CN112006302A - Cyrtymenia Sparsa drying device - Google Patents

Abstract

The invention discloses a sargassum fusiforme drying device which comprises an air drying frame with a supporting function, a transmission mechanism, a plurality of expansion pieces matched with sargassum fusiforme, an air supply mechanism and a conveying mechanism, wherein the air drying frame is provided with a supporting function; every the surface of extensible member is covered with the through-hole, every the both ends of extensible member are all movable to be set up on the air-drying frame, drive mechanism sets up in one side of air-drying frame and can drive a plurality of extensible member simultaneously and accomplish flexible operation, air supply mechanism sets up in the opposite side of air-drying frame and can carry out the air supply operation to in a plurality of extensible member simultaneously, conveying mechanism is located the below of a plurality of extensible members and sets up on the air-drying frame for accept a plurality of the Sargassum fusiforme that drops on the telescopic link, and convey to one end. The invention has the following advantages and effects: the Cyrtymenia Sparsa drying device can dry Cyrtymenia Sparsa and collect dried Cyrtymenia Sparsa.

Description

Cyrtymenia Sparsa drying device

Technical Field

The invention relates to a drying device, in particular to a sargassum fusiforme drying device.

Background

The sargassum fusiforme is a tawny algae plant growing on low-tide rock, contains various amino acids and trace elements necessary for human bodies, and has high nutritional value. The traditional drying treatment of the sargassum fusiforme mainly comprises the steps of hanging the sargassum fusiforme on an airing rack, and airing the sargassum fusiforme by utilizing sunlight until the water content does not exceed a specified value, wherein the airing technology is laggard and the airing time is long; in addition, there is a sargassum fusiforme drying technology in the prior art, the sargassum fusiforme is placed on a drying net of a drying chamber and dried by hot air, the drying mode can not realize rapid collection of the dried sargassum fusiforme, and the drying is uneven, so the sargassum fusiforme drying technology needs to be improved.

Disclosure of Invention

The invention aims to provide a sargassum fusiforme drying device which can dry sargassum fusiforme and can collect the dried sargassum fusiforme.

The technical purpose of the invention is realized by the following technical scheme: a Cyrtymenia Sparsa drying device comprises an air drying frame with supporting effect, a transmission mechanism, a plurality of expansion pieces matched with Cyrtymenia Sparsa, an air supply mechanism and a conveying mechanism; every the surface of extensible member is covered with the through-hole, every the both ends of extensible member are all movable to be set up on the air-drying frame, drive mechanism sets up in one side of air-drying frame and can drive a plurality of extensible member simultaneously and accomplish flexible operation, air supply mechanism sets up in the opposite side of air-drying frame and can carry out the air supply operation to in a plurality of extensible member simultaneously, conveying mechanism is located the below of a plurality of extensible members and sets up on the air-drying frame for accept a plurality of the Sargassum fusiforme that drops on the telescopic link, and convey to one end.

The invention is further provided with: each telescopic piece comprises a primary telescopic rod, a secondary telescopic rod, a primary spring, a secondary spring, a sliding block and a connecting wire; the air supply device comprises a first telescopic rod, a second telescopic rod, an air supply mechanism, a first baffle plate, a second baffle plate, a first through hole and a second through hole, wherein the first telescopic rod and the second telescopic rod are hollow inside and are provided with through holes on surfaces, the outer diameter of the first telescopic rod is matched with the inner diameter of the second telescopic rod, one end of the first telescopic rod is matched with the air supply mechanism, the other end of the first telescopic rod is provided with the first baffle plate, the first baffle plate is positioned in the second telescopic rod, the first baffle plate is provided with the first through hole which can be communicated with the second;

the one end that the one-level telescopic link was kept away from to the second grade telescopic link is provided with the second baffle, it is provided with the second conducting hole to run through on the second baffle, the both ends of one-level spring are connected with first baffle and second baffle respectively, the one end of connecting wire passes second conducting hole and first baffle fixed connection, the other end of connecting wire is connected with drive mechanism, drive mechanism can receive and release the connecting wire.

The invention is further provided with: when the transmission mechanism tightens the connecting wire, the first-stage telescopic rod moves towards the inside of the second-stage telescopic rod, and the first-stage spring is in a compressed state; when the transmission mechanism releases the connecting line, the first-stage telescopic rod moves towards the direction far away from the second-stage telescopic rod under the action of the elastic potential energy of the first-stage spring until the first-stage telescopic rod is matched with the air supply mechanism.

