CN219985342U - Quartz sand screening and purifying device for manufacturing ultra-white float glass - Google Patents

Abstract

The utility model discloses a quartz sand screening and purifying device for manufacturing ultra-white float glass, which belongs to the technical field of quartz sand processing equipment and comprises a base, wherein a tray is arranged above the base, connecting lugs are welded at the positions, corresponding to the outer walls of two sides of the tray, of the base, flexible metal plates are arranged between the connecting lugs through bolts, a shaft sleeve is fixedly connected to the transverse edge of the upper surface of the base, a rotating shaft is rotatably connected to the inner side of the shaft sleeve, two ends of the rotating shaft are protruded out of the end heads of the shaft sleeve, the rotating shaft can drive a turntable to rotate through the rotating shaft, and a transmission arm is driven by an eccentric column head to drag the tray through a shaft head matched with a connecting column, and the tray swings left and right under the support of the flexible metal plates, so that the tray is screened step by step according to the particle size of quartz sand, the quartz sand screening device is not only difficult to block, but also improves the efficiency of quartz sand screening.

Description

Quartz sand screening and purifying device for manufacturing ultra-white float glass

Technical Field

The utility model relates to the technical field of quartz sand processing equipment, in particular to a quartz sand screening and purifying device for manufacturing ultra-white float glass.

Background

The existing quartz sand sorting device is used for screening by means of holes, finely crushed quartz sand easily falls out from the large holes and is mixed with large quartz sand to influence sorting effect, the quartz sand sorting device is lack of purification function and different in quartz sand pickling purification time, the existing quartz sand sorting purification device is used for solving the problem that quartz sand pickling purification time is different in different sizes by enabling a driving rotating shaft to rotate through a first motor to drive a scraping plate to scrape in patent application number 202223219666.5, quartz sand passes through a sorting screen to be sorted, the problem that the sorting effect is influenced due to the fact that the size of the quartz sand is mixed is avoided, and an electric sliding block slides on a sliding rail to drive a lifting basket and the quartz sand to lift from a purification bin when the quartz sand reaches the designated time.

However, in patent application No. 202223219666.5, in the process of screening quartz sand by using a screen, the screen is stirred and screened by using a scraper, and the screening mode is that the quartz sand does not vibrate at the screen, so that the screening efficiency is low, and the quartz sand is easy to block the sieve holes at the screen in the process of rotating the scraper, so we propose a quartz sand screening and purifying device for ultra-white float glass manufacturing to solve the problems.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the utility model aims to provide a quartz sand screening and purifying device for manufacturing ultra-white float glass, which can drive a turntable to rotate through a rotating shaft, and under the drive of an eccentric column head, a transmission arm drags a tray through a shaft head matched with a connecting column, and the tray is supported by a flexible metal plate to swing left and right in a reciprocating manner, so that the quartz sand screening and purifying device is step by step according to the particle size of quartz sand, is not easy to block, and improves the efficiency of quartz sand screening.

2. Technical proposal

In order to solve the problems, the utility model adopts the following technical scheme.

A quartz sand screening and purifying device for manufacturing ultra-white float glass comprises a base;

a tray is arranged above the base, connecting lugs are welded at the positions, corresponding to the outer walls of the two sides of the tray, of the base, and flexible metal plates are arranged between the connecting lugs through bolts;

the transverse edge of the upper surface of the base is fixedly connected with a shaft sleeve, the inner side of the shaft sleeve is rotationally connected with a rotating shaft, and two ends of the rotating shaft are protruded out of the end of the shaft sleeve;

the rotating shaft is characterized in that rotating discs are arranged at two ends of the rotating shaft, eccentric column heads are welded at the edges of the surfaces of the rotating discs, far away from the shaft sleeve, of the bottom of the tray, ear plates are symmetrically and integrally formed at the edges, far away from the shaft sleeve, of the tray, connecting columns are welded at the outer vertical faces of the ear plates, shaft heads are integrally formed at the end heads of the connecting columns, a transmission arm is arranged between the shaft heads and the eccentric column heads, and two ends of the transmission arm are respectively connected with the shaft heads and the eccentric column heads in a rotating mode;

a first receiving tray is detachably connected to the inner side of the tray;

the tray top is provided with the sieve tray, and the vertical equidistance of sieve tray is provided with a plurality of, and a plurality of sieve tray bottom department all is the array and has seted up first sieve mesh, and a plurality of the sieve tray inboard all can be dismantled and be connected with the second and connect the charging tray, the second is connecing the charging tray bottom and is the array and has seted up the second sieve mesh, and corresponds each other between second sieve mesh and the first sieve mesh.

