CN117699181A - Biomass fuel particle storage device - Google Patents

Abstract

The invention relates to the technical field of storage devices, in particular to a biomass fuel particle storage device which comprises a storage bin, a placement structure, a limiting structure, a sealing structure, a blanking structure, a mounting structure and a blanking pipe, wherein the storage bin is arranged on the storage bin; placing the setting of structure and being convenient for fix four handles of wrapping bag, need not operating personnel and take the wrapping bag always at unloading in-process, improved operating flexibility, and be convenient for fix four sealing blocks through limit structure's setting, avoided sealing block to take place to rotate, sealing structure's setting is convenient for seal the unloading pipe, the inside leakproofness of storage silo has been improved, in order to guarantee biomass combustion granule quality, unloading structure's setting is convenient for carry out the unloading to the inside biomass combustion granule of storage silo, and install the setting through mounting structure and be convenient for dismantle the mounting panel together with helical blade from the storage silo fast and maintain.

Description

Biomass fuel particle storage device

Technical Field

The invention relates to the technical field of storage devices, in particular to a biomass fuel particle storage device.

Background

The biomass combustion pellet fuel is formed by crushing various plant offal and extruding shape pellets with the size of cigarettes, is used for replacing coal, is widely applied to various large enterprises, power plants and the like as fuel, and can be stored through a storage bin after the biomass combustion pellets are processed.

However, in the conventional storage bin, in the process of discharging biomass combustion particles, the material is usually received through a packaging bag, and as the packaging bag is easy to fold, personnel are required to take the packaging bag all the time, and the operation flexibility is poor; the storage bin is fed through the spiral blade, when the spiral blade needs to be maintained, the connecting shaft of the spiral blade is usually installed between the bolt and the installation shaft on the motor output shaft, and the disassembly and assembly efficiency is low when overhauling is caused by bolt installation; and after the unloading is accomplished, in the unloading pipe can be followed to the air enters into the storage silo, when meetting overcast and rainy weather, because humidity is great in the air, biomass combustion granule meetting the moisture of a certain amount and will scatter to the storage to biomass combustion granule causes the influence.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a biomass fuel particle storage device.

The technical scheme adopted for solving the technical problems is as follows: the biomass fuel particle storage device comprises a storage bin, two guide rails fixedly connected to the storage bin, a placement structure arranged on the two guide rails, a discharging pipe fixedly connected to the storage bin and a sealing structure arranged on the discharging pipe;

the placing structure comprises a placing frame, two sliding connection has the placing frame on the guide rail, all be equipped with the U-shaped groove on four bracing pieces of placing frame, rotate on the placing frame and connect four sealing blocks, four fixedly connected with pivot on the sealing block, four rotate between pivot and the placing frame and be connected, fixedly connected with torsional spring between pivot and the placing frame, the place ahead rotate on the guide rail and be connected with first lead screw, threaded connection between placing frame and the first lead screw, the place ahead install first motor on the guide rail, fixed connection between the output shaft of first lead screw and first motor.

Specifically, be equipped with limit structure on the rack, limit structure includes the stopper, sliding connection has four stoppers on the rack, four the stopper respectively with four epaxial spacing groove between the block.

Specifically, four guy ropes are fixedly connected to the limiting blocks, four guy ropes are fixedly connected to the pedal, the pedal is slidably connected to the rack, and a first spring is fixedly connected to the rack.

Specifically, seal structure includes the closing plate, sliding connection has the closing plate on the unloading pipe, sliding connection has the sealing washer on the closing plate, be equipped with the seal groove that uses with the sealing washer cooperation on the unloading pipe, fixedly connected with go-between on the sealing washer, sliding connection between go-between and the closing plate, it is connected with the second lead screw to rotate on the closing plate, threaded connection between go-between and the second lead screw.

Specifically, sliding connection has the gag lever post on the closing plate, be equipped with the spacing hole that uses with the gag lever post cooperation on the unloading pipe, fixedly connected with connecting block on the closing plate, fixedly connected with guide bar on the connecting block, sliding connection between guide bar and the unloading pipe.

