DE263318C - - Google Patents

Description

IMPERIAL

PATENT LETTERING

V ^ 263318-. CLASS 58 1>. GROUP

BRÜDER SCHERB company in VIENNA.

Drive for friction disc screw presses. Patented in the German Empire on October 13, 1912.

The drive of friction disks - screw presses is known so far that in the area of the friction wheel, which is usually designed as a flywheel and which is wedged on the spindle carrying the press carriage, two driven friction disks are adjustable in such a way that either one or the other, depending on the Slide go up or down and therefore the Spindelreibrad is to be rotated to one side or the other, is brought into contact with this. This contact, namely with the ascending or descending friction disc, is maintained during the entire ascending or descending movement of the spindle friction wheel that participates in the up and down movement of the slide during its rotation, but this has the following disadvantages: In the upright position of the When the companionway friction disc is engaged, the spindle friction wheel comes into contact with the surface of the spindle friction wheel at a point of such a radius that the circumferential speed prevailing in this radius of the friction disk is greater than would be necessary to set the spindle friction wheel in motion . There will therefore be sliding between the companionway friction disk and the friction wheel, which is detrimental both in terms of business economy and construction. The further decline of the spindle friction wheel is accelerated, and this is also taken into account by the increase in the contact radii of the friction disk. The disadvantages occurring at the beginning of the movement are inevitable with this type of construction. _:

However, these disadvantages are even greater with the upward stroke of the spindle friction wheel. At the Engage, the exit friction disc comes this with its largest radius with the spindle gear in contact, that is to say at the greatest speed of rotation, so that there is significant sliding and an associated high Wear and energy loss occur.

At least to eliminate these inconveniences some extent, has already resorted to the 'resource that the keyed on the spindle flywheel is connected to a no \ ^r he change his altitude rotatable Reibrade to rotation, and in that friction smaller half diameter with this Reibrade alternately in contact could be brought. These always touched the friction wheel with the same radius that was taken as the mean value compared to the contact radii of the friction disks discussed above. This at least partially compensated for the abuses mentioned. "

The present invention now takes place

MiHd on in order to reduce this assistance even further, namely _: by designing and mounting the friction disks in such a way that their successive contact radii are adapted to the type of rise and fall of the press slide.

Tn of the drawing are in Figs two embodiments of the new drive for friction disks - screw presses are shown.

Tn one in the press stands (Fig. I)

inserted nut runs the steep spindle 2, which below the pressing slide 3

. carries and on the top the row wheel 4, which also acts as a flywheel, is keyed is. By driving this friction wheel 4, either in one or in the other Meaning, the spindle 2 is either lifted or in its mother sitting in the stand ι

ao lowered so that the press slide 3 also carries out its rise or fall. This Rotating in one sense or another is done by alternately engaging the two friction disks 5 and 6, here according to

* 5 of the invention are conical. the Friction disk 5 sits firmly on the shaft 7, which is slidably mounted in the stator .achsiai which a bevel gear 8 is keyed so that it can be moved relatively, but which is axially

30. Position towards the press part is somehow prevented. engages in the bevel gear 8 a bevel gear 9 which is seated on the shaft 10 of the drive pulley 11.

In the same way, the friction disk 6 is also seated on a shaft 12 which is axially displaceable in the stator 1 and which carries a bevel gear 13 which is prevented from being axially adjusted relative to the press frame and engages in a bevel gear 14 which is seated on the shaft 15 of the drive pulley 16 . The two pulleys 11 and 16 are constantly driven, so that the two friction disks 5 and 6 also rotate continuously. The two shafts 7 and 12 are connected to a lever 18 by a rod ij , in such a way that either the friction disk S or the friction disk 6 is pressed against the friction wheel 4 by axial displacement by adjusting the lever 18 in one sense or the other. In a central position of the lever 18, both friction disks remain out of engagement with the friction wheel 4.

