CN215455291U - Caragana microphylla forage grass particle automatic processing production line - Google Patents
Caragana microphylla forage grass particle automatic processing production line Download PDFInfo
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- CN215455291U CN215455291U CN202121345011.5U CN202121345011U CN215455291U CN 215455291 U CN215455291 U CN 215455291U CN 202121345011 U CN202121345011 U CN 202121345011U CN 215455291 U CN215455291 U CN 215455291U
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- forage
- caragana
- caragana microphylla
- pulverizer
- auxiliary material
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- 239000000463 material Substances 0.000 claims abstract description 50
- 238000003860 storage Methods 0.000 claims abstract description 42
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- 241001061906 Caragana Species 0.000 claims abstract description 12
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Images
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- Apparatuses For Bulk Treatment Of Fruits And Vegetables And Apparatuses For Preparing Feeds (AREA)
Abstract
The utility model discloses an automatic processing production line for caragana microphylla forage particles, which relates to the technical field of caragana microphylla processing, and comprises a caragana microphylla pulverizer, a forage pulverizer, an auxiliary material pulverizer and a stirrer, wherein a first feeding auger is arranged at a discharge port of the caragana microphylla pulverizer, a first caragana feed bin is arranged at a discharge end of the first feeding auger, and the discharge port of the first caragana feed bin is connected with a feed port of a dryer through a lifting machine. According to the utility model, the raw materials can be automatically crushed by the arranged caragana korshinskii crusher, the forage crusher and the auxiliary material crusher, the raw materials can be stored by the arranged first caragana korshinskii kom bin and the second caragana korshinskii kom bin, the forage storage bin and the auxiliary material storage bin, the raw materials are stirred and mixed by the stirrer and then granulated, the raw materials are screened by the vibrating screen, the cooled second conveying belt is sent into the granule storage bin, and finally the raw materials are filled by the filling machine, so that the automatic continuous production of the caragana korshinskii forage granules is realized.
Description
Technical Field
The utility model relates to the technical field of caragana microphylla processing, in particular to an automatic caragana microphylla forage grass particle processing production line.
Background
Caragana microphylla is perennial legume, is rich in crude protein and various trace elements, and can be used as green manure and feed.
The caragana microphylla has high grass yield, but is sticky in nature, high in toughness, and poor in palatability due to tannin, contains lignin, is not easy to digest and absorb, is not easy to crush and dry in the processing process, is not easy to realize automatic continuous mass production, and cannot be fully utilized. Therefore, the technical personnel in the field provide an automatic processing production line of caragana microphylla forage grass particles to solve the problems in the background technology.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an automatic caragana microphylla forage grass particle processing production line, which aims to overcome the defects in the prior art.
In order to achieve the above purpose, the utility model provides the following technical scheme: a caragana microphylla forage particle automatic processing production line comprises a caragana microphylla pulverizer, a forage pulverizer, an auxiliary material pulverizer and a stirrer, wherein a first feeding flood dragon is arranged at a discharge port of the caragana microphylla pulverizer, a first caragana bin is arranged at a discharge end of the first feeding flood dragon, the discharge port of the first caragana microphylla bin is connected with a feed inlet of a dryer through a lifting machine, a feeding flood dragon is arranged at a discharge port of the dryer, a second caragana microphylla bin is arranged at a discharge port of the feeding flood dragon, a second feeding flood dragon is arranged at a discharge end of the second caragana bin, and a discharge port of the second feeding flood dragon is connected with the stirrer; a discharge port of the forage grinder is provided with a third feeding flood dragon, a discharge end of the third feeding flood dragon is connected with the forage storage bin, a discharge port of the forage storage bin is provided with a fourth feeding flood dragon, and a discharge end of the fourth feeding flood dragon is connected with the mixer; a discharge port of the auxiliary material crusher is provided with a fifth feeding flood dragon, a discharge end of the fifth feeding flood dragon is provided with an auxiliary material storage bin, a discharge port of the auxiliary material storage bin is provided with a sixth feeding flood dragon, and a discharge end of the sixth feeding flood dragon is connected with the stirrer; the discharge gate of mixer is provided with main conveyer belt, one side of main conveyer belt is provided with branch's conveyer belt, and the low reaches of main conveyer belt are provided with first granulator, the low reaches of branch's conveyer belt are provided with the second granulator, the discharge gate of first granulator and second granulator is provided with first conveyer belt jointly, the low reaches of first conveyer belt are provided with the shale shaker, the low reaches of shale shaker are provided with the second conveyer belt, the low reaches of second conveyer belt are provided with the granule and store the storehouse, the liquid filling machine is connected to the discharge gate in granule storage storehouse.
