CN116803537B

CN116803537B - High-time wetting type carbendazim wettable powder preparation device

Info

Publication number: CN116803537B
Application number: CN202310628466.5A
Authority: CN
Inventors: 操晶晶; 夏天; 程伟家; 刘长庆; 朱玉昊; 胡梓杨
Original assignee: Anhui Guangxin Agrochemcial Co Ltd
Current assignee: Anhui Guangxin Chengchen Technology Co ltd
Priority date: 2023-05-31
Filing date: 2023-05-31
Publication date: 2025-09-02
Anticipated expiration: 2043-05-31
Also published as: CN116803537A

Abstract

The present invention provides a high-time wetting type carbendazim wettable powder preparation device and method, including a box body, wherein a partition and a support plate are fixedly provided inside the box body, the support plate and the partition are vertically fixed, a screening cavity is provided between the partition, the support plate and the box body, and a screening mechanism is provided, the screening mechanism includes a dividing plate, a driving straight-down component and a receiving plate, the driving straight-down component drives the dividing plate to rise to the top and then causes the dividing plate to fall vertically, during the vertical falling of the dividing plate, carbendazim raw materials of different sizes fall at different speeds, and the large volume of carbendazim fixed raw materials and the small volume of carbendazim fixed raw materials are separated by driving the receiving plate, the large volume of carbendazim fixed raw materials fall onto the dividing plate, and the small volume of carbendazim fixed raw materials fall onto the receiving plate, thereby realizing the screening of the carbendazim raw materials, ball-milling the large volume of carbendazim fixed raw materials, avoiding the small volume of carbendazim fixed raw materials occupying the volume of the ball mill, and improving production efficiency.

Description

High-duration wet type carbendazim wettable powder preparation device

Technical Field

The invention relates to the technical field of carbendazim, in particular to a high-duration wetting carbendazim wettable powder preparation device.

Background

Carbendazim is also known as gossypii, benzimidazole number 44. Carbendazim is a broad-spectrum bactericide and has control effect on diseases caused by fungi of various crops. The carbendazim can be used for leaf surface spraying, seed treatment, soil treatment and the like, and has great effects in preventing and treating powdery mildew, epidemic disease, early blight of tomatoes, bean anthracnose, epidemic disease and sclerotium disease of colza, preventing and treating green onion and leek gray mold, preventing and treating eggplant, cucumber sclerotium disease, melons, bean anthracnose, pea powdery mildew, preventing and treating tomato wilt and the like;

Because carbendazim is almost insoluble in water, has stable chemical property and poor solubility, the carbendazim is generally prepared into wettable powder, and the carbendazim raw material and various auxiliary materials are mixed and fully mixed at present to prepare the carbendazim wettable powder, in order to realize high-duration wetting of the carbendazim wettable powder, the following measures are generally adopted that 1, a wetting agent is added, wherein the wetting agent can increase the surface tension of the wettable powder, so that the wettable powder is easier to wet. Organic or inorganic wetting agents may be selected and optimized for different amounts and wetting times. 2. The mechanical preparation mode is improved, namely, when the carbendazim wettable powder is prepared, a ball mill is generally adopted to change the size of wettable powder particles, so that the wettability of the wettable powder is improved;

because the volume of the carbendazim solid raw materials is different, the carbendazim solid raw materials are all put into the ball mill for ball milling, so that the internal space of the ball mill is wasted, the ball milling time is prolonged, and the production efficiency is reduced.

In summary, a Gao Shichang wet carbendazim wettable powder preparation device and method with higher production efficiency are needed at present.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a high-duration wet carbendazim wettable powder preparation device, which solves the problems in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

The utility model provides a wet powder preparation facilities of high long moist type carbendazim, includes the box, baffle, backup pad have set firmly in the inside of box, perpendicular fixed between backup pad and the baffle, are equipped with the screening chamber between baffle, backup pad, the box, set firmly into the hopper on the lateral wall of box, into the inner of hopper stretch into the screening intracavity, be equipped with ball mill, mixing mechanism, high temperature drying mechanism in proper order in the box, still include:

the screening mechanism is positioned in the screening cavity and comprises a material distributing plate, a material receiving plate and an inclined plate, the middle parts of two side walls of the material distributing plate are fixedly provided with lugs, a driving straight-falling assembly is arranged below the material distributing plate and comprises a U-shaped frame, limit boxes are fixed on two sides of the top end of the U-shaped frame, a first support frame and a second support frame are slidably arranged in the limit boxes, when the first support frame and the second support frame are abutted tightly, the first support frame and the second support frame are used for supporting the lugs, and when the first support frame and the second support frame are separated, the lugs fall from the first support frame and the second support frame;

the inclined plate and the receiving plate are obliquely arranged above the distributing plate, the side wall of the inclined plate is fixedly connected to the inner side wall of the box body, the receiving plate is slidably arranged on the inclined plate, and a first electric cylinder for driving the receiving plate to obliquely move is arranged outside the box body.

Further, the discharging plate is arranged at one end, close to the partition plate, of the distributing plate, first sliding blocks are fixedly arranged at the end parts of the two side walls of the distributing plate, the first sliding blocks and the protruding blocks at corresponding positions are located on the same side wall of the distributing plate, and the first sliding blocks are located at one end, close to the partition plate, of the distributing plate.

