CN220417926U - Microcapsule surface drying device - Google Patents

Abstract

The utility model belongs to the technical field of microcapsule drying, in particular to a microcapsule surface drying device, which comprises a treatment box; the bottom side of the treatment box is provided with a fixed ring, the bottom side of the fixed ring is provided with supporting legs, the bottom side of the treatment box is provided with a discharge pipe, the discharge pipe is provided with a first valve, and the bottom side of the treatment box is provided with a screening component; through the structural design of screening subassembly, can be after the microcapsule is dried, arrange the filter with the microcapsule through the discharging pipe, separate microcapsule and piece through the filter, start first driving motor, the cam drives the filter through the connecting rod when rotatory and reciprocates in the recess, thereby improve the filter effect of filter, make the piece filter better in the row material pipe of bottom side discharge, the microcapsule is poured from the discharge gate of one side after the filtration is accomplished, realize the screening treatment to the microcapsule, improve the product quality of microcapsule.

Description

Microcapsule surface drying device

Technical Field

The utility model relates to the technical field of microcapsule drying, in particular to a microcapsule surface drying device.

Background

The microcapsule is also called as microcapsule, which is a micro container for storing solid, liquid and gas through a polymer capsule shell, and the microcapsule needs to be dried by a drying device in the process of processing and production, so that the storage time of the microcapsule is prolonged.

The drying device generally comprises a treatment box, a heating cavity, a heating pipe, a feeding pipe, a discharging pipe and the like, the microcapsules are poured into the treatment box from the feeding pipe, a power supply is connected, and the microcapsules are dried by the heat emitted by the heating pipe in the heating cavity.

However, if the embedding effect is poor in the process of drying the microcapsules, the microcapsules are damaged, fragments are generated, and if the microcapsules cannot be processed, the product quality of the microcapsules can be affected, and the existing drying device is low in drying efficiency and cannot be used for effectively and rapidly drying the microcapsules; therefore, a microcapsule surface drying apparatus is proposed to solve the above-mentioned problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a microcapsule surface drying device which aims at solving the problems that if the embedding effect is poor, microcapsules are damaged and chippings are generated in the drying process of the microcapsules, if the microcapsules cannot be treated, the product quality of the microcapsules can be affected, the drying efficiency of the conventional drying device is low, and the microcapsules cannot be dried quickly.

The technical scheme adopted for solving the technical problems is as follows: the utility model relates to a microcapsule surface drying device, which comprises a treatment box; the bottom side of the treatment box is provided with a fixed ring, the bottom side of the fixed ring is provided with supporting legs, the top side of the treatment box is provided with a feeding pipe, the bottom side of the treatment box is provided with a discharging pipe, the discharging pipe is provided with a first valve, the bottom side of the treatment box is provided with a screening component, and the inner side of the treatment box is provided with a uniform drying component;

the screening subassembly is including handling the case, the inside of handling the case is seted up flutedly, sliding mounting has the stopper in the recess, the stopper is fixed in one side of filter, the downside welding of filter has the engaging lug, be connected with the connecting rod through the round pin hub cooperation on the engaging lug, the other end of connecting rod passes through the far hub end of round pin hub cooperation connection at the cam, the nearly hub end centre of a circle of cam is fixed with first rotation axis, first rotation axis passes through the bearing and installs on first fixed plate, first fixed plate is fixed on handling the inner wall of case, first rotation axis passes through the bearing and installs on handling the case, the one end of first rotation axis passes through the output of shaft coupling and first driving motor and is connected, first driving motor installs in the motor case, the motor case is installed in one side of handling the case, in order to improve the product quality of microcapsule after the drying, reduces the mixing of piece in the microcapsule, through the screening subassembly, can be arranged the microcapsule to last through the discharging tube, through the filter and the filter, and the filter is carried out the filter and is carried out to the filter, and the filter is carried out to the filter capsule in the filter plate is driven to the filter the side when the filter is driven to the microcapsule, and the filter is improved to the filter effect is accomplished to the filter in the side is driven to the filter capsule to the side to remove the piece.

