CN113028816B - A seed encircles type drying device for agricultural - Google Patents

Abstract

The invention discloses a seed surrounding type drying device for agriculture, wherein the top end of a drying cylinder is connected with an upper charging barrel, the top end of the upper charging barrel is connected with a feed hopper, and a surrounding drying mechanism is arranged at the inner side of the drying cylinder.

Description

A seed encircles type drying device for agricultural

Technical Field

The invention relates to the technical field of agricultural machinery, in particular to a seed surrounding type drying device for agriculture.

Background

The seed drying method generally comprises two types of natural drying and artificial mechanical drying, wherein the natural drying is to reduce the moisture of the seeds by using methods such as sunlight solarization, ventilation, spreading and drying in the air and the like, the artificial mechanical drying is mainly to dry the seeds by hot air, and the moisture in the seeds are removed by building a seed drying device and matching the hot air;

at present, the drying equipment can often generate an accumulated phenomenon during the drying process of seeds, so that the drying equipment can not uniformly guide heat airflow into the seeds, the seeds are not dried completely, and the actual drying quality of the seeds is reduced.

Disclosure of Invention

The invention provides a seed surrounding type drying device for agriculture, which can effectively solve the problems that in the prior art, the seeds are often accumulated during the drying process of the conventional drying equipment, so that the drying equipment cannot uniformly introduce heat airflow into the seeds, the seeds are not dried completely, and the actual drying quality of the seeds is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: a seed surrounding type drying device for agriculture comprises a drying cylinder, wherein the top end of the drying cylinder is connected with an upper charging barrel, the top end of the upper charging barrel is connected with a feed hopper, and a surrounding drying mechanism is arranged on the inner side of the drying cylinder;

the surrounding drying mechanism comprises a heating chamber, a motor box, a driving rotating shaft, a refining spiral blade, a spiral gas distribution pipeline, a built-in cavity, an exhaust pipe, an exhaust hole, a gas guide pipe, a movable sleeve and a stop valve;

the drying device is characterized in that a heating cavity is formed in the edge part of the inner side of the drying cylinder, a motor box is fixedly mounted in the middle of the bottom end of the drying cylinder, a driving rotating shaft is rotatably connected to the top end of the motor box at the position of the inner side of the drying cylinder, a refining spiral blade is uniformly welded to the edge part of the driving rotating shaft, a spiral gas distribution pipeline is spirally sleeved at the position of the outer side of the driving rotating shaft at the position of the inner side bottom of the refining spiral blade, a built-in cavity is formed in the driving rotating shaft, an exhaust pipe is connected to the bottom end of the driving rotating shaft close to the motor box, exhaust holes are uniformly formed in the edge part of the exhaust pipe, an air guide pipe is connected to the top end of the driving rotating shaft, the air guide pipe is connected with the top of the driving rotating shaft through a movable sleeve, one side, away from the movable sleeve, of the end part of the air guide pipe is inserted into the heating cavity, and a stop valve is mounted at the edge part of the air guide pipe;

the drying cylinder is characterized in that the bottom end of the drying cylinder is positioned at the edge of the motor box and provided with the discharging cylinder, the edge of the bottom end of the drying cylinder is provided with a mounting ring, the mounting ring is fixedly mounted on the inner side of the top of the supporting bedplate, and supporting columns are fixedly mounted at corners of the bottom end of the supporting bedplate.

Preferably, the bottom end of the upper charging barrel is fixedly connected with a sealing cover at the inner side of the top of the heating chamber, and the edge of the heating chamber is connected with a water supply pipe.

Preferably, the inner side of the upper charging barrel is provided with a uniform material scattering mechanism, and the uniform material scattering mechanism comprises a cross-shaped mounting frame, a movable connecting seat, a material scattering conical disc and a material guiding inclined bar;

go up the inboard fixed mounting of feed cylinder and have the cross mounting bracket, the inboard middle-end of cross mounting bracket corresponds position department fixed mounting with the drive pivot and has the swing joint seat, drive pivot top is located movable sleeve bottom position department fixedly connected with bulk cargo conical disk, the impartial angle in bulk cargo conical disk outside surface installs the guide slanted bar.

