EP1490177A1

EP1490177A1 - Drive unit for horizontally turning rotational solid

Info

Publication number: EP1490177A1
Application number: EP02708116A
Authority: EP
Inventors: Thomas Deeg; Armin Ineichen
Original assignee: Maag Gear AG
Current assignee: FLSmidth Maag Gear AG
Priority date: 2002-04-03
Filing date: 2002-04-03
Publication date: 2004-12-29
Also published as: AU2002242568A1; JP2005521558A; US20050227588A1; WO2003090932A1; CN1625442A; CN1283362C

Abstract

Disclosed is a drive unit for a rotational solid (2) which revolves around the essentially horizontal longitudinal axis (3) thereof. Said drive unit is arranged laterally below the rotational solid (2) such that the driving pinion/s (4, 4') engage/s in the toothed ring (6) of the rotational solid (3) in a downward direction at an angle between 35° and 90° from the horizontal line. Said arrangement of the housing (1) of the drive unit substantially reduces the lateral space required for the entire installation. Another advantage lies in the fact that the drive unit can be mounted directly on the floor or base of the installation, whereby no additional console or base is needed.

Description

Drive for horizontally rotatable rotating bodies

The present invention relates to a drive according to the preamble of claim 1. Large, cylindrical rotary bodies are used, for example, in ball, rod or cement mills. The material to be processed is poured into a cylindrical grinding drum, which is rotatable about a horizontal axis. Conventionally, the grinding drum is supported on bearings and has a ring gear, which is generally formed at one end on the circumference and into which pinions of the grinding drum drive engage. In a known embodiment, a pair of pinions engages horizontally laterally in the ring gear of the grinding drum, while the bearings are arranged below the longitudinal axis of the grinding drum. The drive forms a unit together with the reduction gear.

This arrangement has the advantage that the drive and the gear can be easily moved into the ring gear and can also be easily removed or opened for maintenance work. However, the large lateral space requirements and the large height of the necessary gear foundation have a disadvantageous effect. The object of the present invention was to find a drive for such a rotary body, which requires less space on the side of the rotary body in terms of dimensions than it does in conventional drives is the case, and its foundation can be made small and therefore inexpensive.

According to the invention, this object is achieved by a drive having the features of claim 1. Further preferred embodiments result from the features of claims 2 to 7.

The inventive arrangement of the gear housing laterally below the rotating body significantly reduces the space requirement for the entire system laterally. This is due to the fact that the gear housing comes to rest at least partially in the area below the rotating body, and only a part protrudes laterally beyond the contour of the rotating body.

The drive is preferably arranged vertically below the rotating body. As a rule, the entire gear housing now lies within the contour of the rotating body and no additional space is required and no additional foundation is required. This has the further advantage that the pinions can, if necessary, also take over the mounting of the rotating body arranged above, ie the corresponding supports can be replaced or. do not have to be provided at all. Overall, this leads to a further simplification of the construction of the entire system. Another advantage of this arrangement is that no additional mounting brackets have to be provided for the drive, but the drive directly next to the rotating body on the floor or. Foundation of the plant can be attached. This facilitates both the Assembly as well as maintenance and servicing work on the drive.

It has further been shown that the arrangement of the pinions according to the invention leads to a favorable force ratio in the transmission of the driving force to the rotating body.

The drive according to the invention is suitable in principle for all types of plants with horizontally arranged rotating bodies, but preferably for plants in large dimensions, such as ball mills or cement mills.

An embodiment of the present invention is explained in more detail below with reference to figures. 1 shows schematically the end view of a drive according to the invention; and

Fig. 2 shows schematically the end view of a further preferred embodiment of the drive according to the invention. In Figure 1, the gear housing 1 of the drive for a cylindrical rotating body 2 is shown in the front view with respect to the axis of rotation 3 of the rotating body 2. The rotating body 2 is, for example, the grinding drum of a cement mill, the outer contour of this rotating body being only shown in dashed lines for the sake of clarity.

