CN105433416A

CN105433416A - Starch granulation device

Info

Publication number: CN105433416A
Application number: CN201510879033.2A
Authority: CN
Inventors: 范冰; 范子山
Original assignee: Anhui Zishan Agricultural Science And Technology Co Ltd
Current assignee: Anhui Zishan Agricultural Science And Technology Co Ltd
Priority date: 2015-12-05
Filing date: 2015-12-05
Publication date: 2016-03-30

Abstract

The invention discloses a starch granulation device which comprises a power system, a conveying system, a granulation system and a cooling system. The starch granulation device is characterized in that the power system is connected with the conveying system, the conveying system is in contact with the granulation system, and the granulation system is connected with the cooling system. The starch granulation device is rational in design and compact in structure, the idea is unique and novel, and starch granulation forming is quick. The cooling system is adopted to lower the temperature of an upper roller and a lower roller, and granules formed by rolling are not subjected to gelatinization. A vibrating screen can screen the sizes of the formed granules according to grade and removes powder in granulation, the formed granules are high in quality grade, safe and free of pollution.

Description

A kind of starch prilling granulator

Technical field

The present invention relates to technical field of food machinery, particularly relate to a kind of starch prilling granulator.

Background technology

Food machinery refers to and raw-food material is processed into the plant equipment and device applied in food (or semi-finished product) process.

A kind of starch prilling granulator provided by the present invention is the semi-finished product processing equipment in food-processing industry; by helical feed to starch comminutor; take calendering forming as sheet granule; carry out vibratory sieve again and classification is carried out to the size of schistose granular; cooling recirculation system is provided with in addition in granulation; reduce because spreading produces temperature, avoid the gelatinization of starch granulation.

The development of China's food machinery shoulders heavy responsibilities, space is wide, to study carefully its main cause be food that our people consumes is undressed food from agricultural mostly, annual for want of necessary food processing machinery makes food resource directly not process, preserves, the fresh-keeping and loss that causes is up to tens yuan, fail deep processing comprehensive utilization and cause the wasting of resources loss higher, therefore China's food machinery has wide market prospects, development prospect.

The manufacturing product of China's food machinery, can catch up with the many of international most advanced level, but really there is independent intellectual property right, possess skills innovation product be very few." following " mentioned here word be " follow-up " or even imitated, and innovation is few.So food machinery manufacturing enterprise of China from the angle of innovation, will develop new product from the height of independent intellectual property right, develop the sophisticated equipment with world-class level, like this, really could realize the manufacturing shelves of carrying of domestic food machinery to upgrade.

Summary of the invention

In order to overcome above-mentioned the deficiencies in the prior art, the invention provides a kind of starch prilling granulator.

The technical solution adopted in the present invention is:

A kind of starch prilling granulator, comprises dynamical system, induction system, granulating system, cooling system, and described dynamical system connects induction system, and induction system contacts with granulating system, and granulating system connects cooling system.

Further, described dynamical system comprises motor and decelerator, and motor is bolted decelerator, and the rotating shaft of electric machine main shaft connection reducer, described electric machine main shaft coaxial line concentric on decelerator rotating shaft, for induction system provides sufficient power.

Further, described induction system comprises hopper, shell, helical axis, helical blade, end axle, axle sleeve, described hopper bottom is provided with striker plate, hopper lower end is connected to shell left upper end, hopper lower end is connected to shell left upper end, helical axis is provided with in described shell, helical blade, end axle, axle sleeve, described helical axis is socketed helical blade, helical axis front end embeds link axle, end axle connecting bushing, described helical axis rear end is tapered, described helical axis, helical blade, shell is concentric each other, axis overlaps, starch is pushed to granulating system.

Further, described electric machine main shaft, decelerator rotating shaft, helical axis, helical blade, shell are concentric each other, and axis overlaps, and promote that induction system operates steadily, to extend its service life, and can play reduction production cost.

Further, described granulating system comprises stand, bracket for vibrating screen, spring base, spring, screen cloth, reciprocating lever, lower roller, floral disc, hydraulic cylinder, bracing frame, upper roller, power part, chain, upper sprocket wheel, lower sprocket, described stand bottom linking springs seat, mounting spring on spring base, spring connects on the upside of screen cloth, be connected through the hinge on the downside of screen cloth bracket for vibrating screen, described stand top connects lower roller, the two end axles of described lower roller connects floral disc, floral disc lower limb contact reciprocating lever, reciprocating lever lower end connects screen cloth, described lower roller shaft one end axle also connects lower sprocket, one end shaft end connects power part, described stand top connecting fluid cylinder pressure, hydraulic cylinder rod connects bracing frame, bracing frame connects upper roller, upper roller one end axle connects upper sprocket wheel, be connected by chain between upper sprocket wheel with described lower sprocket, starch granulation is realized by the spreading of upper roller and lower roller, the temperature of 50-60 DEG C can be produced in the process of spreading.