Further, first straight spout, holding tank, the straight spout of second have been seted up to the symmetry on the inner wall of box, and the holding tank is located the outside of the straight spout of second, and the both ends of the straight subassembly that falls of drive are sliding respectively and are located two holding tanks, and the lug slides and is located the straight spout of second, and first slider slides and is located first straight spout.

Further, the outside of spacing box is equipped with the mounting bracket, and the mounting bracket is fixed in on the lateral wall of link, has all set firmly the spring between the inside wall of first support frame, second support frame and spacing box, is equipped with the push pedal between first support frame, the second support frame, installs the miniature electronic jar that is used for driving push pedal parallel movement on the mounting bracket.

Further, the middle part of baffle has been seted up and has been crossed board passageway, has crossed material and lead to groove, straight recess, and the material receiving board slides and is located and cross the board passageway, has all set firmly the second slider on the both sides wall of material receiving board, and the oblique spout has been seted up to the symmetry on the inside wall of box, and the second slider slides and is located oblique spout, and the flitch slides and is located straight recess, and the material receiving board slides and is located the bottom of straight recess.

Further, the below of backup pad has set firmly first electronic jar, and the piston rod of first electronic jar slides and passes the backup pad and with the bottom fixed connection of U type frame, has set firmly the electronic jar of second in the backup pad, and the electronic jar of second is located the one end of keeping away from the baffle of dividing the flitch.

Further, the ball mill comprises an outer cylinder, an inlet cylinder and an outlet cylinder which are fixedly connected, a filter screen is fixedly arranged in the outer cylinder, the inlet cylinder is fixedly communicated with the material passing channel, the inlet cylinder and the outlet cylinder are rotationally connected to the supporting plate, the outer side of the outlet cylinder is rotationally connected with a connecting pipe, the top end of the connecting pipe is fixedly communicated with a feeding pipe, a side notch is formed in the side wall of the feeding pipe, and the end part of the inclined plate extends into the side notch;

the second fan is fixed on the supporting plate, and the outlet end of the second fan is fixedly communicated with the lower part of the material passing channel.

Further, the mixing mechanism comprises a mixing drum, a first stirring shaft and a second stirring shaft are arranged in the mixing drum, the outlet end of the connecting pipe is fixedly communicated with the top end of the side wall of the mixing drum, a first gear and a second gear which are meshed with each other are arranged on the outer side of the mixing drum, a second motor is arranged on the outer side wall of the mixing drum, an output shaft of the second motor penetrates through the center of the first gear and then is coaxially connected with the first stirring shaft, an output shaft of the second motor is fixedly connected with the first gear, a main shaft of the second stirring shaft rotates and penetrates through the mixing drum and then stretches into the center of the second gear, and the second stirring shaft is fixedly connected with the second gear;

the lateral wall of mixing drum is last to be fixed to be linked together has the blast pipe, and the top of mixing drum is equipped with a plurality of feed mechanism, and feed mechanism includes storage case, inlet pipe, dispersion pipe, and the inlet pipe is fixed to be linked together in the top of storage case, and the dispersion pipe is fixed to be linked together in Chu Liaoguan's bottom, and the dispersion pipe stretches into the inside of mixing drum.

Further, high temperature drying mechanism includes drying cabinet, heater, first fan, and the exit end of mixing drum and the entrance point fixed intercommunication of drying cabinet install the water pump between mixing drum and the drying cabinet, and the outside of drying cabinet is equipped with the admission line, and the admission line stretches to the outside of box, installs heater, first fan on the admission line, and the top fixed intercommunication of drying cabinet has the outlet duct, and the bottom fixed intercommunication of drying cabinet has the discharging pipe.

The working method of the high-duration wetting carbendazim wettable powder preparation device comprises the following steps:

S1, adding a carbendazim raw material, namely feeding a carbendazim solid raw material into a screening cavity through a feeding hopper, and enabling the carbendazim solid raw material to fall into the surface of a material distributing plate through the feeding hopper;

s2, screening carbendazim solid raw materials, wherein a piston rod of a first electric cylinder moves upwards to drive a U-shaped frame to move upwards, the U-shaped frame drives a first supporting frame and a second supporting frame which are abutted against each other to move upwards, and the first supporting frame and the second supporting frame abut against the bottom surface of a lug and drive a material distributing plate to move upwards to the top end through the lug;

Simultaneously starting two miniature electric cylinders, wherein a piston rod of each miniature electric cylinder drives a push plate to move inwards, the push plate pushes a first support frame and a second support frame to move back to each other until a lug vertically drops from between the first support frame and the second support frame, the dropping speed of a large-volume carbendazim solid raw material is greater than that of a small-volume carbendazim fixed raw material, at the moment, a piston rod of a third electric cylinder retracts to drive a receiving plate to slide obliquely upwards, the receiving plate separates the large-volume carbendazim fixed raw material from the small-volume carbendazim fixed raw material, the large-volume carbendazim fixed raw material drops onto a distributing plate, and the small-volume carbendazim fixed raw material drops onto the receiving plate;

