CN219540912U - Glass bead screening plant for reflecting material - Google Patents

Abstract

The utility model provides a glass bead screening device for a reflecting material, which relates to the field of glass bead screening and comprises a base, support columns and a screening bin, wherein the support columns are arranged above the base, the support columns are provided with four groups, the screening bin is fixedly connected with the top ends of the four groups of support columns, the screening bin is a hollow cylinder, a screening assembly is arranged in the screening bin, a bin cover is hinged to the top of the screening bin, and a discharge hole is formed in the bottom of the screening bin; according to the utility model, the rotating device is matched with the turntable, the screening screen plate and the rotating assembly to carry out first heavy centrifugal screening on the glass beads, the screening effect on the glass beads is better, the screening speed is more efficient by adopting a centrifugal force method, the glass beads can be screened for the second time by matching the screening frame with the lifting assembly, a plurality of groups of screening plates can be arranged in the screening frame according to requirements, and the glass beads can be screened in multiple stages.

Description

Glass bead screening plant for reflecting material

Technical Field

The utility model relates to the technical field of glass bead screening, in particular to a glass bead screening device for a reflecting material.

Background

The glass bead is a novel material with wide application and special performance developed in recent years, the product is prepared from barium titanate raw materials through high-tech processing, the granularity is 10-250 micrometers, the wall thickness is 1-2 micrometers, the product has the advantages of light weight, low heat conduction, high strength, good chemical stability and the like, the surface of the product is subjected to special treatment and has oleophilic and hydrophobic properties, the glass bead is easy to disperse in an organic material system, and the specification of the glass bead is often screened before the glass bead is put into use;

however, the existing screening device is simple in structure and low in screening efficiency, and can only perform two levels of screening treatment, and the use flexibility is low, so that the utility model provides the glass bead screening device for the reflective material to solve the problems in the prior art.

Disclosure of Invention

According to the glass bead screening device for the reflective material, the rotating device is matched with the rotary table, the screening screen plate and the rotating component to conduct first heavy centrifugal screening on the glass beads, and the screening effect on the glass beads is better and the screening speed is higher.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the utility model provides a glass bead screening plant for reflecting material, includes base, support column and screening storehouse, the top of base is equipped with the support column, the support column is equipped with four groups, the top fixed connection of screening storehouse and four groups of support columns, the screening storehouse is hollow cylinder, the inside of screening storehouse is equipped with screening subassembly, the top in screening storehouse articulates there is the cang gai, the bottom in screening storehouse is equipped with the discharge gate;

the screening assembly comprises a rotating device, a rotary table, a screening screen plate and a rotating assembly, wherein the rotary table is arranged in the screening bin through the rotating device, the screening screen plate is in a round table shape, a first mounting seat is arranged at the bottom of the screening screen plate and is arranged on the rotary table through a plurality of groups of bolts, a second mounting seat is arranged at the top of the screening screen plate, and the second mounting seat is connected with the upper part of the inner wall of the screening bin through the rotating assembly;

the screening device is characterized in that a screening frame is arranged right below the discharge hole and is in sliding connection with the support column, screening plates are arranged on the screening frame in a sliding mode through mounting grooves, a plurality of groups of screening plates are arranged, a knob is arranged on one side of each screening plate, a lifting assembly is arranged below the screening frame, and a collecting bin is arranged below the screening frame.

The further improvement is that: the rotary device comprises an installation bin, a supporting rod and a first motor, wherein the installation bin is installed at the central position of the inside of the screening bin through the supporting rod, the first motor is arranged in the installation bin, and the rotary table is connected with the output end of the first motor through a rotary shaft.

The further improvement is that: the rotating assembly comprises an annular cavity, a rotating ring and balls, the annular cavity is located at the top of the screening bin, the rotating ring is arranged in the annular cavity, the balls are arranged on the upper side and the lower side of the rotating ring, the rotating ring is in sliding connection with the annular cavity through the balls, and the second mounting seat is mounted on the inner side of the rotating ring through bolts.