Preferably, a discharge hole is formed in one side of the treatment box, L-shaped limiting plates are arranged at two ends of the discharge hole, a baffle is slidably arranged between the L-shaped limiting plates, after screening of the microcapsules and scraps is completed, the baffle is moved upwards from the L-shaped limiting plates, so that the microcapsules on the filter plate can be poured out from the discharge hole on one side, screening treatment of the microcapsules is achieved, and the product quality of the microcapsules is improved.

Preferably, four groups of grooves are formed in the groove, the grooves are uniformly formed in the inner wall of the treatment box, the filter plates are obliquely arranged, so that when the cam rotates, the filter plates can be driven to move up and down, the limiting block can move in the groove, and the obliquely arranged filter plates are more convenient for pouring microcapsules after screening out of a discharge port on one side.

Preferably, even stoving subassembly is including handling the case and blowing the subassembly, the inside of handling the case is fixed with the stoving case, the internally mounted of stoving case has the heating chamber, the heating intracavity is provided with the heating pipe, the discharging pipe is installed to the downside of stoving case, install the second valve on the discharging pipe, the (mixing) shaft is installed through the bearing to the top side of handling the case, the top side of (mixing) shaft is connected with second driving motor's output through the shaft coupling, second driving motor installs on the mounting bracket, the both ends of (mixing) shaft are provided with the puddler, in order to improve the drying efficiency to the microcapsule, carry out the flash drying to the microcapsule, start second driving motor and power, the heating pipe begins the heating at the heating intracavity, and the puddler drives the puddler and rotates the microcapsule and stir, makes the microcapsule be in motion state all the time in the stoving in-process, prevents that the microcapsule from taking place the adhesion at the stoving in-process, and first hair-dryer on the (mixing) shaft drives the operation through the second bevel gear, carries out the heating intracavity through the tuber pipe to the gear of blowing, makes the temperature in the heating chamber even more to the case to the drying efficiency to the microcapsule, improves the drying speed to the microcapsule even drying.

Preferably, the air blowing component comprises a stirring shaft, a first bevel gear is fixed on the stirring shaft, a second bevel gear is arranged on one side of the first bevel gear, a second rotating shaft is fixed in the middle of the second bevel gear, the middle of the second rotating shaft is fixed on a second fixing plate through a bearing, the other end of the second rotating shaft is connected with an air blower, an air pipe is installed on the air blower, the other end of the air pipe is installed in a heating cavity, the first bevel gear on the stirring shaft drives the air blower to operate through the second bevel gear, and air is blown into the heating cavity through the air pipe, so that the temperature in the heating cavity is more uniform, and the microcapsules in the drying box can be subjected to more uniform drying treatment.

Preferably, the horizontal planes of the first bevel gear and the second bevel gear are mutually perpendicular, and the first bevel gear and the second bevel gear are mutually meshed, so that when the first bevel gear rotates, the blower can be driven by the second bevel gear to operate, and the temperature in the heating cavity is more uniform.

The utility model has the advantages that:

1. the utility model provides a microcapsule surface drying device, which is characterized in that through the structural design of a screening assembly, after microcapsules are dried, the microcapsules are discharged onto a filter plate through a discharge pipe, the microcapsules and scraps are separated through the filter plate, a first driving motor is started, and a cam drives the filter plate to move up and down in a groove through a connecting rod when rotating, so that the filtering effect of the filter plate is improved, scraps are better filtered from the filter plate to a discharge pipe at the bottom side and discharged, and after the filtering is finished, the microcapsules are poured out from a discharge hole at one side, so that the screening treatment of the microcapsules is realized, and the product quality of the microcapsules is improved.

2. The utility model provides a microcapsule surface drying device, which is characterized in that a structural design of a uniform drying assembly is adopted, in order to improve the drying efficiency of microcapsules, the microcapsules are dried rapidly, a second driving motor and a power supply are started, a heating pipe starts to heat in a heating cavity, a stirring shaft drives a stirring rod to rotate to stir the microcapsules, the microcapsules are always in a motion state in the drying process, the microcapsules are prevented from being adhered in the drying process, a first bevel gear on the stirring shaft drives a blower to operate through a second bevel gear, the interior of the heating cavity is blown through an air pipe, the temperature in the heating cavity is more uniform, so that the microcapsules in a drying box can be dried more uniformly, the drying speed of the microcapsules is accelerated, and the drying efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of a unitary side-view perspective;

FIG. 2 is a schematic side perspective cross-sectional view;

FIG. 3 is a schematic cross-sectional view of a screening assembly;

FIG. 4 is a schematic cross-sectional view of a blower assembly;

fig. 5 is a schematic diagram of the overall side view and perspective.

