CN102578687A - Complete equipment for drying fermented feed - Google Patents
Complete equipment for drying fermented feed Download PDFInfo
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- CN102578687A CN102578687A CN2012100552582A CN201210055258A CN102578687A CN 102578687 A CN102578687 A CN 102578687A CN 2012100552582 A CN2012100552582 A CN 2012100552582A CN 201210055258 A CN201210055258 A CN 201210055258A CN 102578687 A CN102578687 A CN 102578687A
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Abstract
The invention discloses complete equipment for drying fermented feed. The complete equipment comprises a drying set and auxiliary devices. The drying set comprises a stainless steel screen type conveying belt, a conveying belt driving mechanism, a channel type drying chamber and a hot air generating device communicated with the drying chamber. The drying set comprises a first drying set and a second drying set. The auxiliary devices comprise a material distributing device arranged in the material inlet end of the first drying set, a material crushing device arranged in the material outlet end of the first drying set, a grading sieve device arranged in the material outlet end of the second drying set and a wet material block conveying device for conveying wet material blocks from the grading sieve device back to the material inlet end of the first drying set or the second drying set through negative pressure. The complete equipment for drying fermented feed is low in construction cost of equipment, short in running process, convenient in operation, small in power consumption and high in drying efficiency.
Description
Technical field
The invention belongs to the feed manufacturing machine equipment technical field, in particular for a kind of fermented feed complete drying equipment that uses in the feed processing process.
Background technology
The protein content of dregs of beans is very high, be the base stock of preparation livestock and poultry feed, but the protein biological transformation ratio of directly feeding is lower.Dregs of beans then can effectively improve the protein biological transformation ratio through solid state fermentation.Bean-dregs feed water content by fermentation is very high, need dry, pulverizing, packaging and other steps.
The band drier of domestic production at present mainly is to utilize the guipure cloth, and hot blast blows the oven dry material up or down, and guipure slowly moves in casing under the drive of driver, gradually with drying materials.Major defect: 1. drying equipment long flow path, it is big to take up an area of the space, inefficiency; 2. material skewness on guipure, material can not bone dries, and wet feed agglomerate ratio is big; 3. equipment manufacturing cost is high, and power consumption is big, and operating cost is high.
Summary of the invention
The present invention is in order to overcome the deficiency that prior art exists, and provides that a kind of equipment manufacturing cost is low, operational process short, easy to operate, power consumption is little, drying efficiency is high fermented feed complete drying equipment.
The present invention realizes through following technical scheme: a kind of fermented feed complete drying equipment; It comprises dryer group and servicing unit; Dryer group comprises the hot air generator of stainless steel mesh formula conveyer belt, conveyer belt driving mechanism, tunnel chamber for drying, connection hothouse, it is characterized in that: described dryer group comprises first dryer group and second dryer group; Described servicing unit is included in the distribution device of the first dryer group feed end setting, returns the wet feed agglomerate transport of first dryer group or the second dryer group feed end at the particle device of the first dryer group discharge end setting, at the classifying screen device of the second dryer group discharge end setting, with the wet feed agglomerate from classifying screen device negative pressure transportation.
Described hot air generator comprises the radiator that thermal source is provided by steam boiler, and radiator is communicated with the air inlet of hothouse side, and hothouse top sets out the air port, and air outlet is communicated with air-introduced machine and exhaust duct through airduct.
Further improve; The side of the first dryer group hothouse is provided with an air inlet and No. two air inlets; The top of the first dryer group hothouse is provided with an air outlet and No. two air outlets; No. two air inlet is communicated with No. two radiators, and No. two air outlet is communicated with an air inlet through airduct, No. two air-introduced machines, a radiator, and No. one air outlet is communicated with exhaust duct through airduct and an air-introduced machine; The side of the second dryer group hothouse is provided with No. three air inlets, No. four air inlets, No. five air inlets and No. six air inlets; The top of the second dryer group hothouse is provided with No. three air outlets, No. four air outlets, No. five air outlets and No. six air outlets; No. six air inlet is communicated with No. six radiators; No. six air outlet is communicated with No. five air inlets through airduct, No. six air-introduced machines, No. five radiators, and No. five air outlet is communicated with exhaust duct through airduct and No. five air-introduced machines; No. four air inlet is communicated with No. four radiators, and No. four air outlet is communicated with No. three air inlets through airduct, No. four air-introduced machines, No. three radiators, and No. three air outlet is communicated with exhaust duct through airduct and No. three air-introduced machines;
In order to prevent that dry material from getting rid of outdoorly along with hot blast is siphoned away by air-introduced machine, on the airduct between No. six air outlets and No. six air-introduced machines, centrifugal dust collector is installed.