The further improvement is that: the lifting assembly comprises a supporting plate, a first transmission part, a second transmission part and a hinging rod, wherein four groups of supporting plates are arranged, the four groups of supporting plates are located on the inner sides of supporting columns, the first transmission part is located between the two groups of supporting plates, the second transmission part is located on the rear side of the first transmission part, one group of supporting plates is provided with a second motor, the output end of the second motor is connected with the first transmission part, the first transmission part and the second transmission part are connected through a belt, the hinging rod is provided with a plurality of groups, one ends of the hinging rod are hinged to the bottoms of the screening frames, and the other ends of the hinging rod are respectively hinged to the first transmission part and the second transmission part.

The further improvement is that: the second transmission piece and the first transmission piece are the same in structure and comprise rotating wheels and eccentric shafts, the rotating wheels are located on the inner sides of the supporting plates, the eccentric shafts are arranged between the two groups of rotating wheels, and the eccentric shafts are hinged with one end of the hinging rod.

The further improvement is that: one side of the support column is provided with a chute, both sides of the screening frame are provided with guide blocks, and the guide blocks are in sliding connection with the chute.

The beneficial effects of the utility model are as follows: according to the utility model, the rotating device is matched with the turntable, the screening screen plate and the rotating component to carry out first heavy centrifugal screening on the glass beads, the screening effect on the glass beads is better, the screening speed is more efficient, the screening frame is matched with the lifting component to carry out second screening on the glass beads, multiple groups of screening plates can be arranged in the screening frame according to requirements, the glass beads can be subjected to multistage screening, the use flexibility of the device is improved, and the screening effect is more stable by lifting and lowering the screening device.

Drawings

Fig. 1 is a front cross-sectional view of the present utility model.

Fig. 2 is a left side view of the present utility model.

Fig. 3 is a left side cross-sectional view of the present utility model.

FIG. 4 is a top view of a screen panel of the present utility model.

Fig. 5 is an enlarged schematic view of the utility model at a.

Fig. 6 is an enlarged schematic view at B of the present utility model.

Wherein: 1. a base; 2. a support column; 3. screening bins; 4. a bin cover; 5. a discharge port; 6. a mounting bin; 7. a support rod; 8. a turntable; 9. screening a screen plate; 10. a first mount; 11. a second mounting base; 12. a screening frame; 13. a screening plate; 14. a collecting bin; 15. an annular cavity; 16. a rotating ring; 17. a ball; 18. a support plate; 19. a hinge rod; 20. a belt; 21. a rotating wheel; 22. an eccentric shaft; 23. a chute; 24. a guide block; 25. and a mounting groove.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to the embodiments shown in fig. 1, 2, 3, 4, 5 and 6, the embodiment provides a glass bead screening device for a reflective material, which comprises a base 1, support columns 2 and a screening bin 3, wherein the support columns 2 are arranged above the base 1, the support columns 2 are provided with four groups, the screening bin 3 is fixedly connected with the top ends of the four groups of support columns 2, the screening bin 3 is a hollow cylinder, a screening assembly is arranged in the screening bin 3, a bin cover 4 is hinged to the top of the screening bin 3, and a discharge hole 5 is arranged at the bottom of the screening bin 3;

the screening assembly comprises a rotating device, a rotary table 8, a screening screen plate 9 and a rotating assembly, wherein the rotary table 8 is arranged in the screening bin 3 through the rotating device, the screening screen plate 9 is in a round table shape, a first mounting seat 10 is arranged at the bottom of the screening screen plate 9, the first mounting seat 10 is arranged on the rotary table 8 through a plurality of groups of bolts, a second mounting seat 11 is arranged at the top of the screening screen plate 9, and the second mounting seat 11 is connected with the upper part of the inner wall of the screening bin 3 through the rotating assembly;

the screening frame 12 is arranged right below the discharge hole 5, the screening frame 12 is in sliding connection with the support column 2, screening plates 13 are slidably arranged on the screening frame 12 through mounting grooves 25, the screening plates 13 are provided with a plurality of groups, one side of each screening plate 13 is provided with a knob, a lifting assembly is arranged below the screening frame 12, the screening frame 12 is enabled to move up and down through the lifting assembly, and therefore screening is achieved, and a collecting bin 14 is arranged below the screening frame 12.

The rotary device comprises an installation bin 6, a supporting rod 7 and a first motor, wherein the installation bin 6 is installed at the central position inside the screening bin 3 through the supporting rod 7, the first motor is arranged inside the installation bin 6, and the rotary table 8 is connected with the output end of the first motor through a rotary shaft.

