SU1251944A1 - Cone-type crusher - Google Patents

Description

2. A crusher according to claim I, characterized in that the angle between the axis of the crusher and the axis of the movable grinding cone is determined from the ratio

TiH- G, P,

where is the angle between the crusher axis and the axis

rolling crushing cone; - y, - an angle between an axis additional

eccentric and axle crusher; Y - the angle between the axis of the main eccentric and the axis of the crusher.

3. Crusher according to claim 1, characterized in that the ratio of the gear ratio of the additional extract to the gear

one

The invention relates to fractional devices, namely, cone crushers used in the mining, mining, mining and metallurgical and building industries.

Cone fragments are known in which the movable cone is located in a fixed housing and is located between two bearings or a cantilever supported by a spherical bearing. In most cases, the cone axis is inclined to the crusher axis and rotates around it, describing the conical surface. In crushers with a rigid kinematic connection, the rotation of the axis of the cone is carried out by an eccentric drive. Due to the deviation of the coius axis from the crusher axis during rotation of the eccentric mechanism, the working surfaces of the cone approach the surface of the bowl, characterized by the stroke of the points located on the surface of the cone, which ensures the crushing of crushed material, their deformation and destruction. The stroke of the points located on the surface of the cone is proportional to the angle between the axes of the coius and the crusher and the distance from them to the center of oscillations of the cone, located at the intersection point of the axes of the cone and crusher | 11.

To increase the efficiency of operation of cone crushers, the change in the motion of the coius is made by replacing the eccentric mechanism with another, providing a royal change in the angle between the axes of the cone and the bowl. However, such changes are associated with stopping and disassembling the crusher and cannot be used to improve the efficiency of the crushers in the process.

the number of the main eccentric opreiz ratio

iiп

- i GP%

tjiHj.

gear ratio additional eccentric;

gear ratio of the main eccentric;

frequency of rotation of the drive shaft of the gearing of the additional eccentric;

frequency of rotation of the main eccentric drive shaft;

coefficient equal to any periodic fraction.

five

0

five

five

their operation and for operational control of the crushing process.

By its technical essence, the closest to the invention is a cone crusher, comprising a housing, a supporting bowl of a movable grinding cone with a shaft housed in an eccentric connected to a drive shaft | 21.

A disadvantage of the known construction is that the change of the angle of inclination of the axis of the cone is carried out by shifting and turning the difference of the sleeve in the cylinder bore of the eccentric mechanism, which is possible only after stopping and disassembling the crusher.

The aim of the invention is to increase the efficiency of crushing in a cone crusher by communicating additional vibrations to the moving cone.

This goal is achieved by the fact that in a cone crusher comprising a housing supporting a thicket of a movable crushing cone with a shaft housed in an eccentric connected to the drive shaft, the shaft of the movable cone is provided with an additional eccentric located and boring the main eccentric and kinematically connected to the auxiliary drive gear meshed with the drive shaft, the angle between the axis of the crusher and the axis of the movable grinding cone is determined from the ratio

G, -NU: Wo U1-U1,

where u is the angle between the crusher axis and the axis

movable shotgun coius;

 At the angle between the axis of the additional

eccentric and axle crusher.

the angle between gh.-ocmofiiior about - ccUCHTf) HKrl and (QYU (UDNIZHMO about LRMB mnm cone), and the ratio between the first and the last logistic number; iii;

tt

""

"one

gle i-i-transfer number of additional eccentric; i-j - the main reproductive number

eccentric;

nj is the frequency of rotation of the gear box of the gearing of the semopolitical eccentric; Hj is the frequency of dyeing of the shaft of the main eccentric; m is a coefficient equal to any periodic fraction.

FIG. 1 shows a conical lobilka, a common fork; in fig. 2 - diagram of the eccentric crusher of the crusher; in fig. 3 shows the layout of the axes of the main knots of the crusher; in fig. 4 - 6 - kinematic diagrams of an eccentric drive from one engine.

The cone crusher comprises a housing I fixed to the housing 1 fixed 4aujy 2 with a damping unit 3 and adjusting the discharge opening 4. movable cone 5 with shaft b, prince 7 containing outer 8 and inner 9 eccentric mechanisms.

