DE2942227A1 - Press blade drive for baling press - has threaded spindle engaging with motor driven spindle nut - Google Patents

Abstract

The press blade drive is intended for use in a baling press. The press blade is driven in the press assembly by an electric motor via a gearbox. There is a longitudinally movable spindle (7). This spindle is set on the press blade (9) and its external thread engages in the internal thread of a spindle nut (6) which is tuned by the electric motor. The nut is supported on the press housing (30) so that it self-adjusts.

Description

Press shield drive in a baling press

The invention relates to a press shield drive in a baling press or the like with one of an electric motor via a gearbox press shield driven in a press.

A press shield drive of the type mentioned is known. Of the The press shield is driven hydraulically. With a hydraulic drive However, oil losses cannot be avoided, which is what happens when setting up a baler in closed rooms, such as bank buildings, administration buildings, very considerable Can cause damage. A hydraulic drive is also exceptional expensive and complicated and in terms of efficiency - based on the recorded electrical performance - unfavorable. Apart from the poor efficiency of a hydraulic drive in relation to the electrical power consumed exceptionally high feed forces are used to prevent any To be able to compensate for tilting of the press shield in its leadership on the housing and to provide sufficient pressing force for baling.

The object of the present invention is to provide a press shield drive of the type mentioned in such a way that at lower production costs a lower drive power, based on the same pressing power, is required is.

To solve the problem, the invention is characterized in that that a longitudinally displaceable spindle attaches to the press shield, its external thread into the internal thread of a spindle nut rotatably acted upon by the electric motor engages, which is mounted self-adjusting on the housing of the press.

An essential feature of the present invention is that with a significantly lower drive power, the same pressing power as is achievable in hydraulic presses. With a drive power of 1.5 kW a pressing capacity of 6 tons is achieved. Otherwise drive powers of about 2.2 kW. The reason for the reduced drive power while remaining the same Press performance and for a more cost-effective training of the press is that the Spindle nut can adjust itself automatically in relation to the press plate. One achieves This results in a practically noiseless drive of the press, since canting of the The press shield can no longer be compensated for by an increased drive power must, but such Tilts are made by the self-adjusting Spindle nut caught. It is preferred here if the spindle nut is double-cardanic is adjustable on the housing. That means that the spindle nut is entire is adjustable in three levels in the housing. For degraded embodiments it would of course be sufficient to only adjust the spindle nut in two planes to store, so that these deteriorated embodiments are also subject to the inventive concept of the present invention.

For the self-adjusting bearing of the spindle nut in the housing there are different options. A preferred embodiment of the present The invention relates to the fact that the spindle nut has two in relation to the drive direction opposing roller bearings is mounted in a pressure housing, and that the pressure housing is rotatably mounted in a frame, which in turn in a vertical Pivotable plane to the axis of rotation of the pressure housing in the housing of the press is.

Through the use of roller bearings placed against each other the pressing forces transmitted in the axial direction from the spindle to the spindle nut transferred in a favorable manner to the pressure housing (bearing housing). Instead of using of roller bearings placed against each other but also tons bearings or other known bearings with the possibility of axial force absorption Direction possible.

What is essential to the present invention - regardless of the type the bearings used - that the pressure housing (bearing housing) rotates in a frame is recorded.

The axis of rotation is chosen so that it is in the vertical plane lies. This means that horizontal tilting (swiveling movements of the press shield in a horizontal plane) can be transferred to the pressure housing via the roller bearings and that the pressure housing then rotates in relation to the frame and thereby the Cantons' forces are made unspecific.

In another embodiment, however, it is possible to use the axis of rotation not to be arranged vertically between the pressure housing and your frame, but in horizontal plane, so that canting of the press shield in vertical Level to be included.

It is preferred here if the rotatable Lac3erun (J of the pressure housing a threaded screw is screwed into the frame in a threaded bulge of the frame is, dic engages with a pin in an associated bore of the pressure housing. This way the tenon is in Connection with the assigned Hole created the desired pivot bearing.

In a plane perpendicular to the axis of rotation mentioned at the beginning it is then a second pivot bearing provided between the frame and the housing of the press. A pin-and-bore bearing could also be provided here, as in the rotatable mounting of the pressure housing is provided in the frame. It will be here however, it is preferred that for the pivotable mounting of the frame in the housing of the press 1 ".adjustable screws are provided. by welding the. different parts can arise, balanced erdeii by simply adjusting the adjustment screws accordingly.

