CN111891694A

CN111891694A - Grain lifting machine

Info

Publication number: CN111891694A
Application number: CN202010757599.9A
Authority: CN
Inventors: 陈金汀
Original assignee: Beijing Shengshi Guoheng Real Estate Agency Co ltd
Current assignee: Anhui Rongxia Intelligent Technology Co ltd
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2020-11-06
Anticipated expiration: 2040-07-31
Also published as: CN111891694B

Abstract

The invention discloses a grain elevator, which structurally comprises a base, a feed hopper, a conveying groove, a hopper and a discharge port, wherein the feed hopper is arranged at the top of the left side of the base, the conveying groove is vertically embedded at the top of the right side of the base, the discharge port is arranged at the bottom of the conveying groove, part of paddy falls down and falls off in the process of ascending of the hopper, the paddy enters from a gap between the hopper and a chain, grains in the gap of the chain are removed through the movable matching of a bottom block and the chain, the paddy falling between the chain and a gear is reduced, the chain is shaken, the hopper is shaken, more paddy falls off, the gear is blocked, the grain is continuously conveyed after being cleaned, the grain conveying time is prolonged, the chain is heated due to the long-time contact friction between a contact block of the bottom block and the chain, the position of a fan blade plate of a side plate is changed, and wind blows towards the space between, the temperature between the chain and the contact block is reduced, the lifting speed of the lifter is not changed, and grain is normally transported.

Description

Grain lifting machine

Technical Field

The invention belongs to the field of elevators, and particularly relates to a grain elevator.

Background

The elevator has a wide application range, and is used for conveying various articles, wherein after the rice is harvested, in order to accelerate the conveying of the rice, the elevator is used for conveying the rice, the position of the rice is driven to be lifted through the movable matching of a hopper of the elevator and a chain, and then the rice is poured into the carriage of the transport vehicle for conveying; among the prior art in the lifting machine carries the transportation process to corn, because the hopper is at the in-process that rises, partial corn spills and falls down and drops, and corn gets into from the gap between hopper and the chain, leads to corn to drop between chain and the gear for the chain produces the shake, thereby leads to the hopper shake, and more corn spills, and the gear card dies, and continuous transport after need clearing up increases the time that grain was carried.

Disclosure of Invention

In order to solve the problems that in the process of conveying the paddy by the lifting machine in the prior art, part of the paddy is scattered and falls down and the paddy enters from a gap between the hopper and the chain, so that the paddy falls between the chain and the gear, the chain is shaken, the hopper is shaken, more paddy is scattered and falls, the gear is blocked, the continuous conveying is required after the cleaning, and the grain conveying time is prolonged, the invention provides the grain lifting machine.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a grain lifting machine, its structure includes base, feeder hopper, conveyer trough, hopper, discharge gate, the feeder hopper is installed at base left side top, the conveyer trough inlays perpendicularly at base right side top, the discharge gate is established in the conveyer trough bottom, the hopper is installed inside the conveyer trough.

The base is equipped with bearing, gear, chain, bottom block, the bearing runs through base left side middle part, the gear is fixed at the bearing right-hand member, chain and gear meshing cooperation, the bottom block is installed inside the base, and is located the chain bottom.

As a further improvement of the invention, the bottom block is provided with side plates, supports, reset rings, push rods and brush rings, the side plates are arranged on two sides of the top of the bottom block, the supports are respectively and obliquely arranged in the bottom block, the reset rings are fixed at inner included angles between the supports, the push rods are fixed on two sides of the supports, the brush rings are arranged on the tops of the supports, and the reset rings are made of rubber materials.

As a further improvement of the invention, the brush ring is provided with an inner groove, a partition plate, springs and contact blocks, the inner groove is arranged in the brush ring, the partition plate is uniformly fixed on the inner wall of the inner groove, the springs are arranged on two sides of the partition plate, the bottoms of the contact blocks penetrate through the brush ring and are fixed in the inner groove, two sides of the contact blocks are movably matched with the springs, and the contact blocks are in an inverted triangle shape.

As a further improvement of the invention, the contact block is provided with three clamping grooves, rolling balls and three pushing blocks, the clamping grooves are arranged at the middle upper position in the contact block, the rolling balls are arranged in the clamping grooves, the pushing blocks are fixed at the top of the contact block, and the three rolling balls are made of steel materials.

As a further improvement of the invention, the ejector block is provided with a sliding groove and a feed inlet, the sliding groove is sunken in the top of the ejector block, the feed inlet penetrates through two sides of the ejector block, and the sliding groove is an arc smooth surface.

