CN219540211U - Be applied to quantitative proportioning machine of feed processing - Google Patents

Abstract

The utility model provides a quantitative proportioning machine applied to feed processing, which comprises a main charging barrel, wherein the upper end of the main charging barrel is provided with a proportioning tank group, the proportioning tank group comprises a first charging barrel and a second charging barrel, the lower ports of the first charging barrel and the second charging barrel are communicated with a conveying pipe arranged at the upper end of the main charging barrel, the joint of the upper end of the main charging barrel and the conveying pipe is provided with a second feeding bin, an adjusting charging barrel is arranged in the second feeding bin, and the discharging end of the adjusting charging barrel extends into the main charging barrel and corresponds to a stirring shaft arranged in the main charging barrel. The utility model is different from the traditional quantitative proportioning machine in that the two charging barrels are assembled above the main charging barrel, the two charging barrels can simultaneously and quantitatively convey added materials into the charging bin, the adjusting charging barrel in the second charging bin can intensively convey the materials into the main charging barrel and pre-mix the two materials, and the pre-mixed materials can be directly stirred by the stirring shaft, so that the materials are uniformly mixed into the main materials in the main charging barrel, the proportioning mixing effect is improved, and the adjustment is convenient.

Description

Be applied to quantitative proportioning machine of feed processing

Technical Field

The utility model relates to the technical field of feed processing, in particular to a quantitative proportioning machine applied to feed processing.

Background

The term "feed" refers to a general term for foods of animals raised by all humans, and the term "feed" is used in a relatively narrow sense to refer mainly to foods of animals raised in agriculture or in animal husbandry. The Feed (Feed) comprises more than ten varieties of Feed raw materials such as soybean, soybean meal, corn, fish meal, amino acid, miscellaneous meal, additives, whey powder, grease, meat and bone meal, grains, sweet sorghum and the like. In the feed processing and manufacturing, a plurality of raw materials are often required to be mixed, and the raw materials are not only powder materials, liquid ingredients, but also pasty materials.

When batching, current proportioning machine can set up auxiliary silo at main feed bin top, and auxiliary silo is provided with control valve with main feed bin junction, and the material that needs to add gets into in the main feed bin through the valve port, mixes with the matrix in the main feed bin. When batching multiple material, can set up a plurality of storehouse bodies and add the material, the in-process of adding, various materials according to auxiliary storehouse mounted position's difference, the local position of scattering in the main storehouse body that often can concentrate, at the in-process of stirring, be difficult for mixing with other added materials, influence the batching effect. Therefore, the utility model provides a quantitative proportioning machine applied to feed processing to solve the problems in the prior art.

Disclosure of Invention

The utility model provides a quantitative proportioning machine applied to feed processing, aiming at solving the defects that when the existing quantitative proportioning machine simultaneously conveys multiple materials into a bin body, the materials are unevenly distributed and are unfavorable for mixing.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the batching tank group comprises a first charging barrel and a second charging barrel, and the lower ports of the first charging barrel and the second charging barrel are communicated with a conveying pipe arranged at the upper end of the main charging barrel;

a first helical blade is arranged below the first charging barrel in the conveying pipe, one end of the first helical blade is fixedly connected with the output end of a second motor arranged outside the conveying pipe, the other end of the first helical blade is connected with a second helical blade, and the first helical blade is arranged below the second charging barrel;

the junction of main feed cylinder upper end and conveyer pipe is equipped with the second and throws the feed bin, and the second throws the feed bin upper port and extends to the intersection of first helical blade and second helical blade, is equipped with in the second and throws the feed bin and adjusts the feed cylinder, adjusts the feed cylinder and arranges the feed end and extend to in the main feed cylinder and correspond with the (mixing) shaft of establishing in the main feed cylinder.

The further improvement is that: the direction of the spiral blade on the first spiral blade is opposite to that of the spiral blade on the second spiral blade.

The further improvement is that: the adjusting charging barrel comprises a material mixing pipe, the material mixing pipe is arranged on the bottom wall of the second feeding bin and is communicated with the second feeding bin, a third spiral blade is arranged in the material mixing pipe in a penetrating mode, one end of the third spiral blade extends into the main charging barrel, and the other end of the third spiral blade is fixedly connected with a third motor arranged on the outer side of the second feeding bin.

