CN108934485A - Maize sheller and method with the thresing machine threshing - Google Patents

Abstract

The invention belongs to thresing machine and methods of threshing technical field, a kind of maize sheller and methods of threshing are disclosed.It is mainly characterized in that the shell that fringe storehouse is had including upper end, case inside is provided with the threshing cover with the first shattering hole, the threshing axle with threshing wing is provided in the threshing cover, the radial outside of the threshing cover is provided with the first rotary screen with the second shattering hole, the first guide plate is provided on the inner wall of first rotary screen, first rotary screen rear end is provided with seed outlet, the radial outside of first rotary screen is provided with the sieve of the second tin roller with dust export, the second guide plate is provided on the inner wall of second tin roller sieve.First rotary screen and second tin roller sieve are cylinder, effective cover surface is big, screening effect is good, the first rotary screen and second tin roller sieve only rotate when screening, do not vibrate, structure is simple, noise is small, during rotation, the niblet of rolling can generate excellent self-cleaning effect to the compass screen surface of blocking, it is not easy to block.

Description

Maize sheller and method with the thresing machine threshing

Technical field

The invention belongs to thresing machine and methods of threshing technical field more particularly to a kind of maize sheller and with the thresing machine The method of threshing.

Background technique

With the raising of Agricultural Mechanization Degree, maize sheller stores up the places such as station, grain processing field in farm, grain It is widely used.Maize sheller used at present includes the shell that upper end has fringe storehouse, and case inside is provided with threshing cover, It is provided with the threshing axle with threshing wing in the threshing cover, upper vibrating screen and lower vibration are provided with below threshing cover Sieve, upper vibrating screen have larger shattering hole, and smaller dust fall hole is had on lower vibrating screen, and the threshing axle of above structure exists Following defect: first, when upper vibrating screen and lower vibrating screen shake, noise is big, and service life is low；Second, structure is complicated, maintenance and It is difficult in maintenance；Third, upper vibrating screen and lower vibrating screen are planar structure, sieving area is small, and screening effect is poor；Fourth, upper vibration Sieve and lower vibrating screen are planar structure, are also possible that when corn is more dry when corncob moisture is larger, and niblet and dust hold Compass screen surface is easily caused to block；Fifth, having blower in order to improve screening effect, be easy to causeing air pollution.

Summary of the invention

The invention solves first technical problem be just to provide a kind of noise is small, structure is simple, maintenance and maintenance just Benefit, screening effect is good, is not easy blocking, the maize sheller that air pollution is small, Threshing is good.

To solve the above problems, the technical solution that maize sheller of the present invention uses are as follows: including power mechanism and upper end band There is the shell in fringe storehouse, case inside is provided with the threshing cover with the first shattering hole, is arranged at the upper side of the threshing cover There is feeding inlet, be provided with the threshing axle with threshing wing in the threshing cover, is provided in the radial outside of the threshing cover The first rotary screen with the second shattering hole is provided with the first guide plate on the inner wall of first rotary screen, described One rotary screen rear end is provided with seed outlet, and the radial outside of first rotary screen is provided with the second rolling with dust export Shaft screen is provided with the second guide plate on the inner wall of second tin roller sieve.

Its additional technical feature are as follows:

It is provided with the third rotary screen with third shattering hole on the inside of first rotary screen of the rear end of the threshing cover, Third guide plate is provided on the inner wall of the third rotary screen；

Third rotary screen rear end is provided with grain-blocking plate；

The shell lower end is provided with dust-exhausting port, the dedusting mechanism connecting with the dust-exhausting port is provided in the hull outside；

First guide plate is multiple groups spaced apart, and the end of each the first guide plate is corresponding to adjacent one group The middle position of two the first guide plates；Second guide plate is multiple groups spaced apart, each second guide plate Middle position of the end corresponding to adjacent one group of two the second guide plates；

Seed hoisting mechanism is provided on the outside of seed outlet.