Preferably, the inner side of the bottom of the supporting bedplate is provided with a high-efficiency screening mechanism, and the high-efficiency screening mechanism comprises a screening box, a rectangular frame, a limiting movable groove, a vibration spring, a special-shaped bump, a driving motor and a collecting hopper;

the utility model discloses a screening box, including support platen, screening case, support column, spacing movable groove, vibration spring, drive motor's input and external power supply's output electric connection, the screening case is installed to support platen bottom, the equal fixedly connected with rectangular frame in screening case both sides limit end, the inboard rectangle frame department of being close to of support column has all seted up spacing movable groove, and rectangular frame both sides portion all inlays in spacing movable groove, the equal fixed mounting in inboard top of spacing movable groove and bottom has vibration spring, the rectangular frame inboard is provided with heterotypic lug, and heterotypic lug one end links to each other with drive motor's output shaft, drive motor's input and external power supply's output electric connection.

Preferably, the screening box is fixedly connected with the rectangular frame through the connecting lug at the edge end of the screening box, and the edge end of the rectangular frame is fixedly connected with the vibration spring.

Preferably, the supporting support is fixedly mounted on the inner side of the bottom of the supporting column, and the material collecting hopper is placed at the position, below the bottom of the screening box, of the top of the supporting support.

Preferably, an installation support is fixedly installed on one side edge of the support column, one end of the driving motor is fixedly connected with the installation support, airflow impurity removal mechanisms are arranged on two sides of the screening box, and each airflow impurity removal mechanism comprises an airflow fan, an exhaust hood, an axial flow air hole, a gas collecting hood and a collecting box;

the mounting bracket limit end is located the equal fixed mounting in driving motor both sides position department and has the air current fan, the input of air current fan and external power source's output electric connection, air current fan limit end fixed mounting has the exhaust hood, screening case both sides limit portion all corresponds to run through and has seted up axial compressor gas pocket, support column limit portion and screening case correspond the position department and are connected with the gas collecting channel, and gas collecting channel limit portion fixedly connected with collecting box.

Preferably, a dust removal mechanism is arranged in the collection box and comprises a mounting frame plate, a water distribution spray pipe, a water inlet pipe, a flow guide inclined plate and a sewage discharge hopper;

the top end of the collecting box is fixedly provided with an installation frame plate, the top end of the collecting box is fixedly provided with a water distribution spray pipe at the position located on the inner side of the installation frame plate, one end of the water distribution spray pipe is connected with a water inlet pipe, the bottom of the inner side of the collecting box is provided with a flow guide inclined plate, and the edge end of the collecting box is located at the lowest position of the flow guide inclined plate and is connected with a sewage discharge hopper.

Preferably, the top of the inner side of the collecting box is uniformly provided with spraying nozzles, and the tops of the spraying nozzles penetrate through the collecting box and are connected with the water distribution spraying pipe.

Preferably, the inclined strut supports are fixedly welded at the side ends of the two sides of the drying cylinder, and the bottom ends of the inclined strut supports are fixedly provided with stress plates at the top of the supporting bedplate.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. through heating the cavity, the motor case, the drive pivot, the refining spiral leaf, spiral gas distribution pipeline, built-in cavity, the blast pipe, the exhaust hole, the air duct, movable sleeve and stop valve can be in the actual drying process through heating the cavity with its inside heat from outside to inside input to the seed of treating drying, and can carry out evenly distributed with the heat vapor that heats the cavity inside heating through spiral gas distribution pipeline, and can carry the heat of this vapor to the seed in from inside to outside, so that its both sides can form the heat area when the seed is dried, and then make the seed can be carried and turn by abundant thorough stoving, and the convenient seed that carries and turns through drive pivot and refining spiral leaf in the drying process, with this further phenomenon that piles up and dry incomplete when avoiding the seed to dry, the oven-dry mass of seed has been guaranteed.

2. Through the cross mounting bracket, swing joint seat, bulk cargo conical disk and guide slanted bar can be when the drive pivot rotates, the inboard bulk cargo conical disk of feed cylinder and guide slanted bar rotate in step under the drive, and guaranteed the stability when drive pivot rotates through the cross mounting bracket, and through the rotation of bulk cargo conical disk and guide slanted bar, can enter into the feed cylinder back down at the seed, disperse the processing of breaing up the seed, and then make the seed can enter into the drying cylinder with the state of homodisperse, make the seed can not pile up the conglomeration when drying, guarantee with this that the seed is in the follow-up can be better dry that carries on, the simple operation, and need not to install additional drive arrangement, the cost is reduced, energy can be saved.

