CN105495355A - Waxy-type corn particle preparation system - Google Patents

Abstract

The invention discloses a waxy-type corn particle preparation system. The waxy-type corn particle preparation system comprises a steam communication switch, wherein the steam communication switch comprises a positioning base plate of which the position is set, an outer ring plate body in movable connection with the positioning base plate and five fan-shaped blades of the same specification; the five fan-shaped blades are hinged to the positioning base plate and can form an integral closed disc when combined together; the arc length of the side surface of each fan-shaped blade is one fifth of the circumferential length of the closed disc; the hinged position of each fan-shaped blade and the positioning base plate is located on the arc-shaped circumference surface of one side of the fan-shaped blade, and the arc-shaped circumference surface of the other side of the fan-shaped blade is in movable connection with the outer ring plate body by an arc-shaped connecting rod; sliding bulge blocks are arranged on the positioning base plate; arc-shaped guide grooves matched with the sliding bulge blocks are formed in the outer ring plate body; the arc-shaped guide grooves and the outer ring plate body are concentrically arranged.

Description

Waxy type corn particle preparation system

Technical field

The present invention relates to food deep-processing system, particularly relate to the deep-processing system of corn.

Background technology

Corn is the zeistic seed of grass, has another name called maize, maize, maize, maize etc.Originate in Central America Mexico and Peru, 16th century imported China into, had the cultivation history in more than 400 years so far.There is plantation current all parts of the country, especially more with northeast, North China and southwestern each province.Flint corn is generally planted by the Northeast, and North China is multiple plants the dent corn being suitable for abrasive dust, and quality is inferior to Flint corn.The variety type of corn is a lot, divide by purposes, have the feeding kind of grain, dish kind (comprising waxy type, saccharoid type, young corn type), processing variety (corn, young corn), quick-fried grain type kind (puffed rice specific breed) etc.Corn is the health-care good product in coarse food grain, and food corn is rather favourable to the health of human body.The embryo of corn is large especially, accounts for the 10%-14% of gross weight, wherein containing a large amount of fat, therefore can extract grease from maize.Owing to containing more fat in corn, so corn easily becomes sour rotten in storage process.Corn both can abrasive dust, again can rice milling.Nonrated the dividing of corn flour, only has thickness not.Corn flour can make a steamed bread of corn, steamed corn cake etc.Protein in corn flour does not have the flexible ability of formation gluten, holds gas poor performance, can make various fermentation dessert after need admixing with flour.Be maize pulp with cracking rice of making of corn, can be used for cooking congee, cooking rice over a slow fire.Still immature extremely tender corn is called " young corn ", can be used for making dish.

The nutritive value of corn: 1. vitamin content is very high, the vitamin content in corn is very high, for rice, 5 ~ 10 times of wheat, and the nutritive value of special corn is higher than conventional corn; 2. plant cellulose content enriches, and abundant plant cellulose contained in corn has the characteristic that stimulating gastrointestinal is wriggled, accelerated defecate, can prevent treating constipation, enteritis, intestinal cancer etc.Can fetter and hinder the absorption of excessive glucose, play the effect suppressing blood sugar after meal to raise; Cellulose can also suppress fat absorption, reduces blood lipid level, prevents and improve the generation of coronary heart disease, obesity, gall stone; 3. be rich in selenium and magnesium, the selenium contained in corn and magnesium have anti-cancer and kill cancer action, and the decomposition of selenium energy acceleration bodies endoperoxide, makes malignant tumour can not get the supply of molecular oxygen and be suppressed.Magnesium on the one hand also can the development of inhibition cancer cell, and refuse in body can be impelled to excrete on the other hand, this is also significant to anti-cancer; 4., containing glutathione, also containing a kind of longevity factor-glutathione in corn, it is in the presence of selenium, generates GSH-POX, has and renew one's youth, the function delayed senility; 5., containing zeaxanthin, zeaxanthin contained in corn, can prevent the generation that age-related macular venereal disease becomes.According to the research display that medical college of Harvard University in 1994 does together with many research centers, the zeaxanthin of picked-up higher amount, can reduce the probability that age-related macular venereal disease becomes; 6., containing abundant carrotene and nicotinic acid, carrotene contained in corn, can be converted into vitamin A after being absorbed by the body; Also containing nicotinic acid in corn, content is higher than rice a lot.Nicotinic acid plays an important role in the metabolic process of protein, fat, sugar, and us can be helped to maintain the normal function of nervous system, digestive system and skin.If lack niacin in human body, the symptom such as spiritual photis, phonism, amentia may be caused, the symptoms such as the angular stomatitis in digestion, glossitis, diarrhoea, and the bark favus on skin; 7. containing abundant linoleic acid, containing abundant unrighted acid in corn, especially linoleic content is up to more than 60%, linoleic acid can reduce cholesterol, it is prevented to be deposited on blood vessel, thus reduce arteriosclerotic generation, to preventing hypertension, cardiovascular and cerebrovascular diseases have positive effect.

Summary of the invention

For solving the deficiencies in the prior art, the object of this invention is to provide a kind of automaticity high, improving the system of corn deep processing efficiency.

For realizing technique scheme, the technical solution used in the present invention is as follows.