S3, ball milling large-particle carbendazim solid raw materials, and mixing all the carbendazim solid raw materials, wherein a piston rod of a second electric cylinder extends out to drive a material distribution plate to incline, a large-volume carbendazim solid raw material on the material distribution plate slides into a material passing channel, the second fan blows the large-volume carbendazim solid raw material into an outer cylinder and then closes the second fan, a ball mill grinds the large-volume carbendazim solid raw material into small-volume carbendazim solid raw materials, the second fan blows the small-volume carbendazim solid raw material in the outer cylinder into a connecting pipe, the small-volume carbendazim solid raw materials screened in the S2 slide down onto the inclined plate through an inclined material receiving plate, and a piston rod of a third electric cylinder extends out to drive the material receiving plate to slide downwards to push the small-volume carbendazim solid raw material on the inclined plate into a side notch and enter the connecting pipe, and then the small-volume carbendazim solid raw material in the connecting pipe enters the connecting pipe through the charging pipe;

S4, adding the dispersing agent, the wetting agent and the filler into a mixing cylinder for mixing, namely respectively feeding the dispersing agent, the wetting agent and the filler into corresponding storage boxes through feeding pipes, feeding the materials into the mixing cylinder for mixing through corresponding dispersing pipes, and driving a first stirring shaft and a second stirring shaft to rotate by a second motor so as to fully mix the carbendazim fixed raw materials, the dispersing agent, the wetting agent and the filler;

s5, drying, namely enabling the mixed solution obtained in S4 to enter a drying box under the action of a water pump, enabling gas outside the box body to enter the drying box after being heated by a heater by a first fan, continuously drying the mixed solution by high-temperature gas, discharging the gas to the outside of the drying box through an air outlet pipe, and finally obtaining the mixed solution which is fully dried to become the carbendazim wettable powder.

The invention provides a high-duration wet carbendazim wettable powder preparation device. Compared with the prior art, the method has the following beneficial effects:

Be equipped with screening mechanism, screening mechanism includes the feed divider, the subassembly that directly falls of drive, connect the feed divider, the subassembly that directly falls of drive is divided the feed divider and is risen to make the feed divider drop down perpendicularly after the top, the in-process that divides the feed divider drop down perpendicularly, the speed that the multi-fungus ling raw materials of equidimension volume falls is different, divide between the fixed raw materials of multi-fungus ling of bulky and the fixed raw materials of multi-fungus ling of small volume through the drive receiving the feed divider, the fixed raw materials of multi-fungus ling of bulky falls to the feed divider, the fixed raw materials of multi-fungus ling of small volume falls to connect the feed divider, thereby realize screening multi-fungus ling raw materials, carry out the ball-milling to the fixed raw materials of bulky fungus, avoid the fixed raw materials of multi-fungus ling of small volume to occupy the volume of ball mill, improve production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a cross-sectional view of a high duration moisture type carbendazim wettable powder preparation device of the present invention;

FIG. 2 shows a schematic diagram of a partial structure of a high duration moisture type carbendazim wettable powder preparation device of the present invention;

Figure 3 shows a schematic view of a partial construction of a screen assembly of the present invention;

FIG. 4 shows an enlarged view of the structure at A in FIG. 3;

FIG. 5 shows an enlarged partial structural cross-sectional view of the drive landing assembly of the present invention;

FIG. 6 is a cross-sectional view showing the whole structure of the material dividing plate of the present invention when it is raised to the highest position;

FIG. 7 shows a cross-sectional view of the overall structure of the receiving plate of the present invention as it moves over the dividing plate;

FIG. 8 shows a cross-sectional view of the structure of the mixing mechanism of the present invention;

fig. 9 is a structural sectional view showing a high temperature drying mechanism of the present invention;

Fig. 10 shows a schematic of the preparation flow of the present invention.

1, A box body; 11, a separator; 111, a board passing channel; 112, straight groove, 113, material passing channel, 12, supporting plate, 13, screening cavity, 14, first straight groove, 15, holding groove, 16, second straight groove, 17, inclined groove, 2, screening mechanism, 21, material separating plate, 211, discharging plate, 212, protruding block, 213, first sliding block, 22, driving straight falling component, 221, U-shaped frame, 222, mounting frame, 223, limit box, 224, micro electric cylinder, 225, push plate, 226, first supporting frame, 227, second supporting frame, 228, spring, 23, first electric cylinder, 24, second electric cylinder, 25, material receiving plate, 251, second sliding block, 26, third electric cylinder, 27, inclined plate, 3, ball mill, 31, outer cylinder, 32, inlet cylinder, 33, outlet cylinder, 34, filter screen, 35, outer gear, 36, lower gear, 37, first motor, 38, 39, feeding tube, 391, side notch, 4, mixing mechanism, 41, mixing cylinder, 42, first stirring shaft, 43, second stirring shaft, 44, second gear, 45, second gear, 471, second air outlet tube, 251, second sliding block, 26, third electric cylinder, 27, inclined plate, 3, ball mill, 31, connecting tube, 32, inlet cylinder, 33, outlet cylinder, 34, filter screen, 35, outer gear, 36, lower gear, 37, first motor, 38, 39, feeding tube, 391, side notch, 4, mixing mechanism, 41, mixing cylinder, 42, first stirring cylinder, 42, first stirring shaft, 43, second stirring shaft, second gear, 44, second gear, 45, second gear, air outlet tube, 45, drying fan, drying mechanism, air feeding mechanism and air feeding mechanism and drying mechanism feeding.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