The further improvement is that: the lower end of the main charging barrel is provided with a conical bin, the upper port of the conical bin is communicated with the lower port of the main charging barrel, and the lower port of the conical bin is communicated with the input end of a feeding auger arranged below the main charging barrel.

The further improvement is that: the stirring shaft comprises a stirring shaft arranged in the main charging barrel, the stirring shaft is arranged on one side of the third spiral blade and fixedly connected with the output end of the first motor arranged at the upper end of the main charging barrel, a plurality of stirring blades are wound around the periphery of the shaft body of the stirring shaft, and each stirring blade is arranged below the third spiral blade in a stacked mode and fixedly connected with the stirring shaft.

The further improvement is that: the conical bin is internally provided with a plurality of inclined scrapers, each scraper surrounds the outside of the stirring shaft and is fixedly connected with the stirring shaft through a connecting rod, and one side, away from the stirring shaft, of each scraper is connected with the inner side wall of the conical bin.

The further improvement is that: the upper end of the main charging barrel is provided with a first feeding bin, and the first feeding bin is arranged on one side of the first motor and is communicated with the main charging barrel.

The further improvement is that: the upper ends of the first charging barrel and the second charging barrel are provided with lifting plates which are connected with the first charging barrel and the second charging barrel in a rotating way.

The beneficial effects of the utility model are as follows: the two charging barrels are assembled above the main charging barrel, the two charging barrels can simultaneously and quantitatively convey added materials into the feeding bin, the adjusting charging barrel positioned in the feeding bin can intensively convey the materials conveyed into the feeding bin into the main charging barrel, the two materials are premixed, and the premixed materials can be directly stirred by the stirring shaft, so that the premixed materials are uniformly mixed into the main materials in the main charging barrel, and the mixing effect of the ingredients is improved.

Drawings

Fig. 1 is a structural diagram of the present utility model.

Fig. 2 is a structural view of the charging bin of the present utility model.

Fig. 3 is a cross-sectional view of a delivery tube of the present utility model.

FIG. 4 is a block diagram of a stirring shaft according to the present utility model.

Wherein: 1. a main charging barrel; 2. a conical bin; 3. feeding augers; 4. a first feeding bin; 5. a first motor; 7. a delivery tube; 8. a first barrel; 9. a second barrel; 10. lifting; 11. a second motor; 12. a second feeding bin; 13. a third motor; 14. a first helical blade; 15. a second helical blade; 16. a material mixing pipe; 17. a third helical blade; 18. a stirring shaft.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1, 2, 3 and 4, the embodiment provides a quantitative batching machine applied to feed processing, which comprises a batching tank set arranged at the upper end of a main charging barrel 1;

the batching tank group comprises a first charging barrel 8 and a second charging barrel 9, and the lower ports of the first charging barrel 8 and the second charging barrel 9 are communicated with a conveying pipe 7 arranged at the upper end of the main charging barrel 1;

a first helical blade 14 is arranged below the first charging barrel 8 in the conveying pipe 7, one end of the first helical blade 14 is fixedly connected with the output end of a second motor 11 arranged outside the conveying pipe 7, the other end of the first helical blade 14 is connected with a second helical blade 15, and the first helical blade 14 is arranged below the second charging barrel 9; different types of materials to be added are respectively placed in the first charging barrel 8 and the second charging barrel 9, the first helical blade 14 and the second helical blade 15 can be rotated by starting the second motor 11, the materials to be added can be simultaneously and quantitatively pushed into the second charging bin 12 in a rotary manner in the rotation of the first helical blade 14 and the second helical blade 15, the purpose of quantitative feeding can be realized in a screw feeding manner, and meanwhile, some caking in the materials can be stirred.

The junction of main feed cylinder 1 upper end and conveyer pipe 7 is equipped with second throw feed bin 12, and the port extends to the intersection of first helical blade 14 and second helical blade 15 on the second throw feed bin 12, is equipped with in the second throw feed bin 12 and adjusts the feed cylinder, adjusts the feed cylinder and arranges the feed end and extend to in the main feed cylinder 1 and correspond with the (mixing) shaft 18 of establishing in the main feed cylinder 1. The adjusting material cylinder can convey the materials from the first material cylinder 8 and the second material cylinder 9 to the second feeding bin 12, intensively convey the materials to the main material cylinder 1, pre-mix the two materials, and directly stir the pre-mixed materials by the stirring shaft 18 to mix the materials into the main material in the main material cylinder 1, so that the mixing effect is improved.

