阅读说明：本技术 一种石油提炼催化剂制备系统 (Petroleum extraction catalyst preparation system ) 是由 丁鑫玉 刘远浩 于 2021-07-14 设计创作，主要内容包括：本发明涉及石油化工催化剂技术领域,具体为一种石油提炼催化剂制备系统,包括筒体,筒体内设置有搅拌机构,筒体内设置有振动筛,振动筛下方设置有过滤组件,筒体右侧与筒体内部过滤组件对应位置设置有出料组件,搅拌机构包括液压缸、液压杆、传动杆、圆柱、搅拌棒、斜环槽、导杆、进料口,液压缸固定连接在筒体上端面,液压缸底部固定连接有液压杆,液压杆贯穿筒体上端面并活动连接,本发明通过设计搅拌机构,通过将合成沸石分子筛原料倒入筒体内,从而使搅拌机构对合成沸石分子筛原料进行充分搅拌,搅拌效率高,且转动连接的搅拌杆在搅拌机构搅拌使发生转动,从而提高了搅拌效率,便于合成沸石分子筛原料的充分混合。(The invention relates to the technical field of petrochemical catalysts, in particular to a preparation system of a petroleum refining catalyst, which comprises a cylinder body, wherein a stirring mechanism is arranged in the cylinder body, a vibrating screen is arranged in the cylinder body, a filtering component is arranged below the vibrating screen, a discharging component is arranged at the right side of the cylinder body corresponding to the filtering component in the cylinder body, the stirring mechanism comprises a hydraulic cylinder, a hydraulic rod, a transmission rod, a cylinder, a stirring rod, an inclined ring groove, a guide rod and a feeding hole, the hydraulic cylinder is fixedly connected with the upper end surface of the cylinder body, the hydraulic rod penetrates through the upper end surface of the cylinder body and is movably connected with the upper end surface of the cylinder body, the stirring mechanism is designed, raw materials of a synthetic zeolite molecular sieve are poured into the cylinder body, so that the stirring mechanism can fully stir the raw materials of the synthetic zeolite molecular sieve, the stirring efficiency is high, and the stirring rod which is rotatably connected is stirred by the stirring mechanism to rotate, thereby improving the stirring efficiency and facilitating the full mixing of the raw materials of the synthetic zeolite molecular sieve.)

1. A petroleum refining catalyst preparation system, includes barrel (1), its characterized in that: a stirring mechanism (2) is arranged in the barrel (1), a vibrating screen (3) is arranged in the barrel (1), a filtering component (4) is arranged below the vibrating screen (3), and a discharging component (5) is arranged at the position, corresponding to the filtering component (4) in the barrel (1), of the right side of the barrel (1);

rabbling mechanism (2) include pneumatic cylinder (21), hydraulic stem (22), transfer line (23), cylinder (24), stirring rod (25), inclined ring groove (26), guide arm (27), feed inlet (28), pneumatic cylinder (21) fixed connection is at barrel (1) up end, pneumatic cylinder (21) bottom fixedly connected with hydraulic stem (22), hydraulic stem (22) run through barrel (1) up end and swing joint, hydraulic stem (22) run through and stretch into barrel (1) one end fixed connection in transfer line (23) upper end, transfer line (23) bottom fixedly connected with cylinder (24), cylinder (24) lower extreme and stirring rod (25) fixed connection, inclined ring groove (26) have been seted up on cylinder (24) side, inclined ring groove (26) are stretched into and sliding connection by guide arm (27) one end, guide arm (27) other end fixed connection is on barrel (1) internal surface front side wall, a feed inlet (28) is formed in the left side of the upper end face of the barrel body (1).

2. The petroleum refining catalyst preparation system of claim 1, wherein: stirring rod (25) side fixedly connected with a plurality of groups connecting block (251), every group connecting block (251) run through and stretch into and swing joint has a set of spread groove (252), every group spread groove (252) are seted up in a set of puddler (253), and intensive equidistance fixedly connected with a plurality of stirring leaves (254) on every group puddler (253), puddler (253) are connected with connecting block (251) rotation through spread groove (252).