Described distribution device is in a cloth hopper, to be provided with one by motor-driven screw propulsion rod, and the top of cloth hopper is provided with hopper on the right side, and the left side of hopper is provided with the clout outlet, and the bottom of cloth hopper is the strip feed opening.
Described particle device is in a particle case, to be provided with one by motor-driven particle axle; Some particle pins are set on the particle axle; Be and the corresponding charging aperture of the first dryer group discharge end to be and the corresponding discharging opening of the second dryer group feed end above the particle case below the particle case.
In order to prevent material bonding conveyer belt, material scraper is set at the discharge end of first dryer group and second dryer group.
Described wet feed agglomerate loop back device; It comprises a spin-on cartridge, and the top of spin-on cartridge is circular cylinder, and the bottom is a conically shaped; The side of circular cylinder is that the tangential direction along circular cylinder is provided with feed pipe; Feed pipe is communicated with the classifying screen device through pipeline, and the top of circular cylinder is an escape pipe, and escape pipe is through pipeline and the outer exhaust outlet of feed back air-introduced machine communication chamber; The bottom of said conically shaped is to close bin gate under the wind by the rotation that variable-frequency motor drives, and rotation closes that the bottom of bin gate is the discharge nozzle that leads to first dryer group or the second dryer group feed end under the wind.
In order to make hot blast be evenly distributed, some dividing plates vertically are set in the tunnel chamber for drying, venetian blind type is set on the tunnel chamber for drying transfers windshield plate.
In order to make material on conveyer belt, be evenly distributed, and realize automatic stirring, hinged material stirring-up mechanism on a plurality of dividing plates.
The invention has the beneficial effects as follows:
1, the present invention is made up of two dryer group, at the discharge end of first dryer group particle device is installed, and it can be pulverized the material that passes through preliminarily dried, helps carrying out drying in second dryer group, and drying effect is good;
2, its hot air generator thermal source is the radiator that steam boiler provides thermal source, and heat is not the mode that is installed in series of two radiators, has improved the heat energy utilization rate, has practiced thrift the equipment operation cost;
3, its distribution device, particle device, classifying screen device and wet feed agglomerate transport, simple in structure, Design for Complete Equipment is reasonable, and is cheap;
4, some dividing plates vertically are set in the tunnel chamber for drying, venetian blind type are set on the tunnel chamber for drying transfer windshield plate, convenient temperature of regulating in the hothouse prevents that local temperature is overheated or low excessively, helps improving drying efficiency;
5, it also is provided with material stirring-up mechanism on a plurality of dividing plates, can realize automatic stirring.
Description of drawings
The perspective view at visual angle, Fig. 1 fermented feed complete drying equipment right side of the present invention;
The perspective view at visual angle, Fig. 2 fermented feed complete drying equipment of the present invention left side;
Fig. 3 the present invention first dryer group biopsy cavity marker devices perspective view;
Fig. 4 distribution device perspective view of the present invention;
Fig. 5 particle device of the present invention perspective view;
Fig. 6 venetian blind type of the present invention is transferred the windshield plate perspective view;
Fig. 7 conveyer belt of the present invention, dividing plate and material stirring-up mechanism perspective view;
The spin-on cartridge perspective view of Fig. 8 wet feed agglomerate of the present invention loop back device.
The specific embodiment
Below in conjunction with the accompanying drawing and the specific embodiment the present invention is described in detail.
Like Fig. 1, Fig. 2 and shown in Figure 3; A kind of fermented feed complete drying equipment; It comprises dryer group and servicing unit; Dryer group comprises stainless steel mesh formula conveyer belt 1, conveyer belt driving mechanism, tunnel chamber for drying 3, is communicated with the hot air generator of hothouse, and described dryer group comprises first dryer group and second dryer group; Described servicing unit is included in the distribution device 2 of the first dryer group feed end setting, returns the wet feed agglomerate transport of first dryer group or the second dryer group feed end at the particle device 4 of the first dryer group discharge end setting, at the classifying screen device 7 of the second dryer group discharge end setting, with the wet feed agglomerate from classifying screen device 7 negative pressure transportation.
