CN219169966U - Conversion mechanism for vertical switching of sliding platform - Google Patents

Abstract

The utility model discloses a conversion mechanism for vertical switching of a sliding platform, which is used for vertical switching of the sliding platform and comprises the following components: the T-shaped sliding platform fixing seat is used for connecting the sliding platform; the platform connecting block is arranged on the T-shaped sliding platform fixing seat, the head part of the platform connecting block is provided with a vertical conversion block, the bottom of the vertical conversion block is provided with a U-shaped groove block, and the U-shaped groove block is provided with a U-shaped groove body; a Z type storage platform connecting block for connecting storage platform, it is provided with the spacing bearing of U type cell body sliding fit that U type cell block was established. The structure is stable and reliable, is pulled by a mechanical structure, has a small structure and saves cost.

Description

Conversion mechanism for vertical switching of sliding platform

Technical Field

The utility model relates to a switching mechanism for vertical switching of a sliding platform.

Background

The welding production line platform of the automobile A2LL front floor assembly product is a flexible platform, welding is required to be switched, and the space is limited. The present utility model provides a structure capable of achieving vertical conversion of a platform.

Disclosure of Invention

The utility model aims to solve the technical problems and provide a conversion mechanism for vertically switching a sliding platform, which has the advantages of small structure, small space occupation and high working reliability.

To solve the above technical problem, embodiments of the present utility model provide a switching mechanism for vertical switching of a sliding platform, the platform switching mechanism for vertical switching of a sliding platform, comprising:

the T-shaped sliding platform fixing seat is used for connecting the sliding platform;

the platform connecting block is arranged on the T-shaped sliding platform fixing seat, the head part of the platform connecting block is provided with a vertical conversion block, the bottom of the vertical conversion block is provided with a U-shaped groove block, and the U-shaped groove block is provided with a U-shaped groove body;

a Z type storage platform connecting block for connecting storage platform, it is provided with the spacing bearing of U type cell body sliding fit that U type cell block was established.

Further, the limit bearing is fixed on the Z-shaped storage platform connecting block through a limit bearing assembly rod-shaped part, and a screw rod part matched with a nut is arranged at the lower part of the limit bearing assembly rod-shaped part.

Further, the side wall of the U-shaped groove body of the U-shaped groove block is provided with an inclined guide surface.

Further, the inclined guide surfaces are symmetrically arranged on the side wall of the U-shaped groove body.

The utility model has the following beneficial effects: the structure is stable and reliable, is pulled by a mechanical structure, has a small structure and saves cost.

Drawings

Fig. 1 is a schematic diagram of a switching mechanism for vertical switching of a slide platform.

Fig. 2 is an exploded view of a switching mechanism for vertical switching of a slide platform.

Fig. 3 is a perspective view of a U-shaped channel block.

Fig. 4 is an effect diagram of a conversion mechanism for vertical switching of a slide platform provided in a welding line of a front floor assembly of an automobile A2 LL.

Detailed Description

The utility model is further described in connection with the following embodiments in order to make the technical means, the creation features, the achievement of the purpose and the effect of the utility model easy to understand.

Embodiments of the present utility model provide a changeover mechanism for vertical changeover of a slide platform (hereinafter referred to as "platform changeover mechanism"), a platform changeover mechanism 3 for vertical changeover of a slide platform, see fig. 1 to 3, comprising: the device comprises a T-shaped sliding platform fixing seat 8, a platform connecting block 4, a vertical adapter block 9, a U-shaped groove block 10, a Z-shaped platform connecting block 5 and a limit bearing 9.

In this embodiment, referring to fig. 1-2, the T-shaped sliding platform fixing base 8 for connecting the sliding platform 1 has two side ears, and the side ears can be well fixed to the sliding platform 1, and the fixing manner includes, but is not limited to, an assembly manner of a bolt and a nut, and can also be other mounting manners such as a screw, and the side ears are provided with mounting holes. The top at T type sliding platform fixing base 8 is provided with platform connecting block 4 complex pilot hole, and the platform connecting block 4 that sets up in T type sliding platform fixing base can utilize set screw to assemble to the platform connecting block on, the head of platform connecting block is provided with perpendicular adapter piece 9, and this perpendicular adapter piece is a square block, the bottom of perpendicular adapter piece 9 is provided with U type groove block 10, and the direction of arrangement of this U type groove block and the extending direction mutually perpendicular of platform connecting block. The U-shaped groove block is provided with a U-shaped groove body 10a, and the U-shaped groove body 10a can enable the limit bearing to roll in and out.

