snap-fit force analysis platform as claimed in claim 3, wherein:

the surface of the electric telescopic rod (501) is sleeved with mounting sleeves (511), and one side of each mounting sleeve (511) opposite to the other side is fixedly connected with the partition plate (4).

5. The snap-fit force analysis platform of claim 4, wherein:

the two sides of the bottom of the pressing plate (505) are fixedly connected with sliding blocks (509), and the surfaces of the sliding blocks (509) are movably connected with the inner cavity of the sliding rail (3).

6. The snap-fit force analysis platform of claim 5, wherein:

the top fixedly connected with gusset plate (510) of regulation shell (506), the one side that gusset plate (510) is close to clamp plate (505) is connected with clamp plate (505) fixed.

7. The snap-fit force analysis platform of claim 1, wherein:

the front side and the rear side of the opposite sides of the two sliding rails (3) are fixedly connected with a fixing block (7), and the bottom of the fixing block (7) is fixedly connected with the connecting plate (2).