Specifically, fixedly connected with second spring between gag lever post and the closing plate, fixedly connected with third spring between connecting block and the unloading pipe.

Specifically, be equipped with the unloading structure on the storage silo, the unloading structure includes the mounting panel, can dismantle on the storage silo and be connected with the mounting panel, rotate on the mounting panel and be connected with the connecting axle, fixedly connected with helical blade on the connecting axle, rotate on the storage silo and be connected with the installation axle, fixedly connected with integral key shaft on the connecting axle, peg graft between the spline shaft and the epaxial spline groove of installation.

Specifically, two reference columns are fixedly connected to the storage bin, the mounting plate is connected with the reference columns in a sliding mode, a second motor is mounted on the storage bin, and the mounting shaft is fixedly connected with an output shaft of the second motor.

Specifically, be equipped with mounting structure on the storage silo, mounting structure includes the installation pole, sliding connection has the installation pole on the storage silo, the block between installation pole and the mounting panel, sliding connection has the slide bar on the installation pole, sliding connection between slide bar and the storage silo, be equipped with the draw-in groove that uses with the slide bar cooperation on the storage silo.

Specifically, fixedly connected with arm-tie on the slide bar, fixedly connected with extension spring between arm-tie and the installation pole, fixedly connected with fourth spring between installation pole and the storage silo.

The beneficial effects of the invention are as follows:

(1) According to the biomass fuel particle storage device, the storage bin is provided with the placement structure, the placement frame is provided with the limiting structure, the placement structure is convenient to fix the four handles of the packaging bag, an operator is not required to take the packaging bag all the time in the discharging process, the operation flexibility is improved, the four sealing blocks are convenient to fix through the limiting structure, and the sealing blocks are prevented from rotating.

(2) According to the biomass fuel particle storage device, the sealing structure is arranged on the blanking pipe, the sealing structure is arranged to facilitate sealing of the blanking pipe, and the sealing performance inside the storage bin is improved, so that the quality of biomass combustion particles is guaranteed.

(3) According to the biomass fuel particle storage device, the discharging structure is arranged on the storage bin, the mounting structure is arranged on the storage bin, the discharging structure is arranged to facilitate discharging of biomass combustion particles in the storage bin, and the mounting plate and the helical blades are conveniently and rapidly detached from the storage bin for maintenance through the arrangement of the mounting structure.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of a preferred embodiment of a biomass fuel pellet storage device according to the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the B-section structure shown in FIG. 1;

FIG. 4 is an enlarged schematic view of the structure of the portion C shown in FIG. 2;

FIG. 5 is an enlarged schematic view of the structure of the portion D shown in FIG. 2;

FIG. 6 is a schematic diagram of a connection structure between a first screw and a storage bin according to the present invention;

FIG. 7 is an enlarged schematic view of the E-section structure shown in FIG. 6;

FIG. 8 is a schematic diagram of a connection structure between a rack and a storage bin according to the present invention;

fig. 9 is an enlarged schematic view of the F-section structure shown in fig. 8;

fig. 10 is an enlarged schematic view of the G portion structure shown in fig. 8;

FIG. 11 is an enlarged schematic view of the H-section structure shown in FIG. 8;

FIG. 12 is an enlarged schematic view of the structure of the portion I shown in FIG. 10;

FIG. 13 is an enlarged schematic view of the J-section structure shown in FIG. 11;

fig. 14 is an enlarged schematic view of the K-section structure shown in fig. 11;

FIG. 15 is a schematic view of the connection structure of the foot pedal and the rack according to the present invention;

fig. 16 is an enlarged schematic view of the L-section structure shown in fig. 15;

FIG. 17 is a schematic view of a connection structure between a sealing plate and a rack according to the present invention;

FIG. 18 is a schematic view of a connecting ring according to the present invention;

fig. 19 is a schematic view of a connection structure between a pull rope and a pedal plate according to the present invention.