Waxy type corn particle preparation system, it comprises the device for peeling removed the peel the corn plucked set gradually, corn after peeling is carried out to the sheller unit of threshing, corn particle after threshing is carried out to the knot screen of removal of impurities, to the cleaning device that the corn particle after removal of impurities cleans, the vapour cooking device of boiling is carried out to corn particle after cleaning;

Sheller unit comprises threshing frame, be movably installed in threshing frame and a pair threshing cylinder rotated in opposite directions, be installed on the threshing accommodating device moved between two threshing cylinders and along threshing cylinder axis direction, threshing accommodating device comprises threshing container, telescoping mechanism, periphery between the bottom end face of described threshing container and two threshing cylinders matches, the Driving plane of threshing container connects telescoping mechanism, and telescoping mechanism promotes or pulls threshing container to move along threshing cylinder axis direction; Deslagging gap is left between the initial working end of threshing cylinder and the inwall of threshing frame;

Cleaning device comprises cleaning outer cylinder body, be socketed on the cleaning inner barrel in cleaning outer cylinder body, the interlock disk body be connected with cleaning inner barrel, the double motor equipment be connected with interlock disk body, cleaning outer cylinder body is fixedly installed and cleans in outer cylinder body and is provided with water chamber, clean outer cylinder body and clean inner barrel arranged concentric and clean inner barrel and freely can rotate relative to cleaning outer cylinder body, wash chamber is provided with in cleaning inner barrel, cleaning inner barrel wall portion is provided with cleaning filter opening, cleaning inner barrel is furnished with the wash bowl gathering sill radially arranged, interlock disk body is socketed on and cleans in inner barrel and the disk body that links be provided with the interlock protruding block matched with wash bowl gathering sill, double dynamical agitating device, it comprise headstock, the main cylinder be connected with headstock, the connection housing be connected with main cylinder, the kinetic energy output device be socketed in main cylinder, with the countershaft being connected regulation device that housing is connected, match with regulation device, main cylinder one end is connected with headstock housing, the other end of main cylinder be connected housing and be connected, in main cylinder, the drive end of main shaft of socket is connected with the output of headstock, and the rotation of headstock output kinetic energy drive shaft, main shaft is provided with external screw thread, kinetic energy output device comprises output shaft, and output sleeve is connected in main cylinder, and output shaft is matched by screw and main shaft, and the central axis of output shaft and the central axes of main shaft, output shaft is also provided with the direction recess arranged along its axis direction, connect in housing and be provided with a pair intermeshing mainshaft gear, countershaft gear, mainshaft gear is socketed on output shaft outside, and countershaft gear is socketed on the outside of countershaft, mainshaft gear is provided with the protruding block matched with direction recess, countershaft to be socketed in disk and to be flexibly connected with disk, disk be connected housing and be connected, countershaft is provided with annular relief, countershaft is also socketed with spring, one end of spring is connected with annular relief, the other end of spring is connected with disk, annular relief is provided with along the circumferential direction and evenly spaced some positioning cams, regulation device comprises secondary cylindrical shell, positioning disk, secondary barrel jacket is connected to the outside of countershaft and the central axes of secondary cylindrical shell and countershaft, secondary cylindrical shell one end be connected housing and be connected, the other end of secondary cylindrical shell is connected with positioning disk, the central axes of secondary cylindrical shell and positioning disk, positioning disk sleeve is connected to the outside of countershaft, and positioning disk is provided with step, step is provided with the locating recess matched with positioning cams, the center of interlock disk body is provided with connecting axle and this connecting axle is connected with the kinetic energy output of the output shaft of double motor equipment,

Vapour cooking device comprises heating cylinder, lower retaining cylindrical shell, is installed on vapor communication switch between heating cylinder and lower retaining cylindrical shell, the top of upper heating cylinder is provided with can the upper cover body of folding, upper cover body is provided with air inlet pipe, Pressure gauge, blast pipe, in upper heating cylinder, heated tray is installed, the diapire of upper heating cylinder is provided with steam inlet, the wall portion of lower retaining cylindrical shell is provided with water inlet pipe, and the diapire of lower retaining cylindrical shell is separately installed with drainpipe, roundabout shape heating rod, vapor communication switch comprises the fixing positioning chassis in position, the outer shroud disk body be flexibly connected with positioning chassis, the sector of five same sizes hinged with positioning chassis, five sectors are combined into a complete closed disk when merging, the side arc length of sector is 1/5th of the circumferential length of closed disk, the articulated position place of sector and positioning chassis is positioned at the side curved circular side face of sector, the opposite side curved circular side face of sector is flexibly connected with outer shroud disk body by curved rod, positioning chassis is provided with slide protrusion block, outer shroud disk body is provided with the arc guide groove matched with slide protrusion block, arc guide groove and outer shroud disk body arranged concentric, round and in position on positioning chassis installs the vapor communication mouth being equipped with and being connected with upper steam inlet, lower retaining cylindrical shell.

The further improvement of technique scheme.

Threshing cylinder is evenly distributed with threshing friction mechanism respectively, the threshing that threshing friction mechanism comprises the threshing cylinder that is slidably connected is protruding, be connected with Compress Spring between the bottom of threshing projection and threshing cylinder inwall, the top of threshing projection is provided with spherical threshing bistrique.

The further improvement of technique scheme.

Threshing frame is also provided with the threshing loading hopper corresponding with threshing container initial position.

The further improvement of technique scheme.

The Sidewall Height of threshing container is not less than 7cm.

The further improvement of technique scheme.

The bottom of cleaning inner barrel is connected with chassis, and the centre on chassis is connected with cleaning rotating shaft, and the center of cleaning outer cylinder body is provided with and the axial trough cleaning rotating shaft and match, and cleaning inner barrel can around own axis.

The further improvement of technique scheme.

Main cylinder by rivet and headstock housing, be connected housing and be connected, secondary cylindrical shell by rivet be connected housing and be connected.

The further improvement of technique scheme.

Main cylinder is also provided with travel switch, is controlled the two ends extreme position of output shaft by travel switch.

The further improvement of technique scheme.

Outer shroud disk body is also provided with operative gear, drives outer shroud disk body back and forth to deflect around own axes direction by transmission mechanism.

The further improvement of technique scheme.

Above-mentioned heated tray is fixed in upper heating cylinder by the support column that some vertical directions are arranged, and heated tray is provided with some water seepage holes, the circumference side of heated tray is provided with the side board of vertical direction projection.

