RU89982U1 - CONE Inertial Crusher - Google Patents

Abstract

An inertial cone crusher comprising a housing with an outer cone and a spherical support for an inner cone with a shaft on which three unbalances are mounted using a bearing sleeve, the middle of which is mounted with the possibility of circular rotation and fixing relative to other weights and the sleeve, which is equipped with an articulated drive shaft and means for supplying lubricant to the bearing, characterized in that the means for turning the average unbalance are made in the form of a gear wheel fixed to it, paired with a gear pole A shaft mounted on a fixed unbalance, with the possibility of rotation around its axis, while the articulated unbalance drive shaft is made as a means for supplying lubricant to their bearing sleeve.

Description

The utility model relates to cone crushers for fine crushing, and more specifically to inertial cone crushers with a vibratory drive. It can be most widely used in the mining industry and in the production of building materials.

Cone crushers with a kinematic eccentric drive have a crushing degree of about 5, and inertial cone crushers equipped with a dynamic vibratory drive with a crushing degree of 25 are able to replace several stages of crushing and grinding. However, the reliability of inertial crushers due to the inefficient supply of lubricant to the highly loaded vibrator bearing remains low, so the demand for these machines is still small.

Known cone inertial crusher (US patent No. 4592517 from 06/03/1986), containing a housing with an outer cone and a spherical support for the inner cone with a shaft and an unbalanced vibrator placed on it with a bearing, which are pivotally suspended from the body of the spherical support of the inner cone. The lubricant is supplied to the unbalance bearing through the housing into the cavity formed by the spherical bearing and the unbalance bearing, that is, immediately onto three bearing surfaces. Therefore, the rotating unbalance bearing constantly receives a small fraction of the lubricant, especially since it is supplied overcoming the centrifugal forces from the rotation of the bearing. The mass adjustment of the unbalanced part of the unbalance for adjusting the crusher is carried out manually by replacing its fragments, which is laborious and takes several hours. Disadvantages of the crusher: low reliability and degree of crushing, not exceeding 10.

Also known is a cone inertial crusher (US patent No. 4073446 dated 02/14/1978), comprising a housing with an outer cone and a spherical support for the inner cone with a shaft, on which an unbalanced vibrator is mounted using a bearing, connected to the engine via articulated shafts. In this crusher, the lubricant is supplied to the vibrator bearing through the spherical support of the inner cone and then through the body of the said cone and its shaft. However, a significant proportion of the lubricant is consumed on the spherical bearing bearing, as in the previous analogue, which leads to a decrease in the operability of the unbalance bearing and the degree of crushing. Adjusting the degree of crushing is also laborious and takes a lot of time, as in the previous analogue.

A known cone inertial crusher adopted for the prototype (French patent No. 2467017 dated 08/14/1981), comprising a housing with an outer cone and a spherical support for an inner cone with a shaft, on which an unbalanced vibrator is mounted using a bearing connected to the drive by means of an articulated shaft and consisting of three weights, the middle of which has the ability to rotate and fix in relation to the extreme weights and the sleeve, while the bearing sleeve is equipped with means for supplying lubricant to it.

The lubricant is supplied to the unbalance bearing as in the previous analogue and is also characterized by low reliability. Adjusting the static moment of unbalance here is easier than in the previous analogue, since instead of replacing goods, it is carried out by turning one of them. However, on large crushers, it is impossible to remove the lock and turn the load manually.

Thus, for all analogues, common disadvantages remain.

The objective of this utility model is to increase the technological parameters of the crusher by increasing the load capacity of the unbalance bearing.

Another objective of this utility model is to simplify the adjustment of the crushing force to the required degree of crushing of a particular material.

These and other tasks of this utility model are implemented in an inertial cone crusher containing a housing with an outer cone and a spherical support for the inner cone with a shaft on which three unbalances are mounted with the help of a bearing sleeve, the middle of which is mounted with the possibility of circular rotation and fixing relative to other loads and a sleeve that is provided with an articulated drive shaft and means for supplying lubricant to the bearing, in which, in accordance with the present invention, means for turning the average unbalance olneny a rigidly fixed thereon a gear wheel, coupled with the toothed gear mounted on a fixed eccentric weight, rotatably around its axis, the articulated drive shaft unbalance is configured as the means for supplying lubricant to their bearing sleeve.

