CN117906372A - Tedding device for grain storage - Google Patents

Abstract

The invention discloses a tedding device for grain storage, and relates to the technical field of transfer equipment. The invention provides a grain storage tedding device with an automatic uniform drying function. The utility model provides a grain is amortization device for storage, including the frame, rotate in the frame and be connected with the storage box, the storage box top rotates and is connected with the apron, the storage bottom half is opened there is the discharge gate of symmetric distribution, the discharge gate of symmetric distribution all communicates there is the installation grillage, all rotate in the installation grillage of symmetric distribution and be connected with the rotating stand, all the rigid coupling has the bulk cargo revolving rack on the rotating stand of symmetric distribution, form the ejection of compact clearance between installation grillage and the bulk cargo revolving rack, the equal rigid coupling of symmetric distribution bulk cargo revolving rack top surface has the bulk cargo board of circumference equidistant distribution. The grains are dispersed to the periphery in a large range by the centrifugal force generated by the rotating bulk material rotating frame, so that the grains are automatically and uniformly tedded, and the tedding effect of the grains is improved.

Description

Tedding device for grain storage

Technical Field

The invention relates to the technical field of transfer equipment, in particular to a tedding device for grain storage.

Background

After harvesting, the grains are usually subjected to drying treatment to reach the warehousing standard due to a large amount of moisture in the grains, and the moisture in the grains is removed by the drying treatment regularly to reduce the probability of mildew, germination and other problems.

At present, people generally adopt mechanical equipment to temporarily store and transport grains to enhance convenience in grain airing, but the prior art is mainly aimed at the transportation and unloading functions of the grains, but lacks of dispersing and spreading the grains, on the other hand, when the grains are dispersed and spread, the uniformity degree of thickness is different, so that the airing effect is poor, and in view of the problem, the design of the grain storage tedding device with the automatic uniform airing function is a technical problem to be solved.

Disclosure of Invention

The invention provides a grain storage tedding device with an automatic uniform drying function, which aims to overcome the defect that grains are dispersed and spread in the prior art, and have different thickness and uniformity and poor drying effect.

The technical scheme of the invention is as follows: the utility model provides a grain is amortization device for storage, which comprises a frame, it is connected with the storage box to rotate in the frame, it is connected with the apron to store the box top rotation, it has the discharge gate of symmetric distribution to store bottom half, symmetric distribution's discharge gate all communicates there is the installation grillage, all rotate in the installation grillage of symmetric distribution on the storage box and be connected with the rotating turret, all the rigid coupling has the bulk cargo revolving rack on the rotating turret of symmetric distribution, form the ejection of compact clearance between installation grillage and the bulk cargo revolving rack, the equal rigid coupling of bulk cargo revolving rack top surface of symmetric distribution has circumference equidistant distribution's bulk cargo board, it has the motor to store bottom surface fixed mounting, there is driving belt around through the drive wheel between the output shaft of motor and the rotating turret of symmetric distribution, be provided with the subassembly that opens and shuts that is used for unloading between the installation grillage of symmetric distribution, be used for locking the locking subassembly of storing the box.

In one embodiment, the symmetrically distributed bulk material turntables are all of conical structures.

In one embodiment, the locking assembly comprises clamping rods, the storage box body is provided with symmetrically equidistant jacks, the rack is provided with symmetrically distributed through holes, the symmetrically distributed through holes are communicated with the jacks on the same side, and the symmetrically distributed clamping rods are respectively inserted between the through holes on the adjacent racks and the jacks on the adjacent storage box body.

In one embodiment, the opening and closing assembly comprises symmetrically distributed baffles which are respectively and slidably connected to adjacent mounting plates, air cylinders are fixedly mounted on the symmetrically distributed mounting plates, piston rods of the symmetrically distributed air cylinders are fixedly connected with the baffles on the same side, an extrusion cylinder is fixedly mounted on the storage box body, springs are fixedly mounted between the piston rods of the extrusion cylinder and the extrusion cylinder, travelling wheels are mounted on the piston rods of the extrusion cylinder, and air ducts are communicated between the symmetrically distributed air cylinders and the extrusion cylinder.

In one embodiment, the baffles are all hollow annular structures.

