RU58176U1 - AXIAL AXLE FIXING UNIT FOR SHAFT - Google Patents

Abstract

The utility model relates to coal and mining engineering and can be used in coal combines and aggregates for the mechanization of treatment and cutting operations in underground and opencast mining, in particular, for axial fixing of screws on the shafts of shearers.

The axial fixation unit of the screw on the shaft contains two half rings installed in the annular groove of the shaft on which the screw is placed, a holder with a flange installed with the half rings covered and the stop in the screw. Through threaded holes are made at the ends of the half rings, and smooth through holes are made through the flange of the holder through which bolts are screwed into the screw holes of the half rings into the holder flange, while the depth l _{1 of the} cylindrical part of the holder is determined from the condition of its contact with the screw, and the ratios are observed:

l ₁ > l ₂ , l ₄ > l ₃ , where:

l ₂ - the thickness of the half ring;

l ₃ is the length of the bolt;

l ₄ is the distance from the cage platform under the bolt head to the end of the cylindrical part of the cage.

By eliminating the mounting gap and ensuring a constant clamping force of the screw by the cage, an increase in the reliability of fixing the screw on the output shaft of the shearer and the durability of the mating structural parts are achieved.

1 n.p. crystals, 2 illustrations

Description

The utility model relates to coal and mining engineering and can be used in coal combines and aggregates for the mechanization of treatment and cutting operations in underground and opencast mining, in particular, for axial fixing of screws on the shafts of shearers.

Known node axial fixation of the screw on the output shaft of the rotary gear of the K103 coal processor, adopted as a prototype as the closest to the utility model in design and technical result achieved (see "K103M shearer. Operation manual K103M.00.00.000 RE", ZAO "Gorlovsky machine-builder", Gorlovka, 1995).

The known node includes two half rings installed in the annular groove of the shaft on which the screw is placed, and a holder with a flange covering the half rings. In this case, the cage holds the half rings in the groove of the shaft, and the cage itself is held on the half rings by a spring ring mounted on the shaft.

A characteristic feature of the design of the prototype is that in the assembled node remains some mounting gap between the locking elements and the end of the screw, which is filled with gaskets. However, according to the conditions of the assembly, this gap cannot be completely filled, and it can be 0.1-0.3 mm. During the operation of the combine due to the crushing of the installed gaskets, this gap increases.

Thus, the disadvantage of the prototype is the presence of mounting axial clearance between the locking elements and the screw, leading to axial mobility (axial play, play) of the latter and the appearance of additional dynamic (shock) loads in the connection of parts with the shaft, causing increased wear and destruction.

The utility model is based on the task: in the site of axial fixing of the screw on the shaft, by changing the design, eliminate the mounting gap and provide a constant force of pressing the screw, which will increase the reliability of fixing the screw on the output shaft of the shearer and the durability of the mating structural parts.

The problem is solved as follows. In the node of axial fixing of the screw on the shaft, containing two half rings installed in the annular groove of the shaft on which the screw is located, and a holder with a flange mounted with the coverage of the half rings, according to the utility model, through threaded holes are made in the half rings, and through holes are made in the ring flange smooth holes through which bolts are screwed into the threaded holes of the half rings to the stop of the bolt heads in the flange of the holder, while the depth l _{1 of the} cylindrical part of the holder is determined from the condition of its contact with the screw, and the following relations are observed:

l ₁ > l ₂ , l ₄ > l ₃ , where:

l ₂ - the thickness of the half ring;

l ₃ is the length of the bolt;

l ₄ is the distance from the cage platform under the bolt head to the end of the cylindrical part of the cage.

The implementation of the cylindrical part of the cage with a depth l ₁ exceeding the thickness of the half rings (l ₁ > l ₂ ) allows, by means of bolts of the corresponding length (l ₄ > l ₃ ) ₂ passing through the through smooth holes in the flange of the cage and screwed into the threaded holes of the half rings installed into the annular groove of the shaft, to ensure reliable, backlash-free axial fixation of the screw on the output shaft of the gearbox. At the same time, due to the lack of mounting clearance, a constant clamping force of the screw is ensured by the cage, additional dynamic loads in the joint are eliminated, wear and wrinkling of the shaft splines are prevented due to the absence of axial play and impact loads. This improves the reliability of fixing the screw on the output shaft of the shearer and the durability of the mating structural parts.

Distinctive features in conjunction with the known eliminate the noted disadvantages of the prototype.

The essence of the utility model is illustrated by drawings.

Figure 1 shows the node axial fixation of the screw on the shaft in the context; figure 2 is a section aa in figure 1.

The axial fixation unit of the screw 1 on the shaft 2 with the annular groove 3 includes half rings 4 installed in the groove 3, the holder 5 with the flange 6 and the cylindrical part 7. Through-hole 8 is made in the flange 6 of the holder 5, and threaded holes 9 are made in the half rings 4. Through holes 8, bolts 10 are screwed into the threaded holes 9 until they stop in the flange 6 of the holder 5.

The achievement of the technical result is as follows.

After the screw 1 has been installed on the shaft 2, half rings 4 are mounted in the next part in the annular groove 3. A sleeve 5 is put on the half rings, which, with the cylindrical part 7, rests on the screw. Through holes 8 in the flange 6 of the cage, bolts 10 are screwed into the threaded holes 9 until the bolt heads stop in the flange of the cage. At the same time, due to the given aspect ratios of the parts, the half rings are pressed against the wall of the annular groove, and the holder rests against the cylindrical part on the screw. With an increase in the tightening of the bolts, the auger pressing force increases.

When the shearer is working on coal extraction, the axial component of the cutting and feeding forces realized on the screw 1 can act along the shaft 2 in both directions. The most dangerous direction of the axial load on the screw is to the end of the shaft 2. In this case, the axial load is transferred from the screw 1 to the yoke 5, which transfers the axial load to the wall of the annular groove 3 through the bolts 10 and half rings 4. force on the screw, regardless of the direction of the axial load applied to it.

Claims (1)

The axial assembly of the screw on the shaft, containing two half rings installed in the annular groove of the shaft on which the screw is located, and a holder with a flange mounted with the coverage of the half rings, characterized in that through rings are made through threaded holes and smooth through holes are made in the flange of the holder holes through which bolts are screwed into the threaded holes of the half rings to the stop of the bolt heads in the flange of the holder, while the depth l _{1 of the} cylindrical part of the holder is determined from the condition of its contact with the screw, and the following relations are observed: l ₁ > l ₂ , l ₄ > l ₃ , where l ₂ is the thickness of the half ring; l ₃ is the length of the bolt; l ₄ is the distance from the cage platform under the bolt head to the end of the cylindrical part of the cage.