SU466898A1 - Device for dewatering bulk materials - Google Patents

Description

one

This invention relates to devices for dewatering bulk materials, such as sand, in silos using filters.

A device for dewatering bulk materials, such as sand, is known that contains a dewatering hopper with a filter mounted centrally and connected to a vacuum system.

The disadvantages of the known device are its low efficiency, the complexity of the maintenance and cleaning of drainage pipes when clogged with particles of the material leaving with water.

The purpose of the invention is to intensify the process of extracting moisture from dehydrated materials, such as sand, and improving service conditions. This is achieved by the fact that the bunker is equipped with mesh filters located in its lower part on the side walls on the outside and connected to a vacuum system, the filter housing placed in the lower part of the bunker having movable and fixed perforated walls and provided with a movable grid cover.

FIG. 1 shows the proposed device; in fig. 2 is the same, node I in FIG. one; in fig. 3 is the same, node II in FIG. one.

The device contains a hopper 1, inside which the mesh filter is installed in the center.

2. In the lower part of the bunker on the side walls from the outside are placed mesh filters 3 in the amount of not less than two.

All filters are connected by pipelines 4 to a vacuum system consisting of a sump 5 and a water-ring vacuum pump 6. A vacuum interrupter 7 is inserted between the sump and the pump, for example a three-way valve with a drive. To the pump 6 is connected special capacity - Receiver 8.

The central filter 2 includes a perforated pipe 9, covered with a mesh 10. A tube with a mesh is inserted into the protective tube, also

perforated, pipe AND of a larger diameter so that the holes in the pipes 9 and 11 coincide, and is closed with end caps 12 and 13. In the bottom cover 13 there is a hole 14 connected to the pipe 4.

The screen filter 3 consists of two main parts - the body 15 and the cover 16. A perforated sheet 17 is welded to the body, to which another perforated sheet 18 adjoins, which has the ability to move

with the aid of, and a special mechanism 19 along the sheet 17. At the same time, the holes in the sheets 17 and 18 can be combined to pass water into the filter or shut off to stop the flow of water. On the lid 16 reinforced rigid perforated sheet 20 with a grid 21

and a pipe 22 connected to the pipeline 4.

The device works as follows.

The vacuum pump 6 is turned on. Water is sucked in through filters 2 and 3 due to vacuum, and through pipelines 4 together with partially carried sand enters the sump 5, from which it is periodically discharged.

Simultaneously with the pump 6, an interrupter 7 is turned on. Under the action of vacuum, the sand is held on the surface of the filters 2 and 3, and its movement along the bunker is impeded. Under the action of the vacuum interrupter, the pipes 4 are shut off for a certain time from the vacuum pump and are connected to the atmosphere or a source of compressed air. Sand breaks loose from the surface of the filters and progresses along the bunker to the exit. The vacuum pump that continues to work creates an additional vacuum in the receiver connected to it, which, after switching the vacuum interrupter to 7 pipelines on the vacuum pump, facilitates the rapid creation of a vacuum in the system.

In case of clogging of the central filter 2, the valve 23 is closed and the filter 24 is blown through the filter with compressed air. When clogged filter 3 sheet 18 is moved along the sheet 17, blocking the holes in them and stopping the flow of water. Then the lid 16 is opened and the screen 21 is washed. At the same time, the bunker is not turned off from work, as while washing one of the filters, the others continue to work.

Subject invention

Claims (2)

1. A device for dewatering bulk materials, such as sand, containing a dewatering hopper with a filter installed centrally and connected to a vacuum system, characterized in that, in order to maximize moisture extraction from the sand, the hopper is provided with mesh filters placed in its bottom part side walls on the outside and connected to a vacuum system. 2. The device according to claim 1, characterized in that the filter housing is housed. at the bottom of the bunker, has a movable and fixed wall and is equipped with a movable lid with a grid. Knot .H / / M FIG. 2 Fig.Z