In order to solve the technical problems in the background technology, a high-duration wet carbendazim wettable powder preparation device is provided as follows:

Referring to fig. 1-9, the invention comprises a box body 1, wherein a baffle 11 and a support plate 12 are fixedly arranged in the box body 1, the support plate 12 is vertically fixed with the baffle 11, a screening cavity 13 is arranged among the baffle 11, the support plate 12 and the box body 1, a feeding hopper 8 is fixedly arranged on the side wall of the box body 1, the inner end of the feeding hopper 8 stretches into the screening cavity 13, a ball mill 3, a mixing mechanism 4 and a high-temperature drying mechanism 5 are sequentially arranged in the box body 1, the screening cavity 13 is separated by the baffle 11 and the support plate 12 in the box body 1, and the screening mechanism 2 is convenient for screening the carbendazim raw materials, so that the raw materials which are not screened can be prevented from escaping from the screening cavity 13.

The screening mechanism 2 is positioned in the screening cavity 13, the screening mechanism 2 comprises a material separating plate 21, a material receiving plate 25 and an inclined plate 27, the middle parts of two side walls of the material separating plate 21 are fixedly provided with lugs 212, a driving straight falling assembly 22 is arranged below the material separating plate 21, the driving straight falling assembly 22 comprises a U-shaped frame 221, a first electric cylinder 23 is fixedly arranged below the supporting plate 12, a piston rod of the first electric cylinder 23 slides through the supporting plate 12 and is fixedly connected with the bottom end of the U-shaped frame 221, limit boxes 223 are fixedly arranged on two sides of the top end of the U-shaped frame 221, a first supporting frame 226 and a second supporting frame 227 are slidably arranged in the limit boxes 223, when the first supporting frame 226 and the second supporting frame 227 are abutted tightly, the first supporting frame 226 and the second supporting frame 227 are used for supporting the lugs 212, and when the first supporting frame 226 and the second supporting frame 227 are separated, the lugs 212 fall from the first supporting frame 226 and the second supporting frame 227;

The middle part of the partition plate 11 is provided with a plate passing channel 111, a material passing through groove and a straight groove 112, the material receiving plate 25 is slidably positioned in the plate passing channel 111, the two side walls of the material receiving plate 25 are fixedly provided with second sliding blocks 251, the inner side walls of the box body 1 are symmetrically provided with inclined sliding grooves 17, the second sliding blocks 251 are slidably positioned in the inclined sliding grooves 17, the inclined plates 27 and the material receiving plate 25 are obliquely arranged above the material distributing plate 21, the side walls of the inclined plates 27 are fixedly connected to the inner side walls of the box body 1, the material receiving plate 25 is slidably positioned on the inclined plates 27, and the first electric cylinders 23 for driving the material receiving plate 25 to obliquely move are arranged outside the box body 1;

In the above technical solution, the first support frame 226 and the second support frame 227 can be abutted against or separated from each other, so that the material distributing plate 21 can be driven to stably move upwards or fall down due to gravity, and the falling speed of the large-volume carbendazim solid raw material is greater than that of the small-volume carbendazim solid raw material, so that the carbendazim solid raw material can be screened by driving the material receiving plate 25 in the falling process of the carbendazim solid raw material.

The one end that is close to baffle 11 of branch flitch 21 has offered ejection of compact board 211, the both sides wall tip of branch flitch 21 has all set firmly first slider 213, first slider 213 is the cylinder shape, first slider 213 is located the same lateral wall of branch flitch 21 with lug 212 of corresponding position, first slider 213 is located the one end that branch flitch 21 is close to baffle 11, first slider 213 slides and is located first straight spout 14, first slider 213 can rotate in first straight spout 14, ejection of compact board 211 slides and is located straight recess 112, the material passing channel 113 is located the bottom of straight recess 112, set firmly second electronic jar 24 on the backup pad 12, second electronic jar 24 is located the one end that is kept away from of branch flitch 21, second electronic jar 24 piston rod stretches out and can promote branch flitch 21 and rotate with first slider 213 as the base point, thereby make branch flitch 21 slope, the multi-fungus material on the branch flitch 21 gets into in the material passing channel 113.

The first straight chute 14, the holding groove 15 and the second straight chute 16 are symmetrically arranged on the inner wall of the box body 1, the holding groove 15 is positioned on the outer side of the second straight chute 16, two ends of the driving straight falling assembly 22 are respectively and slidably positioned in the two holding grooves 15, the protruding block 212 is slidably positioned in the second straight chute 16, the width of the second straight chute 16 can accommodate the separated first supporting frame 226 and second supporting frame 227, the width of the second straight chute 16 is larger than that of the protruding block 212, and the protruding block 212 can not limit the rotation of the distributing plate 21 when the distributing plate 21 rotates by taking the first sliding block 213 as a base point.