Further, described stand, spring base, spring, reciprocating lever, floral disc, hydraulic cylinder, bracing frame are arranged symmetrically in the two ends of upper roller and lower roller, and described upper roller and lower roller are arranged symmetrically on stand and bracing frame.

Further, the discharging opening of described induction system contacts with the contact position of lower roller with upper roller, and starch is pushed directly to granulating system by induction system, becomes to drop to reduce starch and pollutes before spreading.

Further, described upper roller and the axial line of lower roller are parallel to each other, and horizontally disposed installation, ensure that the thickness of institute's granulation is even.

Further, described cooling system comprises circulating pump and water pipe, described circulating pump connecting water pipe, water pipe connects side upper roller and lower roller axle head, opposite side upper roller and lower roller axle head connecting water pipe, and water pipe passes in the water in tank, in water, another water pipe connects circulating pump, to pass through into cooling water at the axle head of upper roller and lower roller, to reduce the temperature of upper roller and lower roller, avoid the gelatinization of the grain that starch is made.

Compared with prior art, the invention has the beneficial effects as follows: reasonable in design, compact conformation, thinking is unique novel, and starch granulating and forming is fast, adopts cooling system, reduce the temperature of upper roller and lower roller, the granulation of calendering forming can not gelatinization, and vibratory sieve can sieve the size in institute's granulation footpath by grade, and the powder of rejecting in institute's granulation, the grain credit rating made is high, safety non-pollution, long service life, waste raw material few, maintenance cost is few, has saved production cost greatly.

Accompanying drawing explanation

Fig. 1 is a kind of starch prilling granulator forward structure schematic diagram;

Fig. 2 is a kind of side direction structural representation of starch prilling granulator;

Fig. 3 is the structural representation of helical axis, helical blade and connector in a kind of starch prilling granulator.

Detailed description of the invention

A kind of starch prilling granulator, comprise dynamical system 1, induction system 2, granulating system 3, cooling system 4, described dynamical system 1 connects induction system 2, and induction system 2 contacts with granulating system 3, and granulating system 3 connects cooling system 4.

Further, described dynamical system is made up of motor 101 and decelerator 102, and motor 101 is bolted decelerator 102, and the rotating shaft of motor 101 main shaft connection reducer 102, described motor 101 main shaft and the concentric coaxial line of decelerator 102 rotating shaft, for induction system 2 provides sufficient power.

Further, described induction system 2 is by hopper 201, shell 202, helical axis 203, helical blade 204, end axle 205, axle sleeve 206 forms, described hopper 201 bottom is provided with striker plate 2011, hopper 201 lower end is connected to shell 202 left upper end, helical axis 203 is provided with in described shell 202, helical blade 204, end axle 205, axle sleeve 206, described helical axis 203 is socketed helical blade 204, helical axis 203 front end embeds link axle 205, end axle 205 connecting bushing 206, described helical axis 203 rear end is tapered, described helical axis 203, helical blade 204, shell 205 each other with one heart, axis overlaps, starch is pushed to granulating system 3.

Further, each other with one heart, axis overlaps for described motor 101 main shaft, decelerator 102 rotating shaft, helical axis 203, helical blade 204, shell 202, promotes that induction system 2 operates steadily, to extend its service life, and can play reduction production cost.

Further, described granulating system 3 is by stand 301, bracket for vibrating screen 302, spring base 303, spring 304, screen cloth 305, reciprocating lever 306, lower roller 307, floral disc 308, hydraulic cylinder 309, bracing frame 310, upper roller 311, power part 312, chain 313, upper sprocket wheel 314, lower sprocket 315 forms, described stand 301 bottom linking springs seat 303, mounting spring 304 on spring base 303, spring 304 connects on the upside of screen cloth 305, be connected through the hinge on the downside of screen cloth 305 bracket for vibrating screen 302, described stand 301 top connects lower roller 307, the two end axles of described lower roller 307 connects floral disc 308, floral disc 308 lower limb contact reciprocating lever 306, reciprocating lever 306 lower end connects screen cloth 305, described lower roller shaft 307 one end axle also connects lower sprocket 315, lower roller shaft 307 one end shaft end connects power part 312, described stand 301 top connecting fluid cylinder pressure 309, hydraulic cylinder 309 bar connects bracing frame 310, bracing frame 310 connects upper roller 311, upper roller 311 one end axle connects upper sprocket wheel 314, be connected by chain 313 between upper sprocket wheel 314 with described lower sprocket 315, starch granulation is realized by upper roller 311 and the spreading of lower roller 307, the temperature of 50-60 DEG C can be produced in the process of spreading.