In one embodiment, the grain distributor further comprises a material distribution component for enhancing the dispersing effect on grains, the material distribution component is arranged between symmetrically-distributed mounting plates, the material distribution component comprises symmetrically-distributed fixing frames which are fixedly connected to the adjacent mounting plates respectively, the symmetrically-distributed fixing frames are fixedly connected with net plates, the symmetrically-distributed fixing frames are fixedly connected with circumferentially equidistant distributed guide pipes, symmetrically circumferentially equidistant distributed guide pipes are fixedly connected with baffle plates, and the symmetrically equidistant distributed baffle plates and the same-side bulk material rotating frame are located on the same horizontal plane.

In one embodiment, the breast board is a semi-arc upper wide and lower narrow structure.

In one embodiment, the device further comprises symmetrically distributed friction frames, wherein the symmetrically distributed friction frames are fixedly connected to the bottoms of the adjacent bulk material rotating frames respectively, the bottoms of the friction frames are of uneven structures, and the symmetrically distributed friction frames are in contact fit with the mesh plates on the same side.

In one embodiment, the anti-blocking device is arranged between the bottoms of the symmetrically distributed bulk material rotating frames and comprises symmetrically circumferentially equidistant connecting ropes, the symmetrically circumferentially equidistant connecting ropes are fixedly arranged at the bottoms of the adjacent bulk material rotating frames respectively, striking balls are fixedly arranged on the symmetrically circumferentially equidistant connecting ropes, and the symmetrically equidistant striking balls are in contact fit with the guide pipes on the same side.

In one embodiment, the grain spreader further comprises a spreading component for spreading grains evenly, the spreading component is arranged on the frame and comprises symmetrically distributed connecting frames, the symmetrically distributed connecting frames are fixedly connected to the frame, and the symmetrically distributed connecting frames are connected with dispersing grinding wheels in a rotating mode.

The invention has the advantages that: the grains are dispersed to the periphery in a large range by the centrifugal force generated by the rotating bulk material rotating frame, so that the grains are automatically and uniformly tedded, and the tedding effect of the grains is improved; the barrier plate is used for blocking part of grains, and the barrier plate is of a semi-arc structure with wide upper part and narrow lower part, so that the folding and gathering effects on the grains can be enhanced, the blocked grains enter the flow guide pipe and then slide onto the screen plate, and then are scattered and fall onto the ground through the screen plate, so that the scattering effects on the grains are enhanced; the screen plate contacted with the friction frame is continuously vibrated under the action of the friction frame, so that the shaking of the screen plate can not only disperse grains, but also accelerate the falling of the grains, thereby improving the tedding effect of the grains; the honeycomb duct is dredged by continuously striking the honeycomb duct through striking balls, so that grains are prevented from being blocked in the honeycomb duct; the stacked grains are flattened through the dispersing grinding wheel, so that the dispersing effect on the grains is further improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a rack, a storage box and a clamping rod according to the present invention.

Fig. 3 is a schematic perspective view of the mounting plate frame, motor, bulk material rotating frame and other parts of the invention.

Fig. 4 is a schematic perspective view of a motor, a rotating frame, a driving belt and other parts of the present invention.

FIG. 5 is a schematic perspective view of the baffle, inflator, and extruder of the present invention.

Fig. 6 is a schematic perspective view of the spring, the travelling wheel, the air duct and other parts of the invention.

Fig. 7 is a schematic perspective view of the parts of the screen, the fixing frame, the friction frame, and the like.

Fig. 8 is a schematic perspective view of the friction frame, the flow guiding pipe, the baffle plate and other parts of the present invention.

Fig. 9 is a schematic perspective view of a striking ball and a connecting rope according to the present invention.

Fig. 10 is a schematic perspective view of a dispersing roller and a connecting frame according to the present invention.

In the reference numerals: 1. the device comprises a rack, 11, a storage box body, 12, a mounting plate frame, 13, a motor, 14, a bulk material rotating frame, 15, a driving belt, 16, a rotating frame, 17, a cover plate, 18, a bulk material plate, 19, a clamping rod, 2, a baffle plate, 21, an air cylinder, 22, an extrusion cylinder, 23, a spring, 24, travelling wheels, 25, an air duct, 3, a net plate, 32, a breast board, 31, a fixing frame, 33, a guide pipe, 34, a friction frame, 4, a knocking ball, 41, a connecting rope, 5, a dispersing mill wheel, 51 and a connecting frame.

