CN114042626A - Aggregate vibrating screen for producing refractory bricks - Google Patents

Abstract

The invention relates to the technical field of sorting devices, in particular to an aggregate vibrating screen for producing refractory bricks, wherein a rotating shaft is connected with a base, a shell is connected with the rotating shaft, a cylinder is connected with the base, a piston rod is connected with the cylinder, a connecting block is connected with the piston rod, a sliding block connects the connecting block with the shell, a rotating rod is connected with the shell, a baffle plate is connected with the rotating rod, two locking components are connected with the shell, a vibrating mechanism is connected with the shell, the cylinder drives the piston rod to drive the connecting block to push the sliding block in a direction away from the base, so that the sliding block pushes the shell to rotate on the base through the rotating shaft to incline, the baffle plate rotates on the shell through the rotating rod in the rotating process of the shell, and because of gravity and base keep perpendicular for the baffle shows vibration mechanism's one side, and the discharge of baffle department is followed to the large granule aggregate on the vibration mechanism, has solved the shell and has blockked vibration mechanism all around, is not convenient for take out the problem of remaining the large granule aggregate on vibration mechanism.

Description

Aggregate vibrating screen for producing refractory bricks

Technical Field

The invention relates to the technical field of sorting devices, in particular to an aggregate vibrating screen for producing refractory bricks.

Background

The aggregate vibrating screen is used for removing large particles in the aggregate for producing the refractory bricks;

the existing aggregate vibrating screen has the advantages that the aggregate is screened to the bottom of the shell by the vibrating mechanism and is stored, and large-particle aggregates are remained on the vibrating mechanism;

but vibrations mechanism sets up in the shell inside wall, and under the blockking of shell, be not convenient for take out the large granule aggregate that remains on vibrations mechanism.

Disclosure of Invention

The invention aims to provide an aggregate vibrating screen for producing refractory bricks, and aims to solve the problem that large-particle aggregates remained on a vibrating mechanism are inconvenient to take out because the periphery of the vibrating mechanism is blocked by a shell.

In order to achieve the aim, the invention provides an aggregate vibrating screen for producing refractory bricks, which comprises an installation mechanism and a vibrating mechanism, wherein the installation mechanism is arranged on the vibrating mechanism;

the mounting mechanism comprises a base, a rotating shaft, a shell, an air cylinder, a piston rod, a connecting block, a sliding groove, a rotating rod, a baffle and two locking components, wherein the shell is provided with the sliding groove and a discharge hole, the rotating shaft is rotatably connected with the base and positioned on one side of the base, the shell is fixedly connected with the rotating shaft and positioned on the outer side wall of the rotating shaft, the air cylinder is fixedly connected with the base and positioned on one side close to the shell, the piston rod is fixedly connected with the output end of the air cylinder, the connecting block is fixedly connected with the piston rod and positioned on one side far away from the air cylinder, one side of the sliding block is rotatably connected with the connecting block, the other side of the sliding block is slidably connected with the shell and positioned in the sliding groove, the rotating rod is fixedly connected with the shell and positioned on the inner side wall of the shell, and the baffle is rotatably connected with the rotating rod, and the two locking assemblies are respectively fixedly connected with the shell and are both positioned on the outer side wall of the shell, and the vibration mechanism is fixedly connected with the shell and is positioned on the inner side wall of the shell.

The cylinder drive the piston rod drives the connecting block is to keeping away from the base direction promotes the slider makes the slider promotes the shell, the shell passes through the pivot is in rotate on the base and take place the slope, the baffle is in the shell rotates the in-process and passes through the bull stick rotates on the shell, and because of gravity with the base keeps perpendicular, makes the baffle will one side of vibrations mechanism shows, at this moment the large granule aggregate on the vibrations mechanism is followed baffle department is discharged.

The locking assembly comprises a lifting rod and a locking block, the lifting rod is fixedly connected with the shell and is positioned on the outer side wall of the shell, and the locking block is fixedly connected with the lifting rod and is positioned on one side far away from the shell.