Synthesize the above-mentioned, use through the cooperation that encircles stoving mechanism and even bulk cargo mechanism for the seed before the actual stoving and the state that the dispersion can all be guaranteed to the stoving in-process, and then make the seed can be by even abundant thorough drying, guarantee with this that the seed possesses the best stoving effect.

3. Through the screening case, rectangular frame, spacing movable groove, vibrations spring, heterotypic lug, driving motor and collecting hopper can be after the seed is dried, shake the screening processing to the seed, and then make the seed can obtain further processing after drying, and in the seed screening process, drive heterotypic lug through driving motor and rotate, with this make rectangular frame can carry out frequent activity from top to bottom along spacing movable groove, and can increase rectangular frame's activity range through vibrations elastic elasticity in the rectangular frame activity process, and then make rectangular frame can rock by more effectual drive screening case, and make the interior seed of screening case through rocking fluctuation that can be continuous, and then make things convenient for the screening case better to filter the seed.

4. The seed screening device comprises an airflow fan, an exhaust hood, an axial flow air hole, a gas collecting hood and a collecting box, wherein the airflow fan can generate unidirectional airflow through the force of the airflow fan when the screening box drives seeds to conduct wave screening, and then impurities falling off from the surfaces of the seeds after being dried are guided and conveyed through the airflow, and the impurities conveyed through the airflow are collected with the gas collecting hood and the collecting box, so that the seeds can be subjected to impurity removal treatment during actual screening, and the quality of the seeds after subsequent screening is guaranteed.

5. Can collect the back at the impurity that the collecting box drops seed surface through installation framed panel, water distribution shower, inlet tube, water conservancy diversion swash plate and blowdown fill to spray the processing through the impurity that the water distribution shower comes to collect to this prevents that impurity from producing the phenomenon of overflowing to scatter, convenient follow-up better concentrated collection and processing to impurity of while, the simple operation has reduced the intensity of labour of manual cleaning.

It is above-mentioned to synthesize, uses through the cooperation between high-efficient screening mechanism, air current edulcoration mechanism and the dust removal mechanism, conveniently carries out synchronous screening, edulcoration and dust removal treatment to the seed after the seed is dried to this makes the seed can carry out further upgrading to it after drying and handles, and screening, edulcoration and dust removal go on in step, has guaranteed the efficiency of handling, makes the seed after the stoving possess higher quality.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

FIG. 2 is a schematic view of the structure of the circulating drying mechanism of the present invention;

FIG. 3 is a schematic view of the installation structure of the spiral gas distribution pipeline of the present invention;

FIG. 4 is a schematic view of the structure of the uniform material dispersing mechanism of the present invention;

FIG. 5 is a schematic view of the mechanism for removing impurities from an air stream according to the present invention;

FIG. 6 is a schematic view of the structure of the high efficiency screening mechanism of the present invention;

FIG. 7 is a schematic structural view of the dust removing mechanism of the present invention;

the reference numbers in the figures: 1. a drying drum; 2. feeding a material barrel; 3. a feed hopper;

4. a surrounding drying mechanism; 401. a heating chamber; 402. a motor case; 403. driving the rotating shaft; 404. homogenizing the spiral leaves; 405. a spiral gas distribution pipeline; 406. a cavity is arranged inside; 407. an exhaust pipe; 408. an exhaust hole; 409. a gas-guide tube; 410. an active cannula; 411. a stop valve;

5. a uniform material scattering mechanism; 501. a cross mounting bracket; 502. a movable connecting seat; 503. a bulk conical disc; 504. material guiding oblique strips;

6. feeding the material barrel; 7. a mounting ring; 8. a support platen; 9. a support pillar;

10. a high-efficiency screening mechanism; 1001. a screening box; 1002. a rectangular frame; 1003. a limiting movable groove; 1004. vibrating the spring; 1005. a special-shaped bump; 1006. a drive motor; 1007. a collection hopper;

11. mounting a bracket; 12. an airflow impurity removal mechanism; 1201. an airflow fan; 1202. an exhaust hood; 1203. axial flow air holes; 1204. a gas-collecting hood; 1205. a collection box;

13. a dust removal mechanism; 1301. installing a frame plate; 1302. a water distribution spray pipe; 1303. a water inlet pipe; 1304. a flow guiding sloping plate; 1305. a sewage draining hopper;