The invention is further provided with: the transmission mechanism comprises a servo motor, the output end of the servo motor is provided with a driving wheel, one side of the driving wheel is provided with a synchronous conveying belt, and the synchronous conveying belt is respectively matched with a plurality of independently arranged driven wheels. The number of the driving wheel and the plurality of driven wheels is required to be matched with the number of the telescopic pieces, and the driving wheel and one side of the plurality of driven wheels are provided with wire wheels for winding connecting wires.

The invention is further provided with: a through groove is formed in one side of the secondary telescopic rod, a sliding block is arranged in the through groove, one end, outside the secondary telescopic rod, of the sliding block can stir the sargassum fusiforme hung on the surface of the secondary telescopic rod to one side, one end, inside the secondary telescopic rod, of the sliding block is fixedly connected with a secondary spring, and the other end of the secondary spring is fixedly connected with a second baffle plate;

one end of the connecting wire wound on the wire wheel penetrates through the second via hole to be fixedly connected with the first baffle, and the other end of the connecting wire penetrates through the second via hole to be fixedly connected with one end of the secondary spring, which is far away from the second baffle; when the wire wheel rotates forwards, one end of the connecting wire drives the first-stage telescopic rod to move towards the inside of the second-stage telescopic rod, and the first-stage spring is in a compressed state; the sliding block connected with the other end of the connecting line moves towards the direction close to the primary telescopic rod under the action of the elastic potential energy of the secondary spring.

The invention is further provided with: the outer diameter of the second-stage spring is larger than that of the first-stage spring and is sleeved outside the first-stage spring, so that the sliding block connected with the second-stage spring is not in contact with the first-stage spring.

The invention is further provided with: the air supply mechanism comprises a plurality of nozzles arranged on the air drying frame, and when one end of each primary telescopic rod is clamped with one nozzle, the other end of each primary telescopic rod and the secondary telescopic rod are in a sleeved connection state; and the plurality of nozzles are connected with the same air supply piece.

The invention is further provided with: the conveying mechanism comprises a conveying belt and a driving part; the conveyer belt can receive the sargassum fusiforme falling from the plurality of telescopic pieces and convey the sargassum fusiforme from one end to the other end of the conveying mechanism under the operation of the driving piece.

The invention is further provided with: the surface of the conveyor belt is provided with a plurality of water filtering holes.

The invention is further provided with: the length of the first-stage telescopic rod is smaller than that of the second-stage telescopic rod.

In conclusion, the invention has the following beneficial effects: in practical application, the sargassum fusiforme to be dried is hung on the expansion piece, and the air is supplied into the expansion piece by the air supply mechanism at the moment, and is supplied to the sargassum fusiforme through the through holes on the surface of the expansion piece, so that the sargassum fusiforme is dried. In addition, still utilize drive mechanism to drive a plurality of extensible member simultaneously and retract, make originally hang the Sargassum fusiforme after the air-dried that finishes on the extensible member drop to conveying mechanism on. And conveying the air-dried sargassum fusiforme to the next process under the transportation of the conveying mechanism.

Drawings

FIG. 1 is a schematic structural view of a drying apparatus for sargassum fusiforme according to a first embodiment;

FIG. 2 is a schematic view of the telescoping member and nozzle of FIG. 1 in an engaged configuration;

FIG. 3 is a schematic view of the expansion member and the connecting wire in FIG. 2;

FIG. 4 is a schematic view of a portion of the structure of the primary telescoping pole of FIG. 2;

fig. 5 is a schematic view of a part of the structure of the two-stage telescopic rod in fig. 2.

Reference numerals: 1. an air drying rack; 2. a transmission mechanism; 3. a telescoping member; 4. an air supply mechanism; 5. a conveying mechanism; 6. a through hole; 7. a first-stage telescopic rod; 8. a secondary telescopic rod; 9. a primary spring; 10. a secondary spring; 11. a slider; 12. a connecting wire; 13. a first baffle plate; 14. a first via hole; 15. a second baffle; 16. a second via hole; 17. a servo motor; 18. a driving wheel; 19. a synchronous conveyor belt; 20. a driven wheel; 21. a through groove; 22. a nozzle; 23. a conveyor belt; 24. a drive member; 25. and (5) filtering the water.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-5, a drying device for sargassum fusiforme comprises an air drying frame 1 with a supporting function, a transmission mechanism 2, a plurality of expansion pieces 3 matched with the sargassum fusiforme, an air supply mechanism 4 and a conveying mechanism 5; the surface of every extensible member 3 is covered with through-hole 6, the equal activity in both ends of every extensible member 3 sets up on air-drying frame 1, drive mechanism 2 sets up in one side of air-drying frame 1 and can drive a plurality of extensible member 3 simultaneously and accomplish flexible operation, air supply mechanism 4 sets up in air-drying frame 1's opposite side and can carry out the air supply operation to a plurality of extensible member 3 simultaneously, conveying mechanism 5 is located the below of a plurality of extensible members 3 and sets up on air-drying frame 1, be used for accepting the hizikia fusiforme who drops on a plurality of telescopic links, and convey to one end.

