RU2636420C2 - Jaw crusher - Google Patents

Abstract

FIELD: mining engineering.SUBSTANCE: jaw crusher includes housing with a stationary jaw, a movable jaw with a lower axis of its swings. In the upper part of the housing there is a swing drive of the movable jaw. On the back of the stationary jaw there is a plate parallel to it. The plate is fitted with strikers. The strikers pass through holes made in the stationary jaw. Each of the strikers has its own drive. The drive provides an impulse-percussion movement of the striker. The drive contains a mechanism for switching on and off depending on the position of the striker relative to the stationary jaw.EFFECT: crushing performance is increased.4 dwg

Description

The invention relates to crushing equipment and can be used in mining and other industries for crushing large-sized and medium-sized rocks.

Known jaw crusher [1], comprising a housing, movable cheeks with a drive and elastic ties. The jaw crusher is equipped with a high-frequency generator with electrodes that are mounted in holes in the cheeks.

A disadvantage of the known jaw crusher is the complexity of its design and high energy consumption, due to the need to use a high frequency generator.

Known jaw crusher [2] containing a movable and fixed cheeks. The movable cheek is equipped with horizontal plates mounted with the possibility of successive bottom-up movement in the direction of the crushing force.

A disadvantage of the known jaw crusher is the need for great efforts when crushing strong rocks, relatively low productivity.

Closest to the essential features of the design of the present invention and taken as a prototype is the known design of the jaw crusher [3], comprising a housing with a fixed cheek, a movable cheek with a lower axis of its swings and a swing drive of the movable cheek mounted in the upper part of the frame.

A disadvantage of the known jaw crusher is low productivity and high energy consumption for the crushing process, due to the fact that crushing is carried out only due to compressive forces, i.e. the most energy-intensive way to destroy materials.

The technical result of the invention is to increase the crushing performance, reducing the compression forces necessary for crushing.

The technical result is achieved by the fact that on the back side of the fixed cheek, a plate is installed parallel to it with strikers mounted in it, passing through holes made in the fixed cheek, each of the strikers has its own drive, providing its impulse-shock movement, and the drive has a mechanism for its inclusion and off depending on the position of the striker relative to the fixed cheek.

In FIG. 1 shows a general view of a jaw crusher. In FIG. 2 shows a general view of a jaw crusher with a pneumatic drive of the strikers. In FIG. 3 is a view A showing the construction of the pneumatic drive of the striker in its initial position. In FIG. 4 is a view B showing the construction of the pneumatic drive of the striker in the position when it is pressed into the through hole of the stationary cheek.

The jaw crusher includes a housing 1 with a fixed cheek 2, a movable cheek 3 with a lower swing axis 4 and a swing drive 5 of the movable cheek 3 mounted in the upper part of the housing 1. The swing drive 5 can be made, for example, in the form of a hydraulic cylinder. The through holes 8 are made in the fixed cheek 2. On the back side 6 of the fixed cheek 2, a plate 7 is installed parallel to it with the strikers 9 mounted therein. The strikers 9 are mounted so that they pass through the through holes 8 of the fixed cheek 2 and protrude beyond the direction of the movable cheek 3. Each of the strikers 9 has its own drive 10, which provides their impulse-shock movement and turns on when the striker 9 is pressed into the hole 8 of the fixed cheek 2 and turns off when the striker 9 returns to its original position.

As the drive 10 of the striker 9, providing its pulse-shock movement, can be used drives of various designs: pneumatic, electric, hydraulic. For example, a pneumatic drive of the impact element of a jackhammer known from the state of the art can be used. Such a drive consists of a housing 11 mounted on a plate 7 opposite the through hole 8 of the fixed cheek 2. The body has a hammer 9, spring-loaded with a compression spring 11 and having a stop 12. The compression spring 11 provides the position of the hammer 9 in which it passes through the through hole 8 fixed cheeks 2, protrudes beyond it. The firing pin 9 is mechanically connected, through a system of levers 13, with a valve 14, which supplies and stops the flow of compressed air into the spool 15 of the drive 10 of this firing pin 9 from the pneumatic line 21 supplied by the compressor 22, depending on the size by which the firing pin 9 protrudes from the through hole 8 of the fixed plate 2 beyond. In addition to the spool 15, the actuator 10 includes a chamber 16, along which a piston 17 moves, providing a pulse-impact effect on the firing pin 9, as well as channels 18 and 19, connecting the right 26 and left 27 parts of the chamber 16 with the spool 15. The camera 16 is in communication with the atmosphere through the channel 20, located in its middle part.

