SU1027059A1 - Screw press for stamping with twisting - Google Patents

Abstract

D. SCREW PRESS FOR PUNCHING STABLER, containing a frame, a slider mounted in its guides, mounted in a slider rotatably with respect to the press axis, a firing pin with a nut fixed on it, and also mounted in a bed frame, coupled to the nut and connected to the press wheel the flywheel of the screw spindle, and so on, so that, in order to reduce energy consumption and overall dimensions, it is equipped with devices for fixing the slider relative to the frame and the striker relative to the slider, respectively , as well as the brake spindle. (P u o ate wed

Description

d. Screw press according to claim 1, characterized in that the screw spindle brake is designed as a driving friction disk fixed on the spindle with the possibility of axial movement between the bed cross member and the driving flywheel, the latter being mounted on the screw spindle rotatably.

The invention relates to the processing of metals by pressure, in particular, to presses with a screw mechanism, and can be used for sh1: torsion amps with round, powder-like parts with high tintness, as well as for shaping similar parts from compact materials, for deforming of which are required high specific efforts. Known screw press dp strain with torsion of steel contents, mounted in its slider rails, firing pin mounted in the slider rotatably with respect to the axis of the press, as well as mounted in the crossbar of the frame and articulated in a screw with a flywheel ij. A disadvantage of the known press is the large energy consumption and large overall dimensions and weight due to the fact that the kinetic energy stored by the MOBILE parts of the press depends on the magnitude of the acceleration stroke and the moment of inertia of the machOvik. The aim of the invention is to reduce overall dimensions and energy consumption. To achieve this goal, a screw press for stamping with torsion containing a frame, a slide mounted in its direction, mounted in a slide that can be rotated relative to the axis of the press of a nut with a nut fixed on it, and mounted in a crossbar of the frame combined with a nut and the screw spindle, connected to the drive flywheel, is provided with devices for fixing the respective slider relative to the stain and striker relative to the slider, as well as the brake spindle brake. In addition, the screw spindle brake can be made in the form of a drive friction disk mounted on the spindle with the possibility of axial movement of the crossbar of the frame and the drive motor, while the latter is mounted on the screw spindle rotatably. The drawing shows the proposed press, a general view. The screw press contains a frame 1, in the upper crossbar of which In bearings 2 and 3 a screw spindle 4 is installed, having a screw thread in the lower part. At the upper end of the spindle 4 is mounted a drive flywheel 5, which serves to accelerate the spindle 4 by means of the fHa actuator (not shown), which can be made in the form of an electric motor with a belt transmission of arc stators, a friction disk, etc. In the guides of the bed 1, a composite slider is installed, the inside of which is the striker b using sliding bearings 7, 8 and flynts 9 is mounted in the outer (housing) 10 for rotation. At the upper end of the housing 10, a device 11 is fixed against its striker 6, which can be made in the form of a shoe, disc, band brake or any other controlled locks. In the inner cavity of the striker b, a nut 12 is fastened, its thread is connected to the threads of the pin-holes 4. In the side posts of the bed 1, fixation devices 13 are mounted relative to it of the body 10. These devices can be made in the form of controlled rigid stops, friction blocks driven by power cylinders etc. The press also provides for a spindle brake 4, which can be block, tape, etc., but it is preferable to perform it as a driving friction disk 14 mounted on spindle 4 d with the possibility of axial movement between the upper cross member of the frame 1 and driving gear 5 which, in the ITO case, is mounted on the spindle 4 rotatably in the sub-arrays. The press works as follows. At the initial moment, the composite slider is in the extreme upper position, the screw spindle 4 is braked relative to the upper cross member of the bed 1 by means of the friction disk 14, the device 11 is disconnected, but the striker 6 can freely rotate in the housing 10, which, in its the queue is fixed relative to the bed 1 by the device 13 and keeps the backbeck b from moving downward under the action of its own weight. When the drive is turned on (not shown), the flywheel 5 starts to rotate. Then the friction disk 14 moves upward under the action of its drive (not shown) and locks the flywheel 5 relative to the screw spindle 4, which starts rotate in bearings 7.8 and store, teucuM, kinetic energy; As soon as the striker b is gaining the Where) HE in energy, determined by the 40th number of its revolutions, the Friction disc 14 of the card moves down and the screw spindle 4 is carried by the transverse of the frame of the frame 1 with simultaneous shutdown of the devices 13 of the bar, continuing rotation, and the rotation will continue. with housing 1

moving down, deforming the workpiece. After the firing pin 6 consumes all the stored energy, it stops, at the same time, the device 11 switches on

relative to the housing 10, and the friction disk 14 moves upward, connecting the screw spindle 4 to the flywheel 5, which continues to run under the drive during the entire cycle. The helical spindle 4 again receives rotation, and the housing 10 with a striker b rises up. When approaching them to the extreme upper position, devices 13 are turned on,

fixing the housing 10 relative to the frame 1, and at the same time the devices 11 are turned off, the striker b again begins to rotate and store kinetic energy. Next, qi (with repeats.

The invention allows to reduce the overall dimensions of the press and reduce the energy losses in the drive associated with its switching on and off.

Claims (2)

D. SCREW PRESS FOR TUNING, containing a bed, a slider installed in its guides, mounted in the slider with the possibility of rotation relative to the axis of the press of the hammer with a nut fixed on it, and also installed in the cross section of the bed, articulated with a threaded nut and connected to the drive flywheel the screw spindle, and with the fact that, in order to reduce energy consumption and overall dimensions, it is equipped with devices for fixing the slide, respectively, relative to the bed and the hammer, relative to the slide, and screw spindle brake. 2. Screw press according to π. 1, characterized in that the screw spindle brake is made in the form of a drive friction disk fixed to the spindle with the possibility of axial movement between the bed frame and the drive flywheel, while the latter is mounted on the screw spindle for rotation. ’F