KR200204058Y1 - Cooling structure for assorted feed storage tank - Google Patents

Abstract

The present invention relates to a feed storage tank for feeding livestock to a livestock, and more particularly, to a thermal cooling structure of a feed storage tank for cooling the heat of a pulverized blended feed stored in the feed storage tank.

In the present invention, the axial flow blower 3 is installed at the inlet port 1a of the tank main body 1 and the air introduced by the axial flow blower 3 is coupled to the lower portion of the axial flow blower 3. Is provided with a vortex generating section 5 for generating vortices in the tank body 1 while passing through the air to blow air into the tank body 1, and at the same time to generate vortices to generate air in the tank heated by sunlight. After circulating the air is discharged to the outside to cool the heat of the crushed feed inside the feed storage tank to prevent the feed from being deteriorated.

Therefore, there is an effect that can prevent problems such as eating diarrhea, livestock diarrhea or growth is reduced.

Description

Cooling structure for assorted feed storage tank

The present invention relates to a feed storage tank for feeding livestock to a livestock, and more particularly, to a heat-tight structure of a feed storage tank for cooling the heat of the pulverized blended feed in the feed storage tank.

Attached Figure 1 shows an example of a conventional general feed storage tank, the compound feed is usually stored in the feed storage tank is made by grinding a variety of grains such as corn, wheat, such as to grind a large amount of grain The process generates a lot of heat.

Heat generated in the pulverized grains as described above is left for a certain time, various problems occur when the feed containing the feed compound in the feed storage tank.

In other words, in winter, when the outside temperature is low, the temperature of the tank wall and the inside is low, so even if the feed containing heat is added as described above, the heat of the feed quickly cools, but when the outside temperature is high, such as summer, the feed storage tank When exposed to hot sunlight, the temperature of the tank wall becomes quite high, so that the heat of the blended feed does not cool when the feed is placed in the tank.

As such, when the temperature in the blended feed rises above a certain temperature, not only does the high-nutrient mineral added to the feed melt at high temperature, but also breaks, and the feed is easily deteriorated, and the livestock eats the deteriorated feed, and diarrhea decreases. As a result of such a problem, the farmers raising livestock have caused enormous damage.

In the case of the chicken as an example, in the case of the winter season, the chickens ingested the compound feed mixed with an appropriate amount of minerals in the unchanged foods lay about 25 eggs per month, while the feed is deteriorated and the minerals In summer, chickens can't be fed, so they lay less than 15 eggs per month, which will significantly reduce egg yield.

Therefore, in order to solve this problem, there was also a configuration to cool the heat of the feed in the tank body by removing the air in the tank body by installing a cooling fan in the upper portion of the tank body in the past, but in the conventional case, such an effect was insignificant, Due to the structural problem, there is a problem that the heat of the feed is not cooled because the outside air enters and escapes again, rather than the air from the inside of the tank. In the present invention, the circulation of air in the feed storage tank is smooth. It is intended to provide a feed storage tank to prevent the deterioration of the feed and to prevent the minerals from being broken by cooling the heat generated in the feed to the flow of air after being made to discharge outside.

In the present invention, an axial flow blower is installed to introduce air into the tank body, and a lower portion of the axial flow blower is coupled to a vortex generating unit that generates vortex while passing air caused by the axial flow blower, thereby introducing air into the tank body. It provides a thermal force structure of the feed storage tank, which is configured to circulate air by vortexing at the same time as the air is blown in and then discharge the air to the outside.

1 is a front view showing a conventional general feed storage tank.

Figure 2 is a front sectional view showing the present invention.

Figure 3 is a plan view showing the present invention.

Figure 4 is a perspective view showing a vortex generating unit in the present invention.

* Description of the symbols for the main parts of the drawings *

1: Tank body 1a: Inlet

2: lid 2a: hinge coupling part

2b: support part 2c: opening part

3: axial blower 3a: cooling fan

4: Cap 4a: Air inlet

5: vortex generating unit 51: upper plate

52: lower plate 53: hose

54 cylindrical member 55 screw bolt

Hereinafter, described in detail with reference to the accompanying drawings the thermal force structure of the feed storage tank of the present invention.

Attached Figure 2 is a front sectional view showing the thermal force structure of the feed storage tank of the present invention, the lid 2 for opening and closing the inlet (1a) is provided on the upper part of the tank body 1, this lid (2 ) Is one side hinged (2a) is opened and closed from the tank body (1).

