CN111271958A - Seed drying equipment - Google Patents

Abstract

The invention relates to drying equipment, in particular to seed drying equipment which comprises a feeding mechanism, a drying mechanism and a material receiving mechanism, wherein the equipment can smoothly feed, uniformly distribute seeds, efficiently dry and discharge all the seeds without residues, the feeding mechanism is connected with the drying mechanism, the drying mechanism is connected with the material receiving mechanism, and the material receiving mechanism is connected with the feeding mechanism.

Description

Seed drying equipment

Technical Field

The invention relates to a drying device, in particular to a seed drying device.

Background

In the seed drying process, the problem of unsmooth blanking in the drying process is often caused due to high seed humidity, and power waste is caused by a plurality of power sources for drying and feeding, so that the seed drying equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the seed drying equipment, the equipment can smoothly feed, the equipment can uniformly distribute seeds, the equipment can efficiently dry the seeds, and the equipment can completely discharge the seeds without residues.

In order to solve the technical problems, the invention relates to a drying device, and particularly relates to a seed drying device which comprises a feeding mechanism, a drying mechanism and a material receiving mechanism.

The feeding mechanism is connected with the drying mechanism, the drying mechanism is connected with the material receiving mechanism, and the material receiving mechanism is connected with the feeding mechanism.

As a further optimization of the technical scheme, the feeding mechanism of the seed drying equipment comprises a base, a belt rack, a roller at the tail part of a belt shaft, a belt with a convex plate, a feeding rack mechanism, an anti-blocking mechanism, a middle transmission roller of the belt shaft, a roller at the head part of the belt shaft, a coupler, a motor, a pinch roller of the belt shaft, a gear and a gear motor, wherein the base is connected with the belt rack, the belt rack is connected with the roller at the tail part of the belt shaft in a bearing way, the roller at the tail part of the belt shaft is flexibly connected with the belt with the convex plate, the belt with the convex plate is flexibly connected with the middle transmission roller of the belt shaft, the middle transmission roller of the belt shaft is connected with the belt rack in a bearing way, the feeding rack mechanism is connected with the base, the feeding rack mechanism is connected with the anti-blocking mechanism in a bearing way, the anti-blocking mechanism is meshed, the connecting mode of the roller at the head part of the belt shaft and the belt rack is bearing connection, the roller at the head part of the belt shaft is connected with a motor through a coupler, the motor is connected with the belt rack, the connecting mode of the pinch roller of the belt shaft and the belt rack is bearing connection, and the pinch roller of the belt shaft is flexibly connected with a belt with a raised plate; the feeding frame mechanism comprises a feeding frame body, a hopper outlet, a hopper body and a hopper inlet, the feeding frame body is connected with the hopper body, the hopper outlet is arranged on the hopper body, and the hopper inlet is arranged on the hopper body; the anti-blocking mechanism comprises a scraper plate, a ring plate and a gear ring, the scraper plate is connected with the ring plate, the ring plate is connected with the gear ring, the gear ring is meshed with a gear, and the ring plate is connected with the feeding frame mechanism through a bearing.

As a further optimization of the technical scheme, the drying mechanism of the seed drying equipment comprises a sliding drying mechanism, a support frame mechanism, a drying support mechanism, a sliding cylinder mechanism and a scraping mechanism, wherein the sliding drying mechanism is connected with the drying support mechanism, the drying support mechanism is connected with the sliding cylinder mechanism, the sliding cylinder mechanism is connected with the support frame mechanism, the support frame mechanism is connected with the scraping mechanism, and the scraping mechanism is connected with the drying support mechanism; the sliding drying mechanism comprises a drying motor, a coupling I, a shaft with a bulge, a bulge disc, a shaft I with a bulge, a hollow shaft, a special-shaped hole, a built-in spring, a middle limit disc, a rotating cylinder, a throwing outlet, a material distribution cone, an impeller, a feeding hopper, a light hole and a matching hole with a bulge, wherein the drying motor is connected with the coupling I, the coupling I is connected with the shaft with a bulge, the shaft with a bulge is in sliding connection with the matching hole with the bulge, the matching hole with the bulge is arranged on the shaft I with the bulge, the bulge disc is arranged on the shaft I with the bulge, the special-shaped hole is arranged on the hollow shaft, the shaft I with the bulge is in sliding connection with the special-shaped hole, the built-in spring is sleeved on the shaft I with the bulge, the built-in spring abuts against the middle limit disc, the middle limit disc is connected with the shaft I with the bulge, the middle limit disc is in sliding connection with the hollow shaft, the shaft I, the throwing outlet is arranged on the rotating cylinder, the material distributing cone is arranged in the rotating cylinder, the impeller is connected with the rotating cylinder, and the feeding hopper is connected with the rotating cylinder; the support frame mechanism comprises a disc support leg, a cross brace, an arc-shaped rod, an arc-shaped spring, an arc-shaped support, a hydraulic cylinder and a hydraulic rod, wherein the disc support leg is connected with the base, the disc support leg is connected with the arc-shaped support, the arc-shaped support is connected with the cross brace, the cross brace is connected with the arc-shaped rod, the arc-shaped spring is sleeved on the arc-shaped rod, the arc-shaped support is connected with the hydraulic cylinder, and the hydraulic cylinder is connected; the drying support mechanism comprises a base I, an upright post, a circular support, a bearing seat A, a vertical rod and a limiting plate, wherein the base I is connected with the base, the base I is connected with the upright post, the upright post is connected with the circular support, the circular support is connected with the bearing seat A, the bearing seat A is connected with the hollow shaft in a bearing mode, the vertical rod is connected with the circular support, and the vertical rod is connected with the limiting plate; the sliding cylinder mechanism comprises a sliding cylinder body, a sliding hole I, a connecting seat I, a hinge seat, a groove and an embedded groove, wherein the sliding hole I is formed in the sliding cylinder body and is connected with a vertical rod in a sliding mode; the scraping mechanism comprises an arc-shaped plate seat, an arc-shaped hole and a scraping strip, wherein the arc-shaped hole is formed in the arc-shaped plate seat, the arc-shaped plate seat is connected with the scraping strip, the scraping strip is hinged to a circular support, the groove is connected with the scraping strip in a sliding mode, the embedded groove is connected with the scraping strip in a sliding mode, the arc-shaped hole is connected with an arc-shaped rod in a sliding mode, and the arc-shaped spring is abutted to the arc-shaped plate seat.