Specifically, the hole making tool 1 has the functions of making holes, storing and accurately throwing expansive soil. The buffer spring 13 can buffer the vibration of the drill bit 15 in the working state when the motor 12 is started, and the experience of the gripping handle 14 in the working state is improved.

Specifically, the transmission mechanism 2 and the air supply mechanism 4 are respectively positioned at two sides of the air drying frame 1.

In practical application, the sargassum fusiforme to be dried is hung on the expansion piece 3, the air is supplied into the expansion piece 3 by the air supply mechanism 4 at the moment, and the air is supplied to the sargassum fusiforme through the through holes 6 on the surface of the expansion piece 3, so that the sargassum fusiforme is dried. In addition, still utilize drive mechanism 2 to drive a plurality of extensible member 3 simultaneously and retract, make originally hang on extensible member 3 and air-dried the postern sargassum fusiforme that finishes drop to conveying mechanism 5. The air-dried sargassum fusiforme is conveyed to the next process under the transportation of the conveying mechanism 5.

Furthermore, each telescopic part 3 comprises a primary telescopic rod 7, a secondary telescopic rod 8, a primary spring 9, a secondary spring 10, a sliding block 11 and a connecting wire 12; one-level telescopic link 7 and second grade telescopic link 8 all are inside cavity, the surface is covered with through-hole 6 forms, wherein the external diameter of one-level telescopic link 7 and second grade telescopic link 8's internal diameter looks adaptation for one-level telescopic link 7 can with the 8 cooperation of second grade telescopic link and can stretch the activity inside and outside second grade telescopic link 8.

In this embodiment, the hollow inner parts of the first and second telescopic rods 7 and 8 can reduce their own weight and can serve as a wind transportation channel. Specifically, the through-hole 6 on surface can release the wind in one-level telescopic link 7 and the second grade telescopic link 8 to the outside, carries out the drying to hanging the sargassum fusiforme on one-level telescopic link 7 and second grade telescopic link 8, through contracting one-level telescopic link 7 to in the second grade telescopic link 8 to let hang the sargassum fusiforme on one-level telescopic link 7 and drop to conveying mechanism 5 on.

One end of the first-stage telescopic rod 7 is matched with the air supply mechanism 4, the other end of the first-stage telescopic rod is provided with a first baffle 13, and the first baffle 13 is positioned in the second-stage telescopic rod 8. The first baffle 13 and the primary telescopic rod 7 are fixedly connected to form a whole, a first through hole 14 which can be communicated with the secondary telescopic rod 8 is formed in the first baffle 13, and the first through hole 14 can guide the air conveyed by the air supply mechanism 4 into the secondary telescopic rod 8.

One end of the second-stage telescopic rod 8, which is far away from the first-stage telescopic rod 7, is provided with a second baffle plate 15, the second baffle plate 15 and the second-stage telescopic rod 8 are fixedly connected to form a whole, a second via hole 16 penetrates through the second baffle plate 15, and two ends of the first-stage spring 9 are respectively connected with the first baffle plate 13 and the second baffle plate 15. Specifically, the first baffle 13 and the second baffle 15 may be fixedly connected or abutted against the primary spring 9.

One end of the connecting wire 12 passes through the second via hole 16 to be fixedly connected with the first baffle 13, the other end of the connecting wire 12 is connected with the transmission mechanism 2, and the transmission mechanism 2 can receive and release the connecting wire 12; when the transmission mechanism 2 tightens the connecting wire 12, the first-stage telescopic rod 7 moves towards the inside of the second-stage telescopic rod 8, and the first-stage spring 9 is in a compressed state; when the transmission mechanism 2 releases the connecting wire 12, the first-stage telescopic rod 7 moves towards the direction far away from the second-stage telescopic rod 8 under the action of the elastic potential energy of the first-stage spring 9 until the first-stage telescopic rod is matched with the air supply mechanism 4.

