KR101223553B1 - An air conditioning system of silo for storing feed - Google Patents

Abstract

PURPOSE: An air conditioning device for a silo for storing fodder is provided to supply fresh and cold air from the outside into a silo. CONSTITUTION: An air conditioning device for a silo for storing fodder comprises of a fan casing(110) in which an intake and exhaust hole is formed on the bottom, an outlet is protruded from one side of the circumference, and an intake hole is formed on the outer periphery, a fan motor(120) which is installed at the upper end of the fan casing, a cooling fan(130) which is connected to a motor shaft which is exposed to the inner side of the fan casing, and an intake and exhaust dual fan(100).

Description

An air conditioning system of silo for storing feed

The present invention relates to a technology for preventing the deterioration of the feed by maintaining the internal temperature of the silo (Silo) optimally while performing a combination of intake and exhaust in one intake and exhaust fan.

In general, silos have a conical bottom surface, which are mainly used for short-term storage of grains and feeds, and are widely used because they can be completely discharged without damaging grains and have no grains.

However, since the silo is discharged by the inclination angle of the silo, the overall height of the silo is increased compared to the capacity to secure a large inclination angle. Therefore, there is a drawback that it is difficult to ventilate the room temperature. There is a problem that requires attention.

This is because the housing of the silo is made of iron plate or plastic, so the thermal conductivity is very high. In particular, in a high temperature and high humidity environment such as summer, the internal temperature rises sharply, thereby degrading the quality of the feed stored in the silo.

In other words, harmful factors that promote deterioration of feed quality, such as mold habitat and cobweb production due to high temperature and high humidity.

In addition, when the outside temperature of the silo is about 30 °, the inside temperature of the silo rises to about 60 ° or more, so that the nutrients of the feed are destroyed, the feed particles are aggregated and entangled, and the discharge flow is worsened. There is a problem in feed efficiency deterioration, such as avoiding the animals to eat feed because it remains unsuitable for livestock.

Prior arts for solving such problems include Utility Model Registration No. 387813, Name / Ventilation Device for Silo for Combined Feed Storage (hereinafter referred to as Prior Art 1) and Patent Registration No. 976188, Name / Feed bin equipped with an external air intake device (hereinafter referred to as "prior art 2") has been proposed.

As shown in FIG. 9, air is introduced through an air inlet 3 provided on the upper surface of the container body 2 as a driving fan 1 as shown in FIG. 9, and the air is introduced into the container body 2. With the hot air of the vent fan (1) was installed in the container body (2) side air outlet (4) was reduced to the outside to reduce the temperature in the container body (2) stored feed.

However, since the inflow of the air from the air inlet (3) is only inadequate, it is difficult to lower the temperature below the temperature at which the deterioration of the feed stored in the container body can be prevented. This cannot be solved fundamentally.

In addition, the prior art 2 is to drive the ventilation fan by installing an intake member (blowing fan) to prevent the temperature rise of the feed by filtering the fresh air from the outside of the fan and separate the fresh air to the inside of the body at the same time as the rigid body at the same time Together with the smooth air circulation, it provides the effect of preventing the deterioration of the feed at high temperature.

However, the prior art 2 has to be provided with two types of fans, such as the ventilation fan and the intake member (blowing fan), so that the cost of the ventilation of the feed bin is high, and it is time and manpower to install it additionally in the pre-installed feed bin. There's a lot of hung up here.

In addition, the prior art 1, 2 is common through the air inlet and outlet of the protective cover to protect the outside of the fan to create a nest or discharge the discharge secretion as well as dirty discharge into the inside of the silo Of course, the current causes problems such as cutting the wires of the motor.

The present invention is to solve all the problems of the prior art at once, by using an intake and exhaust dual fan that performs a combination of intake and exhaust action to supply a sufficient amount of fresh and cold outside air into the silo, The problem of the invention is that the hot air in the silo can be smoothly discharged to the outside.

In addition, the present invention forms an algae blocking net at the air inlet and outlet of the fan protective cover to protect the outside of the intake and exhaust fan dual fan to prevent the intrusion of birds into the fan protective cover. Try another solution.