In the figure: 1. a treatment box; 2. a fixing ring; 3. support legs; 4. a feed pipe; 5. a discharge pipe; 6. a groove; 7. a limiting block; 8. a filter plate; 9. a connecting lug; 10. a connecting rod; 11. a cam; 12. a first rotation shaft; 13. a first fixing plate; 14. a first driving motor; 15. a motor case; 16. a discharge port; 17. an L-shaped limiting plate; 18. a baffle; 19. a drying box; 20. a heating chamber; 21. heating pipes; 22. a discharge pipe; 23. a second valve; 24. a stirring shaft; 25. a second driving motor; 26. a mounting frame; 27. a stirring rod; 28. a first bevel gear; 29. a second bevel gear; 30. a second rotation shaft; 31. a second fixing plate; 32. a blower; 33. an air duct; 34. a first valve; 35. a handle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, a microcapsule surface drying device comprises a treatment box 1; the bottom side of the treatment box 1 is provided with a fixed ring 2, the bottom side of the fixed ring 2 is provided with a supporting leg 3, the top side of the treatment box 1 is provided with a feeding pipe 4, the bottom side of the treatment box 1 is provided with a discharging pipe 5, the discharging pipe 5 is provided with a first valve 34, the bottom side of the treatment box 1 is provided with a screening component, and the inner side of the treatment box 1 is provided with a uniform drying component;

the screening component comprises a processing box 1, a groove 6 is formed in the processing box 1, a limiting block 7 is slidably installed in the groove 6, the limiting block 7 is fixed on one side of a filter plate 8, a connecting lug 9 is welded on the bottom side of the filter plate 8, a connecting rod 10 is connected to the connecting lug 9 through pin shaft fit, the other end of the connecting rod 10 is connected to the far hub end of a cam 11 through pin shaft fit, the center of a circle of the near hub end of the cam 11 is fixed with a first rotating shaft 12, the first rotating shaft 12 is installed on a first fixing plate 13 through a bearing, the first fixing plate 13 is fixed on the inner wall of the processing box 1, the first rotating shaft 12 is installed on the processing box 1 through a bearing, one end of the first rotating shaft 12 is connected with the output end of a first driving motor 14 through a coupler, the first driving motor 14 is installed on a motor box 15, and the motor box 15 is installed on one side of the processing box 1; during operation, in order to improve the product quality of the microcapsule after drying, reduce the mixing of piece in the microcapsule, through screening subassembly, can be after the microcapsule is dried, arrange the filter 8 through discharging pipe 22 with the microcapsule, separate microcapsule and piece through filter 8, start first driving motor 14, first rotation axis 12 drives cam 11 rotatory, the connecting rod 10 that is connected on the cam 11 distal hub end reciprocates when cam 11 rotates, drive filter 8 and reciprocate in recess 6 through connecting rod 10, thereby improve the filter effect of filter 8, make the piece filter better in the row material pipe 5 of filter bottom side discharge from filter 8, the microcapsule is poured from discharge gate 16 of one side after the filtration is accomplished, realize the screening treatment to the microcapsule, improve the product quality of microcapsule.

A discharge hole 16 is formed in one side of the treatment box 1, L-shaped limiting plates 17 are arranged at two ends of the discharge hole 16, and a baffle 18 is slidably arranged between the two L-shaped limiting plates 17; when the screening device works, after screening the microcapsules and scraps, the baffle plate 18 moves upwards from the L-shaped limiting plate 17, so that the microcapsules on the filter plate 8 can be poured out from the discharge hole 16 on one side, screening treatment of the microcapsules is realized, and the product quality of the microcapsules is improved.

The grooves 6 are formed in four groups and are uniformly formed in the inner wall of the treatment box 1, and the filter plates 8 are obliquely arranged; when the screening machine works, the filter plate 8 can be driven to move up and down when the cam 11 rotates, the limiting block 7 can move in the groove 6, and the inclined filter plate 8 is more convenient for pouring the screened microcapsules out of the discharge hole 16 on one side.

