CN114768692B

CN114768692B - Comprehensive catalysis device and catalysis method based on climbazole

Info

Publication number: CN114768692B
Application number: CN202210408172.7A
Authority: CN
Inventors: 王云; 文宁锋
Original assignee: CHIZHOU WANWEI CHEMICAL CO LTD
Current assignee: CHIZHOU WANWEI CHEMICAL CO LTD
Priority date: 2022-04-19
Filing date: 2022-04-19
Publication date: 2022-12-30
Anticipated expiration: 2042-04-19
Also published as: CN114768692A

Abstract

The invention provides a comprehensive catalytic device and a catalytic method based on Ganbaosu, which relate to the technical field of chemical production and comprise a catalytic bearing part; the catalytic bearing part is fixedly connected with a driving device; the driving device is fixedly connected with an anti-settling part; the drive device is fixedly connected with a turbulent flow mixing device; the catalytic loading part is fixedly connected with a catalytic installation part; the catalytic installation part is provided with a linkage applying device; the mixed catalysis efficiency can be effectively improved, the application of the catalyst is more accurate, the addition can be automatically realized, the operation is simpler and more convenient, and the precipitation is effectively prevented; the problems that the existing comprehensive catalytic device based on Ganbao essence is high in overall cost, difficult to maintain and incapable of automatically realizing control quantity and multi-time mixing of the catalyst, the single catalytic amount is inconvenient to control, the use is excessively complicated, the catalytic process quality is low, and the linkage precipitation and turbulence can not be realized are solved.

Description

Comprehensive catalysis device and catalysis method based on climbazole

Technical Field

The invention relates to the technical field of chemical production, in particular to a comprehensive catalysis device and a catalysis method based on Ganbaosu.

Background

In the actual chemical production, catalysis is always a common chemical processing mode, wherein the rubus has a broad-spectrum bactericidal property, and is mainly used for itching relieving, dandruff removing, conditioning shampoo and hair care shampoo, and also can be used for high-grade washing products such as antibacterial toilet soap, shower gel, medicinal toothpaste, mouthwash and the like, so that a comprehensive catalysis device and a catalysis method based on the rubus are particularly important in the actual production and processing process.

However, as for the current comprehensive catalytic device based on carbenoxolone, the overall cost is high, the maintenance is difficult, the controlled quantity and the multiple mixing of the catalyst cannot be automatically realized, the single catalytic amount is not convenient to control, the use is excessively complicated, the catalytic process quality is low, the linkage precipitation and turbulence can not be realized, the device is not practical enough, the crystallization precipitation is easily caused, the mixing effect is not good, the catalysis is not uniform, and the linkage is poor.

Disclosure of Invention

In view of the above, the invention provides a comprehensive catalysis device and a catalysis method based on climbazole, which have a linkage application device, can assist in realizing automatic application, can realize quantitative application, has a simpler and more stable application mode, is more convenient to adjust, and can effectively improve catalysis quality.

The invention provides a comprehensive catalytic device based on Ganbaosu, which specifically comprises a catalytic bearing part; the catalytic bearing part is fixedly connected with a driving device; the driving device is fixedly connected with an anti-settling part; the drive device is fixedly connected with a turbulent flow mixing device; the catalytic loading part is fixedly connected with a catalytic installation part; the catalytic installation part is provided with a linkage applying device; the catalytic carrier part includes: the water-saving support device comprises a bearing installation box, a flow guide water outlet pipe, support legs, a water inlet pipe and a protruding arc-shaped block, wherein the flow guide water outlet pipe is fixedly connected to the bearing installation box and is communicated with the bearing installation box; a water valve is arranged on the diversion water outlet pipe; the bottom of the bearing installation box is fixedly connected with four supporting legs; fixedly connected with inlet tube on bearing the install bin.

Optionally, the catalytic support comprises: the linkage gear ring is fixedly connected inside the bearing installation box; the sealing cover is in threaded connection with the water inlet pipe.