Described hot air generator comprises the radiator that thermal source is provided by steam boiler, and radiator is communicated with the air inlet of hothouse side, and hothouse top sets out the air port, and air outlet is communicated with air-introduced machine and exhaust duct through airduct.The side of the first dryer group hothouse is provided with an air inlet 1b and No. two air inlet 2b; The top of the first dryer group hothouse is provided with an air outlet 1d and No. two air outlet 2d; No. two air inlet 2b is communicated with No. two radiator 2a; No. two air outlet 2d is communicated with an air inlet 1b through airduct, No. two air-introduced machine 2c, a radiator 1a, and No. one air outlet 1d is communicated with exhaust duct through airduct and an air-introduced machine 1c; The side of the second dryer group hothouse is provided with No. three air inlet 3b, No. four air inlet 4b, No. five air inlet 5b and No. six air inlet 6b; The top of the second dryer group hothouse is provided with No. three air outlet 3d, No. four air outlet 4d, No. five air outlet 5d and No. six air outlet 6d; No. six air inlet 6b is communicated with No. six radiator 6a; No. six air outlet 6d is communicated with No. five air inlet 5b through airduct, No. six air-introduced machine 6c, No. five radiator 5a, and No. five air outlet 5d is communicated with exhaust duct through airduct and No. five air-introduced machine 5c; No. four air inlet 4b is communicated with No. four radiator 4a, and No. four air outlet 4d is communicated with No. three air inlet 3b through airduct, No. four air-introduced machine 4c, No. three radiator 3a, and No. three air outlet 3d is communicated with exhaust duct through airduct and No. three air-introduced machine 3c; On the airduct between No. six air outlet 6d and No. six air-introduced machine 6c, centrifugal dust collector 5 is installed.
As shown in Figure 4, described distribution device is in a cloth hopper, to be provided with one by motor-driven screw propulsion rod, and the top of cloth hopper is provided with hopper on the right side, and the left side of hopper is provided with the clout outlet, and the bottom of cloth hopper is the strip feed opening.
As shown in Figure 5; Described particle device is in a particle case, to be provided with one by motor-driven particle axle; Some particle pins are set on the particle axle; Be and the corresponding charging aperture of the first dryer group discharge end to be and the corresponding discharging opening of the second dryer group feed end above the particle case below the particle case.Discharge end in first dryer group and second dryer group is provided with material scraper 10.
As shown in Figure 8, described wet feed agglomerate loop back device, it comprises a spin-on cartridge 6; The top of spin-on cartridge 6 is circular cylinder; The bottom is a conically shaped, and the side of circular cylinder is that the tangential direction along circular cylinder is provided with feed pipe, and feed pipe is communicated with classifying screen device 7 through pipeline; The top of circular cylinder is an escape pipe, and escape pipe is through pipeline and the outer exhaust outlet of feed back air-introduced machine 12 communication chamber; The bottom of said conically shaped is to close bin gate under the wind by the rotation that variable-frequency motor drives, and rotation closes that the bottom of bin gate is particle device 4 discharge nozzles that lead to the second dryer group feed end under the wind.
Like Fig. 6 and shown in Figure 7, some dividing plates 11 vertically are set in tunnel chamber for drying 3, venetian blind type is set on tunnel chamber for drying 3 transfers windshield plate 8.Material stirring-up mechanism 9 is installed on two dividing plates in the first dryer group hothouse.Material stirring-up mechanism 9 is installed on four dividing plates in the second dryer group hothouse.
Should be noted that at last; The content of the above specific embodiment is only in order to explain technical scheme of the present invention; But not to the restriction of protection domain of the present invention; The simple modification that those of ordinary skill in the art carries out technical scheme of the present invention perhaps is equal to replacement, does not all break away from the essence and the scope of technical scheme of the present invention.
