CN111912215A

CN111912215A - A drying device for nostoc sphaeroides

Info

Publication number: CN111912215A
Application number: CN202010742760.5A
Authority: CN
Inventors: 周丰; 易思富; 王卫; 文戈; 郭小玲; 彭锦桃; 侯丽华; 杨胜辉
Original assignee: Changde Yandi Biotechnology Co ltd; Hunan Yandi Biological Engineering Co ltd; Changde Yandi Muyuan Agricultural Development Co ltd
Current assignee: Changde Yandi Biotechnology Co ltd; Hunan Yandi Biological Engineering Co ltd; Changde Yandi Muyuan Agricultural Development Co ltd
Priority date: 2020-07-29
Filing date: 2020-07-29
Publication date: 2020-11-10

Abstract

The invention relates to the technical field of nostoc processing equipment, in particular to a nostoc drying device, which comprises a drying device main body, a humidity sensing module and a semiconductor refrigerating piece, wherein the drying device main body comprises a drying outer barrel and a drying inner barrel, a feeding hole is inserted into one side of the drying outer barrel, a discharging hole is formed in the other side of the drying outer barrel, a control panel is fixedly installed on one side of the drying outer barrel, a moisture exhaust pipe is formed in the top end of the drying outer barrel, and an exhaust fan is fixedly installed inside the moisture exhaust pipe. According to the invention, the cross rod on the surface of the opening can mainly assist air flow and nostoc sphaeroides to pass through by arranging the crank, the hollow rod, the rotating block, the first supporting rod, the opening, the cross rod, the second sliding block, the rotating rod and the second supporting rod, so that resistance is reduced, nostoc sphaeroides at the bottom of the drying inner cylinder can be driven to turn upwards, the nostoc sphaeroides in the drying inner cylinder is stirred, and the heating uniformity of nostoc sphaeroides is improved.

Description

A drying device for nostoc sphaeroides

Technical Field

The invention relates to the technical field of nostoc sphaeroids kutz processing equipment, in particular to a drying device for nostoc sphaeroids kutz.

Background

Nostoc sphaeroides, a nostoc globifolia, belongs to the family of candidiasis in the class of cyanobacteria, is a substance with high protein and high nutrition, has delicious taste and is deeply popular with the people. Nostoc sphaeroides is not a cereal, and is called "rice" because it is shaped like rice grains, rounded after drying, and larger than rice grains after cooking. Mainly distributed in the towns of the walking horses in Hubei Hefeng and attached to gravels or soil with yin and dampness in rice fields, shallow ponds, lakes and streams.

The nostoc sphaeroides is commonly called as henry, loosestrife and field edible fungus, is one of the traditional edible blue-green algae in China, has double functions of photosynthesis and nitrogen fixation, is a multi-cell population, has a common colloid sheath outside the population, is easy to form a layered structure, and is dark green; the diameter of the wild population can reach 2 cm, and the diameter of the artificially cultured nostoc can reach 5 cm.

The moisture content is very high after current nostoc sphaeroides gathers, want to let nostoc sphaeroides reach the condition of safety storage (do not milden and rot), must reduce nostoc sphaeroides's moisture content to the safe moisture that can go on storing in a warehouse, however, current nostoc sphaeroides's drying device is because the heated surface concentrates on stoving storehouse bottom for nostoc sphaeroides heated area is less, causes nostoc sphaeroides's stoving time longer, and drying efficiency is lower, and the homogeneity effect of being heated is not good, consequently, need design a drying device for nostoc sphaeroides in order to solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide a nostoc sphaeroides drying device, which solves the problems that the nostoc sphaeroides drying time is long, the drying efficiency is low and the heating uniformity effect is poor due to the fact that the heating surface of the conventional nostoc sphaeroides drying device is concentrated at the bottom of a drying bin, the nostoc sphaeroides heating area is small.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a drying device for nostoc sphaeroides, includes drying device main part, humidity sensing module and semiconductor refrigeration piece, the drying device main part includes stoving urceolus and stoving inner tube, the feed inlet has been inserted to one side of stoving urceolus, the discharge gate has been seted up to the opposite side of stoving urceolus, one side fixed mounting of stoving urceolus has control panel, the hydrofuge pipe has been seted up on the top of stoving urceolus, the inside fixed mounting of hydrofuge pipe has the exhaust fan, one side fixed mounting of stoving urceolus has the collection cooling body, the inside fixed mounting of stoving inner tube has rabbling mechanism, rabbling mechanism includes crank, hollow rod and branch No. one, one side fixed mounting of crank has the bull stick, one side of bull stick inserts hollow rod, one side fixed mounting of hollow rod has the turning block, the both sides fixed mounting of turning block has branch No. one, the outside slidable mounting of hollow pole is in slider No. two, one side fixed mounting that slider kept away from each other is in branch No. two, the horizontal pole is installed in the even rotation of one side that branch No. two are close to each other, the trompil has evenly been seted up on the surface of horizontal pole, one side of hollow pole and the inner wall fixed connection of stoving inner tube, the inside of stoving inner tube has inserted filter equipment, the top fixed mounting of stoving inner tube has all-round stoving mechanism.