Optionally, the drive device comprises: the stirring device comprises a driving motor, a stirring frame and a convex hemisphere, wherein the driving motor is arranged at the bottom of a bearing installation box; the output shaft end of the driving motor is fixedly connected with a stirring frame, and the top of the stirring frame is rotatably connected to the bearing installation box; the stirring frame is fixedly connected with a convex hemisphere.

Optionally, the turbulent mixing apparatus comprises: the device comprises four sliding installation shafts, return springs, a mixed installation frame, electric heating rings and stop bars, wherein the four sliding installation shafts are respectively sleeved with the return springs; the four sliding installation shafts are respectively and fixedly connected to the stirring frame; the four sliding installation shafts are respectively connected with a mixed installation rack in a sliding manner; the mixed mounting rack is fixedly connected with an electric heating ring; and the mixed mounting frame is fixedly connected with a row of barrier strips.

Optionally, the turbulent mixing device further comprises: the device comprises a sliding propulsion shaft and a linkage roller, wherein the sliding propulsion shaft is fixedly connected to a mixed mounting frame; the sliding propulsion shaft is connected to the mixed mounting frame in a sliding manner; the sliding propulsion shaft is rotatably connected with a linkage roller, and the linkage roller is aligned with the protruding arc-shaped blocks.

Optionally, the precipitation preventing portion comprises: the universal driving device comprises a universal driving shaft, a driving gear and a driving impeller, wherein the universal driving shaft is rotatably connected to a stirring frame; the bottom of the linkage shaft is fixedly connected with a driving gear, and the driving gear is meshed with the linkage gear ring; and the linkage shaft is fixedly connected with three driving impellers.

Optionally, the linkage applying apparatus further comprises: the arc extrusion block is fixedly connected to the adjusting threaded rod; the flow stopping spring is sleeved on the sliding propulsion shaft; the flow stopping spring is positioned above the stop conical block.

Optionally, the catalytic mount comprises: the device comprises a catalytic bearing cylinder, a stop ring, a feeding hole and a feeding sealing cover, wherein the catalytic bearing cylinder is fixedly connected to a bearing installation box; a stop ring is fixedly connected inside the catalytic bearing cylinder; the catalytic bearing cylinder is fixedly connected with a feed inlet, and the feed inlet is in threaded connection with a feed sealing cover.

Optionally, the linkage applying apparatus comprises: the device comprises a sliding propulsion shaft, a stop conical block and an adjusting threaded rod, wherein the sliding propulsion shaft is connected to a catalytic bearing cylinder in a sliding manner; the bottom of the sliding propulsion shaft is fixedly connected with a stop conical block; the stop conical block is attached to the stop ring; and the sliding propulsion shaft is in threaded connection with an adjusting threaded rod.

Optionally, the catalysis method of the comprehensive catalysis device based on the galangin comprises the following steps: 1) The mixing mounting frame and the stirring frame can be driven to rotate simultaneously under the driving of the driving motor, and the linkage idler wheels on the sliding propulsion shaft are extruded by the protruding arc-shaped blocks, so that the mixing mounting frame can be driven to slide to promote catalysis; 2) When the stirring frame rotates, the driving gear is meshed with the linkage gear ring, the driving gear drives the driving impeller on the linkage shaft to rotate, and the upper liquid level and the lower liquid level inside the solution inside the bearing installation box are fully mixed; 3) In the process that the stirring frame is driven to rotate, the arc-shaped extrusion block can be extruded through the convex hemisphere on the stirring frame, the stop conical block on the sliding propulsion shaft is driven to be separated from the stop ring, and then the solid catalyst can be scattered and leaked; 4) The arc-shaped extrusion block can be driven to adjust the height by rotating the adjusting threaded rod, and the single leakage amount is adjusted.

Advantageous effects

According to the catalytic device disclosed by the embodiment of the invention, the mixed catalytic efficiency can be effectively improved, the application of the catalyst is more accurate, the addition can be automatically realized, the operation is simpler and more convenient, the precipitation is effectively prevented, and a process route without triethylamine and with a simple process is developed.