In Fig. I the friction wheel 4 is shown at the upper end of the stroke. Should now the press slide 3, perform its descent, i.e. working stroke, so wifd by adjusting the lever 18, the friction disk 6 is pressed against the friction wheel 4, with the friction disk 5 disengaged. The friction disk 6 revolves in the sense that the friction wheel 4 and so that the spindle 2 is also screwed down. Tn the maximum position shown in Fig. 1 of the spindle friction wheel comes the smallest radius of the friction disk 6 with its surrounding area in touch, so that the transition from rest to movement is as gentle as possible and without there is strong sliding between the friction disc and the friction wheel. Once there is the friction wheel 4 in motion, its further decline is accelerated, and that makes sense of it worn that its surrounding area with ever larger radii of the friction disk 6 comes into contact. This is of course the case mounted at an angle that the generating line of its cone that comes into contact with the friction wheel 4 is perpendicular. The conical training the friction disk 6 allows the first contact radius to be as small as it is necessary to effectively avoid the abuses described above.

If the press carriage 3 again lifted ..: '■> ■ be, the lever 18 is displaced to the other side, so that the friction ring 6 disengaged and the friction plate 5 is engaged. The friction washer 5 is tapered in the opposite sense than the friction disk ^6: therefore comes at the lower stroke end of the friction wheel 4 with its smallest radius in'Berührung to the spindle plate 4, so that here too guiig the transition from the rest to Bcwc- 90 ■ without Excessive sliding between: friction disc 5 and Spindclreibrad 4 takes place. The acceleration work to initiate the downward movement of the slide 3, including the spindle 2 and friction wheel 4, is of course greater than the acceleration work at the beginning of the downward movement, plus the fact that some work processes to be carried out on the screw press require the tools clamped during pressing to be released from the workpiece . In this case, the smallest radius of the exit friction disk 5 is therefore assumed to be as small as possible; a certain sliding, however, can never be avoided. However, once the movement has been initiated, it should be accelerated, and this is taken into account by the upward widening of the friction disk 5. Of course, the friction disk 5 is also mounted in such a way that the generatrix of its cone is perpendicular at the point of contact with the spindle disk 4. The holding up of the .Spindelreibrades 4 is done either by gently pressing the rising friction disc or by a brake.

If one is satisfied with a more or less uniform upward movement of the Press slide, the embodiment according to FIG. 2 can also be used. iao Here screwed in the stand 19, as before, the spindle 20, the below

Press slide 2i and above the friction wheel designed as a flywheel 22 carries, in its Area of the conical companionway friction disk 23 on the axially displaceable shaft 24 is inclined. The friction wheel 25 can be loosely rotated in place around the spindle 20 stored and by means of the sliding bolts 26, which engage in bores of the friction wheel 22, coupled with the latter on rotation. In the

Rich of the friction wheel 25 is also the friction disk 27 on the axially displaceable Shaft 28 supported. The friction disks 23 and 27 are driven by the axially Displacement in the space of the press frame hindered bevel gears 29 and 30, which are in engagement with each other, while the latter simultaneously also in the one on the shaft 31 of the drive pulley 32 seated bevel gear 33 engages. To the waves' 24 and 28

.20 .of the friction disks 23 and 27 engages a two-armed Lever 34, which can be adjusted by the lever 35 such that the two Shafts 24 and 28 are axially displaced in opposite directions, as a result of which the friction disk 23 on the spindle friction wheel 22, soon the friction disc 27 is pressed against the driver friction wheel 25 will.

In Fig. 2, the friction wheel 22 is shown in its highest position. When the press

30- slide 21 is to go down, is by ver. position of the lever 35, the friction disk 23 is pressed against the friction wheel 22, and the decline takes place in the same way as in the embodiment of FIG The friction disk is pressed against the friction wheel 25, as a result of which it is set in rotation and, by means of the bolts 26, takes the spindle friction wheel 22 with it, so that the upward movement takes place. The friction disk 2 ″] is always in contact with the friction wheel 25 at the same peripheral speed. The conical design of the friction disk 27 in the illustration in FIG. 2 has, as can easily be explained, only structural reasons.

Of course, the structural design of the individual parts and also their arrangement undergoes various changes within the framework of the principle set out.

Claims (1)

Patent claim: Drive for friction disks - screw presses, characterized in that either the downward or upward friction disk or both are conical and are so stored, that with the circumference of that which is stuck on the spindle Friction wheels that come into contact with generators of their cones are perpendicular and the cross-sections of the latter in the case of one friction disc from top to bottom, on the other hand for the other friction disc increase from bottom to top, for the purpose of increasing the peripheral speed of the friction discs either when going down or when going up, or in both cases of the speed of rotation of the spindle friction wheel and energy losses avoid. 1 sheet of drawings. BERLIN. PRINTED IN THE HtICIlSDHUCKEIlEI.