In the application, the transmission mechanism 2 finishes the retraction of the connecting wire 12, and then the extension and retraction of the first-stage telescopic rod 7 are realized. Because the external diameter of one-level telescopic link 7 is less than the external diameter of two-level telescopic link 8, consequently two-level telescopic link 8 has constituted the step face (the attached drawing does not mark) that can offset the hizikia fusiforme towards the terminal surface of one-level telescopic link 7, when one-level telescopic link 7 contracts back, then above-mentioned step face can exert reverse effort to hanging the air-dried back hizikia fusiforme on one-level telescopic link 7, makes originally lie in the air-dried back hizikia fusiforme on one-level telescopic link 7 and drops, to conveying mechanism 5 on.

Further, the transmission mechanism 2 comprises a servo motor 17, an output end of the servo motor 17 is provided with a driving wheel 18, one side of the driving wheel 18 is provided with a synchronous transmission belt 19, and the synchronous transmission belt is respectively matched with a plurality of independently arranged driven wheels 20. It should be noted that the number of the driving wheel 18 and the plurality of driven wheels 20 is matched with the number of the telescopic members 3, specifically: the number of the telescopic pieces 3 is equal to the number of the driving wheel 18 and the driven wheels 20. The driving pulley 18, and the driven pulleys 20 are each provided at one side thereof with a reel (not shown) for winding the connecting wire 12.

In this application, through servo motor 17 forward rotation to the equal forward rotation of line wheel that control and action wheel 18, a plurality of driven wheel 20 are connected is in order to accomplish accomodating connecting wire 12, thereby removes in towards second grade telescopic link 8 through connecting wire 12 pulling one-level telescopic link 7, and one-level spring 9 is in compression state this moment.

When the reverse rotation through servo motor 17 to the equal reverse rotation of a plurality of line wheels of final control, accomplish the release to connecting wire 12, under the elastic potential energy effect of one-level spring 9 this moment, promote one-level telescopic link 7 and promote towards the direction of keeping away from second grade telescopic link 8.

Further, one side of second grade telescopic link 8 has been seted up and has been run through groove 21, and it has slider 11 to run through groove 21 and embed, and slider 11 can stir one side in the one end of second grade telescopic link 8 outside to the sargassum fusiforme that hangs on second grade telescopic link 8 surface, and is concrete, and slider 11 stirs one side towards one-level telescopic link 7 to the stir direction of sargassum fusiforme. One end of the sliding block 11 in the secondary telescopic rod 8 is fixedly connected with the secondary spring 10, and the other end of the secondary spring 10 is fixedly connected with the second baffle 15.

One end of the connecting wire 12 wound on the reel passes through the second via hole 16 to be fixedly connected with the first baffle 13, and the other end of the connecting wire passes through the second via hole 16 to be fixedly connected with one end of the secondary spring 10 departing from the second baffle 15. When the wire wheel rotates forwards, one end of the connecting wire 12 drives the first-stage telescopic rod 7 to move towards the inside of the second-stage telescopic rod 8, and the first-stage spring 9 is in a compressed state; the slide block 11 connected with the other end of the connecting wire 12 moves towards the direction close to the primary telescopic rod 7 under the action of the elastic potential energy of the secondary spring 10.

It should be noted that: when the connecting wire 12 wound on the reel rotates in the forward direction or the reverse direction, the connecting wires 12 at the two ends are respectively in a winding state and a unwinding state, namely one end is wound and the other end is unwound. Therefore, when the wire wheel rotates in the forward direction, one end of the connecting wire 12 drives the first telescopic rod 7 to move towards the inside of the second telescopic rod 8 (i.e. the connecting wire 12 at the end is in a 'retracted' state). And the connecting line 12 at the other end is in a 'release' state, and at the moment, the sliding block 11 moves towards the direction close to the primary telescopic rod 7 under the action of the elastic potential energy of the secondary spring 10.

Further, the outer diameter of the second-stage spring 10 is larger than the outer diameter of the first-stage spring 9 and is sleeved outside the first-stage spring 9, so that the sliding block 11 connected with the second-stage spring 10 is not in contact with the first-stage spring 9, and the second-stage spring 10 pushes the sliding block 11 to move without affecting the extension and contraction of the first-stage spring 9.

