CN216094153U - Microelement feed additive apparatus for producing - Google Patents

Abstract

The utility model discloses a microelement feed additive production device, which comprises a rake dryer, a stirring bin, a first crushing mechanism and a finished product bin which are sequentially connected, and further comprises a conveying mechanism for collecting and conveying flying dust and waste gas discharged from a discharge port to the finished product bin when the finished product bin discharges materials. The microelement feed additive production device has the advantages of low energy consumption, environmental protection, high production efficiency, good product quality and the like.

Description

Microelement feed additive apparatus for producing

Technical Field

The utility model relates to the technical field of feed additive processing equipment, in particular to a microelement feed additive production device.

Background

The existing mineral trace element nutrition products are generally produced by a wet process, mainly comprising the production processes of synthesis, centrifugation, drying, crushing and the like, and in the production process, some materials are viscous, are in a mud shape, a paste shape and a smell, have poor water permeability and are difficult to centrifugally dehydrate, and the property difference of different products is large, so that the production process is difficult to control. In addition, the subsequent drying process of the pasty and muddy materials is difficult, and the conventional flash drying can dry the pasty and muddy materials. Flash drying requires a large amount of energy and requires a large amount of hot air throughout the drying process. However, the dried waste heat air is not fully utilized, so that the energy waste is large and the energy consumption cost is high; meanwhile, if the materials with peculiar smell are dried, a large amount of peculiar smell gas can be generated by flash drying, and the large amount of peculiar smell gas is not convenient to collect and treat.

Therefore, in order to solve the above problems in the production and drying processes, it is necessary to develop a production apparatus having the advantages of high efficiency, energy saving, environmental protection, no odor, etc.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the defects in the prior art and provide the microelement feed additive production device which has the advantages of low energy consumption, environmental protection, high production efficiency and good product quality.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a microelement feed additive apparatus for producing, is including the harrow formula desiccator, stirring feed bin, a rubbing crusher constructs and the finished product feed bin that connect gradually, still including being used for collecting the conveying mechanism who carries to the finished product feed bin from discharge gate exhaust raise dust and waste gas when arranging the material with the finished product feed bin.

Foretell microelement feed additive apparatus for producing, it is preferred, conveying mechanism includes the connecting pipe, the one end of connecting pipe is located the discharge gate department of finished product feed bin, the other end of connecting pipe with the inner chamber of finished product feed bin links to each other, the finished product feed bin still is connected with the first draught fan that is used for taking out the negative pressure.

In the production device of the trace element feed additive, preferably, a flared part is arranged at one end of the connecting pipe connected with the discharge port of the finished product bin.

Above-mentioned microelement feed additive apparatus for producing, it is preferred that, first draught fan links to each other with the finished product feed bin through first dust remover.

Above-mentioned microelement feed additive apparatus for producing, it is preferred, first rubbing crusher constructs through the semi-manufactured goods feed bin and the second rubbing crusher who connects gradually and is connected with the finished product feed bin.

Above-mentioned microelement feed additive apparatus for producing, it is preferred, be equipped with on the semi-manufactured goods feed bin with the second dust remover that first draught fan is connected.

Foretell microelement feed additive apparatus for producing, it is preferred, the discharge gate of rake dryer through first hose with the feed inlet of stirring feed bin is connected, the discharge gate of stirring feed bin pass through the second hose with the feed inlet of semi-manufactured goods feed bin is connected, the discharge gate of semi-manufactured goods feed bin passes through the third hose and is connected with the feed inlet of second rubbing crusher structure, the discharge gate of second rubbing crusher structure pass through the fourth hose with the feed inlet of finished goods feed bin is connected.

In the device for producing a trace element feed additive, preferably, the first hose, the second hose, the third hose and the fourth hose are all transparent parts.

Above-mentioned microelement feed additive apparatus for producing, it is preferred, harrow formula desiccator, stirring feed bin, first rubbing crusher constructs and the finished product feed bin sets gradually from top to bottom.

Above-mentioned microelement feed additive apparatus for producing, preferably, the discharge gate of finished product feed bin is equipped with the first fan that closes that is used for controlling the discharge volume.

