CN105409476A

CN105409476A - Full-automatic niblet screening device

Info

Publication number: CN105409476A
Application number: CN201510875136.1A
Authority: CN
Inventors: 喻圣林
Original assignee: Quanjiao Chahe Farm Machinery Service Professional Cooperatives
Current assignee: Quanjiao Chahe Farm Machinery Service Professional Cooperatives
Priority date: 2015-11-30
Filing date: 2015-11-30
Publication date: 2016-03-23
Anticipated expiration: 2035-11-30
Also published as: CN105409476B

Abstract

The invention provides a full-automatic niblet screening device. The full-automatic niblet screening device comprises a feeding device and a screening device, wherein the feeding device comprises a feeding hopper and a feeding tube; a flow distributing plate is arranged in the feeding tube; the inside of the feeding tube is divided into a material flowing channel and an impurity flowing channel by the flow distributing plate; a quantitative feeding device is arranged in the material flowing channel and comprises a quantitative feeding plate and a piston type jacking device; the quantitative feeding plate is mounted on the inner wall of the material flowing channel; a quantitative feeding opening is formed in the quantitative feeding plate; a movable ball is arranged at the quantitative feeding opening; the piston type jacking device is movably mounted on the inner wall of the material flowing channel and is used for jacking up the movable ball in an intermittent manner; and an air feeding tube is arranged at the inlet end, close to the material flowing channel, of the side wall of the feeding tube; and the screening device comprises a screening box as well as a first screening unit and a second screening unit which are arranged in the screening box. The full-automatic niblet screening device is simple in structure and thorough in screening, can completely separate niblets from stalks, can separate the niblets with different plumpness degrees, and is low in labor intensity and high in work efficiency.

Description

A kind of full-automatic corn grain screening plant

Technical field

The present invention relates to agricultural machinery technological field, particularly relate to a kind of full-automatic corn grain screening plant.

Background technology

After current harvest corn threshing, in corn, often mix the impurity such as the skin stalks of rice, wheat, etc., the grains of sand, affect the total quality of corn.The shortcomings such as existing screening technique has two kinds: one to be the method for artificial screening usually, and it is large that the method for this screening has labour intensity, and cost is high, inefficiency, and the screening cleanliness of corn is low; Two for using the method for corn screen selecting machine, and the method, due to corn screen selecting machine complex structure, causes and buys the high shortcoming of this equipment cost, in addition, because impurity in corn is many, there will be a large amount of dust in screening process, affect the healthy of operating personnel.

Summary of the invention

Based on the technical problem existed in background technology, the present invention proposes a kind of full-automatic corn grain screening plant.

A kind of full-automatic corn grain screening plant that the present invention proposes, comprises feed arrangement, screening plant, wherein:

Feed arrangement comprises loading hopper, feed pipe, and the feed end of feed pipe is connected with the discharge end of loading hopper, flow distribution plate is provided with in feed pipe, feed pipe interior separation is become material flow path and impurity runner by flow distribution plate, the discharge end of loading hopper is positioned at material flow path top position and is provided with quantitative feeding valve, quantitative feeding device is provided with in material flow path, quantitative feeding device comprises the quantitative feeding plate be arranged on material flow path inwall, piston type jacking system, quantitative feeding plate is provided with quantitative feeding mouth, quantitative feeding mouth place is provided with movable balls, the diameter of movable balls is greater than the diameter of quantitative feeding mouth, piston type jacking system is removable to be arranged on material flow path inwall for batch (-type) jack-up movable balls, the moving direction of piston type jacking system is vertical direction, the discharge end of impurity runner is connected with the feed end of impurity collecting box, and impurity collecting box is provided with impurities outlet, feed pipe sidewall is provided with blast pipe near the entrance point of material flow path,

Screening plant comprises screen box and the first screening unit and second be arranged in screen box screens unit, the feed end of screen box is connected with the discharge end of material flow path, first screening unit is positioned at the top of the second screening unit, and screen box sidewall is provided with the first dodge gate near the first screening unit place; Screen box sidewall is provided with the second dodge gate near the second screening unit place; Screen box sidewall is provided with the 3rd dodge gate near screen box base plate place.

