CN212311012U - Guide hydraulic oblique shear - Google Patents

Abstract

The utility model discloses a direction hydraulic pressure is cut to one side, include: the hydraulic oblique shear comprises a hydraulic oblique shear body, an upper moving mechanism, a lower moving mechanism, a movable frame, a transverse moving oil cylinder, a supporting beam and a slideway; the upper moving mechanism and the lower moving mechanism are respectively connected to the upper end and the lower end of the hydraulic oblique shear body and are connected and installed with the movable frame, and the hydraulic oblique shear body and the movable frame can move in parallel under the action of the transverse moving oil cylinder through the upper moving mechanism and the lower moving mechanism; the supporting cross beams and the slideways are symmetrically arranged, the slideways are installed on the supporting cross beams on two sides in pairs, and the hydraulic oblique shearing body is installed in the pair of slideways through the movable frame, so that the hydraulic oblique shearing body moves along the slideways. The utility model discloses a direction hydraulic pressure is cut to one side, has effectively controlled hydraulic pressure and has cut installation route to one side, has realized hydraulic pressure and has cut the monolithic erection to one side, and convenient and fast has both alleviateed workman intensity of labour and has improved the operating efficiency again.

Description

Guide hydraulic oblique shear

Technical Field

The utility model relates to a continuous casting steel hydraulic pressure field of cutting, in particular to direction hydraulic pressure is cut to one side.

Background

The hydraulic shear is an important casting blank cutting device of a continuous casting machine, and the hydraulic oblique shear is also a common working mode. However, for multi-strand casting machines, particularly for casting machines with relatively small strand spacings, hydraulic cross-shears tend to be difficult to install and remove. Under the general condition, the total length of the hydraulic oblique shear frame and the shearing oil cylinder is longer, so that the adjacent hydraulic oblique shears are overlapped in the vertical direction, and the hydraulic oblique shears cannot be normally lifted and installed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a direction hydraulic pressure is cut to one side, and aim at imitates control hydraulic pressure and cuts installation route to one side, realizes that hydraulic pressure cuts simple and easy quick installation to one side, has improved the operating efficiency.

In order to achieve the above purpose, the utility model provides the following technical scheme:

the embodiment of the utility model provides an in provide a direction hydraulic pressure is cut to one side, include: the hydraulic oblique shear comprises a hydraulic oblique shear body, an upper moving mechanism, a lower moving mechanism, a movable frame, a transverse moving oil cylinder, a supporting beam and a slideway; the upper moving mechanism and the lower moving mechanism are respectively connected to the upper end and the lower end of the hydraulic oblique shear body and are connected and mounted with the movable frame, and the hydraulic oblique shear body and the movable frame can move in parallel under the action of the transverse moving oil cylinder through the upper moving mechanism and the lower moving mechanism; the supporting beams and the slide ways are symmetrically arranged, the slide ways are installed on the supporting beams on two sides in pairs, and the hydraulic oblique shearing body is installed in the pair of slide ways through the movable frame, so that the hydraulic oblique shearing body moves along the slide ways.

Preferably, the movable frame is in a square structure, and rollers are symmetrically arranged on two sides of the movable frame.

Preferably, each slide cross-section be C type groove structure, including vertical section, circular arc section and slope section.

Preferably, the roller of the movable frame is embedded in the C-shaped groove structure of the slideway, so that the roller and the hydraulic oblique shear body move along the slideway.

Preferably, the inclination angle of the inclined section of the slideway is 45 °.

Preferably, the movable frame is installed in a manner of inclining by 45 degrees, and the hydraulic oblique shear body is placed in a manner of inclining by 45 degrees.

Preferably, each pair of the slideways are arranged in parallel.

Preferably, the upper moving mechanism further includes: and the locking pin is used for connecting and fixing the hydraulic oblique shear body and the movable frame.

Preferably, the lower moving mechanism is an obliquely arranged C-shaped structure and is matched with the movable frame, so that the hydraulic oblique shear is vertically and longitudinally constrained.

