CN108854267B - An elastic filter - Google Patents

Abstract

The present invention relates to a filter screen used in the filtering process in the field of industrial and agricultural production and scientific research, in particular: an elastic filter screen; an elastic filter screen, the filter screen mesh of the elastic filter screen includes a mesh frame and a convex isolation point, the convex isolation point is arranged on the mesh frame, the convex isolation point and the mesh frame form a filter mesh, and the filter screen mesh is made of elastic material; the present invention relates to an elastic filter screen, the mesh frame of the filter screen is set as a spiral structure or a serpentine rotating structure, because the mesh of the filter screen has an elastic design that the mesh frame is unfolded after being stretched by an external force, the particles blocking the mesh can be quickly removed, and the filter screen can adjust the size of the filter mesh within a certain range through an external force, and filter objects of different sizes within a certain range are filtered. The filtering effect, work efficiency and filtering range are improved.

Description

An elastic filter

Technical Field

The invention relates to a filter screen used in filtering procedures in industrial and agricultural production and scientific research fields, in particular to an elastic filter screen.

Technical Background

At present, filter mesh is needed in the filtering process of industrial and agricultural production and scientific research fields. However, in the filtering process, due to the frequent operation of the filter mesh, the problem of filtered particles often getting stuck in the filter mesh is often encountered. Even backblowing or vibration cannot completely eliminate the mesh blockage problem, which affects the filtering effect of the filter mesh in the filtering process and also affects the work efficiency. At the same time, due to the fixed mesh size of the existing filter mesh, it is often used one by one in the filtering process of industrial production and scientific research fields, and can only filter the filtrate of particles of fixed size, and there is no scalability in the filtration range of the filtrate.

Summary of the invention

The invention aims to solve the above problems and provide an elastic filter screen. The elastic filter screen uses the stretching and resetting principle and the compression and resetting principle of the elastic material skeleton to make a new filter screen, which can effectively solve the problem of the filter screen being blocked by the filtered object. At the same time, the filter screen can adjust the size of the filter screen mesh within a certain range, thereby expanding the filter screen's filter particle size range.

In order to achieve the above-mentioned purpose, the present invention is implemented as follows: an elastic filter screen, the filter mesh body of the elastic filter screen includes a mesh body frame and raised isolation points, the raised isolation points are arranged on the mesh body frame, the raised isolation points and the mesh body frame form filter mesh holes, and the filter mesh body frame is made of elastic material.

The filter screen mesh skeleton is designed as a spiral structure.

The spiral structure is configured as a cylindrical spiral, a conical spiral, a spherical spiral, a planar spiral, a barrel spiral or other spiral structures or other shapes of filter mesh skeletons that can be formed by the spiral structure

The filter screen body skeleton is designed as a serpentine rotating structure.

The serpentine rotating structure is configured as a plane serpentine rotating structure, an arcuate serpentine rotating structure, a V-shaped serpentine rotating structure, a U-shaped serpentine rotating structure or a filter mesh skeleton of other shapes that can be formed by the serpentine rotating structure.

The protruding isolation points are made of non-elastic material and only have the function of filtering particles of a fixed size.

The raised isolation points are made of elastic material, have the function of adjusting the size of the filter mesh within a certain range, and have the function of filtering filter particles of different sizes within a certain range.

The shape of the material for making the convex isolation points can be linear, curved sheet, cylindrical, etc.

The elastic material is made of elastic metal material or non-metal material.

The metal material or non-metal material is made of a material having high tensile strength, fatigue strength, creep strength, fracture strength and relaxation resistance.

The present invention discloses an elastic filter screen, wherein the mesh frame of the filter screen is set as a spiral structure or a serpentine rotating structure. Since the mesh body of the filter screen has an elastic design that the mesh frame is expanded after being stretched by an external force, the filter screen can easily filter out unnecessary particles during frequent filtering work, and the mesh frame is expanded by an external force, so that the particles blocking the mesh holes can be quickly removed, so that the filter screen will not be blocked by the filtered objects. At the same time, the convex isolation points on the mesh frame of the filter screen can be made of not only non-elastic materials but also elastic materials, so that the mesh frame of the filter screen compresses the convex isolation points made of elastic materials under the pressure of external force, so that the gap of the mesh frame changes, so that the size of the mesh holes of the filter screen can be adjusted within a certain range, and filtered objects of different sizes within a certain range can be filtered. The filtering effect, working efficiency and filtering range are improved.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of an elastic filter mesh skeleton configured as a spiral structure.