Preferably, the surface of the outer wall of the drying inner cylinder is coated with a layer of heat-insulating cotton, and the inner wall of the drying outer cylinder is coated with a layer of heat-insulating material.

Preferably, all-round stoving mechanism includes fixed plate, a servo motor and No. two servo motors, the bottom fixed mounting of fixed plate has the fixed block one side of a servo motor is rotated and is installed the worm, one side of No. two servo motors is rotated and is installed the backup pad No. one, the inside rotation of a backup pad installs the gear, the both sides fixed mounting of a backup pad has the backup pad No. two, the bottom fixed mounting of gear has hot-blast fan, one side of fixed plate and the top fixed connection of stoving inner tube inner wall.

Preferably, the filter mechanism includes filter, slide bar, empty storehouse, sealing washer and No. three servo motor, No. three servo motor's one side is rotated through the pivot and is installed reciprocal lead screw, the bottom slidable mounting of reciprocal lead screw has a slider No. one, the slide bar has been cup jointed to the inside of slider No. one, the low side fixed mounting of slide bar has the push pedal, one side of reciprocal lead screw is rotated through the pivot and is installed on the inner wall of stoving inner tube.

Preferably, one side fixed mounting of filter has the handle, the infiltration hole has evenly been seted up on the surface of filter, the draw-in groove has been seted up to one side of filter, the filter transversely inserts the inside of stoving inner tube.

Preferably, the inside block of draw-in groove has the fixture block, the one end fixed mounting that the fixture block kept away from each other has the spring, one side fixed mounting of spring is in the inside of empty storehouse, the empty storehouse is seted up in the inner wall of stoving inner tube.

Preferably, the diameter of the penetration hole is five millimeters larger than the diameter of nostoc sphaeroides.

Preferably, the collecting and cooling mechanism comprises a baffle and a collecting box, a hollow pipe is arranged in the collecting box, a semiconductor refrigerating sheet is fixedly arranged in the hollow pipe, a switch faucet is inserted into one side of the collecting box, one side of the collecting box is fixedly connected with one side of the drying outer barrel, and the baffle is rotatably arranged at the bottom end of the discharge port through a rotating shaft.

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

1. through being provided with crank, hollow rod, turning block, branch, trompil, horizontal pole, No. two sliders, bull stick and No. two branches, can mainly can assist air current and nostoc sphaeroides to pass through with the horizontal pole on trompil surface, reduce the resistance, can drive the nostoc sphaeroides of stoving inner tube bottom upwards turn to stir the nostoc sphaeroides of stoving inner tube inside, improve nostoc sphaeroides uniformity of being heated.

2. Through being provided with No. three servo motor, the sealing washer, the handle, the filter, the infiltration hole, the push pedal, the slide bar, a slider, reciprocal lead screw, the draw-in groove, the empty storehouse, spring and fixture block, can drive the even paving of nostoc sphaeroides that the push pedal will fall into the filter on the bottom, prevent to pile up, the staff of being convenient for clears up remaining nostoc sphaeroides juice of filter and some impurity, can filter the large granule impurity of sneaking into nostoc sphaeroides inside on the filter simultaneously.

3. Through being provided with baffle, collecting box, switch tap, semiconductor refrigeration piece and air traffic control nostoc sphaeroides's outflow that can rotate baffle as required, the inside coolant liquid refrigeration of air traffic control nostoc sphaeroides is carried out to the semiconductor refrigeration piece for nostoc sphaeroides cools off fast, and the staff of being convenient for packs, improves work efficiency.