The lifting rod of the locking assembly extends, so that the locking block blocks one side of the baffle plate, which is far away from the vibrating mechanism.

The locking assembly further comprises an outer barrel, a damping spring, an inner barrel and a sliding part, the outer barrel is fixedly connected with the locking block and penetrates through the locking block, the damping spring is fixedly connected with the outer barrel and located in the outer barrel, the inner barrel is fixedly connected with the damping spring and penetrates through the outer barrel, and the sliding part is fixedly connected with the inner barrel and located on the inner side wall of the inner barrel.

The inner barrel on the outer barrel is used for sliding on the baffle plate along the moving direction of the locking block through the sliding part, the vibration generated when the sliding part slides on the baffle plate is transmitted to the damping spring in the outer barrel, the damping spring absorbs the vibration and also absorbs the vibration generated by the impact of aggregate and the baffle plate, and the stability of the baffle plate is improved.

The sliding part comprises a connecting rod and a ball, the connecting rod is fixedly connected with the inner barrel and is positioned on the inner side wall of the inner barrel, and the ball is rotatably connected with the connecting rod and is positioned on the outer side wall of the connecting rod.

The ball rotates on the inner cylinder along with the moving direction of the locking block through the connecting rod and slides on the baffle.

The sliding part further comprises a damping sleeve, and the damping sleeve is fixedly connected with the ball and located around the ball.

The shock absorption sleeve can absorb shock generated when the ball slides on the baffle.

The locking assembly further comprises a limiting block, and the limiting block is fixedly connected with the inner barrel and is positioned in the outer barrel.

The diameter of the limiting block is larger than the caliber of the outer barrel, so that the inner barrel can be prevented from being pushed out of the inner barrel by the damping spring.

The mounting mechanism further comprises a valve, and the valve is fixedly connected with the shell and is positioned at the discharge port.

And opening the valve, and discharging the small particle aggregates stored in the shell from the discharge port.

According to the aggregate vibrating screen for producing the refractory bricks, the cylinder drives the piston rod to drive the connecting block to push the sliding block to the direction away from the base, so that the sliding block pushes the shell, the shell rotates on the base through the rotating shaft to incline, the baffle rotates on the shell through the rotating rod in the rotating process of the shell, the baffle is perpendicular to the base due to gravity, one side of the vibrating mechanism is exposed by the baffle, and large-particle aggregates on the vibrating mechanism are discharged from the baffle at the moment, so that the problem that the shell blocks the periphery of the vibrating mechanism, and the large-particle aggregates remained on the vibrating mechanism cannot be conveniently taken out is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of an aggregate vibrating screen for producing refractory bricks according to the present invention;

FIG. 2 is a front view of an aggregate shaker screen for the production of refractory bricks provided in accordance with the present invention;

FIG. 3 is a cross-sectional view taken along plane A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along plane B-B of FIG. 2;

fig. 5 is an enlarged view of detail C of fig. 3.

1-mounting mechanism, 2-vibration mechanism, 3-base, 4-rotating shaft, 5-shell, 6-cylinder, 7-piston rod, 8-connecting block, 9-slide block, 10-slide groove, 11-rotating rod, 12-baffle, 13-locking component, 14-discharge hole, 15-lifting rod, 16-locking block, 17-outer cylinder, 18-damping spring, 19-inner cylinder, 20-sliding piece, 21-connecting rod, 22-ball, 23-damping sleeve, 24-limiting block, 25-valve, 26-fixed cylinder, 27-connecting spring, 28-guide cylinder, 29-sieve plate, 30-vibration motor and 31-guide plate.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered as limiting. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides an aggregate vibrating screen for producing refractory bricks, which comprises a mounting mechanism 1 and a vibrating mechanism 2;