Compared with the prior art, the utility model has the advantages that:

according to the microelement feed additive production device, the conveying mechanism is used for collecting and conveying the raised dust and the waste gas to the finished product bin, so that the waste heat of the waste gas is fully utilized to dry the material, the energy consumption cost of the product in the production process is reduced, and the production environment can be improved; meanwhile, the problems of synthesis, centrifugation, drying and the like in the production process of the existing product wet process are solved, the labor production efficiency is improved, and the product quality is more stable. The microelement feed additive production device also has the advantages of simple structure, energy conservation, environmental protection and reliable operation.

Drawings

Fig. 1 is a schematic structural diagram of a microelement feed additive production device.

Illustration of the drawings:

1. a rake dryer; 11. a first rake tine; 2. a stirring bin; 21. a sieve plate; 22. a paddle; 3. a first crushing mechanism; 4. a semi-finished product bin; 5. a second crushing mechanism; 6. a finished product bin; 7. a connecting pipe; 71. a flared part; 81. a first hose; 82. a second hose; 83. a third hose; 84. a fourth hose; 91. a first induced draft fan; 92. a second induced draft fan; 101. a first dust remover; 102. a second dust remover; 103. a third dust remover; 201. a first air-turning off machine; 202. and the second air-turning off machine.

Detailed Description

The utility model is described in further detail below with reference to the figures and specific examples.

As shown in fig. 1, the microelement feed additive production device of this embodiment includes rake dryer 1, stirring feed bin 2, first rubbing crusher constructs 3 and finished product feed bin 6 that connect gradually, still includes and is used for collecting the conveying mechanism who carries to finished product feed bin 6 from the raise dust and the waste gas of discharge gate exhaust when finished product feed bin 6 arranges the material. The conveying mechanism collects and conveys the raised dust and the waste gas to the finished product bin 6, so that the waste heat of the waste gas is fully utilized to dry the materials, the energy consumption cost of the products in the production process is reduced, and the production environment can be improved; meanwhile, the problems of synthesis, centrifugation, drying and the like in the production process of the existing product wet process are solved, the labor production efficiency is improved, and the product quality is more stable. The microelement feed additive production device also has the advantages of simple structure, energy conservation, environmental protection and reliable operation.

In this embodiment, conveying mechanism includes connecting pipe 7, and the one end of connecting pipe 7 is located the discharge gate department of finished product feed bin 6, and the other end of connecting pipe 7 links to each other with the inner chamber of finished product feed bin 6, and finished product feed bin 6 still is connected with a draught fan 91 that is used for taking out the negative pressure. First draught fan 91 can make and keep negative pressure state in the finished product feed bin 6, can collect and carry to finished product feed bin 6 from the exhaust waste gas of the discharge gate of finished product feed bin 6 through connecting pipe 7. The conveying mechanism has simple and compact structure and reliable work.

In this embodiment, an expanding portion 71 is disposed at one end of the connecting pipe 7 connected to the discharge port of the finished product bin 6. The connecting pipe 7 can absorb more waste gas and dust, and the discharge of the unorganized waste gas is avoided while the working environment is improved.

In this embodiment, the first induced draft fan 91 is connected with the finished product bin 6 through the first dust collector 101. The inner cavity of the finished product bin 6 can be kept in a negative pressure state by the first induced draft fan 91. The first dust remover 101 is arranged at the upper part of the finished product bin 6, dust-containing gas generated when the second crushing mechanism 5 operates can be effectively discharged, gas-phase and solid-phase separation is carried out, and separated finished products also return to the finished product bin 6.

In this embodiment, the first crushing mechanism 3 is connected to the finished product bin 6 through the semi-finished product bin 4 and the second crushing mechanism 5 which are connected in sequence. In the semi-finished product bin 4, the materials are dried by utilizing the waste heat of the air discharged from the rake dryer 1, so that the drying efficiency is improved. In order to improve the drying efficiency, a disc type dryer can be matched with the rake dryer 1 for drying. However, the disc type drying machine is expensive, the product conversion and cleaning are very troublesome, the product is easy to pollute, and meanwhile, more materials are left in the equipment. Compare in disk dryer, 4 equipment in semi-manufactured goods feed bin are cheap, just can make the storehouse in the material discharge totally through the air hammer, remain very fewly in the equipment, and the product conversion basically need not clear the machine, simple operation, and production efficiency is high. The second pulverizing mechanism 5 is a super-fine pulverizer. The material discharged from the discharge port of the semi-finished product bin 4 is crushed by the second crushing mechanism 5 to meet the requirement of the particle size, and the material crushed by the second crushing mechanism 5 directly enters the finished product bin 6.