The outside of spacing box 223 is equipped with mounting bracket 222, mounting bracket 222 is fixed in on the lateral wall of link, all set firmly spring 228 between the inside wall of first support frame 226, second support frame 227 and spacing box 223, under the primitive state, the elasticity of spring 228 makes and supports tightly between first support frame 226, the second support frame 227, be equipped with push pedal 225 between first support frame 226, the second support frame 227, the medial side of push pedal 225 is the V type, the inside wall of push pedal 225 is all laminated with first support frame 226, the second support frame 227, install the miniature electronic jar 224 that is used for driving push pedal 225 parallel movement on the mounting bracket 222.

Example two

On the basis of the above embodiment, as shown in fig. 7-9, the embodiment further provides that the ball mill 3 comprises an outer cylinder 31, an inlet cylinder 32 and an outlet cylinder 33 which are fixedly connected, ball milling media are arranged in the outer cylinder 31, a filter screen 34 is fixedly arranged in the outer cylinder 31, the filter screen 34 is used for blocking the ball milling media and preventing the ball milling media from escaping from the outer cylinder 31, the inlet cylinder 32 is fixedly communicated with a material passing channel 113, the inlet cylinder 32 and the outlet cylinder 33 are rotatably connected to a supporting plate 12, a connecting pipe 38 is rotatably connected to the outer side of the outlet cylinder 33, an outer gear 35 is fixedly arranged on the outer wall of the outer cylinder 31, a lower gear 36 is meshed below the outer gear 35, a first motor 37 is mounted on the supporting plate 12, an output shaft of the first motor 37 penetrates through the center of the lower gear 36 and is fixedly connected with the lower gear 36, the first motor 37 drives the outer cylinder 31 to rotate through the lower gear 36, and when the outer cylinder 31 rotates, the ball milling media in the outer cylinder 31 perform ball milling on a large-volume of carbendazim solid raw materials.

The top end of the connecting pipe 38 is fixedly communicated with a feeding pipe 39, a side notch 391 is formed in the side wall of the feeding pipe 39, the end of the inclined plate 27 extends into the side notch 391, a second fan 7 is fixed on the supporting plate 12, an air inlet (not shown in the figure) is formed in the bottom end of the box body 1, the air inlet is used for air inlet, the second fan 7 can work, the outlet end of the second fan 7 is fixedly communicated with the lower part of the material passing channel 113, the second fan 7 is used for blowing a large volume of carbendazim solid raw materials into the ball mill 3, and the small volume of carbendazim solid raw materials ground by the ball mill 3 and the small volume of carbendazim solid raw materials screened by the screening mechanism 2 are blown into the mixing drum 41 for mixing.

The mixing mechanism 4 comprises a mixing drum 41, a first stirring shaft 42 and a second stirring shaft 43 are arranged in the mixing drum 41, the outlet end of a connecting pipe 38 is fixedly connected with the top end of the side wall of the mixing drum 41, a first gear 44 and a second gear 45 which are meshed with each other are arranged on the outer side of the mixing drum 41, a second motor 46 is arranged on the outer side wall of the mixing drum 41, an output shaft of the second motor 46 penetrates through the center of the first gear 44 and then is coaxially connected with the first stirring shaft 42, an output shaft of the second motor 46 is fixedly connected with the first gear 44, a main shaft of the second stirring shaft 43 rotates and penetrates through the mixing drum 41 and then stretches into the center of the second gear 45, the second stirring shaft 43 is fixedly connected with the second gear 45, an exhaust pipe 48 is fixedly connected with the side wall of the mixing drum 41 and is used for exhausting air blown by a second fan 7, a plurality of feeding mechanisms 47 are arranged on the top end of the mixing drum 41, each feeding mechanism 47 comprises a storage tank 471, a feeding pipe 472 and a dispersing pipe 473, the 472 is fixedly connected with the top end of the storage tank, the dispersing pipe 473 is fixedly connected with the bottom end of the Chu Liaoguan, the dispersing pipe 473 stretches into the center of the mixing drum 41, and the dispersing agent 4 is fully mixed with the solid filler.

The high temperature drying mechanism 5, the high temperature drying mechanism 5 includes drying cabinet 51, heater 52, first fan 53, the exit end of mixing drum 41 and the entrance point fixed intercommunication of drying cabinet 51, install water pump 6 between mixing drum 41 and the drying cabinet 51, the outside of drying cabinet 51 is equipped with the admission line, the admission line stretches to the outside of box 1, install heater 52, first fan 53 on the admission line, the fixed intercommunication in top of drying cabinet 51 has outlet duct 54, the fixed intercommunication in bottom of drying cabinet 51 has discharging pipe 55, the high temperature drying mechanism 5 dries the mixed solution of carbendazim solid raw materials, the dispersant, the wetting agent, the filler, the carbendazim wettable powder that makes after the drying is accomplished is discharged through discharging pipe 55.