As a further description of the above technical solution: one side of the dryer is connected with a burner through a pipeline, the other side of the dryer is connected with a second dust remover through a pipeline, and one side of the second dust remover is connected with a second fan through a pipeline; one side of the combustor is connected with an air blower through a pipeline.
As a further description of the above technical solution: and a plurality of fans which are distributed at equal intervals are arranged above the second conveying belt.
As a further description of the above technical solution: the upper portions of the caragana microphylla pulverizer, the forage pulverizer and the auxiliary material pulverizer are jointly provided with a dust removal pipeline, an air suction opening is formed in the dust removal pipeline, and one end of the dust removal pipeline is connected with a first dust remover.
As a further description of the above technical solution: one side of the first dust remover is connected with an air compressor through a pipeline, and the other side of the first dust remover is connected with a first fan through a pipeline.
As a further description of the above technical solution: the caragana microphylla pulverizer is provided with a plurality of.
As a further description of the above technical solution: the forage rubbing crusher is provided with a plurality ofly.
As a further description of the above technical solution: the surfaces of the caragana microphylla pulverizer, the forage pulverizer and the auxiliary material pulverizer are all provided with visual windows and scale marks.
As a further description of the above technical solution: the surface of storehouse is stored to first caragana microphylla feed bin, second caragana microphylla feed bin, forage storage silo and auxiliary material all is provided with visual window and scale mark.
As a further description of the above technical solution: caragana microphylla pulverizer, forage pulverizer and auxiliary material pulverizer's inside all is provided with two and smashes the chamber, and two crushing particle diameters that smash the chamber are different.
In the technical scheme, according to the automatic processing production line for the caragana microphylla forage grass particles, the caragana microphylla forage grass raw materials can be automatically crushed through the caragana microphylla crusher, the forage crusher and the auxiliary material crusher, the crushed caragana microphylla forage grass raw materials can be stored and automatically fed through the first caragana microphylla bin and the second caragana microphylla bin, the crushed raw materials can be stirred and mixed through the stirrer, the mixed raw materials are automatically granulated through the first granulator and the second granulator, screened through the vibrating screen, cooled through the second conveying belt and fed into the particle storage bin, and finally filled through the filling machine, so that the automatic continuous production of the caragana microphylla forage grass particles is realized, the caragana microphylla is fully utilized, the palatability is good, and the problem that the caragana microphylla forage grass particles are difficult to crush in the prior art is solved, Drying and unable to realize automatic continuous mass production.
Drawings
In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.
FIG. 1 is a schematic view of an automatic caragana microphylla forage granule processing line;
FIG. 2 is a schematic structural diagram of a first dust collector in an automatic caragana microphylla forage grass granule processing production line;
FIG. 3 is a schematic view of a dryer in an automatic caragana microphylla forage granule processing line;
fig. 4 is a schematic structural diagram of a second conveyor belt in an automatic caragana microphylla forage grass particle processing production line.