Maize sheller provided by the present invention compared with prior art, has the advantage that first, due to including power Mechanism and upper end have the shell in fringe storehouse, case inside are provided with the threshing cover with the first shattering hole, in the threshing cover Upper side is provided with feeding inlet, is provided with the threshing axle with threshing wing in the threshing cover, in the diameter of the threshing cover It is provided with the first rotary screen with the second shattering hole outward, is provided with the first guiding on the inner wall of first rotary screen Plate is provided with seed outlet in first rotary screen rear end, is provided in the radial outside of first rotary screen with out The second tin roller in dirt hole sieves, and is provided with the second guide plate on the inner wall of second tin roller sieve, corncob enters through feeding inlet In threshing cover, as corncob is divided into corncob and niblet by threshing axle rotation, corncob is discharged from threshing cover rear, corn Grain enters in the first rotary screen under the beating of self gravity and threshing wing through the first shattering hole, the rotation of the first rotary screen, beautiful The impurity such as the grain of rice and dust smaller than niblet are entered in second tin roller sieve by the second shattering hole, and broken corncob etc. is larger Impurity is flowed out in the first rotary screen rear end, and second tin roller sieve rotation, the impurity such as dust smaller than niblet are entered by dust export Second tin roller sieve outside, niblet are flowed out in second tin roller sieve rear end, and the first rotary screen and second tin roller sieve are cylinder, effectively Cover surface it is big, screening effect is good, and the first rotary screen and second tin roller sieve only rotate when screening, does not vibrate, structure Simply, noise is small, when screening, as the rotation that the first rotary screen and second tin roller sieve was rotating even if Partial Blocking occurs The niblet of Cheng Zhong, rolling can generate excellent self-cleaning effect to the compass screen surface of blocking, it is not easy to block, and with the first rotary screen With the rotation of second tin roller sieve, the compass screen surface of blocking can also turn to top, and tamper can be fallen under the effect of gravity, Blocking is further avoided, entirely falls off and separation process is all completed in shell, not only reduce space hold, but also subtract The pollution to environment is lacked, staff is avoided to damage the health of operator due to close to thresing machine；Second, due to It is provided with the third rotary screen with third shattering hole on the inside of first rotary screen of the rear end of the threshing cover, described the Third guide plate is provided on the inner wall of three rotary screens, the corncob flowed out from threshing cover may be wrapped up in some niblets, will Above-mentioned corncob imports in third rotary screen, with the rotation of third rotary screen, wraps up in niblet of the band in corncob from third Shattering flows out in hole, avoids the waste of niblet；Third, being provided with grain-blocking plate in third rotary screen rear end, avoid Niblet causes the waste of seed from the outflow of third rotary screen rear end；Fourth, due to being provided with dust-exhausting port in the shell lower end, The dedusting mechanism connecting with the dust-exhausting port is provided in the hull outside, the dust etc. of generation is handled through dedusting mechanism, avoided Air pollution；Fifth, since first guide plate is multiple groups spaced apart, the end of each the first guide plate Middle position corresponding to adjacent one group of two the first guide plates；Second guide plate is multiple groups spaced apart, Middle position of the end of each the second guide plate corresponding to adjacent one group of two the second guide plates, in screening process, By repeatedly sieving, sieve more thorough；Sixth, being sieved due to being provided with seed hoisting mechanism on the outside of seed outlet Niblet out is through seed lift mechanism lifts to eminence, convenient for storage and transport.

Second technical problem that the present invention solves just is to provide a kind of side that corn threshing is carried out using above-mentioned thresing machine Method.

To solve the above problems, the technical solution that the present invention is used using the method that maize sheller carries out threshing are as follows: should Method the following steps are included:

Corncob is placed in fringe storehouse by the first step

Corncob is placed in fringe storehouse by conveying mechanism or forklift；

Second step, threshing

Corncob in fringe storehouse enters in threshing cover through feeding inlet, and turn on the power mechanism, threshing axle rotation, will while threshing Threshing cover is released before corncob after threshing, the niblet taken off is fallen in the first rotary screen by the first shattering hole；

Third step separates niblet with big impurity

The first rotary screen is rotated, the niblet and the dust smaller than niblet and impurity in the first rotary screen pass through the first rolling The second shattering hole on shaft screen is fallen in second tin roller sieve, and is greater than the impurity such as the broken corncob of niblet in the first guide plate Effect is lower to flow out the first rotary screen；

4th step separates niblet with small impurity

Second tin roller sieve is rotated, the dust and impurity smaller than niblet pass through going out on second tin roller sieve in second tin roller sieve Dirt hole is fallen in the shell in second tin roller sieve outside, and niblet flows out second through seed outlet under the action of the second guide plate Rotary screen.