3. The petroleum refining catalyst preparation system of claim 1, wherein: the center of the vibrating screen (3) is penetrated by an embedded fixed ring which is fixedly connected with the transmission rod (23).

4. The petroleum refining catalyst preparation system of claim 3, wherein: the filter assembly (4) comprises first inclined wedge blocks (41), a guide wheel (42), an outlet (43), a T-shaped ring groove (44), a T-shaped ring (45), a filter plate (46) and second inclined wedge blocks (47), wherein two groups of first inclined wedge blocks (41) are symmetrically and fixedly connected with the upper end bottom surface of the vibrating screen (3), the bottom of each group of first inclined wedge blocks (41) is rotatably connected with the guide wheel (42), the right end of the vibrating screen (3) extends into one group of outlet (43) and is not in contact with the outlet, the outlet (43) is arranged on the right side surface of the barrel body (1), a group of T-shaped ring grooves (44) are arranged on the inner surface of the barrel body (1), the T-shaped ring grooves (44) are penetrated into and fixedly connected with the T-shaped ring (45), one end of the T-shaped ring (45) penetrating out of the T-shaped ring grooves (44) is fixedly connected onto the side surface of the filter plate (46), a plurality of groups of second inclined wedge blocks (47) are fixedly connected onto the filter plate (46), and a plurality of groups of second inclined wedges (47) are annularly and equidistantly distributed on the outer edge of the upper end surface of the filter plate (46), and the positions of the second inclined wedges (47) are matched with those of the first inclined wedges (41).

5. The petroleum refining catalyst preparation system of claim 1, wherein: ejection of compact subassembly (5) are the slope setting of 10 angles of inclination including carving groove (51), resisting board (52), L type wedge (53), storage case (54) shale shaker (3) and filter plate (46) in barrel (1), and the left end is the big one side of slope in barrel (1), groove (51) have been seted up to barrel (1) right side, carve groove (51) internal surface bottom fixedly connected with a set of resisting board (52), resist board (52) and L type wedge (53) laminating and swing joint, L type wedge (53) one end is run through and is stretched out and carve groove (51) and swing joint, L type wedge (53) stretch out and carve groove (51) one end fixedly connected with case (54).

6. The petroleum refining catalyst preparation system of claim 4, wherein: the bottom of the inner surface of the outlet (43) is in a downhill shape from left to right, a flow guide block is fixedly connected to the extension line of the right side of the bottom of the inner surface of the outlet (43), and the flow guide block is fixedly connected to the right side of the barrel (1).

Technical Field

The invention relates to the technical field of petrochemical catalysts, in particular to a preparation system of a petroleum refining catalyst.

Background

Petrochemical catalysts are used as catalysts in chemical processes in the production of petrochemical products. The catalyst is a catalyst for oxidation, hydrogenation, dehydrogenation, oxo synthesis, hydration, dehydration, alkylation, isomerization, disproportionation, polymerization and other processes.

The zeolite molecular sieve is an inorganic crystal material and is widely applied to the fields of catalysis, adsorption, ion exchange and the like due to the regular pore structure, stronger acidity and high hydrothermal stability.

The prior patent (patent application No. CN108479558A) relates to a petroleum refining catalyst preparation device, the structure of which comprises a petroleum refining catalyst preparation device main body, a zeolite molecular sieve mixing and stirring device transmission case and a zeolite molecular sieve mixing and stirring circuit control transmission case, wherein the zeolite molecular sieve mixing and stirring device transmission case is provided with a zeolite molecular sieve mixing and stirring case control transmission mechanism and a zeolite molecular sieve mixing and stirring device, the zeolite molecular sieve mixing and stirring circuit control transmission case is provided with a zeolite molecular sieve mixing and stirring circuit control device and a zeolite molecular sieve mixing and stirring circuit starting device, so that when the device is used, the device can process and prepare the catalyst through simple operation control equipment, in order to enable the catalyst to be uniformly stirred and mixed, the speed and the uniformity of mixing and stirring are accelerated through the bidirectional control of the stirring direction, and the trouble of manual stirring is avoided, the working efficiency is improved.