Waxy type corn particle reparation technology, its step comprises:

A, the device for peeling that the corn plucked is removed the peel;

B, to peeling after corn carry out threshing;

Threshing container returns back to initial position under the driving of telescoping mechanism, and initial position is: threshing container is positioned at the initial working end of threshing cylinder, and not initial with threshing cylinder working end is communicated with the deslagging gap between threshing frame;

Two threshing cylinders are driven to rotate in opposite directions by power set, to treat that threshing corn is poured in the threshing container that is installed between two threshing cylinders, drive threshing container along the axis direction of threshing cylinder by telescoping mechanism and working distal tip towards threshing cylinder is moved, thus make to be positioned over the corn in threshing container realize preliminary threshing under the effect of threshing cylinder; When threshing container moves to the working distal tip of threshing cylinder, telescoping mechanism shrinks and draws threshing container and returns, be positioned over corn in threshing container again by threshing, flexible frame contracts last, until threshing container is communicated with deslagging gap, corncob cellulose in threshing container is all discharged, namely completes a threshing;

C, removal of impurities is carried out to the corn particle after threshing;

D, the corn particle after removal of impurities to be cleaned;

Interlock disk body rotates cleaning; In cleaning outer cylinder body, load clean water, corn particle is poured in the wash chamber of the cleaning inner barrel be socketed in cleaning outer cylinder body;

Pressing countershaft, make the annular relief radial motion be arranged on countershaft, the positioning cams be arranged in annular relief is separated with the locating recess be socketed on countershaft, and is arranged at annular relief and the spring contraction be connected between housing;

Turns auxiliary shaft, make to be arranged at and to connect in housing and the countershaft gear being socketed on countershaft outside rotates, be arranged at and connect in housing and the mainshaft gear be meshed with countershaft gear rotates thereupon, because mainshaft gear is socketed on output shaft outside, and mainshaft gear is provided with the protruding block matched with the direction recess be arranged on output shaft, and main shaft is provided with external screw thread, output shaft is connected with main shaft by screw, when main shaft does not rotate, realize rotation and the axial feed motion of output shaft;

The interlock disk body be connected with the kinetic energy output of output shaft moves along with the motion of output shaft, interlock disk body rotates and radially moves in cleaning inner barrel in cleaning inner barrel, cleaning inner barrel is furnished with the wash bowl gathering sill radially arranged, interlock disk body is socketed on and cleans in inner barrel and the disk body that links be provided with the interlock protruding block matched with wash bowl gathering sill, the rotation of interlock disk body drives the rotation of cleaning inner barrel, thus make the foreign material mixed in corn particle enter cleaning urceolus from the cleaning filter opening of cleaning inner barrel wall portion under the influence of centrifugal force, thus reach rotary-cleaning effect,

The cleaning of interlock disk body Radial Perturbation; Be socketed on the positioning cams that spring on countershaft promotes to be arranged at annular relief to match with locating recess, countershaft position is fixed, and is arranged at mainshaft gear in connection housing and countershaft gear position is fixed, and does not rotate;

Drive shaft is rotated, and because the axially directed groove that output shaft is arranged and the protruding block be arranged on mainshaft gear match, is socketed on main shaft outside and realizes axial feed motion by the output shaft that screw is connected with main shaft;

The radial motion of output shaft drives the interlock disk body radial motion in cleaning inner barrel being attached thereto and connecing, interlock disk body is in radial motion process, realize draining and the absorbent function of cleaning inner barrel, thus reach flow-disturbing effect, corn particle is rolled fast in cleaning inner barrel, thus reaches disturbance cleaning performance;

E, to cleaning after corn particle carry out boiling;

Corn particle after cleaning is positioned on the heated tray be fixed in upper heating cylinder, the upper cover body being installed on upper heating cylinder top is closed, and the vapor communication switch being installed on upper heating cylinder bottom cuts out, and in the lower retaining cylindrical shell of vapor communication switch bottom injected clear water, open the roundabout shape heating rod that is installed in lower retaining cylindrical shell, preheating is carried out by injecting a certain amount of steam in the air inlet pipe that is installed on upper cover body upwards heating cylinder, and observe the atmospheric pressure value in upper heating cylinder by the air gauge being installed on upper cover body, if air pressure exceedes predetermined safety value, by being installed on the blast pipe discharge section steam of upper cover body, when clear water in lower retaining cylindrical shell boils, open vapor communication switch, it is made to turn an angle around own axes direction by rotating outer shroud disk body, five the curved rod motions be flexibly connected with it are driven in outer shroud disk body rotation process, the other end due to five curved rods is flexibly connected sector curved circular side face respectively, the opposite side curved circular side face of sector and positioning chassis hinged, and five sectors are combined into a complete closed disk when merging, the side arc length of sector is 1/5th of the circumferential length of closed disk, thus make to drive in curved rod motion process five corresponding with it sector separated in synchronization, the vapor communication mouth of the steam in lower retaining cylindrical shell through positioning chassis center is made to enter in upper heating cylinder, certain hour to be heated can take out ripe corn particle, before the ripe corn particle of taking-up, answer steam off coupling cock, avoid heat energy to distribute.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention, simple introduction is done below by the accompanying drawing used required in embodiment, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structure principle chart of double motor equipment of the present invention.

Fig. 2 is the syndeton schematic diagram of main shaft of the present invention and countershaft.

Fig. 3 is the syndeton schematic diagram of main shaft of the present invention and countershaft.

Fig. 4 is the syndeton schematic diagram of main shaft of the present invention and countershaft.

Fig. 5 is the explosive view of the syndeton of main shaft of the present invention and countershaft.

Fig. 6 is the explosive view of main shaft of the present invention.

Fig. 7 is cleaning device structural representation of the present invention.

Fig. 8 is cleaning device cross-sectional view of the present invention.

Fig. 9 is cleaning inner barrel structural representation of the present invention.

Figure 10 is cleaning inner barrel structural representation of the present invention.

Figure 11 is sheller unit of the present invention and knot screen catenation principle figure.

Figure 12 is sheller unit structural representation of the present invention.

Figure 13 is sheller unit structural representation of the present invention.

Figure 14 is sheller unit structural representation of the present invention.

Figure 15 is sheller unit structural representation of the present invention.

Figure 16 is threshing friction mechanism structural representation of the present invention.

Figure 17 is vapour cooking apparatus structure schematic diagram of the present invention.

Figure 18 is vapour cooking apparatus structure schematic diagram of the present invention.