Detailed Description

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

Example 1

Referring to fig. 1-4, the tedding device for grain storage in this embodiment includes a frame 1, a storage box 11 is rotatably connected to the frame 1, a cover plate 17 is rotatably connected to the top of the storage box 11, two sides of the bottom of the storage box 11 are all opened with discharge ports, two mounting grills 12 are communicated with the discharge ports of the two storage boxes 11, rotating brackets 16 are rotatably connected to the two mounting grills 12, two rotating brackets 16 are fixedly connected with bulk material rotating brackets 14, the two bulk material rotating brackets 14 are of conical structures, a discharge gap is formed between the mounting grills 12 and the bulk material rotating brackets 14, bulk material plates 18 distributed at equal intervals in the circumferential direction are fixedly connected to the top surfaces of the two bulk material rotating brackets 14, a motor 13 is fixedly mounted on the bottom surface of the storage box 11, a driving belt 15 is wound between an output shaft of the motor 13 and the two rotating brackets 16 through a driving wheel, an opening and closing component is arranged between the two mounting grills 12, a locking component is arranged between the frame 1 and the storage box 11, and the locking component is used for locking the storage box 11.

The locking assembly comprises two clamping rods 19, the front and rear parts of the storage box body 11 are provided with jacks distributed at equal intervals in the circumferential direction, the front and rear parts of the rack 1 are provided with perforations, the perforations on the front and rear sides are communicated with the jacks on the same side, and the two clamping rods 19 are respectively inserted between the perforations on the adjacent rack 1 and the jacks on the adjacent storage box body 11.

The opening and closing assembly comprises two baffles 2, the two baffles 2 are respectively and slidably connected to the adjacent installation plate frames 12, the two baffles 2 are of hollow annular structures, air cylinders 21 are fixedly installed at the tops of the two installation plate frames 12, piston rods of the two air cylinders 21 are fixedly connected with the baffles 2 on the same side, an extrusion cylinder 22 is fixedly installed on the left side of the storage box 11, a spring 23 is fixedly installed between the piston rod of the extrusion cylinder 22 and the extrusion cylinder 22, travelling wheels 24 are installed on the piston rod of the extrusion cylinder 22, and an air duct 25 is communicated between the two air cylinders 21 and the extrusion cylinder 22.

When the grain storage box is used, the cover plate 17 is opened, grains are poured into the storage box body 11, the grains in the storage box body 11 flow into the mounting plate frame 12 under the action of gravity and are positioned on the bulk material rotating frame 14, and the grains are transported to a sunning place through the push-pull frame 1;

Then, the clamping rod 19 is removed, the storage box 11 is vertically aligned due to gravity, the clamping rod 19 is reset, the storage box 11 is prevented from swinging, when the storage box 11 is vertically aligned, the storage box 11 can drive the mounting plate frame 12, the motor 13, the bulk material rotating frame 14, the driving wheel, the driving belt 15, the rotating frame 16, the baffle plate 2, the air cylinder 21, the extrusion cylinder 22, the spring 23, the travelling wheel 24 and the air duct 25 on the storage box 11 to vertically align, when the travelling wheel 24 is contacted with the ground, the extrusion cylinder 22 continuously swings downwards to be in a vertical state under the action of the gravity of the storage box 11, the spring 23 is compressed, gas in the extrusion cylinder 22 enters the air duct 21 through the air duct 25, then a piston rod of the air cylinder 21 is upwards extended to drive the baffle plate frame 12 to be not closed any more, a discharge gap formed between the mounting plate frame 12 and the bulk material rotating frame 14 is formed, grains on the bulk material rotating frame 14 are enabled to fall out through the discharge gap formed between the mounting plate frame 12 and the bulk material rotating frame 14, at the moment, the push-pull frame 1 is in a conical structure due to the fact that the bulk material rotating frame 14 is in a vertical structure, and under the action of the automatic dispersing plate 18, and the grain is enabled to be enabled to fall on the periphery of the grain rotating frame 14 to realize spreading to the ground;

The motor 13 is started, the output shaft of the motor 13 drives the rotating frame 16 to rotate through the driving wheel and the driving belt 15, the rotating frame 16 drives the bulk material rotating frame 14 to rotate, so that grains on the bulk material rotating frame 14 generate centrifugal force to be dispersed to the periphery in a large range, automatic and uniform tedding of the grains is realized, and the tedding effect of the grains is improved;

After the grain tedding is finished, the motor 13 is closed, the clamping rod 19 is taken down, the storage box 11 is manually rotated, the storage box 11 is obliquely reset rightwards, the clamping rod 19 is reset again, the travelling wheel 24 is separated from the ground, the piston rod of the extrusion cylinder 22 and the travelling wheel 24 are driven to reset under the action of the spring 23, the piston rod of the extrusion cylinder 22 extracts gas, so that suction force is generated to drive the piston rod of the air cylinder 21 to shrink downwards, and the piston rod of the air cylinder 21 drives the baffle plate 2 to move downwards to reset so as to close a discharge gap formed between the installation plate frame 12 and the bulk material rotating frame 14.