Further, in the present application, the connecting line 12 is made of a material without elastic deformation, such as a steel wire rope, so that the length of the connecting line 12 is kept constant under the action of an external force.

Furthermore, a plurality of the telescopic pieces 3 are linearly arranged on the air drying frame 1.

Further, air supply mechanism 4 is including setting up a plurality of nozzles 22 on air-drying rack 1, and when the one end of every one-level telescopic link 7 and a nozzle 22 joint each other, the other end and the second grade telescopic link 8 of every one-level telescopic link 7 maintain the state of cup jointing each other. The nozzles 22 are connected to the same air supply member, which is prior art and will not be described in detail here.

Firstly, the application emphasizes that no limit exists between the first-stage telescopic rod 7 and the second-stage telescopic rod 8, that is, the two are substantially sleeved with each other, and therefore, the two can be separated from each other theoretically. And this application cup joints the support that realizes one-level telescopic link 7 through the one end with one-level telescopic link 7 and nozzle 22 joint, the other end and second grade telescopic link 8. The air supply piece is as the wind regime of this device, can carry the flexible piece 3 in with outside wind, improves the efficiency and the quality of the dry sargassum fusiforme of drying device.

Further, the conveying mechanism 5 comprises a conveying belt 23 and a driving member 24; the conveyer belt 23 receives the sargassum fusiforme dropped from the plurality of telescopic members 3 and transports the sargassum fusiforme from one end of the transporting mechanism 5 to the other end thereof by the operation of the driving member 24 until the sargassum fusiforme is transported to the outside of the air drying rack 1, and a plurality of water filtering holes 25 are formed on the surface of the conveyer belt 23 to filter free water dropped from the sargassum fusiforme.

Further, the length of one-level telescopic link 7 is less than the length of second grade telescopic link 8, conveniently hides one-level telescopic link 7 in second grade telescopic link 8 and will hang the above-mentioned sargassum fusiforme and squeeze out when treating that one-level telescopic link 7 contracts.

Further, the driving wheel 18 and the plurality of driven wheels 20 are rotatably disposed on the air drying rack 1.

In the application, the connecting wire 12 with a fixed length is wound on the transmission mechanism 2, and the transmission mechanism 2 can operate in the forward and reverse directions, so that the winding and unwinding of the connecting wire 12 can be realized, and the compression and the extension of the two springs can be respectively controlled, and the first-stage telescopic rod 7 and the sliding block 11 can be controlled to move in opposite directions or move away from each other; several telescopic elements 3 make it possible to dry several sargassum fusiforme at a time.

The primary spring 9 can completely push the primary telescopic rod 7 out of the secondary telescopic rod 8 and completely retract the primary telescopic rod 7 into the secondary telescopic rod 8; the secondary spring 10 enables the slider 11 to slide within a range set by the through groove 21.

The specific embodiments are only for explaining the present invention, and the present invention is not limited thereto, and those skilled in the art can make modifications without inventive contribution to the present embodiments as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a Sargassum fusiforme drying device which characterized in that: comprises an air drying frame (1) with a supporting function, a transmission mechanism (2), a plurality of expansion pieces (3) matched with sargassum fusiforme, an air supply mechanism (4) and a conveying mechanism (5); every the surface of extensible member (3) is covered with through-hole (6), every the both ends of extensible member (3) are all movable and are set up on air-drying frame (1), drive mechanism (2) set up in one side of air-drying frame (1) and can drive a plurality of extensible member (3) simultaneously and accomplish flexible operation, air supply mechanism (4) set up in the opposite side of air-drying frame (1) and can carry out the air supply operation in a plurality of extensible member (3) simultaneously, conveying mechanism (5) are located the below of a plurality of extensible member (3) and set up on air-drying frame (1) for accept a plurality of the sheep perching dish that drops on the telescopic link to convey to one end.

2. The drying device for sargassum fusiforme as claimed in claim 1, wherein: each telescopic piece (3) comprises a primary telescopic rod (7), a secondary telescopic rod (8), a primary spring (9), a secondary spring (10), a sliding block (11) and a connecting wire (12); the air supply device is characterized in that the primary telescopic rod (7) and the secondary telescopic rod (8) are both hollow inside and are fully distributed with through holes (6) on the surfaces, the outer diameter of the primary telescopic rod (7) is matched with the inner diameter of the secondary telescopic rod (8), one end of the primary telescopic rod (7) is matched with the air supply mechanism (4), the other end of the primary telescopic rod (7) is provided with a first baffle (13), the first baffle (13) is positioned in the secondary telescopic rod (8), a first through hole (14) which can be communicated with the secondary telescopic rod (8) is formed in the first baffle (13), and air conveyed by the air supply mechanism (4) can be guided into the secondary telescopic rod (8) through the first through hole (14);

