CN210881053U - Inclined plane guide mechanism of digital servo hydraulic press - Google Patents

Abstract

The utility model relates to a digital servo hydraulic press, digital servo hydraulic press inclined plane guiding mechanism specifically says so. It comprises a column and a movable beam of a digital servo hydraulic press. The movable beam is characterized in that a supporting plate is arranged on the side wall of the movable beam, the surface of the supporting plate is perpendicular to the side wall of the corresponding movable beam, a guide rail block is arranged on the side wall of the movable beam between the supporting plate and the upright post, and the guide rail block and the side wall of the movable beam are vertically fixed and horizontally matched in a sliding manner. And tightening and staring screws are uniformly distributed on the supporting plate from top to bottom and are vertical to the plate surface of the supporting plate, and one ends of the tightening and staring screws are abutted against the guide rail blocks. The side surface of the guide rail block close to the upright post is an inclined surface, a vertically arranged guide steel plate is fixed on the upright post corresponding to the inclined surface, the surface of the guide steel plate is matched with the inclined surface, and the guide steel plate and the inclined surface are attached to each other. The parallelism of the movable beam of the digital servo hydraulic press using the guide mechanism has small difference at different heights and low manufacturing cost.

Description

Inclined plane guide mechanism of digital servo hydraulic press

Technical Field

The utility model relates to a digital servo hydraulic press, digital servo hydraulic press inclined plane guiding mechanism who is used for leading and adjusting its depth of parallelism to the walking beam of digital servo hydraulic press specifically says so.

Background

At present, a digital servo hydraulic machine guide mechanism used in the hydraulic industry comprises a digital servo hydraulic machine upright post and a movable beam. The movable beam is provided with a sliding block, the sliding block and the movable beam are vertically fixed and horizontally slide to be matched, the upright post corresponding to one side of the sliding block is provided with a guide plate which is vertically arranged, the guide plate and the upright post are vertically fixed and horizontally slide to be matched, one side of the sliding block is abutted against the guide plate, and the sliding guide plate and the guide plate are matched in a sliding mode. When the digital servo hydraulic press is used, the guide mechanisms are arranged between the four stand columns of the digital servo hydraulic press and the corresponding side walls of the supporting beams. The guide mechanism realizes the guide of the movable beam by utilizing the up-and-down sliding of the two sliding blocks along the corresponding guide plates, and adjusts the position of the movable beam by adjusting the positions of the sliding blocks and the guide plates, thereby adjusting the parallelism of the movable beam. However, the slider and the movable beam of the guide mechanism are movable, so that the vertical accuracy of the slider and the guide plate is low, and the parallelism of the movable beam at different heights is greatly different. In addition, the sliding block and the guide plate are required to be matched with mounting position adjusting components, so that the whole guide mechanism has more parts and higher manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a digital servo hydraulic press inclined plane guiding mechanism, the walking beam that uses this guiding mechanism digital servo hydraulic press differs less at the depth of parallelism of co-altitude, and manufacturing cost is lower.

In order to solve the problems, the following technical scheme is provided:

the utility model discloses a digital servo hydraulic press inclined plane guiding mechanism includes stand and walking beam of digital servo hydraulic press. The movable beam is characterized in that a supporting plate is arranged on the side wall of the movable beam, the surface of the supporting plate is perpendicular to the side wall of the corresponding movable beam, a guide rail block is arranged on the side wall of the movable beam between the supporting plate and the upright post, and the guide rail block and the side wall of the movable beam are vertically fixed and horizontally matched in a sliding manner. And tightening and staring screws are uniformly distributed on the supporting plate from top to bottom and are vertical to the plate surface of the supporting plate, and one ends of the tightening and staring screws are abutted against the guide rail blocks. The side surface of the guide rail block close to the upright post is an inclined surface, a vertically arranged guide steel plate is fixed on the upright post corresponding to the inclined surface, the surface of the guide steel plate is matched with the inclined surface, and the guide steel plate and the inclined surface are attached to each other.

The movable beam is characterized in that at least two waist-shaped through holes which are horizontally arranged are arranged on the guide rail block from top to bottom, the axes of the waist-shaped through holes are perpendicular to the side wall of the corresponding movable beam, threaded holes are formed in the side wall of the movable beam corresponding to the waist-shaped through holes, and a limiting screw is arranged between each waist-shaped through hole and each threaded hole, so that the guide rail block and the side wall of the movable beam are vertically fixed and are in horizontal sliding fit.

The inclined plane of the guide rail block is attached with a graphite copper plate, and the guide rail block is attached with the guide steel plate through the graphite copper plate.

The inclined plane angle of the guide rail block is 45 degrees.

A transition surface with the angle of 45 degrees is formed between the two inner side walls of the stand column, and the plate surface of the guide steel plate is fixed on the transition surface.

By adopting the scheme, the method has the following advantages:

because the utility model discloses a there is the backup pad on digital servo hydraulic press inclined plane guiding mechanism's the walking beam lateral wall, there is the guide rail piece on the walking beam lateral wall between that stand of backup pad and neighbouring, the top-down equipartition has the tight screw of staring in the backup pad, the tight face of staring in the screw is perpendicular with the face of backup pad, the tight one end of staring in the screw offsets with the guide rail piece, the side of being close to that guide rail piece of stand is the inclined plane, be fixed with vertical arrangement's direction steel sheet on the stand that the inclined plane corresponds, the face and the inclined plane looks adaptation of direction steel sheet, and the two is laminated mutually. When the digital servo hydraulic press is used, the guide mechanisms are arranged between the four stand columns of the digital servo hydraulic press and the corresponding side walls of the supporting beams. The inclined plane guide mechanism utilizes the guide steel plate as a reference, and ensures the verticality of the guide plate and the workbench when processing and mounting, namely the vertical precision of the guide rail block can be ensured, so that the parallelism difference of the movable beam at different heights is smaller. Moreover, only the guide rail block needs to be matched with a position adjusting structure for installing a supporting plate and tightly staring a screw, so that the number of parts in the whole guide mechanism is greatly reduced, and the manufacturing cost is reduced.

