RU174625U1 - Jaw crusher - Google Patents

Abstract

The utility model relates to crushers and can be used for grinding materials. The technical result that is obtained from the use of a utility model is to increase the reliability of the design. The jaw crusher includes a housing, fixed and movable cheeks, an eccentric crank drive transmitting the movement of the movable cheek, a spacer plate articulated with the crusher body, and an articulation mechanism for the clearance in the joint containing movable and fixed half supports covering the spigot axle and an elastic a pneumatic cylinder made of an elastic material in contact with a movable half-support on one side and with a crusher body on the other, while an elastic pneumatic cylinder is located between restrictive ribs made integrally with the movable poluoporoy, wherein the size of the bounding edges and the cylinder are connected by the relation h = 0,6-0,9d, where h - height of the restrictive ribs; d is the diameter of the generatrix of the circumference of the cylinder.

Description

The utility model relates to jaw crushers and can be used to grind materials.

Known jaw crusher, comprising a housing in which an eccentric crank shaft with a drive is attached, pivotally connected to a connecting rod made integral with the movable cheek. The lower part of the movable cheek through the cracker abuts against a spacer plate, which at the other end is pivotally attached to the housing. The movable cheek is pressed against the spacer plate by a locking mechanism consisting of a rod pivotally attached to the movable cheek and a coil spring, which ensures that the finger of the rod is constantly pressed against the movable cheek clip in the direction of the spring action. A fixed cheek is also attached to the body (see Klushantsev B.V., Kosarev A.I., Muizemnek Yu.A. Drobilki. - M. Mechanical Engineering, 1990, p. 50, Fig. 2.17).

A disadvantage of the known crusher is the low reliability of the structure due to the presence of a gap in the articulation of the thrust — a housing in which, due to the complex movement of the movable cheek, constant contact of the elements in the direction of movement of the movable cheek is perpendicular to the spacer plate, which causes significant wear of the contact movable ones relative to each other friend items.

The closest known technical solutions to the claimed one is a jaw crusher containing a housing, a fixed and movable cheeks, an eccentric crank drive transmitting movement of the movable cheek, a spacer plate articulated with the crusher body, a locking mechanism consisting of a spring and a rod articulated with movable cheek, and a clearance sampling mechanism in the joint of the movable cheek with the thrust, containing the movable and fixed half supports covering the thrust finger, and an elastic pneumatic toroid, are made of elastic material covering poluopory, the resilient pneumatic toroid is located between the restriction ribs made integrally with poluoporami, wherein the size of the bounding edges of the toroid and are related by h> d, where h - height of the restrictive ribs; d is the diameter of the generatrix of the circumference of the toroid, and b = d, where b is the distance between the bounding ribs (RF Patent No. 2318599, CL B02C 1/04, filed 09.10.2006).

A disadvantage of the known solution is the low reliability of the structure due to the presence of a gap in the hinge joint of the housing — the spacer plate, in which, due to the complex movement of the movable cheek, the contact of the elements in the perpendicular spacer is not ensured in the direction of motion of the movable cheek, which causes significant wear of the contacting movable relative to each other's elements. Also, the drawbacks of the mechanism for selecting gaps with an elastic element in the hinge of the movable cheek - rod are drawbacks, which are large in size, since the elastic element, made in the form of a pneumatic toroid, covers the antifriction sleeve along the entire diameter, while only that part of the elastic element works , which is in contact with the movable semicircle, and the height of the bounding ribs is greater than the diameter of the circumference of the toroid.

A device for sampling gaps, which is an elastic element made in the form of a pneumatic cylinder (see RF patent No. 2453371, class B02C 4/00, application. January 31, 2011), which provides contact movable relative to each other hinge elements in all directions . However, due to the small intrinsic circular frequency of oscillations, which depends on the stiffness of the elastic element, during acceleration and braking in the mechanical system with such a device, a resonance phenomenon may occur, which leads to a sharp increase in dynamic loads acting on the elements of the mechanical system and a decrease in its durability .

A device for sampling gaps, which is an elastic element made in the form of a pneumatic sphere (see RF patent No. 2144467, class B30B 1/26, application. 02.18.1998), which provides contact of the hinge elements moving relative to each other, pressing only the moving half-ring to the trunnion, however, the rigidity of the spherical device has a nonlinear dependence on the value of the external force.

The objective of the utility model is to increase the reliability of the jaw crusher.

The essence of the utility model lies in the fact that in the known jaw crusher comprising a housing, a fixed and movable cheeks, an eccentric crank drive transmitting the movement of the movable cheek, a spacer plate articulated with the crusher body, and a joint clearance mechanism containing movable and stationary half-supports, covering the spigot pin, and an elastic pneumatic cylinder made of an elastic material in contact with the movable half-support on one side and with the crusher body on the other, In this case, the elastic pneumatic cylinder is located between the restrictive ribs made integral with the movable half-support, the dimensions of the restrictive ribs and cylinder being connected by the ratio h = 0.6-0.9d, where h is the height of the restrictive rib; d is the diameter of the generatrix of the circumference of the cylinder.