In the figure: 1. a storage bin; 2. placing a structure; 201. a placing rack; 202. a first screw rod; 203. a sealing block; 204. a rotating shaft; 205. a torsion spring; 206. a first motor; 3. a limit structure; 301. a limiting block; 302. a limit groove; 303. a first spring; 304. a pull rope; 305. a foot pedal; 4. a sealing structure; 401. a sealing plate; 402. a seal ring; 403. sealing grooves; 404. a connecting ring; 405. a second screw rod; 406. a limit rod; 407. a limiting hole; 408. a second spring; 409. a connecting block; 410. a guide rod; 411. a third spring; 5. a blanking structure; 501. a mounting plate; 502. a connecting shaft; 503. a helical blade; 504. a spline shaft; 505. a mounting shaft; 506. a second motor; 507. positioning columns; 6. a mounting structure; 601. a mounting rod; 602. a fourth spring; 603. a slide bar; 604. a clamping groove; 605. a tension spring; 606. pulling a plate; 7. discharging pipes; 8. and a guide rail.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 19, the biomass fuel particle storage device of the invention comprises a storage bin 1, two guide rails 8 fixedly connected to the storage bin 1, a placement structure 2 arranged on the two guide rails 8, a blanking pipe 7 fixedly connected to the storage bin 1, and a sealing structure 4 arranged on the blanking pipe 7; the placing structure 2 comprises a placing rack 201, two placing racks 201 are connected to the guide rail 8 in a sliding mode, U-shaped grooves are formed in four supporting rods of the placing racks 201, four sealing blocks 203 are connected to the placing racks 201 in a rotating mode, rotating shafts 204 are fixedly connected to the sealing blocks 203, the rotating shafts 204 are connected to the placing racks 201 in a rotating mode, torsion springs 205 are fixedly connected to the rotating shafts 204 and the placing racks 201, first screw rods 202 are connected to the guide rail 8 in the front in a rotating mode, the placing racks 201 are connected to the first screw rods 202 in a threaded mode, first motors 206 are arranged on the guide rail 8 in the front, and the first screw rods 202 are fixedly connected to output shafts of the first motors 206.

Specifically, the rack 201 is provided with a limit structure 3, the limit structure 3 comprises limit blocks 301, four limit blocks 301 are slidably connected to the rack 201, four limit blocks 301 are respectively engaged with limit grooves 302 on four rotating shafts 204, pull ropes 304 are fixedly connected to the four limit blocks 301, the four pull ropes 304 are fixedly connected with pedal plates 305, the pedal plates 305 are slidably connected with the rack 201, first springs 303 are fixedly connected between the four limit blocks 301 and the rack 201, when biomass combustion particles in the storage bin 1 are required to be fed, the pedal plates 305 are downwardly moved by stepping on the presser foot pedal 305 to drive the four limit blocks 301 to downwardly slide, the first springs 303 are contracted when the limit blocks 301 downwardly slide, and the four limit blocks 301 are no longer engaged with the limit grooves 302 on the four rotating shafts 204, at this time, the four rotating shafts 204 rotate under the action of the torsion springs 205, the rotating shafts 204 drive the four sealing blocks 203 to rotate, after the four sealing blocks 203 rotate, four handles of the packaging bag can be placed in four U-shaped grooves on the placing frame 201, then the sealing blocks 203 are sequentially rotated by operators, when the sealing blocks 203 rotate to a horizontal state, corresponding limiting blocks 301 slide upwards under the action of the first springs 303, the limiting blocks 301 are clamped with the corresponding rotating shafts 204, the sealing blocks 203 are conveniently fixed through the clamping between the limiting blocks 301 and the rotating shafts 204, the rotating sealing blocks 203 are prevented from rotating, after the four sealing blocks 203 are fixed, materials in the storage bin 1 can be fed at this time, the four handles of the packaging bag are placed in the four U-shaped grooves on the placing frame 201, need not operating personnel and take the wrapping bag always when unloading, improved operating flexibility, and seal four handles through sealing block 203, avoided wrapping bag material receiving in-process handle landing, simultaneously at unloading in-process accessible start first motor 206, can drive first lead screw 202 rotation when the output shaft of first motor 206 rotates, can screw drive rack 201 move about on guide rail 8 when first lead screw 202 rotates, through rack 201 back-and-forth movement, the position of the control wrapping bag of being convenient for during the unloading, avoided the material to pile up in one side of wrapping bag, and when need not use rack 201, make rack 201 slide to storage silo 1 below, occupation space has been reduced.