In addition, prevent the portion of deposiing through setting up, the drive arrangement that the cooperation set up, moreover, the steam generator is simple in structure ingenious, supplementary realization drives when realizing mixing and prevents the portion of deposiing and rotate, in-process drive gear meshing linkage ring gear, drive gear can realize the rotation immediately, drive the epaxial drive impeller rotation of universal driving, can realize bearing the inside upper and lower liquid level intensive mixing of solution of install bin inside at drive impeller pivoted in-process, can effectually avoid the crystal to precipitate, long-time use can lead to bearing the install bin inside and be difficult to the clearance, through the accelerated mixing of drive impeller, can be when the solution is derived to the water conservancy diversion outlet pipe, the crystal mixture is derived together. More practical, simple structure is stable simultaneously.

In addition, the indiscriminate stream mixing arrangement who sets up, can be applicable to solid catalyst more and apply the postmix, moreover, the steam generator is simple in structure and stable, can make the better performance of solid catalyst, it is difficult to have solved solid catalyst and mix, apply difficult problem, mixing efficiency is improved, whole heating effect is also better simultaneously, can realize comprehensive heating, the structure operation is simple stable more, under driving motor's drive, can drive mixed mounting bracket and rotate simultaneously, the slip propulsion axle on the mixed mounting bracket of in-process, also be driven simultaneously and rotate, the epaxial linkage gyro wheel of slip propulsion receives the extrusion of protruding arc piece this moment, can drive mixed mounting bracket and slide, realize at the pivoted in-process, carry out horizontal removal, accelerate mixed effect, can make the inside indiscriminate stream that forms of bearing the installation case, accelerate the catalytic mixing.

In addition, through setting up the linkage and applying the device, the cooperation catalysis installation department, can link and realize automatic solid catalyst that applys, can realize single accuse volume interpolation simultaneously, the mixed effect of catalysis has both been guaranteed, can realize linkage many times ration interpolation simultaneously again, guarantee catalysis homogeneity, it is more practical, need not manual operation, simple structure is stable, the operation is more convenient, the solid catalyst that will smash and polish is led into the catalysis and is born the cylinder, through being driven pivoted in-process at the stirring frame, can realize through the protruding hemisphere on the stirring frame that the extrusion arc extrusion piece is realized, realize immediately that the extrusion drives the adjusting threaded rod, can drive the epaxial backstop conical block of slip propulsion and backstop circle separation, solid catalyst can spill immediately, can realize driving arc extrusion piece height-adjusting through rotating the adjusting threaded rod, also can adjust the peak of backstop conical block roof pressure, the structure is mature and stable, the whole practicality is stronger, can replace triethylamine through solid catalyst simultaneously, the effectual technology environment that improves has reduced waste water and has discharged.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic view of a catalytic device as a whole according to an embodiment of the invention;

FIG. 2 is a sectional view showing an internal structure of a catalytic device according to an embodiment of the present invention;

FIG. 3 shows a partial cross-sectional view of the internal structure of a catalytic device according to an embodiment of the invention;

FIG. 4 shows a schematic view of a catalytic carrier according to an embodiment of the invention;

fig. 5 shows a schematic view of a drive device according to an embodiment of the invention;

FIG. 6 shows a schematic view of an anti-settling portion according to an embodiment of the present invention;

FIG. 7 shows a schematic view of a turbulent mixing apparatus according to an embodiment of the present invention;

FIG. 8 shows a cross-sectional view of a catalytic mount according to an embodiment of the invention;

FIG. 9 shows a schematic view of the entirety of a linkage applicator according to an embodiment of the present invention.

List of reference numerals

1. A catalytic support; 101. a bearing installation box; 102. a diversion water outlet pipe; 103. supporting legs; 104. a water inlet pipe; 105. a convex arc-shaped block; 106. a linkage toothed ring; 107. a sealing cover; 2. a drive device; 201. a drive motor; 202. a stirring frame; 203. a convex hemisphere; 3. a precipitation prevention part; 301. a linkage shaft; 302. a drive gear; 303. driving the impeller; 4. a turbulent flow mixing device; 401. a sliding mounting shaft; 4011. a return spring; 402. a hybrid mounting rack; 403. an electric heating ring; 4031. a barrier strip; 404. sliding the propeller shaft; 405. linkage rollers; 5. a catalytic mounting portion; 501. a catalytic support cartridge; 502. a stop ring; 503. a feed inlet; 504. a feeding sealing cover; 6. a linkage applying device; 601. sliding the propeller shaft; 6011. a stop conical block; 602. adjusting the threaded rod; 603. an arc-shaped extrusion block; 604. a flow stopping spring.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to fig. 9:

the invention provides a comprehensive catalysis device and a catalysis method based on Ganbaosu, which comprise a catalysis bearing part 1; the catalytic bearing part 1 is fixedly connected with a driving device 2; the driving device 2 is fixedly connected with an anti-settling part 3; the driving device 2 is fixedly connected with a turbulent flow mixing device 4; the catalytic loading part 1 is fixedly connected with a catalytic installation part 5; the linkage applying device 6 is arranged on the catalytic installation part 5; the catalyst carrier section 1 includes: the bearing and mounting box 101, the flow guide water outlet pipe 102, the supporting legs 103, the water inlet pipe 104 and the convex arc-shaped blocks 105 are fixedly connected to the bearing and mounting box 101, and the flow guide water outlet pipe 102 is communicated with the bearing and mounting box 101; a water valve is arranged on the diversion water outlet pipe 102; the bottom of the bearing installation box 101 is fixedly connected with four supporting legs 103; bear fixedly connected with inlet tube 104 on install bin 101, product purity parameter: 99.0% min, p-chlorophenol parameter: 0.015% max, moisture parameter: 0.5%: 96-98 ℃.

Further, according to an embodiment of the present invention, as shown in fig. 4 to 6, the catalyst carrier section 1 includes: the linkage gear ring 106 and the sealing cover 107, wherein the linkage gear ring 106 is fixedly connected inside the bearing installation box 101; the sealing cover 107 is connected with the water inlet pipe 104 in a threaded manner; the drive device 2 includes: the stirring device comprises a driving motor 201, a stirring frame 202 and a convex hemisphere 203, wherein the driving motor 201 is arranged at the bottom of the bearing installation box 101; an output shaft end of the driving motor 201 is fixedly connected with a stirring frame 202, and the top of the stirring frame 202 is rotatably connected to the bearing installation box 101; a convex hemisphere 203 is fixedly connected to the stirring frame 202; the precipitation preventing portion 3 includes: the device comprises a linkage shaft 301, a driving gear 302 and a driving impeller 303, wherein the linkage shaft 301 is rotationally connected to a stirring frame 202; the bottom of the linkage shaft 301 is fixedly connected with a driving gear 302, and the driving gear 302 is meshed with the linkage gear ring 106; three drive impeller 303 of fixedly connected with on the universal driving shaft 301, prevent settling section 3 through setting up, the drive arrangement 2 that the cooperation set up, moreover, the steam generator is simple in structure ingenious, supplementary realization is driven when realizing mixing and is prevented settling section 3 and rotate, in-process drive gear 302 meshing linkage ring gear 106, drive gear 302 can realize the rotation immediately, drive impeller 303 on the universal driving shaft 301 and rotate, can realize bearing the inside upper and lower liquid level intensive mixing of solution inside the install bin 101 at drive impeller 303 pivoted in-process, can effectually avoid the deposit of crystal, long-time use can lead to bearing the inside clearance that is difficult to of install bin 101, mix with higher speed through drive impeller 303, can be when water conservancy diversion outlet pipe 102 derives the solution, the crystal mixture is derived together. More practical, simple structure is stable simultaneously.