Preferably, the upward movement mechanism include the roller driving wheel, the movable frame include wear-resisting slider, the roller driving wheel inlay and install on the movable frame, and wear-resisting slider and the internal surface sliding contact of lower moving mechanism's C type structure, make can parallel movement between hydraulic pressure oblique shear body and the movable frame.

The utility model provides a direction hydraulic pressure is cut to one side has effectively controlled hydraulic pressure and has cut installation route to one side, has realized hydraulic pressure and has cut the monolithic erection to one side, and convenient and fast has both alleviateed workman intensity of labour and has improved the operating efficiency again.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a side view of a guided hydraulic oblique shear in embodiment 1 of the present invention;

fig. 2 is a view of the embodiment 1 of the present invention in a direction of hydraulic pressure oblique shearing;

fig. 3 is a side view of a multi-stream guided hydraulic skew shear of embodiment 1 of the present invention;

fig. 4 is a schematic view of installation of a multi-stream guide hydraulic oblique shear in embodiment 1 of the present invention;

fig. 5 is an assembly schematic diagram of a movable frame and a downward moving mechanism of the hydraulic guided oblique shear in embodiment 1 of the present invention.

In fig. 1 to 5: the hydraulic oblique shear comprises a hydraulic oblique shear body 1, a movable frame 2, rollers 21, wear-resistant sliding blocks 22, an upper moving mechanism 3, a roller wheel 31, a locking pin 4, a lower moving mechanism 5, a transverse moving oil cylinder 6, a supporting cross beam 7, a slideway 8, a vertical section 81, an arc section 82 and an inclined section 83.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Embodiment 1, the pilot hydraulic oblique shear of this embodiment, as shown in fig. 1 to 5, includes: the hydraulic oblique shear comprises a hydraulic oblique shear body 1, a movable frame 2, a roller 21, a wear-resistant slide block 22, an upper moving mechanism 3, a roller wheel 31, a locking pin 4, a lower moving mechanism 5, a transverse moving oil cylinder 6, a supporting cross beam 7, a slideway 8, a vertical section 81, an arc section 82 and an inclined section 83.

The upper moving mechanism 3 and the lower moving mechanism 5 are respectively connected with the upper end and the lower end of the hydraulic oblique shear body 1, and the hydraulic oblique shear body 1 and the movable frame 2 can move in parallel under the action of the transverse moving oil cylinder 6 through the upper moving mechanism 3 and the lower moving mechanism 5. Specifically, the upper moving mechanism 3 comprises a rolling wheel 31, the movable frame 2 comprises a wear-resistant slide block 22, and the rolling wheel 31 is embedded and installed on the movable frame 2 to realize rolling; and the lower moving mechanism 5 is a C-shaped structure which is obliquely arranged, the wear-resistant slide block 22 is in sliding contact with the inner surface of the C-shaped structure of the lower moving mechanism 5, the lower moving mechanism 5 is installed in a matched manner with the lower cross beam of the movable frame 2, and meanwhile, the vertical and longitudinal restraint of the hydraulic oblique shear body 1 is realized. Go up moving mechanism 3 and still include stop pin 4 and can be connected fixedly with hydraulic pressure oblique cutting body 1 and movable frame 2 to relative motion can not be had between hydraulic pressure oblique cutting body 1 and movable frame 2, be convenient for realize whole change and overhaul.