Specifically, the sealing structure 4 includes a sealing plate 401, a sealing plate 401 is slidingly connected to the blanking pipe 7, a sealing ring 402 is slidingly connected to the sealing plate 401, a sealing groove 403 matched with the sealing ring 402 is provided on the blanking pipe 7, a connecting ring 404 is fixedly connected to the sealing ring 402, the connecting ring 404 is slidingly connected with the sealing plate 401, a second screw rod 405 is rotatably connected to the sealing plate 401, the connecting ring 404 is in threaded connection with the second screw rod 405, a limit rod 406 is slidingly connected to the sealing plate 401, a limit hole 407 matched with the limit rod 406 is provided on the blanking pipe 7, a connecting block 409 is fixedly connected to the sealing plate 401, a guide rod 410 is fixedly connected to the connecting block 409, a third spring 411 is fixedly connected between the limit rod 406 and the sealing plate 401, after the blanking is completed, the sealing plate 401 is downwards pressed down, the guide rod 410 is driven by the sealing plate 401 to slide down, and the limit rod 406 is clamped to the limit rod 406 by the seal rod 401, and the limit rod 408 is clamped down by the guide rod 408 when the seal rod 410 slides down to the limit rod 7, and the limit rod 406 is clamped down, and the limit rod 408 is clamped to the limit rod 408 is contacted with the seal rod 7 by the seal rod 401 when the seal rod is contacted with the limit rod 7 in a certain position, be convenient for fix the closing plate 401 after sliding, the accessible is interior hexagonal spanner inserts in the interior hexagonal groove on second lead screw 405 this moment, rotate second lead screw 405 through interior hexagonal spanner, can screw thread drive go-between 404 slip when second lead screw 405 rotates, can drive sealing washer 402 slip when go-between 404 slip, make the block between sealing washer 402 and the seal groove 403 that corresponds on the unloading pipe 7, seal unloading pipe 7 through sealing washer 402, the inside leakproofness of storage silo 1 has been improved, in order to guarantee living beings burning particle quality.