Further, the L-shaped metal plates are symmetrically arranged at the edge of the upper surface of the base away from the shaft sleeve, and reinforcing ribs are symmetrically welded at the bending positions of the L-shaped metal plates.

Further, an elastic rubber column is arranged at the top end of the L-shaped metal plate and close to the surface of the tray, and the elastic rubber column corresponds to the tray.

Further, a countersunk hole is formed in the elastic rubber column, and the countersunk hole axially penetrates through the elastic rubber column;

screw holes are formed in the positions, corresponding to the countersunk holes, of the top ends of the L-shaped metal plates and the elastic rubber columns.

Furthermore, bearings are arranged at two ends of the transmission arm, and the bearings are in interference connection with the shaft head and the eccentric column head respectively.

Further, the apertures of the first sieve holes arranged at the plurality of sieve trays are sequentially decreased from top to bottom;

the apertures of the second sieve holes arranged at the second receiving trays are sequentially decreased from top to bottom.

Further, a plurality of screen trays are connected with the tray through bracket welding.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

(1) According to the scheme, the rotary table is driven to rotate through the rotating shaft, the tray is dragged by the transmission arm through the shaft head matched with the connecting column under the driving of the eccentric column head, the tray is supported by the flexible metal plate, the tray swings left and right in a reciprocating mode, the second receiving tray placed on the inner side of the screen tray is driven to swing, quartz sand is screened through second screening holes formed in the second receiving tray, screened quartz sand falls through first screening holes formed in the screen tray, the second screening holes correspond to the first screening holes, the aperture is gradually decreased from top to bottom, and accordingly step screening is conducted according to the particle size of the quartz sand, blockage is not easy, and the efficiency of screening the quartz sand is improved.

(2) According to the scheme, when the tray is in the swinging process, one end, close to the elastic rubber column, of the tray is abutted against the elastic rubber column, so that the vibration of the tray can be increased, and further, the quartz sand screening blanking is facilitated, and the quartz sand screening efficiency can be further improved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of a turntable according to the present utility model;

FIG. 3 is a schematic diagram of a gear arm structure according to the present utility model;

FIG. 4 is a schematic view of the structure of the screen tray of the present utility model;

FIG. 5 is a schematic view of an L-shaped metal plate structure according to the present utility model;

fig. 6 is a schematic view of the L-shaped metal plate according to another aspect of the present utility model.

The reference numerals in the figures illustrate:

1. a base; 2. a tray; 3. a connecting lug; 4. a flexible metal plate; 5. a shaft sleeve; 6. a rotating shaft; 7. a turntable; 8. a connecting column; 9. a transmission arm; 10. a shaft head; 11. eccentric column head; 12. a first receiving tray; 13. a screen tray; 14. a first screen aperture; 15. a second receiving tray; 16. a second screen aperture; 17. an L-shaped metal plate; 18. an elastic rubber column.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model; it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present utility model are within the protection scope of the present utility model.

Examples:

referring to FIGS. 1-6, a quartz sand screening and purifying device for manufacturing ultra-white float glass comprises a base 1;

a tray 2 is arranged above the base 1, connecting lugs 3 are welded at the positions of the base 1 corresponding to the outer walls of the two sides of the tray 2, and flexible metal plates 4 are arranged between the connecting lugs 3 through bolts;

the transverse edge of the upper surface of the base 1 is fixedly connected with a shaft sleeve 5, the inner side of the shaft sleeve 5 is rotationally connected with a rotating shaft 6, and two ends of the rotating shaft 6 are protruded out of the end of the shaft sleeve 5;

the two ends of the rotating shaft 6 are provided with rotating discs 7, the edge of the surface of the rotating discs 7 far away from the shaft sleeve 5 is welded with eccentric column heads 11, the edge of the bottom of the tray 2 far away from the shaft sleeve 5 is symmetrically and integrally formed with ear plates, the outer vertical surfaces of the ear plates are welded with connecting columns 8, the end heads of the connecting columns 8 are integrally formed with shaft heads 10, a transmission arm 9 is arranged between the shaft heads 10 and the eccentric column heads 11, and two ends of the transmission arm 9 are respectively connected with the shaft heads 10 and the eccentric column heads 11 in a rotating way;