Its additional technical feature are as follows:

Method includes the following steps:

Corncob is placed in fringe storehouse by the first step

Corncob is placed in fringe storehouse by conveying mechanism or forklift；

Second step, threshing

Corncob in fringe storehouse enters in threshing cover through feeding inlet, and turn on the power mechanism, threshing axle rotation, will while threshing Threshing cover is released before corncob after threshing, the niblet taken off is fallen in the first rotary screen by the first shattering hole；

Third step separates niblet with big impurity

The first rotary screen is rotated, the niblet and the dust smaller than niblet and impurity in the first rotary screen pass through the first rolling The second shattering hole on shaft screen is fallen in second tin roller sieve, and is greater than the impurity such as the broken corncob of niblet in the first guide plate Effect is lower to flow out the first rotary screen；

4th step separates niblet with small impurity

Second tin roller sieve is rotated, the dust and impurity smaller than niblet pass through going out on second tin roller sieve in second tin roller sieve Dirt hole is fallen in the shell in second tin roller sieve outside, and niblet flows out second through seed outlet under the action of the second guide plate Rotary screen；

5th step recycles the dust and impurity smaller than niblet

Intracorporal dust of shell etc. reaches dedusting mechanism dedusting through dust-exhausting port.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of maize sheller of the present invention；

Fig. 2 is the A-A sectional view of Fig. 1；

Fig. 3 is the structural schematic diagram with seed hoisting mechanism maize sheller.

Specific embodiment

Structure to maize sheller of the present invention and use principle and threshing side with reference to the accompanying drawings and detailed description Method is described in further details.

As depicted in figs. 1 and 2, the structural schematic diagram of maize sheller of the present invention, maize sheller of the present invention include power Mechanism 22 and upper end have the shell 2 in fringe storehouse 1, the threshing cover 4 with the first shattering hole 3 are provided on the inside of shell 2, in threshing 4 upper side of cover is provided with feeding inlet 21, the threshing axle 6 with threshing wing 5 is provided in threshing cover 4, in the diameter of threshing cover 4 It is provided with the first rotary screen 8 with the second shattering hole 7 outward, is provided with the first guiding on the inner wall of the first rotary screen 8 Plate 9 is provided with seed outlet 10 in 8 rear end of the first rotary screen, is provided in the radial outside of the first rotary screen 8 with dust export 11 second tin roller sieve 12, is provided with the second guide plate 13 on the inner wall of second tin roller sieve 12.Corncob through feeding inlet 21 into Enter in threshing cover 4, corncob is divided into corncob and niblet as threshing axle 6 rotates, corncob is arranged from 4 sides after threshing cover Out, niblet enters in the first rotary screen 8 under the beating of self gravity and threshing wing 5 through the first shattering hole 3, the first rolling Shaft screen 8 rotates, and the impurity such as niblet and dust smaller than niblet are entered in second tin roller sieve 12 by the second shattering hole 7, broken The larger impurity such as corncob flowed out in 8 rear end of the first rotary screen, 12 rotation of second tin roller sieve, dust smaller than niblet etc. is miscellaneous Matter enters 12 outside of second tin roller sieve by dust export, and niblet sieves 12 rear ends in second tin roller and flows out, 8 He of the first rotary screen Second tin roller sieve 12 is cylinder, and effective cover surface is big, and screening effect is good, the first rotary screen 8 and second tin roller when screening Sieve 12 only rotates, and does not vibrate, and structure is simple, and noise is small, when screening, with the first rotary screen 8 and second tin roller sieve 12 Rotation, even if Partial Blocking occurs, during rotation, the niblet of rolling can generate self-cleaning effect to the compass screen surface of blocking Fruit, it is not easy to block, and with the rotation of the first rotary screen 8 and second tin roller sieve 12, the compass screen surface of blocking can also be turned to Top, tamper can be fallen under the effect of gravity, further avoid blocking, entirely fall off and separation process is all in shell It completes in vivo, reduces the pollution to environment, staff is avoided to damage the health of operator due to close to thresing machine.