Description of reference numerals:
1. a caragana microphylla pulverizer; 2. a forage grinder; 3. an auxiliary material crusher; 4. a first feeding flood dragon; 5. a first caragana microphylla bin; 6. a dryer; 7. a feeding flood dragon; 8. a second caragana microphylla bin; 9. a blender; 10. a second feeding flood dragon; 11. a third feeding flood dragon; 12. a forage storage bin; 13. a fourth feeding flood dragon; 14. a fifth feeding flood dragon; 15. an auxiliary material storage bin; 16. a sixth feeding flood dragon; 17. a main conveyor belt; 18. a branched conveyor belt; 19. a first granulator; 20. a second granulator; 21. a first conveyor belt; 22. vibrating screen; 23. a second conveyor belt; 24. a particle storage bin; 25. filling machine; 26. a dust removal pipeline; 27. a first dust remover; 28. an air suction opening; 29. an air compressor; 30. a first fan; 31. a combustion engine; 32. a second dust remover; 33. a blower; 34. a second fan; 35. a fan.
Detailed Description
In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.
Referring to fig. 1-4, an embodiment of the present invention provides a technical solution: an automatic processing production line of caragana microphylla forage grass particles comprises a caragana microphylla pulverizer 1, a forage pulverizer 2, an auxiliary material pulverizer 3 and a stirrer 9, wherein a caragana microphylla stone-removing and iron-removing belt conveyor is arranged at the upstream of the caragana microphylla pulverizer 1 and used for removing sundries in caragana microphylla and automatically feeding the caragana microphylla, a forage stone-removing and iron-removing belt conveyor is arranged at the upstream of the forage stone-removing and iron-removing belt conveyor 2 and used for removing sundries in forage and automatically feeding the forage, the forage is crops such as straw, sunflower heads, peanut seedlings, alfalfa and the like, two pulverizing cavities are arranged inside the caragana microphylla pulverizer 1, the forage pulverizer 2 and the auxiliary material pulverizer 3, the pulverizing particle sizes of the two pulverizing cavities are different, the material is coarsely pulverized and then finely pulverized, the pulverizing effect is improved, a first feeding auger 4 is arranged at a discharge port of the caragana microphylla pulverizer 1, a discharge end of the first feeding flood dragon 4 is provided with a first caragana microphylla bin 5, the first feeding flood dragon 4 sends caragana microphylla into the first caragana microphylla bin 5 for storage after caragana microphylla is crushed, a discharge port of the first caragana microphylla bin 5 is connected with a feed port of the dryer 6 through an elevator, so that the crushed caragana microphylla enters the dryer 6 for drying treatment, a feeding flood dragon 7 is arranged at the discharge end of the dryer 6, a second caragana microphylla bin 8 is arranged at the discharge port of the feeding flood dragon 7, the dried caragana microphylla is sent into the second caragana microphylla bin 8 by the feeding flood dragon 7 for storage, a second feeding flood dragon 10 is arranged at the discharge end of the second caragana microphylla bin 8, the discharge port of the second feeding flood dragon 10 is connected with a mixer 9, and the second feeding flood dragon 10 automatically sends the caragana microphylla of the second caragana microphylla bin 8 into the mixer 9; a third feeding flood dragon 11 is arranged at a discharge port of the forage grinder 2, a discharge end of the third feeding flood dragon 11 is connected with a forage storage bin 12, the third feeding flood dragon 11 feeds the forage ground by the forage grinder 2 into the forage storage bin 12, a discharge port of the forage storage bin 12 is provided with a fourth feeding flood dragon 13, a discharge end of the fourth feeding flood dragon 13 is connected with a stirrer 9, and the fourth feeding flood dragon 13 feeds the forage ground in the forage storage bin 12 into the stirrer 9; a fifth feeding auger 14 is arranged at a discharge port of the auxiliary material crusher 3, an auxiliary material storage bin 15 is arranged at a discharge end of the fifth feeding auger 14, the auxiliary material crushed by the auxiliary material crusher 3 is fed into the auxiliary material storage bin 15 by the fifth feeding auger 14, the auxiliary material is a raw material for neutralizing tannic acid or other nutritional auxiliary materials, a sixth feeding auger 16 is arranged at a discharge port of the auxiliary material storage bin 15, the discharge end of the sixth feeding auger 16 is connected with a stirrer 9, the auxiliary material in the auxiliary material