RU2165816C2 - Working stand of mill for helical rolling of bodies of revolution - Google Patents

Abstract

FIELD: stands for rolling short bodies of revolution such as spheres. SUBSTANCE: working stand of mill for helical rolling of short bodies of revolution includes housing with cover, drum with rolling rolls, lower guard, drum-type holder of upper guard with diametrically arranged protrusions, unit for imparting reciprocation motion to guard holder. The last has balancing mechanism in the form of tie rods spring-loaded relative to cover. In protrusions of guard holder there are through openings parallel to vertical axis of holder and designed for passing tie rods and threaded openings normal relative to vertical axis and designed for arranging screws with spherical end engaging by means of foots with cover. Heads of tie rods engage with protrusions of guard holder through spherical washers. EFFECT: enhanced quality of rolled short bodies of revolution due to possibility of accurate tuning of upper guard position. 4 dwg

Description

 The invention relates to the field of rolling production, and more specifically to stands of helical rolling mills and can be most effectively used in the design of stands for rolling short bodies of revolution, for example balls.

 Of the known closest in technical essence (prototype) is the working stand of the mill of helical rolling of bodies of revolution, described in autosvid. USSR N 889240, class B 21 H 1/14, B 21 B 13/00, stated 03/14/77

 This working stand contains a frame with a lid, drums with work rolls, a stationary lower ruler, and a top ruler installation mechanism including a drum type ruler, means of its translational movement in the form of a pressure screw interacting with a threaded hole in the ruler. The two fixing screws (bolts) installed coaxially to each other fix the line holder after its vertical movement when adjusting the position of the upper ruler in the deformation zone.

 A disadvantage of the known design is the presence of non-selectable gaps in the mechanism of translational movement of the line holder with the upper ruler (in the threaded connection, the pressure screw-thread of the line holder). As a result of this, it becomes more difficult to adjust the vertical position of the upper ruler in the deformation zone, which leads to a deterioration in the quality of finished products. In addition, the presence of these non-selectable gaps reduces the life of the equipment as a result of breaking the threaded connection.

 Another disadvantage is the impossibility of turning the upper ruler in a horizontal plane relative to the axis of rolling, which also affects the quality of the balls.

 The objective of the present invention is to create a stand, which allows to improve the quality of rolled short bodies of revolution by providing the ability to fine-tune the position of the upper ruler in the deformation zone.

 This object is achieved by the fact that the working stand of the mill of cross-helical rolling of bodies of revolution, comprising a bed with a lid, drums with work rolls, a stationary lower ruler and an installation mechanism for the upper ruler, including a drum holder, means for translational movement and fixing screws installed with the ability to interact with the cover, according to the invention is equipped with a balancing mechanism of the line holder, made in the form of rods with heads spring-loaded relative to the cover , the line holder has diametrically located protrusions, in each of which through holes are made parallel to its axis for the passage of rods and perpendicular to its axis - threaded holes for accommodating fixing screws, the end of each of which is made spherical, installed with the possibility of interaction with the cover by means of a self-adjusting heel, and rods are installed with the possibility of contacting with the protrusions of the line holder with their heads by means of spherical washers.

 This design ensures accurate adjustment of the deformation zone due to the selection of gaps in the threaded connection of the pressure screw-nut during vertical movement of the line holder, as well as due to the possibility of turning the upper ruler in a horizontal plane relative to the axis of rolling.

 In turn, ensuring the accuracy of setting the deformation zone will improve the quality of rolled short bodies of revolution. In addition, due to the selection of gaps in the threaded connection of the means of translational movement of the line holder increases the service life of the equipment.

To explain the invention, a specific embodiment of the invention is given below with reference to the accompanying drawings, in which
in FIG. 1 shows a General view of the working stand of the mill of helical rolling of bodies of revolution;
in FIG. 2 is a section AA in FIG. 1;
in FIG. 3 - node B in FIG. 2 (increased);
in FIG. 4 is a section BB of FIG. 3.

 The working stand of the cross-helical rolling mill of the bodies of revolution comprises a frame 1 with a cover 2, drums 3 with work rolls 4, a stationary lower ruler 5, an installation mechanism for the upper ruler with a drum holder 6 with two diametrically spaced protrusions 7 mounted with its cylindrical part in the bore covers 2. The upper ruler 8 is attached to the ruler 6 using the side strip 9 and bolts 10. Means of translational movement of the ruler 6 in the vertical direction includes a pressure screw 11 acting with a nut 12 mounted in a cup 13 mounted on the lid 2 and placed in the bore of the line holder 6. The pressure screw 11 is rotated from the electric motor 14 through the worm gear 15. The line holder 6 has a balancing mechanism in the form of rods 18 with the heads 17 spring-loaded relative to covers 2 by springs 18. In the protrusions 7 of the line holder 6 parallel to its vertical axis, through holes 19 are made for passage of the rods 16. In this case, the heads 17 of the rods 16 are in contact with the protrusions 7 of the line holder 6 through spherical washers s 20 and 21. The tension of the springs 18 on the rods 16 is created using flat washers 22 and nuts 23. In the protrusions 7 of the line holder 8, threaded holes 24 are made perpendicular to its vertical axis, in each of which fixing screws 25 with a spherical end 26 are placed in pairs they interact with the respective sides of the lid 2 by means of the heels 27 with a conical inner surface. Each heel 27 is fixed on the screw 25 in the axial direction by means of a pin 28 included in the groove 29. To rotate the screws 25, they have a cylindrical head 30 with holes 31 for the pin.

 To lock the fixing screws 25, locknuts 32 are provided. The diameter of the through holes for the rods 16 allows the rods 16 to rotate relative to the cover 2 when the linear holder 6 is rotated about its vertical axis.

 The crate works as follows.

 When setting the deformation zone, the line holder 6 with the upper ruler 8 is moved translationally in the vertical direction by means of a pressure screw 11, driven by an electric motor 14. In this case, the clearance in the threaded connection is pressure screw 11 - nut 12 is selected using rods 16, spring-loaded to the cover 2 by springs 18. If necessary, turn the upper ruler 8 in a horizontal plane relative to the axis of rolling, rotate the ruler 6 around its vertical axis using two pairs of fixing screws 25, placed in opposite lying protrusions 7 of the line holder 6. Then the line holder 6 with the ruler 8 is fixed with the same screws 25. Possible misalignments of the line holder 6 relative to the contact surfaces in the cover 2 are compensated by spherical washers 20 and 21 and spherical ends 26 of the screws 25 interacting with the conical surface of the heels 27 .

 The proposed working stand of the cross-helical rolling mill of bodies of revolution in comparison with the known ones allows to simplify and provide more precise adjustment of the deformation zone, which allows to obtain finished products of higher quality. In addition, the service life of the equipment is increased by sampling the gap in the threaded connection when setting the deformation zone.

Claims (1)

 The working stand of the cross-helical rolling mill of bodies of revolution, comprising a bed with a lid, drums with working forks, a stationary lower ruler and an installation mechanism for the upper ruler, including a drum-type ruler, means for translational movement and fixing screws installed to interact with the lid, characterized the fact that it is equipped with a balancing mechanism of the line holder, made in the form of rods with heads spring-loaded relative to the cover, the line holder has a diametrical about located protrusions, in each of which through holes are made parallel to its axis for the passage of rods and perpendicular to its axis are threaded holes for accommodating fixing screws, the end of each of which is made spherical, installed with the possibility of interaction with the lid by means of a self-adjusting heel, and the rods are installed with the ability to contact with the protrusions of the line holder with their heads by means of spherical washers.

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