FIG2 is a schematic diagram of an elastic filter mesh frame configured as a serpentine rotating structure.

FIG3 is a schematic diagram of an elastic filter screen with raised isolation points in a linear structure.

FIG4 is a schematic diagram of an elastic filter screen in which the raised isolation points are curved thin sheet structures.

In the figure: filter mesh body 1, mesh body frame 2, protruding isolation points 3, filter mesh holes 4.

DETAILED DESCRIPTION

The present invention will be further described below in conjunction with the accompanying drawings (as shown in Figures 1, 2, 3, and 4):

An elastic filter screen, wherein the filter screen body 1 of the elastic filter screen comprises a screen frame 2 and convex isolation points 3, wherein the convex isolation points 3 are arranged on the screen frame 2, and the convex isolation points 3 and the screen frame 2 form filter meshes 4 (as shown in FIG. 2 , FIG. 3 , and FIG. 4 ). The screen frame 2 is made of elastic material, and the convex isolation points 3 are made of elastic or non-elastic material.

As shown in Figure 1, the filter mesh skeleton 2 is a spiral structure, and the filter mesh 1 is designed as a cylindrical spiral. The spiral structure of the filter mesh skeleton 2 can also be set as a spiral structure such as a cylindrical spiral, a conical spiral, a spherical spiral, a surface spiral, a barrel spiral, or other shapes of filter mesh skeletons that can be formed by a spiral structure according to the needs of the filtered object.

As shown in Figure 2: the filter mesh frame 2 is designed as a serpentine rotating structure. The filter mesh body 1 is designed as a plane serpentine rotating structure.

The filter mesh skeleton 2 of the serpentine rotating structure can also be set as a plane serpentine rotating structure, an arcuate serpentine rotating structure, a V-shaped serpentine rotating structure, a U-shaped serpentine rotating structure or other shapes of filter mesh skeletons that can be formed by the serpentine rotating structure according to the needs of the filtered object.

The filter mesh frame 2 shown in FIG. 1 to FIG. 4 is made of an elastic material; the elastic material is made of an elastic metal material or a non-metal material.

The protruding isolation points 3 shown in FIG. 1 to FIG. 4 are made of non-elastic metal or non-metal material, elastic metal or non-metal material.

The convex isolation points shown in FIG3 are a schematic diagram of a linear structure.

The convex isolation points shown in FIG4 are schematic diagrams of a curved thin-film structure.

The metal material or non-metal material shown in Figures 1 to 4 is made of materials with high tensile strength, fatigue strength, creep strength, fracture strength and relaxation resistance.

The metal material or non-metal material shown in FIG. 1 to FIG. 4 has good formability.

Claims (12)

1. The elastic filter screen is characterized in that a filter screen body of the elastic filter screen comprises a screen body framework and convex isolation points, wherein the convex isolation points are arranged on the screen body framework, and the convex isolation points and the screen body framework form filter screen meshes; the filter screen body framework is made of elastic materials and is of a spiral structure; the convex isolation points are in a column shape; the convex isolation points are made of elastic materials or inelastic materials; the elastic material is made of elastic metal material or nonmetal material.

2. An elastic filter screen according to claim 1, wherein the spiral structure is provided as a cylindrical spiral.

3. An elastic screen according to claim 1, wherein the spiral structure is conical spiral.

4. An elastic screen according to claim 1, wherein the helix is spherically helical.

5. An elastic screen according to claim 1, wherein the spiral structure is a planar spiral.

6. An elastic screen according to claim 1, wherein the spiral structure is barrel-shaped spiral.

7. An elastic screen according to claim 1, wherein the screen body is designed with a horizontal plane.

8. An elastic filter screen according to claim 1, wherein the screen body has an arcuate surface design.

9. An elastic screen according to claim 1, wherein the screen body has a V-shaped profile.

10. An elastic screen according to claim 1, wherein the screen body has a U-profile design.

11. An elastic screen according to claim 1, wherein the raised isolation points are linear.

12. An elastic screen according to claim 1, wherein the raised isolation points are in the form of curved sheets.