the mounting mechanism 1 comprises a base 3, a rotating shaft 4, a shell 5, a cylinder 6, a piston rod 7, a connecting block 8, a sliding block 9, a sliding groove 10, a rotating rod 11, a baffle plate 12 and two locking components 13, wherein the shell 5 is provided with the sliding groove 10 and a discharge hole 14, the rotating shaft 4 is rotatably connected with the base 3 and is positioned on one side of the base 3, the shell 5 is fixedly connected with the rotating shaft 4 and is positioned on the outer side wall of the rotating shaft 4, the cylinder 6 is fixedly connected with the base 3 and is positioned on one side close to the shell 5, the piston rod 7 is fixedly connected with the output end of the cylinder 6, the connecting block 8 is fixedly connected with the piston rod 7 and is positioned on one side far away from the cylinder 6, one side of the sliding block 9 is rotatably connected with the connecting block 8, the other side of the sliding block 9 is slidably connected with the shell 5 and is positioned in the sliding groove 10, the bull stick 11 with 5 fixed connection of shell, and be located 5 inside walls of shell, the baffle 12 with 11 rotation connections of bull stick, and be located 11 lateral walls of bull stick, two locking Assembly 13 respectively with 5 fixed connection of shell, all be located 5 lateral walls of shell, vibrations mechanism 2 with 5 fixed connection of shell, and be located 5 inside walls of shell.

In this embodiment, the housing 5 of the mounting mechanism 1 provides a mounting condition for the vibration mechanism 2, aggregates are poured onto the vibration mechanism 2, the vibration mechanism 2 screens small aggregates to the bottom of the housing 5 for storage, large aggregates remain on the vibration mechanism 2, when the vibration mechanism 2 works, the locking component 13 locks the baffle 12 between the vibration mechanism 2 and the locking component 13, when large aggregates on the vibration mechanism 2 are discharged, the locking component 13 cancels the locking of the baffle 12, the cylinder 6 drives the piston rod 7 to drive the connecting block 8 to push the slider 9 in a direction away from the base 3, so that the slider 9 slides on the chute 10 of the housing 5 and pushes the housing 5 to rotate on the base 3 through the rotating shaft 4 to tilt, baffle 12 is in 5 rotate the in-process of shell is passed through bull stick 11 is in rotate on the shell 5 to because of gravity with base 3 keeps perpendicular to make baffle 12 will one side of vibrations mechanism 2 shows, this moment large granule aggregate on the vibrations mechanism 2 is followed baffle 12 department is discharged, has solved shell 5 and has blockked all around vibrations mechanism 2, is not convenient for take out the problem of remaining the large granule aggregate on vibrations mechanism 2.

Further, the locking assembly 13 comprises a lifting rod 15 and a locking block 16, the lifting rod 15 is fixedly connected with the housing 5 and is located on the outer side wall of the housing 5, and the locking block 16 is fixedly connected with the lifting rod 15 and is located on the side far away from the housing 5; the locking assembly 13 further comprises an outer cylinder 17, a damping spring 18, an inner cylinder 19 and a sliding part 20, wherein the outer cylinder 17 is fixedly connected with the locking block 16 and penetrates through the locking block 16, the damping spring 18 is fixedly connected with the outer cylinder 17 and is positioned in the outer cylinder 17, the inner cylinder 19 is fixedly connected with the damping spring 18 and penetrates through the outer cylinder 17, and the sliding part 20 is fixedly connected with the inner cylinder 19 and is positioned on the inner side wall of the inner cylinder 19; the sliding part 20 comprises a connecting rod 21 and a ball 22, the connecting rod 21 is fixedly connected with the inner cylinder 19 and is positioned on the inner side wall of the inner cylinder 19, and the ball 22 is rotatably connected with the connecting rod 21 and is positioned on the outer side wall of the connecting rod 21; the sliding member 20 further comprises a damping sleeve 23, and the damping sleeve 23 is fixedly connected with the ball 22 and is located around the ball 22; the locking assembly 13 further comprises a limiting block 24, and the limiting block 24 is fixedly connected with the inner cylinder 19 and is positioned in the outer cylinder 17; the mounting mechanism 1 further comprises a valve 25, wherein the valve 25 is fixedly connected with the housing 5 and is positioned at the discharge hole 14.

