JPS5948638B2 - Flat grain feed manufacturing equipment - Google Patents

Description

[Detailed description of the invention] The present invention relates to an apparatus for producing flat granular feed.

Conventionally, when grains are processed into feed, they are supplied in the form of powder, meal, or pressed flakes.

However, this processed feed is difficult for young and young calves and piglets to feed because it is fed without separating the pericarp of the grain, making it difficult for livestock to eat and digest. Flake-shaped feeds tend to dissipate feed easily and have disadvantages such as poor overall weight gain.

In order to solve the above-mentioned drawbacks, the present invention has developed a 1,000-grain product in which grains that have been pressed after steam heating are further cut into particles with a grain size of 5 to 10 meshes, and the pericarp is peeled off and separated and removed. This is a feed manufacturing equipment that obtains 1,000 grains of feed from compressed grains, eliminates various wastes and difficulties when increasing the weight of livestock, and when used as the main raw material for various mixed feeds or mixed feeds. It is characterized by its success in improving the body, meat quality, and economy.

Hereinafter, the present invention will be explained in detail with reference to embodiment figures.

A first elevator 2a is connected to a flake tank 1 for drying pressed grains and storing them at room temperature, and a roll 3a provided with a large number of horizontal grooves and a roll 3b provided with vertical grooves are opposed to each other. The input port of the special tooth profile cutter 4 and the upper end of the elevator 2a are communicated via a conveyor 5, the outlet of the special tooth profile cutter 4 is communicated with the input port of the grain size sorter 6, and the particle size A discharge lower a with a particle size of 6 meshes or more and a discharge lower b with a particle size of 6 meshes or less are provided, the discharge lower a of the particle size sorter 6 is communicated with the lower end of the second elevator 2b, and a sorting net with a particle size of 6 meshes or less is provided inside. A second elevator 2 is installed at the input port of the peel separator 8 installed.
The upper end of b is communicated with the fan device 9 that causes the pericarp separator 8 to suction and separate the pericarp and the cyclone 10, and the 6 or more mesh discharge port of the pericarp separator 8 and the special tooth cutter 4 are connected.
The conveyor line 12 is connected to the lower end of the third elevator 2C, and the conveyor line 12 is connected to the lower end of the third elevator 2C. The discharge port of 6 meshes or less is communicated with the conveyor line 12, and the upper end of the third elevator 2C is communicated with the product tank 13.

Next, the effects of the present invention will be explained with reference to embodiment figures.

Grains such as corn are steam-heated and pressed using a press machine, and the pressed grains are stored in a flake tank 1 with ventilation until the temperature reaches room temperature. The grains are conveyed to a special tooth profile cutting machine 4, and the pressed grains are cut into many lengths and widths by the special tooth profile cutting machine 4.

The special tooth profile cutting machine 4 has a roll 3a with a large number of cross-grained grooves.
and a roll 3b provided with a vertical groove are placed facing each other, and the rolled grains are efficiently cut while rotating the rolls 3a and 3b, and at the same time, the pericarp is peeled off. It has a good biting effect, eliminates twisting and crushing effects as much as possible, and simultaneously has the effect of cutting into 1,000 grains and peeling off the peel.

The grains cut into flat grains are sorted into those with a grain size of 6 mesh or less and those with a grain size of 6 mesh or more by a grain size sorter 6, and those with a grain size of 6 mesh or less are transferred to a conveyor line 12.
The products are transported and stored in the product tank 13 by the third elevator 2C, and those with a particle size of 6 mesh or more are fed into the peel separator 8 along with the peeled skin by the second elevator 2b, where the peels are separated and recycled again. Particles with a particle size of 6 mesh or less are sorted and sent to a conveyor line 12, and particles with a particle size of 6 mesh or more are sent to a special tooth profile cutter 4 again by the conveyor line 11 and cut. The machine 8 is connected to a fan device 9 for collecting the pericarp and removing it by suction.

Therefore, with the device according to the invention, the grain size of the crushed grain is 6.
The feed is flat-grained, smaller than a meal, and the pericarp has been removed, making it more palatable and digestible for livestock.There is also less dissipation during feeding, making it easy to identify feed ingredients based on feed safety laws and regulations. It eliminates the waste and difficulty of producing food, and when used as the main ingredient in various compound feeds or supplementary feeds, it produces the remarkable effects mentioned above.

[Brief explanation of the drawing]

FIG. 1 is a system diagram of a manufacturing apparatus according to an embodiment of the present invention.

Claims (1)

[Claims] 1 A special tooth profile in which a first elevator 2a is connected to a flake tank 1 for storing pressed grains, and a roll 3a with many horizontal grooves and a roll 3b with vertical grooves are opposed to each other. The input port of the cutting machine 4 and the upper end of the elevator 2a are communicated by a conveyor 5, and the discharge port of the special tooth cutter 4 is communicated with the input port of the grain size sorter 6, so that the grain size sorter 6 has a particle size of 6 mesh or more. discharge lower a and discharge lower b with a particle size of 6 mesh or less.
and the discharge lower a of the particle size sorter 6 is connected to the second elevator 2b.
The upper end of the second elevator 2b is connected to the input port of the peel separator 8, and the cyclone 10 is connected to the fan device 9 that causes the peel separator 8 to suction and separate the peels. The conveyor line 11 connects the discharge port for 6 or more meshes with the input port of the special tooth profile cutter 4, and the conveyor line 12 that communicates with the discharge lower b for 6 meshes or less of the particle size sorter 6 is connected to the third elevator 2C. It is characterized by communicating with the lower end of the peel separator 8, the discharge port of 6 meshes or less of the peel separator 8 with the conveyor line 12, and communicating the upper end of the third elevator 2C with the product tank 13.
Flat grain feed manufacturing equipment.