As a further improvement of the invention, the side plate is provided with a slide rail, a moving block, a slide block, a reset block, two elastic rings and two fan blade plates, the slide rail is arranged at the inner bottom of the side plate, the moving block is movably matched with the slide rail through the slide block, the reset block is fixed at two sides of the inner bottom of the side plate, the fan blade plates penetrate through the top of the side plate and are fixed at the bottom of the slide rail, the elastic rings are arranged between the fan blade plates, the number of the fan blade plates is three, the fan blade plates are semicircular, and the number of the elastic rings is two.

As a further improvement of the invention, the fan blade plate is provided with the spacer blocks and the grooves, the spacer blocks are fixed on the surface of the fan blade plate, the grooves are sunken on the surface of the fan blade plate and positioned at two sides of the spacer blocks, and five grooves are arranged.

Advantageous effects

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

1. because the hopper is at the in-process that rises, partial corn spills down to drop, and corn gets into from the gap between hopper and the chain, through bottom piece and chain clearance, clears away the cereal in the chain gap, reduces corn and drops between chain and the gear for the chain produces the shake, thereby leads to the hopper shake, and more corn spills, and the gear card dies, and the continuous transport after need clearing up increases the time that the grain was carried.

2. Because the contact block of bottom block contacts the friction with the chain for a long time, makes the chain generate heat, and flabellum board position through the curb plate changes the fan, and wind blows toward between chain and the contact block for the temperature between chain and the contact block drops, makes the lifting speed of lifting machine not change, normally transports cereal.

Drawings

Fig. 1 is a schematic structural diagram of a grain elevator of the present invention.

Fig. 2 is a side sectional structural schematic view of a base according to the present invention.

FIG. 3 is a front cross-sectional structural schematic view of a bottom block of the present invention.

FIG. 4 is a front sectional structural view of a brush ring according to the present invention.

Fig. 5 is a schematic structural diagram of an interior front view of a contact block according to the present invention.

Fig. 6 is a schematic top view of a top block according to the present invention.

Fig. 7 is a front sectional structural schematic view of a side plate according to the present invention.

Fig. 8 is a schematic view of a fan blade side of the present invention.

In the figure: the device comprises a base-1, a feed hopper-2, a conveying groove-3, a hopper-4, a discharge port-5, a bearing-11, a gear-12, a chain-13, a bottom block-14, a side plate-141, a bracket-142, a reset ring-143, a push rod-144, a brush ring-145, an inner groove-a 1, a partition-a 2, a spring-a 3, a contact block-a 4, a clamping groove-a 41, a rolling ball-a 42, a top block-a 43, a sliding groove-b 1, a feed inlet-b 2, a sliding rail-c 1, a moving block-c 2, a sliding block-c 3, a reset block-c 4, an elastic ring-c 5, a fan blade-c 6, a partition-c 61 and a groove-c 62.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a grain elevator which structurally comprises a base 1, a feed hopper 2, a conveying groove 3, a hopper 4 and a discharge hole 5, wherein the feed hopper 2 is installed at the top of the left side of the base 1, the conveying groove 3 is vertically embedded at the top of the right side of the base 1, the discharge hole 5 is formed in the bottom of the conveying groove 3, and the hopper 4 is installed inside the conveying groove 3.

Base 1 is equipped with bearing 11, gear 12, chain 13, bottom block 14, bearing 11 runs through base 1 left side middle part, gear 12 is fixed at bearing 11 right-hand member, chain 13 and the cooperation of gear 12 meshing, bottom block 14 is installed inside base 1, and is located chain 13 bottom.

Wherein, the bottom block 14 is equipped with curb plate 141, support 142, reset ring 143, push rod 144, brush circle 145, curb plate 141 installs in bottom block 14 top both sides, support 142 inclines respectively to be established inside bottom block 14, reset ring 143 fixes the inside contained angle between support 142, push rod 144 fixes in support 142 both sides, brush circle 145 is established at support 142 top, reset ring 143 is the rubber material, has elasticity, and when brush circle 145 and chain 13 contact, make push rod 144 skew restore to reset ring 143 extrusion deformation production elasticity for drive support 142 restores.

