CS196944B1 - Driving mechanism of the winged masticator - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a propeller of a wing mixer for preparing materials, and more particularly to an arrangement of shafts with kneading wings and shafts with a worm in the housing housing to rotate the kneading wings and worm in the working vessel.

Wing kneaders for the preparation of materials, especially in the ceramic industry, have two kneader wings rotating horizontally side by side in a working vessel horizontally next to each other. Underneath these kneading wings, in the middle between them, is a discharge auger. This screw also serves to intensify during the kneading process by changing the direction of rotation of the screw. The prior art drive units for wing kneaders are designed either as mechanical, with different arrangement of drive elements or as hydraulic. Such powertrain solutions are advantageous in terms of time savings in the operation of the hydrofoil, where the auger can be used for emptying without interrupting the movement of the hydrofoil. The disadvantage of such solutions is the complexity of the drive composition, resp. its manufacturing accuracy, which is disadvantageous in terms of manufacturing and operational maintenance costs.

According to the invention, said drawbacks are eliminated, improved performance and operational reliability of the drive train are achieved, continuous operation of the whole unit is ensured and operational maintenance costs are reduced.

This is achieved by the fact that the shafts of the kneading wings in the working vessel housed in the housing are interconnected by gears with the drive shaft and the worm shafts in the working vessel housed in the housing housing are connected to a drive motor with a variator. with the drive motor and the variator are arranged in the housing in parallel. The kneader shafts and the auger shaft in the working vessel are mounted in bearings connected inside the housing, the bearings in the housing on the facing side of the gearbox shaft drive and on the far side of the drive and the variable speed drive motor outside the housing housing. while the other bearings are free in the housing. A flexible coupling is provided on the shaft with the gear between the drive and the housing, as well as on the worm shaft with a toothed clutch between the variable speed drive motor and the housing. On the worm shaft, a gear coupling is arranged in the housing housing space, the housing housing, the drive and the variable speed drive motor are mounted on a common frame.

The invention is apparent from the accompanying drawing, which schematically illustrates the arrangement of a housing with gears on its shafts in its working space for driving the kneading wings in the working vessel and a shaft with a toothed clutch for driving the worm in the working vessel. The shafts are derived from the drive and the rotational movement of the gear shaft is derived from the drive motor with the variator.

The drive device according to the invention comprises a housing 1 with gears 2, 3 arranged on the shafts 4, 5, 6 and connected to the drive 7. Shafts 5, 6 are provided outside the housing 1 with kneading wings 8, 9 arranged in the working vessel 10. In parallel with these shafts 4, 5, 6, there is a shaft 11 in the housing housing 1, which is designed as a worm 12 outside the housing housing 1. Shafts 4, 5, 6 with gears 2, 3 and shaft 11 with worm 12 are mounted. in bearings 13 connected inside the housing 1. A gear clutch 14 is mounted on the shaft 11 with the worm 12 inside the housing 1. The shaft 4 with the gear 2 is connected to the drive 7, which forms a multi-speed gearbox with a flanged electric motor, outside the housing 1. at the end of this worm 12 connected to a drive motor 15 with a variator, a double-action safety clutch. The bearings 13 in the housing 1 on the side facing the drive 7 of the shaft 4 with the gear 2 and on the far side from the drive 7 and the variable speed drive motor 15 outside the inside of the housing 1 are fixed guide while the other bearings 13 are free in the housing 1 . The shaft screw 12, as well as the kneading wings 8, 9 of the shafts 5, E, is arranged in the working vessel 10. On the shaft 4 with the gear 2 between the drive 7 and the housing 1, as well as on the shaft 11 with the toothed clutch 14 inside the housing 1 and the screw 12 in the working vessel 10 between the variable speed drive motor 15 and the housing 1 is a flexible coupling 16, 17. For ease of assembly and disassembly, the drive 7, the variable speed drive motor and the housing 1 are arranged on a common frame 18.

When engaging the drive 7, the gear 2 is rotated via the clutch 16 and the shafts 5, 6 with the kneading wings 8, 9 in the working vessel 10 via the gear 3 of the shafts 5, 6. When the variable speed drive motor 13 is connected. with the toothed clutch 14 and the worm 12 in the working vessel 10. As the kneading wings 8, 9 on the shafts 5, 6 rotate, the material to be kneaded is kneaded. This is discharged from the working vessel by a screw 12 of the shaft 11, connected to a drive motor 15 with a variator, which makes it possible to vary continuously the speed of rotation of the screw 12 of the shaft 11 in both senses over a wide range.

By arranging the two drive branches in the housing housing space longitudinally side by side no. the common frame allows easy assembly and disassembly of the drivetrain with good accessibility for maintenance. The construction height of the drive train then does not exceed the construction height of the working vessel with the kneading wings and the worm, which also ensures good accessibility for the operation and maintenance of the other parts of the working vessel. Use of drive motor with variator. it enables to continuously change the rotation of the auger in the working vessel in both senses, necessary for emptying and kneading the material in a wide range and with small space requirements. The advantageous positioning of all shaft bearings in the housing allows for the use of the oil charge to lubricate the gearing of the gearing and these bearings as well as the gear coupling, thereby simplifying the operation of the housing and utilizing fully the oil in its working space.

Claims (4)

A propellant mixer for mass preparation, connected to kneading wings and worm, arranged in a working vessel and driven mechanically, characterized in that the shafts (5, 6) of the kneading wings (8, 9) are mounted in the working vessel (10). in the housing (1) are interconnected by gears (2, 3) with the shaft (4) of the drive (7) and the shaft (11) of the worm (12) in the working container (10) supported in the housing (1) is connected to the drive motor (15) with a variator, wherein the shafts (5, 6) of the kneading wings (8, 9) with the drive (7) and the shaft (11) of the worm (12) with the drive motor (15) and the variator are arranged in the housing (1) concurrently. Drive apparatus according to claim 1, characterized in that the shafts (5, 6) of the kneading wings (8, 9) and the shaft (11) of the worm (12) in the working vessel (10) are mounted in bearings (13) connected inside the housing (1) of the housing, whereby the cutting tool: the bearings (13) in the housing (1) of the housing facing the drive (7) of the shaft (4) with the gear (2) and the far side of the drive (7) and the drive motor (15) with variator outside the housing ) the housings are fixed guide while the other bearings (13) are free in the housing (1). Drive assembly according to one of Claims 1 to 3, characterized in that on the shaft (11) of the worm (12) there is a toothed clutch (14) arranged in the space of the housing housing (11), the housing housing (1) being a drive (17). and the variator drive motor (15) are mounted on a common frame (18). 4. Drivetrain according to claim 1, characterized in that on the shaft (4) with the gear (2) between the drive (7) and the housing (1) as well as on the shaft (11) of the worm (12) with toothed gear. the coupling (14) between the variable speed drive motor (15) and the housing (1) is a flexible coupling (16, 17).