In the present embodiment, the lifting rod 15 of the locking assembly 13 is extended so that the locking block 16 blocks the side of the damper 12 away from the vibration mechanism 2, the inner cylinder 19 of the outer cylinder 17 slides on the damper 12 along the moving direction of the locking block 16 by the balls 22 of the slider 20, the inner cylinder 19 transmits the vibration generated when the slider 20 slides on the damper 12 to the damper spring 18 of the outer cylinder 17, the damper spring 18 absorbs the vibration generated when the aggregate collides with the damper 12, the stability of the damper 12 is increased, the balls 22 rotate on the inner cylinder 19 along the moving direction of the locking block 16 by the connecting rod 21 and slide on the damper 12, and the frictional force between the balls 22 and the damper 12 is reduced, the shock-absorbing sleeve 23 can further absorb the shock generated when the ball 22 slides on the baffle 12, and the diameter of the limiting block 24 is larger than the caliber of the outer cylinder 17, so that the shock-absorbing spring 18 can be prevented from pushing the inner cylinder 19 out of the outer cylinder 17, the valve 25 is prevented from being opened, and small-particle aggregates stored in the shell 5 can be discharged from the discharge hole 14.

Further, vibrations mechanism 2 includes two solid fixed cylinder 26, a plurality of coupling spring 27, two guide cylinder 28, sieve 29 and shock dynamo 30, two gu fixed cylinder 26 respectively with 5 fixed connection of shell all are located 5 inside wall of shell, it is a plurality of coupling spring 27 respectively with two gu fixed cylinder 26 fixed connection all is located gu fixed cylinder 26, two guide cylinder 28 respectively with a plurality of coupling spring 27 fixed connection all runs through gu fixed cylinder 26, sieve 29 and two guide cylinder 28 fixed connection is located two between the guide cylinder 28, shock dynamo 30 with sieve 29 fixed connection to be located and be close to one side of base 3.

In this embodiment, the output of the vibration motor 30 of the vibration mechanism 2 is used for outputting the sieve plate 29, so that the connection spring 27 vibrates on the shell 5, thereby sieving the aggregate on the sieve plate 29, and the guide cylinder 28 guides the connection spring 27, so that the connection spring 27 cannot be bent, thereby avoiding that the connection spring 27 bends to drive the sieve plate 29 to shake up and down, and then ejecting the aggregate on the sieve plate 29 in the shell 5.

Further, the mounting mechanism 1 further comprises a guiding plate 31, and the guiding plate 31 is fixedly connected with the housing 5 and is located in the housing 5.

In the present embodiment, the guide plate 31 guides the small particle aggregate stored in the housing 5 to the discharge port 14 for discharge.

According to the aggregate vibrating screen for producing refractory bricks, the shell 5 of the mounting mechanism 1 provides mounting conditions for the vibrating mechanism 2, aggregates are poured on the vibrating mechanism 2, the vibrating mechanism 2 screens small-particle aggregates to the bottom of the shell 5 for storage, large-particle aggregates remain on the vibrating mechanism 2, the baffle 12 is locked between the vibrating mechanism 2 and the locking component 13 by the locking component 13 when the vibrating mechanism 2 works, the locking component 13 cancels the locking of the baffle 12 when the large-particle aggregates on the vibrating mechanism 2 are discharged, the piston rod 7 is driven by the air cylinder 6 to drive the connecting block 8 to push the sliding block 9 in the direction away from the base 3, so that the sliding block 9 slides on the sliding groove 10 of the shell 5 and pushes the shell 5 to rotate on the base 3 through the rotating shaft 4 to generate inclination, baffle 12 is in 5 rotate the in-process of shell are passed through bull stick 11 is in rotate on the shell 5 to because of gravity with base 3 keeps perpendicularly, makes baffle 12 will one side of vibrations mechanism 2 shows, this moment large granule aggregate on the vibrations mechanism 2 is followed baffle 12 department is discharged, has solved shell 5 and has blockked all around vibrations mechanism 2, is not convenient for take out the problem of remaining the large granule aggregate on vibrations mechanism 2.