Preferably, piston type jacking system comprises jack-up bar, head rod and the first rotating disk, material flow path sidewall is provided with chute, jack-up bar one end to put in material flow path through chute and is connected with slide, head rod one end and jack-up bar hinged, the other end and the first rotating disk hinged, the tie point of head rod and the first rotating disk departs from the center of circle of the first rotating disk.

Preferably, the first screening unit comprises the first screen plate, the first drive unit, the first material-pulling device, is provided with the first track in screen box; First screen plate is removable to be arranged on the first track, and the moving direction of the first screen plate is horizontal direction, the first screen plate is distributed with the first sieve aperture; First drive unit is connected for driving the first screen plate to move in the horizontal direction with the first screen plate; First material-pulling device carries out rewinding for the iblet on the first screen plate is pushed to the first dodge gate.

Preferably, the first drive unit comprises the second rotating disk, the second connecting rod, second connecting rod one end and the first screen plate hinged, the other end and the second rotating disk hinged, the tie point of the second connecting rod and the second rotating disk departs from the center of circle of the second rotating disk.

Preferably, the first material-pulling device comprises the first driving cylinder, the first expansion link and the first push pedal, and first expansion link one end and first drives cylinder output shaft to be connected, and the other end is connected with the first push pedal.

Preferably, the second screening unit comprises the second screen plate, the second drive unit, the second material-pulling device, and be provided with the second track in screen box, the second track is positioned at below the first track; Second screen plate is removable to be arranged on the second track, and the moving direction of the second screen plate is horizontal direction, the second screen plate is distributed with the second sieve aperture, and the diameter of the second sieve aperture is less than the diameter of the first sieve aperture; Second material-pulling device carries out rewinding for the iblet on the second screen plate is pushed to the second dodge gate.

Preferably, the second drive unit comprises the 3rd rotating disk, the 3rd connecting rod, the 3rd connecting rod one end and the second screen plate hinged, the other end and the 3rd rotating disk hinged, the tie point of the 3rd connecting rod and the 3rd rotating disk departs from the center of circle of the 3rd rotating disk.

Preferably, the second material-pulling device comprises the second driving cylinder, the second expansion link and the 3rd push pedal, and second expansion link one end and second drives the output shaft of cylinder to be connected, and the other end is connected with the second push pedal.

Preferably, also comprise the 3rd material-pulling device, the 3rd material-pulling device carries out rewinding for the iblet on screen box base plate being pushed to the 3rd dodge gate; 3rd material-pulling device comprises the 3rd and drives cylinder, the 3rd expansion link and the 3rd push pedal, and the 3rd expansion link one end and the 3rd drives the output shaft of cylinder to be connected, and the other end is connected with the 3rd push pedal.

In the present invention, comprise feed arrangement, screening plant, flow distribution plate is provided with in feed pipe, feed pipe interior separation is become material flow path and impurity runner by flow distribution plate, the discharge end of loading hopper is positioned at material flow path top position and is provided with quantitative feeding valve, quantitative feeding device is provided with in material flow path, quantitative feeding device comprises the quantitative feeding plate be arranged on material flow path inwall, piston type jacking system, quantitative feeding plate is provided with quantitative feeding mouth, quantitative feeding mouth place is provided with movable balls, piston type jacking system is removable to be arranged on material flow path inwall for batch (-type) jack-up movable balls, feed pipe sidewall is provided with blast pipe near the entrance point of material flow path, screening plant comprises screen box and the first screening unit and second be arranged in screen box screens unit.Feed arrangement is used for charging in screening plant, loading hopper timing adds corn to be screened in feed pipe, after corn enters feed pipe, by blast pipe to wind-guiding in feed pipe, the skin stalks of rice, wheat, etc. be mingled with in corn separates with iblet by wind, the skin stalks of rice, wheat, etc. blows in impurity runner by wind, then enters impurity collecting box; Iblet enters in material flow path, the intermittent jack-up movable balls of piston type jacking system, thus to screening plant quantitative feeding, iblet is successively through the first screening unit, the second screening unit, iblet after screening is from the first dodge gate, the second dodge gate, the 3rd dodge gate discharging, can be separated by the iblet different to turgor, reduce work operation, increase work efficiency; Feed arrangement adds appropriate iblet by quantitative feeding device at every turn in screening plant, and screening more fully thoroughly.Structure of the present invention is simple, and thoroughly, screening process, in complete totally enclosed casing, can not produce dust, and iblet and the skin stalks of rice, wheat, etc. can be separated completely in screening, and can be separated by the iblet different to turgor, labour intensity is low, and operating efficiency is high simultaneously.

