RU39092U1 - SELF-CLEANING FILTER - Google Patents

Abstract

The utility model is aimed at creating a less energy-intensive and easier to manufacture and maintain the design of a self-cleaning filter. The specified technical result is achieved by the fact that in a self-cleaning filter containing a housing, inlet and outlet pipes, disks inside the housing, a screw blade and a filter element made in the form of a disk rigidly mounted on a screw blade and located between the disks, one of the disks contains bristles, and the other contains knives, one located at an angle (3-5) ° to the vertical axis of the filter and directed towards the rotation of the filter element, and the other is located at an angle (40-50) ° to the vertical axis of the filter and directed towards ivopolozhnom direction of rotation of the filter element. The self-cleaning filter contains a housing, inlet and outlet nozzles, disks inside the housing and a screw blade, the filter element, the filter element is located between the disks, it is made in the form of a disk and is rigidly fixed to the axis of the screw blade, in addition, one of the disks contains bristles and the other contains knives, one of which is located at an angle (3 - 5) ° to the vertical axis of the filter and is directed towards the rotation of the filter element, and the other is located at an angle (40 - 50) ° to the vertical axis of the filter and is directed in the opposite direction filtering element.

Description

The utility model relates to filtering, namely to liquid filters, and can be applied in shipbuilding, chemical, oil and other industries.

A device for cleaning liquid containing a cylindrical filter element, divided into sectors, pipes for supplying the filtrate, drainage of the filtrate and discharge of sediment [1]. In this design, regeneration is carried out in reverse flow. In order for the flow in the 11th sector to be large, it is necessary to make the throttle diameter significant, which leads to large losses of the filtered fluid. If the throttle diameter is made insignificant, then there is no way to achieve the desired reverse flow. This will lead to a decrease in the regenerative ability of the filter. In addition, there is no guarantee that the sector will stop in front of the inlet pipe, and will not slip or will stop in a different position. This will lead to the fact that not the entire filter element will be subject to regeneration.

The closest technical solution is a self-cleaning filter for cleaning liquid containing a housing, a screw blade and a drum with a perforated shell mounted on a rotating axis, a confuser mounted coaxially in the inner cavity of the drum, nozzles for supplying and discharging liquid, a circulation pipe, a supply tank and a pump [2 ]. The disadvantage of the design is its complexity, due to the presence of a circulation pipe, a supply tank and a pump, in addition, it is necessary to spend an additional amount of electric energy for pumping liquid from the tank back to the filter.

The objective of the utility model is to create a less energy-intensive and easier to manufacture and maintain the design of a self-cleaning filter.

The specified technical result is achieved in that in a self-cleaning filter containing a housing, inlet and outlet pipes, disks inside the housing, a screw blade and a filter element made in the form of a disk rigidly mounted on a screw blade and located between the disks, one of the disks contains bristles, and the other contains knives, one located at an angle (3-5) ° to the vertical axis of the filter and directed towards the rotation of the filter element, and the other is located at an angle (40-50) ° to the vertical axis of the filter and directed towards ivopolozhnom direction of rotation of the filter element.

The invention is illustrated by drawings, where in Fig.1 is a General view of a self-cleaning filter in section, in Fig.2 is a section A - A, in Fig.3 - a disk with knives and a section B - B, in Fig 4. - a disk with bristles and view B, in Fig. 5. - view D illustrating the location of the bristles.

Self-cleaning filter consists of a housing 1, covers 2 with an inlet 3 and an outlet 4 nozzles, a support 5 located inside the housing and serving as a support for the screw blade 6, a disk with knives 7 and a disk with bristles 8 inside the housing, and the disk 7 contains knives 9 and 10, and the knife 9 is located at an angle (40-50) ° to the vertical axis of the filter and is directed in the opposite direction to the rotation of the filter element 11, the knife 10 is located at an angle (3-5) ° to the vertical axis of the filter and is directed towards the rotation of the filter element 11. The disk with bristles 8 contains bristles and serves as a support intovoy blade 6, the blades 9, 10, and bristles serve to clean the dirt from the filter element 11, which is located between the disk with the blades and the disk 7 with bristles

8, in addition, the filter element 11 is made in the form of a disk and is rigidly fixed to the axis of the screw blade 6, two springs 12 and 13, which compress the knives 9 and 10 to the filter element 11, the sediment discharge pipe 14.

The filter works as follows. The filtered fluid through the inlet pipe 3 is fed into the filter, passes through the sector of the disk with knives 7, the filter element 11 is cleaned of dirt, passes through the sector of the disk with bristles 8, rotates the screw blade 6 and the filter element 11 rigidly mounted on the axis of the screw blade 6, while the disk with knives 7 and the disk with bristles 8 remain stationary. The cleaned liquid exits through the outlet pipe 4. The dirt particles stuck in the filter element 11 are removed with knives 9 and 10, the bristle of the disk with bristles 8 pushes dirt from the back of the filter element 11. The removed particles fall down and are removed through the sediment discharge pipe 14. For pressing the knives 9 and 10 to the filter element are the springs 12 and 13. The knife 9 is located at an angle (40-50) ° to the vertical axis of the filter and is directed in the opposite direction to the rotation of the filter element, knife 10 is located at an angle (3-5) ° to vertical axis phi tra and directed in the direction of rotation of the filter element. This arrangement of knives provides the most complete removal of dirt from the filter element and allows dirt to freely enter the discharge pipe of the sediment.

Thus, the proposed design of the utility model does not contain a circulation pipe, pump and supply tank compared to the prototype, which greatly simplifies the manufacture and maintenance of a self-cleaning filter, and also reduces the energy consumption for pumping liquid during operation.

Sources of information:

1. Finkelyptein Z. L., Shalko V. A., Kobylyatskaya N. M., Evsyuk O. N. Device for cleaning liquids. USSR copyright certificate No. 1428422 10/07/08 B 01 D 33/06.

2. Zaboev V.K., Shirshov B.S. Self-cleaning filter. USSR author's certificate No. 1082459 03/30/84 in 01 D 33/06.

Claims (1)

The self-cleaning filter contains a housing, inlet and outlet nozzles, disks inside the housing and a screw blade, a filter element, characterized in that the filter element is located between the disks, is made in the form of a disk and is rigidly fixed to the axis of the screw blade, in addition, one of the disks contains bristles and the other contains knives, one located at an angle of 3-5 ° to the vertical axis of the filter and directed towards the rotation of the filter element, and the other is located at an angle of 40-50 ° to the vertical axis of the filter and directed in the opposite direction board rotation of the filter element.