Figure 19 is the upper heating cylinder structural representation of vapour cooking device of the present invention.

Figure 20 is the lower heating cylinder structural representation of vapour cooking device of the present invention.

Figure 21 is the vapor communication switch closed condition structural representation of vapour cooking device of the present invention.

Figure 22 is the vapor communication switch open status architecture schematic diagram of vapour cooking device of the present invention.

Figure 23 is beating apparatus structural representation of the present invention.

Figure 24 is beating apparatus structural representation of the present invention.

Figure 25 is the upper millstone structural representation of beating apparatus of the present invention.

Figure 26 is the lower millstone structural representation of beating apparatus of the present invention.

Be denoted as in figure:

10, headstock.

20, main cylinder.

30, housing is connected; 32, mainshaft gear; 34, countershaft gear.

40, regulation device; 42, secondary cylindrical shell; 44, positioning disk; 46, step.

50, bearing.

60, kinetic energy output device; 62, output shaft; 64, direction recess; 66, kinetic energy output.

70, countershaft; 72, disk; 74, spring; 76, annular relief.

80, main shaft.

100, cleaning device; 110, outer cylinder body is cleaned; 120, inner barrel is cleaned; 122, filter opening is cleaned; 124, wash bowl gathering sill; 130, link disk body; 132, link protruding block; 134, disk body is connected; 142, chassis; 144, rotating shaft is cleaned.

200, sheller unit; 210, threshing frame; 212, threshing loading hopper; 216, threshing swash plate; 220, threshing cylinder; 230, threshing friction mechanism; 232, Compress Spring; 234, threshing is protruding; 236, threshing bistrique; 240, threshing accommodating device; 242, threshing container; 244, telescoping mechanism.

300, knot screen; 310, the first conveyer belt; 320, the second conveyer belt; 330, blower fan.

400, vapour cooking device; 410, upper heating cylinder; 412, heated tray; 414, water seepage hole; 416, support column; 418, upper steam inlet; 420, upper cover body; 422, air inlet pipe; 424, air gauge; 426, blast pipe; 430, vapor communication switch; 431, outer shroud disk body; 432, positioning chassis; 433, arc guide groove; 434, slide protrusion block; 435, curved rod; 436, sector; 437, vapor communication mouth; 440, lower retaining cylindrical shell; 442, water inlet pipe; 444, drainpipe; 446, heating rod.

500, beating apparatus; 510, making beating urceolus; 512, filter pulp hole; 520, upper millstone; 522, upper millstone driven wheel; 524, making beating charging hole; 526, radial cutter; 530, lower millstone; 532, helical tooth blade.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art are not making under creative work prerequisite, and the every other embodiment obtained, all belongs to scope.

As shown in Fig. 1-2 6, corn deep processing system, it comprises the device for peeling removed the peel the corn plucked set gradually, corn after peeling is carried out to the sheller unit of threshing, corn particle after threshing is carried out to the knot screen of removal of impurities, to the cleaning device that the corn particle after removal of impurities cleans, the vapour cooking device of boiling is carried out to corn particle after cleaning, to the air-dry cooling of the corn particle after boiling, to the packing device that cooled corn particle is packed.

As shown in Fig. 1-2 6, corn deep processing system, it comprises the device for peeling removed the peel the corn plucked set gradually, corn after peeling is carried out to the sheller unit of threshing, corn particle after threshing is carried out to the knot screen of removal of impurities, to the cleaning device that the corn particle after removal of impurities cleans, corn particle after cleaning is pulled an oar and produced the beating apparatus of corn slurries, air-dry cooling is carried out to corn slurries, to the packing device that cooled corn slurries are packed.

The device with identical function existed in prior art can be adopted to realize for above-mentioned device for peeling, packing device.

Above-mentioned cleaning device 100, comprise cleaning outer cylinder body 110, be socketed on the cleaning inner barrel 120 in cleaning outer cylinder body 110, the interlock disk body 130 be connected with cleaning inner barrel 120, the double motor equipment be connected with interlock disk body 130, cleaning outer cylinder body 110 is fixedly installed and cleans in outer cylinder body 110 and is provided with water chamber, clean outer cylinder body 110 and clean inner barrel 120 arranged concentric and clean inner barrel 120 and freely can rotate relative to cleaning outer cylinder body 110, wash chamber is provided with in cleaning inner barrel 120, the bottom of cleaning inner barrel 120 is connected with chassis 142, the centre on chassis 142 is connected with cleaning rotating shaft 144, the center of cleaning outer cylinder body 110 is provided with and the axial trough cleaning rotating shaft 144 and match, cleaning inner barrel 120 can around own axis, cleaning inner barrel 120 wall portion is provided with cleaning filter opening 122, cleaning inner barrel 120 is furnished with the wash bowl gathering sill 124 radially arranged, interlock disk body 130 is socketed on and cleans in inner barrel 120 and the disk body 130 that links be provided with the interlock protruding block 132 matched with wash bowl gathering sill 124, the disk body that can realize linking is mated cleaning the radial motion in inner barrel 120 by interlock protruding block 132 and wash bowl gathering sill 124, when the disk body 130 that links rotates, because interlock lug boss and wash bowl gathering sill 124 match, thus interlock disk body 130 is made to drive the rotation of cleaning inner barrel 120.

As shown in figures 1 to 6, double motor equipment, it comprise headstock 10, the main cylinder 20 be connected with headstock 10, the connection housing 30 be connected with main cylinder 20, the kinetic energy output device 60 be socketed in main cylinder 20, with the countershaft 70 being connected regulation device 40 that housing 30 is connected, match with regulation device; The main shaft 80 providing power drive to be socketed in main cylinder 20 by headstock 10 rotates, thus drives the radial motion of kinetic energy output device 60; By driving the rotation of countershaft, thus drive the rotation of kinetic energy output device 60 and radially move.

Main cylinder 20 one end is connected with headstock 10 housing by rivet, the other end of main cylinder 20 by rivet be connected housing 30 and be connected, in main cylinder 20, the drive end of the main shaft 80 of socket is connected with the output of headstock 10, the rotation of headstock 10 output kinetic energy drive shaft 80, main shaft 80 is provided with external screw thread.

