CS227191B1 - Bottom of an apparatus with at least one drive unit secured thereon - Google Patents

Description

(54) Bottom of the device with at least one drive unit mounted on it

The invention relates to a bottom solution of a device, in particular a large-scale device, with at least one drive unit mounted on it, which is mounted on a foundation.

There are large-scale devices in the industry in which the fluid content is agitated by one or more agitators, which are driven by drive units mounted from the bottom to the bottom of the device. This arrangement of power units is used, for example, in fermenters having a volume of 50 to 2000 m ^{1 * 3} , where, depending on the volume, one or more power units are connected to the bottom, the weight of the power unit being between 1000 and 5000 kg. Suspended mícihadel propulsion units operate in the speed range from 200 to 1500 min ^-1 acts on the bottom of the swirl effects produced by vibration of the rotating parts are mounted, effects induced excitation forces from the fluid mixing effect and own weight.

The existing bottom structure of such devices is designed as a thick-walled floor with a constant thickness over the entire surface, the bottom thickness being chosen to withstand the effects of rotating parts safely and can be, for example, in the range of 20 to 40 mm. The drive unit is fixed to the bottom by means of a flange connection, the bottom of which is for the most part of the surface supported on a steel or concrete foundation. The outer edge of the bottom is connected to the housing of the device and is usually anchored to its foundation by means of anchor bolts.

The disadvantage of this solution is the effect of the vibrations caused by the circular oscillation of the fixed rotating parts, which, due to the thickness of the bottom, are transferred to a relatively large distance from the oscillation source and thus adversely affect the vibrations of the housing. If several power units are placed in the bottom, the vibrations may be influenced by each other and the deflections may grow excessively.

A further disadvantage of the described solution relates to the relatively large weight of the bottom and also causes problems with the bottom handling during assembly, difficulties in welding it and difficulties in positioning the drive units in the correct position.

These disadvantages are overcome by the bottom of the device with at least one drive unit mounted on it, which is mounted on a foundation. The base of the invention is that the bottom consists of a thin-walled part and at least one thick-walled part, to which the drive unit is always attached, the thin-walled part being connected to the thick-walled supporting parts by means of a transition or compensating elemen227191 here. fc basis.

Advantages of the proposed solution of the bottom of large-scale devices are that the adverse effect of the vibrations induced by the circular oscillation of the fixed rotating parts is limited to a minimum area around the source, there is no transmission of these vibrations to the housing. Due to the thinning of the bottom in its thin-walled part, its weight is significantly reduced and thus the production and assembly costs are reduced.

An exemplary embodiment of the bottom of the apparatus with three drive units mounted thereon is schematically shown in the drawings, wherein in FIG. 1 the bottom is in front view, in FIG. 2 in plan view and FIG. 3 is a detail of the thick-walled bottom support portion with the drive unit mounted. '

The bottom of the apparatus, for example a fermenter, consists of a thin-walled part 1 and, in this example, three thick-walled support parts 2, which are evenly distributed over its pitch diameter. The thick-walled support part 2 is connected to the thin-walled part 1 either by means of a compensating element 3, which can be formed, for example, by a half-wave (shown in Fig. 3 right half) or by a gradual transition 4 (see Fig. 3 left). The outer edge of the thin-walled bottom portion 1 is circumferentially reinforced by a peripheral ring S to which the housing B of the device is attached. The thin-walled base part 1, the peripheral ring 5 and the outer edges of the thick-walled base parts 2 are supported on the base 7, while the outer edges of the thick-walled base parts 2 are anchored to the base 7 by screws 8. A drive unit 9 is connected to each thick-walled support part 2 by means of screws 8. For example, in the case of a bottom with an outer diameter of 10,000 mm and with three drive units 9, the thick-walled support part 2 is made from 24 mm thick with an outer diameter of 2500 mm. The thin-walled part 1 is made of 5 mm thick and connected to the thick-walled support part 2 by a gradual 1: 5 transition.

Claims (1)

SUBJECT The bottom of the device with at least one drive unit mounted on it, which is mounted on a foundation, characterized in that it consists of a thin-walled part (1) and at least one thick-walled support part (2), to which the drive unit (9) is connected. The thin-walled part (1) is connected to the thick-walled support parts (2) by means of a transition (4) or by means of a compensating element (3 J) and the outer edge of the thick-walled support parts (2) is anchored to the base (7).