The brush ring 145 is provided with an inner groove a1, a partition plate a2, a spring a3 and a contact block a4, the inner groove a1 is arranged inside the brush ring 145, the partition plate a2 is uniformly fixed on the inner wall of the inner groove a1, the spring a3 is installed on two sides of the partition plate a2, the bottom of the contact block a4 penetrates through the brush ring 145 and is fixed inside the inner groove a1, two sides of the contact block a4 are movably matched with the spring a3, and the contact block a4 is in an inverted triangle shape, so that the contact area between the top and the chain 13 is increased, and grains in gaps of the chain 13 are fully removed.

The contact block a4 is provided with a clamping groove a41, a rolling ball a42 and a top block a43, the clamping groove a41 is arranged at the middle-upper position in the contact block a4, the rolling ball a42 is arranged in the clamping groove a41, the top block a43 is fixed to the top of the contact block a4, the rolling balls a42 are three and made of steel materials, the rolling balls a42 have high gravity and collide with the inner wall of the clamping groove a41, so that the contact block a4 generates shaking force, and grain sliding of the contact block a4 is accelerated.

The top block a43 is provided with a sliding groove b1 and a feeding hole b2, the sliding groove b1 is sunken in the top of the top block a43, the feeding hole b2 penetrates through the two sides of the top block a43, the sliding groove b1 is an arc-shaped smooth surface, grains can enter the sliding groove b1, and the grains slide down to the two sides of the top block a43 along the sliding groove b 1.

The specific use mode and function of the embodiment are as follows:

in the invention, harvested grains are put into a feed hopper 2 of an elevator, the grains in the feed hopper 2 are conveyed into a hopper 4, a bearing 11 drives a gear 12 to rotate, the gear 12 is movably matched with a chain 13, the chain 13 drives the hopper 4 to ascend to convey the grains in the hopper 4 to a discharge port 5, as part of the grains fall down and fall down in the ascending process of the hopper 4, the grains enter from a gap between the hopper 4 and the chain 13 and fall between the chain 13 and the gear 12, when the chain 13 rotates, the grains are movably clamped with a bottom block 14 at the bottom in a base 1, a contact block a4 of the bottom block 14 enters into the gap between the chain 13, a top block a43 pushes the grains upwards, the grains are separated from the inner wall of the chain 13 and fall down into a chute b1 of a43, the grains slide along the chute b1 to two sides of the top block a43, and along with the rotation of the chain 13, the movement of the contact block 4 slightly extrudes a3, the spring a3 is deformed and restored to generate elastic force to enable the contact block a4 to vibrate, the rolling ball a42 collides with the inner wall of the clamping groove a41, the contact block a4 generates shaking force to accelerate the grains of the contact block a4 to slide along the sliding groove b1, the fallen grains enter along the feeding holes b2 on two sides of the top block a43 and slide towards two sides of the contact block a4, the bottom block 14 is movably matched with the chain 13 to remove the grains in the gap of the chain 13, the falling of the grains between the chain 13 and the gear 12 is reduced, the chain 13 shakes, the hopper 4 shakes, more grains fall, the gear 12 is clamped, the grains need to be cleaned and then conveyed continuously, and the grain conveying time is prolonged.

Example 2:

as shown in fig. 7 to 8:

the side plate 141 is provided with a sliding rail c1, a moving block c2, a sliding block c3, a reset block c4, an elastic ring c5 and a fan blade plate c6, the sliding rail c1 is arranged at the bottom in the side plate 141, the moving block c2 is movably matched with the sliding rail c1 through a sliding block c3, the reset blocks c4 are fixed to two sides of the bottom in the side plate 141, the fan blade plate c6 penetrates through the top of the side plate 141 and is fixed to the bottom of the sliding rail c1, the elastic ring c5 is arranged between the fan blade plates c6, three fan blade plates c6 are arranged and are semicircular, the stress area is increased, wind power is increased, two elastic rings c5 are arranged and are made of rubber materials and have elasticity, and are beneficial to mutual pushing and restoring between the fan blade plates c6 to generate larger wind.

Wherein, leaf board c6 is equipped with spacer block c61, recess c62, spacer block c61 is fixed on leaf board c6 surface, recess c62 is sunken on leaf board c6 surface, and is located spacer block c61 both sides, recess c62 is equipped with five for leaf board c6 surface unevenness, increase leaf board c 6's area of force, increase leaf board c6 air output.