It is therefore essential according to the present invention that the spindle nut is mounted in two on, perpendicular stellelldon axes of rotation in the housing and can absorb and compensate for the tilting of the press shield without that additional friction occurs, which requires additional drive power To make the press shield longitudinally displaceable in the housing, this must be done some game in terms of his leadership own. It will preferred here if the press shield is longitudinally displaceable in this way in the housing of the press is performed that a tilting of the press shield to the housing of the axis of rotation between Pressure housing and frame is provided. To do this, place lateral, Guide elements pointing in the direction of displacement, which are profiled in a U-shape, Guide grooves formed by guide rods are guided on the housing. Through this the press shield is allowed a certain bearing play in its longitudinal guide, and this bearing play is absorbed by the self-adjusting spindle nut, without additional frictional losses occurring. The electric drive the spindle nut can hereby be dimensioned very small, which takes up the space and the costs of the press according to the invention are substantially reduced.

The rotary drive of the spindle takes place in that the DrehEesL with the Spindle nut is a gear that is connected by a chain from one to one Gear flanged drive pinion is driven.

The gear is a transmission gear, so that the spindle nut is driven rotating relatively quickly.

The thread for the spindle nut and the assigned spindle a double trapezoidal thread TR 50 x 16 is used because it is a special quieter and quieter Run is achieved.

13ei baling presses driven in a horizontally longitudinally displaceable manner the material to be pressed in the form of bales in the press shaft initially on the ground filled. As a result, the press shield is located in its part in the bottom area an opposing force on the part of the material to be pressed is always stronger as compared to the upper part of the press shield. To any resulting To avoid tilting of the Breßschildes, it is provided that the spindle attacks eccentrically on the press shield in such a way that the attack t) uitkt in the central longitudinal axis and lies below the Mittenguerachse of the press shield. The point of attack of the The spindle is therefore moved in the downward direction on the press shield, so cfass hereby an uneven load on the press shield is compensated and the tendency to tilt of the press shield is further reduced.

The subject matter of the present invention does not result only from dn-m C, object of the individual patent claims, but also from the combination of the individual claims with one another.

III below, the invention is illustrated by means of only one embodiment Illustrative drawing explained in more detail. Here go from the drawings and their Description more features and advantages essential to the invention of the invention.

It shows: FIG. 1 schematically shows a longitudinal center line through the press drive according to the invention; Fig. 2 front view of the press shield, compared to 3 various parts which are not used for explanation have been omitted; Fig. 3 Top view of the press shield.

A motor 1 with a gear 2 is flanged to a housing 30. The output shaft of the transmission 2 is connected to a drive pinion 3, via that a chain 4 is placed, which runs over a gear 5, which rotatably with a Spindle nut 6 is connected. The spindle nut 6 has a double internal trapezoidal thread and sits on the associated thread of a displaceable in the direction of arrow 8, 8 ' Spindle 7, at the front end of which the press plate 9 attaches.

The spindle nut 6 is thereby in two mutually perpendicular Adjustable levels (self-adjusting) that on ussenunlfang the spindle nut 6 two against each other; fluted roller bearings 13, 14 with each other Locked threaded nuts 23 are attached. The roller bearings placed against each other 13, 14 absorb the axial forces of the spindle acting in the direction of arrow 8. Of the fixed bearing ring of the roller bearings 13, 14 is received in a pressure housing 28, which is rotatably arranged (axis of rotation 20) in relation to a frame 15.

The rotary bearing is carried out in that the frame 15 has a threaded hole 16 is arranged, into which a threaded screw 1 / is screwed. The front end the threaded screw 17 has a pin 18 which is inserted into a bore 19 of the pressure housing 28 intervenes. This is due to the engagement of the pin 18 in the bore 19 Pivot bearing cl (forms with its axis of rotation 20.

There. ; estell 15 in turn is in the vertical plane of the axis of rotation 20 mounted in the ciiusc 30 so as to be pivotable in the directions of arrows 21, 22. Warehousing takes place via adjusting screws that pivot the frame 15 in the directions of the arrows 21, 22 enable. This compensates for Hertelluiigstoleranzen caused by Welding of the frame at. of manufacture and other inaccuracies: en of the parts are generated.