As a further optimization of the technical scheme, the receiving mechanism of the seed drying equipment comprises a supporting leg I, a receiving hopper body, a side-connected material groove, a linkage mechanism, an outlet, a stepped groove, a sliding rod I, a reset spring, a linkage opening and an advancing opening, wherein the supporting leg I is connected with the receiving hopper body, the side-connected material groove is formed in the receiving hopper body, the linkage mechanism is connected with the stepped groove in a sliding manner, the linkage mechanism is connected with the sliding rod I in a sliding manner, the reset spring abuts against the linkage mechanism, the stepped groove is formed in the receiving hopper body, the linkage opening is communicated with the side-connected material groove, and the outlet is formed in the receiving hopper body; the linkage mechanism comprises a linkage arm, an arrow pushing seat, a step seat and a unthreaded hole I, the linkage arm is hinged to the hinged seat, the linkage arm is hinged to the arrow pushing seat, the arrow pushing seat is connected with the step seat, the step seat is in sliding connection with the step groove, the reset spring abuts against the step seat, the unthreaded hole I is formed in the step seat, and the unthreaded hole I is in sliding connection with the sliding rod I.

As a further optimization of the technical scheme, the scraper of the seed drying equipment is made of high manganese steel.

The seed drying equipment has the beneficial effects that:

according to the seed drying equipment, smooth feeding can be performed, the seeds can be uniformly distributed, the equipment can dry efficiently, and the seeds can be completely discharged without residues.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural diagram of a seed drying apparatus according to the present invention.

FIG. 2 is a second schematic structural diagram of a seed drying apparatus according to the present invention.

FIG. 3 is a third schematic structural view of a seed drying apparatus according to the present invention.

Fig. 4 is a schematic structural diagram of a feeding mechanism 1 of a seed drying apparatus according to the present invention.

FIG. 5 is a schematic structural view of a feeding frame 1-5 of a seed drying apparatus according to the present invention.

FIG. 6 is a schematic structural diagram of an anti-blocking mechanism 1-6 of a seed drying apparatus according to the present invention.

Fig. 7 is a first structural schematic diagram of the drying mechanism 2 of the seed drying apparatus of the present invention.

Fig. 8 is a second schematic structural diagram of the drying mechanism 2 of the seed drying apparatus of the present invention.

Fig. 9 is a third schematic structural diagram of the drying mechanism 2 of the seed drying apparatus of the present invention.

Fig. 10 is a fourth schematic structural diagram of the drying mechanism 2 of the seed drying apparatus of the present invention.

FIG. 11 is a first schematic structural diagram of a slide drying mechanism 2-1 of a seed drying apparatus according to the present invention.

FIG. 12 is a second schematic structural view of a sliding drying mechanism 2-1 of a seed drying apparatus according to the present invention.

FIG. 13 is a third schematic structural view of a sliding drying mechanism 2-1 of a seed drying apparatus according to the present invention.

Fig. 14 is a schematic structural diagram of a supporting frame mechanism 2-2 of the seed drying apparatus of the present invention.

FIG. 15 is a schematic structural view of a drying support mechanism 2-3 of a seed drying apparatus according to the present invention.

FIG. 16 is a first schematic structural diagram of a sliding drum mechanism 2-4 of a seed drying apparatus according to the present invention.

FIG. 17 is a second schematic structural view of a sliding drum mechanism 2-4 of a seed drying apparatus according to the present invention.

FIG. 18 is a schematic structural diagram of a scraping mechanism 2-5 of a seed drying apparatus according to the present invention.

Fig. 19 is a first structural schematic diagram of a material receiving mechanism 3 of the seed drying apparatus of the present invention.

Fig. 20 is a second structural schematic diagram of the material receiving mechanism 3 of the seed drying device of the present invention.

Fig. 21 is a third schematic structural view of the material receiving mechanism 3 of the seed drying apparatus of the present invention.

FIG. 22 is a schematic structural diagram of a linkage mechanism 3-4 of the seed drying apparatus of the present invention.

