JPS63347Y2 - - Google Patents

Description

[Detailed Description of the Invention] "Industrial Application Field" The present invention relates to a sealing structure for a rotary type crusher such as a cone crusher or a gyratory crusher.

“Prior art” The rotary crusher 1 that forms the background of this invention is
As shown in the longitudinal sectional front view of the main part shown in the figure, by rotating the substantially truncated conical mantle 3 in an eccentric state within the substantially conical cylindrical concave 2, there is a gap between the concave 2 and the mantle 3. A substantially conical head center 5 is fixed to the inner surface of the mantle 3, which crushes the supplied raw stone 4 by pinching.

In addition, dust contained in the external atmosphere may enter the crusher 1.
In order to prevent the intrusion of the
A cylindrical dust collar 9 provided on the base of the
The retainer 6 attached to the head center 5
A dust seal ring 8 is provided between them.

As shown in FIG. 7, the dust seal ring 8 has an inner surface in contact with the dust collar 9,
It is formed in the shape of a conical plate with an angle α toward the outside.

As shown in FIG. 6, this eccentric rotational movement of the rotary crusher 1 moves the mantle 3, the head center on the outer surface of a cone with an apex O and an apex angle θ centered on the central axis a of the crusher 5. This is achieved by swinging the central axis b of the eccentric rotating section 7 including the retainer 6 and the like.

However, since the retainer 6 rotates eccentrically around the dust collar 9 as described above, the outline (cone) of the dust seal ring 8 attached to the dust collar 9 and the locus of movement of the retainer 6 (spherical surface) are as follows.
As shown in FIG. 7, the results are different. For this reason, a gap c is provided below the head center 5 to absorb dimensional variations due to the eccentric rotation movement.

``Problem to be solved by the invention'' For this reason, the dust seal ring 8 is
, which slides up and down, dust enters the inside of the crusher 1 and causes trouble to the bearings and other parts of the crusher 1.

Further, since the dust seal ring 8 does not come into full-surface contact with the retainer 6, but makes point contact or line contact, there is a drawback that the dust seal ring 8 is locally worn.

``Purpose of the invention'' The present invention was made in order to eliminate such drawbacks of the conventional technology, and provides a sealing structure that completely seals the inside and outside of the crusher and prevents the dust seal ring from being easily worn out. The purpose is to provide.

"Means for Solving the Problems" In order to achieve the above object, the main means adopted by the present invention is to eccentrically rotate a substantially truncated conical mantle within a substantially conical cylindrical concave, and to connect the concave and mantle. In the seal structure of a rotary type crusher that pinches and crushes raw ore supplied between the two, a spherical annular groove centered at the intersection of the concave axis and the mantle axis is formed inside the head center to which the mantle is attached. A dust seal ring having a cross-sectional shape substantially the same as that of the annular groove is slidably fitted into the annular groove, and the dust seal ring is slid onto a vertical dust collar fixed to the body supporting the concave. This is a seal structure for a rotary crusher that is movably fitted.

``Operation of the invention'' As constructed as described above, according to the invention, when the mantle makes an eccentric rotation movement, the lower surface of the head center and the upper surface of the retainer move on concentric spherical surfaces.

An annular groove is formed between these spherical surfaces, and the dust seal ring has approximately the same shape as the groove and is slidably fitted into the groove, and
It is slidably fitted into the dust collar.

Therefore, the relative position between the dust seal ring and the groove does not change due to the eccentric rotation movement of the mantle, and a perfect sealing surface is maintained.

Further, since the upper and lower surfaces of the dust seal ring are in surface contact with the lower surface of the head center and the upper surface of the retainer, the dust seal ring is prevented from being locally worn.

``Example'' Hereinafter, an example of the present invention will be described with reference to FIGS. 1 to 3 to provide an understanding of the present invention. The following embodiments are merely specific examples of the present invention, and are not intended to limit the technical scope of the present invention.

Here, Fig. 1 is a longitudinal sectional front view of a seal structure according to an embodiment of the present invention, Fig. 2 is a half plan view of a dust seal ring, Fig. 3 is a front sectional view thereof, and Fig. 4 is a diagram of a compressed air pipe. FIG. 3 is a longitudinal sectional front view of the main part showing the introduction part.