Drawings

FIG. 1 is a schematic sectional elevation view of the structure of the present invention;

FIG. 2 is a schematic front view of the filter mechanism of the present invention;

FIG. 3 is a schematic structural view of a front cross section of the stirring mechanism of the present invention;

FIG. 4 is an enlarged partial view of FIG. 2 at A according to the present invention;

FIG. 5 is a schematic view of the front view of the all-directional drying mechanism of the present invention;

FIG. 6 is a schematic side view of the all-directional drying mechanism of the present invention

Fig. 7 is a schematic front sectional view of the collecting and cooling mechanism of the present invention.

In the figure: 100. a drying device main body; 110. drying the outer barrel; 120. a feed inlet; 130. a control panel; 140. a humidity sensing module; 150. a moisture removal pipe; 160. an exhaust fan; 170. drying the inner barrel; 180. a discharge port; 200. an omnibearing drying mechanism; 210. a first servo motor; 211. a fixing plate; 212. a worm; 213. a second servo motor; 214. a first support plate; 215. a gear; 216. a second support plate; 217. a fixed block; 218. a hot air fan; 300. a filtering mechanism; 310. a third servo motor; 311. a seal ring; 312. a handle; 313. a filter plate; 314. a penetration hole; 315. pushing the plate; 316. a slide bar; 317. a first sliding block; 318. a reciprocating screw rod; 319. a card slot; 320. emptying the bin; 321. a spring; 322. a clamping block; 400. a stirring mechanism; 410. a crank; 411. a hollow shaft; 412. rotating the block; 413. a first strut; 414. opening a hole; 415. a cross bar; 416. a second sliding block; 417. a rotating rod; 418. a second strut; 500. a collection cooling mechanism; 510. a baffle plate; 511. a collection box; 512. opening and closing a faucet; 513. a semiconductor refrigeration sheet; 514. and (5) emptying the tube.

Detailed Description

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

Referring to fig. 1-7, an embodiment of the present invention is shown:

a drying device for nostoc sphaeroides comprises a drying device main body 100, a humidity sensing module 140 and a semiconductor refrigerating piece 513, wherein the humidity sensing module 140 and the semiconductor refrigerating piece 513 used in the drying device main body 100 are of types which can be directly purchased in the market, and the specific working principle of the humidity sensing module 140 and the semiconductor refrigerating piece 513 is well known in the prior art, so that the description is omitted, the drying device main body 100 comprises a drying outer barrel 110 and a drying inner barrel 170, a feeding hole 120 is inserted into one side of the drying outer barrel 110, a discharging hole 180 is formed in the other side of the drying outer barrel 110, a control panel 130 is fixedly installed on one side of the drying outer barrel 110, a humidity exhaust pipe 150 is formed in the top end of the drying outer barrel 110, an exhaust fan 160 is fixedly installed inside the humidity exhaust pipe 150, a collecting and cooling mechanism 500 is fixedly installed on one side of the drying outer barrel 110, a stirring mechanism 400 is fixedly installed inside, The drying device comprises a hollow rod 411 and a first supporting rod 413, a rotating rod 417 is fixedly installed on one side of a crank 410, a hollow rod 411 is inserted into one side of the rotating rod 417, a rotating block 412 is fixedly installed on one side of the hollow rod 411, a first supporting rod 413 is fixedly installed on two sides of the rotating block 412, the outer side of the hollow rod 411 is slidably installed on a second sliding block 416, one mutually far away side of the second sliding block 416 is fixedly installed on a second supporting rod 418, a cross rod 415 is uniformly rotatably installed on one mutually close side of the second supporting rod 418, open holes 414 are uniformly formed in the surface of the cross rod 415, one side of the hollow rod 411 is fixedly connected with the inner wall of the drying inner cylinder 170, a filtering mechanism 300 is inserted into the drying inner cylinder 170, an omnibearing drying mechanism 200 is fixedly installed at the top end of the drying inner cylinder 170, the rotating crank 410 is clockwise to drive the rotating block 412 to rotate, and, no. two branch 418 slides in the spout is inside through No. two sliders 416 in hollow rod 411's the outside, drives the nostoc sphaeroides of drying inner tube 170 bottom and upwards turns, and horizontal pole 415 rotates and installs between a branch 413 and No. two branch 418, and horizontal pole 415 on trompil 414 surface mainly can assist air current and nostoc sphaeroides to pass through simultaneously, reduces the resistance to stir the nostoc sphaeroides of drying inner tube 170, improve nostoc sphaeroides uniformity of being heated.