The specific use mode and function of the embodiment are as follows:

in the invention, as the contact block a4 of the bottom block 14 is in contact friction with the chain 13 for a long time, the chain 13 generates heat, so that the lifting speed of the elevator is reduced, when the contact block a4 is in contact with the chain 13, the contact block a4 moves along with the chain 13 to drive the position of the bracket 142 to move, when the bracket 142 moves, the side push rod 144 presses the blade plate c6 of the side plate 141, the position of the blade plate c6 deviates to press the spring ring c5, the spring ring c5 deforms to push other blade plates c6, the bottom of the blade plate c6 presses and deforms the reset block c4, the spring ring c5 and the reset block c4 deform to restore and push the blade plate c6 to restore so that the blade plate c6 returns to the original position to generate wind, the wind blows to the space between the chain 13 and the contact block a4 to cool the chain, when the position of the blade plate 6 changes, the c2 moves on the slide rail c1 through the slide block c3 to accelerate the restoration block 6 to restore the blade plate 6, accelerate the air-out, and recess c62 makes the surface of flabellum c6 unsmooth, increase the lifting surface area of flabellum c6, increase flabellum c6 air output, push reset ring 143 when support 142 moves, reset ring 143 deformation is recovered and is promoted support 142 and get back to the normal position, change the fan through the flabellum c6 position of curb plate 141, wind blows between chain 13 and contact block a4, make the temperature between chain 13 and the contact block a4 descend, make the lifting speed of lifting machine not change, normally transport cereal.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a grain lifting machine, its structure includes base (1), feeder hopper (2), conveyer trough (3), hopper (4), discharge gate (5), install at base (1) left side top feeder hopper (2), conveyer trough (3) are embedded perpendicularly at base (1) right side top, discharge gate (5) are established in conveyer trough (3) bottom, install inside conveyer trough (3) hopper (4), its characterized in that:

base (1) is equipped with bearing (11), gear (12), chain (13), end piece (14), base (1) left side middle part is run through in bearing (11), gear (12) are fixed at bearing (11) right-hand member, chain (13) and gear (12) meshing cooperation, end piece (14) are installed inside base (1), and are located chain (13) bottom.

2. The grain lifting machine of claim 1, characterized in that: the bottom block (14) is provided with side plates (141), a support (142), a reset ring (143), a push rod (144) and a brush ring (145), the side plates (141) are installed on two sides of the top of the bottom block (14), the support (142) is obliquely arranged inside the bottom block (14) respectively, the reset ring (143) is fixed at an inner included angle between the support (142), the push rod (144) is fixed on two sides of the support (142), and the brush ring (145) is arranged on the top of the support (142).

3. The grain lifting machine of claim 2, characterized in that: the brush ring (145) is provided with an inner groove (a1), a partition plate (a2), a spring (a3) and a contact block (a4), the inner groove (a1) is arranged inside the brush ring (145), the partition plate (a2) is uniformly fixed on the inner wall of the inner groove (a1), the spring (a3) is installed on two sides of the partition plate (a2), the bottom of the contact block (a4) penetrates through the brush ring (145) and is fixed inside the inner groove (a1), and two sides of the contact block (a4) are movably matched with the spring (a 3).

4. The grain lifting machine as claimed in claim 3, characterized in that: the contact block (a4) is provided with a clamping groove (a41), a rolling ball (a42) and a top block (a43), the clamping groove (a41) is arranged at the middle-upper position in the contact block (a4), the rolling ball (a42) is arranged in the clamping groove (a41), and the top block (a43) is fixed at the top of the contact block (a 4).

5. The grain lifting machine as claimed in claim 4, characterized in that: the top block (a43) is provided with a sliding groove (b1) and a feeding hole (b2), the sliding groove (b1) is sunken in the top of the top block (a43), and the feeding hole (b2) penetrates through two sides of the top block (a 43).

6. The grain lifting machine of claim 2, characterized in that: the side plate (141) is provided with a sliding rail (c1), a moving block (c2), a sliding block (c3), a reset block (c4), an elastic ring (c5) and a fan blade plate (c6), the sliding rail (c1) is arranged at the bottom in the side plate (141), the moving block (c2) is movably matched with the sliding rail (c1) through the sliding block (c3), the reset block (c4) is fixed on two sides of the bottom in the side plate (141), the fan blade plate (c6) penetrates through the top of the side plate (141) and is fixed at the bottom of the sliding rail (c1), and the elastic ring (c5) is arranged between the fan blade plates (c 6).

7. The grain lifting machine of claim 6, characterized in that: the fan blade plate (c6) is provided with spacer block (c61), recess (c62), spacer block (c61) are fixed on fan blade plate (c6) surface, recess (c62) are sunken on fan blade plate (c6) surface, and are located spacer block (c61) both sides.