In the figure: a feeding mechanism 1; a base 1-1; a belt frame 1-2; a roller 1-3 at the tail part of the belt shaft; 1-4 of a belt with a convex plate; a feeding frame mechanism 1-5; a feeding frame body 1-5-1; 1-5-2 parts of a bucket outlet; 1-5-3 of a bucket body; 1-5-4 of a bucket inlet; 1-6 parts of an anti-blocking mechanism; 1-6-1 of a scraper; 1-6-2 of a ring plate; 1-6-3 of a gear ring; belt shaft middle transmission roller 1-7; a roller 1-8 with a shaft head; 1-9 of a coupler; 1-10 of a motor; a pinch roller 1-11 with a shaft; gears 1-12; 1-13 of a gear motor; a drying mechanism 2; a sliding drying mechanism 2-1; drying motor 2-1-1; a coupler I2-1-2; 2-1-3 of a shaft with a bulge; 2-1-4 of a convex disc; a shaft I2-1-5 with a bulge; hollow shafts 2-1-6; 2-1-7 of special-shaped holes; 2-1-8 parts of an internal spring; 2-1-9 of a middle limiting disc; 2-1-10 of a rotary cylinder; 2-1-11 of a throwing port; 2-1-12 parts of a material separating cone; 2-1-13 of an impeller; 2-1-14 parts of a feed hopper; 2-1-15 of a light hole; the matching hole with the protruding shaft is 2-1-16; a support frame mechanism 2-2; 2-2-1 of a disc supporting leg; 2-2-2 of a cross brace; 2-2-3 of an arc rod; 2-2-4 of an arc spring; 2-2-5 of an arc support; 2-2-6 of a hydraulic cylinder; 2-2-7 of a hydraulic rod; 2-3 of a drying support mechanism; base I2-3-1; 2-3-2 of a stand column; 2-3-3 of a circular support; bearing seat A2-3-4; 2-3-5 parts of a vertical rod; 2-3-6 parts of a limiting plate; a sliding cylinder mechanism 2-4; a sliding cylinder body 2-4-1; a slide hole I2-4-2; connecting seat I2-4-3; the hinge seats are 2-4-4; 2-4-5 of grooving; 2-4-6 of an embedded groove; 2-5 of a scraping mechanism; 2-5-1 of an arc-shaped plate seat; 2-5-2 of arc-shaped holes; 2-5-3 parts of scraping strips; a material receiving mechanism 3; leg I3-1; a receiving hopper body 3-2; side material grooves 3-3; 3-4 of a linkage mechanism; 3-4-1 of a linkage arm; pushing the seat 3-4-2 by an arrow; 3-4-3 of a step seat; unthreaded hole I3-4-4; 3-5 of an outlet; 3-6 parts of a stepped groove; a slide bar I3-7; 3-8 parts of a return spring; 3-9 of a linkage port; front inlet 3-10.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present invention relates to a drying apparatus, and more specifically, to a seed drying apparatus, including a feeding mechanism 1, a drying mechanism 2, and a material receiving mechanism 3, which can smoothly feed, uniformly distribute seeds, efficiently dry, and discharge all seeds without residue.