According to FIG. 2, the press shield 9 is in the side walls of the housing 30 slidably mounted. On the press shield 9 there are guide elements pointing in the longitudinal direction 10 arranged, which aDgesttitzt by cross members 24, 25 opposite the press shield.

are, (see Fig. 3).

Guide rods 11 and 12 are arranged on the side wall of the housing 30, which form a laterally open, U-shaped guide groove 26. Through this leadership of the press shield 9 on the housing 30, the press shield still has a small amount of tilting play with an axis of rotation that runs through the axis of rotation 20 of the threaded screw 17, smacked.

In this way, a particularly easy and low-friction run is achieved of the press shield 9 guaranteed.

To tilt the press shield 9 in the vertical longitudinal center axis to avoid, which is caused by the fact that more material is added to the bottom of the press compressing is than at the top, the spindle 7, as shown in FIG. 2, engages eccentrically on the press plate 9. The point of attack lies in the vertical longitudinal center axis, is about, however, offset downwards, so that the distance 27 is greater than that Distance 29. The point of application of the spindle 1 on the press plate 9 is therefore in the direction offset to the bottom of the press.

Of course, the conditions described change accordingly, if a press drive other than a horizontally displaceable press drive is used.

It is only essential that a self-adjusting spindle nut is proposed which compensates for the tilting play of the press shield, thereby increasing friction losses avoids, so that a much smaller sized drive with smaller Noise can be used. By using a mechanical Spindle drives are about two thirds of the cost of a hydraulic drive saved.

Claims (9)

Claims S Preßschild-AntHeb in a baler or the like with one of an electric motor via a gearbox longitudinally displaceable in a press driven press shield, that is shown on the press shield (9) a longitudinally displaceable spindle (7) attaches whose external thread into the internal thread a spindle nut (7) rotatably acted upon by the electric motor engages which is mounted self-adjusting on the housing (30) of the press. 2. Press shield drive according to claim 1, d a d u r c h g e k e n n notices that the spindle nut (7) can be adjusted with double gimbals on the way (30) is stored. 3. Press shield drive according to claim 1 and 2, d a d u r c h g e k e It is noted that the spindle nut (7) has two in relation to the drive direction opposing roller bearings (13, 14) mounted in a pressure housing (28) is, and that the pressure housing (28) is rotatably mounted in a frame (15), which in turn can be pivoted in a plane perpendicular to the axis of rotation (20) of the pressure housing (Arrow directions 21, 22) is mounted in the housing (30) of the press. 4. PreSschild drive according to claim 3, d a d u r c h g e k e n n z e i c h e t that for the rotatable mounting of the pressure housing (28) in the frame (15) a threaded screw (17) is screwed into a threaded bore (16) of the frame (15) is, which with a pin (18) in an associated bore (15) of the pressure housing (28) takes effect. 5. Press shield drive according to claim 3, d a d u r c h g e k e n n z e i c h e t that for the pivotable mounting of the frame (15) on the housing (30) screws are provided for the press. 6. Press shield drive according to one of claims 1 to 5, d a d u r c h e k e k e n n n n e i c h n e t that the rotary drive of the spindle nut (7) thereby takes place that a gear (5) is non-rotatably connected to the spindle nut (7) is, via a chain (4) from a drive pinion flanged to a gear (2) (3) is driven. 7. Press shield drive according to one of claims 1 to 5, d a d u r c h g e k e n n n z e i c h n e t that the press shield (9) in the housing (30) the press is guided in a longitudinally displaceable manner that tilting of the press plate to the housing (30) with the axis of rotation (20) between the pressure housing (28) and the frame (15) is provided. 8. Press shield drive according to claim 7, d a d u r c h g e k e n n z e i c h n e t that the press shield is laterally pointing in the direction of displacement Has guide elements (10), which are profiled in a U-shape, by guide rods (11, 12) formed guide grooves (26) are guided on the housing. 9. Press shield drive according to claim 7 and 8, d a d u r c h g e k e n n z e i h n e t that the spindle (7) off-center on the press shield (9) in such a way attacks that the point of application in the central longitudinal axis and below the central transverse axis of the press shield (9) is located.