RU178028U1 - CONE CRUSHER - Google Patents

Abstract

The proposal relates to crushing equipment and can be used in the design of cone crushers. The inventive utility model solves the problem of increasing the efficiency of the cone crusher. The cone crusher operates as follows. When the eccentric cup is rotated by means of drive elements, the shaft axis describes a conical surface with a vertex at the point of suspension of the shaft. A movable crushing cone rigidly fixed on the shaft makes circular swings on a spherical surface with a radius, successively approaching the stationary cone and moving away from it, respectively, while crushing and unloading of crushed material occurs. If a crushed body enters the crushing chamber, the size of which exceeds the minimum distance between the cones, the moving crushing cone, acting through the crushed body, lifts the stationary cone together with the support ring. The movement of the support ring will pull the hydraulic cylinder rods. When moving the hydraulic cylinder rods, the liquid from the rod cavity is displaced into the hydraulic accumulator through the hydraulic distributor in the "" position. To eliminate the emergency situation, a check valve is installed in parallel with the valve, through which the liquid will flow into the hydraulic accumulator if, for any reason, the valve is not in the "" position. The supply of fluid from the hydraulic cylinders to the hydraulic accumulator will increase the pressure in it. When the pressure rises above the set value, the signal from the pressure switch will switch to the "b" position, while the piston and rod cavities of the hydraulic cylinder will be blocked, which will provide a pause for free passage of the crushed body through the crushing chamber. After the passage of the indestructible body, the hydraulic control valve switches to the “c” position, and the liquid from the hydraulic accumulator is forced into the hydraulic cylinder, which will press the support ring with the fixed cone to the bed. free passage of an unbreakable body, shorten interruptions in the operation of the crusher caused by the departure of the stationary cone and, ultimately, increase ffektivnost functioning cone crusher.

Description

The proposal relates to crushing equipment and can be used in the design of cone crushers.

Known cone crusher, including a movable crushing cone mounted on a shaft, the lower end of which is inserted into an eccentric cup, a fixed cone mounted on a support ring, a bed and a device for passing an unbreakable body through a crushing chamber, consisting of a system of springs located on the outer perimeter of the bed and worn on bolts that attract the support ring with a fixed cone to the bed [1, p. 117, fig. II.24].

The closest analogue to the claimed utility model in terms of features is a cone crusher, including a movable crushing cone mounted on a shaft, the lower end of which is inserted into an eccentric cup, a fixed cone mounted on a support ring, a bed and a device for passing an unbreakable body through the crushing chamber, consisting of hydraulic cylinders, tightening the support ring with the bed, and hydropneumatic accumulators connected to the hydraulic cylinders through pipelines [2].

A disadvantage of the known cone crushers is the low efficiency of the operation of the crushers, due to the significant number of operations of the device to pass the crushed body due to their short duration, which leads to significant overloads and interruptions during crushing in collisions of the moving crushing cone with the crushed body.

The inventive utility model solves the problem of increasing the efficiency of the cone crusher.

To solve this problem, the claimed utility model contains the following essential features distinguishing from the closest analogue: a device for passing an unbreakable body through a crushing chamber is made with a device operation delay unit in the form of hydraulic valves with a pressure switch and a check valve installed between hydraulic cylinders and hydraulic accumulators.

In contrast to the prototype, the claimed utility model allows, due to a delay in the operation of the device for passing the body to be crushed for the time necessary for free passage (under the influence of its own weight) of the body to be crushed through the crushing chamber, to reduce the load on the cone crusher, to reduce the passage time of the crushed body through the crushing chamber and ultimately, increase the efficiency of the cone crusher.

The essence of the claimed utility model is illustrated by drawings. In FIG. 1 shows a general view of a cone crusher (where 1 is a movable crushing cone; 2 is a shaft; 3 is an eccentric cup; 4 is a fixed cone; 5 is a support ring; 6 is a bed; 7 is a hydraulic cylinder; 8 is a hydraulic accumulator; 9 is a hydraulic distributor), in FIG. 2 shows the hydraulic circuit of the delay unit of the device for passing an unbreakable body through the crushing chamber (where 7 is the hydraulic cylinder; 8 is the hydraulic accumulator; 9 is the hydraulic distributor; 10 is the pressure switch; 11 is the check valve; 12 is the tank).