The feeding mechanism 1 is connected with the drying mechanism 2, the drying mechanism 2 is connected with the material receiving mechanism 3, and the material receiving mechanism 3 is connected with the feeding mechanism 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22. the embodiment further describes the embodiment, and the feeding mechanism 1 includes a base 1-1, a belt frame 1-2, a belt shaft tail roller 1-3, a belt with a raised plate 1-4, a feeding frame mechanism 1-5, an anti-blocking mechanism 1-6, a belt shaft intermediate transmission roller 1-7, a belt shaft head roller 1-8, a coupling 1-9, a motor 1-10, a belt shaft pressing wheel 1-11, a gear 1-12, a gear motor 1-13, the base 1-1 is connected with the belt frame 1-2, the connection mode of the belt rack 1-2 and the belt shaft tail roller 1-3 is bearing connection, the belt shaft tail roller 1-3 and the belt with a convex plate 1-4 are flexibly connected, the belt with a convex plate 1-4 and the belt shaft middle transmission roller 1-7 are flexibly connected, the connection mode of the belt shaft middle transmission roller 1-7 and the belt rack 1-2 is bearing connection, the feeding rack mechanism 1-5 is connected with the base 1-1, the connection mode of the feeding rack mechanism 1-5 and the anti-blocking mechanism 1-6 is bearing connection, the anti-blocking mechanism 1-6 is meshed with the gear 1-12, the gear 1-12 is connected with the gear motor 1-13, the gear motor 1-13 is connected with the feeding rack mechanism 1-5, the connection mode of the belt shaft head roller 1-8 and the belt rack 1-2 is bearing connection, a roller 1-8 at the head part of the belt shaft is connected with a motor 1-10 through a coupler 1-9, the motor 1-10 is connected with a belt frame 1-2, a pressure roller 1-11 with the belt shaft is connected with the belt frame 1-2 through a bearing, and the pressure roller 1-11 with the belt shaft is flexibly connected with a belt 1-4 with a raised plate; the feeding frame mechanism 1-5 comprises a feeding frame body 1-5-1, a hopper outlet 1-5-2, a hopper body 1-5-3 and a hopper inlet 1-5-4, wherein the feeding frame body 1-5-1 is connected with the hopper body 1-5-3, the hopper outlet 1-5-2 is arranged on the hopper body 1-5-3, and the hopper inlet 1-5-4 is arranged on the hopper body 1-5-3; the anti-blocking mechanism 1-6 comprises a scraper plate 1-6-1, a ring plate 1-6-2 and a gear ring 1-6-3, the scraper plate 1-6-1 is connected with the ring plate 1-6-2, the ring plate 1-6-2 is connected with the gear ring 1-6-3, the gear ring 1-6-3 is meshed with a gear 1-12, the ring plate 1-6-2 is connected with a feeding frame mechanism 1-5 through a bearing, a motor 1-10 and a gear motor 1-13 are synchronously operated, the gear motor 1-13 drives the gear 1-12 to rotate, the gear 1-12 rotates to drive the gear ring 1-6-3 to rotate, the gear ring 1-6-3 rotates to drive the ring plate 1-6-2 to rotate, the ring plate 1-6-2 rotates to drive the scraper plate 1-6-1 to do circular motion, seeds are placed in the ring plate, the seeds are discharged from the hopper outlet 1-5-2 and fall onto the belt with the convex plate 1-4, the scraper plate 1-6-1 which does circular motion drives the seeds to be smoothly discharged, the seeds are prevented from being stuck on the hopper body 1-5-3, the motor 1-10 operates to drive the coupler 1-9 to rotate, the coupler 1-9 rotates to drive the belt with the convex plate 1-4 to move, and the belt with the convex plate 1-4 moves to convey the seeds into the feed hopper 2-1-14.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the embodiment further describes the first embodiment, where the drying mechanism 2 includes a sliding drying mechanism 2-1, a support frame mechanism 2-2, a drying support mechanism 2-3, a sliding cylinder mechanism 2-4, and a scraping mechanism 2-5, the sliding drying mechanism 2-1 is connected to the drying support mechanism 2-3, the drying support mechanism 2-3 is connected to the sliding cylinder mechanism 2-4, the sliding cylinder mechanism 2-4 is connected to the support frame mechanism 2-2, the support frame mechanism 2-2 is connected to the scraping mechanism 2-5, the scraping mechanism 2-5 is connected with the drying supporting mechanism 2-3; the sliding drying mechanism 2-1 comprises a drying motor 2-1-1, a coupler I2-1-2, a shaft with a bulge shaft 2-1-3, a bulge disc 2-1-4, a shaft with a bulge shaft I2-1-5, a hollow shaft 2-1-6, a special-shaped hole 2-1-7, an internal spring 2-1-8, a middle limiting disc 2-1-9, a rotating cylinder 2-1-10, a throwing outlet 2-1-11, a material distributing cone 2-1-12, an impeller 2-1-13, a feeding hopper 2-1-14, a unthreaded hole 2-1-15 and a matching hole with a bulge shaft 2-1-16, wherein the drying motor 2-1-1 is connected with the coupler I2-1-2, the coupler I2-1-2 is connected with a shaft with a bulge 2-1-3, the shaft with the bulge 2-1-3 is connected with a matching hole with the bulge 2-1-16 in a sliding way, the matching hole with the bulge 2-1-16 is arranged on a shaft with the bulge I2-1-5, a bulge disc 2-1-4 is arranged on the shaft with the bulge I2-1-5, a special-shaped hole 2-1-7 is arranged on a hollow shaft 2-1-6, the shaft with the bulge I2-1-5 is connected with the special-shaped hole 2-1-7 in a sliding way, an inner spring 2-1-8 is sleeved on the shaft with the bulge I2-1-5, an inner spring 2-1-8 is propped against a middle limit disc 2-1-9, the middle limit disc 2-1-9 is connected with the shaft with the bulge I2-1-5, the middle limiting disc 2-1-9 is connected with the hollow shaft 2-1-6 in a sliding way, the shaft I2-1-5 with the bulge is connected with the unthreaded hole 2-1-15 in a sliding way, the unthreaded hole 2-1-15 is arranged on the hollow shaft 2-1-6, the rotating cylinder 2-1-10 is connected with the shaft I2-1-5 with the bulge, the throwing outlet 2-1-11 is arranged on the rotating cylinder 2-1-10, the material separating cone 2-1-12 is arranged in the rotating cylinder 2-1-10, the impeller 2-1-13 is connected with the rotating cylinder 2-1-10, the feed hopper 2-1-14 is connected with the rotating cylinder 2-1-10, the drying motor 2-1-1 clicks the operation coupler to drive the I2-1-2 to rotate, the coupler I2-1-2 rotates to drive the shaft 2-1-3 with the bulge to rotate, the shaft 2-1-3 with the bulge drives the shaft I2-1-5 with the bulge to rotate, the shaft I2-1-5 with the bulge drives the rotary cylinder 2-1-10 to rotate, the rotary cylinder 2-1-10 rotates to drive the feed hopper 2-1-14 to rotate, the feed hopper 2-1-14 is driven to move downwards due to the large amount of seeds when the seeds fall into the feed hopper 2-1-14, the feed hopper 2-1-14 drives the rotary cylinder 2-1-10 to move downwards, the rotary cylinder 2-1-10 moves downwards to compress the built-in spring 2-1-8 through the middle limiting disc 2-1-9, then the rotating cylinder 2-1-10 can rotate while being in the up-and-down reciprocating motion state under the action of the elastic force of the built-in spring 2-1-8, thus, the seeds can be smoothly moved downwards and simultaneously thrown out from the throwing-out openings 2-1-11, so that the seeds can be uniformly dispersed in the sliding cylinder body 2-4-1, the rotating cylinder 2-1-10 rotates when moving up and down to drive the impeller 2-1-13 to rotate when moving up and down, so that the impellers 2-1-13 rotate to form downward wind to dry the seeds, the impellers 2-1-13 move up and down to form convection, so that water is taken away, and the seeds can be dried quickly due to uniform distribution of the seeds; the support frame mechanism 2-2 comprises a disc support leg 2-2-1, a cross brace 2-2-2, an arc rod 2-2-3, an arc spring 2-2-4, an arc support 2-2-5, a hydraulic cylinder 2-2-6 and a hydraulic rod 2-2-7, the disc support leg 2-2-1 is connected with a base 1-1, the disc support leg 2-2-1 is connected with the arc support 2-2-5, the arc support 2-2-5 is connected with the cross brace 2-2-2, the cross brace 2-2-2 is connected with the arc rod 2-2-3, the arc spring 2-2-4 is sleeved on the arc rod 2-2-3, the arc support 2-2-5 is connected with the hydraulic cylinder 2-2-6, the hydraulic cylinder 2-2-6 is connected with the hydraulic rod 2-2-7; the drying support mechanism 2-3 comprises a base I2-3-1, an upright post 2-3-2, a round support 2-3-3, a bearing seat A2-3-4, a vertical rod 2-3-5 and a limit plate 2-3-6, wherein the base I2-3-1 is connected with a base 1-1, the base I2-3-1 is connected with the upright post 2-3-2, the upright post 2-3-2 is connected with the round support 2-3-3, the round support 2-3-3 is connected with the bearing seat A2-3-4, the bearing seat A2-3-4 is connected with a hollow shaft 2-1-6 in a bearing mode, the vertical rod 2-3-5 is connected with the round support 2-3-3, the vertical rod 2-3-5 is connected with the limiting plate 2-3-6; the sliding cylinder mechanism 2-4 comprises a sliding cylinder body 2-4-1, a sliding hole I2-4-2, a connecting seat I2-4-3, a hinged seat 2-4-4, a slot 2-4-5 and an embedded slot 2-4-6, wherein the sliding hole I2-4-2 is formed in the sliding cylinder body 2-4-1, the sliding hole I2-4-2 is connected with a vertical rod 2-3-5 in a sliding mode, the sliding cylinder body 2-4-1 is connected with the connecting seat I2-4-3, the connecting seat I2-4-3 is connected with a hydraulic rod 2-2-7, the hinged seat 2-4-4 is connected with the sliding cylinder body 2-4-1, the slot 2-4-5 is formed in the sliding cylinder body 2-4-1, the embedded groove 2-4-6 is arranged on the sliding cylinder body 2-4-1; the scraping mechanism 2-5 comprises an arc-shaped plate seat 2-5-1 and an arc-shaped hole 2-5-2, 2-5-3 of a scraping strip, 2-5-2 of an arc hole is arranged on 2-5-1 of an arc plate seat, 2-5-1 of the arc plate seat is connected with 2-5-3 of the scraping strip, 2-5-3 of the scraping strip is hinged with 2-3-3 of a round support, 2-4-5 of a groove is connected with 2-5-3 of the scraping strip in a sliding way, 2-4-6 of an embedded groove is connected with 2-5-3 of the scraping strip in a sliding way, 2-5-2 of the arc hole is connected with 2-2-3 of an arc rod in a sliding way, and 2-2-4 of an arc spring is abutted against 2-5-1 of the arc plate seat.