In this embodiment, the first crushing mechanism 3 includes a crushing portion and a screen portion for blocking uncrushed large-particle materials and further crushing, and the screen portion is disposed at the bottom of the crushing portion. Get into the material in the first rubbing crusher mechanism 3, under the smashing of broken portion (whole grain reamer), the material that disperses into the small granule gets into semi-manufactured goods feed bin 4 through the screen cloth portion of bottom in, and the preliminary crushing does not reach the material that the particle size required and continues to smash in the broken portion, finally enters into semi-manufactured goods feed bin 4 through screen cloth portion.

In this embodiment, the semi-finished product bin 4 is provided with a second dust remover 102 connected with the first induced draft fan 91. The rake dryer 1 is provided with a third dust remover 103, and the third dust remover 103 is connected with a second induced draft fan 92. The third dust collector 103 can block the powder material and drop back into the rake dryer 1 under the action of compressed air blowback. The inside that second draught fan 92 can make rake dryer 1 keeps negative pressure to and make the timely circulation of moisture discharge, prevent the inside gathering of steam that produces in the drying process in the desiccator, improve drying efficiency, and take away powdery material and get into the dust remover and collect. The first dust remover 101, the second dust remover 102 and the third dust remover 103 can separate moisture from the powder material, thereby improving drying efficiency. Moreover, the peculiar smell gas generated in the drying process can be collected and treated in an organized manner and can be discharged up to the standard, so that the risk of overflowing the peculiar smell gas is reduced.

In this embodiment, stirring feed bin 2 is including the storehouse body that has the discharge gate, sieve 21, paddle 22 and the rotatory driving piece of drive paddle 22 pivoted of setting in discharge gate department, and the installation of paddle 22 through the pivot is internal in the storehouse, and the setting of sieve 21 is hugged closely to paddle 22. The stirring bin 2 has compact structure, easy manufacture and low cost. The paddle 22 is provided with a second rake tooth. The rotary driving piece is a variable frequency motor, and can adjust the frequency and speed, so that the blanking speed of the discharge port of the stirring bin 2 can be adjusted, the material quantity in the first crushing mechanism 3 can be controlled, the materials in the stirring bin 2 can be effectively dispersed, the materials can be uniformly mixed, and the materials cannot be agglomerated due to stirring. Mix the ejection of compact stirring of rake dryer 1 through stirring feed bin 2, send into first rubbing crusher 3 again and smash, material even dispersion, the material granularity after smashing when can guaranteeing to smash is even, is favorable to improving dispersion efficiency and crushing effect.

In this embodiment, the both sides that the pivot setting just divided the pivot were kept away from to stirring feed bin 2's feed inlet and discharge gate, and stirring feed bin 2's feed inlet links to each other with rake dryer 1, and stirring feed bin 2's discharge gate links to each other with first rubbing crusher constructs 3. The materials in the stirring bin 2 are fully stirred, and the stirring effect is improved.

In this embodiment, the discharge port of rake dryer 1 is connected with the feed inlet of stirring feed bin 2 through first hose 81, and the discharge port of stirring feed bin 2 is connected with the feed inlet of semi-manufactured goods feed bin 4 through second hose 82, and the discharge port of semi-manufactured goods feed bin 4 is connected with the feed inlet of second rubbing crusher mechanism 5 through third hose 83, and the discharge port of second rubbing crusher mechanism 5 is connected with the feed inlet of finished goods feed bin 6 through fourth hose 84. The first hose 81, the second hose 82, the third hose 83 and the fourth hose 84 are all steel wire hoses, and the structure has a better effect in eliminating the installation stress of equipment and the mutual interference of the operation vibration of the equipment, and is beneficial to prolonging the service life of the equipment.

In this embodiment, the first hose 81, the second hose 82, the third hose 83, and the fourth hose 84 are all made of transparent materials. The operation such as convenient observation, clear quick-witted can effectively reduce equipment failure rate.