The cone crusher includes a movable crushing cone 1 mounted on the shaft 2, the lower end of which is inserted into the eccentric cup 3, a fixed cone 4, mounted on the support ring 5, the bed 6 and a device for passing the crushed body through the crushing chamber, consisting of hydraulic cylinders 7, tightening support ring 5 with a bed 6, hydraulic accumulators 8 and a unit for delaying the operation of the device in the form of hydraulic valves 9 installed between hydraulic cylinders 7 and hydraulic accumulators 8 with a pressure switch 10, a check valve 11 and tank 12.

Cone crusher operates as follows. When the eccentric cup 3 is rotated by means of drive elements, the axis of the shaft 2 describes a conical surface with a vertex at the point of suspension of the shaft O. A movable crushing cone 1 rigidly mounted on the shaft 2 makes circular swings on a spherical surface of radius R, approaching and moving away from the stationary cone 4 accordingly, crushing and unloading of crushed material occurs. If a crushed body enters the crushing chamber, the size of which exceeds the minimum distance between the cones 1 and 4, the movable crushing cone 1, acting through the crushed body, lifts the stationary cone 4 together with the support ring 5. The movement of the support ring 5 will pull the hydraulic cylinder rods 7. When moving the rods of the hydraulic cylinders 7, the liquid from the rod cavity is displaced into the hydraulic accumulator 8 through the valve 9, which is in position " a ". To eliminate the emergency situation, a check valve 11 is installed in parallel with the hydrodistributor 9, through which the liquid will flow into the hydraulic accumulator 8 if, for any reason, the hydrodistributor 9 is not in position “ a ”. The supply of fluid from the hydraulic cylinders 7 to the hydraulic accumulator 8 will lead to an increase in pressure in it. When the pressure rises above a predetermined value, the signal from the pressure switch 10 switches the control valve 9 to position “b”, while the piston and rod cavities of the hydraulic cylinder 7 will be blocked, which will provide a pause for free passage of the fragmented body through the crushing chamber. After the passage of the invincible body, the control valve 9 switches to the “c” position, and the liquid from the hydraulic accumulator 8 is forced into the hydraulic cylinder 7, which will press the support ring 5 with the fixed cone 4 to the bed 6.

The installation of a delay unit for the device to pass through the crushing chamber through the crushing chamber will reduce the load on the cone crusher design while ensuring the free passage of the crusher body, reduce the crusher interruptions caused by the departure of the stationary cone 4 and, ultimately, increase the efficiency of the cone crusher.

Thus, the claimed technical solution is a cone crusher, including a movable crushing cone mounted on a shaft, the lower end of which is inserted into an eccentric cup, a fixed cone mounted on a support ring, a bed and a device for passing an unbreakable body through a crushing chamber consisting of hydraulic cylinders, tightening the support ring with the bed, hydropneumatic accumulators and the unit delay unit in the form of installed between the hydraulic cylinders and hydropneumatic accumulators with pressure switch and check valve; ensures the achievement of a technical result, which consists in ensuring the free passage of the crushed body through the crushing chamber by fixing the support ring with a fixed cone, which is in a raised position as a result of the action of a movable crushing cone through the crushed body on it, by means of a device delay unit. This reduces the load on the design of the cone crusher, and shortens the interruptions in the operation of the crusher by eliminating repeated trips of the device to pass the crushed body through the crushing chamber.

Claims (1)

A cone crusher comprising a movable crushing cone mounted on a shaft, the lower end of which is inserted in an eccentric cup, a fixed cone mounted on a support ring, a bed and a device for passing an unbreakable body through a crushing chamber, consisting of hydraulic cylinders that tighten the support ring with the bed, and hydropneumatic accumulators, characterized in that the device for passing an unbreakable body through the crushing chamber is made with a device operation delay unit made in the form of with hydraulic cylinders and hydraulic accumulators of hydraulic valves with pressure switch and check valve.

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