The method generally needs a catalyst to accelerate the extraction efficiency in the secondary processing and extraction process of petroleum, and the zeolite molecular sieve is a better catalyst in the field, and the raw materials of the zeolite molecular sieve need to be mixed in the production process of the zeolite molecular sieve catalyst, and the prior art has the following defects that 1, the raw materials of the synthetic zeolite molecular sieve are generally mechanically or manually stirred by a stirring rod, so that the mixing speed of the raw materials of the synthetic zeolite molecular sieve is low, and the stirring efficiency is low; 2. the synthetic zeolite molecular sieve raw material easily contains larger solid particles, and the larger solid particles influence the catalytic performance of the zeolite molecular sieve catalyst for subsequent synthesis of the stirred zeolite molecular sieve raw material.

Therefore, a preparation system of the petroleum refining catalyst is provided.

Disclosure of Invention

The invention aims to provide a preparation system of a petroleum refining catalyst, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a preparation system of a petroleum refining catalyst comprises a cylinder, wherein a stirring mechanism is arranged in the cylinder, a vibrating screen is arranged in the cylinder, a filtering component is arranged below the vibrating screen, and a discharging component is arranged on the right side of the cylinder and corresponds to the filtering component in the cylinder;

rabbling mechanism includes pneumatic cylinder, hydraulic stem, transfer line, cylinder, stirring rod, oblique annular, guide arm, feed inlet, pneumatic cylinder fixed connection is at the barrel up end, pneumatic cylinder bottom fixedly connected with hydraulic stem, the hydraulic stem runs through barrel up end and swing joint, the hydraulic stem runs through and stretches into barrel one end fixed connection in the transfer line upper end, transfer line bottom fixedly connected with cylinder, cylinder lower extreme and stirring rod fixed connection, the oblique annular has been seted up on the cylinder side, the oblique annular is stretched into and sliding connection by guide arm one end, guide arm other end fixed connection is on the lateral wall before the barrel internal surface, the feed inlet has been seted up in barrel up end left side.

Preferably, a plurality of groups of connecting blocks of stirring rod side fixedly connected with, every group the connecting block runs through and stretches into and swing joint has a set of spread groove, every group the spread groove is seted up in a set of puddler, and a plurality of stirring leaves of intensive equidistance fixedly connected with on every group puddler.

Through adopting above-mentioned technical scheme, in the rabbling mechanism course of work, the stirring rod reciprocates and receives the lateral pressure of synthetic zeolite molecular sieve raw materials when rotating in the synthetic zeolite molecular sieve raw materials of barrel and makes the puddler that rotates the connection on the stirring rod rotate through spread groove and connecting block and be connected the emergence and rotate to it mixes to stir synthetic zeolite molecular sieve raw materials more quick to be convenient for cooperate the rabbling mechanism.

Preferably, the center of the vibrating screen is fixedly connected with a fixing ring in an embedded mode, and the fixing ring is communicated and fixedly connected with the transmission rod.

Through adopting above-mentioned technical scheme, in the rabbling mechanism course of work, the transfer line reciprocates to make the shale shaker reciprocate, thereby carry out the filtration screening of oscillating formula to the synthetic zeolite molecular sieve raw materials of putting into the barrel, the great synthetic zeolite molecular sieve raw materials of solid particle is stayed on the shale shaker, thereby is convenient for to the screening of synthetic zeolite molecular sieve raw materials, the puddler passes through the spread groove and is connected with the connecting block rotation, improves raw materials screening efficiency, avoids raw materials granule to block up the sieve.

Preferably, the filtering component includes first oblique wedge, guide pulley, export, T type annular, T type ring, filter plate, the oblique wedge of second, two sets of first oblique wedges of shale shaker upper end bottom surface symmetry fixedly connected with, and the first oblique wedge bottom of every group rotates and is connected with the guide pulley, the shale shaker right-hand member stretches into in a set of export and contactless, the export is seted up on barrel right flank, a set of T type annular has been seted up to the barrel internal surface, T type annular is run through by T type ring and is stretched into and fixed connection, T type ring runs through the one end fixed connection who stretches out T type annular on the filter plate side, fixedly connected with a plurality of groups second oblique wedge on the filter plate, and a plurality of groups second oblique wedge is the annular equidistance and distributes in filter plate up end outside edge, second oblique wedge and first oblique wedge position phase-match.

