SU1748858A1 - Cone crusher - Google Patents

Abstract

Purpose of the invention: crushing grain in the production of animal feed for livestock. SUMMARY OF THE INVENTION: The crusher comprises a housing 1, a movable cone 2, a stationary cone 3 and a cylindrical sleeve 4. The cone -3 and the sleeve 4 are coaxial and rigidly fixed on the housing 1. In the sleeve 4 with a gap 5 there is a cone 2, which is supported by a bearing 6 on housing 1. On the surface 7 in the gap 5 the tangential nozzle of the working medium communicates with the atmosphere. The movable cone 2 is mounted in the housing rotatably, while the annular chamber of the unbalance drive is made between the movable cone 2 and the housing 1. A vortex flow in the gap 5 s çäàåò pulsating rad Nala hydrochloric, axial and tangential forces, the moment of rotation, which give rise to vibration and burnishing rolling over the stationary cone. The shock alternating load on the material being crushed in the gap 10 crushes the material. 9 il. (Ls

Description

The invention relates to a device for grinding materials, namely, crushing plants used in various parts of the national economy.

Known cone crusher, which contains a frame with an outer cone, which houses the inner cone with the drive (1).

The drawback of the device is its considerable overall dimensions.

Known is the closest to the technical essence and the achieved result of a cone crusher, comprising a housing with an outer cone and an inner movable cone mounted on a support, as well as an unbalance actuator in the form of an annular chamber having tangential input of the working medium into its cavity (2).

The drawback of the device is its considerable size and energy loss, as well as two different drive systems that require maintenance.

The purpose of the present invention is to reduce overall dimensions and simplify maintenance.

This goal is achieved by the fact that in a cone crusher comprising a fixed cone body and a mobile cone forming a crushing chamber with it, as well as an unbalance actuator in the form of an annular chamber having tangential input of the working medium into its cavity, the movable cone is set with a clearance relative to the body and rotatably, wherein the annular chamber is made in the form of a gap between the housing and the movable cone.

Figure 1 - schematic representation of a cone crusher, a longitudinal section.

Figure 2 is a section aa in figure 1.

FIG. 3 shows a variant of the drive with an annular nozzle.

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Fig. 4 shows an embodiment of the drive with a nozzle guide device.

Fig. 5 shows an embodiment of the drive with additional cameras.

In Fig. 6, an embodiment is crushed with a movable inner cone.

In FIG. 7--, the embodiment is crushed with a movable inner cone.

In Fig. 8, an embodiment is crushed with pneumatic removal of a product of rooting.

Figure 9 shows a variant of the installation of a cone drive on a flexible connection.

The device includes a housing 1, a movable cone 2, a fixed cone 3 and a cylindrical sleeve 4, a fixed cone 3 and a cylindrical sleeve 4 are coaxial. and rigidly mounted on the housing 1. In the sleeve 4 with a gap 5 there is a movable cone 2, which by means of the supporting spherical bearing b rests on the case 1. The gap 5 is formed by the cylindrical surface 7 of the sleeve 4 and the cylindrical surface 8 of the cone 2. On the surface 7 in the gap 5 communicated with the atmosphere tangential nozzle 9, connected to the source of the working environment. The tangential supply of the working medium causes the creation in the gap 5 of a vortex flow interacting with the surface 8 of the moving cone 2. The cone 2 and 3 form a gap 10 in which the material for crushing is placed. The movable cone 2 during operation rolls around the surface 11 of the stationary cone 3, since the size of the gap 10 is less than the size of the gap 5. The visor 12 on the housing 2 eliminates the interaction of the flow of the surrounding and working environment with the crushing products coming from the gap 10. The nozzle 9 is connected to channel 13 source of work environment

The device works as follows.

When the working medium is supplied to the channel 13, it is accelerated in the nozzle 9, expires into the gap 5, forms a vortex flow and interacts with the surface 8 of the cone 2 due to the dynamic pressure and friction forces. As a consequence, a force is formed on the cone 2 having a radial, tangential and axial component. The tangent component rolls the cone 2 along the surface of the stationary cone 3, and the pulsing radial and axial components initiate mechanical oscillations of the cone 2 in the horizontal and vertical plane. The material in the gap 10 is subjected to a shock alternating load, destroying it. Cone interaction

2 with a cone 2 with a cone 3 is carried out through the material to be ground.

Execution is possible when the nozzle is made in the form of an annular nozzle 14, which ensures the formation of an accelerated flow of the working medium interacting with the cone 2 along its entire perimeter. Channel 13 is made tangentially to the annular chamber 15 conjugated with the annular rim 14.

The device works as described above.

It is possible to execute the drive when the supply of the working medium is made in the form of a joint guide apparatus formed by the guide vanes 17, having nozzle channels 18 and connected to the source of the working medium by an annular chamber 16. The device works as described above.

It is possible to execute the drive when it is made in the form of a series of coaxially additional annular chambers 19. communicated with the annular chamber 15, among themselves and with a gap 5 additional tangential channels 20

The device works as described above.

It is possible to perform the crusher when the internal cone 21 is installed inside the stationary cone 22 by means of a ball bearing 23. The drive of the cone 21 is made nozzle, communicated with the atmosphere on the surface 24 of the rod 25, mounted on the housing 1 and placed with a gap 26 in the bore 27 of the cone 21.

The device operates as described above.

Execution is possible when the movable cone 28 is supported on the rod 25 by means of a ball bearing 23.

The device operates as described above.

Execution is possible when the movable cone 29 is placed in the housing 1 with a gap of 30. In this case, the nozzle apparatus

communicates with the atmosphere on the surface 31 of the housing 1 in its upper part and is directed at a slight angle downward. The gap 30 of the diffuser 32 communicates with the annular chamber 33 having a nozzle 34 for outputting the working

environment and grinding products. The grinding of the material is carried out in the gap 35 between the fixed cone 36 and the movable cone 29.

The device works as follows.

The swirl flow in the gap 30 creates a clearance that sucks in the environment.

The vortex flow of the mixture of media captures the crushed material in the diffuser 32, transports it to the annular chamber 33 and further to the nipple 34.

It is possible to perform when the drive of the movable cone 37 in the form of a sleeve 38 is mounted on the housing 1 by means of a flexible coupling 39, which causes a change in the frequency response of the crusher.

The device operates as described above, except that the sleeve 15 38 performs mechanical oscillations.

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Claims (1)

The invention of the Cone Crusher, comprising a housing with an outer cone and an inner housing forming with it a crushing chamber, as well as an unbalance actuator in the form of an annular chamber having tangential entry of the working medium into its cavity, characterized in that, in order to reduce overall dimensions and simplify maintenance, the outer cone is installed with a gap relative to the housing and with the possibility of axial rotation, while the annular chamber is made in the gap between the housing and the outer cone in the lower part of the latter, and the inner cone is fixedly connected to the housing. if AL At ////// Г /. 77jr //// Mg ///// shh, and five . L I ten Phie.1 one Phie.1 / J Fia.Z FI.5 J4 Fiz.8 17 28 FIG. 7 38 Fig.Z