Example III

As shown in fig. 10, in order to facilitate the preparation of the high-duration wet carbendazim wettable powder based on the above embodiment, the working method of this embodiment is further given as follows:

the method comprises the following steps:

The working principle and the using flow of the invention are as follows:

screening:

Feeding a carbendazim solid raw material into the screening cavity 13 through the feeding hopper 8, enabling the carbendazim solid raw material to fall into the surface of the distributing plate 21 through the feeding hopper 8, starting the first electric cylinder 23, enabling a piston rod of the first electric cylinder 23 to move upwards to drive the U-shaped frame 221 to move upwards, enabling the U-shaped frame 221 to drive the first supporting frame 226 and the second supporting frame 227 which are abutted to move upwards, enabling the first supporting frame 226 and the second supporting frame 227 to abut to the bottom surface of the protruding block 212, and enabling the distributing plate 21 to move upwards to the second containing groove 15 at the top end through the protruding block 212;

Simultaneously, two miniature electric cylinders 224 are started, a piston rod of each miniature electric cylinder 224 drives a push plate 225 to move inwards, the push plates 225 push a first support frame 226 and a second support frame 227 to move away from each other until a lug 212 vertically drops from between the first support frame 226 and the second support frame 227, the first support frame 226 and the second support frame 227 respectively compress springs 228 at corresponding positions, the dropping speed of a large volume of carbendazim solid raw material is greater than that of a small volume of carbendazim fixed raw material, at the moment, a third electric cylinder 26 is started, the piston rod of the third electric cylinder 26 is retracted to drive a material receiving plate 25 to slide upwards, the material receiving plate 25 separates the large volume of carbendazim fixed raw material from the small volume of carbendazim fixed raw material, and the large volume of carbendazim fixed raw material drops onto a material dividing plate 21 and the small volume of carbendazim fixed raw material drops onto the material receiving plate 25;

Starting a second electric cylinder 24, enabling a piston rod of the second electric cylinder 24 to extend and prop against a distributing plate 21, enabling one end, close to a feeding hopper 8, of the distributing plate 21 to move upwards, enabling the distributing plate 21 to rotate by taking a first sliding block 213 as a base point, enabling the distributing plate 21 to incline, enabling a large-volume carbendazim fixed raw material on the distributing plate 21 to slide into an overfeeding channel 113, enabling a piston rod of the second electric cylinder 24 to retract and reset the distributing plate 21, starting a second fan 7, enabling the second fan 7 to blow the large-volume carbendazim fixed raw material into an outer cylinder 31, closing the second fan 7, starting a ball mill 3, grinding the large-volume carbendazim solid raw material balls into a small-volume carbendazim fixed raw material, restarting the second fan 7, enabling the second fan 7 to blow the small-volume carbendazim fixed raw material in the outer cylinder 31 into a connecting pipe 38, enabling the screened small-volume carbendazim fixed raw material to slide down onto the inclined plate 27 through the inclined connecting plate 25, enabling the piston rod of the third electric cylinder 26 to extend and drive the piston rod of the material receiving plate 25 to slide downwards to enable the small-volume carbendazim fixed raw material on the plate 27 to push the small-volume carbendazim fixed raw material into a small-material inlet 39 of the connecting pipe 38 to enter a small-volume charging hopper 41, and all the small-volume fixed raw material 41 into a charging pipe 41;

when the material separating plate 21 falls to the bottommost end, the bottom surface of the material separating plate 21 contacts with the top end of a piston rod of the second electric cylinder 24, the first electric cylinder 23 retracts to drive the first support frame 226 and the second support frame 227 to fall to the bottommost end, the first support frame 226 and the second support frame 227 are positioned below the convex blocks 212, the piston rod of the miniature electric cylinder 224 retracts, the push rod does not abut against the first support frame 226 and the second support frame 227 any more, the elastic force of the spring 228 enables the first support frame 226 and the second support frame 227 to abut against again, so that the driving straight falling assembly 22 is reset, and next screening is convenient;

When mixing, the following components:

The dispersing agent, the wetting agent and the filling agent respectively enter corresponding storage tanks 471 through a feed pipe 472, enter the mixing drum 41 from corresponding dispersing pipes 473 for mixing, start the second motor 46, drive the first stirring shaft 42 and the second stirring shaft 43 to rotate in opposite directions for fully mixing the carbendazim fixing raw materials, the dispersing agent, the wetting agent and the filling agent;

When drying:

the water pump 6, the first fan 53 and the heater 52 are started, the obtained mixed solution enters the drying box 51 under the action of the water pump 6, the first fan 53 enables gas outside the box body 1 to enter the drying box 51 after being heated by the heater 52, the high-temperature gas continuously dries the mixed solution, the gas is discharged to the outside of the drying box 51 through the air outlet pipe 54, and finally the obtained mixed solution is fully dried to become the carbendazim wettable powder.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The foregoing embodiments are merely for illustrating the technical solution of the present invention, but not for limiting the same, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that modifications may be made to the technical solution described in the foregoing embodiments or equivalents may be substituted for parts of the technical features thereof, and that such modifications or substitutions do not depart from the spirit and scope of the technical solution of the embodiments of the present invention in essence.