Referring to fig. 4, the uniform drying assembly comprises a treatment box 1 and a blowing assembly, a drying box 19 is fixed in the treatment box 1, a heating cavity 20 is arranged in the drying box 19, a heating pipe 21 is arranged in the heating cavity 20, a discharging pipe 22 is arranged at the bottom side of the drying box 19, a second valve 23 is arranged on the discharging pipe 22, a stirring shaft 24 is arranged at the top side of the treatment box 1 through a bearing, the top side of the stirring shaft 24 is connected with the output end of a second driving motor 25 through a coupling, the second driving motor 25 is arranged on a mounting frame 26, stirring rods 27 are arranged at two ends of the stirring shaft 24, in order to improve the drying efficiency of the microcapsules, the drying efficiency of the microcapsules is improved, the second driving motor 25 and a power supply are started, the heating pipe 21 begins to heat in the heating cavity 20, the second driving motor 25 drives the stirring shaft 24 to rotate, the stirring rod 27 to rotate the microcapsules, the microcapsules are always in a moving state in the drying process, the microcapsules are prevented from being adhered in the process, a first bevel gear 28 on the stirring shaft 24 is connected with the output end of the second driving motor 25 through a coupling, the second bevel gear 29 is arranged at two ends of the stirring shaft 24, the stirring shaft 27 is further evenly rotates the drying efficiency of the microcapsules through a fan blade 32, and the drying efficiency of the drying cavity is improved, the drying efficiency of the microcapsules can be heated in the drying cavity 20, and the drying efficiency of the microcapsules can be more evenly heated, and the drying efficiency of the microcapsules can be improved, and the drying efficiency of the drying cavity can be improved, and the drying efficiency can be more evenly, and the drying efficiency can be heated by a drying cavity 20.

The air blowing assembly comprises a stirring shaft 24, a first bevel gear 28 is fixed on the stirring shaft 24, a second bevel gear 29 is arranged on one side of the first bevel gear 28, a second rotating shaft 30 is fixed in the middle of the second bevel gear 29, the middle of the second rotating shaft 30 is fixed on a second fixing plate 31 through a bearing, the other end of the second rotating shaft 30 is connected with an air blower 32, an air pipe 33 is arranged on the air blower 32, and the other end of the air pipe 33 is arranged in the heating cavity 20; in operation, the first bevel gear 28 on the stirring shaft 24 drives the blower 32 to operate through the second bevel gear 29, and the air is blown into the heating cavity 20 through the air pipe 33, so that the temperature in the heating cavity 20 is more uniform, and the microcapsules in the drying box 19 can be dried more uniformly.

The horizontal planes of the first bevel gear 28 and the second bevel gear 29 are mutually perpendicular, and the first bevel gear 28 and the second bevel gear 29 are mutually meshed; in operation, the blower 32 is driven by the second bevel gear 29 when the first bevel gear 28 rotates, so that the temperature in the heating chamber 20 is more uniform.

Referring to fig. 5, the handle 35 is disposed on the top side of the baffle 18; in operation, a worker can conveniently remove the baffle 18 from the L-shaped limiting plate 17 through the handle 35, and discharge the microcapsules from the discharge hole 16.

In order to improve the product quality of the dried microcapsules and reduce the mixing of scraps in the microcapsules, the microcapsules can be discharged onto the filter plate 8 through the discharging pipe 22 after the microcapsules are dried through the screening component, the microcapsules and scraps are separated through the filter plate 8, the first driving motor 14 is started, the first rotating shaft 12 drives the cam 11 to rotate, the connecting rod 10 connected to the far hub end of the cam 11 moves up and down when the cam 11 rotates, the filter plate 8 is driven to move up and down in the groove 6 through the connecting rod 10, so that the filtering effect of the filter plate 8 is improved, scraps are better discharged from the discharging pipe 5 at the bottom side after the scraps are filtered, the microcapsules are discharged from the discharging hole 16 at one side after the completion of filtration, the screening treatment of the microcapsules is realized, the product quality of the microcapsules is improved, in order to improve the drying efficiency to the microcapsule, carry out quick drying to the microcapsule, start second driving motor 25 and power, heating pipe 21 begins the heating in heating chamber 20, second driving motor 25 drives (mixing) shaft 24 and rotates, (mixing) shaft 24 drives (mixing) rod 27 and rotates the microcapsule and stir, make the microcapsule be in motion state all the time in the stoving process, prevent that the microcapsule from taking place the adhesion in the stoving process, first bevel gear 28 on (mixing) shaft 24 passes through the flabellum operation of second bevel gear 29 drive hair-dryer 32, blow in to heating chamber 20 through tuber pipe 33, make the temperature in the heating chamber 20 more even, thereby can carry out more even stoving processing to the microcapsule in the stoving case 19, accelerate the drying rate to the microcapsule, improve drying efficiency.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (6)