Example 2

Based on embodiment 1, referring to fig. 1, 5 and 6, this embodiment of a tedding device for grain storage, still include the feed divider, the feed divider is used for strengthening the dispersion effect to cereal, the feed divider sets up between two installation grillages 12, the feed divider is including two mounts 31, two mounts 31 respectively rigid coupling are on adjacent installation grillages 12, the equal interval distribution's of circumference honeycomb duct 33 is all rigid coupling on two mounts 31 to two mount 31 lower parts, all rigid coupling has the sideboard 32 on the equal interval distribution's of circumference honeycomb duct 33 respectively in front and back portion, sideboard 32 is half arc wide upper and lower narrow structure, the sideboard 14 that two equal interval distribution's sideboard 32 respectively all is located same horizontal plane with the bulk cargo revolving stage of homonymy.

When the cereal on the bulk cargo revolving rack 14 disperses everywhere, block partial cereal through the breast board 32, owing to the breast board 32 is half curved wide upper and lower narrow structure, can strengthen the effect of gathering, gathering to cereal, the cereal that is blocked gets into in the honeycomb duct 33 again on landing to otter board 3, then drops subaerial through otter board 3 dispersion, so, strengthen the dispersion effect to cereal.

Referring to fig. 1, 5 and 6, the device further comprises two friction frames 34, wherein the two friction frames 34 are fixedly connected to the bottoms of the adjacent bulk material rotating frames 14 respectively, the bottoms of the friction frames 34 are of uneven structures, and the bottoms of the two friction frames 34 are in contact fit with the net plate 3 on the same side.

When the bulk material rotating frame 14 rotates, the bulk material rotating frame 14 drives the friction frame 34 to rotate, and the bottom of the friction frame 34 is of an uneven structure, so that the screen plate 3 contacted with the friction frame 34 continuously shakes under the action of the friction frame 34, the shaking of the screen plate 3 can not only disperse grains, but also accelerate the falling of the grains, and the tedding effect of the grains is improved.

Referring to fig. 1, 7 and 8, the anti-blocking device is further included, and is used for dredging the flow guide pipe 33, and the anti-blocking device is arranged between the bottoms of the two bulk material rotating frames 14, and comprises a front portion and a rear portion which are respectively circumferentially equidistant distributed connecting ropes 41, the front portion and the rear portion which are respectively circumferentially equidistant distributed connecting ropes 41 are fixedly installed at the bottoms of the adjacent bulk material rotating frames 14, the front portion and the rear portion which are respectively circumferentially equidistant distributed connecting ropes 41 are fixedly installed with striking balls 4, and the front portion and the rear portion which are respectively equidistant distributed striking balls 4 are in contact fit with the flow guide pipe 33 on the same side.

When the bulk material rotating frame 14 rotates, the bulk material rotating frame 14 drives the knocking ball 4 and the connecting rope 41 to rotate, the knocking ball 4 is thrown outwards under the action of centrifugal force, so that the thrown knocking ball 4 continuously impacts the guide pipe 33, the guide pipe 33 is dredged, and grains are prevented from being blocked in the guide pipe 33.

Referring to fig. 1, 9 and 10, the grain spreader further comprises a spreading component, the spreading component is used for spreading grains evenly, the spreading component is arranged on the frame 1 and comprises two connecting frames 51, the two connecting frames 51 are fixedly connected to the right lower portion of the frame 1, and a dispersing grinding wheel 5 is connected between the two connecting frames 51 in a rotating mode.

When the push-pull frame 1 is used for tedding grains, the dispersing grinding wheel 5 moves along with the frame 1 through the connecting frame 51, so that the dispersing grinding wheel 5 is promoted to tedding the piled grains, and the dispersing effect on the grains is further improved.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims (10)

1. The utility model provides a grain stores and uses tedding device which characterized in that: including frame (1), rotate on frame (1) and be connected with storage box (11), storage box (11) top rotates and is connected with apron (17), it has symmetrically distributed discharge gate to store bottom of the box (11) to open, symmetrically distributed discharge gate all communicates on storage box (11) has installation grillage (12), all rotate in symmetrically distributed installation grillage (12) and be connected with rotating turret (16), all the rigid coupling has bulk cargo revolving rack (14) on symmetrically distributed rotating turret (16), form the ejection of compact clearance between installation grillage (12) and bulk cargo revolving rack (14), uniformly distributed bulk cargo revolving rack (14) top surface all rigid coupling has circumference equidistant bulk cargo board (18), store bottom surface fixed mounting of the box (11) has motor (13), be provided with between output shaft and symmetrically distributed rotating turret (16) of motor (13) through drive wheel around have driving belt (15), be used for locking subassembly that opens and shuts of unloading between symmetrically distributed installation grillage (12) for locking storage box (11).