Specifically, the discharging structure 5 is arranged on the storage bin 1, the discharging structure 5 comprises a mounting plate 501, the storage bin 1 is detachably connected with the mounting plate 501, the mounting plate 501 is rotationally connected with a connecting shaft 502, a helical blade 503 is fixedly connected with the connecting shaft 502, the storage bin 1 is rotationally connected with a mounting shaft 505, a spline shaft 504 is fixedly connected with the connecting shaft 502, the spline shaft 504 is inserted into spline grooves of the mounting shaft 505, two positioning columns 507 are fixedly connected with the storage bin 1, the mounting plate 501 is in sliding connection with the positioning columns 507, a second motor 506 is mounted on the storage bin 1, the mounting shaft 505 is fixedly connected with an output shaft of the second motor 506, a mounting structure 6 is arranged on the storage bin 1, the mounting structure 6 comprises a mounting rod 601, the storage bin 1 is in sliding connection with the mounting rod 601, the mounting rod 601 is clamped with the mounting plate 501, the mounting rod 601 is connected with a sliding rod 603 in a sliding manner, the sliding rod 603 is connected with a storage bin 1 in a sliding manner, a clamping groove 604 matched with the sliding rod 603 is formed in the storage bin 1, a pulling plate 606 is fixedly connected with the sliding rod 603, a tension spring 605 is fixedly connected between the pulling plate 606 and the mounting rod 601, a fourth spring 602 is fixedly connected between the mounting rod 601 and the storage bin 1, at the moment, a second motor 506 is started, an output shaft of the second motor 506 can drive the mounting shaft 505 to rotate when the output shaft rotates, the spline shaft 504 can be driven to rotate when the mounting shaft 505 rotates, the spline shaft 504 can drive the connecting shaft 502 to rotate when the connecting shaft 502 rotates, the helical blade 503 can be driven to rotate, biomass combustion particles can be discharged when the helical blade 503 rotates, and the biomass combustion particles can slide into a packaging bag from a discharging pipe 7, when needs helical blade 503 maintains, the accessible upwards pulls installation pole 601, fourth spring 602 shrink when installation pole 601 upwards slides, simultaneously the block between installation pole 601 and the mounting panel 501 no longer can drive slide bar 603 upward movement when installation pole 601 upwards slides, when slide bar 603 upwards moves to align with draw-in groove 604, slide bar 603 can slide to the block between draw-in groove 604 under the effect of extension spring 605, through the block between slide bar 603 and storage silo 1, the effect of upwards gliding installation pole 601 down to dismantling causes, can drive the arm-tie 606 during the slide bar 603 slides, when installation pole 601 no longer with the mounting panel 501 when the block, can outwards pull mounting panel 501 this moment, make mounting panel 501 drive the block between spline shaft 504 and the spline groove on the installation shaft 505 through connecting axle 502, pass through the cooperation between spline shaft 504 and the spline groove, so that second motor 506 transmission drives helical blade 503 and rotate, simultaneously install board 501 no longer with peg graft between the location post 507, set up through two location posts 507 is convenient for fix a position the mounting panel, facilitate the messenger's mounting hole is aligned with mounting panel 501 when installing, install down the quick-lift mounting panel 501 is convenient for detach, install the quick-release mounting panel is accomplished to install and install the quick-release mounting panel 501, install the quick-release is convenient to install and install the mounting panel is accomplished when installing the quick-release mounting panel is convenient to install and install the mounting panel is convenient to detach.

When the invention is used, when biomass combustion particles in the storage bin 1 are required to be discharged, the pedal 305 is stepped on, the four limiting blocks 301 are driven to slide downwards through the four pull ropes 304 when the pedal 305 moves downwards, the first springs 303 are contracted when the limiting blocks 301 slide downwards, meanwhile, the four limiting blocks 301 are not clamped with the limiting grooves 302 on the four rotating shafts 204, at the moment, the four rotating shafts 204 rotate under the action of the torsion springs 205, the rotating shafts 204 drive the four sealing blocks 203 to rotate, after the four sealing blocks 203 rotate, four handles of packaging bags can be placed in the four U-shaped grooves on the placing frame 201, then, operators rotate the sealing blocks 203 in sequence, when the sealing blocks 203 rotate to a horizontal state, the corresponding limiting blocks 301 slide upwards under the action of the first springs 303, so that the limiting blocks 301 are clamped with the corresponding rotating shafts 204, through the clamping between the limiting block 301 and the rotating shaft 204, the sealing block 203 is convenient to fix, the rotating sealing block 203 is prevented from rotating, after the four sealing blocks 203 are all fixed, the materials in the storage bin 1 can be fed at the moment, through placing four handles of the packaging bag into four U-shaped grooves on the placing frame 201, an operator is not required to take the packaging bag all the time during feeding, the operation flexibility is improved, the four handles are sealed through the sealing block 203, the lifting handle slides down in the material receiving process of the packaging bag, meanwhile, the first motor 206 is started in the feeding process, the first screw 202 is driven to rotate when the output shaft of the first motor 206 rotates, the placing frame 201 is driven to move left and right on the guide rail 8 through threads when the first screw 202 rotates, the front and back of the placing frame 201 are convenient to control the position of the packaging bag during feeding, the material is prevented from being piled up on one side of the packaging bag, when the rack 201 is not needed, the rack 201 is made to slide to the lower part of the storage bin 1, so that the occupied space is reduced;

