RU2675274C1 - Modular large-size vibration screen with variable span and variable amplitude - Google Patents

Abstract

FIELD: machine building; technological processes.

SUBSTANCE: proposed invention relates to equipment for sifting, in particular to a modular large-size vibrating screen with variable span and variable amplitude. Said modular large-sized vibrating screen with variable span and variable amplitude contains a screen box, excitation beams located on the screen box, excitation motors mounted on the excitation beams and support frames located at the bottom of the screen box. Said screen box contains two side plates of the screen box located opposite each other, the surface of the screen is attached to the lower ends of the side plates of the screen box. Horizontal clamping grooves are made in the side plates of the screen box, two excitation beams are located between the two side plates of the screen box. Further, the two ends of each excitation beam are provided with vertical clamping slots. Adjusting bolts are inserted into the horizontal clamping grooves and vertical clamping grooves to attach the excitation beams to the side plates of the screen box. Along the longitudinal direction of the screen box at intervals there are at least two groups of support frames. These support frames are equipped with structures for adjusting the height of the support frame, and between the two adjacent groups of support frames there is a mechanism for controlling the span of the support frame.

EFFECT: increased sifting efficiency.

6 cl, 4 dwg

Description

Technical field

The present invention relates to equipment for sifting, in particular, to a modular large-sized vibrating screen with a variable span and variable amplitude.

State of the art

Material graders are often used in engineering fields. Known devices for sorting material include: devices using gravity as a sorting force, represented by screw sorting devices, mechanical mixing hydraulic sorting devices and hydraulic sorting boxes such as Yunxi, etc .; and although these devices are simple in design, they usually have a large footprint and are inconvenient for installation, dismantling and maintenance; devices using centrifugal force as a sorting force, represented by hydrocyclones, which have the advantage of high performance, but impose high requirements on the particle size distribution of the material and can easily wear and clog; and vibrating screens using vibration of the screen to make the material bounce, and thereby sieving and sorting the material by passing it through the holes of the screen; these vibrating screens are widely used in sorting operations at coal processing plants, and are mainly represented by linear vibrating screens.

In some applications in the current production, linear vibrating screens have some drawbacks and may cause some problems that may even affect normal production. Existing vibrating screens have a high structural integrity, are difficult to dismantle and reassemble, replace parts and components, and maintain; when the application of an unbalanced excitation force or a different amplitude at different positions of the screen surface in the current production, the distance between the excitation motors in existing vibrating screens or the position of the motors relative to the center of the screen box cannot be adjusted, since the excitation motors are attached to the side plates of the screen box by means of exciting beams; therefore, existing vibrating screens cannot meet the requirements for unbalanced exciting force; since the mechanisms are fixed in the existing vibrating screens and the vibration damping components are fixed by welding, it is inconvenient to adjust the angle of inclination of the screen surface.

Disclosure of the invention

The objective of the invention is to solve the technical problems of existing linear vibrating screens in the prior art, in connection with which we propose a modular large-sized vibrating screen with a variable span and variable amplitude, which has a compact design and can provide structural stability, while meeting the requirements under various operating conditions; moreover, the angle of inclination of the surface of the screen, the distance between the excitation motors, the magnitude of the exciting force and the position of the exciting force relative to the center of the screen box can be conveniently adjusted, and the sieving accuracy can be improved. In addition, the vibrating screen uses a modular installation scheme, is easy to dismantle and maintain, and is characterized by low power consumption.

To solve the above problems, the present invention uses the following technical scheme:

A modular large-sized vibrating screen with a variable span and variable amplitude, comprising a screen box, exciting beams located on the screen box, excitation motors mounted on the exciting beams, and support frames located at the bottom of the screen box,

the screen box contains two side plates of the screen box, located opposite each other,

the surface of the screen is attached to the lower ends of the side plates of the screen box,

horizontal clamping grooves are made in the side plates of the screen box,

between the two side plates of the screen box are two exciting beams,

the two ends of each exciting beam contain vertical clamping grooves,

adjusting bolts are inserted into the horizontal clamping grooves and vertical clamping grooves for attaching the exciting beams to the side plates of the screen box;

along the longitudinal direction of the screening box at least two groups of support frames are arranged at intervals, wherein

the supporting frames are equipped with structures for adjusting the height of the supporting frame, and

between the two adjacent groups of support frames is a mechanism for regulating the span of the support frame.

In addition, one of the two exciting beams is located near the supply side of the screen box material, and the second of the two exciting beams is located near the discharge side of the screen box.

In addition, both the material supply side and the discharge side of the screen box contain stiffening beams, the two ends of which are attached with clamping bolts to the side plates of the screen box.

In addition, two groups of support frames are provided, wherein one group of support frames is located on the supply side of the screen box material, and the other group of support frames is located on the discharge side of the screen box.