The external eccentric mechanism 8 contains a cylinder 10. movably mounted in the half-dollars of crusher body II, drive gear 12, rigidly fixed to cylinder 10, drive shaft 13 with gear 14, connected to engine 15. In cylinder 10, an external eccentric gear 8 is eccentric and obliquely made hole 16.

The internal eccentric mechanism 9 also contains a cylinder 17 movably mounted in bearings 18 of the aperture 16 of the cylinder 10 of the external eccentric mechanism rigidly attached to the cylinder 17 | test () nude 19, the intermediate shaft - cylinder 20 with gears rigidly connected to it 21 and 22, a drive shaft 23 with a gear 24, a joint (en; 1 st with an engine 25. In the cylinder 17 of the internal eccentric mechanism 9, an orifice 26 is eccentrically and tapered, in which the shaft 6 of the movable cone 5 is movably mounted in bearings 27.

The holes 16 and 26 in cylinders 10 and 17 of the external and internal eccentric mechanisms 8 and 9 are made such (), i 11) M, Ch1O, their longitudinal axes of the feather; sekayup with oi new crushers at one point, ilikhsig iu ii | iiiM swings of a cone 5.

. | (c n (f) H (l yk; 1l; | and |

lilHMI h l il 1-

ten

csitrippio (I fur; ki M; | S, ri ,.) i. on, K) Kopiiyc;) I and 4; i (iiH L. 29 I b (yu.sh.-).

5 HOIO CONUG,) 5 with N.ChLOM D). ; if) and,;, (ifl. inil

PIA CMLINL 1; | 17 VN TRGKNSGP-Kl il -M)

O) D (1 mechanism; .31sin.i it; +; and axes -)

and 28. early fg-, 32 i). i t; t. . (n mi, iO and 2I, early y ,; LL yro.i mei -,. 1 (h mi .3 (1 and 2. equal to jTj, 31uoHip. -IIDIH.

The angle between the axis of the cpius and (x rc. Spb.) Is not permissive, i.e., PP (onst, but underestimated from the opening position of the holes with 15 eccentric mechanisms.

Fla FIG. 4, as an option, rifMfi .r; in, boiling mill schemes ;, 7. (1G) | 1.1ki with dpm, eccentric mashhm; m, 1i and I and from the full engine 1G). 1) and PIM KMIII M; IIH ches c h s engine 15 (nl iicht capture;) iocre iCTFHiM flexible, maprimo |), remcic / s perglachi 35 (fig. 4) or cher. rg / pktor 36 ((fiMf. 5), where the lujinofiCH rigged with the output shafts 37 and ZZH, Ki) ri) | ii, ir CIH: - linens, respectively, with the front wheels 5 and 13 and 23 of the outer and the pyotrenic centric mechanisms 8 and t

 FIG. 6 1 ppl, kine; , h is the scheme of the internal internal ec1 isngrikpioi fur) isism 9, in which the nus I: ini- linra 17 kinematically simulated, r PR, 0 with germanium 21, B1 1 filled with fiH i iieiniir, clasped and rigidly with (; elin11111) th pi niiMr-.f.M 10 external eccentric mechanical cone a Cone crusher;) Gk) t; ich gkkml pi.; obrlzom.

The eccentric eccentricity (1riP (LIENTS to the movement from lipapm ii connected) and.; And the black (ipkuyu perp 35 or through the editor, v; with driving Ba. Iu.M 13, vrashershe n K ( 4f)) () i, i fly over the H1 of the stern 1-1 and 12 to shit.m. 0 RU 10, the axis of which is rotated 28 which is e (inii;); ai g with the axis of the casing 1. With the rotation of the cylinder 10 around baseline 28 times mixed ti from the mercy of l (i cylinder 17 of the internal expengriche mechanism. 9 makes a circle with a spiral around the axis 28, while the axis, U) iuM; i; i.ifia 17 describes around the axis 28 to ich ( h kuy beer.pchnost.

Internal eccentric fur fin - .i 9

set in motion from DAYS / Athe .: i:.;

nln from the engine 15 through nif KVKi and; (la chu 35 or gearbox 36, weighed ,,; part 1 by a wave shaft 23, rotation from Koiopi and) hours are shifted through gears 2-) and J. J. Cr. or -, exact shaft-cylinder 20 and iiiri-M; iHh L and 19 to the cylinder 17.

