RU2345837C2 - Jaw crusher - Google Patents

Abstract

FIELD: mining engineering; mechanics.

SUBSTANCE: jaw crusher consists of a frame with two side walls and a movable jaw installed between them on an eccentric shaft and rested by its bottom part on a toggle plate, which is connected with a back stop made in the form of movable traverse beam with two its bearing ends mounted in such a manner as to be able to move in appropriate openings in side walls of said frame and to interact with wedge mechanism of wall fixing, a hydraulic cylinder, a set of shims for adjustment of output slot width, and a closing device in the form of rod with spring. Each bearing end of said movable beam is installed between two segments located in cylinder-shaped openings in side walls of said frame and having their bases positioned at an angle one to another; at the same time bearing surfaces of movable traverse beam, that are in contact with segment's bases, are inclined one to another. Shims are installed in a gap between upper segment and upper bearing surface of said movable traverse beam. Hydraulic cylinder is located between side walls of frame above said movable traverse beam and connected by detachable articulating joint with rear surface of movable jaw, while rod of closing device is provided with an engaging step that interacts with said movable traverse beam.

EFFECT: improved crusher reliability, simplification of its design and improvement of operating conditions.

3 cl, 4 dwg

Description

The invention relates to the crushing of rocks and other solid lumpy materials, and more specifically to jaw crushers and can be used in mining, construction and other industries.

Known jaw crusher containing a bed with two side walls, between which is located a movable cheek mounted on an eccentric shaft, resting the lower part on a spacer plate connected with a back stop, a mechanism for adjusting the width of the exit slit and a closing device (US Pat. RF No. 2043787, V02C 1 / 02, declared 30.09.91, published 20.09.95).

The back emphasis is a housing fixed on the side walls of the bed, in which a block of hydraulic cylinders is located, the rods of which, through the supporting spherical surfaces and the slider common to the entire block, absorb the force transmitted by the spacer plate. The width of the exit slit is adjusted by extending the cylinder block rods by the required amount.

The disadvantage of this design is the design of the backstop, which increases the cost of manufacturing and complicates the maintenance of a node located in a remote place.

A further drawback is the design of the backstop fastening on the side walls of the bed: significant forces transmitted by the spacer plate to the back stop cause the backstop body to deflect and, as a result, bending moments to appear on the side walls of the bed, which requires or increases the area of the support surface of the beam when it fixing on the side walls of the crusher, or strengthening the side walls, weighting and complicating the design. Welding the yoke to the side walls complicates the machining of the bed, joining the yoke to the side walls using fasteners complicates and increases the cost of the structure.

A further disadvantage is the lack of the necessary means to divert the movable cheek, for example when replacing the spacer plate. All operations are performed using a crane.

The closest in technical essence is a jaw crusher containing a bed with two side walls, between which there is a movable cheek mounted on an eccentric shaft, resting on its lower part on a spacer plate connected to a back stop made in the form of a movable cross-beam, the two supporting ends of which are installed with the ability to move in the respective windows of the side walls of the bed and their fixation interacting with the wedge mechanism, a hydraulic cylinder, a set of gaskets for adjusting the width of the gap and ayuschee device in the form of rods with a spring (US Pat. US №4783013, 241-219, appl. 22.08.1988, publ. 11.08.1988).

The supporting ends of the movable traverse are placed in rectangular guides mounted in windows on the side walls of the bed. The rails also have shims in contact with the end of the movable yoke and fixed against falling out by bolts. The upper surface of the traverse is beveled and interacts with the wedge mechanism of fixation of the traverse. The movement of the traverse and the wedge mechanism is carried out by hydraulic cylinders, the rods of which are pivotally connected by means of a two-shouldered lever with the supporting ends of the movable traverse and a fixing wedge. After installing the set of adjusting gaskets required for the selected slot width, the crosshead moves with the hydraulic cylinder all the way to the gaskets, and the same hydraulic cylinder moves the wedge, fixing the position of the crossarm in the guide, since the ratios of the shoulders of the two shoulders of the knee-lever mechanism are selected so that the crosshead begins to move first , and after its stop the wedge begins to move. The traverse moves to release the set of gaskets in the reverse order.

A disadvantage of the known design of the jaw crusher is that the fixation of the end position of the crosshead can occur prematurely, before the selection of all gaps. The reason for this is the increased resistance to the movement of the beam, for example, due to the non-flatness of the gaskets of small thicknesses, frozen grease, dusty lubricating surfaces. As a result, in the presence of significant shock loads, this causes increased wear of the mating parts.

