CN217120169U

CN217120169U - Granulation equipment of molecular sieve

Info

Publication number: CN217120169U
Application number: CN202220545263.0U
Authority: CN
Inventors: 罗淦; 罗文凯; 任启均
Original assignee: Mianyang Kailida Chemical Co ltd
Current assignee: Mianyang Kailida Chemical Co ltd
Priority date: 2022-03-14
Filing date: 2022-03-14
Publication date: 2022-08-05
Anticipated expiration: 2032-03-14

Abstract

The utility model discloses a granulation equipment of molecular sieve, including the granulation case, the granulation case is cylindrical, be equipped with synergistic effect's the component of polishing and design component in the granulation case, the circular and centre of a circle coincidence between them that the component of polishing and design component are fan-shaped breach, and the component of polishing is fixed in the granulation case, its centre of a circle gyration can be followed to the design component, and the design component is along its direction of gyration and the component of polishing and granulation case internal perisporium sliding connection. Through the polishing component and the shaping component of synergistic effect, can stereotype and polish the size of molecular sieve, the shaping component passes through the driving piece drive simultaneously, need artifical pulling apron granulation, the problem of granulation inefficiency when can solving the same molecular sieve of manufacturing size.

Description

Granulation equipment of molecular sieve

Technical Field

The utility model relates to a molecular sieve production technical field, concretely relates to granulation equipment of molecular sieve.

Background

The molecular sieve product on the existing market is generally made into spherical particles through roller rolling forming, but the spherical particles through roller rolling forming are often different in size, are not round enough integrally and have certain limitation when in use.

Patent numbers: CN201922462396.2, patent name: the problem of the molecular sieve size of processing out is not of uniform size solved for a carbon molecular sieve prilling granulator's patent, but this patent needs manual operation molecular sieve making devices, needs artifical slip apron granulation, needs the manual work to take out the molecular sieve after the granulation is accomplished, leads to production efficiency lower.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a granulation equipment of molecular sieve for need artifical pulling apron granulation, the problem of granulation inefficiency to the same molecular sieve of manufacturing dimension among the solution prior art.

In order to solve the technical problem, the utility model adopts the following scheme:

the utility model provides a granulation equipment of molecular sieve, includes the granulation case, the granulation case is cylindrical, be equipped with synergistic effect's the component of polishing and design component in the granulation case, polish the component and design component and be the circular and coincidence of its centre of a circle between them that have fan-shaped breach, polish the component and fix in the granulation case, design component can be followed its centre of a circle gyration, and design component along its direction of gyration and polish component and granulation case internal perisporium sliding connection. Through the polishing component and the shaping component of synergistic effect, can stereotype and polish the size of molecular sieve, the shaping component passes through the driving piece drive simultaneously, need artifical pulling apron granulation, the problem of granulation inefficiency when can solving the same molecular sieve of manufacturing size. The central angle of the sector gap of the grinding component and the shaping component is 30-180 degrees.

The component of polishing includes that the top surface is equipped with the runner of polishing of spout, and the design component includes that the bottom surface is equipped with the design dish in hemisphere hole, and because the top surface of runner is in same horizontal plane with the bottom surface of design dish, runner and the design dish along the direction of rotation sliding connection of design dish, can make the runner of polishing make a round trip to roll in hemisphere downthehole molecular sieve granule and polish in hemisphere downthehole, because the size in hemisphere hole on the design dish is the same, consequently, can solve the problem that the molecular sieve granule is not of uniform size.

Because granulation case bottom is equipped with step motor, step motor drives the pivot rotation with design dish centre of a circle fixed connection, can be so that the design dish passes through step motor drive, needs the manual work to stimulate the apron when solving the manufacturing molecular sieve, causes the problem of inefficiency.

Further, the polishing component comprises a polishing disc, a plurality of arc polishing chutes are formed in the top surface of the polishing disc, the shaping component comprises a shaping disc, and a plurality of hemispherical holes matched with the polishing chutes are formed in the bottom surface of the shaping disc.

Furthermore, the polishing disc and the shaping disc are both horizontally arranged semi-circles, the top surface of the polishing disc and the bottom surface of the shaping disc are located on the same horizontal plane, polishing chutes in the top surface of the polishing disc are all semi-circular chutes, and hemispherical holes in the shaping disc are the same in size and are matched with the semi-circular chutes.

Further, semi-circular spout on the dish top surface of polishing all distributes along the radius direction equidistance of the dish of polishing, hemisphere hole on the design dish bottom surface all distributes along circumferencial direction evenly.

Further, the top of the polishing disc is provided with a first material baffle plate, the top of the shaping disc is provided with a second material baffle plate, the first material baffle plate and the second material baffle plate are both arranged close to the sector notches of the polishing disc and the shaping disc, and a material piling cavity can be formed between the first material baffle plate and the second material baffle plate.