Further, according to an embodiment of the present invention, as shown in fig. 7, the turbulent mixing device 4 includes: the device comprises four sliding mounting shafts 401, return springs 4011, a mixing mounting frame 402, electric heating rings 403 and barrier strips 4031, wherein the four sliding mounting shafts 401 are respectively sleeved with the return springs 4011; the four sliding installation shafts 401 are respectively and fixedly connected to the stirring frame 202; the four sliding mounting shafts 401 are respectively connected with a mixed mounting rack 402 in a sliding manner; an electric heating ring 403 is fixedly connected to the hybrid mounting frame 402; a row of barrier strips 4031 is fixedly connected to the hybrid mounting frame 402; the turbulent mixing device 4 further includes: a sliding propulsion shaft 404 and a linkage roller 405, wherein the sliding propulsion shaft 404 is fixedly connected to the mixing mounting frame 402; a sliding propeller shaft 404 is slidably connected to the hybrid mount 402; it is connected with linkage gyro wheel 405 to rotate on the slip propulsion axle 404, and linkage gyro wheel 405 aligns with protruding arc piece 105, the indiscriminate mixing arrangement 4 that flows of setting, can be applicable to solid catalyst's application back mixture more, moreover, the steam generator is simple in structure and stable, can make the better performance of solid catalyst, it is difficult to have solved solid catalyst and mixed, apply difficult problem, the mixing efficiency is improved, the whole heating effect is also better simultaneously, can realize comprehensive heating, the structure operation is more simple and stable, under driving motor 201's drive, can drive mixed mounting bracket 402 and rotate simultaneously, slip propulsion axle 404 on the in-process mixed mounting bracket 402, also driven the rotation simultaneously, the epaxial linkage gyro wheel 405 of slip propulsion at this moment receives protruding arc piece 105's extrusion, can drive mixed mounting bracket 402 and slide, realize at the pivoted in-process, carry out horizontal removal, accelerate the mixed effect, can make and bear the inside indiscriminate stream of formation of installation box 101, accelerate the catalysis and mix.

Further, according to the embodiment of the present invention, as shown in fig. 8, 9, the catalytic mounting portion 5 includes: the device comprises a catalytic bearing cylinder 501, a stop ring 502, a feeding hole 503 and a feeding sealing cover 504, wherein the catalytic bearing cylinder 501 is fixedly connected to a bearing installation box 101; a stop ring 502 is fixedly connected inside the catalytic bearing cylinder 501; a feeding port 503 is fixedly connected to the catalytic bearing cylinder 501, and a feeding sealing cover 504 is connected to the feeding port 503 in a threaded manner; the linkage applying device 6 includes: the device comprises a sliding propulsion shaft 601, a stop conical block 6011 and an adjusting threaded rod 602, wherein the sliding propulsion shaft 601 is connected to the catalytic bearing cylinder 501 in a sliding mode; the bottom of the sliding propulsion shaft 601 is fixedly connected with a stop conical block 6011; the stop conical block 6011 abuts against the stop ring 502; an adjusting threaded rod 602 is connected to the sliding propulsion shaft 601 through threads; the linkage applying device 6 further includes: the device comprises an arc-shaped extrusion block 603 and a flow stopping spring 604, wherein the arc-shaped extrusion block 603 is fixedly connected to an adjusting threaded rod 602; the flow stopping spring 604 is sleeved on the sliding propulsion shaft 601; the flow stopping spring 604 is positioned above the stop conical block 6011; through setting up the linkage and applying device 6, cooperation catalysis installation department 5, can link and realize automatic solid catalyst of applying, can realize single accuse volume interpolation simultaneously, catalytic mixed effect has both been guaranteed, can realize linkage many times ration interpolation simultaneously again, guarantee catalysis homogeneity, and is more practical, need not manual operation, simple structure is stable, the operation is more convenient, the leading-in catalysis bearing cylinder 501 of solid catalyst through smashing and polishing, through being driven pivoted in-process at stirring frame 202, can realize extrusion arc extrusion block 603 through protruding hemisphere 203 on stirring frame 202, realize immediately that the extrusion drives adjusting threaded rod 602, can drive the separation of backstop conical block 6011 on the slip propulsion axle 601 with backstop circle 502, solid catalyst can spill immediately, can realize driving arc extrusion block 603 height-adjusting through rotating adjusting threaded rod 602, that is the peak that just can the backstop 6011 roof pressure is adjusted, the structure is mature stable, the whole practicality is stronger.