Accompanying drawing explanation

Structural representation when Fig. 1 is the non-charging of the quantitative feeding device of a kind of full-automatic corn grain screening plant that the present invention proposes;

Fig. 2 is the quantitative feeding device of a kind of full-automatic corn grain screening plant that the present invention proposes structural representation when being in feed state.

Embodiment

With reference to Fig. 1, Fig. 2, the present invention proposes a kind of full-automatic corn grain screening plant, comprises feed arrangement, screening plant, wherein:

Feed arrangement comprises loading hopper 10, feed pipe 20, and the feed end of feed pipe 20 is connected with the discharge end of loading hopper 10; Flow distribution plate 30 is provided with in feed pipe 20, feed pipe 20 interior separation is become material flow path 40 and impurity runner 50 by flow distribution plate 30, the discharge end of loading hopper 10 is positioned at material flow path 40 top position and is provided with quantitative feeding valve, quantitative feeding device 42 is provided with in material flow path 40, the discharge end of impurity runner 50 is connected with the feed end of impurity collecting box 60, and impurity collecting box 60 is provided with impurities outlet 61; Feed pipe 20 sidewall is provided with blast pipe 41 near the entrance point of material flow path 40.

Screening plant comprises screen box 70 and is arranged on the first screen plate 80, second screen plate 90 in screen box 70, the first drive unit 81 driving the first screen plate 80 to move in the horizontal direction, the second drive unit 91 of driving the second screen plate 90 to move in the horizontal direction, the feed end of screen box 70 is connected with the discharge end of material flow path 40, the first track 71 is provided with and the second track 72, first track 71 is positioned at above the second track 72 in screen box 70.First screen plate 80 is distributed with the first sieve aperture, and the first screen plate 80 is removable to be arranged on the first track 71, and the moving direction of the first screen plate 80 is horizontal direction, and screen box 70 sidewall is provided with the first dodge gate 73 near the first screen plate 80 place; First drive unit 81 comprises the second rotating disk 811, second connecting rod 812, second connecting rod 812 one end and the first screen plate 80 hinged, the other end and the second rotating disk 811 hinged, the tie point of the second connecting rod 812 and the second rotating disk 811 departs from the center of circle of the second rotating disk 811.

Second screen plate 90 is distributed with the second sieve aperture, the diameter of the second sieve aperture is less than the diameter of the first sieve aperture, second screen plate 90 is removable to be arranged on the second track 72, the moving direction of the second screen plate 90 is horizontal direction, and screen box 70 sidewall is provided with the second dodge gate 74 near the second screen plate 90 place; Screen box 70 sidewall is provided with the 3rd dodge gate 75 near screen box 70 base plate place.Second drive unit 91 comprises the 3rd rotating disk 911, the 3rd connecting rod 912,3rd connecting rod 912 one end and the second screen plate 90 hinged, the other end and the 3rd rotating disk 911 hinged, the tie point of the 3rd connecting rod 912 and the 3rd rotating disk 911 departs from the center of circle of the 3rd rotating disk 911.

In the present embodiment, quantitative feeding device 42 comprises the quantitative feeding plate 422, the piston type jacking system that are arranged on material flow path 40 inwall, quantitative feeding plate 422 is provided with quantitative feeding mouth, quantitative feeding mouth place is provided with movable balls 421, the diameter of movable balls 421 is greater than the diameter of quantitative feeding mouth, piston type jacking system is removable to be arranged on for batch (-type) jack-up movable balls 421 on material flow path 40 inwall, and the moving direction of piston type jacking system is vertical direction.Piston type jacking system comprises jack-up bar 425, head rod 424 and the first rotating disk 423, material flow path 40 sidewall is provided with chute 43, jack-up bar 425 one end to put in material flow path 40 through chute and with chute 43 sliding connection, head rod 424 one end and jack-up bar 425 hinged, the other end and the first rotating disk 423 hinged, the tie point of head rod 424 and the first rotating disk 423 departs from the center of circle of the first rotating disk 423.