Further, the outer wall surface cladding of stoving inner tube 170 has the one deck to keep warm cotton, and the inner wall cladding of stoving urceolus 110 has the one deck thermal insulation material, and the outer wall heat preservation cotton of stoving inner tube 170 can effectively reduce heat consumption, and is energy-concerving and environment-protective, and stoving urceolus 110 thermal insulation material is that the tinfoil material can effectively reduce the heat loss, plays good adiabatic effect, prevents that the outer wall of stoving urceolus 110 from overheated scald the staff.

Further, the omnibearing drying mechanism 200 comprises a fixing plate 211, a first servo motor 210 and a second servo motor 213, wherein a fixing block 217 is fixedly arranged at the bottom end of the fixing plate 211, a worm 212 is rotatably arranged at one side of the first servo motor 210, a first supporting plate 214 is rotatably arranged at one side of the second servo motor 213, a gear 215 is rotatably arranged inside the first supporting plate 214, a second supporting plate 216 is fixedly arranged at two sides of the first supporting plate 214, a hot air fan 218 is fixedly arranged at the bottom end of the gear 215, one side of the fixing plate 211 is fixedly connected with the top end of the inner wall of the drying inner cylinder 170, the first servo motor 210 rotates to drive the worm 212 to rotate, a latch on the worm 212 is matched with a latch on the gear 215, and because the second supporting plate 216 is connected with the central shaft of the gear 215, the gear 215 rotates to drive the second supporting plate 216 to swing back and forth like, the second servo motor 213 rotates to drive the first support plate 214 to swing back and forth, which is perpendicular to the moving direction of the first servo motor 210, the first support plate 214 drives the low-end hot air fan 218 to move back and forth, and the hot air fan 218 rotates three hundred sixty degrees, so that the effect of fast drying is achieved.

Further, the filtering mechanism 300 comprises a filtering plate 313, a sliding rod 316, an empty bin 320, a sealing ring 311 and a third servo motor 310, a reciprocating screw rod 318 is rotatably installed on one side of the third servo motor 310 through a rotating shaft, a sliding block 317 is slidably installed at the bottom end of the reciprocating screw rod 318, the sliding rod 316 is sleeved inside the sliding block 317, a pushing plate 315 is fixedly installed at the lower end of the sliding rod 316, one side of the reciprocating screw rod 318 is rotatably installed on the inner wall of the drying inner cylinder 170 through the rotating shaft, nostoc is poured into the drying inner cylinder 170 through the feeding hole 120, the third servo motor 310 rotates to drive the reciprocating screw rod 318 to rotate, the sliding block 317 reciprocates on the reciprocating screw rod 318, the pushing plate 315 on the bottom end is driven to evenly lay out nostoc falling into the filtering plate 313, and accumulation is prevented.

Further, one side fixed mounting of filter 313 has handle 312, and the infiltration hole 314 has evenly been seted up on the surface of filter 313, and draw-in groove 319 has been seted up to one side of filter 313, and filter 313 transversely inserts the inside of drying inner tube 170, carries out preliminary stoving through all-round stoving mechanism 200, and through stoving nostoc commune shrink, nostoc commune that the granule diminishes falls into stoving inner tube 170 bottom through the inside infiltration hole 314 of filter 313.

Further, the inside block of draw-in groove 319 has fixture block 322, the one end fixed mounting that fixture block 322 kept away from each other has spring 321, one side fixed mounting of spring 321 is in the inside of empty storehouse 320, empty storehouse 320 is seted up in the inner wall of stoving inner tube 170, extract filter 313 like the outside, fixture block 322 receives the extrusion, thereby extrude inside spring 321, fixture block 322 indents the inside of empty storehouse 320, can extract filter 313, be convenient for the staff clear up remaining nostoc sphaeroides juice and some impurity of filter 313, wash filter 313, insert the normal position with filter 313, fixture block 322 receives the extrusion back, go into in draw-in groove 319 under the effect of spring 321.

