SU1509145A1 - Stand of rolls - Google Patents

Abstract

The invention relates to the processing of metals by pressure and can be used in the rolling of pipes and solid round profiles. The purpose of the invention is to improve the accuracy of the geometric dimensions of pipes. The housing 2 houses the sleeve 5 with the annular tool 8 inclined to the rolling axis and which has a rotational drive. The rotational drive of the annular tool is coupled by a gear differential gear having gears 10, 11, 12, 14, 15, 16, 18 and a sun wheel 17, driven by the rotation of the cage and the body. Differential gear gears located in the cage are connected to gear gears located in the housing with the possibility of adjusting their position. Due to the location of the annular tool at an appropriate feed angle and due to the rotation drives of the tool, the housing and the yoke, the billet is rolled on the mandrel. In this case, the workpiece receives translational movement without rotation or with a rotation speed close to zero. 5 il.

Description

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The invention relates to the processing of metals by pressure and can be used in the rolling of pipes and solid round profiles.

The purpose of the invention is to improve the accuracy of the geometric dimensions of pipes.

FIG. 1 shows a rolling mill stand, general view; pas figs. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 1 {along the pipe rolling axis); in fig. 4 shows a section B-B in FIG. 3; in fig. 5 is a section of YYD in FIG. 1 (along the stand axis).

Before starting rolling, the yoke 5 with the annular tool 8 is turned in the yush direction, their bodies 2 for setting the appropriate angle (feed angle) between the rolling axis and the axis of the annular tool and moving by means of the screw 6 and the nut 7 to obtain the necessary technological displacement relative to the axis of rotation of the housing. In this case, the shaft 13 is displaced along its axis in gear 14. Then the holder is fixed.

The housing drive is switched on through the gear. The cage contains a frame 1, in which the housing 2 is placed on the bearings. Gear teeth 3 is installed in housing 15 and 3 and 4, when the housing 2 rotates, the joint key and is connected to the gear gear 5 and the satellite 16 rolls around it 4 drive (not shown) housing. The clip 5 is mounted in the housing in the direction of the sun wheel 17, which is braked by the drive through gears 18 and 19, and transmits rotation through gears 15, 14, 12, 11, 10 and 9 to the ring tool 8 to the side,

Pendicularly rolling axis coinciding 20 reverse rotation of the housing with the clip.

with the axis of rotation of the housing. The screw 6 is rigid. Thus, the ring tool rotates with the yoke and the body around the axis of the body and in the opposite direction.

With the possibility of adjusting the rotation and translational movement, the side around its axis. Regulation

connected to the clip and is engaged with the nut 7 mounted in the housing. Screw pair b and 7 is designed

to move the cage 25 progressively, the ratios of these speeds are made (the cage rotation drive and the device for controlling the speed of the ring-locking drive are not shown). An annular gear wheel 17 is installed in the caliper caliper through gears 19, 18 and sun bearings, which makes it possible to obtain with the gear-rolling mounted on it only a translational movement of it 9, which engages the gearing without rotation or speed gear 10 mounted on a single 30 rotation close to zero. A mandrel 25, located in a cage with a gear wheel 11, is located in a cage, is centered in the beginning and engages with a gear wheel 12. the last moment with rollers 23, and the sleeve 26, centric gear wheel 12 is seated on shaft 13, filled with wiring 20 The sleeve is fed into the shed mounted on the bearing in the holder and the ring tool and is made new on the axis of rotation of the holder, perpen-rolling it on the mandrel. After the entry of the rotational axis of rotation of the casing, of the coiled pipe into the wiring 21, the rollers 23 giving the axis of the guiding clamps to the core are diluted. Before leaving the sleeve 26 from the core and lying in the plane of the pressing 20, the rear end of the mandrel centers the ring tool. Shaft 13 is located on rollers 22.

in rolling along the shaft with tooth-force, rolling is perceived by ring-mounted gear 14, mounted on the under-, Q-th tool (roller 8), mounted on the bearing in the housing 5, fastened to the gear 15, seated as the satellite 16 on one shaft mounted in the housing on the bearings. The satellite .16 is engaged with the sun wheel 17 mounted on a bearing in the housing and made integral with the gear 18, and is locked in gear with the drive gear 19 (not shown). The gears 10, 11, 12, 14, 15, 16, 18 and the sun wheel 17 are included in the gear differential gear, a pressure device made in the form of a screw 6 and a nut 7, a housing 2 and a bed 1, and also guide rollers for the wires 20 and 21.

