RU227063U1 - Double chamber jaw crusher - Google Patents

Abstract

The utility model relates to jaw crushers and is intended for crushing lump materials; it can be used in metallurgical, construction and other industries. A two-chamber jaw crusher contains a body, a movable jaw driven by a crank mechanism, which is made in the form of a double-armed lever resting on an intermediate hinge mounted on the body, the lower arm of which is pivotally connected by means of intermediate connecting rods to two lateral movable jaws secured by their upper partly hinged on the body. The technical result consists in expanding the technological capabilities of the device, which makes it possible to change the size of the gap between the jaws at the level of the support hinge in the direction of increase, which eliminates jamming of the crushing chamber by the destroyed material, and also allows increasing the productivity of the jaw crusher. 1 ill.

Description

The utility model relates to jaw crushers and is intended for crushing lump materials; it can be used in metallurgical, construction and other industries.

A jaw crusher is known, consisting of a housing, movable and fixed jaws and a drive crank shaft, while the movable jaw performs a rocking motion, the center of which is the center of the jaw suspension axis (see Machines and units of metallurgical plants. Vol. 1. / Ed. A .I. Tselikova. M.: Metallurgy, 1987, p. 73, fig. III.3a).

The disadvantage of the known solution is the small compression stroke in the upper part of the crushing chamber, which leads to unreliable capture and crushing of the material and, consequently, to a decrease in the productivity of the crusher.

The closest of the known technical solutions to the claimed one is a two-chamber jaw crusher containing a housing, two fixed jaws and a movable jaw driven by a crank mechanism, which is mounted on two hinged-fixed supports mounted on the housing in such a way that the axis of rotation of the movable jaw passes through its center of gravity. (RU No. 171292, IPC V02S 1/06, published 05/29/2017).

The disadvantage of the known solution is the constancy of the gap between the jaws, that is, the size of the crusher discharge slot at the level of the fixed support hinge connecting the movable jaw to the body, which can lead to jamming of the broken piece in the lower part of the crushing chamber and the collapse of the crushing chamber along its entire height.

The technical problem solved by the proposed utility model is to expand the technological capabilities of the device, making it possible to change the size of the gap upward between the jaws at the level of the support hinge, which eliminates jamming of the crushing chamber by the material being destroyed, and also allows increasing the productivity of the jaw crusher.

The existing technical problem is solved by the fact that in a known two-chamber jaw crusher containing a housing, a movable jaw driven by a crank mechanism, according to the utility model, the movable jaw is made in the form of a double-arm lever resting on an intermediate hinge mounted on the housing, while the lower The arm of the double-armed lever is pivotally connected by means of intermediate connecting rods to two lateral movable cheeks, which are hingedly attached to the body by their upper part.

The technical result obtained from the use of the utility model is to expand the technological capabilities of the device due to the fact that the movable cheek, driven by a crank mechanism, is made in the form of a double-arm lever, fixed to the body using an intermediate hinge, and hingedly connected by the lower arm by means of intermediate connecting rods with movable side cheeks, it allows you to change the size of the gap upward at the level of this hinge, which eliminates the possibility of jamming of the crushing chamber with the destroyed material, and as a result leads to an increase in the productivity of the jaw crusher.

The drawing schematically shows the proposed two-chamber jaw crusher.

The crusher consists of a housing 1, with a crank 2 installed on it, driven by an electric motor (not shown). The crank 2 is pivotally connected to the drive connecting rod 3, pivotally connected to the movable cheek 4, made in the form of a double-arm lever resting in the lower part on an intermediate hinge 5 mounted on the body 1, while the lever 4 has the ability to rotate relative to the hinge 5. The lower arm of the double-arm lever 4 is pivotally connected by means of intermediate connecting rods 6 to two lateral movable cheeks 7 and 8, which are hingedly fixed by their upper parts to the body 1.

In the upper part of the housing 1 there is a loading window 9, and in the lower part there is an unloading window 10.

The device operates as follows.

A piece of crushed material is fed through the loading window 9 into one of the crushing chambers, for example, chamber I, into the crushing zone. When crank 2 rotates, the movement from it through the connecting rod 3 is transmitted to lever 4. Lever 4 swings with its upper arm towards the side cheek 7 and crushes the piece. At the same time, the lower arm of the lever 4 moves in the opposite direction and pulls the cheek 7 through the intermediate connecting rod 6, compressing and destroying the crushed material in the lower part of the cheek 7, while the gap in the horizontal plane at the level of the support hinge 5 decreases.

During the movement of the upper arm of the lever 4 towards the cheek 7, chamber II opens and another piece is fed into it.

During the reverse stroke of the connecting rod 3, the lever 4 with its lower arm, through the intermediate connecting rod 6, moves the cheek 7 away from the support joint 5, while the gap in the horizontal plane at the level of the support joint 5 increases and the crushed material is removed through the unloading window 10, and the lever 4 swings with its upper arm towards the side movable cheek 8 and crushes the piece. Subsequently, the cycle of crushing and unloading is repeated.

Thus, with each swing of the lever 4, the crushing process occurs, eliminating idling, which makes it possible to expand the technological capabilities of the two-chamber jaw crusher, as well as increase its productivity.

Claims (1)

A two-chamber jaw crusher containing a housing, a movable jaw driven by a crank mechanism, characterized in that the movable jaw is made in the form of a double-armed lever resting on an intermediate hinge mounted on the housing, while the lower arm of the double-armed lever is hingedly connected by means of intermediate connecting rods with two lateral movable cheeks, their upper parts hinged to the body.