The lid (2) is not in contact with the outer circumferential surface of the tank body (1) by allowing a certain space to be in communication with the outside and when a portion of the upper surface of the tank body (1) when covered with the tank body (1) As shown in Figs. 2 and 3, a plurality of support portions 2b are formed so as to be supported over.

In addition, the opening part 2c is formed in the center part of the lid 2 in a circular shape.

An axial flow blower 3 having a cooling fan 3a fixed thereto is installed and fixed to the opening 2c. The axial flow blower 3 is a conventional one, and the cooling fan 3 is installed in a direction in which air is introduced into the tank body 1. 3a) is installed to rotate.

The cap 4 is installed on the axial blower 3 so as to cover and cover the axial blower 3 with a predetermined space.

The cap 4 is formed with an air inlet 4a to allow air to flow into the cooling fan 3a.

In addition, a vortex generator 5 is provided below the axial flow blower 3 to generate vortices so that air introduced by the cooling fan 3a circulates while rotating in the tank body 1.

4 is a perspective view showing the vortex generating unit, the vortex generating unit 5 of the present invention is a soft hose 53 coupled to the upper plate 51 and the lower plate 52 of the disc shape, the Holes are formed in the upper plate 51 and the lower plate 52 so that the hoses 53 are coupled, and the hoses 53 are fitted into the respective holes.

Since the hose 53 is soft, it can be twisted. The vortex generator 5 of the present invention has a cylindrical member 54 fitted therein so as to maintain this twist after twisting the hose 53. The cylindrical member 54, the upper plate 51 and the lower plate 52 is fixed by a screw bolt (55).

When the air flows from the upper portion of the vortex generator 5, the air flows into the hose 53 and descends downward through the hose 53. The hose 53 is bent in a predetermined direction so that the hose ( The air flowing along the 53) has a force to rotate by the bending direction of the hose 53, so that the air passing through the hose 53 has the characteristics of the vortex to rotate simultaneously with the flow in the downward direction will be.

In the present invention, four hoses 53 were installed.

Referring to the operation of the present invention having the above structure as follows.

First, as the cooling fan 3a rotates to suck air, air is introduced through the air inlet 4a, and the air passing through the cooling fan 3a is a soft hose 53 of the vortex generator 5. In this case, the air passing through the hose 53 according to the bending direction of the hose 53 has a rotational force to generate a vortex in the tank body 1.

In particular, since the hose 53 has a narrow cross-sectional area, the air becomes faster as the air passes through each hose 53, so that the air is blown hard when the air is blown into the tank body 1.

Accordingly, the air in the tank body 1 is circulated at the same time as the air flows in at a high speed, thereby greatly circulating in the tank body 1, and makes it easier to cool the hot heat of the feed.

The air circulated through the tank body 1 is cooled through the inlet 1a on the upper part of the tank body 1 after cooling the heat of the pulverized feed and the side space between the tank body 1 and the lid 2. It is discharged to the outside through.

This structure is more efficient in cooling the heat of the feed by allowing the air to circulate evenly in the tank body (1) while making the inflow of air well.

According to the present invention, there is an effect of cooling the heat of the feed stored in the feed storage tank to prevent the feed from being deteriorated by heat.

Therefore, it is effective to prevent problems such as diarrhea or deterioration of livestock by eating livestock with deteriorated feeds, and by increasing the yield of eggs and the nutritional status of livestock, it is effective to increase farm income. .

Claims (2)

An axial flow blower (3) installed to introduce air into the tank body (1), and a vortex generating unit coupled to the lower portion of the axial flow blower (3) to generate vortex while passing air caused by the axial flow blower (3) (5) is provided to blow air into the interior of the tank body (1) and at the same time generates a vortex to circulate the air largely the thermal force structure of the feed storage tank, characterized in that configured to be discharged to the outside. According to claim 1, wherein the vortex generating portion 5 is a soft hose 53 is coupled to the disk-shaped upper plate 51 and the lower plate 52, the upper plate 51 and the lower plate 52 Holes are formed in the hose 53 to be fitted, and the upper and lower ends of the hoses 53 are fitted into the respective holes, and the cylinders are formed on the outside thereof to maintain the twist after twisting the hose 53. Thermal force structure of the feed storage tank, characterized in that the member 54 is fitted.