This device is when using, through opening bin lid 4, pour glass bead into screening bin 3, through the first motor in the start-up installation bin 6, first motor drives revolving stage 8 and rotates, revolving stage 8 filters screen plate 9 again and rotates, through centrifugal force, screen plate 9 carries out preliminary screening to glass bead, glass bead that the particle diameter is little passes through screen plate 9, the particle diameter is big stays in screen plate 9, and collect the glass bead that the particle diameter is big through opening bin lid 4, the glass bead that the first level was selected falls into screening frame 12 through the discharge gate 5 in screening bin 3, install multiunit screening board 13 as required, screen glass bead many times again through multiunit screening board 13 of installation, and carry out classified screening, finally, fall into through screening board 13 and collect in the storehouse 14.

The rotating assembly comprises an annular cavity 15, a rotating ring 16 and balls 17, wherein the annular cavity 15 is positioned at the top of the screening bin 3, the rotating ring 16 is arranged in the annular cavity 15, the balls 17 are arranged on the upper side and the lower side of the rotating ring 16, the rotating ring 16 is slidably connected with the annular cavity 15 through the balls 17, the second mounting seat 11 is mounted at the top of the rotating ring 16 through bolts, when the screening screen 9 rotates, the second mounting seat 11 drives the rotating ring 16 to rotate in the annular cavity 15, and the balls 17 roll in the annular cavity 15, so that friction force generated when the rotating ring 16 rotates is reduced.

The lifting assembly comprises a supporting plate 18, a first transmission part, a second transmission part and a hinging rod 19, wherein the supporting plate 18 is provided with four groups, the four groups of supporting plates 18 are located on the inner side of a supporting column 2, the first transmission part is located between the two groups of supporting plates 18, the second transmission part is located on the rear side of the first transmission part, one group of supporting plates 18 is provided with a second motor, the output end of the second motor is connected with the first transmission part, the first transmission part and the second transmission part are connected through a belt 20, the hinging rod 19 is provided with a plurality of groups, one end of the hinging rod 19 is hinged with the bottom of a screening frame 12, and the other end of the hinging rod 19 is hinged with the first transmission part and the second transmission part respectively.

The second transmission parts and the first transmission parts have the same structure and comprise rotating wheels 21 and eccentric shafts 22, the rotating wheels 21 are positioned on the inner sides of the supporting plates 18, the eccentric shafts 22 are arranged between the two groups of rotating wheels 21, and the eccentric shafts 22 are hinged with one end of the hinging rod 19.

Through starting the second motor, the second motor drives the rotating wheels 21 to rotate, the front rotating wheel and the rear rotating wheel are driven by the belt 20, so that the eccentric shaft 22 is driven to rotate, the eccentric shaft 22 passes through the hinging rod 19, meanwhile, the guide block 24 is matched with the sliding groove 23, the sieving frame 12 is driven to move up and down, the glass beads are sieved for multiple times through the plurality of groups of sieving plates 13, the large particle size is remained on the sieving plates 13, the small particle size falls into the collecting bin 14, after sieving, the plurality of groups of sieving plates 13 are pulled out respectively through the knob, the glass beads are collected, and before secondary use, the required sieving plates 13 are pushed into the sieving frame 12 according to requirements

One side of the supporting column 2 is provided with a sliding chute 23, both sides of the screening frame 12 are provided with guide blocks 24, and the guide blocks 24 are in sliding connection with the sliding chute 23.