In the gear housing 1 of the drive, the gears are arranged in the form of a reduction gear, the two output pinion 4 respectively. 4 'protrude from the housing cover 5 of the gear housing 1 to the outside in the direction of the axis of rotation 3 of the rotating body 2. The teeth of the output pinion 4, respectively. 4 'now engage in that attached to the circumference of the rotating body 2 at this point

Sprocket 6 (only shown in sections). The engagement of the upper drive pinion 4 takes place at an angle α of at least approx. 25 ° -40 ° with respect to the horizontal transverse axis of the rotating body 2. The lower pinion 4 ′ thus has an engagement angle of approx. 40 ° to 55 °.

This arrangement of the transmission housing 1 of the drive according to the invention projects the outside of the

Gear housing 1 laterally only slightly from the outer contour of the rotating body, which means a significant space saving compared to conventional drive arrangements. The overall width of such a system can thus be reduced in comparison to conventional systems, i.e. less installation space is required for the same length and volume of the system.

Another advantage is that the gear housing 1 resp. Foundation of the system can be attached, and no additional platform for the gear housing is required, as is the case with conventional, side arrangement. This also simplifies the placement and assembly of the drive and ensures easier and better access for maintenance and maintenance work on the gearbox. FIG. 2 also shows schematically the front view of a further preferred embodiment of the drive according to the invention. Here now the two pinions 4 and 4 respectively. 4 'symmetrically with respect to the vertical axis 7 of the rotary body 2 from below the ring gear 6. With this arrangement, the two pinions 4, respectively. 4 'at the same time serve as a support for the rotating body 2 at this point. In this way, a support for the rotary body 2 can advantageously be saved, and at the same time the lateral space required for the drive is further reduced. In the case shown, the drive now protrudes, respectively. the Getπebegehause 1 no longer at all laterally out of the lateral contour line of the rotating body, so that the space requirement for such a system depends primarily on the outer dimensions of the rotating body 2.

Of course, it is conceivable to provide a gearbox with only one output pinion 4 in smaller systems, or even to provide two opposing drives in larger systems, which engage in the same ring gear 6 of the rotating body 2.

The motor of the drive according to the invention is flanged to the drive shaft of the transmission in a conventional manner, preferably via a coupling. The drive axis thus preferably comes to lie parallel to the axis of rotation of the rotary body 2 and the lateral dimension of the entire drive is not enlarged compared to the outer dimension of the transmission housing 1.

Claims

claims

1. Drive for a rotatable about its substantially horizontal longitudinal axis (3)

Rotary body (2), which has on its circumference a toothed ring (6), in which output pinion (; 4 ') of the transmission of the drive engage, characterized in that the drive is arranged below, to the side of the rotary body (2), that the respectively. the output pinion (4; 4 ') engages at an angle between 25 ° and 90 ° from the horizontal down into the ring gear (6).

2. Drive according to claim 1, characterized in that the drive each has a pair of output pinions (4,4 ') which engages one behind the other in the ring gear (6) of the rotating body, possibly with respect to the longitudinal axis (3) of the rotating body against each other added.

3. Drive according to claim 1 or 2, characterized in that the gear housing (1) of the drive has a horizontally extending base plate and an opening plate (5) from which the ring gears of the pinion (4; 4 ') from the gear housing (1) protrude, which is arranged at an angle of 60 ° to 0 ° with respect to the base plate.

4. Drive according to one of claims 1 to 3, characterized in that the drive is arranged substantially vertically below the rotating body (2) and has two output pinions (4,4 ') which are symmetrical with respect to the vertical axis (7) of the rotating body (2) arranged in the toothed ring (6) and preferably at the same time form the bearing for the rotating body (2) at this point.

5. Drive according to one of claims 1 to 4, characterized in that the pinions (4,4 ') have a degree toothing.

6. Drive according to one of claims 1 to 5, characterized in that the drive motor is flanged to the drive gear via a coupling, preferably with a drive axis running parallel to the axis of rotation (3) of the rotary body (2).

7. Drive according to one of claims 1 to β, characterized in that the rotary body (2) is a hollow cylinder, preferably designed as a grinding drum of a ball mill.

8. Use of a drive according to one of claims 1 to 7 for ball mills or cement mills.