Another disadvantage is the design of the mechanism for fixing the beam. The selected kinematic scheme for moving and wedging (fixing) the traverse at the end of its course assumes a wedge angle of about 10 °, which provides a fairly reliable fixation, but when wedging, in the absence of ideal conditions and surface lubrication, in some cases the hydraulic cylinder effort is not enough, and the wedge have to knock out.

The next disadvantage is the decision at the location of these hydraulic cylinders - on the outer sides of the side walls of the bed, which shifts the line of application of the forces acting from the beam to the bed relative to the center of the section of the bearing side walls of the bed. This makes it necessary to use powerful ribbing on the side walls, which makes the design heavier and more expensive.

A further disadvantage is the need to install an additional hydraulic cylinder to divert the movable cheek, for example, when replacing the spacer plate. For the duration of the machine, this hydraulic cylinder must be dismantled again. This complicates maintenance and increases the cost of construction.

The objective of the present invention is to create a crusher of higher reliability, which allows to improve operating conditions and having a simpler design.

The problem is achieved in that in a jaw crusher containing a bed with two side walls, between which there is a movable jaw mounted on an eccentric shaft, resting on its lower part on a spacer plate connected with a back stop made in the form of a movable cross-beam, two supporting ends of which are installed with the possibility of movement in the respective windows of the side walls of the bed and their fixation interacting with the wedge mechanism, a hydraulic cylinder, a set of gaskets for regulating the width of the exit slit and a traction device in the form of a traction with a spring, according to the invention, each supporting end of the movable yoke is installed between two segments located in cylindrical windows in the side walls of the bed, the bases of which are angled to each other, and the supporting surfaces of the movable yoke in contact with the bases of the segments, tilted relative to each other, shims are installed in the gap between the upper segment and the upper supporting surface of the movable beam, the hydraulic cylinder is placed between the side and the walls of the frame above the movable traverse and is connected by a detachable articulation to the rear surface of the movable cheek, and a ledge interacting with the movable traverse is made on the traction of the locking device. The angle of inclination of the upper bearing surface of the movable beam to the lower surface is 30 ± 5 °. The detachable articulated connection of the hydraulic cylinder with the rear surface of the movable cheek is made in the form of a cylindrical stop interacting with each other, mounted on the threaded rod of the hydraulic cylinder perpendicular to its axis, and a half-cylindrical stop fixed on the rear surface of the movable cheek.

Such a constructive implementation of the jaw crusher will improve reliability and improve operating conditions due to:

- eliminating the possibility of a premature stop and the beginning of fixing the traverse when it is pressed to the adjusting gaskets due to a change in the kinematic diagram of the fixing unit, namely the exclusion of the two shoulders lever and the wedge brought by it, used in the prototype;

- elimination of the possibility of jamming at the moment of wedging of the fixing unit during the removal of the beam, due to the fact that the interacting wedge surfaces of the beam are made at an angle of 30 ± 5 ° to each other. As the angle of inclination decreases, the forces acting on the supporting surface of the cylindrical bore in the side wall of the bed increase, which requires an irrational increase in the strength of the side wall. With an increase in the angle of inclination, the thickness of the set of shims increases and the area of the contact surface that transfers the force to the upper segment decreases, which worsens the operating conditions.

In addition, the use of both the traverse and the removal of the movable cheek of the same hydraulic cylinder associated with the movable cheek with a quick-connect hinge will simplify the design of the jaw crusher.

To explain the invention, a specific embodiment of the invention is provided below with reference to the accompanying drawings, in which:

Figure 1 - shows a jaw crusher, a longitudinal section.

Figure 2 is the same, a General view in isometry.