Kinetic energy output device 60 comprises output shaft 62, output shaft 62 is socketed in main cylinder 20, output shaft 62 is matched by screw and main shaft 80, and the central axis of output shaft 62 and the central axes of main shaft 80, output shaft 62 is also provided with the direction recess 64 arranged along its axis direction.

Connect in housing 30 and be provided with a pair intermeshing mainshaft gear 32, countershaft gear 34, it is outside that mainshaft gear 32 is socketed on output shaft 62, countershaft gear 34 is socketed on the outside of countershaft 70, mainshaft gear 32 is provided with the protruding block (not shown in FIG.) matched with direction recess 64.

Regulation device 40 is in order to control the rotation of countershaft 70, countershaft 70 to be socketed in disk 72 and to be flexibly connected with disk 72, disk 72 be connected housing 30 and fixed by rivet, countershaft 70 is provided with annular relief 76, countershaft 70 is also socketed with spring 72, one end of spring 72 is connected with annular relief 76, and the other end of spring 72 is connected with disk 72, annular relief 76 is provided with along the circumferential direction and evenly spaced some positioning cams; Regulation device 40 comprises secondary cylindrical shell 42, positioning disk 44, secondary cylindrical shell 42 is socketed on the outside of countershaft 70 and the central axes of secondary cylindrical shell and countershaft, secondary cylindrical shell 42 one end be connected housing 30 and fixed by rivet, the other end of secondary cylindrical shell 42 is fixed by rivet and positioning disk 44, the central axes of secondary cylindrical shell 42 and positioning disk 44, positioning disk 44 is socketed on the outside of countershaft 70, positioning disk 44 is provided with step 46, step 46 is provided with the locating recess matched with positioning cams.

The first type of drive, main axis, countershaft does not rotate.

Annular relief jack-up on countershaft 70 will be arranged under the effect of spring 74 elastic force, and drive countershaft along axial-movement, the positioning cams be arranged in annular relief is matched with the locating recess be arranged on positioning disk 44, thus fixed countershaft position and countershaft gear 34 can not be rotated, thus mainshaft gear can not be rotated.

Headstock 10 provides power drive main shaft 80 around own axis, due to the protruding block that direction recess mainshaft gear is provided be arranged on output shaft 62 matches, thus make the output shaft 62 that is connected with main shaft 80 by screw can only along axial-movement, can not around own axis.

The second type of drive, countershaft rotates, main shaft does not rotate.

First countershaft 70 is extruded, shell fragment is shunk and positioning cams is separated with locating recess, kinetic energy is provided and turns auxiliary shaft 70 by power set, the rotation drive of countershaft 70 is attached thereto the countershaft gear 34 connect and rotates, the rotation of countershaft gear 34 drives the mainshaft gear 32 be meshed with it to rotate, the rotation of mainshaft gear 32 drives the rotation of output shaft 62, because main shaft does not rotate, thus makes output shaft 62 realize axial feed motion while rotating.

As shown in Figure 1, 2, 3, main cylinder 20 is also provided with travel switch, is controlled the two ends extreme position of output shaft 62 by travel switch, avoid output shaft 62 and mechanism to collide, cause the damage of device.

The center of interlock disk body 130 is provided with connecting axle and this connecting axle is connected with the kinetic energy output of the output shaft of double motor equipment, is arranged on the connecting axle on interlock disk body 130 and is provided with the connection disk body 134 be connected with the kinetic energy output of the output shaft of double motor equipment.

In actual mechanical process, cleaning inner barrel of the present invention need adopt vertical placement, avoids the mutual collision of corn particle to cause and breaks, affect the quality of corn particle.

In cleaning process, mix and discharge from cleaning in filter opening with the foreign material in corn particle, depart from for ease of foreign material from cleaning filter opening, the cleaning filter opening diameter being arranged at cleaning inner barrel wall portion should at 2mm-5mm, and preferably, cleaning filter opening diameter is 4mm.

Cleaning device is to the cleaning method of corn particle.

Interlock disk body rotates cleaning.

In cleaning outer cylinder body, load clean water, corn particle is poured in the wash chamber of the cleaning inner barrel be socketed in cleaning outer cylinder body.

Pressing countershaft, make the annular relief radial motion be arranged on countershaft, the positioning cams be arranged in annular relief is separated with the locating recess be socketed on countershaft, and is arranged at annular relief and the spring contraction be connected between housing.

Turns auxiliary shaft, make to be arranged at and to connect in housing and the countershaft gear being socketed on countershaft outside rotates, be arranged at and connect in housing and the mainshaft gear be meshed with countershaft gear rotates thereupon, because mainshaft gear is socketed on output shaft outside, and mainshaft gear is provided with the protruding block matched with the direction recess be arranged on output shaft, and main shaft is provided with external screw thread, output shaft is connected with main shaft by screw, when main shaft does not rotate, realize rotation and the axial feed motion of output shaft.

The interlock disk body be connected with the kinetic energy output of output shaft moves along with the motion of output shaft, interlock disk body rotates and radially moves in cleaning inner barrel in cleaning inner barrel, cleaning inner barrel is furnished with the wash bowl gathering sill radially arranged, interlock disk body is socketed on and cleans in inner barrel and the disk body that links be provided with the interlock protruding block matched with wash bowl gathering sill, the rotation of interlock disk body drives the rotation of cleaning inner barrel, thus make the foreign material mixed in corn particle enter cleaning urceolus from the cleaning filter opening of cleaning inner barrel wall portion under the influence of centrifugal force, thus reach rotary-cleaning effect.

The cleaning of interlock disk body Radial Perturbation.

Be socketed on the positioning cams that spring on countershaft promotes to be arranged at annular relief to match with locating recess, countershaft position is fixed, and is arranged at mainshaft gear in connection housing and countershaft gear position is fixed, and does not rotate;

Drive shaft is rotated, and because the axially directed groove that output shaft is arranged and the protruding block be arranged on mainshaft gear match, is socketed on main shaft outside and realizes axial feed motion by the output shaft that screw is connected with main shaft.

