KR200375483Y1 - Multi-structual wire-screen - Google Patents

Abstract

The present invention relates to a composite structure wire mesh screening apparatus, and more particularly, to a composite structure wire mesh screening apparatus that improves the efficiency of screening by combining rotation screening with conventional vertical or horizontal vibration screening. The composite screening device provided according to the present invention is a screening device for passing a medium of less than a certain size while the media input from the top by gravity moves downward while constant inclination, vertical vibration and left and right vibrations are added. An upper flat screening net and a lower flat screening net provided by the flat screening net on which the input medium is mounted so as to be divided into parallel and separated from each other; And a rod fitted in a spaced space between the upper flat screening net and the lower flat screening net, which is inserted to protrude from the flat surface of both flat screening nets, and rotates and disperses from the top to the bottom to enhance screening of the medium. Member; characterized in that consisting of. According to the present invention, it is preferable to enhance the particle sorting effect in an operation in which sorting is clearly required according to the particle size.

Description

Multi-structure wire mesh screening device {Multi-structual wire-screen}

The present invention relates to a composite structure wire mesh screening apparatus, and more particularly, to a composite structure wire mesh screening apparatus that improves the efficiency of screening by combining rotation screening with conventional vertical or horizontal vibration screening.

Conventionally, a screening apparatus is used as a device for screening particulate matter having a certain size, and is generally aliased as a sieve, mesh, or the like, and screening is performed according to the mesh degree configured for screening. Typically, when the particles are poured on one side of the screening and the particles are poured while inclining, the particles passing through the mesh of the screening are discharged to the bottom, and the particles not passing through the mesh are collected separately.

Adopting this work in an automated facility, in order to prevent the limit of the particle separation efficiency is derived only by simple inclination, the screening to give the screen left and right or up and down oscillation to enable a faster and larger amount of particles. However, when the amount of particles to be passed through the screening device is added in accordance with the treatment capacity, the particle sorting operation may be sufficiently performed through the conventional device, but the amount of particle material to be sorted is provided unevenly. Of course, when the excessive provision is in progress, there is a case in which the problem that the screening device is not sufficiently made by the inclination, the left and right vibrations, the up and down vibrations alone, and the particles are not properly selected through the screening device.

1 is a schematic perspective view of a conventional screening device.

As shown in FIG. 1, when the particle sorting medium 13 introduced from the obliquely arranged upper portion of the screening device 10 passes through the mesh of the inner screen of the wire mesh, it is discharged in the direction underneath (arrow 14) and is not. In this case, it is separately collected to the lower portion of the screening device 10 (arrow 15). In order to adjust the particle sorting efficiency of the screening device 10, it is possible to adjust the inclination angle is arranged, by connecting an external power means (not shown) to cause left and right vibration (arrow 11) or to screen the vertical vibration (arrow 12) It can also be added to the device.

However, when particles with high adhesiveness are introduced or the particle sorting medium 13 is excessively introduced, the particles to pass through the mesh are also screened in the downward direction (arrow 15) even through the inclined element and the left / right / up and down vibration elements. As it is, the problem that proceeds as it is exposed.

As these conventional problems occur, efforts to solve them have been made in the related field, and the present invention has been devised under this background.

The technical problem to be achieved by the present invention on the basis of the above-mentioned conventional problem is to solve the problem that the particle sorting is not effectively made when the medium required for particle sorting is excessively input, to solve such a technical problem It is an object of the present invention to provide a composite structure screening device for the purpose.

In order to achieve the technical problem to be achieved by the present invention, the composite structure screening device provided according to the present invention has a constant inclination, vertical vibration, and left and right vibrations, while the medium injected from the upper side by gravity moves downward, and is less than a certain size. A screening device for passing only a medium of the above, comprising: an upper flat screening net and a lower flat screening net provided so that the flat screening net on which the input medium is mounted is divided into parallel and separated from each other; And a rod fitted in a spaced space between the upper flat screening net and the lower flat screening net, which is inserted to protrude from the flat surface of both flat screening nets, and rotates and disperses from the top to the bottom to enhance screening of the medium. Member; characterized in that consisting of.