With the rotation of the cylinder 1 ich; |: lino, .i

eccentric mechanism 9 .la.i i ..;: iH.HOI .. :) cone 5, a smth., .., 4ii:.

bore 26 of the cylinder 17. ei ..;. u h.px

govuy movement, when oi J l K.IUV.-, ..

describes around the axis 30 a conical surface.

The simultaneous rotation of two eccentric mechanisms moves the axis 29 of the cone 5 around the axis of the crusher 28 along a complex trajectory — a circular sinusoid, and the angle Y between the axis 29 of the cone 5 and the axis 28 of the housing 1 and the bowl 2 varies from Y, 4- y, do y - y, i.e. G, + Gg UO G, - L

The points of the working surface 39 of the rolling cone 5 reciprocate at a variable speed and with an amplitude proportional to the distance from them to the center 34 of the swings of the cone 5 and the actual value of the angle 31 (Y,) between axes 28 and 29 of the housing 1 and cone 5 crusher. The frequency of rotation of the internal eccentric mechanism 9 is chosen higher than the frequency of rotation of the external eccentric mechanism 8, this ensures uniform wear of the working surfaces 39 and 40 of the cone 5 and the bowl 2 and increase the reliability of the other rotating crusher units ratio of the gear ratio of the internal eccentric mechanism 9 to the gear the number of external eccentric mechanism 8 is taken to be m times the ratio of the frequencies of rotation of the respective drive motors 25 and 15 or

23 and 13, where m is equal to any periodic fraction.

The technical and economic efficiency of the invention lies in the fact that the cone crusher with drive 7, consisting of internal 9 and external 8 eccentric mechanisms, brings the working surfaces 39 and 40 of cone 6 to the bowl 2 with variable amplitude and variable speed by changing the angle 31 (Y,) both during the time of one revolution of the cylinder 10 around the axis 28 of the crusher body 1, and during the time of one revolution of the axis 29 of the cone 5 around the axis 30 of the cylinder 17. Since the frequency of rotation of the cylinder 17 exceeds the frequency of rotation of the cylinder 10, podvnzhnogo spine 39 of the cone 5 performs additional oscillation which accelerate the degradation process of the clamped pieces of crushed material peredvizheii n contribute to the speed. material along the crushing zone, i.e. Increase crushing efficiency and crusher productivity.

The use of the invention will allow increasing the productivity of cone balers and 20-30%, reducing the fineness of the finished product by 25-40% and, if necessary, reducing the formation of fine-grained fractions, which are wastes in the production of building materials, by 1.5-2.5 times .

five

J6 Yu, J8

J

10 l 6

FIG.

FIG. five

Compiled by Gubarev

Editor V. IvanovaTechred I. VeresKorrektor M. Sharoshi

Order 4559/7 Circulation 582 Subscription

VNIIPI USSR State Committee

Investigation and discovery

1G3035, Moscow. Zh-35, Raushsk nab, d 4/5

Branch PPP "Patent, Uzhgorod, st. Design. four

Claims (3)

I. CONE CRUSHER, comprising a housing, a support cup of a movable crushing cone with a shaft placed in an eccentric connected to the drive shaft, characterized in that. in order to increase the efficiency of the crusher by communicating additional vibrations to the movable cone, the movable cone shaft is equipped with an additional eccentric located in the bore of the main eccentric and kinematically connected to the additional drive by gearing with the drive shaft bj Joint venture 4 4 ^ the exact number of the main eccentric is determined from the relation 2. Crusher according to π. I, characterized in that the angle between the axis of the crusher and the axis of the movable crushing cone is determined from the relation where the angle between the axis of the crusher and the axis of the movable crushing cone; —Angle between the axis of the additional eccentric and the axis of the crusher; at ₂ _ the angle between the axis of the main eccentric and the axis of the crusher. 3. Crusher according to π. 1, characterized in that the ratio of the gear ratio of the additional eccentric to the gearbox where i, is the gear ratio of the additional eccentric; b * is the gear ratio of the main eccentric; —Frequency of rotation of the gear drive shaft of an additional clown; n _x —frequency of rotation of the drive shaft of the main eccentric; m _ coefficient equal to any periodic fraction.