The radial motion of output shaft drives the interlock disk body radial motion in cleaning inner barrel being attached thereto and connecing, interlock disk body is in radial motion process, realize draining and the absorbent function of cleaning inner barrel, thus reach flow-disturbing effect, corn particle is rolled fast in cleaning inner barrel, thus reaches disturbance cleaning performance.

Rotate cleaning, the cleaning of interlock disk body Radial Perturbation according to above-mentioned interlock disk body to clean corn particle and constantly to switch, until corn particle cleans completely.

As illustrated in figures 11-16, sheller unit 200, it comprises threshing frame 210, be movably installed in threshing frame and a pair threshing cylinder 220 rotated in opposite directions, be installed on the threshing accommodating device 240 moved between two threshing cylinders 220 and along threshing cylinder axis direction, threshing accommodating device 240 comprises threshing container 242, telescoping mechanism 244, periphery between the bottom end face of described threshing container 242 and two threshing cylinders matches, the Driving plane of threshing container 242 connects telescoping mechanism 244, this telescoping mechanism 244 can be the push rod of cylinder, tractive force is applied by cylinder push-rod, promote or pull threshing container 242 to move along threshing cylinder axis direction, deslagging gap is left between the initial working end of threshing cylinder 220 and the inwall of threshing frame 210.

First, under the driving of power set, drive two threshing cylinder move toward one another, threshing container is reset to initial position, and initial position is: threshing container is positioned at the initial working end of threshing cylinder, and is not communicated with deslagging gap; Place in threshing container and treat threshing corn, promote threshing container by cylinder to move along threshing cylinder axis direction, in threshing course, corn particle is peeled off from corncob cellulose and is dropped from the gap between two threshing containers, when threshing container moves to threshing cylinder working distal tip, cylinder traction threshing container returns, until threshing container is communicated with deslagging gap, to be positioned over after the corn threshing in threshing container only remaining corncob cellulose, corncob cellulose is from deslagging gap automatic discharging; Then threshing container resets again, carries out threshing work next time; Obviously, in this device, promote the reciprocal threshing on threshing cylinder of threshing container by cylinder, relative to one way threshing mode, its effective threshing distance, and this device adopts automatic discharging mode, without the need to artificial participation, greatly saves artificial.

Because corn ear is tapered and its concave-convex surface is uneven, if adopt common threshing bistrique to carry out threshing to corn, certainly be halfway, for solving this problem, the threshing bistrique adopted in this device as shown in figure 16, threshing cylinder 220 is evenly distributed with threshing friction mechanism 230 respectively, threshing friction mechanism 230 comprises the threshing projection 234 of the threshing cylinder that is slidably connected, be connected with Compress Spring 232 between the bottom of threshing projection 234 and threshing cylinder inwall, the top of threshing projection 234 is provided with spherical threshing bistrique 236; When threshing cylinder rotates, threshing bistrique occurs flexible according to corn particle surface configuration, thus makes threshing bistrique not destroy corn particle meat portion, and threshing is wider.

For ease of controlling charging and avoiding operation element close contact threshing cylinder, improve production security, threshing frame 210 is also provided with the threshing loading hopper 212 corresponding with threshing container initial position.

When corn between threshing cylinder by threshing time, ceaselessly can roll and even beat, for avoiding corn particle to jump out in threshing container 242, the Sidewall Height of threshing container 242 is not less than 7cm.

The methods of threshing of corn.

Threshing container returns back to initial position under the driving of telescoping mechanism, and initial position is: threshing container is positioned at the initial working end of threshing cylinder, and not initial with threshing cylinder working end is communicated with the deslagging gap between threshing frame;

Two threshing cylinders are driven to rotate in opposite directions by power set, to treat that threshing corn is poured in the threshing container that is installed between two threshing cylinders, drive threshing container along the axis direction of threshing cylinder by telescoping mechanism and working distal tip towards threshing cylinder is moved, thus make to be positioned over the corn in threshing container realize preliminary threshing under the effect of threshing cylinder; When threshing container moves to the working distal tip of threshing cylinder, telescoping mechanism shrinks and draws threshing container and returns, be positioned over corn in threshing container again by threshing, flexible frame contracts last, until threshing container is communicated with deslagging gap, corncob cellulose in threshing container is all discharged, namely completes a threshing.

As shown in figure 17-22, vapour cooking device 400, comprise heating cylinder 410, lower retaining cylindrical shell 440, be installed on the vapor communication switch 430 between heating cylinder 410 and lower retaining cylindrical shell 440, the top of upper heating cylinder 410 is provided with can the upper cover body 420 of folding, upper cover body 420 is provided with air inlet pipe 422, Pressure gauge 424, blast pipe 426, in upper heating cylinder 410, heated tray 412 is installed, the diapire of upper heating cylinder 410 is provided with steam inlet 418, the wall portion of lower retaining cylindrical shell 440 is provided with water inlet pipe 442, the diapire of lower retaining cylindrical shell 440 is separately installed with drainpipe 444, roundabout shape heating rod 446, vapor communication switch 430 comprises the fixing positioning chassis 432 in position, the outer shroud disk body 431 be flexibly connected with positioning chassis 432, the sector 436 of five same sizes hinged with positioning chassis 432, five sectors are combined into a complete closed disk when merging, the side arc length of sector is 1/5th of the circumferential length of closed disk, sector 436 is positioned at the side curved circular side face of sector 436 with the articulated position place of positioning chassis 432, the opposite side curved circular side face of sector is flexibly connected with outer shroud disk body 431 by curved rod 435, positioning chassis 432 is provided with slide protrusion block 434, outer shroud disk body 431 is provided with the arc guide groove 433 matched with slide protrusion block 434, arc guide groove 433 and outer shroud disk body arranged concentric, round and in position on positioning chassis 432 installs the vapor communication mouth 437 being equipped with and being connected with upper steam inlet, lower retaining cylindrical shell.