Drawings

FIG. 1 is a structural use diagram of a digital servo hydraulic press inclined plane guide mechanism of the utility model;

FIG. 2 is a schematic sectional view taken along line A-A of FIG. 1 (with the table and support plate omitted);

fig. 3 is a schematic perspective view of the digital servo hydraulic press slant guide mechanism of the present invention (omitting the column, the walking beam and the guide steel plate).

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, fig. 2 and fig. 3, the slope guiding mechanism of the digital servo hydraulic press of the present invention comprises a column 1 and a movable beam 7 of the digital servo hydraulic press. The side wall of the movable beam 7 is provided with a supporting plate 6, the surface of the supporting plate 6 is vertical to the side wall of the corresponding movable beam 7, a guide rail block 2 is arranged on the side wall of the movable beam 7 between the supporting plate 6 and the upright post 1, and the guide rail block 2 is vertically fixed and horizontally matched with the side wall of the movable beam 7 in a sliding manner. The utility model discloses a movable beam of a motor vehicle, including guide rail block 2, waist shape through-hole 3 that two levels were arranged on guide rail block 2 from top to bottom, the axis of waist shape through-hole 3 all is perpendicular with the lateral wall that corresponds walking beam 7, all screw holes on the walking beam 7 lateral wall that waist shape through-hole 3 corresponds, and there is spacing screw 4 between waist shape through-hole 3 and the screw hole for become vertical fixed, the cooperation of horizontal slip form between guide rail block 2 and walking beam 7 lateral wall. And fastening and staring screws 5 are uniformly distributed on the supporting plate 6 from top to bottom, the fastening and staring screws 5 are vertical to the plate surface of the supporting plate 6, and one ends of the fastening and staring screws 5 are abutted against the guide rail blocks 2. The side surface of the guide rail block 2 close to the upright post 1 is an inclined surface 11, the inclined angle of the inclined surface 11 is 45 degrees, and a graphite copper plate 10 is attached to the inclined surface 11 of the guide rail block 2. A transition surface 8 with an angle of 45 degrees is formed between two inner side walls of the stand column 1, a guide steel plate 9 is fixed on the transition surface 8, and the surface of the guide steel plate 9 is matched with the inclined surface 11 of the guide rail block 2 and is attached to the inclined surface 11.

When the digital servo hydraulic press is used, the guide mechanisms are arranged between the four upright posts 1 of the digital servo hydraulic press and the corresponding side walls of the supporting beam. The inclined plane 11 guide mechanism utilizes the guide steel plate 9 as a reference, and ensures the verticality of the guide plate and the workbench during processing and installation, namely the vertical precision of the guide rail block 2, so that the parallelism difference of the movable beam 7 at different heights is small. Moreover, only the guide rail block 2 needs to be provided with a position adjusting structure of the supporting plate 6 and the staring screw 5, so that the number of parts in the whole guide mechanism is reduced, and the manufacturing cost is reduced.

Claims (5)

1. A slope guide mechanism of a digital servo hydraulic press comprises a column (1) and a movable beam (7) of the digital servo hydraulic press; the movable beam type vertical guide rail device is characterized in that a support plate (6) is arranged on the side wall of the movable beam (7), the surface of the support plate (6) is vertical to the side wall of the corresponding movable beam (7), a guide rail block (2) is arranged on the side wall of the movable beam (7) between the support plate (6) and the upright post (1), and the guide rail block (2) is vertically fixed and horizontally matched with the side wall of the movable beam (7) in a sliding manner; the supporting plate (6) is uniformly provided with tightly-staring screws (5) from top to bottom, the tightly-staring screws (5) are vertical to the plate surface of the supporting plate (6), and one ends of the tightly-staring screws (5) are abutted against the guide rail block (2); the side surface of the guide rail block (2) close to the upright post (1) is an inclined surface (11), a vertically arranged guide steel plate (9) is fixed on the upright post (1) corresponding to the inclined surface (11), the surface of the guide steel plate (9) is matched with the inclined surface (11), and the guide steel plate and the inclined surface are attached to each other.

2. The digital servo hydraulic press inclined plane guide mechanism according to claim 1, characterized in that at least two horizontally arranged waist-shaped through holes (3) are arranged on the guide rail block (2) from top to bottom, the axes of the waist-shaped through holes (3) are all perpendicular to the side wall of the corresponding movable beam (7), the side wall of the movable beam (7) corresponding to the waist-shaped through holes (3) is provided with threaded holes, and a limit screw (4) is arranged between the waist-shaped through holes (3) and the threaded holes, so that the guide rail block (2) and the side wall of the movable beam (7) are vertically fixed and horizontally matched in a sliding manner.

3. The slope guide mechanism of the digital servo hydraulic press as claimed in claim 1, characterized in that the slope (11) of the guide rail block (2) is attached with a graphite copper plate (10), and the guide rail block (2) is attached with the guide steel plate (9) through the graphite copper plate (10).

4. The slope guide mechanism of the digital servo hydraulic press as claimed in any one of claims 1 to 3 is characterized in that the angle of the slope (11) of the guide rail block (2) is 45 degrees.

5. The slope guide mechanism of the digital servo hydraulic press as claimed in claim 4, characterized in that a transition surface (8) with an angle of 45 degrees is formed between two inner side walls of the upright post (1), and the plate surface of the guide steel plate (9) is fixed on the transition surface (8).

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