The present invention is a means for solving the above problems is formed on the outer peripheral surface of the fan casing with the inlet and exhaust holes formed in the state in which the inlet and exhaust ports are respectively spaced apart, install a fan motor on the top of the fan casing, The cooling fan is connected to the motor shaft exposed to the inside to complete a single intake and exhaust fan of the single body, while the cooling fan is integrally constructed by connecting a plurality of blades radially between the upper and lower spaced space between the top and bottom. In order to provide a technique for installing the intake and exhaust fan on the intake and exhaust mechanism formed in the upper part of the silo using a mounting panel attached to the bottom of the fan casing.

According to the present invention, the intake / exhaust dual fan performs a combination of intake and exhaust operations to supply the cool outside air to the inside of the silo, and to discharge the hot air to the outside while maintaining the internal temperature of the silo at an optimal state. It prevents the deterioration of feed due to the phenomenon, and furthermore, it is possible to supply the livestock with fresh nutrients that are not destroyed, thereby promoting the growth and development of the livestock and preventing the occurrence of disease.

In addition, even if only one air intake and exhaust fan is prevented, the temperature increase of the silo is completely prevented, thereby significantly reducing the manufacturing cost of the ventilation device and providing the effect of improving the economics by reducing the time and manpower according to the installation and construction. .

In addition, by preventing the invasion of birds into the inside of the fan protection cover to protect the intake and exhaust fan, the bird nests or discharges the discharge, and the source of the wires of the motor is cut off, the smooth operation of the intake and exhaust fan Provide a guaranteed effect.

Figure 1 is a longitudinal cross-sectional view of the installation state of the air conditioning apparatus to which the present invention is applied
Figure 2 is a bottom perspective view of the present invention intake and exhaust dual fan
Figure 3 is a partial cross-sectional view of the installation state of the present invention intake and exhaust dual fan
4 is a bottom perspective view of the present invention cooling fan
5 is a perspective view of the blade of the present invention
Figure 6 is a plan cross-sectional view of the present invention intake and exhaust fan dual fan
Figure 7 is a longitudinal cross-sectional view of the fan protective cover installed on the outside of the present invention intake and exhaust dual fan
8 is a perspective view of the fan protective cover of the present invention
9 is a longitudinal cross-sectional view of an installation state of a conventional silo ventilator;

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

Looking at the overall technical configuration according to the accompanying drawings in accordance with a preferred embodiment of the present invention, the intake and exhaust hole 111 is formed through the bottom surface, the exhaust port 112 is formed protrudingly formed on one side of the outer peripheral surface, the exhaust port 112 A fan casing 110 through which an inlet port 113 penetrates an outer circumferential surface adjacent to the panel; A fan motor 120 installed at an upper end of the fan casing 110; Cooling fan 130 which is integrally coupled to the motor shaft 121 exposed to the inside of the fan casing 110 is provided with an intake and exhaust fan dual fan 100 consisting of a single unit; The intake and exhaust fan dual fan 100 can be seen that the organic coupling configuration is installed on the upper outer surface of the intake and exhaust mechanism 11 is formed through the silo 10 up and down.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

The present invention provides a sufficient supply of cold outside air to the inside of the silo (10) with only a simplified configuration in which one inlet and exhaust fan (100) is installed at one place in the silo (10). The technical gist of the present invention is to implement a high quality air conditioner that discharges hot air into the atmosphere.

Such an intake and exhaust fan dual fan 100 is divided into components of the fan casing 110, the fan motor 120 and the cooling fan 130, as shown in Figures 2 to 4, these components are characterized in that they are composed of a single unit It is done.

The fan casing 110 is formed in the bottom surface through which the intake and exhaust holes 111 through which intake and exhaust are simultaneously formed, and the exhaust port 112 protrudes on one side of the outer circumferential surface, and is formed on the outer circumferential surface adjacent to the exhaust port 112. An intake port 113 is formed to penetrate fresh and cold outside air exclusively. The intake port 113 is a differentiated component that is not disclosed in the art including the prior art.

The fan motor 120 for operating the cooling fan 130 is installed at the upper end of the fan casing 110.

At this time, the fan motor 120 is further attached to the motor fixing plate 125 at the bottom as shown in Figure 3, the motor fixing plate 125 is fixed to the top of the fan casing 110, the fan motor 120 The motor shaft 121 passes through the motor shaft through hole 114 formed at the upper end of the fan casing 110 and is exposed to the inside of the fan casing 110.