It is provided with the third rotary screen 15 with third shattering hole 14 on the inside of the first rotary screen 8 of the rear end of threshing cover 4, Third guide plate 16 is provided on the inner wall of third rotary screen 15, the corncob flowed out from threshing cover 4 may be wrapped up in some Above-mentioned corncob is imported in third rotary screen 15, with the rotation of third rotary screen 15, wraps up in band in corncob by niblet Niblet is flowed out from third shattering hole 14, avoids the waste of niblet.

15 rear end of third rotary screen is provided with grain-blocking plate 17, avoiding niblet, outflow causes from third rotary screen rear end The waste of seed.

2 lower end of shell is provided with dust-exhausting port 18, the dedusting mechanism connecting with the dust-exhausting port 18 is provided on the outside of shell 2 19, the dust etc. of generation is handled through dedusting mechanism, avoids air pollution.

First guide plate 9 is multiple groups spaced apart, and the end of each the first guide plate 9 corresponds to adjacent one group Two the first guide plates 9 middle position；Second guide plate 13 is multiple groups spaced apart, each second guide plate Middle position of 13 end corresponding to adjacent one group of two the second guide plates 13, in screening process, by repeatedly sieving, It sieves more thorough.

As shown in figure 3, being provided with seed hoisting mechanism 20 in 10 outside of seed outlet, the niblet come is screened out through seed Hoisting mechanism 20, which is promoted, arrives eminence, convenient for storage and transport.

Using above-mentioned maize sheller carry out threshing method the following steps are included:

Corncob is placed in fringe storehouse by the first step

Corncob is placed in fringe storehouse 1 by conveying mechanism or forklift；

Second step, threshing

Corncob in fringe storehouse 1 enters in threshing cover 4 through feeding inlet 21, and the mechanism that turns on the power 22, threshing axle 6 rotates, in threshing While threshing cover 4 will be released before the corncob after threshing, the niblet taken off fall on the first rotary screen by the first shattering hole 3 In 8；

Third step separates niblet with big impurity

The first rotary screen 8 is rotated, the niblet and the dust smaller than niblet and impurity in the first rotary screen 8 pass through first The second shattering hole 7 on rotary screen 8 is fallen in second tin roller sieve 12, and is greater than the impurity such as the broken corncob of niblet and is led first The first rotary screen 8 is flowed out under the action of to plate 9；

4th step separates niblet with small impurity

Second tin roller sieve 12 is rotated, the dust and impurity smaller than niblet pass through second tin roller sieve 12 in second tin roller sieve 12 On dust export 11 fall on second tin roller sieve outside shell 2 in, and niblet under the action of the second guide plate 13 through seed Outlet outflow second tin roller sieve 12.

For the maize sheller with dedusting outlet and dedusting mechanism,

Method includes the following steps:

Corncob is placed in fringe storehouse by the first step

Corncob is placed in fringe storehouse 1 by conveying mechanism or forklift；

Second step, threshing

Corncob in fringe storehouse 1 enters in threshing cover 4 through feeding inlet 21, and the mechanism that turns on the power 22, threshing axle 6 rotates, in threshing While threshing cover 4 will be released before the corncob after threshing, the niblet taken off fall on the first rotary screen by the first shattering hole 3 In 8；

Third step separates niblet with big impurity

The first rotary screen 8 is rotated, the niblet and the dust smaller than niblet and impurity in the first rotary screen 8 pass through first The second shattering hole 7 on rotary screen 8 is fallen in second tin roller sieve 12, and is greater than the impurity such as the broken corncob of niblet and is led first The first rotary screen 8 is flowed out under the action of to plate 9；

4th step separates niblet with small impurity

Second tin roller sieve 12 is rotated, the dust and impurity smaller than niblet pass through second tin roller sieve 12 in second tin roller sieve 12 On dust export 11 fall on second tin roller sieve outside shell 2 in, and niblet under the action of the second guide plate 13 through seed Outlet outflow second tin roller sieve 12；

5th step recycles the dust and impurity smaller than niblet

Dust in shell 2 etc. reaches 19 dedusting of dedusting mechanism through dust-exhausting port 18.