The direction of the helical blades on the first helical blade 14 is opposite to the direction of the helical blades on the second helical blade 15. That is, when the first screw blade 14 and the second screw blade 15 are rotated, the material conveyed from the first barrel 8 is pushed in the direction of the second screw blade 15, and the other material introduced into the conveying pipe 7 from the second barrel 9 is pushed in the direction of the first screw blade 14 in the conveying pipe 7.

The adjusting charging barrel comprises a material mixing pipe 16, the material mixing pipe 16 is arranged on the bottom wall of the second feeding bin 12 and is communicated with the second feeding bin 12, a third helical blade 17 is arranged in the material mixing pipe 16 in a penetrating mode, one end of the third helical blade 17 extends into the main charging barrel 1, and the other end of the third helical blade 17 is fixedly connected with a third motor 13 arranged on the outer side of the second feeding bin 12. The first helical blade 14 and the second helical blade 15 transfer the materials in the first charging barrel 8 and the second charging barrel 9 into the second charging bin 12, the materials in the second charging bin 12 can fall into the material mixing pipe 16, the third motor 13 is started at the moment, the third helical blade 17 can be controlled to rotate, and the third helical blade 17 pushes the materials into the main charging barrel 1 in a rotating mode. The discharging speed is determined according to the rotating speed of the third helical blade 17, and the feeding is convenient to adjust.

The lower end of the main charging barrel 1 is provided with a conical bin 2, the upper port of the conical bin 2 is communicated with the lower port of the main charging barrel 1, and the lower port of the conical bin 2 is communicated with the input end of a feeding auger 3 arranged below the main charging barrel 1. The conical bin 2 is wide in upper part and narrow in lower part, and the advantage of the conical bin 2 is that the stirred materials can naturally slide into the material feeding auger 3 along the inner wall of the conical bin 2 and are conveyed in a concentrated mode. The feeding auger 3 is of a traditional auger structure and consists of a cylinder body, a motor and spiral blades, wherein the motor controls the spiral blades positioned on the inner side of the cylinder body to rotate from the outer side of the cylinder body, and materials conveyed into the cylinder body are pushed out.

The stirring shaft 18 comprises a stirring shaft 18 arranged in the main charging barrel 1, the stirring shaft 18 is arranged on one side of the third helical blade 17 and is fixedly connected with the output end of the first motor 5 arranged at the upper end of the main charging barrel 1, a plurality of stirring blades are wound around the periphery of the rod body of the stirring shaft 18, and each stirring blade is arranged below the third helical blade 17 in a lamination manner and is fixedly connected with the stirring shaft 18; when the batch is mixed, the first motor 5 positioned at the upper end of the main charging barrel 1 is started, the stirring shaft 18 positioned in the main charging barrel 1 is driven to rotate, and in the rotation of the stirring shaft 18, the added materials falling into the main charging barrel 1 and the base materials in the main charging barrel 1 are stirred by the stirring blades, and meanwhile, uniform mixing is carried out.

A plurality of obliquely arranged scrapers are arranged in the conical bin 2, each scraper surrounds the outside of the stirring shaft 18 and is fixedly connected with the stirring shaft 18 through a connecting rod, and one side, away from the stirring shaft 18, of each scraper is connected with the inner side wall of the conical bin 2. In the process of discharging, partial feed is attached to the inner wall of the conical bin 2, the feed is difficult to fall off, the scraping plate arranged in the conical bin 2 can rotate along with the rotation of the stirring shaft 18, and the feed powder attached to the inner wall of the conical bin 2 is scraped off by contacting the inner wall of the conical bin 2, so that feed residue is avoided.

The upper end of the main charging barrel 1 is provided with a first feeding bin 4, and the first feeding bin 4 is arranged on one side of the first motor 5 and is communicated with the main charging barrel 1. The main base material is thrown into the main charging barrel 1 through the first charging bin 4 and is mixed with the added materials thrown from the first charging barrel 8 and the second charging barrel 9.

The upper ends of the first charging barrel 8 and the second charging barrel 9 are provided with an opening 10, and the opening 10 is rotationally connected with the first charging barrel 8 and the second charging barrel 9. The lifting plate 10 is rotationally connected to the edges of the first charging barrel 8 and the second charging barrel 9 through the pin piece, when the materials are injected, the lifting plate 10 is opened, when the materials are mixed, the lifting plate 10 is closed, the materials in the first charging barrel 8 and the second charging barrel 9 are prevented from being broken out, and meanwhile, the dustproof effect is achieved.