Claims

1. A high-time-long wetting-type carbendazim wettable powder preparation device, characterized in that: it includes a box (1), a partition (11) and a support plate (12) are fixedly provided inside the box (1), the support plate (12) and the partition (11) are vertically fixed, a screening chamber (13) is provided between the partition (11), the support plate (12) and the box (1), a hopper (8) is fixedly provided on the side wall of the box (1), the inner end of the hopper (8) extends into the screening chamber (13), a ball mill (3), a mixing mechanism (4), and a high-temperature drying mechanism (5) are sequentially provided in the box (1), and further comprises:

The screening mechanism (2) is located in the screening chamber (13). The screening mechanism (2) includes a material distribution plate (21), a material receiving plate (25), and an inclined plate (27). The middle of both side walls of the material distribution plate (21) are fixed with a protrusion (212). A driving straight-down assembly (22) is provided below the material distribution plate (21). The driving straight-down assembly (22) includes a U-shaped frame (221). Both sides of the top of the U-shaped frame (221) are fixed with a limit box (223). The box (223) is internally slidably provided with a first support frame (226) and a second support frame (227). When the first support frame (226) and the second support frame (227) are pressed against each other, the first support frame (226) and the second support frame (227) are used to support the protrusion (212). When the first support frame (226) and the second support frame (227) are separated, the protrusion (212) falls from between the first support frame (226) and the second support frame (227).

The inclined plate (27) and the receiving plate (25) are both arranged obliquely above the material dividing plate (21); the side wall of the inclined plate (27) is fixedly connected to the inner side wall of the box body (1); the receiving plate (25) is slidably located on the inclined plate (27); and a third electric cylinder (26) for driving the receiving plate (25) to tilt and move is installed outside the box body (1).

2. The high-duration wetting type carbendazim wettable powder preparation device according to claim 1 is characterized in that: a discharge plate (211) is provided at one end of the dividing plate (21) close to the partition (11), and a first slider (213) is fixed at the end of both side walls of the dividing plate (21), and the first slider (213) and the corresponding protrusion (212) are located on the same side wall of the dividing plate (21), and the first slider (213) is located at one end of the dividing plate (21) close to the partition (11).

3. The high-duration wettability-type carbendazim wettable powder preparation device according to claim 2 is characterized in that: a first straight slide groove (14), a receiving groove (15), and a second straight slide groove (16) are symmetrically opened on the inner wall of the box body (1), and the receiving groove (15) is located on the outside of the second straight slide groove (16), and the two ends of the driving straight-fall component (22) slide in the two receiving grooves (15) respectively, the protrusion (212) slides in the second straight slide groove (16), and the first slider (213) slides in the first straight slide groove (14).

4. The high-duration wettable carbendazim wettable powder preparation device according to claim 3 is characterized in that: a mounting frame (222) is provided on the outside of the limit box (223), the mounting frame (222) is fixed on the outer wall of the U-shaped frame (221), springs (228) are fixed between the first support frame (226), the second support frame (227) and the inner wall of the limit box (223), a push plate (225) is provided between the first support frame (226) and the second support frame (227), and a micro electric cylinder (224) is installed on the mounting frame (222) for driving the push plate (225) to move parallel.

5. The high-duration wettable carbendazim wettable powder preparation device according to claim 4 is characterized in that: a plate-passing channel (111), a material-passing channel (113), and a straight groove (112) are provided in the middle of the partition (11), the material receiving plate (25) slides in the plate-passing channel (111), and a second slider (251) is fixed on both side walls of the material receiving plate (25), and an inclined slide groove (17) is symmetrically provided on the inner side wall of the box body (1), the second slider (251) slides in the inclined slide groove (17), the discharge plate (211) slides in the straight groove (112), and the material-passing channel (113) is located at the bottom end of the straight groove (112).

6. The high-duration wettability-type carbendazim wettable powder preparation device according to claim 5 is characterized in that: a first electric cylinder (23) is fixedly provided under the support plate (12), the piston rod of the first electric cylinder (23) slides through the support plate (12) and is fixedly connected to the bottom end of the U-shaped frame (221), and a second electric cylinder (24) is fixedly provided on the support plate (12), and the second electric cylinder (24) is located at the end of the dividing plate (21) away from the partition (11).

7. The high-duration wettable carbendazim wettable powder preparation device according to claim 6, characterized in that: the ball mill (3) comprises an outer cylinder (31), an inlet cylinder (32), and an outlet cylinder (33) which are fixedly connected, a filter screen (34) is fixedly provided inside the outer cylinder (31), the inlet cylinder (32) is fixedly connected to the feed channel (113), the inlet cylinder (32) and the outlet cylinder (33) are rotatably connected to the support plate (12), the outer side of the outlet cylinder (33) is rotatably connected to a connecting pipe (38), the top end of the connecting pipe (38) is fixedly connected to a feeding pipe (39), a side notch (391) is provided on the side wall of the feeding pipe (39), and the end of the inclined plate (27) extends into the side notch (391);

A second fan (7) is fixed on the support plate (12), and an outlet end of the second fan (7) is fixedly connected to the lower part of the material transfer channel (113).