storage bin 15 is automatically fed into the stirrer 9 by the sixth feeding auger 16, and the crushed caragana, the forage and the auxiliary material are stirred and mixed by the stirrer 9; a main conveyer belt 17 is arranged at a discharge port of the stirrer 9, the uniformly mixed raw materials fall on the main conveyer belt 17, a branch conveyer belt 18 is arranged at one side of the main conveyer belt 17, a part of the raw materials flow into the branch conveyer belt 18, a first granulator 19 is arranged at the downstream of the main conveyer belt 17, the raw materials are conveyed into the first granulator 19 by the main conveyer belt 17, a second granulator 20 is arranged at the downstream of the branch conveyer belt 18, the raw materials are conveyed into the second granulator 20 by the branch conveyer belt 18 and granulated by the first granulator 19 and the second granulator 20, a first conveyer belt 21 is arranged at discharge ports of the first granulator 19 and the second granulator 20, caragana microphylla particles prepared by the first granulator 19 and the second granulator 20 fall on the first conveyer belt 21, a vibrating screen 22 is arranged at the downstream of the first conveyer belt 21, and the caragana microphylla particles are screened by the vibrating screen 22, the utility model can realize the automatic crushing of caragana microphylla forage grass raw materials by the caragana microphylla crusher 1, the forage crusher 2 and the auxiliary material crusher 3, can realize the automatic storage of the caragana microphylla forage grass raw materials by the first caragana microphylla silo 5 and the second caragana microphylla silo 8, the forage storage silo 12 and the auxiliary material storage silo 15, can store the crushed caragana microphylla forage grass raw materials, can stir and mix the crushed raw materials by the stirrer 9, and can automatically granulate the mixed raw materials by the first granulator 19 and the second granulator 20, screening through shale shaker 22 again, in second conveyer belt 23 cools off the back and send into granule storage storehouse 24, carry out the filling processing through liquid filling machine 25 at last, realize the automatic continuous production of caragana microphylla forage grass granule, make the caragana microphylla obtain make full use of, and the palatability has solved among the prior art that the caragana microphylla is difficult for smashing, drying, can't realize the problem of automatic continuous volume production.
Specifically, impurities in caragana microphylla and forage are removed by a stone-removing and iron-removing belt conveyor, the forage is straw, the caragana microphylla is automatically bundled by an automatic bundling conveyor and then taken out, the caragana microphylla pulverizer 1, the forage pulverizer 2 and an auxiliary material pulverizer 3 are used for pulverizing the caragana microphylla, the forage and the auxiliary material, the caragana microphylla is fed into a first caragana bin 5 by a first feeding auger 4 after the caragana microphylla is pulverized and stored, then the caragana microphylla is fed into a dryer 6 by an elevator for drying, the dried caragana microphylla is fed into a second caragana bin 8 by a feeding auger 7, the caragana microphylla of the second caragana bin 8 is fed into an automatic stirrer 9 by a second feeding auger 10, the forage pulverized and crushed by the forage pulverizer 2 is fed into a forage bin 12 by a third feeding auger 11, the forage is fed into a forage storage and stirred in the forage bin 12 by a fourth feeding auger 13, the forage is fed into the storage stirrer 9, fifth pay-off flood dragon 14 sends into auxiliary material storage bin 15 with the auxiliary material after 3 smashes of auxiliary material rubbing crusher, the auxiliary material in the auxiliary material storage bin 15 is sent into mixer 9 automatically to rethread sixth pay-off flood dragon 16, to the caragana korshinskii after smashing, forage and auxiliary material stir the mixture through mixer 9, the raw materials after mixing send into first granulator 19 through main conveyer belt 17, branch conveyer belt 18 sends into in second granulator 20, carry out the automatic pelletization, first conveyer belt 21 sends the caragana korshinskii granule after the pelletization into shale shaker 22 and sieves the caragana korshinskii granule, the caragana korshinskii granule after the screening gets into second conveyer belt 23 and cools off, send into granule storage bin 24 again, at last fill through liquid filling machine 25, reach the purpose of the automatic processing production of caragana korshinskii forage granule.
