JPS5823278Y2 - Dehydration equipment for animals, fish and shellfish, etc. - Google Patents

Description

[Detailed description of the invention] This invention relates to a dehydrating device for animals, fish and shellfish, etc.

This idea uses oil to indirectly heat feed materials such as animals, fish, and shellfish that contain large amounts of water, oil, and protein, efficiently dehydrates them, and facilitates the oil extraction process as post-processing. It is an object of the present invention to provide a dehydrating apparatus for animals, fish, shellfish, etc., which is constructed so as to be able to obtain micronized protein feed.

An embodiment of this invention will be explained in detail based on the drawings. In the figure, 1 is an inner wall with double ends, inside and outside, and a gap 3 is provided between the inner wall and the outer end 2, so that the evaporating end is connected to the steaming can. Configure.

Reference numeral 4 denotes a side wall plate, and the hollow rotating shaft 6 and the like are mounted on the side wall plate.

Reference numeral 5 denotes an outlet for taking out explosively treated products provided on the lower side of the side wall plate 4.

7 is a hollow disk body, the side surface of the disk body is formed as if it were a solo Al bead, and the side surface is a bulge-like disk 8 with the same shape.
．． The left and right sides of 9 are formed symmetrically and are connected anastomosed.

Disks 8 and 9 are connected to the hollow rotating shaft 6 at regular intervals from the left and right sides by anastomosis to form a large number of disk bodies T.

A support post 15 is fixed to a part of the relative position of each disc 8, 9, and is fixed to the support post 15 at a position where each stirring bank 13 and the support plate 14 come into contact with each other, and the support plate and A cylinder 10 is provided at one end of the stirring bank, and within the cylinder, a reagent plate 12 is fixed to the tip of each mold rod in order to facilitate the connection of the reagent number main rod 11 so that it can be elastically moved in and out by a bullet. However, the agent plate is formed in a T-shape on the side surface of the plate to prevent the raw material from remaining sticking to the can wall surface.

16 is a raw material input port. Reference numeral 17 denotes a manhole opening provided in the center of the can, through which steam is removed by a vacuum pump.

18 is a steam injection port for injecting steam into the gap 3;

19 is a steam injection port for injecting steam into the hollow rotating shaft 6.

In this project, oil such as fish oil, beef tallow, pig intestine, linseed oil, soybean oil, rapeseed oil, etc. is stored in the inner pot 1, and the oil is heated to a constant temperature, and unprocessed raw materials are continuously stored in the inner pot. When the raw material is fed into the inside of the chisel 1, the raw material is heated by the temperature of the oil, and a portion of the raw material comes to stick to the can wall surface of the inner chisel 1.

As time passes and the oil temperature increases, the sticky raw materials gradually become dehydrated and become mixed with oil, making them more likely to stick to the wall of the inner funnel 1.
The material is wear-proofed in advance by a wear-resistant plate 12, and the sticky raw material is caused to fall onto the outer circumferential surface of the hollow rotary shaft 6 from the end wall.

Therefore, the raw materials that have fallen onto the outer peripheral surface become a mixture of processed raw materials and unprocessed raw materials, and are stirred by the action of the stirrer 13 and the support plate 14.

That is, the abrasion-resistant raw materials that have been scraped off by the cutting plate 12 fall onto the surface of the hollow rotating shaft 6 and become mixed, and when the hollow rotating shaft is then rotated in the opposite direction, the stirring plate 1
3 and the bearing plate 14, the processed raw material is taken out from the product outlet 5.

Therefore, in the present invention, the oil filled in the inner chisel 1 is heated by injecting steam into the gap between the inner chisel 1 and the outer end 2, and the raw material is thrown into the heated oil, and the raw material is heated by the oil temperature. The water in the raw material is evaporated and dehydrated, and the protein, gelatin, etc. in the raw material are solidified and stirred in an inner funnel 1 to prevent them from being extracted into oil.The subsequent oil extraction process reduces the raw material to about 6. This makes it possible to obtain a dehydrated protein source in the form of powder.

This device is constructed as described above, and the water contained in the feed is dehydrated as much as possible using heated oil, the drying process is carried out rapidly and continuously, and the subsequent oil extraction process is used to easily pulverize the feed. It is possible to obtain dry powdered feed that can be used to reduce work time.

Thus, a bulge-shaped hollow disk body with a side surface solopan beads is formed at a certain distance from the hollow rotating shaft, and uniform heated steam is supplied to the internal residue of the disk body.

Therefore, the steam introduced into the hollow disk body is also fed into each bulging disk body, and at the same time, the raw material is scraped off from the wall surface of the inner chime 1 in order to heat the peripheral part of the hollow body well. When it falls onto the outer surface of the rotating shaft, it mixes well with the heated oil in the inner hammer 1 and can perform a good dehydration treatment.Then, the safety valve communicating with the inside of the inner hammer 1 is opened and the When the internal pressure is brought to about normal pressure and when the pressure is reduced to about normal pressure, the raw material is pushed out into the outlet 5 by rotating the hollow-shaped stirrer 13 in the opposite direction and sent to the next oil extraction process. It is a transition.

Since the present invention works as described above, the raw material can be easily dehydrated using heated oil without adhering to the inner wall of the chisel, and the dehydrated raw material can be taken out from the outlet with a simple operation. This has the effect of allowing the process to proceed to the next oil extraction process.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional explanatory diagram of the proposed device. Figure 2 is an enlarged view of the main parts. FIG. 3 is a sectional view taken along the line T--T in FIG. 2. 1...Inner pin, 2...Outer end, 3...
... Gap between inner and outer ends, 4... Side wall plate, 5...
...Outlet, 6...Hollow rotating shaft, 7...
・Hollow disc body, 8, 9...Disk, 10...
・・Fixed tube, 11・・・Wear-resistant main rod, 12・・・・
...Wear plate, 13... Stirring Ikogin, 14...
・-Support plate, 15... Support column, 16...
- Raw material input port, 17... Manhole opening.

Claims (1)

[Scope of utility model registration request] A hollow rotating shaft 6 that penetrates laterally inside the double can wall of the inner can is provided, and hollow disc bodies 7 in the shape of solo bread beads are formed on the side surface at regular intervals on the hollow rotating shaft. In order to form a hollow cylindrical body, the substantially bulge-shaped disks 8 and 9 are anastomosed and joined from the left and right sides, and a support column 15 is provided protruding from the top of the hollow disk body. A supporting plate 14 and a stirring plate 13 are connected to each other in a mountainous manner, and a cylinder 10 is connected to an end of the bearing plate 14 and an end of the stirring plate 13, respectively. The agent number main rod 11 that is biased in the projecting direction is housed, and the agent number main rod 11 is connected to the agent number plate 12 at the tip thereof. A dehydrating device for animals, fish and shellfish, etc., which is constructed so as to be pressed against and energized by.