Further, the diameter ratio of infiltration hole 314 is five millimeters bigger than nostoc sphaeroides diameter, and the nostoc sphaeroides of being convenient for falls into next link and dries, can filter the large granule impurity of sneaking into nostoc sphaeroides inside on filter 313 simultaneously.

Further, collect cooling body 500 including baffle 510 and collecting box 511, empty pipe 514 has been seted up to the inside of collecting box 511, the inside fixed mounting of empty pipe 514 has semiconductor refrigeration piece 513, one side of collecting box 511 inserts installs switch tap 512, one side of collecting box 511 and the one side fixed connection of stoving urceolus 110, baffle 510 rotates through the pivot and installs the bottom at discharge gate 180, the nostoc sphaeroides who has processed flows through discharge gate 180, rotating baffle 510, open the opening, the outflow of the angle control nostoc sphaeroides that can rotate baffle 510 as required, semiconductor refrigeration piece 513 is with the refrigeration of the inside coolant liquid of empty pipe 514, make nostoc sphaeroides cool off fast, be convenient for the staff packing, and the work efficiency is improved.

The working principle is as follows: before the device is used, firstly, the device is externally connected with a power supply, so that the device can normally work, a first servo motor 210 rotates to drive a worm 212 to rotate, a latch on the worm 212 is matched with a latch on a gear 215, a second support plate 216 is connected with a central shaft of the gear 215, the gear 215 rotates to drive the second support plate 216 to swing back and forth like a pendulum, so that a hot air fan 218 is driven to move back and forth, a second servo motor 213 rotates to drive the first support plate 214 to swing back and forth to be vertical to the movement direction of the first servo motor 210, the first support plate 214 drives the hot air fan 218 at the lower end to move back and forth, an air heat energy pump transmits heat energy to the hot air fan 218 through a pipeline, the hot air fan 218 rotates by three hundred and sixty degrees to achieve the effect of quick drying, nostoc is poured into a drying inner barrel 170 through a feed inlet 120, and preliminary drying is, the third servo motor 310 rotates to drive the reciprocating screw rod 318 to rotate, the first sliding block 317 reciprocates on the reciprocating screw rod 318 to drive the push plate 315 at the bottom end to evenly spread the nostoc sphaeroids falling into the filter plate 313, the nostoc sphaeroids dried can shrink, the nostoc sphaeroids with smaller particles fall into the bottom of the drying inner cylinder 170 through the permeation hole 314 in the filter plate 313, the crank 410 is clockwise rotated to drive the rotating block 412 to rotate, the rotating block 412 drives the first supporting rod 413 and the second supporting rod 418 to clockwise rotate, the second supporting rod 418 slides in the sliding groove through the second sliding block 416 outside the hollow rod 411 to drive the nostoc sphaeroids at the bottom of the drying inner cylinder 170 to upwards turn, the cross rod 415 is rotatably installed between the first supporting rod 413 and the second supporting rod 418, meanwhile, the cross rod 415 on the surface of the opening 414 mainly enables auxiliary air flow and the nostoc sphaeroids to pass through, and accelerates the stirring of the nostoc spha, the exhaust fan 160 in the exhaust wet pipe 150 exhausts the water vapor in the drying inner drum 170 from the exhaust wet pipe 150.