In specific design, for the ease of the discharging of the corn after screening, the first material-pulling device 76 is provided with near the first screen plate 80 place away from first dodge gate 73 one end in screen box 70, first material-pulling device 76 comprises the first driving cylinder 761, first expansion link 762 and the first push pedal 763, first expansion link 762 one end and first drives cylinder 761 output shaft to be connected, and the other end is connected with the first push pedal 763.The second material-pulling device 77 is provided with near the second screen plate 90 place away from second dodge gate 74 one end in screen box 70, second material-pulling device 77 comprises the second driving cylinder 771, second expansion link 772 and the 3rd push pedal 773, second expansion link 772 one end drives the output shaft of cylinder 771 to be connected with second, and the other end is connected with the second push pedal 773.The 3rd material-pulling device 78 is provided with near screen box 70 base plate place away from the 3rd dodge gate 75 one end in screen box 70,3rd material-pulling device 78 comprises the 3rd and drives cylinder 781, the 3rd expansion link 782 and the 3rd push pedal 783,3rd expansion link 782 one end drives the output shaft of cylinder 781 to be connected with the 3rd, and the other end is connected with the 3rd push pedal 783.After often completing the screening of a certain amount of iblet, iblet on first screen plate 80 is pushed into the first dodge gate 73 by the first material-pulling device 76 to carry out discharging, the second material-pulling device 77 and the iblet on second screen plate 90 is pushed into the second dodge gate 74 and carries out discharging, the 3rd material-pulling device 78 and the iblet on screen box 70 base plate is pushed into the 3rd dodge gate 75 and carries out discharging, convenient and swift, increase work efficiency.

A kind of full-automatic corn grain screening plant that the present invention proposes, comprise feed arrangement, screening plant, feed arrangement is used for charging in screening plant, loading hopper 10 timing adds corn to be screened in feed pipe 20, after corn enters feed pipe 20, by blast pipe 41 to wind-guiding in feed pipe 20, the skin stalks of rice, wheat, etc. be mingled with in corn separates with iblet by wind, the skin stalks of rice, wheat, etc. blows in impurity runner 50 by wind, then enters impurity collecting box 60; Iblet enters in material flow path 40, the intermittent jack-up movable balls of piston type jacking system, thus to screening plant quantitative feeding, iblet successively through the first screen plate 80, second screen plate 90, in screening process, first screen plate 80, second screen plate 90 ceaselessly moves left and right, thus making screening more abundant, the diameter of the first sieve aperture is greater than the diameter of the second sieve aperture, can be separated by the iblet different to turgor, reduce work operation, increase work efficiency.Structure of the present invention is simple, and thoroughly, screening process, in complete totally enclosed casing, can not produce dust, and iblet and the skin stalks of rice, wheat, etc. can be separated completely in screening, and can be separated by the iblet different to turgor, labour intensity is low, and operating efficiency is high simultaneously.

The above; be only the present invention's preferably embodiment; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; be equal to according to technical scheme of the present invention and inventive concept thereof and replace or change, all should be encompassed within protection scope of the present invention.

Claims

1. a full-automatic corn grain screening plant, is characterized in that, comprises feed arrangement, screening plant, wherein:

Feed arrangement comprises loading hopper (10), feed pipe (20), and the feed end of feed pipe (20) is connected with the discharge end of loading hopper (10), flow distribution plate (30) is provided with in feed pipe (20), feed pipe (20) interior separation is become material flow path (40) and impurity runner (50) by flow distribution plate (30), the discharge end of loading hopper (10) is positioned at material flow path (40) top position and is provided with quantitative feeding valve, quantitative feeding device (42) is provided with in material flow path (40), quantitative feeding device (42) comprises the quantitative feeding plate (422) be arranged on material flow path (40) inwall, piston type jacking system, quantitative feeding plate (422) is provided with quantitative feeding mouth, quantitative feeding mouth place is provided with movable balls (421), the diameter of movable balls (421) is greater than the diameter of quantitative feeding mouth, piston type jacking system is removable to be arranged on material flow path (40) inwall for batch (-type) jack-up movable balls (421), the moving direction of piston type jacking system is vertical direction, the discharge end of impurity runner (50) is connected with the feed end of impurity collecting box (60), and impurity collecting box (60) is provided with impurities outlet (61), feed pipe (20) sidewall is provided with blast pipe (41) near the entrance point of material flow path (40),

Screening plant comprises screen box (70) and the first screening unit and second be arranged in screen box (70) screens unit, the feed end of screen box (70) is connected with the discharge end of material flow path (40), first screening unit is positioned at the top of the second screening unit, and screen box (70) sidewall is provided with the first dodge gate (73) near the first screening unit place; Screen box (70) sidewall is provided with the second dodge gate (74) near the second screening unit place; Screen box (70) sidewall is provided with the 3rd dodge gate (75) near screen box (70) base plate place.

