CS217698B1 - Mechanical drive of vibrating seam - Google Patents

Abstract

The invention solves the mechanical drive of a vibrating screen with a closed mechanical connection for the transport, sorting and dewatering of polymer granulate in the chemical industry. The invention can be used in the areas of industry for the transport and sorting of loose and granular materials. The mechanical drive consists of a drive shaft with an eccentric circular pin, on which a connecting rod is mounted, mounted with conical bushings in the beam holder, flexibly inserted between a pair of flexible blocks and flexibly connected through a support and adjustable screws with the supporting frame of the vibrating screen, which is mounted with double-acting silenblocks to the base frame, on which the mechanical drive with an electric motor is mounted with spacer screws.

Description

The invention provides a mechanical drive of a vibratory screen for the transport, sorting and dewatering of polymer granules in chemical production with an amplitude of 2 to 10 mm oscillations and a frequency of 1000 to 2000 oscillations / min, in which the mechanical bond is closed.

Until now, vibratory stitched seams are used in chemical production. hydraulic drive with open coupling for smaller amplitudes and mechanical drive with open-coupled eccentric pulley for larger amplitudes. The disadvantage of the open linkage of the hydraulic and mechanical drive with the vibration sieve is in the way of the vibration suture during vibration, which is ensured by the reciprocal accumulated force of torsion blocks or springs, so that reliable and trouble-free running of vibration sieves and the fatigue characteristics and durability of the flexible return members.

The present drawbacks are eliminated by the mechanical drive of the vibratory sieve according to the invention, which is based on the fact that a closed house in which the shaft is rotatably mounted is fixed to the plate, connected by a pulley to an electric motor sliding on the plate. by means of a roller bearing with a connecting rod which is connected via a bearing to a connecting rod pin which is mounted on the sides by means of conical bushes in the cross-beam holder. The transverse beam is resiliently wedged between a pair of resilient blocks at both edges and coupled resiliently via the backrest and adjustable screws to the support frame of the vibratory sieve. The supporting frame shall be swiveled by at least four pairs of double-acting silenblocks to the base frame to which the plate is attached by means of spacers, the following shall apply:

a = b + Vl ² - e ² . cos (90 ° - a), where a is the distance of the center of the shaft from the mounting of the silenblock in the base frame, b is the distance of the center of the connecting rod pin to the mounting of the silenblock in the base frame, eccentricity of eccentric circular pin. The closed house is connected to the holder by a flexible cuff. For an amplitude of 2 to 4 mm oscillations, the connecting rod can be terminated by a flange that is fastened by screws directly to the cross-beam bracket.

In the mechanical drive of the vibratory screen according to the invention, the mechanical drive rod is resiliently coupled to the vibratory screen, thereby forming a closed kinematic linkage between the mechanical vibratory screen and the vibratory screen, so that the continuous operation of the vibratory screen is not dependent on chemical operation. on the elastic and fatigue characteristics of torsion silenblocks. The torsion silenblocks here serve to resiliently swivelly attach the vibratory sieve to the base frame while being torsionally symmetrically loaded only by half the deformation relative to the open bond.

The object of the invention is shown schematically in the drawings, where in FIG. 1 is a possible design of a mechanical drive with a connecting rod pin in a side view, and FIG. 2 is a mechanical drive with a flexible plastic joint in a side view.

A fixed housing 2 in which the shaft 3 is rotatably mounted is connected to the drive 1 of the mechanical drive (FIG. 1), connected by a pulley 4 to an electric motor 5 displaceably mounted on the board 1, on which the eccentric ring pin 6 is mounted. 7 by means of a connecting rod 8, which is connected via a bearing 9 to a connecting rod pin 10, which is laterally fixed and delimited in the bracket 12 of the crossbeam 13 by conical bushes 11 and screws 25 at its sides. 14 and connected resiliently through the support 15 and the adjustable screws 16 to the support frame 17 of the vibratory sieve 18. The support frame 17 is pivotally mounted by at least four pairs of double-acting silenblocks 19 to the base frame 20 to which the plate 1 is fixed by spacer screws 21 so as:

a = b + Vl ² - e ² . cos (90 ° - a), where a is the distance of the center of the shaft 3 from the mounting of the silenblock 19 in the base frame 20, b is the distance of the center of the connecting rod pin 10 to the mounting of the silenblocks 19 in the neutral position and e is the eccentricity of the eccentric ring pin 6. The closed housing 2 is connected to the holder 12 by an elastic cuff 22. The hardness of the kinematic linkage of the drive and the vibrating sieve is adjusted by the adjusting screws 16 which adjust the stiffness of the elastic clamping. The required geometrical distance a is set by means of the spacing screws 21 for a minimum symmetrical loading of the silenblocks 19. The resilient and pivotally mounted vibratory sieve 18 by means of torsion silenblocks 19 in the base frame 20 is determined by translational reciprocating movement 8. drive by electric motor 5 vibrating movement allowing simultaneous transport, sorting and dewatering of the polymer granulate. The mechanical drive of the vibrated sieve in FIG. 2 is preferred for small amplitudes in the range of 2 to 4 mm. The connecting rod 8 is terminated by a flange 23 which is fastened by screws 24 directly to the support 12 of the crossbeam 13, its elastic engagement between the pairs of rubber blocks 14 at the same time forming a flexible plastic joint of the connecting rod 8.

Claims (2)

3 SUBJECT OF THE INVENTION 1. Mechanical drive of vibrating sieve pre-transport, sorting and dewatering of granular granules for amplitudes of 2 to 10 mm and frequency of 1000 to 2000 oscillations / min with ojne, where the vibrating seam is mounted on at least four pairs of double-acting silencers, characterized by a female board (1) a closed housing (2) is fixedly fixed in which the shaft (3) is rotatably mounted, connected by a pulley (4) with an electromotor (5) slidably mounted on the plate (1) on which the eccentric ring pin (6) is formed fitted with a rolling bearing (7), a connecting rod (8) which is connected to the connecting rod (10) via a bearing (9), which is attached to the sides by conical bushes (11) in the holder (12) of the transverse support (13), which is resilient at both edges between the pair of elastic blocks (14) and resilient through the support (15) and the adjustable screws (16) with the support frame (17) of the vibrating seam (18), the support frame (17) is swinging hired by means of four pairs of double-acting silenblocks (19) to the base frame (20), to which a stopper (1) is attached by the limiting screws (21), whereby: a = b - (- Vl2 - e2. cos (90 ° - a), where a is the distance between the center of the shaft (3) of the unlocking (19) unloading in the foundation frame (20), b is the distance of the center of the connecting rod (10) from the attachment of the silkenblock (19) in the base frame (20), 1 is the length of the connecting rod (8), and the angle of inclination of the silken blocks (19) is in the neutral position and e is the eccentricity of the eccentric circular pin (6) and the closed house (2) is connected to the holder (12) by a flexible man (22). 2. The mechanical drive of a vibrating suture according to 1 for an amplitude range of 2 to 4 mm, characterized in that the connecting rod (8) is terminated by a flange (23) which is fixed by screws (24) directly to the holder (12). ) of a crossbeam (13). 2 drawings 0