Furthermore, the bottom of the grinding disc is provided with a support rod, and the bottom of the support rod is arranged in the granulation box. The supporting rod is arranged, so that the polishing disc is good in fixing effect, and the service life of the equipment is prolonged.

Further, be equipped with curved stopper on the dish top surface of polishing, be equipped with the arc spout with the stopper adaptation on the setting dish bottom surface. Set up stopper and arc spout, produce the displacement deviation when can avoiding the design dish to gyration to precision when polishing is improved, thereby improve the finished product effect of molecular sieve.

Furthermore, the peripheral wall of the shaping disc is provided with a limiting slide block, and the inner peripheral wall of the granulation box is provided with a circular sliding groove matched with the limiting block.

Further, still including drive component, drive component includes step motor and pivot, and step motor locates granulation bottom of the case portion installs drive gear in the step motor output shaft, installs in the pivot with drive gear meshed driven gear, the pivot runs through and the perpendicular to granulation bottom of the case portion sets up, the pivot top with design dish bottom centre of a circle fixed connection.

The utility model discloses beneficial effect who has:

1. the utility model discloses a component of polishing includes that the top surface is equipped with the runner of polishing of spout, and the design component includes that the bottom surface is equipped with the design dish in hemisphere hole, and because the top surface of runner is in same horizontal plane with the bottom surface of design dish, runner and the direction of rotation sliding connection of design dish along the design dish can make the runner of polishing make a round trip to roll in hemisphere downthehole molecular sieve granule and polish because the size in hemisphere hole on the design dish is the same, consequently, can solve the problem that the molecular sieve granule is not of uniform size.

2. The utility model discloses a set up step motor bottom the granulation tank, step motor drives and rotates with design dish centre of a circle fixed connection's pivot, can be so that the design dish passes through step motor drive, needs artifical pulling apron when solving and making the molecular sieve, causes the problem of inefficiency.

3. The utility model discloses a make mill and design dish be semi-circular, and the top surface of the dish of polishing is in same horizontal plane with the bottom surface of design dish, can make the spout of polishing on the dish of polishing to the downthehole molecular sieve of hemisphere accomplish the back of polishing, the design dish is through step motor drive back that resets, the downthehole molecular sieve of hemisphere can directly drop in granulation bottom of the case portion, and owing to be motor drive, has vibration effect when drive design dish rotates, can avoid the molecular sieve to bond in the hemisphere of design dish is downthehole.

4. The utility model discloses a set up stopper and arc spout, set up spacing slider and circular spout, produce the displacement deviation when can avoiding the design dish to revolve to precision when polishing is improved, thereby improve the finished product effect of molecular sieve.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic top view of the polishing member and the shaping member of the present invention;

fig. 3 is a schematic bottom view of the polishing member and the shaping member according to the present invention.

Reference numerals:

1-a feeding port, 2-a granulating box, 3-a stacking cavity, 4-a circular chute, 5-a polishing disc, 6-a supporting rod, 7-a driving gear, 8-a stepping motor, 9-a driven gear, 10-a rotating shaft, 11-a supporting table, 12-a discharging port, 13-a shaping disc, 14-a limiting slide block, 15-a second material baffle plate, 16-a first material baffle plate, 17-a polishing chute, 18-an arc chute, 19-a hemispherical hole and 20-a limiting block.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and the terms are only for convenience of description of the present invention and simplifying the description, but do not indicate or imply that the device or element to which the term refers must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be further noted that, unless otherwise explicitly specified or limited, the terms "disposed," "opened," "mounted," "connected," and "connected" are to be construed broadly, e.g., as either a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention is explained in detail below with reference to the figures and with reference to exemplary embodiments:

as shown in fig. 1 to 3, a granulation apparatus for a molecular sieve, which comprises a granulation tank 2, wherein the granulation tank 2 is cylindrical, a polishing member and a shaping member which are cooperated with each other are arranged in the granulation tank 2, the polishing member and the shaping member are both circular with a fan-shaped gap, the circle centers of the polishing member and the shaping member coincide with each other, the polishing member is fixed in the granulation tank 2, the shaping member can rotate around the circle center, and the shaping member is slidably connected with the polishing member and the inner peripheral wall of the granulation tank 2 along the rotation direction of the shaping member. The top of the granulation box 2 is provided with a feeding hole 1, and the bottom of the granulation box 2 is provided with a discharging hole 12. Through the polishing component and the shaping component of synergistic effect, can stereotype and polish the size of molecular sieve, the shaping component passes through the driving piece drive simultaneously, need artifical pulling apron granulation, the problem of granulation inefficiency when can solving the same molecular sieve of manufacturing size. The central angle of the sectors of the grinding member and the shaping member is 30-180 degrees, and in the embodiment, the sectors of the grinding disc 5 and the shaping disc 13 are semicircular.