at this time, the second motor 506 is started, the output shaft of the second motor 506 drives the installation shaft 505 to rotate, the installation shaft 505 drives the spline shaft 504 to rotate when rotating, the spline shaft 504 drives the connection shaft 502 to rotate when rotating, the connection shaft 502 drives the helical blade 503 to rotate, the helical blade 503 can discharge biomass combustion particles when rotating, the biomass combustion particles can slide into the packaging bag from the discharging pipe 7, when the helical blade 503 is required to be maintained, the installation rod 601 can be pulled upwards, the fourth spring 602 contracts when the installation rod 601 slides upwards, meanwhile, the installation rod 601 is not clamped with the installation plate 501 any more, the installation rod 601 can drive the slide rod 603 to move upwards when sliding upwards, when the slide rod 603 moves upwards to be aligned with the clamping groove 604, the slide rod 603 can slide downwards to be clamped with the clamping groove 604 under the action of the tension spring 605, the slide rod 603 is clamped with the storage bin 1, the installation rod 601 sliding upwards is prevented from influencing the disassembly due to the downward sliding, the pull plate 606 is driven to slide when the sliding rod 603 slides, when the installation rod 601 is no longer clamped with the installation plate 501, the installation plate 501 can be pulled outwards at the moment, the installation plate 501 drives the spline shaft 504 to be no longer clamped with the spline grooves on the installation shaft 505 through the connecting shaft 502, the helical blade 503 is driven to rotate through the cooperation between the spline shaft 504 and the spline grooves through the transmission of the second motor 506, the installation plate 501 is no longer spliced with the positioning columns 507, the installation plate 501 is positioned conveniently through the arrangement of the two positioning columns 507, the installation hole is aligned with the installation rod 601 during the installation, the installation plate 501 is pulled outwards continuously at the moment, the disassembly of the installation plate 501 is completed, the installation plate 501 and the storage bin 1 are disassembled conveniently and rapidly through the clamping between the installation rod 601 and the installation plate 501, facilitating quick disassembly when servicing the helical blade 503;

after the unloading is accomplished, accessible push down closing plate 401, drive guiding rod 410 downwardly sliding through connecting block 409 when closing plate 401 slides down, guiding rod 410's setting makes closing plate 401's slip more steady, third spring 411 shrink when guiding rod 410 slides down, when closing plate 401 drives gag lever post 406 downwardly moving to contradict with unloading pipe 7, because gag lever post 406 is the inclined plane with the contact surface of unloading pipe 7, therefore gag lever post 406 can shrink to closing plate 401 in, second spring 408 shrink when gag lever post 406 slides, when closing plate 401 slides to certain position, gag lever post 406 can slide to the block between the spacing hole 407 on with unloading pipe 7 under the effect of second spring 408, through the block between gag lever post 406 and the unloading pipe 7, be convenient for fix closing plate 401 after the slip, the inner hexagonal spanner inserts in the inner hexagonal groove on second lead screw 405 this moment, rotate second lead screw 405 through the inner hexagonal spanner, can screw thread drive go-between 404 slides when second lead screw 405 rotates, can drive connecting ring 404 slides 402, make 402 slide with the corresponding seal ring 7 of unloading pipe, seal ring 402 has improved the sealing washer 402 and seal groove 7, the quality of sealing is guaranteed to the inside of the sealed silo, the sealed grain is sealed, the quality of the sealed silo is guaranteed.

