DE727101C - Drive of two opposing sieves - Google Patents

Description

Driving two opposing sieves The purpose of the invention is for Sieving machines, conveyors. and the like. Leaf springs, Handlebars o. The like. Suspended or supported, a drive by means of separate To create push rods via a common drive shaft which is suitable to be rigid driven crank swing seven an elastic and vibration-free run admit.

The drive should inevitably balance the inertial forces and the Energy of the oscillating masses at the dead center of the oscillating movement by means of spiral springs record in order then to accelerate the masses as well as for the size of the throwing motion of the sieve to be made usable again. The drive should also. with resonance vibrating screens Eliminate the necessary loose couplings and spring buffers on the sieve boxes so that a vibration-free running of the sieves is inevitably guaranteed. The new of the drive consists in having separate crankshafts for the push rods for each sieve are provided, which are mounted by a stationary between the two crank mechanisms Drive shaft received their drive via gears and that both crankshafts m a double lever are mounted - which is around one between the crankshaft bearings lying lying pivot point is oscillatable in the direction of the sieve movement and its Ends outside the crankshaft positionx in spring buffers attached on both sides are elastically supported.

There are already vibrators, resonance vibrating screens and screens with rigid Drive by Kurhelxi or eccentrics with or without lever transmission of the drive forces known.

Vibrators and resonance sieves have the fault that they fluctuate the feed quantity and fluctuating load oscillate outside of the resonance position. at entry this state is not a smooth run of the Sieves available. Compared to the vibrator drive, the invention offers the advantage that the crank drive due to the elastic mounting and the mounting .aller drive parts In ball bearings, it is able to carry out such a high speed with small strokes that a sieve work similar to that of the vibrator is present. The subject of the invention is therefore suitable for driving special sieves for fine sieving.

The invention has compared to the drive of resonance vibrating screens the advantage that a sieve can also be driven individually without a special counterweight can. There are also spring batteries and loose couplings. not made of rubber on the sieves required, which requires a saving in raw materials. It can swing an out-of-the-box of the sieves even with changing loads and tasks as a result of the inevitable Crank drive do not occur.

The opposite has a rigid, inevitable crank drive for screens Subject matter of the invention the advantage of not having a certain speed and stroke size beyond being able to be operated. The known drives are missing to relieve the bearing elastic storage. Sieves driven in this way are therefore limited in their performance. The rigid drive also does not allow the excess vibration energy to be stored and to make it serviceable again - as is the case with the subject matter of the invention. The separate bearings require special lubrication devices that pump to the individual lubrication points. This type of lubrication has a high Grease consumption, since each bearing is lubricated with excess. The high fat consumption Mainly occurs when the fat masses are not used.

The drive according to the invention does not require a lubricating device. All Drive parts are put together in a closed housing, so that a closed There is a lubrication circuit for all drive parts. In this way, Schiniermateri.al saved considerably.

The subject of the invention is shown in the drawing. Fig. I shows a side view of the drive and Fig. 2 shows a cross section. Fig 3 shows a crank circuit diagram.

The sieve boxes 1, 2 are freely swinging on trailing arms 3 in stored in a known manner on the sieve frame. The drive axle 5 is on both sides of the sieve frame, 1 fixedly stored in bearings 14 and carries on on both sides Middle of the Si: ebgerüstwange114 keyed transmission gears i o. For practicing the crank dead centers are 5 flywheels at the outer ends of the drive axle 15 wedged. The axis 5 is driven by the motor 16 through a belt drive on a flywheel 15. Loose swingable on the drive axle 5 are to both Sides of the screen boxes 1, 2 on the middle of the transmission wheels io and the middle of the frame cheeks 4. Double rocker arm8 supported. The rocker arms8 are hollow as a gear box trained (Fig.2). At the outer ends of the double swing lever 8 are to both Side bearing arms: available as an abutment for the arrangement of spring buffers i i, i 2. The buffer springs 11, 12 are concentric on both sides of the lever bearing arms anchored by the springs guided screw spindles on the sieve frame.

Between the spring mounting and the drive axle 5 are to both Sides of the drive axle 5 in the Doppelschwinghehel 8 short crank axles 6 mounted, which in the middle by means of keyed gears 9 in the drive and transmission wheels Engage the drive shaft 5. On the crank pin protruding on both sides of the crankshafts 6 sit, fork-shaped push rod heads 7 (Fig. 2), which over push rods 1; (Fig. I) attack the sieve boxes 1, 2 and axZ are attached to them. A spacer tube 13 connects the rocker arms to each other.

The crank circuit diagram (Fig. 3) shows the shift in the dead center positions of the rigid stroke for the purpose of increasing the sieve stroke. The removal of the points b-b means the size of the rigid crank circle stroke. The distance between the points and the enlarged Stroke due to the elastic rocker arm mounting. According to this, the Kurbehveg in Direction of the sieve movement an elliptical shape.

If the drive axle 5 is set in rotation by the start of the motor 16, so the crankshafts 6 are also forced to rotate by the gears i o, g. The crankshafts are coupled by the gears so that the displacement of the cranks for which Siebei, 2 i8o °. The push rods 17 transmit the crank stroke the sieves 1, 2 and set them in motion in opposite directions. When starting up, the Screen only a hindrance the size of the crank stroke. Has the drive axle 5 reaches its full number of revolutions, occurs as a result of the impact of the oscillating Masses in the dead center positions of the crank drives a nodding movement of the double rocker arm 8 as a result of the elastic mounting in the spring buffers i i, 12. To this Way - there will be an elastic increase in the stroke of the otherwise rigid drive of the sieves by the impact caused by the crank mechanism. The ones in the Energy stored in springs can be used again to accelerate the masses made.

Claims (3)

PATENT CLAIMS: e.g. Two opposing seventh drives are driven by separate ones Push rods through a common drive shaft, characterized in that for each push rod (17) a special crankshaft (6) is provided by a stationarily mounted between the two crankshafts (6). Drive shaft (5) over Gears get their drive and that both crankshafts (6) my double lever (8) are mounted around a fulcrum located between the crankshaft bearings (5) is swingable in the direction of the sieve movement and its ends outside the crankshaft bearings (6) are elastically supported in spring buffers (i I, 12) attached on both sides. 2. Drive according to claim i for a. Sieve, characterized in that the one The required crankshaft (6) is stored in one arm of the chaff swing lever (8) and on the other arm opposite the elastic spring buffer support (i i, 12) of the double rocker arm (8) is arranged. 3, double rocker arm for sieve drives according to claims i and 2, characterized in that it is hollow for receiving Drive wheels (9, io) is designed as a closed gearbox, the oil tight Closure on the end faces of the crankshafts (6) by the push rod heads (7) , is formed.