The component of polishing includes that the top surface is equipped with the dish 5 of polishing of spout 17, the setting component includes that the bottom surface is equipped with the setting disc 13 of hemisphere hole 19, and because the top surface of the dish 5 of polishing is in same horizontal plane with the bottom surface of setting disc 13, the dish 5 of polishing is connected along the direction of rotation sliding of setting disc 13 with setting disc 13, can make the spout 17 of polishing make a round trip to roll in hemisphere hole 19 the molecular sieve granule in hemisphere hole 19 and polish, because the size of hemisphere hole 19 on the setting disc 13 is the same, consequently, can solve the problem that the molecular sieve granule is not of uniform size. In this embodiment, the number of the grinding chutes 17 is 4.

Because granulation case 2 bottom is equipped with step motor 8, step motor 8 drives the pivot 10 rotation with the fixed connection of design dish 13 centre of a circle, can be so that design dish 13 passes through step motor 8 drive, needs artifical pulling apron when solving the manufacturing molecular sieve, causes the problem of inefficiency.

The polishing component comprises a polishing disc 5, a plurality of arc polishing sliding grooves 17 are formed in the top surface of the polishing disc 5, the shaping component comprises a shaping disc 13, and a plurality of hemispherical holes 19 matched with the polishing sliding grooves 17 are formed in the bottom surface of the shaping disc 13.

The polishing disc 5 and the shaping disc 13 are both horizontally arranged in a semicircular shape, the top surface of the polishing disc 5 and the bottom surface of the shaping disc 13 are positioned on the same horizontal plane, polishing sliding grooves 17 on the top surface of the polishing disc 5 are both semicircular sliding grooves 4, and hemispherical holes 19 on the shaping disc 13 are the same in size and are matched with the semicircular sliding grooves 4.

The semi-circular spout 4 on the top surface of the grinding disc 5 is distributed along the radius direction of the grinding disc 5 at equal intervals, and the hemispherical holes 19 on the bottom surface of the shaping disc 13 are uniformly distributed along the circumferential direction.

The top of the polishing disc 5 is provided with a first material baffle 16, the top of the shaping disc 13 is provided with a second material baffle 15, the first material baffle 16 and the second material baffle 15 are both arranged close to the fan-shaped notches of the polishing disc 5 and the shaping disc 13, and a material piling cavity 3 can be formed between the first material baffle 16 and the second material baffle 15.

The bottom of the grinding disc 5 is provided with a support rod 6, and the bottom of the support rod 6 is arranged in the granulation box 2. The arrangement of the supporting rod 6 enables the polishing disc 5 to be good in fixing effect, and the service life of the equipment is prolonged.

The top surface of the polishing disc 5 is provided with an arc-shaped limiting block 20, and the bottom surface of the shaping disc 13 is provided with an arc-shaped sliding groove 18 matched with the limiting block 20. The limiting block 20 and the arc-shaped sliding groove 18 are arranged, so that displacement deviation can be avoided when the shaping disc 13 rotates, the polishing precision is improved, and the finished product effect of the molecular sieve is improved.

The peripheral wall of the shaping disc 13 is provided with a limiting slide block 14, and the inner peripheral wall of the granulation box 2 is provided with a circular sliding groove 4 matched with the limiting block 20.

Still including driving means, driving means includes step motor 8 and pivot 10, and step motor 8 is located 2 bottoms of granulation case install drive gear 7 on the 8 output shafts of step motor, install on the pivot 10 with the driven gear 9 of drive gear 7 meshing, pivot 10 runs through and the perpendicular to 2 bottoms of granulation case set up, pivot 10 top with the 13 bottom centre of a circle fixed connection of sizing disc. Pivot 10 bottoms are equipped with brace table 11, and 11 tops of brace table are equipped with the recess that is used for placing pivot 10, and pivot 10 can be along its axis direction rotation in the recess of brace table 11.

