SU636024A1 - Cone crusher - Google Patents

Description

(54) CONIC NO. FUNNEL on a pado-iero shank is shaft-like with a drive sleeve and connected to it by means of a toothed-cutting gear that can be rotated relative to the shank of a working shaft. FIG. 1 shows a prelochen and a cone crusher; on fng. 2 - a device for adjusting the magnitude of the oscillation range of the ground cone; on . 3 - section aa fng. 2; on (ter. 4 section bb phage, 2. The movable cone 1 is mounted on the shaft 2, working with the lower ball bearing. Shaft 2 has an upper shank 3 mounted in an additional eccentric bushing 4 installed concentrically in the drive bushing 5, which The shaft is rotated with the help of textbook shaft 6 from the electric motor (not shown). I adjust the magnitude of oscillations of the shank 3 of the vertical shaft using a conical wheel 7 having a flat slot 8 on the end, which is included in the end slot 9 of the inner part of the hub sleeve 4. The wheel 7 together with the gear wheel 10 form a conical hypoid pair with curvilinear teeth. The gear 10 is not rotatably mounted on the shaft 11 and engages with the zzb of the circular rod 12. The shaft of the rail 12 with the nut 13 and the ball bearing 14 is fixed in the bore of the adjusting flywheel 15, the rail itself is freely installed in the opening of the wheel 7. The flywheel 16 has a threaded thread, which can be used to move the additional eccentric bushing along the vertical axis and 5. Before starting, the crusher regulates the magnitude of the oscillation range of the crusher cone shaft. For this, the adjusting handwheel 15 is rotated counterclockwise, as a result of which it is moved upwards. The round rail 12 also moves upwards, as the axial force is transmitted to it from the flywheel by the trimming shaft 14. The movement of the rail causes the shaft 11 to rotate together with the gear 1O fixed on it. The rotation of the gear wheel causes the bevel wheel 7 to turn, which with its flat spine 8 rotates the additional sleeve 5. As a result, the y axis approaches the X axis and the total eccentric. The drive sleeve is reduced. Therefore, after turning on the electric motor, the vertical shaft 2 and the crushing cone 1 receive slight oscillations. This allows the motor to gain momentum with a small load. This is done by rotating the adjusting flywheel (15 increasing) off. total eccentricity of the sleeve 4 and thereby increase the range of oscillations of the splitting cone. Depending on the nature of the material being crushed, its strength and size, the required eccentricity of the sleeve 5 is established. The material to be crushed enters the crusher's working space 16 through the windows 17, the crushed material comes out of the crusher through openings 18. Shadow cob formula Cone crusher containing mobile a cone, reinforced with a vertical working shaft with a lower support, and an eccentric drive sleeve connected to the shank of the working shaft, located in the center bore of the crosshead, differing In order to reduce the load on the drive when starting the crusher under the obstruction, the crusher is equipped with a device for adjusting the magnitude of the oscillation range of the moving cone, made in the form of an additional eccentric sleeve mounted on the shank of the worker led concentrically with the drive sleeve and connected with it by means of a gear-rack-linking it with the possibility of rotation relative to the shank of the working shaft. Information taken in BHHjMaHHe during examination: 1. Muyzemnek Yu. A, and others. Cone crushers. Engineering, 1970, p. 98-99. 2.Pateet USA Me 310960O, cl. 241-211,1963.

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