RU2166366C1 - Grinding device - Google Patents

Abstract

FIELD: solid materials and rock grinding equipment. SUBSTANCE: grinding device has housing and grinding plates positioned inside housing and grinding plate moving drive. Drive has crank mechanism and eccentric mechanism. Crank mechanism is positioned for cooperation with upper ends of grinding plates and eccentric mechanism is positioned for cooperation with lower end of grinding plates. EFFECT: increased efficiency by uniform grinding of material due to complex motion of grinding plates. 3 dwg

Description

 The invention relates to the field of grinding of solid materials and rocks, namely to jaw crushing devices, and can be used in various industries for the processing of solid materials with a view to their further application.

 A vibratory jaw crusher is known, including crushing cheeks with self-synchronizing unbalanced vibrators and a suspension made of bearings, inside of which there is a torsion bar mounted in the middle part in the cheek, and at the ends - in levers mounted for movement along the torsion axis (see ed. certificate of the USSR N 328932, class B 02 C 1/02, bul. N 7, publ. 09.11.72).

 In the known crusher crushing cheeks are driven into oscillatory motion by centrifugal force developed by unbalanced vibrators. To maintain self-synchronization of unbalanced vibrators, it is necessary to adjust the rigidity of the elastic system. A disadvantage of the known design is the difficulty of commissioning and low reliability of its operation.

 A crusher is also known, which contains a housing with two external crushing cheeks, two internal cheeks swinging on the common axis of the suspension and a swing drive mounted between the latter (see ed. Certificate of the USSR N 1286282, class B 02 C 23/00, bull. N 4, published on January 30, 87). The drive for swinging the cheeks is made in the form of a pair of synchronized eccentric shafts with crushing rollers on their eccentrics. The inner cheeks are latticed and equipped with movement limiters and crushing lining in the area of interaction with the rolls.

 In the known design of the crusher, it is possible to crush the material of weak fractured rocks, since the cheeks only perform a rocking movement. A disadvantage of the known design is the inability to crush lumpy solid material.

 The closest technical solution to the claimed is a crushing device containing a container equipped with a loading hatch with a lid, an air supply pipe of the transport pipeline (see ed. Certificate of the USSR N 400361, class B 02 C 23/00, bull. N 40, publ. 10/01/73 g.). An unloading device is mounted in the lower part of the tank, made in the form of movable crushing plates with the possibility of oscillatory movement in the horizontal plane by means of a drive, and the nozzles of the air supply and transport piping are located coaxially under the discharge slit of the movable plates. The upper ends of the crushing plates are placed on the axes, and the drive is made in the form of pushers making reciprocating motion.

 A disadvantage of the known design of the crushing device is the uneven crushing of the material.

 The proposed design of the crushing device solves the problem of uniform crushing of the material by creating a complex movement of crushing plates.

 The problem is achieved in that in the known crushing device comprising a housing with crushing plates placed in it and a drive for moving them, according to the invention, the drive for moving the crushing plates is made in the form of crank-connecting rod and eccentric mechanisms, arranged to interact, respectively, first with the upper the ends of the plates, and the second with the lower ends of the plates.

 The implementation of the drive moving crushing plates in the form of crank and eccentric mechanisms leads to the creation of a complex spatial movement of crushing plates, which ensures uniform crushing of the material.

 The invention is illustrated by drawings, where in FIG. 1 shows a crushing device, section; in FIG. 2 is the same, section AA in FIG. 1; in FIG. 3 is the same, section BB in FIG. 1. The drawings have the following numerical designations: 1 - capacity; 2 - loading hatch; 3 - crushing plates; 4 - bracket rigidly mounted on the upper part of the tank 1; 5 - a shaft located in the bracket 4; 6 - clown; 7 - a rod; 8 - a shaft with which one of the ends of the connecting rod 7 is connected; 9 - support; 10 - bracket rigidly mounted on the lower part of the tank 1; 11 - a shaft located in the bracket 10; 12 - eccentric; 13 - support.

 The crushing device consists of a tank 1 with a loading door 2, crushing plates 3 with a drive for moving them. The drive for moving the crushing plates 3 is made in the form of a crank and connecting rod and eccentric mechanisms. The crank drive mechanism includes a bracket 4, rigidly mounted on the upper part of the tank 1. In the bracket 4 is mounted a shaft 5 with an eccentric 6, on which one end of the connecting rod is fixed 7. The second end of the connecting rod 7 is connected to the shaft 8 of the support 9, mounted on the upper end of the crushing plate 3. The eccentric drive mechanism includes a bracket 10, rigidly engaged on the lower part of the tank 1. In the bracket 10, a shaft 11 with an eccentric 12 is installed, the support 13 of which is rigidly fixed to the lower end of the crushing plate 3.

 The crushing device operates as follows.

 The eccentrics 6 of the shaft 5, rotating, lead to the reciprocating movement of the connecting rods 7, which through the supports 9 transmit this movement to the upper ends of the crushing plates 3. At the same time, the shaft 11 with the eccentric 12, rotating, through the support 13 transmits the oscillating movement to the lower ends crushing plates 3. Given that the reciprocating movement of the connecting rods 7 is towards each other, and the eccentrics 12 rotate in opposite directions, the crushing plates 3 make a complex spatial movement, due to which uniform crushing material

Claims (1)

 A crushing device comprising a housing with crushing plates placed in it and a drive for moving them, characterized in that the drive for moving the crushing plates is made in the form of crank-connecting rod and eccentric mechanisms, arranged to interact, respectively, the first with the upper ends of the plates, and the second - with the lower ends of the plates.

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