DE663400C - Friction wheel press with only one drive pulley - Google Patents

Description

Friction wheel press with only one drive pulley The invention solves the task of simplifying the drive in friction wheel screw presses. In this way This results in a simpler structure of the entire machine and possibly also a lower overall height. To solve this problem, inter alia. Features of a well-known Pres @ senart used. This has only one traction sheave. The shaft of this traction sheave is on one side next to the driven body, which is arranged coaxially with the spindle and mounted perpendicular to the spindle axis. While in this well-known press the The friction surfaces of the drive pulley and the driven body are parallel to the spindle axis and so the applied contact pressure on the spindle in the radial direction transferred, according to the invention, the friction surface of the traction sheave is approximately perpendicular to the spindle axis. The driven body has a corresponding relationship to the spindle axis perpendicular friction surfaces with which the friction surface of the traction sheave alternates is engaged. To achieve this intervention and the middle position the traction sheave is arranged so that it can be raised and lowered or pivoted. The g'etri 'level Body only executes circular movements, which are supported by suitable sliding guides, be transferred to the spindle, for example by tongue and groove. The driven one Body can be designed in various ways. An advantageous design results when the driven body consists of two disks that are coaxial with one are connected to the spindle arranged jacket. Because of the wear and tear in operation reduced traction sheave diameter is only one or are both discs adjustable with respect to the jacket. This carries radially inwards 'Directional guide strips, which are firmly connected to the spindle by grooves Body are partially embraced. This body can be in a disc, a wheel or a flywheel, depending on whether between the jacket and the spindle there is only one connection that secures the transmission of the orbital movement or the kinetic energy of the rotating masses is to be increased. At a Another advantageous embodiment, the body has a non-round, for example square hole in which a fitting body, for example designed as a square Part of the spindle slides. This also ensures secure transmission of the Orbital motion of the only rotating, driven body on the rotating one and falling spindle guaranteed. To secure the position of the driven body in the direction of the spindle axis are arranged on the other side of the Reibflächeneinriites Rollers, cylinders or the like that control the contact pressure of the traction sheave take up. Thus any effect of the contact pressure on the spindle is avoided.

The drawing illustrates two exemplary embodiments in FIGS. 1 and 2 a Rei wheel spindle press according to the invention, in section.

According to Fig. I, the press body i takes the one secured by the disk 2 Nut 3 of the up and down spindle 4, which with the ram through a Neck bearing is connected. The longitudinal bearing 6 sits on the nut 3, against which the hub 7 of the disk 8 is supported. The jacket 9 is fixed to the disk 8 and connected to the disk io adjustably, and has radially inwardly directed Guide strips, i i, which for example consist of welded-on T-bars. The spindle 4 carries at its upper end the flywheel 12, the grooves 13 of which Include guide strips i i partially. Both disks 8 and io have friction linings 14, 15 on. The side of the pressed body i is the body 8, 9, i o overlapping Flanged arm into which the adjustable sleeve 17 is screwed, which is against the vicinity 18 of the disk i o with the interposition of the longitudinal bearing 19 is supported. The arm 16 has an opening through which the hub 2o is guided. In this is the shaft 23 rigidly connected to the belt pulley 21 and the drive pulley 22 rotatably mounted. The hub 20 is supported against the bolt 24 of the pressure rod 25. The bolt 24 is held by the eyes 26 and 27 of the arm 16. aside from that carries the hub 20 of the pin 28, which is guided in the further eye 29 of the arm 16 is. The diameter of the traction sheave 22 is only slightly smaller than the clear one axial distance between the friction surfaces 14 and 15. Beyond the R: eibflächeneinriffes between Drive pulley 22 and pulley 8 or io are on the arm 16, the support rollers 3o,; i stored. The body 8, 9, i o is guided without play between these.