one end that one-level telescopic link (7) was kept away from in second grade telescopic link (8) is provided with second baffle (15), it is provided with second conducting hole (16) to run through on second baffle (15), the both ends of one-level spring (9) are connected with first baffle (13) and second baffle (15) respectively, the one end of connecting wire (12) is passed second conducting hole (16) and is connected with first baffle (13) fixed connection, the other end of connecting wire (12) is connected with drive mechanism (2), drive mechanism (2) can receive and release connecting wire (12).

3. The drying device for sargassum fusiforme as claimed in claim 2, wherein: when the transmission mechanism (2) tightens the connecting wire (12), the first-stage telescopic rod (7) moves towards the inside of the second-stage telescopic rod (8), and the first-stage spring (9) is in a compressed state; when the transmission mechanism (2) releases the connecting wire (12), the primary telescopic rod (7) moves towards the direction far away from the secondary telescopic rod (8) under the action of the elastic potential energy of the primary spring (9) until the primary telescopic rod is matched with the air supply mechanism (4).

4. The drying device of sargassum fusiforme as claimed in claim 3, wherein: drive mechanism (2) are including servo motor (17), the output of servo motor (17) is provided with action wheel (18), one side of action wheel (18) is provided with synchronous conveyor belt (19), synchronous conveyor belt cooperates respectively has a plurality of independent settings from driving wheel (20), action wheel (18) and a plurality of number from driving wheel (20) need with the number phase-match of extensible member (3), action wheel (18) and a plurality of one side from driving wheel (20) all are provided with the line wheel that is used for twine connecting wire (12).

5. The drying device for sargassum fusiforme as claimed in claim 4, wherein: a through groove (21) is formed in one side of the secondary telescopic rod (8), a sliding block (11) is arranged in the through groove (21), one end, outside the secondary telescopic rod (8), of the sliding block (11) can shift the sargassum fusiforme hung on the surface of the secondary telescopic rod (8) to one side, one end, inside the secondary telescopic rod (8), of the sliding block (11) is fixedly connected with a secondary spring (10), and the other end of the secondary spring (10) is fixedly connected with a second baffle (15);

one end of the connecting wire (12) wound on the wire wheel penetrates through the second through hole (16) to be fixedly connected with the first baffle (13), and the other end of the connecting wire penetrates through the second through hole (16) to be fixedly connected with one end, away from the second baffle (15), of the secondary spring (10); when the wire wheel rotates forwards, one end of the connecting wire (12) drives the primary telescopic rod (7) to move towards the inside of the secondary telescopic rod (8), and the primary spring (9) is in a compressed state; the sliding block (11) connected with the other end of the connecting wire (12) moves towards the direction close to the primary telescopic rod (7) under the action of the elastic potential energy of the secondary spring (10).

6. The drying device for sargassum fusiforme as claimed in claim 5, wherein: the outer diameter of the secondary spring (10) is larger than that of the primary spring (9) and the secondary spring is sleeved outside the primary spring (9), so that a sliding block (11) connected with the secondary spring (10) is not in contact with the primary spring (9).

7. The drying device of sargassum fusiforme as claimed in claim 6, wherein: the air supply mechanism (4) comprises a plurality of nozzles (22) arranged on the air drying frame (1), and when one end of each primary telescopic rod (7) is clamped with one nozzle (22), the other end of each primary telescopic rod (7) and the secondary telescopic rod (8) are kept in a mutually sleeved state; the nozzles (22) are all connected with the same air supply piece.

8. The drying device for sargassum fusiforme as claimed in claim 7, wherein: the conveying mechanism (5) comprises a conveying belt (23) and a driving piece (24); the conveyer belt (23) can receive the sargassum fusiforme falling from the plurality of telescopic pieces (3) and convey the sargassum fusiforme from one end to the other end of the conveying mechanism (5) under the operation of the driving piece (24).

9. The drying device for sargassum fusiforme as claimed in claim 8, wherein: the surface of the conveying belt (23) is provided with a plurality of water filtering holes (25).

10. The drying device for sargassum fusiforme as claimed in claim 9, wherein: the length of the first-stage telescopic rod (7) is smaller than that of the second-stage telescopic rod (8).

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