14. a bracing bracket; 15. a stress plate.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-7, the invention provides a technical scheme, a seed surrounding type drying device for agriculture, which comprises a drying cylinder 1, wherein the top end of the drying cylinder 1 is connected with an upper charging barrel 2, the top end of the upper charging barrel 2 is connected with a feed hopper 3, and a surrounding drying mechanism 4 is arranged on the inner side of the drying cylinder 1;

the surrounding drying mechanism 4 comprises a heating chamber 401, a motor box 402, a driving rotating shaft 403, a refining spiral blade 404, a spiral air distribution pipeline 405, a built-in cavity 406, an exhaust pipe 407, an exhaust hole 408, an air guide pipe 409, a movable sleeve 410 and a stop valve 411;

a heating chamber 401 is arranged on the inner side edge of a drying cylinder 1, a sealing cover is fixedly connected to the bottom end of an upper charging cylinder 2 at the inner side position of the top of the heating chamber 401, a water supply pipe is connected to the edge of the heating chamber 401, the connection between the upper charging cylinder 2 and the drying cylinder 1 is facilitated, and water injection is facilitated for the heating chamber 401, a motor box 402 is fixedly installed in the middle of the bottom end of the drying cylinder 1, a motor is installed in the motor box 402, a driving rotating shaft 403 is rotatably connected to the top end of the motor box 402 at the inner side position of the drying cylinder 1, a material homogenizing spiral blade 404 is uniformly welded to the edge of the driving rotating shaft 403, a spiral air distribution pipeline 405 is spirally sleeved at the outer side of the driving rotating shaft 403 at the inner side of the material homogenizing spiral blade 404, a built-in cavity 406 is formed in the driving rotating shaft, an exhaust pipe 407 is connected to the bottom end of the driving rotating shaft 403 close to the motor box 402, exhaust holes 408 are uniformly formed in the edge of the exhaust pipe 407, an air guide pipe 409 is connected to the top end of the driving rotating shaft 403, an air guide pipe 409 is connected to the top end 409, the air guide pipe 409 is connected to the top of the movable sleeve 410, one side far away from the movable sleeve 410 and inserted into the heating chamber 401, and a stop valve 411 is installed at the edge of the air guide pipe 409;

the inner side of the upper charging barrel 2 is provided with a uniform material scattering mechanism 5, and the uniform material scattering mechanism 5 comprises a cross-shaped mounting rack 501, a movable connecting seat 502, a material scattering conical disc 503 and a material guiding oblique strip 504;

go up feed cylinder 2 inboard fixed mounting and have cross mounting bracket 501, cross mounting bracket 501 inboard middle-end and drive pivot 403 correspond position department fixed mounting have swing joint seat 502, drive pivot 403 top is located swing joint 410 bottom position department fixedly connected with bulk cargo conical disk 503, and the impartial angle in bulk cargo conical disk 503 outside surface installs guide oblique strip 504.

The bottom end of the drying cylinder 1 is arranged at the position of the edge of the motor box 402, a discharging cylinder 6 is arranged, the edge of the bottom end of the drying cylinder 1 is provided with a mounting ring 7, the mounting ring 7 is fixedly arranged at the inner side of the top of the supporting bedplate 8, and supporting columns 9 are fixedly arranged at the edges of the bottom end of the supporting bedplate 8.

The inner side of the bottom of the supporting bedplate 8 is provided with a high-efficiency screening mechanism 10, and the high-efficiency screening mechanism 10 comprises a screening box 1001, a rectangular frame 1002, a limiting movable groove 1003, a vibrating spring 1004, a special-shaped bump 1005, a driving motor 1006 and a collecting hopper 1007;

screening case 1001 is installed to 8 bottoms of support platen, the equal fixedly connected with rectangular frame 1002 of screening case 1001 both sides limit end, spacing movable tank 1003 has all been seted up near rectangular frame 1002 department to support column 9 inboard, and rectangular frame 1002 both sides portion all inlays in spacing movable tank 1003, the equal fixed mounting in inboard top of spacing movable tank 1003 and bottom has vibrations spring 1004, screening case 1001 is through fixed connection between the connection lug of its limit end and the rectangular frame 1002, the equal fixedly connected with vibrations spring 1004 of limit end of rectangular frame 1002, be convenient for be connected between screening case and the rectangular frame 1002, rectangular frame 1002 inboard is provided with heterotypic lug 1005, and heterotypic lug 1005 one end links to each other with driving motor 1006's output shaft, driving motor 1006's input and external power source's output electric connection, support column 9 bottom inboard fixed mounting has the bearing support, and the bearing support top has placed collection hopper 1007 in screening case 1001 bottom below position department, the convenient seed to screening case 1001 is selected.