In the motor shaft 121, the cooling fan 130, which is another core technology of the present invention, is integrally installed, and the cooling fan 130 is organic in the upper plate 131, the lower rim 132, and the blade 133. It consists of phosphorus coupling structure.

The upper plate 131 is integrally attached in a state that the boss 131a through which the motor shaft 121 is fitted in the center is penetrated, and a plurality of upper and lower ends of the blade 133 can be integrally assembled in a circumferential direction. Blade binding holes 131b are formed at equal intervals.

The lower rim 132 disposed below the upper plate 131 is spaced apart from each other so that the outside air supplied to the inside of the silo 10 and hot air in the silo 10 exhausted to the outside may pass through the intake and exhaust. Passages 132a are formed, and a plurality of blade engagement holes 132b are formed at equal intervals so that the lower side of the blade 133 can be integrally assembled in a circumferential direction.

The blade 133 connected between the upper plate 131 and the lower rim 132 has a binding protrusion 133a protruding from the upper and lower ends, respectively, and the binding protrusion 133a has a blade binding hole 131b ( 132b) is bent to be in close contact with the bottom surface of the upper and lower rim 132 of the upper plate 131, respectively, in the state that both sides are fitted to perform the intake and exhaust air at the same time while integrating the upper plate 131 and the lower rim 132 To complete the intake and exhaust fan dual fan 100.

Furthermore, the upper plate 131, the lower rim 132 and the blade 133 are prefabricated and thus require less manufacturing time. In particular, the fixed position of the blade 133 and the space between the blades 133 are accurately realized. It not only ensures the reliability of the product, but also provides the special effect of improving the high quality.

Such a blade 133 captures the outside air introduced through the intake port 113 during the rotation operation, and more smoothly supplies the inside of the silo 10 through the intake and exhaust passage 132a of the lower rim 132. In order to do so, the blade 133 is formed in such a way that the outside air collecting portion 133b is curved in the center as shown in FIGS. 5 and 6.

In addition, the blade 133 is a technology that allows the outside air to flow into the fan casing 110 more smoothly through the inlet port 113, the blade 133 on the virtual line (L) connected radially as shown in FIG. ) Is disposed to be inclined toward the rotation direction of the cooling fan 130 on the basis of the virtual line (L), the inclination angle is generally optimal, but not necessarily limited to 36 °.

As described above, the intake / exhaust dual fan 100 having the fan casing 110, the fan motor 120, and the cooling fan 130 formed as a single unit of the intake and exhaust pipe 11 formed vertically penetrates the upper surface of the silo 10. It can be installed on the top outer surface.

Here, the fan mounting plate 140 is further integrally attached to the lower end of the fan casing 110, and the fan mounting plate 140 is installed on the upper outer surface of the intake and outlet 11 of the silo 10, but the fan Intake and exhaust duct 141 is formed through the up and down to extend in the center of the mounting plate 140 is exposed to the interior of the silo 10 through the intake and exhaust 11, the inside of the fan casing 110 and the silo 10 Air flow between the interior of the can be made smoothly.

According to the present invention having such a configuration, as shown in FIGS. 3 and 6, when the cooling fan 130 rotates clockwise in the drawing, the cooling fan 130 inhales cool air through the intake port 113, and at the same time, the silo (10) It is possible to prevent the deterioration of the feed by maintaining the internal temperature of the silo (10) optimally by discharging the hot air inside the atmosphere through the exhaust port 112.

Here, the cold air introduced into the upper side of the silo 10 through the cooling fan 130 coexists while meeting the hot air in the silo 10. In this process, the cold air, which is heavy air, is gravity due to convection. Light hot air, which is relatively less influenced by gravity by being more affected by, is discharged smoothly into the atmosphere as it is pushed up by the cold air to the top, while cold air sinks to the bottom and the temperature rises in the silo 10. Preventing this effectively is a self-evident fact.

On the other hand, the present invention is additionally installed to protect the fan protection cover 200 to surround the outside of the intake and exhaust fan dual fan 100, to prevent the intrusion of birds into the fan protection cover 200 illegally. Technology to make it possible.