Protection scope of the present invention is not limited solely to above-described embodiment, as long as structure and maize sheller structure of the present invention It is identical, just fall in the scope of protection of the invention.

Claims (8)

1. maize sheller has the shell in fringe storehouse including power mechanism and upper end, is provided in case inside and falls with first The threshing cover in grain hole, is provided with feeding inlet at the upper side of the threshing cover, is provided in the threshing cover with threshing wing Threshing axle, it is characterised in that: the radial outside of the threshing cover is provided with the first rotary screen with the second shattering hole, It is provided with the first guide plate on the inner wall of first rotary screen, first rotary screen rear end is provided with seed outlet, The radial outside of first rotary screen is provided with the sieve of the second tin roller with dust export, on the inner wall of second tin roller sieve It is provided with the second guide plate.

2. maize sheller according to claim 1, it is characterised in that: first rolling in the rear end of the threshing cover It is provided with the third rotary screen with third shattering hole on the inside of shaft screen, third is provided on the inner wall of the third rotary screen and leads To plate.

3. maize sheller according to claim 2, it is characterised in that: third rotary screen rear end is provided with gear grain Plate.

4. maize sheller according to claim 1, it is characterised in that: the shell lower end is provided with dust-exhausting port, The hull outside is provided with the dedusting mechanism connecting with the dust-exhausting port.

5. maize sheller according to claim 1, it is characterised in that: first guide plate is spaced apart Multiple groups, the end of each the first guide plate correspond to the middle position of adjacent one group of two the first guide plates；Described second Guide plate is multiple groups spaced apart, and the end of each the second guide plate corresponds to adjacent one group of two second guiding The middle position of plate.

6. maize sheller according to claim 1, it is characterised in that: be provided with seed on the outside of seed outlet and mention Rise mechanism.

7. the method for carrying out threshing using maize sheller described in claim 1,2,3,4,5 or 6, it is characterised in that: the party Method the following steps are included:

Corncob is placed in fringe storehouse by the first step

Corncob is placed in fringe storehouse by conveying mechanism or forklift；

Second step, threshing

Corncob in fringe storehouse enters in threshing cover through feeding inlet, and turn on the power mechanism, threshing axle rotation, will while threshing Threshing cover is released before corncob after threshing, the niblet taken off is fallen in the first rotary screen by the first shattering hole；

Third step separates niblet with big impurity

The first rotary screen is rotated, the niblet and the dust smaller than niblet and impurity in the first rotary screen pass through the first rolling The second shattering hole on shaft screen is fallen in second tin roller sieve, and is greater than the impurity such as the broken corncob of niblet in the first guide plate Effect is lower to flow out the first rotary screen；

4th step separates niblet with small impurity

Second tin roller sieve is rotated, the dust and impurity smaller than niblet pass through going out on second tin roller sieve in second tin roller sieve Dirt hole is fallen in the shell in second tin roller sieve outside, and niblet flows out second through seed outlet under the action of the second guide plate Rotary screen.

8. the method for carrying out threshing using maize sheller as claimed in claim 4, it is characterised in that: this method includes following step It is rapid:

Corncob is placed in fringe storehouse by the first step

Corncob is placed in fringe storehouse by conveying mechanism or forklift；

Second step, threshing

Corncob in fringe storehouse enters in threshing cover through feeding inlet, and turn on the power mechanism, threshing axle rotation, will while threshing Threshing cover is released before corncob after threshing, the niblet taken off is fallen in the first rotary screen by the first shattering hole；

Third step separates niblet with big impurity

The first rotary screen is rotated, the niblet and the dust smaller than niblet and impurity in the first rotary screen pass through the first rolling The second shattering hole on shaft screen is fallen in second tin roller sieve, and is greater than the impurity such as the broken corncob of niblet in the first guide plate Effect is lower to flow out the first rotary screen；

4th step separates niblet with small impurity

Second tin roller sieve is rotated, the dust and impurity smaller than niblet pass through going out on second tin roller sieve in second tin roller sieve Dirt hole is fallen in the shell in second tin roller sieve outside, and niblet flows out second through seed outlet under the action of the second guide plate Rotary screen；

5th step recycles the dust and impurity smaller than niblet

Intracorporal dust of shell etc. reaches dedusting mechanism dedusting through dust-exhausting port.