Through the control of humidity sensing module 140 to nostoc sphaeroides, control panel 130 knows the inside nostoc sphaeroides stoving degree of stoving inner tube 170, nostoc sphaeroides that will process flows through discharge gate 180, rotating baffle 510, open the opening, the outflow of the angle control nostoc sphaeroides of rotating baffle 510 as required, semiconductor chilling plate 513 refrigerates the inside coolant liquid of hollow tube 514, make nostoc sphaeroides cool off fast, after work is finished, can extract filter 313 like the outside and wash, fixture block 322 receives the extrusion, thereby extrude inside spring 321, fixture block 322 indents into the inside of empty storehouse 320, can extract filter 313, wash filter 313, insert the normal position with filter 313, fixture block 322 receives the extrusion back, block 319 in under the effect of spring 321.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a drying device for nostoc sphaeroides, includes drying device main part (100), humidity sensing module (140) and semiconductor refrigeration piece (513), its characterized in that: the drying device comprises a drying outer barrel (110) and a drying inner barrel (170), wherein a feed inlet (120) is inserted into one side of the drying outer barrel (110), a discharge outlet (180) is formed in the other side of the drying outer barrel (110), a control panel (130) is fixedly mounted on one side of the drying outer barrel (110), a dehumidifying pipe (150) is formed in the top end of the drying outer barrel (110), an exhaust fan (160) is fixedly mounted inside the dehumidifying pipe (150), a collecting and cooling mechanism (500) is fixedly mounted on one side of the drying outer barrel (110), a stirring mechanism (400) is fixedly mounted inside the drying inner barrel (170), the stirring mechanism (400) comprises a crank (410), a hollow rod (411) and a support rod (413), a rotating rod (417) is fixedly mounted on one side of the crank (410), and the hollow rod (411) is inserted into one side of the rotating rod (417), one side fixed mounting of hollow pole (411) has rotor block (412), the both sides fixed mounting of rotor block (412) has branch (413) No. one, the outside slidable mounting of hollow pole (411) is in slider (416) No. two, one side fixed mounting that slider (416) kept away from each other is in branch (418) No. two, No. two one side that branch (418) are close to each other evenly rotates and installs horizontal pole (415), trompil (414) have evenly been seted up on the surface of horizontal pole (415), one side of hollow pole (411) and the inner wall fixed connection of drying inner tube (170), the inside of drying inner tube (170) has inserted filtering mechanism (300), the top fixed mounting of drying inner tube (170) has all-round drying mechanism (200).

2. The drying device for nostoc sphaeroides according to claim 1, characterized in that: the outer wall surface of the drying inner cylinder (170) is coated with a layer of heat preservation cotton, and the inner wall of the drying outer cylinder (110) is coated with a layer of heat insulation material.

3. The drying device for nostoc sphaeroides according to claim 1, characterized in that: all-round stoving mechanism (200) is including fixed plate (211), servo motor (210) and No. two servo motor (213), the bottom fixed mounting of fixed plate (211) has fixed block (217) one side of servo motor (210) is rotated and is installed worm (212), one side of No. two servo motor (213) is rotated and is installed backup pad (214), the internal rotation of backup pad (214) installs gear (215), the both sides fixed mounting of backup pad (214) has backup pad (216) No. two, the bottom fixed mounting of gear (215) has hot-blast fan (218), the top fixed connection of one side of fixed plate (211) and stoving inner tube (170) inner wall.

4. The drying device for nostoc sphaeroides according to claim 1, characterized in that: filter equipment (300) includes filter (313), slide bar (316), empty storehouse (320), sealing washer (311) and No. three servo motor (310), one side of No. three servo motor (310) is rotated through the pivot and is installed reciprocal lead screw (318), the bottom slidable mounting of reciprocal lead screw (318) has slider (317) No. one, slide bar (316) has been cup jointed to the inside of slider (317), the low side fixed mounting of slide bar (316) has push pedal (315), one side of reciprocal lead screw (318) is installed on the inner wall of stoving inner tube (170) through the pivot rotation.

5. The drying device for nostoc sphaeroides according to claim 4, wherein: one side fixed mounting of filter (313) has handle (312), infiltration hole (314) have evenly been seted up on the surface of filter (313), draw-in groove (319) have been seted up to one side of filter (313), filter (313) transversely insert the inside of stoving inner tube (170).

6. The drying device for nostoc sphaeroides according to claim 5, wherein: inside block (322) of block slot (319) inside block, the one end fixed mounting that blocks (322) kept away from each other has spring (321), one side fixed mounting of spring (321) is in the inside of empty bin (320), empty bin (320) are seted up in the inner wall of stoving inner tube (170).

7. The drying device for nostoc sphaeroides according to claim 5, wherein: the diameter of the penetration hole (314) is five millimeters larger than the diameter of the nostoc sphaeroides.

8. The drying device for nostoc sphaeroides according to claim 1, characterized in that: collect cooling body (500) including baffle (510) and collecting box (511), empty pipe (514) have been seted up to the inside of collecting box (511), the inside fixed mounting of empty pipe (514) has semiconductor refrigeration piece (513), one side of collecting box (511) is inserted and is installed switch tap (512), one side of collecting box (511) and one side fixed connection of stoving urceolus (110), baffle (510) are rotated through the pivot and are installed the bottom at discharge gate (180).