The difference between the proposed device and the known one is that in the clearance sampling mechanism, an elastic pneumatic cylinder made of an elastic material is located between the restrictive ribs made integral with the movable half-support, and the dimensions of the restrictive ribs and cylinder are related by the ratio h = 0.6-0, 9d, where h is the height of the bounding rib; d is the diameter of the generatrix of the circumference of the cylinder.

, где p₀ - величина избыточного давления внутри цилиндра;

- длина пневматического цилиндра, большую, при прочих равных условиях, чем жесткость упругого пневматического цилиндра с неограниченной тангенциальной деформацией

(см. приложение). Следовательно, собственная круговая частота у цилиндра с ограниченной деформацией также больше, что препятствует возникновению явления резонанса при разгоне и торможении дробилки, то есть на переходных режимах. Жесткость упругого элемента, выполненного в виде пневматического цилиндра, можно регулировать за счет изменения значения величины избыточного давления внутри цилиндра, используя любую известную систему пневморегулировки (см., например, А.С. №1113605, Кл. F16F 9/50, заявл. 03.02.81).The design of the sampling mechanism of the gap containing an elastic element made in the form of a pneumatic cylinder located between the restrictive ribs has rigidity

where p ₀ - the amount of excess pressure inside the cylinder;

- the length of the pneumatic cylinder, greater, all other things being equal, than the stiffness of an elastic pneumatic cylinder with unlimited tangential deformation

(see Attachment). Therefore, the natural circular frequency of a cylinder with limited deformation is also greater, which prevents the occurrence of resonance during acceleration and braking of the crusher, that is, in transient conditions. The stiffness of an elastic element made in the form of a pneumatic cylinder can be adjusted by changing the value of the overpressure inside the cylinder using any known pneumatic control system (see, for example, AS No. 1113605, Cl. F16F 9/50, application 03.02 .81).

In FIG. 1 shows a jaw crusher; in FIG. 2 - breakout A in FIG. one; in FIG. 3 is a section AA in FIG. 2.

The crusher consists of a housing 1, in which an eccentric crank shaft 2 is mounted, pivotally connected to a connecting rod 3, made integral with the movable cheek. A spacer plate 4 is fastened to the connecting rod 3 in its lower part, pivotally fixed to the housing 1 by the other end. The locking device consists of a rod 5 and a spring 6, the tension of which is regulated by a nut 7. A fixed cheek 8 is also attached to the housing 1. In the upper part of the housing 1 there is a loading window 9, and at the bottom - a discharge window 10.

To select the gap in the articulation of the spacer plate 4 with the housing 1, consisting of a fixed half support 11, rigidly fixed in the housing 1, a movable half support 12 and a pin 13, rigidly connected to the pressure plate 4, a mechanism is provided, which is an elastic pneumatic cylinder 14 made of an elastic material, for example, rubber, located between the movable support half 12 and the housing 1, and constantly pressing the movable support half 12 to the pin 13. On the support 12 made restrictive ribs 15, the distance between which is equal to the diameter py generatrix of the cylinder circumference in the undeformed state.

Crusher works as follows. When the eccentric crank shaft 2 rotates, the movement from it is transmitted to the movable jaw 3. The gap in the joint of the spacer plate 4 with the housing 1, consisting of the floor of the supports 11 and 12, as well as the pin 13, is constantly selected due to the action of the elastic element 14 on the movable half support 12. Crushable material enters through the loading window 7 into the crushing chamber formed by the movable and stationary cheeks 4 and 6. The finished product is removed through the discharge window 8.

The size of the bounding rib 15 is characterized by its height h. Its values are defined as follows. To prevent bulging of the pneumatic cylinder under the action of an external force outside the bounding rib, it is necessary to fulfill the condition that the height of the rib h is more than half the diameter of the cylinder d.

To ensure guaranteed contact along the plane between the surface of the housing 1 and the pneumatic cylinder 14, the height of the ribs h must be less than the diameter of the generatrix of the circumference of the cylinder.

That is, the dimensions of the bounding rib and cylinder are related by the relation h = 0.6-0.9d, where h is the height of the bounding rib; d is the diameter of the generatrix of the circumference of the cylinder.

Thus, the use of the proposed device prevents the occurrence of resonance during acceleration and braking of the crusher and increases its durability.

Claims (1)

A jaw crusher comprising a housing, fixed and movable cheeks, an eccentric crank drive transmitting the movement of the movable cheek, a spacer plate articulated to the crusher body, and a joint retraction mechanism containing movable and fixed half supports covering the spacer axle and an elastic pneumatic an element made of an elastic material in contact on one side with a movable half-support, and on the other with a crusher body and located between the restrictive ribs made integral with the movable poluoporoy, characterized in that the dimensions of the pneumatic elastic element formed as a cylinder and the edges are related by limiting h = 0,6-0,9d, where h - height of the restrictive ribs; d is the diameter of the generatrix of the circumference of the cylinder.

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