In addition, the structure for adjusting the height of the support frame includes blocks for adjusting the support frame in the upper direction and blocks for adjusting the support frame in the lower direction,

the upper surfaces of the base frame adjustment blocks in the lower direction and the lower surfaces of the base frame adjustment blocks in the upper direction contain vertical threaded holes, and

the supporting frames are provided with an external thread corresponding to vertical threaded holes;

the span adjustment mechanism of the support frame comprises an adjusting threaded rod, and

the sides of the support frame adjustment blocks in the lower direction are provided with horizontal threaded holes corresponding to the adjusting threaded rod.

In addition, shock absorber springs are located between the screen box and the support frames.

Provided technical results:

(1) all parts and components are modular in design and the adjacent modules are clamped and bolted together;

(2) the spans of the exciting beams can be adjusted by changing the distance between the two exciting beams;

(3) the magnitude of the exciting force can be adjusted by adjusting the angles between the eccentric blocks in the excitation motors, as a result of which the amplitude values can be adjusted on the supply side of the material and on the discharge side;

(4) the positions of the excitation motors relative to the center of the screen box can be changed by adjusting the positions and lifting the two exciting beams;

(5) the angle of inclination of the surface of the screen can be adjusted by adjusting the structures to adjust the height of the support frame and the mechanism for adjusting the span of the support frame from the material supply side and the discharge side, respectively.

Brief Description of the Drawings

FIG. 1 is a front view of a vibrating screen in accordance with the present invention;

FIG. 2 is a left side view of a vibrating screen in accordance with the present invention;

FIG. 3 is a plan view of a vibrating screen in accordance with the present invention;

FIG. 4 is an isometric view of a vibrating screen in accordance with the present invention.

In the drawings:

1 - a box of a roar;

1-1 - side plate of the screening box;

2 - excitation motor;

3 - exciting beam;

4 - stiffness beam;

5 - supporting frame;

6 - supply side of the material;

7 - screen surface;

8 - discharge side;

9 - an adjusting bolt;

10 - adjusting threaded rod;

11 - horizontal clamping groove;

12 - vertical clamping groove;

13 - block adjustment of the support frame in the lower direction;

14 - block adjustment of the support frame in the upper direction;

15 - a shock-absorbing spring.

The implementation of the invention

Further, the present invention is described in more detail with reference to the accompanying drawings.

As shown in FIG. 1-4, a modular large-sized vibrating screen with a variable span and variable amplitude in accordance with the present invention comprises a screen box 1, which includes two side plates 1-1 of the screen box, located opposite each other, and a screen surface 7 attached to the lower ends of the side plates 1-1 of the screening box, the side plates 1-1 of the screening box and the screening surface 7 form the main structure of the screening box 1, where one end of the box 1 is the material supply side 6 and the other end 8 thoron reset.

The side plates 1-1 of the screen box are provided with horizontal clamping grooves 11, between the two side plates 1-1 of the screen box there are two exciting beams 3, one of two exciting beams 3 is located near the supply side 6 of the material of the screen box 1, and the other of the two exciting beams 3 is located near side 8 of the discharge box 1 screen. Two ends of each exciting beam 3 are provided with vertical clamping grooves 12, adjustment bolts 9 are inserted into horizontal clamping grooves 11 and vertical clamping grooves 12 for attaching the exciting beams 3 to the side plates 1-1 of the screen box, and excitation motors 2 are mounted on the exciting beams 3. To ensure the overall strength of the screen box 1, both the material supply side 6 and the discharge side 8 of the screen box 1 are equipped with stiffening beams 4, the two ends of which are attached with clamping bolts to the side plates 1-1 of the screen box.

On the lower part of the screen box 1 there are two groups of support frames 5, with one group of support frames 5 located on the supply side 6 of the screen material 1 and the other group of support frames 5 located on the discharge side 8 of the screen box 1. The support frames 5 are equipped with structures for adjusting the height of the support frame, and between the two adjacent groups of support frames 5, a span mechanism for adjusting the span of the support frame is made. The structure for adjusting the height of the support frame comprises blocks 14 for adjusting the support frame in the upper direction and blocks 13 for adjusting the support frame in the lower direction, the upper surfaces of the blocks 13 for adjusting the support frame in the lower direction and the lower surfaces of the blocks 14 for adjusting the support frame in the upper direction holes, and the support frames 5 are provided with an external thread corresponding to the vertical threaded holes, and the upper and lower ends of the support frames (5) are screwed into the vertical threads new holes. The span adjustment mechanism of the support frame comprises an adjusting threaded rod 10, and the sides of the blocks of adjustment of the support frame 13 in the lower direction are provided with horizontal threaded holes corresponding to the adjusting threaded rod 10, and two ends of the adjusting threaded rod 10 are screwed into the horizontal threaded holes. The height of the support frame 5 can be adjusted by turning the support frame 5, and the distance between the two groups of support frames 5 can be adjusted by turning the threaded rod 10. Between the screen box 1 and the support frames 5, shock absorbing springs 15 are located to improve the stability of the screen box 1.