By operating the Andrückges, tänges 25 is done by hand, using pressurized water or liquid or the like. The hub 2o and the rotating parts carried by it alternately raised and lowered over the bolt 2: 1, so that the traction sheave 22 comes into engagement with the friction lining 14 of the disc 8 or 15 of the disc i o. the the belt pulley 21 communicated by a suitable drive revolving motion is transferred to the body 8, 9, io. Through the sliding engagement of the flywheel 12 with the guide strips i i continues to take the spindle 4 to the circumferential movement part, which also creates an up and down movement.

In the case of the press according to FIG. 2, the parts which correspond to those in FIG. I are denoted by the same reference numerals; @es thus mean: i the press body, 2 the lock washer, 3 the spindle nut, 4. the spindle, -t@1.en ram, 6 and i 9 the longitudinal bearings, 8 imd ; J l # Üle pulleys, 12 the flywheel, 14, 15 efbbeläge, 16. The arm, 17 the bushing, 2o the hub, 21 the pulley, 22 the drive pulley, 23 the shaft, 24 the bolt, 25. The pressure rod, 26 , 27 and 29 the eyes, 28 the pin, 3o and 31 the support rollers.

The hub 7 is extended on the side facing away from the plunger 5 and carries the square bore 32, in which the fitting piece for this, d. H. as Square-shaped upper part of the spindle 4 slides. With the hub 7 is also The washer is non-rotatably connected by the tongue and groove and by the nuts 34 and 35 secured. With the help of these nuts, the distance between the washer io can be changed as desired by the pulley 8 to allow the engagement of the traction sheave 22 with the friction linings 14, 15 required pressing movement as small as possible to keep. The transmission of the rotational movement communicated to the pulley 21 takes place accordingly. Instead of the guide strips i i and grooves 13 are the bore 32 and the square 33 kicked. The spindle is thus driven by the rotating body 8, i o rotated and also moved up and down by the thread fit. To increase the kinetic energy of the rotating parts, the spindle 4 above of the square 33 an oscillating body i 2 are placed.

The advantages of the new design are, as mentioned, in the complete relief of the spindle from contact pressure. This is also the then Case when the friction linings 14, 15 are planar rings, the friction surface of the traction sheave 22, however, is slightly conical. In this case, the hub 2o and the parts stored in this to achieve engagement with the friction linings 14, 15 pivoted. If only one blow of low energy is to be carried out with the press the rotating parts can be made so weak that the strength conditions is enough. In particular, the disks 8 and i o can then be held very easily will. Additional weights are neither to be lifted nor turned, like this that the force required to drive the press is correspondingly lower. The reduction in the mass of the rotating parts also increases the risk of accidents significantly restricted. In addition, the press according to Fig. I has the one with the spindle 4 rigidly connected clay running parts covered by the jacket 9. A full jacket is not required for the connection between the panes 8 and io, rather, struts to accommodate the guide strips are sufficient for smaller designs i i and to transmit the torque.

Claims (4)

PATENT CLAIMS: i. Friction wheel spindle press finite with only one drive pulley, whose shaft is on one side next to the one arranged coaxially with the spindle, driven Body and is mounted perpendicular to the spindle axis, characterized in that the friction surface of the drive pulley runs approximately perpendicular to the spindle axis that .der driven bodies also have friction surfaces perpendicular to the spindle axis with which the friction surface of the liftable, lowerable or pivotable traction sheave is alternately brought into action, and that the driven body merely revolves executes, which by means of suitable sliding guides, for example by tongue and groove, transferred to the spindle. 2. friction wheel screw press according to claim i, characterized characterized in that the driven body consists of two discs (8, io) which with a casing (9) arranged coaxially with the spindle (4) the traction sheave diameter (22) are adjustably connected, and that the jacket (9) radial. inwardly directed guide strips (i i) carried by grooves (13) a body firmly connected to the spindle (¢), for example a disk, a wheel or a flywheel (12), are partially included. 3. Friction wheel press according to claim i, characterized in that the driven body has a non-round, for example, square bore (32) in which a fitting body, for example as a square (33) designed part of the spindle (4) slides. 4. Friction wheel press according to claim i, characterized in that the driven body beyond the Friction surface engagement of rollers (30, 31), rollers o. The like. Is supported.