WO2017219335A1

WO2017219335A1 - Hydraulic machine guiding structure specialized for hot-press forging

Info

Publication number: WO2017219335A1
Application number: PCT/CN2016/086965
Authority: WO
Inventors: 邵正国
Original assignee: 邵正国
Priority date: 2016-06-24
Filing date: 2016-06-24
Publication date: 2017-12-28

Abstract

A hydraulic machine guiding structure specialized for hot-press forging, comprising a pair of frame columns (1) and a sliding block (2) disposed between the pair of frame columns (1). Tapered wedge guide rail assemblies are disposed between four corners of the sliding block (2) and the columns (1) at the two sides. Each tapered wedge guide rail assembly comprises a guide rail (3), a guide rail side wear-resistant piece (4), an adjusting seat, an adjusting block (6), a sliding block side wear-resistant piece (7), an adjusting block locking screw (8), a wedge-shaped block (9), and a wedge-shaped block locking screw (10). The guide rail (3) is disposed in such a manner that an included angle of 45° is formed between the guide rail and both longitudinal and transverse panels of the sliding block (2), so that the sliding block (2) can bear longitudinal and transverse lateral forces at the same time during movement. The requirement for working conditions of the sliding block (2) is met while the number of the guide rails (3) and the number of wear-resistant blocks thereof can be reduced.

Description

Special hydraulic machine guiding structure for hot press forging

Technical field

The invention relates to a hydraulic machine, in particular to a special hydraulic machine guiding structure for hot forging.

Background technique

The slider guiding structure of the hydraulic machine is used for precise guiding when the slider moves in the frame, and is generally realized by a guide pillar guiding structure. However, the column structure limitation of the frame type hydraulic press can not be realized by the conventional guide post guide structure, which is generally realized by providing wear plates on the longitudinal and lateral faces of the frame type column and the slider to meet the bias of the slider working state. Load capacity.

In the frame type hot forging special hydraulic machine for manufacturing high-iron parts, it is required to provide vertical and horizontal wear-resistant pieces in the four corners of the slider of the guiding structure, and it is also required to be equipped with a gap adjusting mechanism for wear. The adjustment can be made, so the mechanism is bloated, the manufacturing cost is high, and the maintenance is inconvenient in the later stage.

Summary of the invention

The technical problem to be solved by the present invention is to provide a special hydraulic machine guiding structure for hot press forging with high guiding precision and compact structure.

In order to solve the above technical problem, the technical solution of the present invention is: a hot press forging special hydraulic machine guiding structure, comprising a pair of frame type columns, and a slider disposed between the pair of frame type columns, wherein: A wedge-shaped rail assembly is disposed between the four corners of the slider and the two columns, and the wedge-type rail assembly includes a guide rail, a rail-side wear-resistant piece, an adjustment seat, an adjustment block, a slider-side wear piece, and an adjustment block lock. Tightening screws, wedge blocks and wedge block locking screws;

The guide rail is mounted on the inner side of the column, and the angle between the guide surface of the guide rail and the longitudinal and lateral panels of the slider is 45°, and the guide surface of the guide rail is provided with a mounting groove extending along the longitudinal axis of the guide rail. Fixed rail side wear plate;

The four corners of the slider are each provided with a right-angle notch, and the right-angle notch is provided with an L-shaped overall adjustment seat, and the adjustment seat is composed of a strip connection block A and a strip connection block B, and the strip connection block A The back surface and the inner end surface are respectively welded and fixed to the longitudinal panel and the lateral panel of the slider, and the inner end of the strip connecting block A has a protrusion perpendicular to the longitudinal direction of the strip adjusting block A; the strip connecting block B One end is welded and fixed to the convex portion of the strip connecting block A, and the width of the strip connecting block B is the same as the width of the protrusion;

a slider side wear plate corresponding to the guide side wear plate is embedded on the outer side of the adjustment block, a middle portion of the adjustment block has a waist hole, and an inner side of the adjustment block is provided with a slope matching the wedge block; The adjusting block locking screw passing through the waist hole is fixedly connected with the strip connecting piece A of the adjusting seat, the wedge block is arranged in the cavity formed between the adjusting block and the adjusting seat, and the wedge block is adjusted by the wedge block locking screw The strip connection block A of the seat is fixedly connected. The invention has the advantages that: in the invention, the guide rail is disposed at an angle of 45° with the longitudinal and lateral panels of the slider, so that the slider can simultaneously bear the lateral and lateral lateral forces during the moving process, and the slider is satisfied. At the same time, the number of guide rails and their wear blocks can be reduced. In addition, in the guiding structure of the present invention, the adjusting seat adopts a non-integral structure, but is formed by welding the strip connecting block A and the strip connecting block B, thereby reducing the large size of the L-shaped adjusting seat adopting the integral cutting. The material consumption, the second is to facilitate the welding deformation caused by the overall welding of the L-shaped adjusting seat, to avoid the correction after the overall welding, to ensure the guiding precision, and at the same time, because the inner end of the strip connecting block A protrudes perpendicular to its long axis The protrusion has the same width as the strip connection block B, and the protrusion is used for positioning the strip connection block B perpendicular to the strip connection block A, and is also advantageous for connecting the strip connection block A to the strip shape. The welding position between the blocks B is offset, further reducing the effect of the welding deformation on its overall size.

DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing a guide structure of a special hydraulic press for hot forging according to the present invention.

Figure 2 is a partial enlarged view I of Figure 1.

Figure 3 is a schematic view showing the structure of the strip connecting block A in the present invention.

detailed description

As shown in FIGS. 1 and 2, a pair of frame-type uprights 1 and a slider 2 disposed between the pair of frame-type uprights 1 are provided, and a diagonal wedge is disposed between the four corners of the slider 2 and the two side pillars 1 a rail assembly comprising a guide rail 3, a rail side wear plate 4, an adjustment seat, an adjustment block 6, a slider side wear plate 7, an adjustment block locking screw 8, a wedge block 9 and a wedge block locking Screw 10, where:

The guide rail 3 is mounted on the inner side surface of the upright column 1. The guide surface of the guide rail 3 and the longitudinal panel 21 of the slider 2 and the transverse panel 22 are both at an angle of 45°. The guide surface of the guide rail 3 is provided with an inlay extending along the longitudinal axis of the guide rail. a groove in which the guide side wear plate 4 is fixed.

The four corners of the slider 2 are respectively provided with a straight-angle notch, and the right-angle notch is provided with an L-shaped overall adjustment seat. The adjusting seat is composed of a strip connecting block A51 and a strip connecting block B52, and the back side of the strip connecting block A51, The inner end faces are respectively welded and fixed to the longitudinal panel 21 and the transverse panel 22 of the slider 2. As shown in FIG. 3, the inner end of the strip-shaped connecting block A51 has a protrusion 511 perpendicular to the longitudinal direction of the strip-shaped adjusting block A51. The connecting block A51 is further provided with two screw connecting holes 512, 513; one end of the strip connecting block B52 is welded and fixed to the convex portion 511 of the strip connecting block A51, and the width of the strip connecting block B52 and the protrusion 511 The width is the same.

A slider-side wear-resistant piece 7 corresponding to the guide-side wear plate is embedded in the outer side of the adjusting block 6, the middle portion of the adjusting block 6 has a waist-shaped hole, and the inner side of the adjusting block 6 is provided with a slope matching with the wedge-shaped block 9; The block 6 is fixedly connected to the strip connecting block A51 of the adjusting seat by an adjusting block locking screw 8 passing through the waist hole, and the wedge block 9 is disposed in the cavity formed between the adjusting block 6 and the adjusting seat, and the wedge block 9 passes The wedge block locking screw 10 is fixedly connected to the strip connecting block A51 of the adjusting seat.

working principle:

The guiding surface of the guide rail and the adjusting block is 45° with the longitudinal and lateral faces of the slider, and the wear-resistant pieces of the two are fitted to each other to realize two-way guiding and smoothly balance the lateral forces in two directions; After the wear of the rail side wear piece and the slider side wear piece, slightly loosen the adjusting block locking screw and rotate the wedge block locking screw, and the wedge block pushes the adjusting block against the strip connecting block A by using the inclined surface thereof, thereby The gap between the wear-resistant piece on the side of the slider and the wear-resistant piece on the side of the guide rail is changed, so that the wear-resistant piece on the side of the slide is closely fitted with the wear-resistant piece on the side of the guide rail, and the screw is locked in the lock adjustment block.

Claims

The utility model relates to a special hydraulic machine guiding structure for hot forging, comprising a pair of frame type columns, and a slider disposed between the pair of frame type columns, wherein: the four corners of the sliding block and the two side columns are provided with a wedge-type rail assembly comprising a guide rail, a rail-side wear plate, an adjustment seat, an adjustment block, a slider-side wear plate, an adjustment block locking screw, a wedge block and a wedge block locking screw;

The guide rail is mounted on the inner side of the column, and the angle between the guide surface of the guide rail and the longitudinal and lateral panels of the slider is 45°, and the guide surface of the guide rail is provided with a mounting groove extending along the longitudinal axis of the guide rail. Fixed rail side wear plate;

The four corners of the slider are each provided with a right-angle notch, and the right-angle notch is provided with an L-shaped overall adjustment seat, and the adjustment seat is composed of a strip connection block A and a strip connection block B, and the strip connection block A The back surface and the inner end surface are respectively welded and fixed to the longitudinal panel and the lateral panel of the slider, and the inner end of the strip connecting block A has a protrusion perpendicular to the longitudinal direction of the strip adjusting block A; the strip connecting block B One end is welded and fixed to the convex portion of the strip connecting block A, and the width of the strip connecting block B is the same as the width of the protrusion;

a slider side wear plate corresponding to the guide side wear plate is embedded on the outer side of the adjustment block, a middle portion of the adjustment block has a waist hole, and an inner side of the adjustment block is provided with a slope matching the wedge block; The adjusting block locking screw passing through the waist hole is fixedly connected with the strip connecting piece A of the adjusting seat, the wedge block is arranged in the cavity formed between the adjusting block and the adjusting seat, and the wedge block is adjusted by the wedge block locking screw The strip connection block A of the seat is fixedly connected.