The dust seal ring 11 in this embodiment is
As shown in FIG. 1, it is provided outside the dust collar 9. The inner surface of the dust seal ring 11 is in sliding contact with the outer surface of the dust collar 9 via the O-ring 12, and the upper surface of the dust seal ring 11 and the lower surface of the head center 13 are located at the intersection of the axis of the concave 2 and the axis of the mantle 3. It forms a spherical surface with radius R ₁ centered at O. Further, the lower surface of the dust seal ring 11 and the upper surface of the retainer 14 form a spherical surface with a radius R ₂ centered on the intersection O.

Therefore, the thickness of the dust seal ring 11,
Furthermore, the depth of the groove 15 formed between the head center 13 and the retainer 14 is t.

Further, on the upper surface of the dust seal ring 11, a second
As shown in FIGS. 3 and 3, a plurality of (eight in this embodiment) shallow grooves 16 are formed radially.
As shown in FIG. 4, a compressed air pipe 17 is installed to blow out compressed air in the direction of arrow A shown in FIG.

Since the dust seal ring 11 is configured as described above, even if the mantle 3 rotates eccentrically, the upper and lower surfaces of the dust seal ring 11 slide in close contact with the groove portion 15. Therefore, the dust seal ring 11 is attached to the retainer 1.
4 and the thickness of the dust seal ring 11 and the depth of the groove 15 are the same, so the dust seal ring 11 does not slide up and down.

Therefore, dust from outside the crusher 1 does not enter the inside of the crusher 1.

Further, the compressed air ejected from the inside of the crusher 1 through the compressed air pipe 17 is passed through the dust seal ring 11.
The inner surface of the dust collar 9 and the outer surface of the 0-ring 12
Since the dust is sealed by the dust seal ring 11, the dust is sent to the outside of the crusher 1 through the groove 16 formed on the upper surface of the dust seal ring 11.

Therefore, the compressed air flow prevents dust from outside the crusher 1 from entering the inside of the crusher 1.

"Effect of the invention" As explained above, the present invention is a rotating type crushing method in which a roughly truncated conical mantle is eccentrically rotated within a roughly conical cylindrical concave, and the raw ore supplied between the concave and the mantle is crushed under pressure. In the machine's seal structure,
A spherical annular groove centered at the intersection of the concave axis and the mantle axis is formed inside the head center to which the mantle is attached, and a dust seal ring having a cross-sectional shape almost the same as that of the annular groove is provided as described above. A seal structure for a rotary crusher, characterized in that the dust seal ring is slidably fitted into an annular groove, and this dust seal ring is slidably fitted into a vertical dust collar fixed to a body supporting a concave. Because of this, a perfect seal is created between the eccentrically rotating mantle and the fixed crusher body, and the bearings inside the crusher will not be worn out or damaged.

Furthermore, since there is no local wear of the dust seal ring provided during this period, an excellent effect is achieved in that the life of the dust seal ring is extended.

[Brief explanation of the drawing]

Fig. 1 is a longitudinal sectional front view of a seal structure according to an embodiment of the present invention, Fig. 2 is a half plan view of a dust seal ring, Fig. 3 is a front sectional view thereof, and Fig. 4 is a diagram showing the introduction of a compressed air pipe. FIG. 5 is a longitudinal sectional front view of the main part of a conventional rotary type crusher, FIG. 6 is an explanatory diagram of the eccentric rotation motion of the rotary type crusher, and FIG. 7 is a conventional rotary type crusher. FIG. 2 is a vertical cross-sectional view of a main part showing a seal structure of a rotary crusher. Explanation of symbols, 1... Rotating crusher, 2... Concave, 3... Mantle, 11... Dust seal ring, 12... 0-ring, 13... Head center, 14... Retainer, 17... Compression air tube.

Claims (1)

[Scope of Claim for Utility Model Registration] In a seal structure of a rotating type crusher that eccentrically rotates a substantially truncated conical mantle within a substantially conical cylindrical concave and crushes raw ore supplied between the concave and the mantle under pressure, A spherical annular groove centered at the intersection of the concave axis and the mantle axis is formed inside the head center to which the mantle is attached, and a dust seal ring having a cross-sectional shape almost the same as that of the annular groove is provided as described above. A seal structure for a rotary crusher, characterized in that the dust seal ring is slidably fitted into an annular groove, and this dust seal ring is slidably fitted into a vertical dust collar fixed to a body supporting a concave.