The fan protection cover 200 for this is formed in a hemispherical shape as shown in Figs. 7 and 8, the mounting flange 201 is formed on the lower periphery, the air inlet and outlet 202 is formed on one side of the air inlet and outlet 202 ), A bird screening network 210 is installed in the form of a grate to ensure the inflow of air while preventing the intrusion of birds.

Therefore, the bird nests inside the fan protective cover 200 or blocks the discharge of discharge to prevent the deterioration of the feed, and the algae cut off the wires of the fan motor 120 to block the phenomenon It is possible to ensure the smooth operation of the dual fan (100).

1: Ventilation Fan 3: Air Inlet
10: silo 11: intake and exhaust
100: intake and exhaust fan dual fan 110: fan casing
111: intake and exhaust hole 112: exhaust port
113: intake port 120: fan motor
121: motor shaft 125: motor fixing plate
130: cooling fan 131: top plate
131a: boss 131b and 132b: blade binding ball
132: lower rim 132a: intake and exhaust passage
133: blade 133a: binding protrusion
140: fan mounting plate 200: fan protective cover
202: air inlet and outlet 210: bird screening network

Claims (7)

A fan casing 110 through which an intake and exhaust hole 111 is formed in the bottom surface, and an exhaust port 112 protrudes and extends on one side of the outer circumferential surface, and an inlet port 113 is penetrated through the outer circumferential surface adjacent to the exhaust port 112;
A fan motor 120 installed at an upper end of the fan casing 110;
Cooling fan 130 which is integrally coupled to the motor shaft 121 exposed to the inside of the fan casing 110 is provided with an intake and exhaust fan dual fan 100 consisting of a single unit;
The intake and exhaust fan dual fan 100 is installed on the upper outer surface of the intake and exhaust pipe 11 formed up and down through the silo 10, the air storage device for a silo for feed storage.
The method of claim 1,
The fan motor 120 has a motor fixing plate 125 attached to the bottom, and the motor fixing plate 125 is fixedly installed on the top of the fan casing 110, the motor shaft 121 of the fan motor 120 is The air conditioning apparatus of the silo for feed storage, characterized in that exposed through the motor shaft through hole 114 formed on the top of the fan casing (110).
The method of claim 1,
The cooling fan 130 may include: an upper plate 131 integrally attached to a center of the boss 131a and having a plurality of blade coupling holes 131b formed at equal intervals along the circumferential direction;
A lower rim 132 disposed to be spaced apart from the upper plate 131 and having an intake and exhaust passage 132a formed at a center thereof, and having a plurality of blade coupling holes 132b penetrated at regular intervals along the circumferential direction;
It is connected between the upper plate 131 and the lower rim 132, the binding projections 133a protruding from each of the upper and lower ends are bent in the state fitted into the blade engaging holes (131b, 132b), respectively, the upper plate ( 131 and the lower rim 132, a plurality of blades to form an integrated air conditioning apparatus characterized in that consisting of a plurality of blades.
The method of claim 3,
The blade 133 captures the outside air introduced through the intake port 113, and smoothly supplies the inside of the silo 10 through the intake and exhaust passage 132a of the lower rim 132. 133b) the air conditioning apparatus of the silo for the feed storage, characterized in that the curved formed.
The method of claim 3,
Blade 133 is an air conditioning apparatus for a feed storage silo, characterized in that disposed inclined toward the rotation direction of the cooling fan 130 on the basis of a radially extending virtual line (L).
The method of claim 1,
The fan mounting plate 140 is integrally attached to the lower end of the fan casing 110, and the fan mounting plate 140 is installed on the upper outer surface of the intake and outlet 11 of the silo 10, and the fan mounting plate 140. Ventilation duct 141 is formed extending in the center of the air conditioning apparatus of the silo for feed storage, characterized in that exposed through the penetrating the inlet and outlet (11).
The method of claim 1,
The outside of the intake and exhaust fan dual fan 100 is installed to further surround the fan protective cover 200, the fan protective cover 200 is formed in one side through the air inlet and outlet 202, the air inlet and outlet 202 ) Air control device for silos for feed storage, characterized in that the bird blocking network 210 is installed to block the invasion of algae.

Images