the inner side of the tray 2 is detachably connected with a first receiving tray 12;

a plurality of screen trays 13 are arranged above the tray 2, the screen trays 13 are longitudinally equidistantly provided, the bottoms of the screen trays 13 are provided with first screen holes 14 in an array mode, the inner sides of the screen trays 13 are detachably connected with second receiving trays 15, the bottoms of the second receiving trays 15 are provided with second screen holes 16 in an array mode, and the second screen holes 16 correspond to the first screen holes 14;

it should be noted that, by pouring the quartz sand to be screened into the second receiving tray 15 located at the top of the device;

the driving motor is externally connected with the rotating shaft 6, and the power output end of the driving motor is connected with the rotating shaft 6 through a coupler so as to drive the rotating shaft 6 to rotate in cooperation with the shaft sleeve 5;

the rotary table 7 is driven to rotate through the rotary shaft 6, the tray 2 is dragged by the transmission arm 9 through the shaft head 10 and the connecting column 8 under the driving of the eccentric column head 11, the tray 2 swings left and right in a reciprocating manner under the support of the flexible metal plate 4, so that the second receiving tray 15 placed on the inner side of the screen tray 13 is driven to swing, quartz sand is screened through the second screening holes 16 arranged at the second receiving tray 15, and the screened quartz sand falls through the first screening holes 14 arranged at the screen tray 13, and the apertures of the second screening holes 16 are gradually reduced from top to bottom according to the grain size of the quartz sand, so that the quartz sand is not only not easy to block, but also the efficiency of screening the quartz sand is improved.

Referring to fig. 1, 2, 3, 5 and 6, an L-shaped metal plate 17 is symmetrically arranged at the edge of the upper surface of the base 1 far from the shaft sleeve 5, reinforcing ribs are symmetrically welded at the bending part of the L-shaped metal plate 17, an elastic rubber column 18 is arranged at the surface of the top end of the L-shaped metal plate 17 close to the tray 2, the elastic rubber column 18 corresponds to the tray 2, a countersunk hole is formed at the elastic rubber column 18, the countersunk hole axially penetrates through the elastic rubber column 18, and a screw hole is formed at the corresponding part of the top end of the L-shaped metal plate 17 and the countersunk hole formed at the elastic rubber column 18;

it should be noted that, when the tray 2 is swinging, one end of the tray 2, which is close to the elastic rubber column 18, is abutted against the elastic rubber column 18, so that the vibration of the tray 2 can be increased, and further, the quartz sand screening blanking is facilitated, and the quartz sand screening efficiency can be further improved.

Referring to fig. 1, 2 and 4, bearings are mounted at two ends of the driving arm 9, and the bearings are in interference connection with the shaft head 10 and the eccentric column head 11 respectively;

it should be noted that, the resistance of the transmission arm 9 in the rotation process of the matching shaft head 10 and the eccentric column head 11 is reduced, and the rotation precision is ensured.

Referring to fig. 1 and 2, the apertures of the first sieve holes 14 arranged at the plurality of sieve trays 13 decrease from top to bottom;

the apertures of the second sieve holes 16 arranged at the plurality of second receiving trays 15 decrease from top to bottom in sequence;

the quartz sand can be screened step by step according to the particle size of the quartz sand.

Referring to fig. 1, a plurality of screen plates 13 are connected with a tray 2 by bracket welding;

the stability of the connection between the sieve tray 13 and the tray 2 is ensured.

When in use: by pouring the quartz sand to be screened into a second receiving tray 15 positioned at the top of the device;

the driving motor is externally connected with the rotating shaft 6, and the power output end of the driving motor is connected with the rotating shaft 6 through a coupler so as to drive the rotating shaft 6 to rotate in cooperation with the shaft sleeve 5;

the rotary table 7 is driven to rotate through the rotary shaft 6, the tray 2 is dragged by the transmission arm 9 through the shaft head 10 and the connecting column 8 under the driving of the eccentric column head 11, the tray 2 is driven to swing left and right in a reciprocating manner under the support of the flexible metal plate 4, so that the second receiving tray 15 placed on the inner side of the screen tray 13 is driven to swing, quartz sand is screened through the second screening holes 16 arranged at the second receiving tray 15, and the screened quartz sand falls through the first screening holes 14 arranged at the screen tray 13, and the apertures of the second screening holes 16 and the first screening holes 14 are gradually decreased from top to bottom, so that the step screening is carried out according to the particle size of the quartz sand.