In this embodiment, the rake dryer 1, the stirring bin 2, the first crushing mechanism 3, and the finished product bin 6 are sequentially arranged from top to bottom. Therefore, a special material conveying mechanism is not needed, the material conveying can be completed only by the dead weight of the material, the energy is saved, the structure is simpler, and the operation is more reliable.

In this embodiment, the discharge port of the finished product bin 6 is provided with a first air shutoff machine 201 for controlling the discharge amount. The discharge gate of finished product feed bin 6 is connected the packing, can control the material volume that gets into the packing from the discharge gate of finished product feed bin 6 through first air lock 201. A second air lock 202 is arranged at the discharge port of the semi-finished product bin 4, and the amount of the material entering the second crushing mechanism 5 from the discharge port of the semi-finished product bin 4 can be controlled through the second air lock 202.

In this embodiment, the rake dryer 1 is provided with a first rake tooth 11 capable of rotating in forward and reverse directions. So set up and to enable the material and remove about following the axial, the material in intensive mixing mixes rake dryer 1, the material of also being convenient for can constantly be dispersed when the drying, improves drying efficiency, reduces the energy consumption. There is the rapping bar in the rake dryer 1, and the rapping bar can be under the drive of first rake teeth 11 and constantly circulate in rake dryer 1 and strike the rake lever, makes the material of adhesion on the rake lever in time strike, smash and drop, makes the material be unlikely to have the bold material that drops from the rake lever to exist, improves the material granule degree of consistency.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-described embodiments. Modifications and variations that may occur to those skilled in the art without departing from the spirit and scope of the utility model are to be considered as within the scope of the utility model.

Claims (10)

1. The utility model provides a microelement feed additive apparatus for producing, is including rake dryer (1), stirring feed bin (2), first rubbing crusher constructs (3) and finished product feed bin (6) that connect gradually, its characterized in that: the device also comprises a conveying mechanism for collecting and conveying the dust and the waste gas discharged from the discharge port to the finished product bin (6) when the finished product bin (6) discharges materials.

2. A trace element feed additive production apparatus as claimed in claim 1, wherein: conveying mechanism includes connecting pipe (7), the one end of connecting pipe (7) is located the discharge gate department of finished product feed bin (6), the other end of connecting pipe (7) with the inner chamber of finished product feed bin (6) links to each other, finished product feed bin (6) still are connected with first draught fan (91) that are used for taking out the negative pressure.

3. A trace element feed additive production apparatus as claimed in claim 2, wherein: and an expansion part (71) is arranged at one end of the connecting pipe (7) connected with the discharge hole of the finished product bin (6).

4. A trace element feed additive production apparatus as claimed in claim 2, wherein: and the first induced draft fan (91) is connected with the finished product bin (6) through a first dust remover (101).

5. A microelement feed additive manufacturing apparatus according to claim 4, wherein: the first crushing mechanism (3) is connected with the finished product bin (6) through a semi-finished product bin (4) and a second crushing mechanism (5) which are connected in sequence.

6. A microelement feed additive manufacturing apparatus according to claim 5, wherein: and a second dust remover (102) connected with the first induced draft fan (91) is arranged on the semi-finished product bin (4).

7. A microelement feed additive manufacturing apparatus according to claim 5, wherein: the discharge gate of rake dryer (1) through first hose (81) with the feed inlet of stirring feed bin (2) is connected, the discharge gate of stirring feed bin (2) pass through second hose (82) with the feed inlet of semi-manufactured goods feed bin (4) is connected, the discharge gate of semi-manufactured goods feed bin (4) passes through third hose (83) and is connected with the feed inlet of second rubbing crusher structure (5), the discharge gate of second rubbing crusher structure (5) pass through fourth hose (84) with the feed inlet of finished goods feed bin (6) is connected.

8. A trace element feed additive production apparatus as claimed in claim 7, wherein: the first hose (81), the second hose (82), the third hose (83) and the fourth hose (84) are all made of transparent materials.

9. A trace element feed additive production apparatus as claimed in any one of claims 1 to 8, wherein: the rake dryer (1), the stirring bin (2), the first crushing mechanism (3) and the finished product bin (6) are sequentially arranged from top to bottom.

10. A trace element feed additive production apparatus as claimed in any one of claims 1 to 8, wherein: and a discharge hole of the finished product bin (6) is provided with a first air shutoff machine (201) for controlling the discharge amount.

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