Through adopting above-mentioned technical scheme, at the in-process that the shale shaker reciprocated, the first wedge that inclines of shale shaker bottom fixed connection reciprocates, thereby extrude the oblique wedge of second, make the filter plate rotate, thereby make the synthetic zeolite molecular sieve raw materials of coming in from the feed inlet be difficult for piling up in barrel internal surface bottom department, thereby be convenient for rabbling mechanism's stirring, and at the in-process of the oblique wedge of first wedge that inclines constantly intermittent type extrusion second, the grow that diminishes of the interval between shale shaker and the filter plate that constantly intermittent type, thereby promote synthetic zeolite molecular sieve raw materials on the filter plate to pass through the filter plate, the synthetic zeolite molecular sieve raw materials that have been screened by the shale shaker are difficult for a long time to adhere to on the filter plate and cause the jam.

Preferably, the discharging assembly comprises a wedge groove, a support plate, an L-shaped wedge block and a storage box, the vibrating screen and the filter plate are obliquely arranged at an inclination angle of 10 degrees in the barrel, the left end in the barrel is the side with a large inclination, the wedge groove is formed in the right side of the barrel, a group of support plates are fixedly connected to the bottom of the inner surface of the wedge groove, the support plates are attached to and movably connected with the L-shaped wedge block, one end of the L-shaped wedge block penetrates through and extends out of the wedge groove and is movably connected with the same, and one end of the L-shaped wedge block extends out of the wedge groove and is fixedly connected with the storage box.

Through adopting above-mentioned technical scheme, in the rabbling mechanism working process, the design of shale shaker and filter plate slope makes the synthetic zeolite molecular sieve raw materials of the bigger granule of staying on the shale shaker move down in the same place of the shale shaker vibration in-process to get into the storage case through export whereabouts, thereby be convenient for retrieve the synthetic zeolite molecular sieve raw materials of bigger granule, so that follow-up manual handling.

Preferably, the bottom of the inner surface of the outlet is in a downhill shape from left to right, a flow guide block is fixedly connected to the extension line of the right side of the bottom of the inner surface of the outlet, and the flow guide block is fixedly connected to the right side of the cylinder.

Through adopting above-mentioned technical scheme, in ejection of compact subassembly working process, the design of the water conservancy diversion piece of fixed connection on the extension line of export internal surface bottom right side makes the difficult synthetic zeolite molecular sieve raw materials that flow out the great granule of export carve the groove to difficult waste and the jam of causing synthetic zeolite molecular sieve raw materials carves the groove, and is practical convenient.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, by designing the stirring mechanism, the synthetic zeolite molecular sieve raw material is poured into the cylinder body, so that the stirring mechanism can fully stir the synthetic zeolite molecular sieve raw material, the stirring efficiency is high, and the stirring rod which is rotationally connected is stirred in the stirring mechanism to rotate, so that the stirring efficiency is improved, and the synthetic zeolite molecular sieve raw material can be fully mixed;

2. according to the invention, by designing the vibrating screen and the filtering component, the vibrating screen is driven to vibrate when the stirring mechanism works, so that synthetic zeolite molecular sieve raw materials with larger solid particles are left on the vibrating screen, and the filtering component is driven to rotate in a clearance manner when the vibrating screen vibrates, so that the synthetic zeolite molecular sieve raw materials coming from the feeding port are not easy to accumulate at one position of the bottom of the inner surface of the cylinder, thus the stirring of the stirring mechanism is facilitated, and the filtering component also has the effect of promoting the synthetic zeolite molecular sieve raw materials on the filtering plate to pass through the filtering plate, so that the synthetic zeolite molecular sieve raw materials are prevented from being difficult to adhere to the filtering plate for a long time to cause blockage;

3. according to the invention, the discharge assembly is designed, so that the large-particle synthetic zeolite molecular sieve raw material on the vibrating screen is collected, and the large-particle synthetic zeolite molecular sieve raw material is convenient to recover and is convenient to carry out subsequent manual treatment.