During the operation of the vibrating screen, the excitation electric motors 2 cause the screen box 1 to vibrate, and from the material supply side 6, the material is fed to the screen surface 7, where it is screened; after sifting, the coarse-grained material is discharged from the discharge side 8, while the fine-grained material penetrates through the screen surface 7 to the bottom and is taken as a fine-grained product. Excitation motors 2 attached to the excitation beams 3 are a key component for sieving the material due to its passage through the holes of the screen. The angles between the eccentric blocks in the drive motors 2 near the material supply side 6 and the discharge side 8 can be adjusted to change the magnitude of the driving force in accordance with the requirements. Excitation beams 3 are clamped and fastened to the side plates 1-1 of the screen box with adjusting bolts 9. Adjusting bolts 9 can be offset in horizontal clamping grooves 11 so as to vary the distance between the excitation motors 2 within a certain range. The clamping bolts can be offset in the vertical clamping grooves 12 in such a way as to change the height of the two excitation motors in the vertical direction and thereby change the position of the excitation force relative to the center of the screen box 1 to meet the requirements for unbalanced excitation force. Typically, the surface 7 of the screen is located at an angle to the horizontal plane. The rise of the two groups of support frames 5 can be adjusted accordingly by means of a structure for adjusting the height of the support frame located on the support frames 5 on the supply side of the material and on the discharge side so as to obtain different tilt angles. To adjust the angle of inclination of the screen surface 7, it is necessary to simultaneously control the span of the support frame so that two groups of support beams 5 reach a state of static equilibrium.

Although the present invention is depicted and described with reference to some preferred embodiments of the invention, it is not limited to these specific options. Those skilled in the art will appreciate that various variations and modifications may be made within the spirit and scope of the present invention. All of these options and modifications are considered to be within the protection scope of the present invention.

Claims (26)

1. A modular large-sized vibrating screen with a variable span and variable amplitude, containing a box (1) of a screen, exciting beams (3) located on a box (1) of a screen, electric motors (2) of excitation installed on exciting beams (3), and supporting frames (5) located in the lower part of the box (1) of the screen, while the screen box (1) of the screen contains two side plates (1-1) of the screen box, located opposite each other, the screen surface (7) is attached to the lower ends of the side plates (1-1) of the screen box, horizontal clamping grooves (11) are made in the side plates (1-1) of the screening box, between the two side plates (1-1) of the screen box are two exciting beams (3), two ends of each exciting beam (3) are provided with vertical clamping grooves (12), adjusting bolts (9) are inserted into horizontal clamping grooves (11) and vertical clamping grooves (12) for attaching exciting beams (3) to side plates (1-1) of the screen box; along the longitudinal direction of the screen box (1) of the screen, at least two groups of support frames (5) are arranged at intervals, supporting frames (5) are equipped with structures for adjusting the height of the supporting frame, and between two adjacent groups of support frames (5) is a mechanism for regulating the span of the support frame. 2. The modular large-sized vibrating screen with a variable span and variable amplitude according to claim 1, in which one of the two exciting beams (3) is located near the side (6) of the material supply of the box (1) of the screen, and the second of two exciting beams (3) is located near the side (8) of the discharge box (1) of the screen. 3. The modular large-sized vibrating screen with a variable span and variable amplitude according to claim 1, in which both the material supply side (6) and the discharge side (8) of the screen box (1) contain stiffening beams (4), the two ends of which are attached with clamping bolts to the side plates (1-1) of the screen box. 4. A modular large-sized vibrating screen with a variable span and variable amplitude according to claim 1, in which supporting frames (5) are located in two groups, and one group of support frames (5) is located on the side (6) of the material supply of the box (1) of the screen, and another group of support frames (5) is located on the discharge side (8) of the screen box (1). 5. The modular large-sized vibrating screen with a variable span and variable amplitude according to claim 1, in which the structure for adjusting the height of the support frame comprises blocks (14) for adjusting the support frame in the upper direction and blocks (13) for adjusting the support frame in the lower direction, the upper surfaces of the blocks (13) adjusting the support frame in the lower direction and the lower surfaces of the blocks (14) adjusting the support frame in the upper direction are provided with vertical threaded holes, and support frames (5) are provided with an external thread corresponding to vertical threaded holes; the span adjustment mechanism of the support frame comprises an adjusting threaded rod (10), and the lateral sides of the blocks (13) for adjusting the support frame in the lower direction are provided with horizontal threaded holes corresponding to the adjusting threaded rod (10). 6. A modular large-sized vibrating screen with a variable span and variable amplitude according to claim 1, in which shock absorbing springs (15) are located between the screen box (1) and the support frames (5).

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