8. The high-duration wettable carbendazim wettable powder preparation device according to claim 7, characterized in that: the mixing mechanism (4) includes a mixing drum (41), a first stirring shaft (42) and a second stirring shaft (43) are provided inside the mixing drum (41), the outlet end of the connecting pipe (38) is fixedly connected to the top end of the side wall of the mixing drum (41), a first gear (44) and a second gear (45) are meshed with each other on the outside of the mixing drum (41), a second motor (46) is installed on the outer wall of the mixing drum (41), the output shaft of the second motor (46) passes through the center of the first gear (44) and is coaxially connected to the first stirring shaft (42), the output shaft of the second motor (46) is fixedly connected to the first gear (44), the main shaft of the second stirring shaft (43) rotates through the mixing drum (41) and extends into the center of the second gear (45), and the second stirring shaft (43) is fixedly connected to the second gear (45);

An exhaust pipe (48) is fixedly connected to the side wall of the mixing cylinder (41). A plurality of feeding mechanisms (47) are provided at the top of the mixing cylinder (41). The feeding mechanisms (47) include a storage box (471), a feeding pipe (472), and a dispersion pipe (473). The feeding pipe (472) is fixedly connected to the top end of the storage box (471), and the dispersion pipe (473) is fixedly connected to the bottom end of the storage box (471). The dispersion pipe (473) extends into the interior of the mixing cylinder (41).

9. The high-duration wettable carbendazim wettable powder preparation device according to claim 8 is characterized in that: the high-temperature drying mechanism (5) comprises a drying box (51), a heater (52), and a first fan (53); the outlet end of the mixing drum (41) is fixedly connected to the inlet end of the drying box (51); a water pump (6) is installed between the mixing drum (41) and the drying box (51); an air intake pipe is provided on the outside of the drying box (51); the air intake pipe extends to the outside of the box body (1); a heater (52) and a first fan (53) are installed on the air intake pipe; the top end of the drying box (51) is fixedly connected to an air outlet pipe (54); and the bottom end of the drying box (51) is fixedly connected to a discharge pipe (55).

10. The working method of the high-wetting-time carbendazim wettable powder preparation device according to claim 9, characterized in that the method comprises the following steps:

S1. Adding carbendazim solid raw material: feeding the carbendazim solid raw material into the screening cavity through the feed hopper, and the carbendazim fixed raw material falls onto the surface of the dividing plate through the feed hopper;

S2. Screening carbendazim solid raw material: The piston rod of the first electric cylinder moves upward, driving the U-shaped frame to move upward, and the U-shaped frame drives the first support frame and the second support frame to move upward. The first support frame and the second support frame press against the bottom surface of the protrusion and drive the material dividing plate to move upward to the top through the protrusion;

At the same time, the two micro electric cylinders are started, and the piston rods of the micro electric cylinders drive the push plates to move inward, and the push plates push the first support frame and the second support frame to move oppositely until the protrusions fall vertically from between the first support frame and the second support frame, and the falling speed of the large volume of carbendazim solid raw material is greater than the falling speed of the small volume of carbendazim fixed raw material. At this time, the piston rod of the third electric cylinder retracts to drive the receiving plate to slide obliquely upward, and the receiving plate separates the large volume of carbendazim fixed raw material from the small volume of carbendazim fixed raw material, and the large volume of carbendazim fixed raw material falls onto the dividing plate, and the small volume of carbendazim fixed raw material falls onto the receiving plate;

S3. Ball milling large volume of carbendazim solid raw materials and mixing all carbendazim fixed raw materials: the piston rod of the second electric cylinder extends to drive the dividing plate to tilt, and the large volume of carbendazim fixed raw materials on the dividing plate slides into the material transfer channel. The second fan blows the large volume of carbendazim fixed raw materials into the outer cylinder and then turns off the second fan. The ball mill grinds the large volume of carbendazim solid raw materials into small volume of carbendazim fixed raw materials. The second fan blows the small volume of carbendazim fixed raw materials in the outer cylinder into the connecting pipe. The small volume of carbendazim fixed raw materials sieved in step S2 slides down onto the inclined plate through the inclined receiving plate. The piston rod of the third electric cylinder extends to drive the receiving plate to slide downward and push the small volume of carbendazim fixed raw materials on the inclined plate into the side notch and into the feeding pipe, and then into the connecting pipe through the feeding pipe. The second fan blows all the small volume of carbendazim fixed raw materials in the connecting pipe into the mixing cylinder.

S4. Add dispersant, wetting agent and filler into the mixing drum for mixing: the dispersant, wetting agent and filler are respectively introduced into the corresponding storage box through the feeding pipe, and then introduced into the mixing drum from the corresponding dispersion pipe for mixing. The second motor drives the first stirring shaft and the second stirring shaft to rotate so as to fully mix the carbendazim fixed raw material, the dispersant, the wetting agent and the filler;

S5. Drying treatment: The mixed solution obtained in S4 enters the drying box under the action of a water pump. The first fan heats the gas outside the box through a heater and then enters the drying box. The high-temperature gas continuously dries the mixed solution. The gas is discharged to the outside of the drying box through an outlet pipe. Finally, the mixed solution obtained becomes carbendazim wettable powder after being fully dried.