SU1417917A1 - Roller crusher - Google Patents

Abstract

The invention relates to the technique of crushing various materials in enterprises of the metallurgical, mining and construction industries. The aim of the invention is to provide control of the mode of operation. The crusher consists of a drive na25, la 4 with an eccentric part 5, on which a sleeve with two eccentrics is fitted. On one eccentric of the hub, a gear wheel 16 is mounted, which engages with a ring gear 17 mounted on another eccentric. The gear wheel is resiliently connected with the bracket 2 of the frame 1 by means of elastic rings 20 and 21. The sleeve can be rotated relative to the eccentric part 5 and fixed in a predetermined position. The ring gear 17 is rigidly fixed on the inner surface of the hollow roll of the crusher, which has a lining mounted 25 rotatably on it 25. The crusher contains two under-loaded cheeks, between which there is a hollow roll. 3 yut. and 13 А-А / 24 ////// l // ///////// // 7 //. v M. to 5 FIG. 2

Description

The invention of OTHCICHTCH to devices for the grinding of various materials and can be used in the metallurgical, mining and chemical industries, as well as in the building materials industry. /

The aim of the invention is to provide control of the mode of operation.

Fig. 1 shows the roller crusher offered; in fig. 2 shows section A-A in FIG. one; in fig. 3 - fr a gme nt fi 2 „

Crushing roller mill consists of frame 1 with brackets 2, in which a tubular drive shaft 4 with an eccentric part 5 is mounted with no bearing power 3 and an eccentric sleeve 6 with eccentrics 7 and 8 is mounted on the eccentric part 5, which are offset from each other. The drive shaft 4 can rotate relative to the sleeve 6. The eccentricity value (g, Tg) of eccentrics 7 and 8 relative to the axis of the drive shaft is determined by their location relative to the eccentric part 5 of the drive shaft 4 In different positions, the eccentricities Gu and g are summed or you Read completely or partially with eccentricity rj. By turning the shaft 4 with the eccentric part 5 relative to the hub 6, the eccentricities of the eccentrics 7 and 8 relative to the PTO shaft can be changed. In any position relative to each other, the drive shaft 4 and the sleeve 6 can be rigidly fixed with the aid of a control-. Key coupling, the right-side coupling consists of frictionio 1: one disk 9 attached to the sleeve. 6, and the friction disk 10 connected pivotally to the levers 11, mounted on the drive shaft with a possible; This means that the axes of the arms 11J are located inside the drive shaft 45 in jata with a spring 13, which presses the friction discs I) and 9 to each other, and is pivotally connected to the control link 14.

On the eccentric 7, a gear wheel 16 is mounted on the bearings 15 and engages with a gear ring 17 of a larger diameter, mounted on the eccentric 8 with a bearing 18 and rigidly fixed inside the crush roller 19. The gear wheel 16 has rubber rings, internal 20

and external 21, elastically connected to the bracket 2 of the frame 1,

The crushing roll 19 is made eccentric and mounted on the brackets 2 of the frame 1 with bearings 22 and rubber rings 23. Outside the eccentric crushing roll 19 on the sub-, the studs 24 are mounted with the possibility of rotation of the lining 25,

Fractional roller roll 19 with lining 25 is located between crushing jaws 26 suspended on fingers 27 and connected by rods 28 and springs 29 with frame 1. At the same time, crushing chambers B and B are formed between the roller and the crush bar.

The crusher works as follows.

When the motor drives the rotation shaft 4, the gear wheel 16 mounted on the eccentrics 7 and 8, due to the fact that it is fixed in the frame 1 with rubber rings 20 and 21, and the gear ring 17, which is rigidly connected to the crushing roller, begin to make translational movements along circular trajectories m whose center coincides with the center of the drive shaft. The radii of these circular paths are equal to the total eccentricities relative to the axis of the drive shaft of the eccentric part 5 and eccentric 7 and eccentric part 5 and eccentric 8, respectively.

The magnitude of the total eccentricities of the eccentric part 5 and eccentric 7 relative to the axis of the drive shaft 4 folds out of the eccentricity corresponding to the eccentric 7 or 8 of the sleeve 6 and part of the eccentricity of the eccentric part 5 of the drive shaft 4. The total eccentricity is determined by the mutual position of the eccentric part 5 and eccentrics 7 The eccentric part 5 and the eccentric 8, If the directions of the maximum eccentricities of the coupler are completely summed. If directed in opposite directions, t, e. the angle between the maximum values of eccentricities is equal to 180 ° C, 5HPht5Yy Gs, B. Intermediate positions are added only a part of the eccentricity, Pozrachva gfivo.tskoy shaft 4 relative to the sleeve 6 ,, can be summed up

eccentricity GU and eccentricity r or subtract them. If r, then, turning the drive shaft 4 relative to the sleeve 6, you can smoothly adjust the sumarine (e eccentricities (..) and (rg + rg.j-) from zero to some maximum. Here r, f and TCg are eccentric eccentricities 7 and 8, coinciding with the maximum maximum eccentricity of the eccentric part 5.

For each rotation of the drive shaft, the gear wheel 16 runs around the ring gear 17, together with it rotating with

2 (G7 + Glg)

Lovoi speed about ;, -t- - - / d, j.

-itf. Here

IZ angular velocity of the ring gear 17, c; - angular velocity of the drive in al a o

The movement of the ring gear 17, and consequently, the rigidly crushing roller 19 connected to it, is folded out of rotation around the axis of the input shaft 4 with an angular velocity tt and circular translational motion, i.e., oscillations along circular trajectories with a radius (rg + r, jg) about the axis of the drive shaft with an angular velocity jj.

Thus, the proposed device allows varying the total eccentric systems (,, -) and (fg + Tg) to regulate the rotational speed and the amplitude of oscillations of the crushing roll from zero to a predetermined maximum.

The rotation of the drive shaft 4 relative to the sleeve 6, which is necessary to control the magnitude of the total eccentricity of the bearings of the gear wheel 16 and the gear ring 17, is carried out as follows. The control motor, 14, is shifted to the left, compressing the spring 13. In this case, the levers 11 rotate around the axes 12 and the friction dism 10 moves away from the friction disk 9. Then the drive shaft 4 rotates relative to

0

five

0

five

0

five

0

five

sleeve 6 on the same. let's go 1 value. As a result, the total eccentricity (.) And (G + Gd) relative to the axis of the drive shaft changes, after setting the required value of eccentricity, the control rod g 14 moves to the right to its original position and the spring 13 rotates the levers 11, secures the friction disks to each other 9 and 10, fixing a given position of the sleeve 6 relative to the drive 4.

The effect of the application of the proposed device is achieved by universalizing the design, expanding the field of application and increasing the efficiency of the grinding process.

Claims (1)

Invention Formula ; A roller crusher containing a frame, sub-tucked cheeks suspended on it and bearing bearings mounted on it, with which a hollow roll is connected, made with rotatably mounted lining and with a gear rim fixed on its inner surface and shims in engagement with a gear wheel connected by an elastic system to the frame, as well as a drive shaft coaxially passed through the hollow roller with an eccentric part different from that in order to provide s, it is equipped with an eccentric biased two offset relative to each other, mounted on the eccentric part of the drive shaft with the possibility of relative rotation and fixation in a predetermined position, and the ring gear and the gear wheel are hinged on the eccentric of the bushing, with the hollow roller connected to the bearing supports through elastic ring. 26 28 Jv 18 13 / Fi.Z I Compiled by L. Chubukov, Editor V. Bugrenkova Tehred M. Khodanich Corrector M. Sharoshi Order 4093/6 Circulation 582 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 IV Fe / g.1 75 ten