RU179485U1 - TWO-CHAMBER JAW CRUSHER - Google Patents

Abstract

The utility model relates to the field of mineral processing and can be used in mining, metallurgical, construction and other industries. The objective of the utility model is to increase the functionality of the jaw crusher due to the efficient use of the energy of vibrational movements of the counterweight. This is achieved by the fact that the two-chamber jaw crusher consists of a bed 1, two fixed cheeks 2 and a movable cheek 3, driven by a crank mechanism 7, suspended on an axis 6 between the fixed with cheeks, while a counterweight 4 is fixed in the lower part of the movable cheek. The proposed solution proposes that a screen 4 is used as a counterweight, which is a lattice surface connected to the movable cheek 3 so that the center of gravity of the movable cheek 3 coincides with the center of rotation screen 4.

Description

The utility model relates to the field of mineral processing and can be used in mining and processing, metallurgical, construction and other industries.

Known continuous jaw crusher with a simple swing of the cheek (US Pat. RF invention 2246351, B02C 1/02, published 02.20.2005), consisting of two pairs of fixed and movable cheeks located in the upper and lower tiers. The movable cheeks are suspended on the axles and articulated by means of spacer plates with a bed and connecting rods, driven by an eccentric shaft, and by means of a traction - with a spring providing idling.

The disadvantages of the known crusher are large dimensions, increased energy consumption due to idling of the movable cheeks.

Known two-chamber jaw crusher (US Pat. CN 203508075 U, B02C 1/02, published 02.04.2014), consisting of two cheeks fixedly and rigidly fixed to the frame, two movable cheeks pivotally connected to it, driven by a crank mechanism.

The disadvantages of this design are the presence of unbalanced vibrations of the crusher, which increase the energy consumption for ensuring the swinging of the cheeks, the large dimensions of the crusher and its high metal consumption.

The closest analogue adopted for the prototype is a two-chamber jaw crusher (patent for utility model RU 171292 U1 В02С 1/06, published May 29, 2017), consisting of a bed, two fixed cheeks, a movable cheek, driven by a crank mechanism, suspended between the fixed cheeks on the axis, a counterweight is fixed at the bottom of the movable cheek.

The following features of the prototype coincide with the essential features of the utility model: a bed, two fixed cheeks, a movable cheek, driven by a crank mechanism, suspended between the fixed cheeks on an axis, a counterweight is fixed in the lower part of the movable cheek.

The disadvantage of the prototype is the consumption of a significant part of the energy supplied to the movable cheek, to ensure the oscillatory movement of the counterweight. In addition, the counterweight of the movable cheek does not perform any production function.

The objective of the utility model is to increase the functionality of the jaw crusher due to the efficient use of the energy of the vibrational movements of the counterweight.

This is achieved by the fact that the two-chamber jaw crusher consists of a bed, two fixed cheeks and a movable cheek driven by a crank mechanism suspended on an axis between the fixed cheeks, while a counterweight is fixed in the lower part of the movable cheek. In the proposed solution, a screen is used as a counterweight, which is a lattice surface connected to the movable cheek in such a way that the center of gravity of the movable cheek coincides with the center of rotation of the screen.

The essence of the utility model is illustrated by graphic materials, where in FIG. 1 shows a diagram of a two-chamber jaw crusher.

The two-chamber jaw crusher consists of a bed 1 and two fixed cheeks 2, between which there is a movable cheek 3. In the lower part of the movable cheek, a counterweight is fixed, for example, by a bolt connection. As a counterweight, a screen 4 is used, which is a lattice surface. The movable cheek 3 is mounted on two pivotally-fixed supports 5, mounted on the frame 1 so that the axis of rotation 6 of the movable cheek 3 passes through its center of gravity and coincides with the center of rotation of the screen 4. The movable cheek 3 is driven by a crank mechanism 7 rotated by an electric motor 8 by means of a gearbox 9 and a V-belt transmission 10. The fixed cheeks 2 are equipped with safety adjusting devices 11. Two crushing chambers 12 are formed between the stationary and moving cheeks.

During the operation of the two-chamber jaw crusher, the crushed material, for example ferruginous quartzites, is fed into one of the crushing chambers 12, for example, the left one. The movable cheek 3, rigidly fixed to the frame 1 using a pivotally fixed support 5, under the action of a crank mechanism 7, rotated by an electric motor 8 through a gearbox 9 and a V-belt drive 10, swings from one fixed cheek 2 to another and vice versa. During the reverse stroke of the movable cheek 3, the crushed material is fed into another crushing chamber 12, the right one, and the crushed material from the left crushing chamber 12 is unloaded by gravity into the space under the chamber to the screen 4. The axis of rotation 6 of the movable cheek 3 passes through its center of gravity and coincides with the center rotation of the screen 4. With a continuous supply of crushed material into both chambers of the crusher 12, crushing of the material will occur continuously, and the electric motor 8 will constantly work under the calculated (maximum) load. The presence as a counterweight of the screen 4 on the movable cheek 3 increases the functionality of the jaw crusher due to the efficient use of the energy of the vibrational movements of the screen 4. The adjustment of the size of the crushed material can be done by changing the position of the fixed cheeks 2 using safety-adjusting devices 11.

The proposed utility model allows to increase the functionality of the crusher due to the efficient use of the energy of the vibrational movements of the counterweight, and also makes it possible to classify the crushed material, provides the ability to control the size of the crushed material over a wide range.

Claims (1)

A two-chamber jaw crusher consisting of a bed, two fixed cheeks and a movable cheek driven by a crank mechanism suspended on an axis between the fixed cheeks, while a counterweight is fixed in the lower part of the movable cheek, characterized in that a screen representing a lattice surface connected to the movable cheek in such a way that the center of gravity of the movable cheek coincides with the center of rotation of the screen.

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