In this case, the rotation screening member is preferably provided in parallel with two or more spaced apart a predetermined interval. Meanwhile, the rotation screening member is automatically rotated by the frictional force generated while the medium required for particle selection is moved from the top to the bottom By further rotating means for supplying a rotational force to the end of the rotation screening member can be forcibly rotated to enhance the particle sorting force of the medium.

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Hereinafter, the present invention will be described in detail with reference to Examples, and in order to help understanding of the present invention, it will be described in detail with reference to the accompanying drawings. However, embodiments according to the present invention can be modified in many different forms, the scope of the present invention should not be construed as limited to the embodiments described below. Embodiments of the present invention are provided to more completely describe the present invention to those skilled in the art.

2 is a perspective view of the wire mesh screening according to the present invention.

As shown in FIG. 2, when the medium to be injected (arrow 23) is required to be screened (arrow 23) from the obliquely arranged upper part of the composite structure screening device 20, and passes through the mesh of the upper slope screening The particles are discharged in the direction below the arrow (arrow 24a), and if not, the particles are transferred to the first rotating screening member. The distribution is spread out. Therefore, the selection of the medium is made more effective, and the first rotation screening member can pass through the mesh even in the process of rotating, which is more effective. Particle sorting proceeds further through the middle slope screen screening mesh (arrow 24b), and the middle slope surface with rotation of the second rotary screening member (arrow 27) in the same pattern as the first rotary screening member. The particles transported to the lower end of the screening mesh are once again rolled through the lower inclined screening mesh to allow the particles to be sorted in their immediate direction (arrow 24c). Finally, media that do not pass through all the meshes of the composite screening device are discharged to the outside (arrow 25).

On the other hand, it is preferable to combine the vibration method of the left and right (arrow 21) or the upper and lower (arrow 22) conventionally adopted for the purpose of enhancing the particle sorting force to the present invention, it is preferable to enhance the particle sorting force.

Both side ends of the first and second rotation screening members are mounted in a bearing structure so as to be rotated, and may be configured to be automatically rotated based on the frictional force of particles moving downward along the inclined surface. In addition, by connecting an external separate power transmission device, such as a motor (not shown) for the purpose of rotating the rotation screening member to uniformly rotate or to change the rotational force is related to the availability or use of the device It is more preferable at the point which can improve elasticity.

Optimal embodiments of the present invention described above have been disclosed. Although specific terms have been used herein, these terms are only used for the purpose of describing the present invention in detail to those skilled in the art, but are not used to limit the scope of the present invention as defined in the utility model registration claims.

According to the present invention, when a large amount of sticky particles or media is added to the screening device, the screening device having a simple structure may be difficult to screen effectively due to the particle sorting capacity. The media sorting force can be improved by rotationally dispersing the loaded media while being rotated in the same direction as the moving direction, which has the advantage that the sorting can be effectively used in an operation where the sorting is clearly required.

1 is a perspective view of a conventional wire mesh screening.

2 is a perspective view of the wire mesh screening according to the present invention.

Claims (4)

In the screening device to pass a medium of less than a certain size while the media input from the top by gravity moves downward while a constant inclination, vertical vibration and left and right vibrations are added, An upper flat screening net and a lower flat screening net provided by dividing the flat screening net on which the input medium is mounted in parallel and being separated from each other; And Rotating screen member is inserted into the spaced apart space of the upper flat screening net and the lower flat screening net is installed so as to protrude from the flat surface of both flat screening net, and reinforces the screening of the medium while rotating rotation from the top to the lower direction Composite structure screening apparatus comprising a. The method of claim 1, The rotating screening member is a composite structure screening device characterized in that two or more are provided in parallel with a plurality of spaced apart. The method according to claim 1 or 2, The rotating screening member is a composite structure screening device, characterized in that the rotation is automatically rotated by the frictional force generated as the medium is required to move the particle from the top to the bottom. The method according to claim 1 or 2, And a rotation means for supplying a rotational force to an end of the rotation screening member.