The fourth concrete implementation mode:

the embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22. the receiving mechanism 3 includes a leg I3-1, a receiving hopper body 3-2, a side receiving groove 3-3, a link mechanism 3-4, an outlet 3-5, a stepped groove 3-6, a slide bar I3-7, a return spring 3-8, a link port 3-9, and an advancing port 3-10, the leg I3-1 is connected to the receiving hopper body 3-2, the side receiving groove 3-3 is opened to the receiving hopper body 3-2, the link mechanism 3-4 is slidably connected to the stepped groove 3-6, the linkage mechanism 3-4 is connected with a slide bar I3-7 in a sliding manner, a return spring 3-8 is abutted against the linkage mechanism 3-4, a stepped groove 3-6 is formed in the receiving hopper body 3-2, an outlet 3-5 is communicated with a side material groove 3-3 through a linkage port 3-9, and the outlet 3-5 is arranged on the receiving hopper body 3-2; the linkage mechanism 3-4 comprises a linkage arm 3-4-1, an arrow pushing seat 3-4-2, a step seat 3-4-3 and a unthreaded hole I3-4-4, the linkage arm 3-4-1 is hinged with a hinged seat 2-4-4, the linkage arm 3-4-1 is hinged with the arrow pushing seat 3-4-2, the arrow pushing seat 3-4-2 is connected with the step seat 3-4-3, the step seat 3-4-3 is connected with a step groove 3-6 in a sliding way, a reset spring 3-8 is propped against the step seat 3-4-3, the unthreaded hole I3-4-4 is opened on the step seat 3-4-3, the unthreaded hole I3-4-4 is connected with a sliding rod I3-7 in a sliding way, when dried seeds need to be discharged, hydraulic oil can be injected into the hydraulic cylinder 2-2-6, the hydraulic rod 2-2-7 can move upwards under the drive of the hydraulic oil, the hydraulic rod 2-2-7 can move upwards to drive the connecting seat I2-4-3 to move upwards, the connecting seat I2-4-3 can move upwards to drive the sliding cylinder body 2-4-1 to move upwards, the sliding cylinder body 2-4-1 can move upwards to drive the linkage arm 3-4-1 to pull the arrow to push the seat 3-4-2, the arrow pushes the seat 3-4-2 to drive the scraping strip 2-5-3 to separate towards two sides, so that the scraping strip 2-5-3 can push the seeds outwards, the seeds can be pushed into the side material groove 3-3 and the forward opening 3-10 and then collected and discharged from the outlet 3-5, after the unloading is finished, hydraulic oil is reversely injected into the hydraulic cylinder 2-2-6 to drive the sliding cylinder body 2-4-1 to reset, and the arrow head pushing seat 3-4-2 can reset under the action of the reset spring 3-8.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present embodiment further describes the first embodiment in which the blade 1-6-1 is made of high manganese steel.