1. A microcapsule surface drying device, which is characterized in that: comprises a treatment box (1); the device comprises a treatment box (1), wherein a fixing ring (2) is arranged on the bottom side of the treatment box (1), supporting legs (3) are arranged on the bottom side of the fixing ring (2), a feeding pipe (4) is arranged on the top side of the treatment box (1), a discharging pipe (5) is arranged on the bottom side of the treatment box (1), a first valve (34) is arranged on the discharging pipe (5), a screening component is arranged on the bottom side of the treatment box (1), and a uniform drying component is arranged on the inner side of the treatment box (1);

the screening assembly comprises a processing box (1), a groove (6) is formed in the processing box (1), a limiting block (7) is mounted in the groove (6) in a sliding mode, one side of a filtering plate (8) is fixed on the limiting block (7), a connecting lug (9) is welded on the bottom side of the filtering plate (8), a connecting rod (10) is connected to the connecting lug (9) through a pin shaft in a matched mode, the other end of the connecting rod (10) is connected to the far hub end of a cam (11) through the pin shaft in a matched mode, a first rotating shaft (12) is fixed to the center of a circle of the near hub end of the cam (11), the first rotating shaft (12) is mounted on a first fixing plate (13) through a bearing, the first fixing plate (13) is mounted on the inner wall of the processing box (1), one end of the first rotating shaft (12) is connected to the output end of a first driving motor (14) through a shaft coupler, the first driving motor (14) is mounted on one side of the motor box (15), and the motor box (15) is mounted on one side of the processing box (1).

2. A microcapsule surface drying apparatus according to claim 1, wherein: a discharge hole (16) is formed in one side of the treatment box (1), L-shaped limiting plates (17) are arranged at two ends of the discharge hole (16), and a baffle plate (18) is slidably arranged between the two L-shaped limiting plates (17).

3. A microcapsule surface drying apparatus according to claim 1, wherein: four groups of grooves (6) are formed and uniformly formed in the inner wall of the treatment box (1), and the filter plates (8) are obliquely arranged.

4. A microcapsule surface drying apparatus according to claim 1, wherein: even stoving subassembly is including handling case (1) and subassembly of blowing, the inside of handling case (1) is fixed with stoving case (19), the internally mounted of stoving case (19) has heating chamber (20), be provided with heating pipe (21) in heating chamber (20), discharging pipe (22) are installed to the downside of stoving case (19), install second valve (23) on discharging pipe (22), (24) are installed through the bearing in the top side of handling case (1), the output of shaft coupling and second driving motor (25) is passed through to the top side of (24) is connected, second driving motor (25) are installed on mounting bracket (26), the both ends of (24) are provided with puddler (27).

5. A microcapsule surface drying apparatus according to claim 4, wherein: the air blowing assembly comprises a stirring shaft (24), a first bevel gear (28) is fixed on the stirring shaft (24), a second bevel gear (29) is arranged on one side of the first bevel gear (28), a second rotating shaft (30) is fixed in the middle of the second bevel gear (29), the middle of the second rotating shaft (30) is fixed on a second fixing plate (31) through a bearing, the other end of the second rotating shaft (30) is connected with an air blower (32), an air pipe (33) is arranged on the air blower (32), and the other end of the air pipe (33) is arranged in a heating cavity (20).

6. A microcapsule surface drying apparatus according to claim 5, wherein: the first bevel gear (28) and the second bevel gear (29) are mutually perpendicular in horizontal plane, and the first bevel gear (28) and the second bevel gear (29) are mutually meshed.