Drawings

FIG. 1 is an overall structural view of the present invention;

FIG. 2 is a cross-sectional view of the general front of the present invention;

FIG. 3 is a structural view of the cylinder as a whole according to the present invention;

FIG. 4 is a combination view of a shaker and filter plate of the present invention;

FIG. 5 is a view C-C of FIG. 2 of the present invention;

FIG. 6 is an enlarged view of A of FIG. 2 in accordance with the present invention;

fig. 7 is an enlarged view of B of fig. 2 according to the present invention.

In the figure:

1. a barrel;

2. a stirring mechanism; 21. a hydraulic cylinder; 22. a hydraulic lever; 23. a transmission rod; 24. a cylinder; 25. a stirring rod; 26. an oblique ring groove; 27. a guide bar; 28. a feed inlet;

251. connecting blocks; 252. connecting grooves; 253. a stirring rod; 254. stirring blades;

3. vibrating screen;

4. a filter assembly; 41. a first slanting wedge; 42. a guide wheel; 43. an outlet; 44. a T-shaped ring groove; 45. a T-shaped ring; 46. filtering the plate; 47. a second slanting wedge;

5. a discharge assembly; 51. a groove is carved; 52. a resisting plate; 53. an L-shaped wedge; 54. a material storage box.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, the present invention provides a technical solution:

a preparation system of a petroleum refining catalyst comprises a cylinder 1, wherein a stirring mechanism 2 is arranged in the cylinder 1, a vibrating screen 3 is arranged in the cylinder 1, a filtering component 4 is arranged below the vibrating screen 3, and a discharging component 5 is arranged at the position, corresponding to the filtering component 4 in the cylinder 1, of the right side of the cylinder 1;

rabbling mechanism 2 includes pneumatic cylinder 21, hydraulic stem 22, transfer line 23, cylinder 24, stirring rod 25, oblique annular groove 26, guide arm 27, feed inlet 28, pneumatic cylinder 21 fixed connection is at 1 up end of barrel, pneumatic cylinder 21 bottom fixedly connected with hydraulic stem 22, hydraulic stem 22 runs through 1 up end of barrel and swing joint, hydraulic stem 22 runs through and stretches into 1 one end fixed connection of barrel in the transfer line 23 upper end, transfer line 23 bottom fixedly connected with cylinder 24, 24 lower extremes of cylinder and 25 fixed connection of stirring rod, oblique annular groove 26 has been seted up on the cylinder 24 side, oblique annular groove 26 is stretched into and sliding connection by 27 one end of guide arm 27, 27 other end fixed connection of guide arm is on the lateral wall before 1 internal surface of barrel, feed inlet 28 has been seted up on the left of 1 up end of barrel.

As an embodiment of the present invention, as shown in fig. 2 and fig. 6, a plurality of groups of connecting blocks 251 are fixedly connected to a side surface of the stirring rod 25, each group of connecting blocks 251 extends through and is movably connected with a group of connecting grooves 252, each group of connecting grooves 252 is opened on a group of stirring rods 253, a plurality of stirring blades 254 are fixedly connected to each group of stirring rods 253 at equal intervals, and the stirring rods 253 are rotatably connected with the connecting blocks 251 through the connecting grooves 252.

The during operation, in rabbling mechanism 2 working process, the stirring rod 25 reciprocates and receives the lateral pressure of synthetic zeolite molecular sieve raw materials when rotating in the synthetic zeolite molecular sieve raw materials in barrel 1 and makes the puddler 253 of rotating the connection on the stirring rod 25 rotate through spread groove 252 and connecting block 251 and be connected the emergence rotation, thereby it mixes to stirring synthetic zeolite molecular sieve raw materials to be convenient for cooperate rabbling mechanism 2 to be faster, thereby can be better stir the raw materials, make its misce bene.