2. full-automatic corn grain screening plant according to claim 1, it is characterized in that, piston type jacking system comprises jack-up bar (425), head rod (424) and the first rotating disk (423), material flow path (40) sidewall is provided with chute (43), jack-up bar (425) one end to put in material flow path (40) through chute and with chute (43) sliding connection, head rod (424) one end and jack-up bar (425) hinged, the other end and the first rotating disk (423) hinged, head rod (424) departs from the center of circle of the first rotating disk (423) with the tie point of the first rotating disk (423).

3. full-automatic corn grain screening plant according to claim 2, it is characterized in that, first screening unit comprises the first screen plate (80), the first drive unit, the first material-pulling device, is provided with the first track (71) in screen box (70); First screen plate (80) is removable to be arranged on the first track (71), and the moving direction of the first screen plate (80) is horizontal direction, and (80) are distributed with the first sieve aperture to the first screen plate; First drive unit is connected for driving the first screen plate (80) to move in the horizontal direction with the first screen plate; First material-pulling device is used for that the iblet on the first screen plate (80) is pushed to the first dodge gate (73) and carries out rewinding.

4. full-automatic corn grain screening plant according to claim 3, it is characterized in that, first drive unit (81) comprises the second rotating disk (811), the second connecting rod (812), second connecting rod (812) one end and the first screen plate (80) hinged, the other end and the second rotating disk (811) hinged, the tie point of the second connecting rod (812) and the second rotating disk (811) departs from the center of circle of the second rotating disk (811).

5. full-automatic corn grain screening plant according to claim 3, it is characterized in that, first material-pulling device (76) comprises the first driving cylinder (761), the first expansion link (762) and the first push pedal (763), first expansion link (762) one end and first drives cylinder (761) output shaft to be connected, and the other end is connected with the first push pedal (763).

6. the full-automatic corn grain screening plant according to any one of claim 1-4, it is characterized in that, second screening unit comprises the second screen plate (90), the second drive unit, the second material-pulling device, be provided with the second track (72) in screen box (70), the second track (72) is positioned at the first track (71) below; Second screen plate (90) is removable to be arranged on the second track (72), the moving direction of the second screen plate (90) is horizontal direction, (90) are distributed with the second sieve aperture to second screen plate, and the diameter of the second sieve aperture is less than the diameter of the first sieve aperture; Second material-pulling device is used for that the iblet on the second screen plate (90) is pushed to the second dodge gate (74) and carries out rewinding.

7. full-automatic corn grain screening plant according to claim 5, it is characterized in that, second drive unit (91) comprises the 3rd rotating disk (911), the 3rd connecting rod (912), 3rd connecting rod (912) one end and the second screen plate (90) hinged, the other end and the 3rd rotating disk (911) hinged, the tie point of the 3rd connecting rod (912) and the 3rd rotating disk (911) departs from the center of circle of the 3rd rotating disk (911).

8. full-automatic corn grain screening plant according to claim 5, it is characterized in that, second material-pulling device (77) comprises the second driving cylinder (771), the second expansion link (772) and the 3rd push pedal (773), second expansion link (772) one end and second drives the output shaft of cylinder (771) to be connected, and the other end is connected with the second push pedal (773).

9. the full-automatic corn grain screening plant according to any one of claim 1-4, it is characterized in that, also comprise the 3rd material-pulling device, the 3rd material-pulling device carries out rewinding for the iblet on screen box (70) base plate being pushed to the 3rd dodge gate (75); 3rd material-pulling device (78) comprises the 3rd and drives cylinder (781), the 3rd expansion link (782) and the 3rd push pedal (783), 3rd expansion link (782) one end and the 3rd drives the output shaft of cylinder (781) to be connected, and the other end is connected with the 3rd push pedal (783).