In addition, with continued reference to fig. 1-2, the Z-shaped storage platform connection block 5 for connecting the storage platform 2 has a tail portion with a fixing hole and a head portion with a limit bearing, the tail portion and the head portion are connected by adopting a connection portion to form a Z-shaped structure, the Z-shaped storage platform connection block 5 is provided with the limit bearing 9 slidably matched with a U-shaped groove body provided with the U-shaped groove block, the limit bearing is fixed on the Z-shaped storage platform connection block through a limit bearing assembly rod portion, and a screw portion matched with a nut is arranged at the lower portion of the limit bearing assembly rod portion. The limit bearing can enter the U-shaped groove body to hold the force and then pull the sliding platform.

It should be noted that, referring to fig. 3, the side walls of the U-shaped groove body of the U-shaped groove block are provided with inclined guide surfaces 10a-1, the entrance and exit positions of each side wall are provided with inclined guide surfaces, so that the guiding effect of the rolling bearing is better, the rolling bearing is facilitated to enter and exit, the inclined guide surfaces are symmetrically arranged on the side walls of the U-shaped groove body, and the symmetrical structure is more beneficial to the limit bearing to enter the U-shaped groove body from any direction.

It should be noted that, a nesting piece matched with the shape of the U-shaped groove body 10a can be arranged on the U-shaped groove body 10a, the nesting piece can be fixed on the U-shaped groove body 10a by using a screw, the nesting piece can be replaced at will after being worn, and the nesting piece can be made of ceramics, carbon fiber and the like.

The working principle of the utility model is as follows:

1. the welded sliding platform (namely, the sliding platform 1) pulls the sliding platform through a servo motor, the sliding platform is pulled to a switching position A through a program, and a platform connecting block unit (consisting of a T-shaped sliding platform fixing seat 8, a platform connecting block 4, a vertical switching block 9 and a U-shaped groove block 10) in a platform switching mechanism (namely, a platform switching mechanism 3) moves to the switching position (the state shown in fig. 4).

2. The power mechanism 7 of the storage platform is already in the position shown in fig. 4, the U-shaped groove body of the platform connecting block unit moves to the position of the limit bearing 6 (namely, the state shown in fig. 1), and the two mechanisms can vertically move the platform through the limit of the bearing and the U-shaped limit surface.

3. The motor on the storage platform power mechanism 7 works subsequently, the whole storage platform power mechanism 7 is pulled to do linear motion perpendicular to the welding sliding platform conveying line, then the limiting bearing 6 is limited by the U-shaped groove body of the platform connecting block unit, the whole storage platform power mechanism 7 is pulled to be separated from the linear sliding table B (namely the welding sliding platform conveying line), the storage platform power mechanism 7 is pulled to the storage platform, and the switching work of the whole vertical platform is completed.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples of carrying out the utility model and that various changes in form and details may be made therein without departing from the spirit and scope of the utility model.

Claims (4)

1. The conversion mechanism for vertical switching of a sliding platform is used for vertical switching of the sliding platform and is characterized by comprising:

the T-shaped sliding platform fixing seat is used for connecting the sliding platform;

the platform connecting block is arranged on the T-shaped sliding platform fixing seat, the head part of the platform connecting block is provided with a vertical conversion block, the bottom of the vertical conversion block is provided with a U-shaped groove block, and the U-shaped groove block is provided with a U-shaped groove body;

a Z type storage platform connecting block for connecting storage platform, it is provided with the spacing bearing of U type cell body sliding fit that U type cell block was established.

2. The conversion mechanism for vertical switching of a sliding platform according to claim 1, wherein the limit bearing is fixed to the Z-shaped storage platform connection block through a limit bearing fitting rod portion, and a screw portion fitted with a nut is provided at a lower portion of the limit bearing fitting rod portion.

3. The conversion mechanism for vertical switching of a sliding platform according to claim 1, wherein the side walls of the U-shaped channel body of the U-shaped channel block are provided with inclined guide surfaces.

4. A conversion mechanism for vertical switching of a sliding platform according to claim 3, wherein the inclined guide surfaces are symmetrically arranged on the side walls of the U-shaped groove body.

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