A mounting bracket 11 is fixedly mounted on one side edge of the supporting column 9, one end of a driving motor 1006 is fixedly connected with the mounting bracket 11, airflow impurity removal mechanisms 12 are arranged on two sides of the screening box 1001, and each airflow impurity removal mechanism 12 comprises an airflow fan 1201, an exhaust hood 1202, an axial flow air hole 1203, a gas collecting hood 1204 and a collecting box 1205;

11 limit ends of installing support are located the equal fixed mounting in driving motor 1006 both sides position department and have air current fan 1201, air current fan 1201's input and external power source's output electric connection, air current fan 1201 limit end fixed mounting has exhaust hood 1202, screening case 1001 both sides limit portion all corresponds to run through and has seted up axial compressor gas pocket 1203, support column 9 limit portion corresponds position department with screening case 1001 and is connected with gas collecting channel 1204, and gas collecting channel 1204 limit portion fixedly connected with collecting box 1205.

A dust removal mechanism 13 is arranged in the collection box 1205, and the dust removal mechanism 13 comprises a mounting frame plate 1301, a water distribution spray pipe 1302, a water inlet pipe 1303, a flow guide sloping plate 1304 and a sewage discharge hopper 1305;

collecting box 1205 top fixed mounting has installation deckle board 1301, collecting box 1205 top is located the inboard position department fixed mounting of installation deckle board 1301 and has water distribution shower 1302, the inboard top of collecting box 1205 evenly is provided with spray nozzle, and spray nozzle's top all runs through collecting box 1205 and links to each other with water distribution shower 1302, conveniently spray the processing through the dust of water distribution shower 1302 and spray nozzle in to collecting box 1205, water distribution shower 1302 one end is connected with inlet tube 1303, the inboard bottom of collecting box 1205 is provided with water conservancy diversion swash plate 1304, and collecting box 1205 limit end position in the lowest of water conservancy diversion swash plate 1304 is connected with blowdown fill 1305.

The bracing support 14 is fixedly welded at the two side edges of the drying cylinder 1, and the stress plate 15 is fixedly mounted at the position, located at the top of the supporting bedplate 8, of the bottom end of the bracing support 14, so that the stability of the drying cylinder 1 is ensured.

The working principle and the using process of the invention are as follows: in the practical application process of the agricultural seed surrounding type drying device, firstly, seeds to be dried are added into an upper charging barrel 2 through a feeding hopper 3, then a motor in a motor box 402 is started, a driving rotating shaft 403 is driven to rotate through the motor, a refining spiral blade 404, a spiral air distribution pipeline 405, a scattering conical disk 503 and a guide oblique strip 504 are driven to synchronously rotate through the rotation of the driving rotating shaft 403, after the seeds are contacted with the scattering conical disk 503, the seeds are scattered and scattered through the scattering conical disk 503, and meanwhile, the seeds on the surface of the scattering conical disk 503 are quickly and uniformly guided into a drying barrel 1 through the guide oblique strip 504 on the surface of the scattering conical disk 503, so that the seeds can enter the drying barrel 1 in a scattered state before being dried;

after the seeds enter the drying cylinder 1, the inside of the heating chamber 401 heats water to generate heat, the heat is used for heating and drying the seeds from the outside of the seeds, the water is heated to generate steam with heat, the stop valve 411 is opened to guide the heat steam into the built-in cavity 406 inside the driving rotating shaft 403 through the air duct 409, the heat steam is guided into the spiral air distribution pipeline 405 through the built-in cavity 406, the heat of the heat steam is used for heating and drying the seeds from the inside of the seeds through the spiral air distribution pipeline 405, so that when the seeds are actually dried, two heat supply modes are used for forming heating belts on two sides of the seeds, the seeds can be effectively dried, the seeds are driven to be conveyed and turned through the material distribution spiral blades 404, the seeds are further ensured to be effectively dried, and the acted steam is conveniently discharged through the exhaust pipe 407 and the exhaust hole 408 at the bottom end of the driving rotating shaft 403;