Claims (10)
1. fermented feed complete drying equipment; It comprises dryer group and servicing unit; Dryer group comprises the hot air generator of stainless steel mesh formula conveyer belt (1), conveyer belt driving mechanism, tunnel chamber for drying (3), connection hothouse, and it is characterized in that: described dryer group comprises first dryer group and second dryer group; Described servicing unit is included in the distribution device (2) of first dryer group feed end setting, returns the wet feed agglomerate transport of first dryer group or the second dryer group feed end at the particle device (4) of first dryer group discharge end setting, at the classifying screen device (7) of second dryer group discharge end setting, with the wet feed agglomerate from classifying screen device (7) negative pressure transportation.
2. fermented feed complete drying equipment according to claim 1; It is characterized in that: described hot air generator comprises the radiator that thermal source is provided by steam boiler; Radiator is communicated with the air inlet of hothouse side; Hothouse top sets out the air port, and air outlet is communicated with air-introduced machine and exhaust duct through airduct.
3. fermented feed complete drying equipment according to claim 2; It is characterized in that: the side of the first dryer group hothouse is provided with an air inlet (1b) and No. two air inlets (2b); The top of the first dryer group hothouse is provided with an air outlet (1d) and No. two air outlets (2d); No. two air inlets (2b) are communicated with No. two radiators (2a); No. two air outlets (2d) are communicated with an air inlet (1b) through airduct, No. two air-introduced machines (2c), a radiator (1a), and an air outlet (1d) is communicated with exhaust duct through an airduct and an air-introduced machine (1c); The side of the second dryer group hothouse is provided with No. three air inlets (3b), No. four air inlets (4b), No. five air inlets (5b) and No. six air inlets (6b); The top of the second dryer group hothouse is provided with No. three air outlets (3d), No. four air outlets (4d), No. five air outlets (5d) and No. six air outlets (6d); No. six air inlets (6b) are communicated with No. six radiators (6a); No. six air outlets (6d) are communicated with No. five air inlets (5b) through airduct, No. six air-introduced machines (6c), No. five radiators (5a), and No. five air outlets (5d) are communicated with exhaust duct through airduct and No. five air-introduced machines (5c); No. four air inlets (4b) are communicated with No. four radiators (4a), and No. four air outlets (4d) are communicated with No. three air inlets (3b) through airduct, No. four air-introduced machines (4c), No. three radiators (3a), and No. three air outlets (3d) are communicated with exhaust duct through airduct and No. three air-introduced machines (3c).
4. fermented feed complete drying equipment according to claim 3 is characterized in that: on the airduct between No. six air outlets (6d) and No. six air-introduced machines (6c), centrifugal dust collector (5) is installed.
5. according to any described fermented feed complete drying equipment of claim 1 to 4; It is characterized in that: described distribution device is in a cloth hopper, to be provided with one by motor-driven screw propulsion rod; The top of cloth hopper is provided with hopper on the right side; The left side of hopper is provided with the clout outlet, and the bottom of cloth hopper is the strip feed opening.
6. fermented feed complete drying equipment according to claim 5; It is characterized in that: described particle device is in a particle case, to be provided with one by motor-driven particle axle; Some particle pins are set on the particle axle; Be and the corresponding charging aperture of the first dryer group discharge end to be and the corresponding discharging opening of the second dryer group feed end above the particle case below the particle case.
7. fermented feed complete drying equipment according to claim 6 is characterized in that: the discharge end in first dryer group and second dryer group is provided with material scraper (10).
8. fermented feed complete drying equipment according to claim 7 is characterized in that: described wet feed agglomerate loop back device, and it comprises a spin-on cartridge (6); The top of spin-on cartridge (6) is circular cylinder; The bottom is a conically shaped, and the side of circular cylinder is that the tangential direction along circular cylinder is provided with feed pipe, and feed pipe is communicated with classifying screen device (7) through pipeline; The top of circular cylinder is an escape pipe, and escape pipe is through pipeline and the outer exhaust outlet of feed back air-introduced machine (12) communication chamber; The bottom of said conically shaped is to close bin gate under the wind by the rotation that variable-frequency motor drives, and rotation closes that the bottom of bin gate is the discharge nozzle that leads to first dryer group or the second dryer group feed end under the wind.