As an embodiment of the present invention, as shown in fig. 2 and 4, a fixing ring is fixedly connected to a center penetration portion of the vibrating screen 3 in an embedded manner, and the fixing ring is penetrated and fixedly connected by a transmission rod 23.

The during operation, in 2 working processes of rabbling mechanism, transfer line 23 reciprocated to make shale shaker 3 reciprocate, thereby carry out the filtration screening of oscillating formula to the synthetic zeolite molecular sieve raw materials of putting into barrel 1, the great synthetic zeolite molecular sieve raw materials of solid particle is stayed on shale shaker 3, thereby is convenient for to the screening of synthetic zeolite molecular sieve raw materials, improves raw materials screening efficiency, avoids raw materials granule to block up the sieve.

As an embodiment of the present invention, as shown in fig. 1, 2, 4 and 5, the filter assembly 4 includes first inclined wedges 41, guide wheels 42, outlets 43, T-shaped grooves 44, T-shaped rings 45, filter plates 46 and second inclined wedges 47, two groups of the first inclined wedges 41 are symmetrically and fixedly connected to the bottom surface of the upper end of the vibrating screen 3, the bottom of each group of the first inclined wedges 41 is rotatably connected with the guide wheel 42, the right end of the vibrating screen 3 extends into one group of the outlets 43 without contacting, the outlets 43 are opened on the right side surface of the cylinder 1, a group of the T-shaped grooves 44 are opened on the inner surface of the cylinder 1, the T-shaped grooves 44 are penetrated into and fixedly connected by the T-shaped rings 45, one end of the T-shaped rings 45, which penetrates out of the T-shaped grooves 44, is fixedly connected to the side surface of the filter plate 46, a plurality of the second inclined wedges 47 are fixedly connected to the filter plates 46, and a plurality of the second inclined wedges 47 are distributed on the outer edge of the upper end surface of the filter plate 46 at equal intervals, the second slanting wedge 47 and the first slanting wedge 41 are matched in position.

During operation, in the process that the vibrating screen 3 moves up and down, the first inclined wedges 41 fixedly connected to the bottom of the vibrating screen 3 move up and down, so as to extrude the second inclined wedges 47, so as to rotate the filter plate 46, so as to prevent the synthetic zeolite molecular sieve raw material coming from the feed inlet 28 from being accumulated at the bottom of the inner surface of the cylinder 1, thereby facilitating the stirring of the stirring mechanism 2, and in the process that the first inclined wedges 41 continuously and intermittently extrude the second inclined wedges 47, the interval between the vibrating screen 3 and the filter plate 46 is continuously and intermittently reduced and increased, so as to promote the synthetic zeolite molecular sieve raw material on the filter plate 46 to pass through the filter plate 46, namely the synthetic zeolite molecular sieve raw material screened by the vibrating screen 3 is not easy to adhere to the filter plate 46 for a long time to cause blockage.

As an embodiment of the present invention, as shown in fig. 1, 2 and 7, the discharging assembly 5 includes a wedge groove 51, a resisting plate 52, an L-shaped wedge block 53 and a storage tank 54, the vibrating screen 3 and the filter plate 46 are inclined in the cylinder 1 at an inclination angle of 10 °, the left end in the cylinder 1 is a side with a large inclination, the right side of the cylinder 1 is provided with the wedge groove 51, the bottom of the inner surface of the wedge groove 51 is fixedly connected with a group of resisting plates 52, the resisting plate 52 is attached to and movably connected with the L-shaped wedge block 53, one end of the L-shaped wedge block 53 penetrates through and extends out of the wedge groove 51 and is movably connected with the storage tank 54, and one end of the L-shaped wedge block 53 extends out of the wedge groove 51 and is fixedly connected with the storage tank 54.

During operation, in the working process of the stirring mechanism 2, the design of the inclined vibrating screen 3 and the filter plate 46 enables the synthetic zeolite molecular sieve raw material with larger particles left on the vibrating screen 3 to move down along the trend in the vibrating process of the vibrating screen 3 and fall into the storage box 54 through the outlet 43, so that the synthetic zeolite molecular sieve raw material with larger particles can be recovered conveniently, and the subsequent manual treatment can be conveniently carried out.