Further, described stand 301, spring base 303, spring 304, reciprocating lever 306, floral disc 308, hydraulic cylinder 309, bracing frame 310 are arranged symmetrically in the two ends of upper roller 311 and lower roller 307, and described upper roller 311 and lower roller 307 are arranged symmetrically on stand 301 and bracing frame 310.

Further, the discharging opening 2022 of described induction system 2 contacts with the contact position of upper roller 311 with lower roller 307, and starch is pushed directly to granulating system by induction system 2, becomes to drop to reduce starch and pollutes before spreading.

Further, described stand 301 is connected by arm-tie with the casing ends 2021 in induction system 2.

Further, described upper roller 311 and the axial line of lower roller 307 are parallel to each other, and horizontally disposed installation, ensure that the thickness of institute's granulation is even.

Further, described cooling system 4 is made up of circulating pump 402 and water pipe 401, described circulating pump 402 connecting water pipe 401, water pipe 401 connects side upper roller 311 and lower roller 307 axle head, opposite side upper roller 311 and lower roller 307 axle head connecting water pipe 401, water pipe 401 passes in the water in tank, in water, another water pipe connects circulating pump 402, to pass through into cooling water at the axle head of upper roller 311 and lower roller 307, to reduce the temperature of upper roller 311 and lower roller 307, avoid the gelatinization of the grain that starch is made.

Claims

1. a starch prilling granulator, comprise dynamical system, induction system, granulating system, cooling system, it is characterized in that, described dynamical system connects induction system, induction system contacts with granulating system, granulating system connects cooling system, described induction system comprises hopper, shell, helical axis, helical blade, end axle, axle sleeve, described hopper bottom is provided with striker plate, hopper lower end is connected to shell left upper end, helical axis is provided with in described shell, helical blade, end axle, axle sleeve, described helical axis is socketed helical blade, helical axis front end embeds link axle, end axle connecting bushing, described helical axis rear end is tapered, described helical axis, helical blade, shell is concentric each other, axis overlaps.

2. a kind of starch prilling granulator according to claim 1, it is characterized in that, described dynamical system comprises motor and decelerator, and motor is bolted decelerator, and the rotating shaft of electric machine main shaft connection reducer, described electric machine main shaft coaxial line concentric on decelerator rotating shaft.

3. a kind of starch prilling granulator according to claim 1, it is characterized in that, described granulating system comprises stand, bracket for vibrating screen, spring base, spring, screen cloth, reciprocating lever, lower roller, floral disc, hydraulic cylinder, bracing frame, upper roller, power part, chain, upper sprocket wheel, lower sprocket, described stand bottom linking springs seat, mounting spring on spring base, spring connects on the upside of screen cloth, be connected through the hinge on the downside of screen cloth bracket for vibrating screen, described stand top connects lower roller, the two end axles of described lower roller connects floral disc, floral disc lower limb contact reciprocating lever, reciprocating lever lower end connects screen cloth, described lower roller shaft one end axle also connects lower sprocket, one end shaft end connects power part, described stand top connecting fluid cylinder pressure, hydraulic cylinder rod connects bracing frame, bracing frame connects upper roller, upper roller one end axle connects upper sprocket wheel, be connected by chain between upper sprocket wheel with described lower sprocket.

4. according to a kind of starch prilling granulator one of claim 1-2 Suo Shu, it is characterized in that, described electric machine main shaft, decelerator rotating shaft, helical axis, helical blade, shell are concentric each other, and axis overlaps.

5. a kind of starch prilling granulator according to claim 3, it is characterized in that, described stand, spring base, spring, reciprocating lever, floral disc, hydraulic cylinder, bracing frame are arranged symmetrically in the two ends of upper roller and lower roller, and described upper roller and lower roller are arranged symmetrically on stand and bracing frame.

6. according to a kind of starch prilling granulator one of claim 1-3 Suo Shu, it is characterized in that, the discharging opening of described induction system contacts with the contact position of lower roller with upper roller.

7. a kind of starch prilling granulator according to claim 5, is characterized in that, described upper roller and the axial line of lower roller are parallel to each other, and horizontally disposed installation.

8. according to a kind of starch prilling granulator one of claim 1-3 Suo Shu, it is characterized in that, described cooling system comprises circulating pump and water pipe, described circulating pump connecting water pipe, water pipe connects side upper roller and lower roller axle head, opposite side upper roller and lower roller axle head connecting water pipe, water pipe passes in the water in tank, and in water, another water pipe connects circulating pump.