after seed drying treatment, seeds are conveniently and quickly guided into the screening box 1001 at the bottom of the supporting bedplate 8 through the feeding barrel 6, at the moment, the driving motor 1006 is started, the special-shaped bump 1005 is driven to rotate through the driving motor 1006, the rectangular frame 1002 is driven to slide up and down along the limiting movable groove 1003 through the special-shaped bump 1005, the vibration springs 1004 at two sides of the rectangular frame 1002 can be extruded in the sliding process of the rectangular frame 1002, the shaking amplitude of the rectangular frame 1002 is conveniently increased through the vibration springs 1004, and the rectangular frame 1002 can drive the screening box 1001 to float up and down more conveniently, so that the seeds in the screening box 1001 can be screened more thoroughly, the screening quality of the seeds is further ensured, and the screened seeds can be conveniently collected through the collecting hopper 1007;

when the screening box 1001 drives the seeds to carry out floating screening, the airflow fan 1201 is started, unidirectional airflow generated by the airflow fan 1201 is conveyed to one side of the screening box 1001 through the exhaust hood 1202, the airflow is conveyed into the gas collecting hood 1204 through the axial flow air hole 1203, impurities on the surface of the seeds can be separated from the seeds due to fluctuation of the impurities during screening of the seeds in the airflow conveying process, and the impurities can be quickly brought into the gas collecting hood 1204 by the airflow when the impurities float, so that the impurities on the surface of the seeds can be quickly collected, and the impurities can be conveniently and intensively collected through the collection box 1205;

after impurity gets into in the collecting box 1205, spray the processing through water distribution shower 1302 dust and impurity in the collecting box 1205 to this prevents that dust and impurity from overflowing the phenomenon that the emergence was collected inconveniently, further collection processing is carried out to impurity and dust to convenient follow-up through water conservancy diversion swash plate 1304 and blowdown fill 1305 simultaneously, and the simple operation has reduced the intensity of labour of manual cleaning.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A seed surrounding type drying device for agriculture comprises a drying drum (1), and is characterized in that: the top end of the drying cylinder (1) is connected with an upper charging barrel (2), the top end of the upper charging barrel (2) is connected with a feeding hopper (3), and a surrounding drying mechanism (4) is installed on the inner side of the drying cylinder (1);

the surrounding drying mechanism (4) comprises a heating chamber (401), a motor box (402), a driving rotating shaft (403), a refining spiral blade (404), a spiral air distribution pipeline (405), a built-in cavity (406), an exhaust pipe (407), an exhaust hole (408), an air guide pipe (409), a movable sleeve (410) and a stop valve (411);

the drying device is characterized in that a heating chamber (401) is formed in the inner side edge of the drying cylinder (1), a motor box (402) is fixedly mounted in the middle of the bottom end of the drying cylinder (1), a driving rotating shaft (403) is rotatably connected to the top end of the motor box (402) at the inner side of the drying cylinder (1), a refining spiral blade (404) is uniformly welded to the edge of the driving rotating shaft (403), a spiral air distribution pipeline (405) is spirally sleeved at the position, located at the bottom of the inner side of the refining spiral blade (404), of the outer side of the driving rotating shaft (403), a built-in cavity (406) is formed in the driving rotating shaft (403), an exhaust pipe (407) is connected to the position, close to the motor box (402), of the bottom end of the driving rotating shaft (403), an exhaust hole (408) is uniformly formed in the edge of the exhaust pipe (407), an air guide pipe (409) is connected to the top end of the driving rotating shaft (403), the air guide pipe (409) is connected with the top of the driving rotating shaft (403) through a movable sleeve (410), the end of the air guide pipe (409) is inserted into the heating chamber (401), and a stop valve (411) is mounted on the side of the air guide pipe (409);

a discharging barrel (6) is mounted at the position, located at the edge of the motor box (402), of the bottom end of the drying barrel (1), a mounting ring (7) is mounted at the edge of the bottom end of the drying barrel (1), the mounting ring (7) is fixedly mounted on the inner side of the top of the supporting bedplate (8), and supporting columns (9) are fixedly mounted at corners of the bottom end of the supporting bedplate (8); the uniform material scattering mechanism (5) is arranged on the inner side of the upper charging barrel (2), and the uniform material scattering mechanism (5) comprises a cross-shaped mounting frame (501), a movable connecting seat (502), a material scattering conical disc (503) and a material guiding oblique strip (504);