While the preferred embodiment of the present invention has been described with reference to the accompanying drawings, it is to be understood that the invention is not limited thereto, but is intended to cover all modifications, equivalents and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. An aggregate vibrating screen for producing refractory bricks is characterized by comprising an installation mechanism (1) and a vibration mechanism (2);

the mounting mechanism (1) comprises a base (3), a rotating shaft (4), a shell (5), an air cylinder (6), a piston rod (7), a connecting block (8), a sliding block (9), a sliding groove (10), a rotating rod (11), a baffle plate (12) and two locking components (13), wherein the shell (5) is provided with the sliding groove (10) and a discharge hole (14), the rotating shaft (4) is rotatably connected with the base (3) and is positioned at one side of the base (3), the shell (5) is fixedly connected with the rotating shaft (4) and is positioned at the outer side wall of the rotating shaft (4), the air cylinder (6) is fixedly connected with the base (3) and is positioned at one side close to the shell (5), the piston rod (7) is fixedly connected with the output end of the air cylinder (6), the connecting block (8) is fixedly connected with the piston rod (7) and is positioned at one side far away from the air cylinder (6), one side of slider (9) with connecting block (8) rotate to be connected, the opposite side of slider (9) with shell (5) sliding connection, and be located in spout (10), bull stick (11) with shell (5) fixed connection, and be located shell (5) inside wall, baffle (12) with bull stick (11) rotate to be connected, and be located bull stick (11) lateral wall, two locking Assembly (13) respectively with shell (5) fixed connection, all be located shell (5) lateral wall, vibrations mechanism (2) with shell (5) fixed connection, and be located shell (5) inside wall.

2. The aggregate vibrating screen for the production of refractory bricks according to claim 1,

locking Assembly (13) include lifter (15) and locking block (16), lifter (15) with shell (5) fixed connection, and be located shell (5) lateral wall, locking block (16) with lifter (15) fixed connection, and be located keep away from one side of shell (5).

3. The aggregate vibrating screen for the production of refractory bricks according to claim 2,

locking Assembly (13) still includes urceolus (17), damping spring (18), inner tube (19) and slider (20), urceolus (17) with locking block (16) fixed connection, and run through locking block (16), damping spring (18) with urceolus (17) fixed connection, and be located in urceolus (17), inner tube (19) with damping spring (18) fixed connection, and run through urceolus (17), slider (20) with inner tube (19) fixed connection, and be located inner tube (19) inside wall.

4. The aggregate vibrating screen for the production of refractory bricks according to claim 3,

the sliding part (20) comprises a connecting rod (21) and a ball (22), the connecting rod (21) is fixedly connected with the inner barrel (19) and is positioned on the inner side wall of the inner barrel (19), and the ball (22) is rotatably connected with the connecting rod (21) and is positioned on the outer side wall of the connecting rod (21).

5. The aggregate shaker for the production of fire bricks as claimed in claim 4,

the sliding part (20) further comprises a damping sleeve (23), and the damping sleeve (23) is fixedly connected with the ball (22) and is positioned around the ball (22).

6. The aggregate shaker for the production of fire bricks as claimed in claim 5,

the locking assembly (13) further comprises a limiting block (24), and the limiting block (24) is fixedly connected with the inner cylinder (19) and is positioned in the outer cylinder (17).

7. The aggregate shaker for the production of fire bricks as claimed in claim 6,

the mounting mechanism (1) further comprises a valve (25), and the valve (25) is fixedly connected with the shell (5) and is positioned at the discharge hole (14).

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