Jaw crusher works as follows. Pieces of rock 23 are fed into the crushing chamber 24, formed by the space between the fixed cheek 2 and the movable cheek 3. Driven by the swing drive 5, the movable cheek 3 makes a swing motion relative to the swing axis 4 located in its lower part, as a result of which there is an approximation and removing the movable cheek 3 to the fixed cheek 2, at which the angle of the crushing chamber 24 changes. As the movable cheek 3 approaches the fixed cheek 2, large pieces of crushed rock 23 are clamped between them, resulting in od action of the internal compression stresses occur chopping them into smaller pieces. When the movable cheek 3 is removed from the fixed cheek 2, the chopped pieces of rock 23 under the action of their own weight move down to the exit slit 25 of the crushing chamber 24, where they again break into smaller pieces. And this happens until the size of the crushed pieces reaches a size sufficient to pass through the exit slit 25 of the crushing chamber 24.

As a result of approaching the movable cheek 3 to the fixed cheek 2, the pieces of rock 23 clamped between them will interact with the strikers 9, pressing them into the through holes 8 of the fixed cheek 2. When the strikers 9 are pressed into the through holes 8 of the fixed cheek 2, the drive 10 will turn on the hammer 9, as a result of which the hammer 9 will perform a pulse-shock movement with a high frequency of impacts, which will have an additional mechanical effect on the pieces of crushed rock 23 and thereby contribute to the intensification of their impact spalling into smaller pieces. The drive 10 of the striker 9 is turned on when the striker 9 is pressed into the hole 8 of the fixed cheek 2 and provides its impulse-shock movement. When the striker 9 returns to its original position, the drive 10 is disabled.

When clogging of the exit slit 25 of the crushing chamber 24 occurs, a pulse-impact action from the side of the strikers 9 located in its vicinity will contribute to the destruction of this clogging layer of rock 23.

The size of the crushed pieces of rock 23 of the conditioned fraction is regulated by setting the width of the exit slit 25 of the crushing chamber 24.

When using as a drive 10 strikers 9 known from the level of development of the technology of pneumatic drive of the shock element of the jackhammer, the work of the strikers 9 will be as follows. When the striker 9 is pressed into the hole 8 of the fixed cheek 2 through the system of levers 13, the valve 14 will open. As a result, the compressed air from the compressor 22 enters the spool 15 along the pneumatic line 21, from where it will be supplied to the right 26 and left 27 through channels 18, 19 part of the chamber 16 and will exit from there through the channel 20. In this case, the piston 17 will quickly move alternately to the left, then to the right side, while striking the striker 9. And the striker 9, in turn, will affect the rock 23 pressed against it by a movable cheek 3. When splitting a piece of rock 23, the strikers 9 will be pulled out from the through hole 8 of the fixed cheek 2 and will take their initial position, while the valve 14 will close through the system of levers 13, as a result of which the compressed air will cease to flow to the spool 15, which will stop the drive 10 With a new press of a piece of rock 23 compressible in the crushing chamber 23 onto the striker 9, the drive 10 of the striker 9 will again turn on.

In the proposed design of the crusher, the jaw impulse and impact from the strikers 9 will be carried out only by those strikers and at that moment when the striker 9 is pressed into the through hole of the fixed cheek 3 with pieces of crushed rock as a result of its pressing by the movable cheek 3 to the fixed cheek 2 .

The proposed design allows to provide, in addition to compressive force, a pulse-impact action by the strikers 9, which will contribute to the intensification of the process of crushing pieces of crushed rock 23. Moreover, the proposed design provides the drive 10 of the strikers 9 in the short-term mode at those times when required to destroy a piece of crushed rock 23, which allows to exclude the operation of the drive 10 in idle mode.

BIBLIOGRAPHY

1. Description of the invention to the copyright certificate SU No. 408649, priority of 02/08/1971, publ. 11/30/1973.

2. Description of the invention to patent RU No. 2045337, priority from 08/02/1993, publ. 10/10/1995.

3. Klushantsev B.V., Kosarev A.I., Muizemnek Yu.A. Crushers. - M., Mechanical Engineering, 1990.P. 3-8.

Claims (1)

A jaw crusher, comprising a housing with a fixed cheek, a movable cheek with a lower axis of its swings and a swing drive of the movable cheek mounted on the upper part of the housing, characterized in that a plate is mounted on the back of the fixed cheek parallel to it, with strikers mounted in it passing through the holes, made in a fixed cheek, each of the strikers has its own drive, providing its impulse-shock movement, and the drive has a mechanism for turning it on and off depending on the position of the striker flax fixed cheeks.

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