a cross mounting frame (501) is fixedly mounted on the inner side of the upper charging barrel (2), a movable connecting seat (502) is fixedly mounted at a position, corresponding to the driving rotating shaft (403), of the middle end of the inner side of the cross mounting frame (501), a bulk material conical disc (503) is fixedly connected to the position, located at the bottom end of the movable sleeve (410), of the top of the driving rotating shaft (403), and guide inclined strips (504) are mounted on the surface of the outer side of the bulk material conical disc (503) at equal angles;

the efficient screening mechanism (10) is mounted on the inner side of the bottom of the supporting bedplate (8), and the efficient screening mechanism (10) comprises a screening box (1001), a rectangular frame (1002), a limiting movable groove (1003), a vibrating spring (1004), a special-shaped bump (1005), a driving motor (1006) and a collecting hopper (1007);

the bottom of the supporting platen (8) is provided with a screening box (1001), the two side ends of the screening box (1001) are fixedly connected with a rectangular frame (1002), the inner side of the supporting column (9) close to the rectangular frame (1002) is provided with a limiting movable groove (1003), the two side parts of the rectangular frame (1002) are embedded in the limiting movable groove (1003), the top and the bottom of the inner side of the limiting movable groove (1003) are fixedly provided with a vibrating spring (1004), the inner side of the rectangular frame (1002) is provided with a special-shaped bump (1005), one end of the special-shaped bump (1005) is connected with an output shaft of a driving motor (1006), and the input end of the driving motor (1006) is electrically connected with the output end of an external power supply;

a mounting support (11) is fixedly mounted on one side edge of the supporting column (9), one end of a driving motor (1006) is fixedly connected with the mounting support (11), airflow impurity removal mechanisms (12) are arranged on two sides of the screening box (1001), and each airflow impurity removal mechanism (12) comprises an airflow fan (1201), an exhaust hood (1202), an axial flow air hole (1203), a gas collecting hood (1204) and a collecting box (1205);

the edge end of the mounting bracket (11) is fixedly provided with airflow fans (1201) at positions on two sides of a driving motor (1006), the input end of each airflow fan (1201) is electrically connected with the output end of an external power supply, the edge end of each airflow fan (1201) is fixedly provided with an exhaust hood (1202), the edges on two sides of the screening box (1001) are correspondingly provided with axial flow air holes (1203) in a penetrating manner, the edges of the supporting columns (9) are connected with gas collecting hoods (1204) at positions corresponding to the screening box (1001), and the edges of the gas collecting hoods (1204) are fixedly connected with a collecting box (1205);

a dust removal mechanism (13) is arranged in the collection box (1205), and the dust removal mechanism (13) comprises a mounting frame plate (1301), a water distribution spray pipe (1302), a water inlet pipe (1303), a flow guide inclined plate (1304) and a sewage discharge hopper (1305);

the collecting box (1205) top fixed mounting has installation deckle board (1301), the collecting box (1205) top is located the inboard position department fixed mounting of installation deckle board (1301) and has water distribution shower (1302), water distribution shower (1302) one end is connected with inlet tube (1303), the inboard bottom of collecting box (1205) is provided with water conservancy diversion swash plate (1304), and collecting box (1205) limit end is located water conservancy diversion swash plate (1304) lowest and is connected with blowdown fill (1305).

2. A seed surround type drying apparatus for agriculture according to claim 1, wherein: go up feed cylinder (2) bottom and be located heating chamber (401) top inboard position department fixedly connected with sealed lid, heating chamber (401) limit portion is connected with the delivery pipe.

3. A seed surround type drying apparatus for agriculture according to claim 1, wherein: screening case (1001) through the connection lug of its limit end with rectangular frame (1002) between fixed connection, the equal fixedly connected with vibrations spring (1004) of limit end of rectangular frame (1002).

4. A seed surround type drying apparatus for agriculture according to claim 1, wherein: support column (9) bottom inboard fixed mounting has the bearing support, and bearing support top position has placed collecting hopper (1007) in screening case (1001) bottom below position department.

5. A seed surround type drying apparatus for agriculture according to claim 1, wherein: the top of the inner side of the collection box (1205) is uniformly provided with spray nozzles, and the tops of the spray nozzles penetrate through the collection box (1205) and are connected with the water distribution spray pipes (1302).

6. A seed surround type drying apparatus for agriculture according to claim 1, wherein: the side ends of two sides of the drying cylinder (1) are fixedly welded with inclined strut supports (14), and the bottom ends of the inclined strut supports (14) are fixedly provided with stress plates (15) at the top positions of the supporting bedplate (8).

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