In accordance with the distinguishing features, the bearing of the inventive crusher receives the necessary amount of lubricant to increase the centrifugal force developed by the unbalance by almost two times compared with its counterparts while ensuring reliability. At the same time, adjusting the crushing force can be carried out by turning the key for several minutes, which eliminates the use of hydraulic mechanisms or a crane for crushers with a capacity of more than 100 t / h.

In Fig. 1. shows a longitudinal section of the proposed cone inertial crusher, which contains mounted on the support 1 through the shock absorbers 2, the housing 3 with the external cone 5 connected with the thread 4 and the spherical support 6 for the inner cone 7 with the shaft 8, on which three unbalances are mounted using the bearing sleeve 9 : upper 10, middle 11 and lower 12. Imbalances 10 and 12 are rigidly fixed on the bearing sleeve 9 and have the same static moments, in total equal to the moment of the average unbalance 11, which is fixed on the sleeve 9 with the possibility of circles rotation and fixing relative to the sleeve 9 and the unbalances 10 and 12. On the unbalance 11 coaxially and rigidly fixed to the gear 13, which engages with the gear 14 mounted for rotation and fixing with the stopper 15 on the unbalance 12. The sleeve 9 is connected by articulated drive shaft 16 with the engine 17 through the intermediate shaft 18 and the V-belt drive 19.

The articulated drive shaft 16 has an axial bore 20 for supplying lubricant to the bearing sleeve 9. In this bore 20, lubricant enters through the intermediate shaft 18 and the housing 3.

Crusher works as follows.

From the engine 17 through the V-belt drive 19, the intermediate shaft 18 and the articulated shaft 16, the rotation is transmitted to the bearing sleeve 9 with unbalances 10, 11 and 12, which, developing a centrifugal force, cause the inner cone 7 to make gyration movement on the spherical support 6. The material entering the crushing cavity formed by the cones 5 and 7 is subjected to grinding during the run-in of the cone 7 along its layer. The limiter of the amplitude of the inner cone 7 is only the resistance force of the layer, that is, the amount of deformation of the layer. The centrifugal force of the unbalances is controlled by changing the position of the common center of gravity of the unbalanced parts of the unbalances 10, 11 and 12 relative to the axis of the shaft 8. The rotation of the average unbalance 11 relative to the unbalances 10 and 12 allows you to approach or remove the center of gravity from the axis of the shaft 8. If the unbalance 11 has a static moment equal to the sum of the static moments of unbalances 10 and 12, then when it is turned through 180 °, the centrifugal force will be zero and the inner cone 7 will remain stationary. The rotation of the gear 14 causes the gear 13 together with the unbalance 11 to rotate at a predetermined angle. Then the gear is fixed by the stopper 15 relative to the fixed unbalance 12, thereby fixing the set position of the unbalance 11. If the centers of gravity of the unbalances are in the same vertical plane, then it is possible to grind the material to powder, and if they are diluted 90 °, then it is possible to obtain from the same material crushed stone.

Lubrication in the unbalance bearing sleeve 9 is supplied through the holes 20 of the articulated drive shaft 16. The lubricant pressure directed to the bottom of the sleeve 9 makes it stably press against the upper hinge of the shaft 16 and excludes its vertical jumps from the vertical component of centrifugal force. This eliminates the leakage of lubricant through the hinges of the shaft 16. The rotation of the sleeve 9 helps to tighten the lubricant on the bearing surface between the body of the sleeve 9 and the shaft 7, which ensures reliable lubrication of the bearing even with the maximum centrifugal unbalance force.

Thus, the inertial cone crusher of the claimed design can perform the function of a mill (for example, cement production) or a crusher function (for example, the production of road gravel). Moreover, the transition from one mode to another is carried out in a few minutes in accordance with the declared distinguishing features.

Claims (1)

An inertial cone crusher comprising a housing with an outer cone and a spherical support for an inner cone with a shaft on which three unbalances are mounted using a bearing sleeve, the middle of which is mounted with the possibility of circular rotation and fixing relative to other weights and the sleeve, which is equipped with an articulated drive shaft and means for supplying lubricant to the bearing, characterized in that the means for turning the average unbalance are made in the form of a gear wheel fixed to it, paired with a gear pole A shaft mounted on a fixed unbalance, with the possibility of rotation around its axis, while the articulated unbalance drive shaft is made as a means for supplying lubricant to their bearing sleeve.