All right setting unit gear on outer shroud disk body 431, the reciprocating motion of outer shroud disk body is driven by transmission mechanism, outer shroud disk body is back and forth deflected around own axes direction, draw curved rod in the deflection of outer shroud disk body and drive sector to rotate around riveted joint place, and make five sector synchronous axial system, control opening range.

Above-mentioned heated tray 412 is fixed in upper heating cylinder by the support column 418 that some vertical directions are arranged, and heated tray 412 is provided with some water seepage holes 414, the circumference side of heated tray 412 is provided with the side board of vertical direction projection, avoids corn particle to depart from.

The vapour cooking method of corn particle.

Corn particle after cleaning is positioned on the heated tray be fixed in upper heating cylinder, the upper cover body being installed on upper heating cylinder top is closed, and the vapor communication switch being installed on upper heating cylinder bottom cuts out, and in the lower retaining cylindrical shell of vapor communication switch bottom injected clear water, open the roundabout shape heating rod that is installed in lower retaining cylindrical shell, preheating is carried out by injecting a certain amount of steam in the air inlet pipe that is installed on upper cover body upwards heating cylinder, and observe the atmospheric pressure value in upper heating cylinder by the air gauge being installed on upper cover body, if air pressure exceedes predetermined safety value, by being installed on the blast pipe discharge section steam of upper cover body, when clear water in lower retaining cylindrical shell boils, open vapor communication switch, it is made to turn an angle around own axes direction by rotating outer shroud disk body, five the curved rod motions be flexibly connected with it are driven in outer shroud disk body rotation process, the other end due to five curved rods is flexibly connected sector curved circular side face respectively, the opposite side curved circular side face of sector and positioning chassis hinged, and five sectors are combined into a complete closed disk when merging, the side arc length of sector is 1/5th of the circumferential length of closed disk, thus make to drive in curved rod motion process five corresponding with it sector separated in synchronization, the vapor communication mouth of the steam in lower retaining cylindrical shell through positioning chassis center is made to enter in upper heating cylinder, certain hour to be heated can take out ripe corn particle, before the ripe corn particle of taking-up, answer steam off coupling cock, avoid heat energy to distribute.

As shown in Figure 23-26, above-mentioned beating apparatus 500 comprises making beating urceolus 510, is fixed on the lower millstone 530 of pulling an oar in urceolus 510, is arranged in upper millstone 520 above making beating urceolus 510 and corresponding with lower millstone 530, region between the outside wall portions of lower millstone 530 and the inner wall part of making beating urceolus 510 is the stock tank that overflows, making beating urceolus 510 is provided with the filter pulp hole 512 be positioned at bottom excessive stock tank, and the center of upper millstone 520 is provided with the making beating charging hole 524 run through.

As shown in figures 24-25, the face machined flat of above-mentioned upper millstone 520 is provided with the radial cutter 526 of outward radial radiation, the center of the Driving plane of upper millstone 520 is furnished with upper millstone driven wheel 522, drive motors is connected by synchronous belt drive mechanism, and by the rotation of drive motors band movable grinding disc.

As shown in figure 26, the face machined flat of above-mentioned lower millstone 530 is provided with the helical tooth blade 532 centrally externally spread.

The methods of beating of beating apparatus.

Being poured into by corn particle after cleaning is arranged in the making beating charging hole of upper millstone center, rotate upper millstone, be grated in the abrasive areas of corn particle between upper millstone and lower millstone, lower millstone is fixed on making beating urceolus, and the region between the inner wall part of the outside wall portions of lower millstone and making beating urceolus is the stock tank that overflows, corn particle after polished becomes slurry and flows in excessive stock tank, due to making beating urceolus being provided with the filter pulp hole be positioned at bottom excessive stock tank, the corn particle slurries after being filtered are flowed out from filter pulp hole.

The delivery end in filter pulp hole is placed with the container collecting corn particle slurries, after sets of containers is full, more manually changes.

As shown in figure 11, knot screen 300 comprises the first conveyer belt 310, second conveyer belt 320, blower fan 330, the delivery end of the first conveyer belt 310 is towards the feed end of the second conveyer belt 320, second conveyer belt 320 slant setting and the delivery end of the second conveyer belt are higher than feed end, the delivery end of the first conveyer belt 310 is higher than the feed end of the second conveyer belt, and the air outlet of blower fan 330 is towards the gap location between the delivery end and the feed end of the second conveyer belt of the first conveyer belt 310 and the throughput direction of the blowing direction of blower fan 330 and the second conveyer belt is contrary.

For improving automaticity and avoiding a dead lift corn particle, the feed end of the first above-mentioned conveyer belt is positioned at the below of threshing cylinder, and the corn particle be stripped directly is delivered in knot screen.

The impurity-removing method of corn particle.

To treat that the corn particle of removal of impurities is positioned over the feed end place of the first conveyer belt, corn particle falls from the delivery end of the first conveyer belt, due to have interval between the delivery end of the first conveyer belt and the feed end of the second conveyer belt and the outlet air end of blower fan towards this interval, blower fan is by tiny particle, feeler blowout, corn particle after removal of impurities falls into the feed end place of the second conveyer belt, thus completes a removal of impurities.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention; To be apparent for those skilled in the art to the multiple amendment of these embodiments, the General Principle defined in the present invention when not departing from spirit of the present invention or scope, can realize in other embodiments.Therefore, the present invention can not be defined to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (9)

1. waxy type corn particle preparation system, it is characterized in that, it comprises the device for peeling removed the peel the corn plucked set gradually, corn after peeling is carried out to the sheller unit of threshing, corn particle after threshing is carried out to the knot screen of removal of impurities, to the cleaning device that the corn particle after removal of impurities cleans, the vapour cooking device of boiling is carried out to corn particle after cleaning;

Sheller unit comprises threshing frame, be movably installed in threshing frame and a pair threshing cylinder rotated in opposite directions, be installed on the threshing accommodating device moved between two threshing cylinders and along threshing cylinder axis direction, threshing accommodating device comprises threshing container, telescoping mechanism, periphery between the bottom end face of described threshing container and two threshing cylinders matches, the Driving plane of threshing container connects telescoping mechanism, and telescoping mechanism promotes or pulls threshing container to move along threshing cylinder axis direction; Deslagging gap is left between the initial working end of threshing cylinder and the inwall of threshing frame;