This be applied to ration proportioning machine of feed processing, it is on the basis of traditional ration proportioning machine, assemble two feed cylinders in the top of main feed cylinder 1, two feed cylinder bottom are connected through a conveyer pipe 7, conveyer pipe 7 can concentrate the material that needs to add and carry in second feeding bin 12, the regulation feed cylinder that is located in second feeding bin 12 can concentrate the material that carries in second feeding bin 12 from first feed cylinder 8 and second feed cylinder 9, concentrate and carry in main feed cylinder 1, and premix two kinds of materials, the material after premixing can be directly stirred by (mixing) shaft 18, make it even mix in the main material in main feed cylinder 1, improve the batching mixing effect.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. Be applied to quantitative proportioning machine of feed processing, including main feed cylinder (1) upper end is equipped with batching tank group, its characterized in that:

the batching tank set comprises a first charging barrel (8) and a second charging barrel (9), wherein the lower ports of the first charging barrel (8) and the second charging barrel (9) are communicated with a conveying pipe (7) arranged at the upper end of the main charging barrel (1);

a first helical blade (14) is arranged below the first charging barrel (8) in the conveying pipe (7), one end of the first helical blade (14) is fixedly connected with the output end of a second motor (11) arranged outside the conveying pipe (7), the other end of the first helical blade (14) is connected with a second helical blade (15), and the first helical blade (14) is arranged below the second charging barrel (9);

the utility model discloses a feeding device for a material feeding machine, which is characterized in that a second feeding bin (12) is arranged at the joint of the upper end of a main material barrel (1) and a conveying pipe (7), an upper port of the second feeding bin (12) extends to the junction of a first helical blade (14) and a second helical blade (15), an adjusting material barrel is arranged in the second feeding bin (12), and a material discharging end of the adjusting material barrel extends into the main material barrel (1) and corresponds to a stirring shaft (18) arranged in the main material barrel (1).

2. A dosing machine for feed processing according to claim 1, characterized in that: the direction of the helical blade on the first helical blade (14) is opposite to the direction of the helical blade on the second helical blade (15).

3. A dosing machine for feed processing according to claim 1, characterized in that: the adjusting charging barrel comprises a mixing pipe (16), the mixing pipe (16) is arranged on the bottom wall of the second feeding bin (12) and is communicated with the second feeding bin (12), a third spiral blade (17) is arranged in the mixing pipe (16) in a penetrating mode, one end of the third spiral blade (17) extends into the main charging barrel (1), and the other end of the third spiral blade (17) is fixedly connected with a third motor (13) arranged outside the second feeding bin (12).

4. A dosing machine for feed processing according to claim 1, characterized in that: the feeding device is characterized in that a conical bin (2) is arranged at the lower end of the main charging barrel (1), an upper port of the conical bin (2) is communicated with a lower port of the main charging barrel (1), and a lower port of the conical bin (2) is communicated with an input end of a feeding auger (3) arranged below the main charging barrel (1).

5. A dosing machine for feed processing according to claim 4, wherein: the stirring shaft (18) comprises a stirring shaft (18) arranged in the main charging barrel (1), the stirring shaft (18) is arranged on one side of the third spiral blade (17) and fixedly connected with the output end of the first motor (5) arranged at the upper end of the main charging barrel (1), a plurality of stirring blades are wound around the periphery of the shaft of the stirring shaft (18), and each stirring blade is arranged below the third spiral blade (17) in a stacked mode and fixedly connected with the stirring shaft (18).

6. A dosing machine for feed processing according to claim 5, wherein: the conical bin (2) is internally provided with a plurality of inclined scrapers, each scraper surrounds the outside of the stirring shaft (18) and is fixedly connected with the stirring shaft (18) through a connecting rod, and one side, away from the stirring shaft (18), of each scraper is connected with the inner side wall of the conical bin (2).

7. A dosing machine for feed processing according to claim 5, wherein: the upper end of the main charging barrel (1) is provided with a first charging bin (4), and the first charging bin (4) is arranged on one side of the first motor (5) and is communicated with the main charging barrel (1).

8. A dosing machine for feed processing according to claim 5, wherein: the upper ends of the first charging barrel (8) and the second charging barrel (9) are provided with an opening (10), and the opening (10) is rotationally connected with the first charging barrel (8) and the second charging barrel (9).