The jaw crusher consists of a bed 1 with a front wall 2, on which a fixed cheek 3 is mounted, and two side walls 4, between which a movable cheek 6 mounted on an eccentric shaft 5 is located, resting the lower part on a spacer plate 7 connected with a back stop made in the form of a movable traverse 8, two supporting ends 9 of which are mounted to move between two segments 10 and 11, mounted in cylindrical windows 12, made in the side walls 4 of the bed 1. The bases of the segments 10 and 11 are located under angle to each other, while the supporting surfaces 13 and 14 of the movable beam 8 interacting with them are inclined at an angle of 30 ± 5 ° relative to each other. To fix the movable beam 8 when the crusher is operated with the beam 8, a rod 15 is connected with a nut 16, passed through an arm 17 fixed to the side wall 4. Gaskets 18 for adjusting the width of the exit slit 19 are installed in the gap between the upper segment 10 and the upper bearing surface 13 of the movable traverse 8. Behind the movable cheek 6 between the side walls 4 of the frame 1 above the traverse 8, a hydraulic cylinder 21 is pivotally mounted on the axis 20. A cylindrical stop 22 is fixed at the threaded end of the hydraulic cylinder 21 with an axis perpendicular to the axis of the hydraulic cylinder 21 . On the rear surface of the movable cheek 8, a semi-cylindrical stop 23 is fixed, which interacts with the cylindrical stop 22. When closed, the stops 22 and 23 form a detachable articulation of the hydraulic cylinder 21 and the movable cheek 8. On both sides of the trunnions of the hydraulic cylinder 21, springs 24 are contacted with the cylinder body 21 and allowing you to set its initial position with the necessary slope to ensure reliable entry of the cylindrical stop 22 in the half-cylindrical stop 23.

The lower part of the movable cheek 6 is pivotally connected to the locking device in the form of at least two rods 25 with a spring 26, each of which is passed through an arm 27 mounted on the lower side of the beam 8. The rod 25 is provided with a stop 28 spaced from the supporting plane of the bracket 27 at a distance "Z" exceeding the stroke of the rod 25 when moving the cheek during operation of the crusher.

Crusher works as follows.

The material to be crushed is fed into the working space between the fixed 2 and movable 6 cheeks. When the eccentric shaft 5 rotates, the movable cheek 6 oscillates, crushing the material. The closing device by springs 26 through the rods 25 returns the movable cheek 6 when it moves away from the stationary cheek 3.

To adjust the width of the exit slit 19, it is necessary to move the traverse 8, and therefore the spacer plate 7 resting on it, to a new position by changing the number or thickness of the shims 18. To do this, loosen the nuts 16 on the rods 15, close and lock the axle 21 with the cylinder the stops 22 and 23, having formed an articulation of the hydraulic cylinder 21 with the movable cheek 6, and with the continuation of the move, move the movable cheek 6 in the direction of decreasing the output slit 19. In this case, the rods 25 of the locking device begin to move, choosing I have a clearance of "Z". When the stops 28 of the supporting plane of the brackets 27 of the link 25 are touched, the beam 8 begins to move the beam 8, opening the gap between the upper bearing surface 13 of the beam 8 and the upper segment 10. After changing the set of shims 18, the hydraulic cylinder 21 is turned on and the stroke of the movable cheek 6 is transmitted, transmitting force through the spacer plate 7, move the traverse 8, tightly pressing it to the upper segment 10 through a set of gaskets 18, after which this position is fixed by means of the rods 15 and nuts 16 against the brackets 17. Having disengaged the stops 22 and 23, the hydraulic rod is retracted ilindra 21 to its original position, releasing the gap between end stop 22 and the movable cheek 6, excess free wheeling movable jaw 6 in this place.

After installing a new size of the output slit 19, the crusher can continue to work.

The proposed jaw crusher in comparison with the known has a higher reliability, less complex design.

Claims (3)

1. A jaw crusher containing a bed with two side walls, between which there is a movable cheek mounted on an eccentric shaft, resting on its bottom with a spacer plate connected to a back stop made in the form of a movable cross-beam, the two supporting ends of which are mounted to move in the corresponding the windows of the side walls of the bed and the interaction with the wedge mechanism of their fixation, a hydraulic cylinder, a set of shims for adjusting the width of the exit slit and a closing device in the form of yags with a spring, characterized in that each supporting end of the movable traverse is installed between the two segments located in the cylindrical windows of the side walls of the bed of the base, the bases of which are located at an angle to each other, while the supporting surfaces of the movable traverse in contact with the bases of the segments are inclined relative to each other , shims are installed in the gap between the upper segment and the upper abutment surface of the movable beam, the hydraulic cylinder is placed between the side walls of the bed above the movable beam and releasably connected hinge joint on the rear surface of movable cheeks and to thrust the locking device is formed ledge cooperating with a movable crosspiece. 2. A jaw crusher according to claim 1, characterized in that the angle of inclination of the upper bearing surface of the movable beam to the lower is 30 ± 5 °. 3. The jaw crusher according to claim 1, characterized in that the detachable articulation of the hydraulic cylinder with the rear surface of the movable cheek is made in the form of a cylindrical stop interacting with each other, mounted on the threaded rod of the hydraulic cylinder perpendicular to its axis, and a semicylindrical stop fixed on the rear surface of the movable cheeks.

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