Cleaning device comprises cleaning outer cylinder body, be socketed on the cleaning inner barrel in cleaning outer cylinder body, the interlock disk body be connected with cleaning inner barrel, the double motor equipment be connected with interlock disk body, cleaning outer cylinder body is fixedly installed and cleans in outer cylinder body and is provided with water chamber, clean outer cylinder body and clean inner barrel arranged concentric and clean inner barrel and freely can rotate relative to cleaning outer cylinder body, wash chamber is provided with in cleaning inner barrel, cleaning inner barrel wall portion is provided with cleaning filter opening, cleaning inner barrel is furnished with the wash bowl gathering sill radially arranged, interlock disk body is socketed on and cleans in inner barrel and the disk body that links be provided with the interlock protruding block matched with wash bowl gathering sill, double dynamical agitating device, it comprise headstock, the main cylinder be connected with headstock, the connection housing be connected with main cylinder, the kinetic energy output device be socketed in main cylinder, with the countershaft being connected regulation device that housing is connected, match with regulation device, main cylinder one end is connected with headstock housing, the other end of main cylinder be connected housing and be connected, in main cylinder, the drive end of main shaft of socket is connected with the output of headstock, and the rotation of headstock output kinetic energy drive shaft, main shaft is provided with external screw thread, kinetic energy output device comprises output shaft, and output sleeve is connected in main cylinder, and output shaft is matched by screw and main shaft, and the central axis of output shaft and the central axes of main shaft, output shaft is also provided with the direction recess arranged along its axis direction, connect in housing and be provided with a pair intermeshing mainshaft gear, countershaft gear, mainshaft gear is socketed on output shaft outside, and countershaft gear is socketed on the outside of countershaft, mainshaft gear is provided with the protruding block matched with direction recess, countershaft to be socketed in disk and to be flexibly connected with disk, disk be connected housing and be connected, countershaft is provided with annular relief, countershaft is also socketed with spring, one end of spring is connected with annular relief, the other end of spring is connected with disk, annular relief is provided with along the circumferential direction and evenly spaced some positioning cams, regulation device comprises secondary cylindrical shell, positioning disk, secondary barrel jacket is connected to the outside of countershaft and the central axes of secondary cylindrical shell and countershaft, secondary cylindrical shell one end be connected housing and be connected, the other end of secondary cylindrical shell is connected with positioning disk, the central axes of secondary cylindrical shell and positioning disk, positioning disk sleeve is connected to the outside of countershaft, and positioning disk is provided with step, step is provided with the locating recess matched with positioning cams, the center of interlock disk body is provided with connecting axle and this connecting axle is connected with the kinetic energy output of the output shaft of double motor equipment,

Vapour cooking device comprises heating cylinder, lower retaining cylindrical shell, is installed on vapor communication switch between heating cylinder and lower retaining cylindrical shell, the top of upper heating cylinder is provided with can the upper cover body of folding, upper cover body is provided with air inlet pipe, Pressure gauge, blast pipe, in upper heating cylinder, heated tray is installed, the diapire of upper heating cylinder is provided with steam inlet, the wall portion of lower retaining cylindrical shell is provided with water inlet pipe, and the diapire of lower retaining cylindrical shell is separately installed with drainpipe, roundabout shape heating rod, vapor communication switch comprises the fixing positioning chassis in position, the outer shroud disk body be flexibly connected with positioning chassis, the sector of five same sizes hinged with positioning chassis, five sectors are combined into a complete closed disk when merging, the side arc length of sector is 1/5th of the circumferential length of closed disk, the articulated position place of sector and positioning chassis is positioned at the side curved circular side face of sector, the opposite side curved circular side face of sector is flexibly connected with outer shroud disk body by curved rod, positioning chassis is provided with slide protrusion block, outer shroud disk body is provided with the arc guide groove matched with slide protrusion block, arc guide groove and outer shroud disk body arranged concentric, round and in position on positioning chassis installs the vapor communication mouth being equipped with and being connected with upper steam inlet, lower retaining cylindrical shell.

2. waxy type corn particle preparation system according to claim 1, it is characterized in that, threshing cylinder is evenly distributed with threshing friction mechanism respectively, the threshing that threshing friction mechanism comprises the threshing cylinder that is slidably connected is protruding, be connected with Compress Spring between the bottom of threshing projection and threshing cylinder inwall, the top of threshing projection is provided with spherical threshing bistrique.

3. waxy type corn particle preparation system according to claim 1, is characterized in that, threshing frame is also provided with the threshing loading hopper corresponding with threshing container initial position.

4. waxy type corn particle preparation system according to claim 1, it is characterized in that, the Sidewall Height of threshing container is not less than 7cm.

5. waxy type corn particle preparation system according to claim 1, it is characterized in that, the bottom of cleaning inner barrel is connected with chassis, the centre on chassis is connected with cleaning rotating shaft, the center of cleaning outer cylinder body is provided with and the axial trough cleaning rotating shaft and match, and cleaning inner barrel can around own axis.

6. waxy type corn particle preparation system according to claim 1, is characterized in that, main cylinder by rivet and headstock housing, be connected housing and be connected, secondary cylindrical shell by rivet be connected housing and be connected.

7. waxy type corn particle preparation system according to claim 1, is characterized in that, main cylinder is also provided with travel switch, is controlled the two ends extreme position of output shaft by travel switch.

8. waxy type corn particle preparation system according to claim 1, is characterized in that, outer shroud disk body is also provided with operative gear, drives outer shroud disk body back and forth to deflect around own axes direction by transmission mechanism.

9. waxy type corn particle preparation system according to claim 1, it is characterized in that, above-mentioned heated tray is fixed in upper heating cylinder by the support column that some vertical directions are arranged, and heated tray is provided with some water seepage holes, the circumference side of heated tray is provided with the side board of vertical direction projection.