RU1773528C - Profile bending machine - Google Patents

Abstract

Usage: equipment for bending profiles. SUMMARY OF THE INVENTION: the machine tool comprises lower drive rollers, upper presser and side support rollers mounted on horizontal shafts, as well as bending rollers (GR). GR is made with a helical groove on the outer surface. TP is installed in a horizontal plane at an angle to the axis of rotation of the rollers with the possibility of radial and axial reciprocating movements. 2 s. P. f-ly, 5 ill.

Description

The invention relates to technological equipment for bending profiles with a variable radius of curvature

A profile bending machine is known which comprises lower drive, upper pinch rollers mounted on horizontal parallel shafts and rotatable, and support and bending rollers located on both sides of them, rotatably and radially movable.

A disadvantage of this machine is the impossibility of bending profiles with a variable radius of curvature.

The aim of the invention is to expand technological capabilities by providing flexible profiles with a variable radius of curvature.

This goal is achieved due to the fact that the bending roller is kinematically connected to the drive roller with the possibility of axial reciprocating movement, and on its outer surface there is a helical groove with a continuously variable depth, while the axis of the bending roller is placed at an angle to the axis

rotation of the other rollers, and the angle between the projections of the axis of rotation of the bending roller and the axes of rotation of the other rollers on a horizontal plane is equal to the angle of elevation of the turns of the helical groove.

ha Fig. 1 is a schematic diagram of a profile bending machine; Fig. 2 is a kinematic diagram of the proposed machine; in FIG. 3 - bending roller, section; in FIG. 4 - clamping ring, top view; Fig 5 is a side view

The profile bending machine comprises lower drive 2 mounted on the frame 1, upper clamp 3, support 4 and bending 5 rollers. The lower drive 2 (Fig. 2) roller is kinematically connected to the rotation drive 6 through the coupling 7 and gearbox 8. The bending roller 5 is kinematically blocked by gear wheels 9, 10 and 11 with a lower drive roller 2, and also mounted on the spline portion of the shaft 12 with the possibility of reciprocating movement. The clamping 3, supporting 4 and bending 5 rollers are mounted with the possibility of radial movement using nodes 13, 14 and 15 of the movement For

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limit switches 16 and 17 are used to limit the reciprocating movement of the bending roller 5.

To increase the accuracy of bending the end of the workpiece between the lower drive 2 (Fig. 1) and the supporting 4 rollers, a guide element 19 is installed with a small gap between the workpiece 18.

The bending roller 5 comprises a stepped cylindrical body 20 (Fig. 3), on the outer diameter of which there are clamping 23 and working 24 elements made in the form of screw rings rigidly fixed by means of a disk 21 and a bolt connection 22 (Figs. 4 and 5). A threaded groove 25 is made on the outer diameter of the clamping rings 23. The clamping 23 and working 24 (Fig. 3) rings assembled together comprise a helical spiral. The working 24 rings are made with a variable radius of the coil profile, which correspond to the bent profile. The threaded groove 25 of the clamping 23 rings of the bending roller 5 (Fig. 2) is in contact with the fixed nut 26, the axis of the bending roller 5 is placed at an angle to the axis of rotation of the rollers 2, 3 and 4, and the angle between the projections of the axis of rotation of the bending roller 5 and the axes of rotation of the rollers 2, 3 and 4 on a horizontal plane is equal to the angle of elevation of the turns of the helical groove.

The machine operates as follows.

When the machine is turned on, the lower roller 2 (Fig. 1) rotates the roller and the bending roller 5 to the side shown by the arrows. The workpiece 18. is fed into the gap between the lower drive 2 and the upper clamp 3 rollers with the possibility of reliable clamping. Moving, the workpiece reaches the working 24 (Fig. 3) helical grooves of the bending roller 5 (Fig. 2), the position of which determines the curvature of the part, and bends. Bending occurs in the pressure zone of the rollers 2 and 3 (Fig. 1), while the workpiece rests on the supporting 4 roller. Since the working 24 rings (FIG. 3) are made with a variable radius of turns equal to the required bending profile, the part is bent with a variable radius of curvature.

With hyoXe, the roller 5 (Fig. 2) moves relative to the fixed nut 26. At the same time, the end of the workpiece 18 (Fig. 1) comes off the supporting roller 4 and slides along the guide element 19, The moving bending roller 5 (Fig. 2)

reaches one of the extreme positions and presses the end part on the lever of one of the limit switches 16 or 17. At the same time, the rotation drive 6 is stopped.

After that, the formed profile is removed from the machine. Then include a reverse rotation of the rotation drive 6, which moves the bending roller 5 in the opposite position, until the end part is pressed on

the lever of one of the limit switches 16 or 17. In this case, the rotation drive 6 stops.

The machine is ready for bending the next workpiece.

Claims (1)

When the next workpiece is fed, the profile bending process proceeds as described above. 1, A machine for bending profiles containing and mounted on horizontal parallel shafts with the possibility of rotation of the lower drive, upper pinch rollers and support and bending rollers placed on both sides of them, fixed with the possibility of rotation and radial movement, characterized in that, in order to expand technological capabilities by providing flexible profiles with variable radius of curvature, the bending roller is kinematically connected with the drive roller with the possibility of axial reciprocating movement, and on its outer surface there is a helical groove with smooth varying depth, while the axis of the bending roller is placed at an angle to the axis of rotation of the other rollers, and the angle between the projections of the axis of rotation of the bending roller and the axis of rotation of the other rollers on a horizontal plane is equal to the angle of elevation of the turns of the helical groove. 2, Machine pop. 1, characterized in that it is provided with a guide element located between the drive and supporting rollers. 3, The machine according to claim 1, with the fact that the bending roller is made in the form of a housing with working ring elements of variable radius of curvature rigidly fixed on it and clamping ring elements of constant radius with a threaded groove on them an outer surface, wherein a helical groove is formed by placing the working elements between the pressing elements. // 4 Iff // // 1324 & V /, j