The working principle of the utility model is as follows:

when the utility model is used, a material for manufacturing a molecular sieve is put into the material piling cavity 3 through the feed port 1, the stepping motor 8 is started, the stepping motor 8 drives the rotating shaft 10 to rotate 180 degrees, the rotary shaft 10 is fixedly connected with the circle center of the shaping disc 13, therefore, the shaping disc 13 can also rotate 180 degrees along with the rotary shaft, the shaping disc 13 is connected with the polishing disc 5 in a sliding way along the rotary direction of the shaping disc 13, so that the molecular sieve material in the polishing chute 17 on the polishing disc 5 can enter the hemispherical hole 19 of the shaping disc 13 and can be polished in the hemispherical hole 19 in a rolling way in the rotating process of the shaping disc 13, the first material baffle 16 and the second material baffle 15 which are close to a fan-shaped notch are arranged at the tops of the polishing disc 5 and the shaping disc 13, therefore, the material in the material piling cavity 3 can not drop down in the rotating process of the shaping disc 13, after the shaping disc 13 rotates 180 degrees, the stepping motor 8 drives the rotating shaft 10 to rotate 180 degrees reversely to reset the shaping disc 13, in the process that resets, the molecular sieve in the hemisphere hole 19 of design dish 13 bottom surface can down drop owing to not beating stopping of mill 5, simultaneously, because design dish 13 is through step motor 8 drive, so vibrations that produce in the driving process can accelerate dropping of molecular sieve, avoid the molecular sieve to adhere to in hemisphere hole 19, design dish 13 resets and accomplishes the back, and the above-mentioned action of repetition again can be with the molecular sieve preparation of equidimension completion.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and the technical essence of the present invention is that within the spirit and principle of the present invention, any simple modification, equivalent replacement, and improvement made to the above embodiments are all within the protection scope of the technical solution of the present invention.

Claims

1. A granulation equipment of molecular sieve, includes granulation case (2), its characterized in that: the granulation box (2) is cylindrical, a polishing component and a shaping component which have a synergistic effect are arranged in the granulation box (2), the polishing component and the shaping component are circular and have fan-shaped notches, the circle centers of the polishing component and the shaping component are overlapped, the polishing component is fixed in the granulation box (2), the shaping component can rotate along the circle center of the shaping component, and the shaping component is connected with the polishing component and the inner circumferential wall of the granulation box (2) in a sliding mode along the rotation direction of the shaping component.

2. The apparatus for granulating a molecular sieve as claimed in claim 1, wherein: the polishing component comprises a polishing disc (5), a plurality of arc polishing sliding grooves (17) are formed in the top surface of the polishing disc (5), the shaping component comprises a shaping disc (13), and a plurality of hemispherical holes (19) matched with the polishing sliding grooves (17) are formed in the bottom surface of the shaping disc (13).

3. The apparatus for granulating a molecular sieve as claimed in claim 2, wherein: the polishing disc (5) and the sizing disc (13) are horizontally arranged in a semicircular shape, the top surface of the polishing disc (5) and the bottom surface of the sizing disc (13) are located on the same horizontal plane, polishing sliding grooves (17) in the top surface of the polishing disc (5) are all semicircular sliding grooves (4), and hemispherical holes (19) in the sizing disc (13) are identical in size and are all matched with the semicircular sliding grooves (4).

4. A molecular sieve granulation apparatus as claimed in claim 3, wherein; semi-circular spout (4) on the top surface of polishing dish (5) all distribute along the radial direction equidistance of polishing dish (5), hemisphere hole (19) on sizing disc (13) bottom surface all along circumferencial direction evenly distributed.

5. The apparatus for granulating a molecular sieve as claimed in claim 2, wherein: the top of the polishing disc (5) is provided with a first material baffle (16), the top of the sizing disc (13) is provided with a second material baffle (15), the first material baffle (16) and the second material baffle (15) are both close to the sector notches of the polishing disc (5) and the sizing disc (13), and a material piling cavity (3) can be formed between the first material baffle (16) and the second material baffle (15).

6. The apparatus of claim 2, wherein: the bottom of the grinding disc (5) is provided with a support rod (6), and the bottom of the support rod (6) is arranged in the granulation box (2).

7. The apparatus for granulating a molecular sieve as claimed in claim 2, wherein: the top surface of the polishing disc (5) is provided with an arc-shaped limiting block (20), and the bottom surface of the shaping disc (13) is provided with an arc-shaped sliding groove (18) matched with the limiting block (20).

8. The apparatus for granulating a molecular sieve as claimed in claim 2, wherein: the peripheral wall of the shaping disc (13) is provided with a limiting slide block (14), and the inner peripheral wall of the granulation box (2) is provided with a circular sliding groove (4) matched with the limiting block (20).

9. The apparatus for granulating a molecular sieve as claimed in claim 2, wherein: still including driving means, driving means includes step motor (8) and pivot (10), and step motor (8) are located granulation case (2) bottom installs drive gear (7) on step motor (8) output shaft, installs driven gear (9) with drive gear (7) meshing on pivot (10), and pivot (10) run through and perpendicular to granulation case (2) bottom sets up, pivot (10) top with the centre of a circle fixed connection in shaping dish (13) bottom.