In addition, the catalysis method of the comprehensive catalysis device based on the climbazole comprises the following steps: 1) The driving motor 201 drives the mixing mounting frame 402 and the stirring frame 202 to rotate simultaneously, and the linkage roller 405 on the sliding propulsion shaft 404 is extruded by the convex arc-shaped block 105, so that the mixing mounting frame 402 can be driven to slide to promote catalysis; 2) When the stirring frame 202 rotates, the driving gear 302 is meshed with the linkage gear ring 106, the driving gear 302 drives the driving impeller 303 on the linkage shaft 301 to rotate, and the upper liquid level and the lower liquid level in the solution in the bearing installation box 101 are fully mixed; 3) In the process that the stirring frame 202 is driven to rotate, the arc-shaped extrusion block 603 can be extruded through the convex hemisphere 203 on the stirring frame 202, the stop conical block 6011 on the sliding propulsion shaft 601 is driven to be separated from the stop ring 502, and then the solid catalyst can be scattered and leaked; 4) The arc-shaped extrusion blocks 603 can be driven to adjust the height by rotating the adjusting threaded rods 602, and the single leakage amount is adjusted.

The specific use mode and function of the embodiment are as follows: in the invention, ganbaosu is added in the bearing installation box 101, the mixing installation frame 402 and the stirring frame 202 can be driven to rotate simultaneously under the drive of the drive motor 201, the sliding propulsion shaft 404 on the mixing installation frame 402 is driven to rotate simultaneously in the process, at the same time, the linkage roller 405 on the sliding propulsion shaft 404 is extruded by the convex arc-shaped block 105, the mixing installation frame 402 can be driven to slide, the transverse movement is realized in the rotating process, the mixing effect is accelerated, simultaneously, the drive gear 302 is meshed with the linkage gear ring 106, the drive gear 302 can rotate automatically, the drive impeller 303 on the linkage shaft 301 is driven to rotate, the upper liquid level and the lower liquid level in the solution in the bearing installation box 101 can be fully mixed in the rotating process of the drive impeller 303, the convex hemisphere 203 on the stirring frame 202 can extrude the arc-shaped extrusion block 603, the extrusion drive adjustment block 602 can be extruded immediately, the stop conical block 6011 on the sliding propulsion shaft 601 can be driven to be separated from the stop ring 502, the solid catalyst can be sprayed, the arc-shaped threaded rod 602 can be adjusted by rotating, and the final top pressure adjustment of the conical extrusion block 6011 can be adjusted.

Finally, it should be noted that, when describing the positions of the components and the matching relationship therebetween, the present invention is usually illustrated by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims

1. The comprehensive catalysis device based on the Ganbao essence is characterized by comprising a catalysis bearing part (1); the catalytic bearing part (1) is fixedly connected with a driving device (2); the driving device (2) is fixedly connected with an anti-settling part (3); the drive device (2) is fixedly connected with a turbulent flow mixing device (4); the catalytic loading part (1) is fixedly connected with a catalytic installation part (5); the catalytic mounting part (5) is provided with a linkage applying device (6); the catalytic carrier part (1) comprises: the water-saving device comprises a bearing installation box (101), a flow-guiding water outlet pipe (102), supporting legs (103), a water inlet pipe (104) and a protruding arc-shaped block (105), wherein the flow-guiding water outlet pipe (102) is fixedly connected to the bearing installation box (101), and the flow-guiding water outlet pipe (102) is communicated with the bearing installation box (101); a water valve is arranged on the diversion water outlet pipe (102); the bottom of the bearing installation box (101) is fixedly connected with four supporting legs (103); a water inlet pipe (104) is fixedly connected to the bearing installation box (101);

the catalytic carrier (1) comprises: the linkage gear ring (106) and the sealing cover (107), wherein the linkage gear ring (106) is fixedly connected inside the bearing installation box (101); the sealing cover (107) is in threaded connection with the water inlet pipe (104);

the drive device (2) comprises: the stirring device comprises a driving motor (201), a stirring frame (202) and a convex hemisphere (203), wherein the driving motor (201) is installed at the bottom of a bearing installation box (101); an output shaft end of the driving motor (201) is fixedly connected with a stirring frame (202), and the top of the stirring frame (202) is rotatably connected to the bearing installation box (101); a convex hemisphere (203) is fixedly connected to the stirring frame (202);

