RU223240U1 - Gear bushing for drive coupling of auger crusher - Google Patents

Abstract

The utility model relates to the mining industry, to the structural elements of auger crushers used for crushing non-metallic rocks, in particular to the components of the auger unit, namely gear drive bushings. The technical result of the utility model is to increase the reliability of the drive gear screw crusher bushing by increasing its durability, wear resistance and accuracy of motion transmission and, as a consequence, increasing the reliability of the crusher screw assembly. The technical result is achieved by the fact that the gear sleeve of the drive coupling of the auger crusher, which is a metal cylinder with a flange in the form of an annular protrusion, while the inner surface of the metal cylinder contains an internal gear rim, and the outer surface of the annular protrusion contains an external gear rim, is characterized by the fact that the upper the edge of each tooth of the outer gear rim of the annular protrusion is curved so that it represents a section of a spherical surface with a radius R.

Description

The utility model relates to the mining industry, to the structural elements of auger crushers used for crushing non-metallic rocks, in particular to the components of the auger unit, namely gear drive bushings.

A gear coupling is known (patent SU721589, published 03/15/1980), containing two bushings having gear rims with prismatic teeth that mesh with each other, between which the liners are installed. The inserts are made in the form of cylindrical rollers, movably installed in the spaces between the teeth of the bushing rims.

However, the known technical solution has low reliability.

A cone crusher is also known (patent RU 2140820, published November 10, 1999), containing a clutch on a sliding bearing in the eccentric part of the cantilever shaft; a gear with cylindrical teeth meshing with the cylindrical teeth of the gear is rigidly connected to the clutch.

A disadvantage of the known coupling design is also low reliability.

The task to be solved by the utility model is the development of an improved design of the bushing for a drive gear screw crusher, free of the disadvantages of known analogues, as well as expanding the arsenal of technical means for this purpose.

The technical result of the utility model is to increase the reliability of the drive gear screw crusher bushing by increasing its durability, wear resistance and accuracy of motion transmission and, as a consequence, increasing the reliability of the crusher screw assembly.

The technical result is achieved by the fact that the gear sleeve of the drive coupling of the auger crusher, which is a metal cylinder with a flange in the form of an annular protrusion, while the inner surface of the metal cylinder contains an internal gear rim, and the outer surface of the annular protrusion contains an external gear rim, is characterized by the fact that the upper the face of each tooth of the outer gear ring of the annular protrusion is curved so that it represents a section of a spherical surface with a radius R equal to twice the size of the inner gear ring r with a spread of ±29%.

The gear bushing of the drive coupling of the auger crusher, in particular, can be characterized by the fact that the center of the radius R of the spherical surface section lies on the axis of the gear bushing.

The gear sleeve of the drive coupling of an auger crusher, in particular, can be characterized by the fact that the teeth of the ring gear are made of steel.

The gear bushing of the drive coupling of the auger crusher, in particular, can be characterized by the fact that it is made of a single monolithic one-piece part.

The gear sleeve of the drive coupling of an auger crusher, in particular, can be characterized by the fact that the surface of the teeth of the ring gear can contain wear-resistant surfacing, and the surfacing can follow the shape of the spherical surface of the tooth.

The essence of the utility model is illustrated by drawings, which show an example of the design of the inventive bushing for a gear drive coupling of an auger crusher:

in Fig. 1 shows a generalized cross-sectional view of a gear bushing;

in Fig. Figure 2 shows a side view of a gear bushing in section;

in Fig. Figure 3 shows view A of the gear bushing;

in Fig. Figure 4 shows view B of the product - a fragment of the external gear ring;

in Fig. Figure 5 schematically shows a fragment of a generalized image of a gear bushing;

in Fig. 6 shows a general view of the screw crusher indicating the position of the bushing of the gear drive coupling;

where the numbers indicate:

1 - metal cylinder;

2 - flange in the form of an annular protrusion;

3 - outer ring gear;

4 - internal gear ring;

5 - radius of the spherical curved surface of the outer ring teeth;

6 - flange mounting holes;

7 - position of the gear drive bushing in the screw crusher.

8 - radius of the internal ring gear.

The presented gear drive bushing of a screw crusher is designed as follows.

The gear sleeve of the drive coupling 7 of the auger crusher is a metal cylinder 1 with a flange 2 made integral with the metal cylinder. Making part elements monolithic increases their reliability. In this case, flange 2 has the shape of an annular protrusion. The outer 3 and inner 4 surface of the metal cylinder 1 contains a gear ring. The mounting holes 6 are intended for connecting the gear drive bushing with other elements of the drive coupling of the crusher screw assembly.