In another embodiment of the present invention, one side of the dryer 6 is connected to a burner 31 through a pipeline, and supplies heat to the dryer 6 through the burner 31, and the other side is connected to a second dust remover 32 through a pipeline, so that the second dust remover has a certain dust removing effect, and one side of the second dust remover 32 is connected to a second fan 34 through a pipeline, so as to allow the second dust remover 32 to work; one side of the combustor 31 is connected with an air blower 33 through a pipeline for the combustor 31 to work, and the air blower has the characteristics of energy conservation, emission reduction and low drying cost.
In another embodiment of the present invention, a plurality of fans 35 are disposed above the second conveyor belt 23 at equal intervals, the fans 35 are disposed obliquely, so that the blowing area is larger, the caragana microphylla particles can be loosened by the disposed second conveyor belt 23, and meanwhile, the caragana microphylla particles can be cooled by the fans 35 disposed above the second conveyor belt, so as to achieve the purpose of air-cooling conveying.
In another embodiment of the present invention, a dust removal pipeline 26 is commonly disposed above the caragana microphylla pulverizer 1, the forage pulverizer 2 and the auxiliary material pulverizer 3, an air suction opening 28 is disposed on the dust removal pipeline 26, the air suction opening 28 corresponds to the caragana microphylla pulverizer 1, the forage pulverizer 2 and the auxiliary material pulverizer 3, respectively, one end of the dust removal pipeline 26 is connected to a first dust remover 27, one side of the first dust remover 27 is connected to an air compressor 29 through a pipeline, and the other side of the first dust remover is connected to a first fan 30 through a pipeline, so that dust generated in the raw material pulverizing process can be removed through the disposed first dust remover 27, and a certain dust removal effect is achieved.
In another embodiment of the utility model, a plurality of caragana microphylla crushers 1 are arranged, so that convenience is provided for crushing caragana microphylla, and the working efficiency of a caragana microphylla forage grass particle production line is improved.
In another embodiment of the present invention, a plurality of forage crushers 2 are provided, and the forage crushers 2 can be set to have a corresponding number according to the variety of the forage, so as to facilitate the crushing treatment of different forage and facilitate the production of the caragana microphylla forage particles.
In another embodiment provided by the utility model, the surfaces of the caragana microphylla pulverizer 1, the forage pulverizer 2 and the auxiliary material pulverizer 3 are respectively provided with a visual window and scale marks, so that the raw materials in the pulverizer can be conveniently observed, and the production condition can be conveniently known.
In another embodiment provided by the utility model, the surfaces of the first caragana microphylla bin 5, the second caragana microphylla bin 8, the forage storage bin 12 and the auxiliary material storage bin 15 are provided with visual windows and scale marks, so that the amount of raw materials stored in each bin can be conveniently measured, and convenience is provided for loading work.
While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the utility model.