9. fermented feed complete drying equipment according to claim 8 is characterized in that: some dividing plates (11) vertically are set in tunnel chamber for drying (3), venetian blind type are set on tunnel chamber for drying (3) transfer windshield plate (8).
10. fermented feed complete drying equipment according to claim 9 is characterized in that: material stirring-up mechanism (9) is installed on a plurality of dividing plates.
Priority Applications (1)
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CN201210055258.2A CN102578687B (en) | 2012-02-22 | 2012-02-22 | Complete equipment for drying fermented feed |
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CN201210055258.2A CN102578687B (en) | 2012-02-22 | 2012-02-22 | Complete equipment for drying fermented feed |
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CN102578687A true CN102578687A (en) | 2012-07-18 |
CN102578687B CN102578687B (en) | 2014-06-18 |
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Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
SE7704234L (en) * | 1976-04-14 | 1977-10-15 | Myrens Verksted As | METHODS AND DEVICES FOR THE PREPARATION AND DRYING OF FLOUR OF COOKED ANIMAL MATERIAL, IN PARTICULAR FISH OR FISH MASS |
CN1060350A (en) * | 1990-10-05 | 1992-04-15 | 张承业 | Drying apparatus of materials with distributed hot air flow |
GB2341307A (en) * | 1998-08-14 | 2000-03-15 | Anson Bros I | Improved animal feed and production process |
KR20050059006A (en) * | 2005-03-28 | 2005-06-17 | 이상열 | Microwave High-Speed Drying and Complex Powder Packing System with radiant heat from infrared film penetrated into and fermentation·ripening, a multi-functional door |
CN101946971A (en) * | 2010-08-11 | 2011-01-19 | 中国水产科学研究院渔业机械仪器研究所 | Improved structure of discharge mechanism of turndown type fermented soybean meal drying machine |
CN201821878U (en) * | 2010-08-30 | 2011-05-11 | 成都巨星猪业有限公司 | Feed crushing system |
CN201947916U (en) * | 2010-12-30 | 2011-08-31 | 山东珠峰生物科技有限公司 | Auto-rotation feed dryer |
CN202456342U (en) * | 2012-02-22 | 2012-10-03 | 赤峰四海同心生物科技有限公司 | Complete plant for drying fermented feed |
-
2012
- 2012-02-22 CN CN201210055258.2A patent/CN102578687B/en active Active
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
SE7704234L (en) * | 1976-04-14 | 1977-10-15 | Myrens Verksted As | METHODS AND DEVICES FOR THE PREPARATION AND DRYING OF FLOUR OF COOKED ANIMAL MATERIAL, IN PARTICULAR FISH OR FISH MASS |
CN1060350A (en) * | 1990-10-05 | 1992-04-15 | 张承业 | Drying apparatus of materials with distributed hot air flow |
GB2341307A (en) * | 1998-08-14 | 2000-03-15 | Anson Bros I | Improved animal feed and production process |
KR20050059006A (en) * | 2005-03-28 | 2005-06-17 | 이상열 | Microwave High-Speed Drying and Complex Powder Packing System with radiant heat from infrared film penetrated into and fermentation·ripening, a multi-functional door |
CN101946971A (en) * | 2010-08-11 | 2011-01-19 | 中国水产科学研究院渔业机械仪器研究所 | Improved structure of discharge mechanism of turndown type fermented soybean meal drying machine |
CN201821878U (en) * | 2010-08-30 | 2011-05-11 | 成都巨星猪业有限公司 | Feed crushing system |
CN201947916U (en) * | 2010-12-30 | 2011-08-31 | 山东珠峰生物科技有限公司 | Auto-rotation feed dryer |
CN202456342U (en) * | 2012-02-22 | 2012-10-03 | 赤峰四海同心生物科技有限公司 | Complete plant for drying fermented feed |
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Effective date of registration: 20190605 Address after: 100085 Building 1805, No. 1, Shangdi Information Road, Haidian District, Beijing Patentee after: Beijing Jingmeng Hesheng Science and Trade Co., Ltd. Address before: 024076 Pingzhuang North Ring Industrial Park, Yuanbaoshan District, Chifeng City, Inner Mongolia Autonomous Region Patentee before: Chifeng Sihai Tongxin Biological Technology Co., Ltd. |