The working principle of the device is as follows: the device can smoothly feed, the motors 1-10 and the gear motors 1-13 are synchronously operated, the gear motors 1-13 can drive the gears 1-12 to rotate, the gears 1-12 can drive the gear rings 1-6-3 to rotate, the gear rings 1-6-3 can drive the ring plates 1-6-2 to rotate, the ring plates 1-6-2 can drive the scraping plates 1-6-1 to circularly move, seeds are put in the device, the seeds can be discharged from the hopper outlets 1-5-2 and fall onto the belts 1-4 with the convex plates, the scraping plates 1-6-1 which circularly move can drive the seeds to smoothly discharge, the seeds are prevented from being adhered to the hopper bodies 1-5-3, the motors 1-10 can drive the couplers 1-9 to rotate, the coupler 1-9 rotates to drive the belt with the convex plate 1-4 to move, and the belt with the convex plate 1-4 moves to convey seeds into the feed hopper 2-1-14; the device can evenly distribute seeds, the drive shaft coupling I2-1-2 to rotate through the click operation of the drying motor 2-1-1, the rotation of the shaft coupling I2-1-2 can drive the shaft with the bulge 2-1-3 to rotate, the rotation of the shaft with the bulge 2-1-3 can drive the shaft with the bulge I2-1-5 to rotate, the rotation of the shaft with the bulge I2-1-5 can drive the rotating cylinder 2-1-10 to rotate, the rotation of the rotating cylinder 2-1-10 can drive the feed hopper 2-1-14 to rotate, when the seeds fall into the feed hopper 2-1-14, the feed hopper 2-1-14 can be driven to move downwards due to large seed quantity, the feed hopper 2-1-14 can drive the rotating cylinder 2-1-10 to move downwards, the downward movement of the rotating cylinder 2-1-10 can compress the built-in spring 2-1-8 through the middle limiting disc 2-1-9, and then the reset is carried out under the elastic force action of the built-in spring 2-1-8, so that the rotating cylinder 2-1-10 can rotate while being in a vertically reciprocating movement state, and seeds can be smoothly moved downward and thrown out of the throwing-out opening 2-1-11, so that the seeds can be uniformly dispersed in the sliding cylinder body 2-4-1; the equipment can dry efficiently, the rotating cylinder 2-1-10 rotates while moving up and down to drive the impeller 2-1-13 to rotate while moving up and down, so that the impeller 2-1-13 rotates to form downward wind to dry seeds, and meanwhile, convection is formed due to the up-and-down movement of the impeller 2-1-13, so that moisture is taken away, and the drying of the seeds can be accelerated due to the uniform distribution of the seeds; the device can discharge all seeds without residue, when dry seeds need to be discharged, hydraulic oil can be injected into the hydraulic cylinder 2-2-6, the hydraulic rod 2-2-7 can move upwards under the driving of the hydraulic oil, the hydraulic rod 2-2-7 can move upwards to drive the connecting seat I2-4-3 to move upwards, the connecting seat I2-4-3 can move upwards to drive the sliding cylinder body 2-4-1 to move upwards, the sliding cylinder body 2-4-1 moves upwards to drive the linkage arm 3-4-1 to pull the arrow pushing seat 3-4-2, the arrow pushing seat 3-4-2 can drive the scraping strips 2-5-3 to separate towards two sides, so that the scraping strips 2-5-3 can push the seeds outwards, the seeds are pushed into a side material groove 3-3 and a front opening 3-10, then are collected and discharged from an outlet 3-5, hydraulic oil is reversely injected into a hydraulic cylinder 2-2-6 after discharging to drive a sliding cylinder body 2-4-1 to reset, and an arrow head pushing seat 3-4-2 resets under the action of a reset spring 3-8.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a seed drying equipment, includes feed mechanism (1), stoving mechanism (2), receiving agencies (3), its characterized in that: the feeding mechanism (1) is connected with the drying mechanism (2), the drying mechanism (2) is connected with the material receiving mechanism (3), and the material receiving mechanism (3) is connected with the feeding mechanism (1).