In this embodiment, the moving distance of the hydraulic oblique shearing body 1 is 1200 mm. The movable frame 2 is a square structure, reinforcing ribs are arranged at four corners of the movable frame, 4 idler wheels 21 are symmetrically arranged on two sides of the movable frame 2, the movable frame 2 is installed in an inclined angle of 45 degrees, and then the hydraulic oblique shear body 1 is placed in an inclined angle of 45 degrees. The slideways 8 are symmetrically arranged and are arranged on the supporting beams 7 at two sides in pairs. Each hydraulic oblique shear body 1 is arranged in a pair of symmetrical slideways 8 through a movable frame 2. In this embodiment, the number of pairs of the hydraulic oblique shear body 1 and the slide way 8 is 4. 4 pairs of slide ways 8 are arranged in parallel and are arranged on the supporting beams 7 at two sides. The slideway 8 is a three-section structure, and comprises a vertical section 81, an arc section 82 and an inclined section 83, wherein the inclined section 83 has an inclination angle of 45 degrees. The cross-section of the slideway 8 is of a C-shaped groove structure, and the roller 21 of the movable frame 2 is embedded in the C-shaped groove structure of the slideway 8, so that the roller 21 and the hydraulic oblique shearing body 1 can only move along the slideway 8, and guiding installation is realized. In fig. 1, a solid hydraulic oblique shearing body 1 is a starting position, and a dotted hydraulic oblique shearing body 1 is an end position; fig. 4 is a schematic vertical state when the hydraulic oblique shear body 1 and the movable frame 2 are installed, the hydraulic oblique shear body 1 of the solid line is an initial position, and the hydraulic oblique shear body 1 of the dotted line is a final position.

To sum up, when the installation of direction hydraulic pressure oblique shear of this embodiment was cut and was dismantled, utilize the stop pin to cut the body to one side with hydraulic pressure and fix on movable frame, wholly slide in the slide of symmetry installation, realized wholeness, accuracy, the convenience that the installation was dismantled to one side to hydraulic pressure, improved the operating efficiency.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A guided hydraulic skew shear, comprising: the hydraulic oblique shear comprises a hydraulic oblique shear body, an upper moving mechanism, a lower moving mechanism, a movable frame, a transverse moving oil cylinder, a supporting beam and a slideway;

the upper moving mechanism and the lower moving mechanism are respectively connected to the upper end and the lower end of the hydraulic oblique shear body and are connected and mounted with the movable frame, and the hydraulic oblique shear body and the movable frame can move in parallel under the action of the transverse moving oil cylinder through the upper moving mechanism and the lower moving mechanism;

the supporting beams and the slide ways are symmetrically arranged, the slide ways are installed on the supporting beams on two sides in pairs, and the hydraulic oblique shearing body is installed in the pair of slide ways through the movable frame, so that the hydraulic oblique shearing body moves along the slide ways.

2. The guided hydraulic skew shear of claim 1, wherein said movable frame is a square-shaped structure with rollers symmetrically mounted on opposite sides.

3. The guided hydraulic skew shear of claim 2, wherein each of said runners has a C-channel cross-section comprising a vertical section, a circular section and an angled section.

4. The guided hydraulic skew shear of claim 3, wherein the rollers of the movable frame are mounted in a C-channel configuration of the runway such that the rollers and the hydraulic skew shear body move along the runway.

5. The guided hydraulic skew shear of claim 3, wherein the angle of inclination of the inclined section of the ramp is 45 °.

6. The guided hydraulic skew shear of claim 1, wherein said movable frame is mounted at an angle of 45 ° and said hydraulic skew shear body is positioned at an angle of 45 °.

7. The directional hydraulic skew shear of claim 1, wherein each pair of said runners are arranged in parallel.

8. The guided hydraulic skew shear of claim 1, wherein said upper displacement mechanism further comprises: and the locking pin is used for connecting and fixing the hydraulic oblique shear body and the movable frame.

9. The guided hydraulic skew shear of claim 1, wherein said lower displacement mechanism is a C-shaped structure disposed in an inclined position and is mounted in cooperation with said movable frame such that said hydraulic skew shear is vertically and longitudinally constrained.

10. The guided hydraulic skew shear of claim 9, wherein said upper moving mechanism comprises a roller wheel, said movable frame comprises a wear-resistant slider, said roller wheel is mounted on said movable frame in an embedded manner, and said wear-resistant slider is in sliding contact with the inner surface of the C-shaped structure of the lower moving mechanism, so that the hydraulic skew shear body and the movable frame can move in parallel.

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