The sleeve 26 is in contact with the roller 8 and roller leads 20 and 21 and is also held by them on the rolling axis.

Axial movement of the pipe occurs due to the action of the axial component, which connects the rotational drive of the rolling ring 50, which is caused by the tilting tool driven by the rotational axis of rotation of the ring gauge 8 and

we and the body, while the body performs the role of drove. From the input and output sides of the stand, guide wiring lines 20 and 21 are installed, which can be performed, for example, by roller ones. To hold the mandrel from transverse forces at the initial moment of rolling, the rollers 22 and 23 are installed with the actuator 24 displaced from the pipes at the feed angle (as in the roll mills). The feed angle (shown in Fig. 3) is set by the rotation drive of the yoke (screw and nut).

The operation of the device is tested on the layout. Testing has shown that the use of the proposed stand makes it possible to increase the accuracy of the geometrical dimensions of the trumprimer and hydraulic cylinders. Several rows of rollers 22 and 23 can be installed.

The cage works as follows.

Before starting rolling, the yoke 5 with the annular tool 8 is turned in the direction of yush, their bodies 2 for setting the appropriate angle (feed angle) between the rolling axis and the axis of the annular tool and moving by means of the screw 6 and the nut 7 to obtain the required technological displacement axis of rotation of the body. In this case, the shaft 13 is displaced along its axis in gear 14. Then the holder is fixed.

Include drive housing through the gear

Nor 3 and 4, when the housing 2 rotates together with the holder 5, the satellite 16 runs around

Thus, the annular tool rotates with the yoke and the body around the axis of the body and in the opposite direction.

side around its axis. Regulation

The ratios of these speeds are made by controlling the speed of the drive of the ring caliber through the gears 19, 18 and the sun wheel 17, which allows to obtain during rolling only translational movement of the workpiece without its rotation or with a rotation speed close to zero. A mandrel 25 is fed into the cage, initially centered by the rollers 23, and the sleeve 26 centered by the wiring 20. The sleeve is fed into the shed of the ring tool and is rolled on the mandrel. After the rolled pipe enters the wiring 21, the rollers 23 are diluted. Before leaving the sleeve 26 from the wire 20, the rear end of the mandrel centers with rollers 22.

mine, with a pressure device made in the form of a screw 6 and a nut 7, a housing 2 and a bed 1, as well as guide rollers of wiring 20 and 21.

The sleeve 26 is in contact with the roller 8 and roller leads 20 and 21 and is also held by them on the rolling axis.

The axial movement of the pipe occurs due to the action of the axial component of the rolling force resulting from the tilting of the axis of rotation of the ring gauge 8 and the axis

pipes at an angle of feed (as in the roll mill). The feed angle (shown in Fig. 3) is set by the rotation drive of the yoke (screw and nut).

The operation of the device is tested on the layout. Testing has shown that the use of the proposed stand makes it possible to increase the accuracy of the geometrical dimensions of the pipe's length as a result of the absence of rotation of the pipe during the rolling process or its rotation with near-zero incidence.

Claims (1)

Invention Formula A rolling mill cage, comprising a housing, a housing placed therein with an annular tool inclined to the rolling axis and its rotational drive, characterized in that, in order to increasing the accuracy of the hermetic dimensions of the pipes, it is provided with drives for rotating the holder with a gear differential gear, while the gear gears of the differential gear located in the housing are connected to gear gears located in the housing with the possibility of adjusting their position along the axis perpendicular to the rotation axis of the housing, and installed coaxially with the axis of rotation of the cage. Caliber KOAttteSofo axis Rolling axis go FIG. 2 Phie. gd