2. The seed drying apparatus of claim 1, wherein: the feeding mechanism (1) comprises a base (1-1), a belt rack (1-2), a belt shaft tail roller (1-3), a belt with a convex plate (1-4), a feeding rack mechanism (1-5), an anti-blocking mechanism (1-6), a belt shaft middle transmission roller (1-7), a belt shaft head roller (1-8), a coupler (1-9), a motor (1-10), a belt shaft pressing wheel (1-11), a gear (1-12) and a gear motor (1-13), wherein the base (1-1) is connected with the belt rack (1-2), the belt rack (1-2) is connected with the belt shaft tail roller (1-3) through a bearing, the belt shaft tail roller (1-3) is flexibly connected with the belt with the convex plate (1-4), the belt (1-4) with the convex plate is flexibly connected with the belt shaft middle transmission roller (1-7), the connection mode of the belt shaft middle transmission roller (1-7) and the belt frame (1-2) is bearing connection, the feeding frame mechanism (1-5) is connected with the base (1-1), the connection mode of the feeding frame mechanism (1-5) and the anti-blocking mechanism (1-6) is bearing connection, the anti-blocking mechanism (1-6) is meshed with the gear (1-12), the gear (1-12) is connected with the gear motor (1-13), the gear motor (1-13) is connected with the feeding frame mechanism (1-5), the connection mode of the belt shaft head roller (1-8) and the belt frame (1-2) is bearing connection, the belt shaft head roller (1-8) is connected with the motor (1-10) through the coupler (1-9), the motor (1-10) is connected with the belt rack (1-2), the connection mode of the belt shaft pinch roller (1-11) and the belt rack (1-2) is bearing connection, and the belt shaft pinch roller (1-11) is flexibly connected with the belt (1-4) with the raised plate; the feeding frame mechanism (1-5) comprises a feeding frame body (1-5-1), a hopper outlet (1-5-2), a hopper body (1-5-3) and a hopper inlet (1-5-4), wherein the feeding frame body (1-5-1) is connected with the hopper body (1-5-3), the hopper outlet (1-5-2) is arranged on the hopper body (1-5-3), and the hopper inlet (1-5-4) is arranged on the hopper body (1-5-3); the anti-blocking mechanism (1-6) comprises a scraper (1-6-1), a ring plate (1-6-2) and a gear ring (1-6-3), wherein the scraper (1-6-1) is connected with the ring plate (1-6-2), the ring plate (1-6-2) is connected with the gear ring (1-6-3), the gear ring (1-6-3) is meshed with a gear (1-12), and the ring plate (1-6-2) is connected with the feeding frame mechanism (1-5) in a bearing manner.