As an embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 7, the bottom of the inner surface of the outlet 43 is in a downhill shape from left to right, and a flow guide block is fixedly connected to an extension line of the right side of the bottom of the inner surface of the outlet 43, and the flow guide block is fixedly connected to the right side of the cylinder 1.

During operation, in the working process of the discharging assembly 5, the design of the flow guide block fixedly connected with the extension line on the right side of the bottom of the inner surface of the outlet 43 enables the synthetic zeolite molecular sieve raw material flowing out of the outlet 43 to be difficult to enter the wedge groove 51, so that the synthetic zeolite molecular sieve raw material is difficult to waste and block the wedge groove 51, and the device is practical and convenient.

The working principle is as follows: when in work, the hydraulic cylinder 21 is started to control the hydraulic rod 22 to move up and down continuously by the hydraulic cylinder 21, so that the stirring rod 25 moves up and down through the transmission rod 23, the cylinder 24 fixedly connected to the stirring rod 25 also moves up and down, the inclined ring groove 26 of the cylinder 24 is pressed by the guide rod 27 fixed to the inner surface of the cylinder 1 to rotate, namely, the column 24 and the stirring rod 25 fixedly connected with the column 24 rotate, the raw materials of the synthetic zeolite molecular sieve are put into the cylinder body 1 through the feed inlet 28, the stirring rod 25 which moves up and down and rotates at the bottom of the cylinder body 1 is used for stirring and mixing, the mixing efficiency is high, when the stirring rod 25 moves up and down in the synthetic zeolite molecular sieve raw material in the cylinder 1 and rotates, the stirring rod 253 which is rotatably connected with the stirring rod 25 is rotatably connected with the connecting block 251 through the connecting groove 252 to rotate under the lateral pressure of the synthetic zeolite molecular sieve raw material, so that the synthetic zeolite molecular sieve raw material can be more rapidly mixed;

in the working process of the stirring mechanism 2, the transmission rod 23 moves up and down, so that the vibrating screen 3 moves up and down, the synthetic zeolite molecular sieve raw material placed in the cylinder 1 is subjected to oscillation type filtering and screening, and the synthetic zeolite molecular sieve raw material with larger solid particles is remained on the vibrating screen 3, so that the synthetic zeolite molecular sieve raw material is conveniently screened, the raw material screening efficiency is improved, and the raw material particles are prevented from blocking a screen plate; in the process that the vibrating screen 3 moves up and down, the bottom of the vibrating screen 3 is fixedly connected with the first inclined wedges 41 to move up and down, so that the second inclined wedges 47 are extruded, the filter plate 46 rotates, so that the synthetic zeolite molecular sieve raw material coming from the feeding hole 28 is not easy to accumulate at one position of the bottom of the inner surface of the cylinder 1, so that the stirring of the stirring mechanism 2 is convenient, in the process that the first inclined wedges 41 continuously and intermittently extrude the second inclined wedges 47, the interval between the vibrating screen 3 and the filter plate 46 is continuously and intermittently reduced and increased, so that the synthetic zeolite molecular sieve raw material on the filter plate 46 is promoted to pass through the filter plate 46, namely the synthetic zeolite molecular sieve raw material screened by the vibrating screen 3 is not easy to adhere to the filter plate 46 for a long time to cause blockage, the vibrating screen 3 and the filter plate 46 are convenient to move down along the trend due to the inclined design of the vibrating screen 3 and the filter plate 46, and get into storage case 54 through export 43 whereabouts to be convenient for retrieve the synthetic zeolite molecular sieve raw materials of bigger granule, so that follow-up manual handling, it is practical convenient, the design of fixed connection's water conservancy diversion piece on the extension line of export 43 internal surface bottom right side makes the synthetic zeolite molecular sieve raw materials of bigger granule that flows export 43 be difficult for getting into wedge groove 51, thereby difficult waste of synthetic zeolite molecular sieve raw materials and jam wedge groove 51, it is practical convenient.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.