The above description is only of the preferred embodiments of the present utility model; the scope of the utility model is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present utility model, and the technical solution and the improvement thereof are all covered by the protection scope of the present utility model.

Claims (7)

1. The utility model provides a quartz sand sieve purification device for ultra-white float glass manufacture which characterized in that: comprises a base (1);

a tray (2) is arranged above the base (1), connecting lugs (3) are welded at positions corresponding to the outer walls of the two sides of the tray (2) on the base (1), and flexible metal plates (4) are arranged between the connecting lugs (3) through bolts;

the device is characterized in that a shaft sleeve (5) is fixedly connected to the transverse edge of the upper surface of the base (1), a rotating shaft (6) is rotatably connected to the inner side of the shaft sleeve (5), and two ends of the rotating shaft (6) protrude out of the end of the shaft sleeve (5);

the rotary shaft is characterized in that rotary discs (7) are arranged at two ends of the rotary shaft (6), eccentric column heads (11) are welded at the edges of the surfaces of the rotary discs (7) away from the shaft sleeve (5), ear plates are symmetrically and integrally formed at the edges of the bottoms of the trays (2) away from the shaft sleeve (5), connecting columns (8) are welded at the outer vertical faces of the ear plates, shaft heads (10) are integrally formed at the end heads of the connecting columns (8), a transmission arm (9) is arranged between the shaft heads (10) and the eccentric column heads (11), and two ends of the transmission arm (9) are respectively connected with the shaft heads (10) and the eccentric column heads (11) in a rotary mode;

a first receiving tray (12) is detachably connected to the inner side of the tray (2);

the tray (2) top is provided with sieve tray (13), and sieve tray (13) vertical equidistance is provided with a plurality of, and a plurality of sieve tray (13) bottom department all is array and has seted up first sieve mesh (14), and a plurality of sieve tray (13) inboard all can be dismantled and be connected with second and connect charging tray (15), second sieve mesh (16) have been seted up to second charging tray (15) bottom in array, and correspond each other between second sieve mesh (16) and the first sieve mesh (14).

2. The quartz sand classifying and purifying device for manufacturing ultra-white float glass according to claim 1, wherein: the L-shaped metal plates (17) are symmetrically arranged at the edge of the upper surface of the base (1) far away from the shaft sleeve (5), and reinforcing ribs are symmetrically welded at the bending positions of the L-shaped metal plates (17).

3. The quartz sand classifying and purifying device for manufacturing ultra-white float glass according to claim 2, wherein: an elastic rubber column (18) is arranged at the top end of the L-shaped metal plate (17) near the surface of the tray (2), and the elastic rubber column (18) corresponds to the tray (2).

4. A quartz sand screen purifying apparatus for ultra-white float glass manufacturing according to claim 3, wherein: a countersunk hole is formed in the elastic rubber column (18), and the countersunk hole axially penetrates through the elastic rubber column (18);

screw holes are formed in the positions, corresponding to the countersunk holes, of the top ends of the L-shaped metal plates (17) and the elastic rubber columns (18).

5. The quartz sand classifying and purifying device for manufacturing ultra-white float glass according to claim 1, wherein: bearings are arranged at two ends of the transmission arm (9), and the bearings are in interference connection with the shaft head (10) and the eccentric column head (11) respectively.

6. The quartz sand classifying and purifying device for manufacturing ultra-white float glass according to claim 1, wherein: the apertures of the first sieve holes (14) arranged at the plurality of sieve trays (13) are sequentially decreased from top to bottom;

the apertures of the second sieve holes (16) arranged at the second receiving trays (15) are sequentially decreased from top to bottom.

7. The quartz sand classifying and purifying device for manufacturing ultra-white float glass according to claim 1, wherein: the plurality of screen discs (13) are connected with the tray (2) through bracket welding.