During the use, fix the bottom of screening otter board 9 on revolving stage 8 as required, the top is fixed on swivel becket 16, open bin lid 4, pour the glass bead into screening bin 3, start first motor, revolving stage 8 rotates, screening otter board 9 rotates simultaneously, swivel becket 16 rotates in step with screening otter board 9 through ball 17, through centrifugal force, carry out preliminary screening to the glass bead, the glass bead that the particle diameter is little passes through screening otter board 9, the particle diameter is big stays in screening otter board 9, and open bin lid 4 and collect, the glass bead that the first grade was selected falls into screening frame 12 through screening bin 3's discharge gate 5, install multiunit screening board 13 as required, start the second motor, runner 21 rotates, pass through belt 20 transmission between two front and back runners 21, eccentric shaft 22 rotates simultaneously, through articulated rod 19, guide block 24 cooperation spout 23 simultaneously, drive screening frame 12 reciprocates, screen glass bead through multiunit screening board 13, the particle diameter is big stays on screening board 13, particle diameter is little falls into collection bin 14, after the screening is accomplished, pull out multiunit screening board 13 respectively, and collect the knob is used according to the required sieve frame, the second time, push away from the required sieve frame.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a glass bead screening plant for reflecting material, includes base (1), support column (2) and screening storehouse (3), its characterized in that: the novel screening machine is characterized in that support columns (2) are arranged above the base (1), four groups of support columns (2) are arranged, the screening bin (3) is fixedly connected with the top ends of the four groups of support columns (2), the screening bin (3) is a hollow cylinder, a screening assembly is arranged in the screening bin (3), a bin cover (4) is hinged to the top of the screening bin (3), and a discharge hole (5) is formed in the bottom of the screening bin (3);

the screening assembly comprises a rotating device, a rotary table (8), a screening screen plate (9) and a rotating assembly, wherein the rotary table (8) is installed inside the screening bin (3) through the rotating device, the screening screen plate (9) is in a round table shape, a first installation seat (10) is arranged at the bottom of the screening screen plate (9), the first installation seat (10) is installed on the rotary table (8) through a plurality of groups of bolts, a second installation seat (11) is arranged at the top of the screening screen plate (9), and the second installation seat (11) is connected with the upper part of the inner wall of the screening bin (3) through the rotating assembly;

the utility model discloses a screening box, including screening box (12), support column (2), screening box (12) are equipped with screening board (13) through mounting groove (25) slidable mounting, screening board (13) are equipped with the multiunit, one side of screening board (13) is equipped with the knob, the below of screening box (12) is equipped with lifting unit, the below of screening box (12) is equipped with collects storehouse (14).

2. The glass bead screening device for a reflective material according to claim 1, wherein: the rotary device comprises a mounting bin (6), a supporting rod (7) and a first motor, wherein the mounting bin (6) is arranged at the central position inside the screening bin (3) through the supporting rod (7), the first motor is arranged inside the mounting bin (6), and the rotary table (8) is connected with the output end of the first motor through a rotary shaft.

3. The glass bead screening device for a reflective material according to claim 1, wherein: the rotary assembly comprises an annular cavity (15), a rotary ring (16) and balls (17), wherein the annular cavity (15) is located at the top of the screening bin (3), the rotary ring (16) is arranged in the annular cavity (15), the balls (17) are arranged on the upper side and the lower side of the rotary ring (16), the rotary ring (16) is in sliding connection with the annular cavity (15) through the balls (17), and the second mounting seat (11) is mounted at the top of the rotary ring (16) through bolts.

4. The glass bead screening device for a reflective material according to claim 1, wherein: the lifting assembly comprises a supporting plate (18), a first transmission part, a second transmission part and a hinging rod (19), wherein the supporting plate (18) is provided with four groups, the four groups of supporting plates (18) are located on the inner side of a supporting column (2), the first transmission part is located between the two groups of supporting plates (18), the second transmission part is located on the rear side of the first transmission part, one group of supporting plates (18) is provided with a second motor, the output end of the second motor is connected with the first transmission part, the first transmission part and the second transmission part are connected through a belt (20), the hinging rod (19) is provided with a plurality of groups, one end of the hinging rod (19) is hinged to the bottom of a screening frame (12), and the other end of the hinging rod is hinged to the first transmission part and the second transmission part respectively.

5. The glass bead screening device for a reflective material according to claim 4, wherein: the structure of the second transmission part is the same as that of the first transmission part, the second transmission part comprises rotating wheels (21) and eccentric shafts (22), the rotating wheels (21) are positioned on the inner sides of the supporting plates (18), the eccentric shafts (22) are arranged between the two groups of rotating wheels (21), and the eccentric shafts (22) are hinged with one ends of hinge rods (19).

6. The glass bead screening device for a reflective material according to claim 1, wherein: one side of the support column (2) is provided with a chute (23), both sides of the screening frame (12) are provided with guide blocks (24), and the guide blocks (24) are in sliding connection with the chute (23).