The presented gear bushing for the drive coupling of an auger crusher is used as follows. The gear sleeve drive coupling is designed to transmit torque from the engine to the shaft of the gear auger crusher, and a very important parameter is the service life of such equipment. An important role in increasing service life is played by protection against wear of quickly worn-out structural elements. In particular, the most important element of the gear bushing are the teeth, which bear a large load when transmitting torque from the engine through the gearbox to the crusher disks. The specific operation of a gear crusher involves significant vibration as a result of grinding large pieces of rock of different sizes. Due to the strong vibration of the entire installation, significant displacements of the interacting elements of the mechanism relative to each other in different directions are inevitable. Displacements and distortions between the teeth of the gear bushing and the counter teeth of other elements of the mechanism lead to its rapid wear, as well as to the rapid wear of the elements that interact with it, including the teeth of the engine gearbox. In this case, the greater the contact area of the rubbing surfaces, the greater the wear. Reducing the contact area between the interacting parts of the mechanism, in particular to almost one line, reduces the degree of wear, thereby increasing durability, and, consequently, increasing the reliability of the structure. In the claimed utility model, the reduction in the contact area of interacting structural elements is ensured by the presence of a section of the spherical surface of the teeth of the annular protrusion. The alignment of the center of the radius R of the spherical surface section with the axis of the gear bushing ensures uniform distribution of the load over the surfaces of the teeth of the external gear rim and eliminates distortions during drive operation, which also reduces wear of rubbing parts, increasing the reliability of the auger crusher.

Thus, the inventive shape of the tooth surface ensures an increase in the service life of the gear bushing, as well as other structural elements of the entire drive unit due to their protection from rapid wear of rubbing surfaces. In addition, the presence of a spherical surface provides better uniformity of load distribution on the bushing teeth, which also helps reduce their wear.

The design of the teeth of the gear rim on the outer surface of the annular protrusion, in which the tooth profiles are outlined along the involute of a circle, allows motion to be transmitted with a constant gear ratio, which, along with the sphericity of the surface of the teeth, ensures a more accurate and smooth connection of the gear bushing with other elements of the mechanism, reducing wear of structural elements , increases the accuracy of motion transmission and increases the durability of the structure, and therefore increases its reliability (according to GOST R 27.101-2021 “Reliability in Technology”).

Auger crushers are designed to work with massive pieces of rock in the range of 500-2000 mm. To ensure greater reliability and trouble-free operation of crusher elements, as shown by numerous experience in operating equipment, the optimal radius of the spherical curved surface R should be equal to two radii of the internal gear rim: R=2r. It has also been experimentally determined that this value should not be lower than 2r - 29% and should not exceed 2r + 29%. If the radius of the spherical curved surface of the outer ring tooth increases, the conditions that reduce vibration worsen, and the wear of the teeth increases, since in this case the influence of the sphericity of the surface of the outer ring teeth becomes so insignificant in the fight against friction of interacting structural elements (virtually indistinguishable from the action of teeth with flat outer edge), which does not ensure the achievement of the stated technical result.

On the contrary, if the radius of the spherical portion of the surface decreases by an amount exceeding the optimal value by more than 29%, the surface of the teeth of the outer rim becomes too convex, which leads to a decrease in the mechanical stability of the tooth surface itself and, taking into account the inevitable vibration during operation of the crusher, this surface begins to quickly to collapse, while the time between failures of the corresponding unit decreases, which leads to a decrease in the reliability of the structure as a whole. In addition, the amount of permissible transmitted power (torque) to the working body of the crusher is also reduced.

Thus, to ensure the reliability of the inventive product, the preferred radius of the spherical curved surface of the teeth of the outer rim is optimally twice the radius of the inner rim.

To increase the reliability of the design, the teeth of the ring gear of the inner surface 4 of the metal cylinder 1 are made of steel. Steel is a durable material that can withstand significant loads, so the manufacture of structural elements from it leads to increased reliability. The surface of the teeth of the ring gear 4 may contain wear-resistant surfacing, and the surfacing can follow the shape of the spherical surface of the tooth. Wear-resistant surfacing reduces the abrasion of teeth, thus increasing the reliability of the structure.

Thus, the use in the design of the drive gear screw crusher bushing, the toothed surface of the annular protrusion in the form of a truncated involute, where the upper edges of the teeth are a curved spherical surface, makes it possible to achieve the claimed technical result, namely, increasing the reliability of the structure.

The claimed utility model can be used in a wide range of auger crushers. It can be manufactured, among other things, at specialized metalworking enterprises.

Claims (6)

1. The gear sleeve of the drive coupling of an auger crusher, which is a metal cylinder with a flange in the form of an annular protrusion, wherein the inner surface of the metal cylinder contains an internal gear rim, and the outer surface of the annular protrusion contains an external gear rim, characterized in that the upper edge of each tooth is external The ring gear of the annular protrusion is curved so that it represents a section of a spherical surface with a radius R equal to twice the size of the internal gear ring r with a spread of ±29%. 2. The gear bushing according to claim 1, characterized in that the center of the radius R of the spherical surface section lies on the axis of the gear bushing. 3. Gear bushing according to claim 1, characterized in that the teeth of the ring gear are made of steel. 4. The gear bushing according to claim 1, characterized in that it is made of a single monolithic one-piece part. 5. The gear bushing according to claim 1, characterized in that the surface of the teeth of the ring gear is equipped with wear-resistant surfacing. 6. The gear bushing according to claim 5, characterized in that the wear-resistant surfacing can follow the shape of the spherical surface of the tooth.