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 characteristics 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The biomass fuel particle storage device is characterized by comprising a storage bin (1), two guide rails (8) fixedly connected to the storage bin (1), a placement structure (2) arranged on the two guide rails (8), a discharging pipe (7) fixedly connected to the storage bin (1) and a sealing structure (4) arranged on the discharging pipe (7);

the utility model provides a rack, including rack (201), two sliding connection has rack (201) on guide rail (8), all be equipped with the U-shaped groove on four bracing pieces of rack (201), four on rack (201) rotate and connect four sealing blocks (203), four fixedly connected with pivot (204) on sealing blocks (203) rotate between pivot (204) and rack (201) and be connected, fixedly connected with torsional spring (205) between pivot (204) and the rack (201), the place ahead rotate on guide rail (8) and be connected with first lead screw (202), threaded connection between rack (201) and first lead screw (202), the place ahead install first motor (206) on guide rail (8), fixed connection between the output shaft of first lead screw (202) and first motor (206).

2. A biomass fuel pellet storage device as claimed in claim 1, wherein: be equipped with limit structure (3) on rack (201), limit structure (3) include stopper (301), sliding connection has four stopper (301) on rack (201), four between stopper (301) and spacing groove (302) on four pivot (204) respectively.

3. A biomass fuel pellet storage device as claimed in claim 2, wherein: four on stopper (301) all fixedly connected with stay cord (304), four fixed connection between stay cord (304) all and running-board (305), sliding connection between running-board (305) and rack (201), four fixedly connected with first spring (303) between stopper (301) all and rack (201).

4. A biomass fuel pellet storage device as claimed in claim 1, wherein: seal structure (4) are including closing plate (401), sliding connection has closing plate (401) on unloading pipe (7), sliding connection has sealing washer (402) on closing plate (401), be equipped with seal groove (403) that use with sealing washer (402) cooperation on unloading pipe (7), fixedly connected with go-between (404) on sealing washer (402), sliding connection between go-between (404) and closing plate (401), rotation is connected with second lead screw (405) on closing plate (401), threaded connection between go-between (404) and second lead screw (405).

5. A biomass fuel pellet storage device as claimed in claim 4, wherein: the blanking pipe (7) is provided with a limiting hole (407) matched with the limiting rod (406), a connecting block (409) is fixedly connected to the sealing plate (401), a guide rod (410) is fixedly connected to the connecting block (409), and the guide rod (410) is in sliding connection with the blanking pipe (7).

6. A biomass fuel pellet storage device as claimed in claim 5, wherein: a second spring (408) is fixedly connected between the limiting rod (406) and the sealing plate (401), and a third spring (411) is fixedly connected between the connecting block (409) and the blanking pipe (7).

7. A biomass fuel pellet storage device as claimed in claim 1, wherein: be equipped with unloading structure (5) on storage silo (1), unloading structure (5) include mounting panel (501), can dismantle on storage silo (1) and be connected with mounting panel (501), rotate on mounting panel (501) and be connected with connecting axle (502), fixedly connected with helical blade (503) on connecting axle (502), rotate on storage silo (1) and be connected with installation axle (505), fixedly connected with spline shaft (504) on connecting axle (502), peg graft between spline shaft (504) and the spline groove on installation axle (505).

8. A biomass fuel pellet storage device as claimed in claim 7, wherein: two reference columns (507) are fixedly connected to the storage bin (1), the mounting plate (501) is in sliding connection with the reference columns (507), a second motor (506) is mounted on the storage bin (1), and the mounting shaft (505) is fixedly connected with an output shaft of the second motor (506).

9. A biomass fuel pellet storage device as claimed in claim 8, wherein: be equipped with mounting structure (6) on storage silo (1), mounting structure (6) are including installation pole (601), sliding connection has installation pole (601) on storage silo (1), block between installation pole (601) and mounting panel (501), sliding connection has slide bar (603) on installation pole (601), sliding connection between slide bar (603) and storage silo (1), be equipped with draw-in groove (604) that use with slide bar (603) cooperation on storage silo (1).

10. A biomass fuel pellet storage device as claimed in claim 9, wherein: the sliding rod (603) is fixedly connected with a pulling plate (606), a tension spring (605) is fixedly connected between the pulling plate (606) and the mounting rod (601), and a fourth spring (602) is fixedly connected between the mounting rod (601) and the storage bin (1).