2. A grain storage tedding device as claimed in claim 1, wherein: the symmetrically distributed bulk material rotating frames (14) are of conical structures.

3. A grain storage tedding device as claimed in claim 2, wherein: the locking assembly comprises clamping rods (19), the storage box body (11) is provided with symmetrically equidistant jacks, the machine frame (1) is provided with symmetrically distributed through holes, the symmetrically distributed through holes are communicated with the jacks on the same side, and the symmetrically distributed clamping rods (19) are respectively inserted between the through holes on the adjacent machine frames (1) and the jacks on the adjacent storage box bodies (11).

4. A grain storage tedding device as claimed in claim 3, wherein: the opening and closing assembly comprises baffle plates (2) which are symmetrically distributed, the baffle plates (2) which are symmetrically distributed are respectively and slidably connected onto adjacent installation plate frames (12), air cylinders (21) are fixedly installed on the installation plate frames (12) which are symmetrically distributed, piston rods of the air cylinders (21) which are symmetrically distributed are fixedly connected with the baffle plates (2) on the same side, an extrusion cylinder (22) is fixedly installed on a storage box body (11), a spring (23) is fixedly installed between the piston rods of the extrusion cylinder (22) and the extrusion cylinder (22), travelling wheels (24) are installed on the piston rods of the extrusion cylinder (22), and air guide pipes (25) are communicated between the air cylinders (21) which are symmetrically distributed and the extrusion cylinder (22).

5. A grain storage tedding device in accordance with claim 4, wherein: the baffle plates (2) which are symmetrically distributed are hollow annular structures.

6. A grain storage tedding device in accordance with claim 5, wherein: still including being used for strengthening the feed divider subassembly to the dispersion effect of cereal, feed divider subassembly sets up between symmetrically distributed's installing grillage (12), feed divider subassembly is including symmetrically distributed's mount (31), symmetrically distributed's mount (31) rigid coupling respectively on adjacent installing grillage (12), symmetrically distributed's mount (31) all rigid coupling has otter board (3), symmetrically distributed's mount (31) all rigid coupling has circumferentially equidistant honeycomb duct (33), symmetrically circumferentially equidistant honeycomb duct (33) all rigid coupling has breast board (32), symmetrically equidistant breast board (32) all are located same horizontal plane with homonymy bulk cargo revolving frame (14).

7. A grain storage tedding device in accordance with claim 6, wherein: the breast board (32) is of a semi-arc structure with a wide upper part and a narrow lower part.

8. A grain storage tedding device in accordance with claim 7, wherein: the device also comprises symmetrically distributed friction frames (34), wherein the symmetrically distributed friction frames (34) are fixedly connected to the bottoms of the adjacent bulk material rotating frames (14) respectively, the bottoms of the friction frames (34) are of uneven structures, and the bottoms of the symmetrically distributed friction frames (34) are in contact fit with the screen plates (3) on the same side.

9. A grain storage tedding device in accordance with claim 8, wherein: the anti-blocking device is arranged between the bottoms of the symmetrically distributed bulk material rotating frames (14) and comprises symmetrically circumferentially equidistant connecting ropes (41), the symmetrically circumferentially equidistant connecting ropes (41) are fixedly mounted at the bottoms of the adjacent bulk material rotating frames (14) respectively, striking balls (4) are fixedly mounted on the symmetrically circumferentially equidistant connecting ropes (41), and the symmetrically equidistant striking balls (4) are in contact fit with the same-side honeycomb ducts (33).

10. A grain storage tedding device in accordance with claim 9, wherein: the grain spreader is characterized by further comprising a spreading component for spreading grains evenly, the spreading component is arranged on the frame (1) and comprises symmetrically distributed connecting frames (51), the symmetrically distributed connecting frames (51) are fixedly connected to the frame (1), and the symmetrically distributed connecting frames (51) are rotationally connected with the dispersing grinding wheels (5).