Claims (10)
1. The automatic caragana korshinskii forage particle processing production line is characterized by comprising a caragana korshinskii grinder (1), a forage grinder (2), an auxiliary material grinder (3) and a stirrer (9), wherein a discharge port of the caragana korshinskii grinder (1) is provided with a first feeding auger (4), a discharge end of the first feeding auger (4) is provided with a first caragana feed bin (5), a discharge port of the first caragana feed bin (5) is connected with a feed inlet of a dryer (6) through a lifting machine, a discharge end of the dryer (6) is provided with a feeding auger (7), a discharge port of the feeding auger (7) is provided with a second caragana feed bin (8), a discharge end of the second caragana feed bin (8) is provided with a second feeding auger (10), and a discharge port of the second feeding auger (10) is connected with the stirrer (9);
a third feeding flood dragon (11) is arranged at a discharge hole of the forage grinder (2), a discharge end of the third feeding flood dragon (11) is connected with a forage storage bin (12), a fourth feeding flood dragon (13) is arranged at a discharge hole of the forage storage bin (12), and a discharge end of the fourth feeding flood dragon (13) is connected with a stirrer (9);
a fifth feeding flood dragon (14) is arranged at a discharge hole of the auxiliary material crusher (3), an auxiliary material storage bin (15) is arranged at a discharge end of the fifth feeding flood dragon (14), a sixth feeding flood dragon (16) is arranged at a discharge hole of the auxiliary material storage bin (15), and a discharge end of the sixth feeding flood dragon (16) is connected with the stirrer (9);
the discharge gate of mixer (9) is provided with main conveyer belt (17), one side of main conveyer belt (17) is provided with branch conveyer belt (18), and the low reaches of main conveyer belt (17) are provided with first granulator (19), the low reaches of branch conveyer belt (18) are provided with second granulator (20), the discharge gate of first granulator (19) and second granulator (20) is provided with first conveyer belt (21) jointly, the low reaches of first conveyer belt (21) are provided with shale shaker (22), the low reaches of shale shaker (22) are provided with second conveyer belt (23), the low reaches of second conveyer belt (23) are provided with granule storage storehouse (24), liquid filling machine (25) is connected to the discharge gate of granule storage storehouse (24).
2. A caragana microphylla forage grass granule automatic processing production line according to claim 1, wherein, one side of the dryer (6) is connected with a burner (31) through a pipeline, the other side is connected with a second dust remover (32) through a pipeline, and one side of the second dust remover (32) is connected with a second fan (34) through a pipeline; one side of the combustor (31) is connected with a blower (33) through a pipeline.
3. A caragana microphylla forage pellet automatic processing production line according to claim 1, wherein a plurality of fans (35) are arranged above the second conveyor belt (23) and are distributed at equal intervals.
4. A caragana microphylla forage grass granule automatic processing production line according to claim 1, wherein a dust removal pipeline (26) is commonly arranged above the caragana microphylla pulverizer (1), the forage pulverizer (2) and the auxiliary material pulverizer (3), an air suction opening (28) is arranged on the dust removal pipeline (26), and one end of the dust removal pipeline (26) is connected with a first dust remover (27).
5. A caragana microphylla forage grass granule automatic processing production line according to claim 4, wherein the first dust remover (27) is connected with an air compressor (29) at one side through a pipeline, and is connected with a first fan (30) at the other side through a pipeline.
6. A caragana microphylla forage grass granule automatic processing production line according to claim 1, characterized in that the caragana microphylla pulverizer (1) is provided in plurality.
7. A caragana microphylla forage grass granule automatic processing production line according to claim 1, characterized in that the forage grinder (2) is provided in plurality.
8. A caragana microphylla forage grass granule automatic processing production line according to claim 1, wherein the surfaces of the caragana microphylla pulverizer (1), the forage pulverizer (2) and the auxiliary material pulverizer (3) are provided with visual windows and scale marks.
9. The automatic caragana microphylla forage particle processing production line according to claim 1, wherein the surfaces of the first caragana microphylla bin (5), the second caragana microphylla bin (8), the forage storage bin (12) and the auxiliary material storage bin (15) are provided with visual windows and scale marks.
10. A caragana microphylla forage grass granule automatic processing production line according to claim 1, wherein the caragana microphylla pulverizer (1), the forage pulverizer (2) and the auxiliary material pulverizer (3) are internally provided with two pulverizing cavities, and the pulverizing particle sizes of the two pulverizing cavities are different.
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