the precipitation preventing section (3) includes: the stirring device comprises a linkage shaft (301), a driving gear (302) and a driving impeller (303), wherein the linkage shaft (301) is rotationally connected to a stirring frame (202); the bottom of the linkage shaft (301) is fixedly connected with a driving gear (302), and the driving gear (302) is meshed with the linkage gear ring (106); three driving impellers (303) are fixedly connected to the linkage shaft (301);

the turbulent mixing device (4) comprises: the device comprises four sliding installation shafts (401), four return springs (4011), a mixed installation frame (402), electric heating rings (403) and barrier strips (4031), wherein the four sliding installation shafts (401) are respectively sleeved with the return springs (4011); the four sliding mounting shafts (401) are respectively and fixedly connected to the stirring frame (202); the four sliding mounting shafts (401) are respectively connected with a mixed mounting rack (402) in a sliding manner; an electric heating ring (403) is fixedly connected to the mixing mounting frame (402); a row of barrier strips (4031) are fixedly connected to the mixing mounting frame (402);

the turbulent mixing device (4) further comprises: the device comprises a sliding propulsion shaft (404) and a linkage roller (405), wherein the sliding propulsion shaft (404) is fixedly connected to a mixed mounting frame (402); the sliding propulsion shaft (404) is slidably connected to the hybrid mounting frame (402); the sliding propulsion shaft (404) is rotatably connected with a linkage roller (405), and the linkage roller (405) is aligned with the convex arc-shaped block (105);

the catalytic mounting portion (5) includes: the device comprises a catalytic bearing cylinder (501), a stop ring (502), a feeding port (503) and a feeding sealing cover (504), wherein the catalytic bearing cylinder (501) is fixedly connected to a bearing installation box (101); a stop ring (502) is fixedly connected inside the catalytic bearing cylinder (501); a feeding port (503) is fixedly connected to the catalytic bearing cylinder (501), and a feeding sealing cover (504) is connected to the feeding port (503) in a threaded manner;

the linkage applying device (6) comprises: the device comprises a sliding propulsion shaft (601), a stop conical block (6011) and an adjusting threaded rod (602), wherein the sliding propulsion shaft (601) is connected to a catalytic bearing cylinder (501) in a sliding mode; the bottom of the sliding propulsion shaft (601) is fixedly connected with a stop conical block (6011); the stop conical block (6011) is attached to the stop ring (502); an adjusting threaded rod (602) is connected to the sliding propulsion shaft (601) through threads;

the linkage applying device (6) further includes: the device comprises an arc-shaped extrusion block (603) and a flow stopping spring (604), wherein the arc-shaped extrusion block (603) is fixedly connected to an adjusting threaded rod (602); the flow stopping spring (604) is sleeved on the sliding propulsion shaft (601); the flow stopping spring (604) is positioned above the stop conical block (6011).

2. The catalysis method of the comprehensive catalysis apparatus based on the climbazole as claimed in claim 1, wherein: the method comprises the following steps:

1) The mixing mounting frame (402) and the stirring frame (202) can be driven to rotate simultaneously under the driving of the driving motor (201), and at the moment, the linkage roller (405) on the sliding propulsion shaft (404) is extruded by the convex arc-shaped block (105), so that the mixing mounting frame (402) can be driven to slide to promote catalysis;

2) When the stirring frame (202) rotates, the driving gear (302) is meshed with the linkage gear ring (106), the driving gear (302) drives the driving impeller (303) on the linkage shaft (301) to rotate, and the upper liquid level and the lower liquid level inside the solution inside the bearing installation box (101) are fully mixed;

3) In the process that the stirring frame (202) is driven to rotate, the arc-shaped extrusion block (603) can be extruded through the convex hemisphere (203) on the stirring frame (202), the stop conical block (6011) on the sliding propulsion shaft (601) is driven to be separated from the stop ring (502), and then the solid catalyst can be scattered and leaked;

4) The arc-shaped extrusion block (603) can be driven to adjust the height by rotating the adjusting threaded rod (602), and the single leakage amount is adjusted.