SU990602A1 - Hopper arrangement - Google Patents

Description

(5) BUNKER DEVICE

The invention relates to devices for storing and unloading hard-flowing materials prone to caking and collapsing, and is intended for use in construction, coal, chemical food and other sectors of the national economy.

A device is known for preventing the free-flowing of bulk materials in a bunker, in which material coalescence is prevented by loosening it with a special stirrer placed inside the hopper and rotating the material itself in the direction opposite to the stirrer's movement, which is carried out using a special mechanism that rotates the lower conical part of the hopper 1.

The disadvantage of this device is that it is intended for dry bulk materials and is ineffective for damping wet

caking materials and does not clean the walls of the bunker from wet compacted sediments.

It is also known to have a bunker device comprising a housing and a device for breaking the material arches, consisting of a vertically mounted shaft with vibrator rod, an eccentric eccentric mechanism, including a sleeve mounted on the shaft, and a drive, while the vibrated cores are a spatial grid, which moves in a circle with a radius of 5 to the eccentricity, rolling relative to the shaft, oscillating L2j.

The disadvantage of this device is that it is intended and can only be effective for

20 dry bulk solids and unsuitable for wet compacted materials

pa, which are necessary when working with wet compacted material.

The aim of the invention is to accelerate the unloading process of the hopper by allowing the oscillation amplitude of the vibro cores and the torque on the shaft to be controlled.

The goal is achieved by the fact that in a bunker device comprising a housing and a device for breaking the material arches with a shaft of a vertically mounted shaft with vibrating rod, an eccentric horn mechanism, including a sleeve fixed on the shaft, and a drive, the eccentric support mechanism contains an additional sleeve eccentric mounted on the main bushing, an additional bushing is connected with the drive, and the main bushing is connected to the shaft by means of a friction clutch, while the eccentricity between the bushing E is eccentricity of the main sleeve relative to the shaft.

In addition, the vibrating cores can be equipped with flexible elements for stripping the walls of the bunker from the sediment.

, Figure 1 shows the bunker device, a general view; figure 2 - section aa in figure 1; Fig. 3 shows the trajectory of the vibro cores.

The device consists of a housing 1, an eccentric support mechanism 2 with an electric drive 3 and a vibrating shaft 1 with vibrator rod 5 fixed on it. The vibrator rod ends with flexible elements 6 (for example, chains in contact with the walls of the bunker.

The eccentric support mechanism 2 with the electric drive is mounted on a common frame 7, which by means of a shock absorber 8 rests on the upper pv plate of the housing 1 of the device equipped with a shutter 9.

In the case of the eccentric support mechanism 2, eccentric sleeves 11 and 12 are installed on rolling bearings 10, both sleeves having the same eccentricity. In the main sleeve 12, a vibrating shaft is mounted on the sliding bearings. The main sleeve 12 can be rotated relative to the additional sleeve 11, thereby adjusting the amount of eccentricity of the vibration shaft.

shaft k relative to the mechanism bearing 2.

The electric drive of the device is equipped with a belt drive 13 and a friction clutch 1, which makes it possible to regulate the magnitude of the torque transmitted from the electric drive to the vibrating shaft.

The operation of the device consists in

0 next.

After opening the shutter 9, the electric drive 3 is turned on, which with the power of the belt drive 13 drives the eccentric bushings to rotate

5 11 and 12. The latter, rotating, inform the shaft t and the vibrator core 5 circular oscillatory movements. The amplitude of these oscillations is controlled by turning the sleeve 12 and can be changed from 0 to 4 D (D is the eccentricity of the internal opening of the additional sleeve 11 relative to the bearing 10 and the screw sleeve 12 relative to the shaft).

5 At the same time, the shaft is transmitted a torque, which is formed by. the friction count in the bearing of the sleeve 12 and the friction clutch 14 connecting the sleeve. 12 and shaft f. With this vibrog

0 rod1 / 5 receive a circular motion around the axis of the bunker.

The trajectories of circular oscillatory movements of the vibration cores 5 and their circular motion relative to the axis

5 of the bunker is shown in FIG. 3. The combination of two movements of the vibro-cores and the presence of a friction clutch in the drive design make it possible to bring down the arches of very dense sediments with a minimum expenditure of energy. At the first moment, only circular oscillatory movements, vibrating in place and liquefying the sediment zone in the immediate vicinity of the rods, vibrate the core.

As the sediment liquefies around each of the rods, the magnitude of the torque transmitted by the coupling becomes sufficient for the sterols to rotate relative to the axis of the bunker and they begin to rotate around the axis of the bunker, overburdening the compacted sediment to the gate and stripping as the sediment of the wall 5 of the bunker unloads as flexible elements.

Claims (2)

The design of the device allows controlling the process of rotation and oscillation of the vibro-cores by adjusting the torque transmitted by the friction clutch and the magnitude of the amplitude of their oscillations. All this makes it possible to establish the optimum mode of unloading of compacted sludge with minimal energy costs. Claim 1. Bunker device, comprising a housing and a device for breaking material vaults, consisting of a vertically mounted shaft with vibrating rods, an eccentric supporting mechanism, including a sleeve mounted on the shaft, and a drive, which has By the fact that, in order to speed up the unloading of the bunker by ensuring the oscillation amplitude of the vibrosterine and the torque on the shaft are controlled, the eccentric support mechanism contains an additional sleeve eccentrically attached to the main sleeve e: an additional sleeve associated with the drive, and os1yuvna sleeve connected to the shaft via a friction clutch, the eccentricity between the sleeves is equal to the eccentricity of the sleeve relative to the main shaft. 2. The device according to claim 1, on. t and chuyu ee so that. bunker walls in 1broete | Books are equipped with flexible elements. Sources of information taken into account during the examination 1. USSR author's certificate No. 63977, cl. In 65 D 88/68, 19772. The USSR author's certificate No. 283029, cl. B 65 D 90/52. 19b9. (prototype). ten Sleeve axis (shaft () NodiuunauKa- axis 3 Phi2: 2