3. The seed drying apparatus of claim 1, wherein: the drying mechanism (2) comprises a sliding drying mechanism (2-1), a support frame mechanism (2-2), a drying support mechanism (2-3), a sliding cylinder mechanism (2-4) and a scraping mechanism (2-5), the sliding drying mechanism (2-1) is connected with the drying support mechanism (2-3), the drying support mechanism (2-3) is connected with the sliding cylinder mechanism (2-4), the sliding cylinder mechanism (2-4) is connected with the support frame mechanism (2-2), the support frame mechanism (2-2) is connected with the scraping mechanism (2-5), and the scraping mechanism (2-5) is connected with the drying support mechanism (2-3); the sliding drying mechanism (2-1) comprises a drying motor (2-1-1), a coupler I (2-1-2), a shaft with a bulge (2-1-3), a bulge disc (2-1-4), a shaft with a bulge I (2-1-5), a hollow shaft (2-1-6), a special-shaped hole (2-1-7), an internal spring (2-1-8), a middle limiting disc (2-1-9), a rotating cylinder (2-1-10), a throwing outlet (2-1-11), a material dividing cone (2-1-12), an impeller (2-1-13), a feed hopper (2-1-14), a light hole (2-1-15) and a matching hole with a bulge (2-1-16), a drying motor (2-1-1) is connected with a coupler I (2-1-2), the coupler I (2-1-2) is connected with a shaft with a bulge (2-1-3), the shaft with the bulge (2-1-3) is in sliding connection with a matching hole with the bulge (2-1-16), the matching hole with the bulge (2-1-16) is arranged on the shaft with the bulge (2-1-5), a bulge disc (2-1-4) is arranged on the shaft with the bulge (2-1-5), a special-shaped hole (2-1-7) is arranged on a hollow shaft (2-1-6), the shaft with the bulge (2-1-5) is in sliding connection with the special-shaped hole (2-1-7), and an internal spring (2-1-8) is sleeved on the shaft with the bulge (2-1-5), the built-in spring (2-1-8) is supported on the middle limiting disc (2-1-9), the middle limiting disc (2-1-9) is connected with the shaft I (2-1-5) with the boss, the middle limiting disc (2-1-9) is connected with the hollow shaft (2-1-6) in a sliding way, the shaft I (2-1-5) with the boss is connected with the unthreaded hole (2-1-15) in a sliding way, the unthreaded hole (2-1-15) is arranged on the hollow shaft (2-1-6), the rotating cylinder (2-1-10) is connected with the shaft I (2-1-5) with the boss, the throwing outlet (2-1-11) is arranged on the rotating cylinder (2-1-10), the material distributing cone (2-1-12) is arranged in the rotating cylinder (2-1-10), the impeller (2-1-13) is connected with the rotating cylinder (2-1-10), and the feed hopper (2-1-14) is connected with the rotating cylinder (2-1-10); the support frame mechanism (2-2) comprises a disc support leg (2-2-1), a cross brace (2-2-2), an arc rod (2-2-3), an arc spring (2-2-4), an arc support (2-2-5), a hydraulic cylinder (2-2-6) and a hydraulic rod (2-2-7), wherein the disc support leg (2-2-1) is connected with the base (1-1), the disc support leg (2-2-1) is connected with the arc support (2-2-5), the arc support (2-2-5) is connected with the cross brace (2-2-2), the cross brace (2-2-2) is connected with the arc rod (2-2-3), the arc spring (2-2-4) is sleeved on the arc rod (2-2-3), the arc-shaped support (2-2-5) is connected with the hydraulic cylinder (2-2-6), and the hydraulic cylinder (2-2-6) is connected with the hydraulic rod (2-2-7); the drying support mechanism (2-3) comprises a base I (2-3-1), an upright post (2-3-2), a round support (2-3-3), a bearing seat A (2-3-4), a vertical rod (2-3-5) and a limiting plate (2-3-6), wherein the base I (2-3-1) is connected with the base (1-1), the base I (2-3-1) is connected with the upright post (2-3-2), the upright post (2-3-2) is connected with the round support (2-3-3), the round support (2-3-3) is connected with the bearing seat A (2-3-4), the bearing seat A (2-3-4) is connected with a hollow shaft (2-1-6) by a bearing, the vertical rod (2-3-5) is connected with the round support (2-3-3), and the vertical rod (2-3-5) is connected with the limiting plate (2-3-6); the sliding cylinder mechanism (2-4) comprises a sliding cylinder body (2-4-1), a sliding hole I (2-4-2), a connecting seat I (2-4-3), a hinged seat (2-4-4), a slot (2-4-5) and an embedded groove (2-4-6), wherein the sliding hole I (2-4-2) is formed in the sliding cylinder body (2-4-1), the sliding hole I (2-4-2) is connected with a vertical rod (2-3-5) in a sliding manner, the sliding cylinder body (2-4-1) is connected with the connecting seat I (2-4-3), the connecting seat I (2-4-3) is connected with a hydraulic rod (2-2-7), the hinged seat (2-4-4) is connected with the sliding cylinder body (2-4-1), the open slot (2-4-5) is arranged on the sliding cylinder body (2-4-1), and the embedded slot (2-4-6) is arranged on the sliding cylinder body (2-4-1); the scraping mechanism (2-5) comprises an arc-shaped plate seat (2-5-1), arc-shaped holes (2-5-2) and scraping strips (2-5-3), the arc-shaped holes (2-5-2) are formed in the arc-shaped plate seat (2-5-1), the arc-shaped plate seat (2-5-1) is connected with the scraping strips (2-5-3), the scraping strips (2-5-3) are hinged with a round support (2-3-3), the slots (2-4-5) are in sliding connection with the scraping strips (2-5-3), the embedded slots (2-4-6) are in sliding connection with the scraping strips (2-5-3), the arc-shaped holes (2-5-2) are in sliding connection with the arc-shaped rods (2-2-3), the arc-shaped spring (2-2-4) is propped against the arc-shaped plate seat (2-5-1).

4. The seed drying apparatus of claim 1, wherein: the receiving mechanism (3) comprises a supporting leg I (3-1), a receiving hopper body (3-2), a side feed groove (3-3), a linkage mechanism (3-4), an outlet (3-5), a step groove (3-6), a sliding rod I (3-7), a reset spring (3-8), a linkage port (3-9) and a front inlet (3-10), wherein the supporting leg I (3-1) is connected with the receiving hopper body (3-2), the side feed groove (3-3) is arranged on the receiving hopper body (3-2), the linkage mechanism (3-4) is in sliding connection with the step groove (3-6), the linkage mechanism (3-4) is in sliding connection with the sliding rod I (3-7), and the reset spring (3-8) is abutted against the linkage mechanism (3-4), the stepped groove (3-6) is formed in the receiving hopper body (3-2), the linkage port (3-9) connects the outlet (3-5) with the side receiving groove (3-3), and the outlet (3-5) is arranged on the receiving hopper body (3-2); the linkage mechanism (3-4) comprises a linkage arm (3-4-1), an arrow pushing seat (3-4-2), a step seat (3-4-3) and a unthreaded hole I (3-4-4), the linkage arm (3-4-1) is hinged with the hinged seat (2-4-4), the linkage arm (3-4-1) is hinged with the arrow pushing seat (3-4-2), the arrow pushing seat (3-4-2) is connected with the step seat (3-4-3), the step seat (3-4-3) is connected with the step groove (3-6) in a sliding way, a reset spring (3-8) abuts against the step seat (3-4-3), the unthreaded hole I (3-4-4) is arranged on the step seat (3-4-3), the unthreaded hole I (3-4-4) is connected with the sliding rod I (3-7) in a sliding way.

5. The seed drying apparatus of claim 2, wherein: the scraper (1-6-1) is made of high manganese steel.

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