KR20210012746A - vertical air stirring apparatus for controlling temperature and humidity - Google Patents

Abstract

The present invention relates to a vertical air stirring apparatus for controlling temperature and humidity and, more specifically, to a vertical air stirring apparatus which is installed in a greenhouse, a non-heating storage, and the like to evenly circulate internal air to uniformly maintain temperature and humidity in the entire area of the internal space. According to the present invention, the vertical air stirring apparatus comprises: a main body having a hollow portion, through which air can pass from the upper part to the lower part, formed therein; a blowing unit installed inside the main body to move the upper air of the main body to the lower part along the hollow portion; a heater installed in the lower part of the blowing unit to heat the air moving along the hollow portion; a corrugated pipe coupled to the lower end of the main body, having a flow path communicating with the hollow portion, and formed to allow length adjustment in a vertical direction; a diffusion housing having a narrow-top and wide-bottom conical shape to be coupled to the lower end of the corrugated pipe and diffuse the air discharged through the lower part of the corrugated pipe; a moving means disposed below the diffusion housing to move the stagnant air to the air discharged through the lower part of the corrugated pipe; a temperature sensor installed in the main body or corrugated pipe to measure the temperature; and a control unit using temperature information of the temperature sensor to control operation of the heater and the blowing unit.

Description

Vertical air stirring apparatus for controlling temperature and humidity.

The present invention relates to a vertical air agitation device for controlling temperature and humidity, and more particularly, a vertical air agitation device installed in a greenhouse or an unheated storage room to circulate the air evenly to maintain the temperature and humidity uniformly throughout the interior space. It relates to a type air stirring device.

Ventilation of a greenhouse such as a green house affects not only internal air exchange but also temperature and humidity control, so it is very important for the development of plants. In particular, ventilation of the air above the greenhouse is difficult unless a blower is installed. Therefore, the ventilation system of a general green house forms a hole in the center of the roof of the green house, and a ventilation system is installed to ventilate the air inside through the hole.

Since such a ventilation device must be installed through the roof of a green house, installation work is very difficult, and there is a disadvantage that it must be disassembled and reinstalled when replacing the house film of the green house.

Therefore, it is preferable that the ventilation device is installed inside the house. In addition, there is a need to facilitate mixing of air inside the house as well as ventilation.

The inside of the house is maintained at temperature and humidity so that crops can grow regardless of the season. Therefore, in summer, the air conditioner is operated, and in winter, a heater, a fan, or a boiler is installed to increase the temperature inside the house.

However, when the temperature inside the house is controlled by these artificial thermostats, the warmth rises and the cold stagnates in a lowered state, and each area inside the house depends on the height of the house or the distance from the temperature control device. There is a temperature deviation at Since it is not possible to maintain a uniform temperature distribution over the entire area due to such temperature deviation, there is a problem that it is not possible to optimize the growing environment of growing plants or animals, and accordingly, there is a problem that the cooling cost or warming cost is increased. have.

Registered Utility Model KR20-0282390: Multipurpose Ventilator Registered utility model KR20-0317130: Air conditioning system for green house

The present invention was created to solve the above problems, and an object of the present invention is to provide a vertical air stirring device capable of effectively circulating the air inside so that the internal temperature and humidity can be uniformly maintained over the entire area. have.

A vertical air stirring device for controlling temperature and humidity of the present invention for achieving the above object comprises: a body having a hollow through which air can pass from the top to the bottom; A blower installed inside the main body to move the upper air of the main body to the lower side along the hollow; A heater installed under the air blower to heat the air moving along the hollow; A corrugated pipe coupled to the lower end of the main body and having a flow path communicating with the hollow and capable of adjusting the length in the vertical direction; A diffusion housing coupled to the lower end of the corrugated pipe and formed in a conical shape with a narrow upper portion and a wide lower portion to diffuse the air discharged through the lower portion of the corrugated pipe; A riding means located below the diffusion housing and for riding the stagnant air into the air discharged through the lower part of the corrugated pipe; A temperature sensor installed on the body or the corrugated pipe to measure a temperature; And a control unit for controlling driving of the heater and the blower using temperature information of the temperature sensor.

The riding means includes a protruding portion formed to protrude from the outer surface of the diffusion housing and having a streamlined cross-section of an airfoil shape, and a venturi hole positioned so as to contact the end of the raised portion and vertically penetrating the diffusion housing. do.

The riding means includes a venturi hole formed by vertically penetrating the diffusion housing, and a protruding blade formed at an edge of one side of the venturi hole and inclined upward.

As described above, the present invention can uniformly maintain the temperature and humidity of the internal space by evenly circulating air inside the facility requiring temperature control.

In particular, the present invention uses the Venturi effect to significantly improve the air circulation effect since stagnant air stagnated under the diffusion housing is piggybacked on the air flow discharged from the corrugated pipe.

1 is a perspective view showing a state in which a vertical air stirring device according to an embodiment of the present invention is installed in a greenhouse,
2 is a cross-sectional view of a vertical stirring device applied to FIG. 1,
3 is a block diagram showing the control system of the vertical air stirring device applied to FIG. 1,
4 is a perspective view showing a main part of a vertical air stirring device according to another example of the present invention,
5 is an exploded perspective view of a main part of a vertical air stirring device according to another example of the present invention.

Hereinafter, a vertical air stirring device for adjusting temperature and humidity according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to Figures 1 to 3, the vertical air agitation device 100 for controlling the temperature and humidity of the present invention is installed in the interior of the facility house 10 in which the fabric is grown at regular intervals. The present invention can be installed hanging from the ceiling of the facility house (10).

The vertical air agitation device 100 for controlling the temperature and humidity of the present invention shown has a body 110 formed with a hollow through which air can pass from the top to the bottom, and the upper air of the body 110 to the bottom along the hollow. The blower 120 installed inside the main body to move, the heater 130 installed under the blower 120 to heat the air moving along the hollow, and coupled to the lower end of the main body 110 And a corrugated pipe 140 that has a flow path communicating with the hollow and is formed to be adjustable in length in the vertical direction, and is coupled to the lower end of the corrugated pipe 140 to diffuse the air discharged through the lower part of the corrugated pipe 140 to the surroundings. The diffusion housing 150 is formed in a narrow and wide conical shape, and a riding means for piggybacking stagnant air into the air discharged through the lower portion of the corrugated pipe 140 by being located under the diffusion housing 150, and the main body ( 110) or a temperature sensor 145 installed in the corrugated pipe 140 to measure the temperature, and a control unit 170 that controls the driving of the heater 130 and the blower 120 using the temperature information of the temperature sensor 145 ).

The body 110 has a structure in which a hollow 111 through which air can pass from the top to the bottom is formed. Since the upper and lower ends of the main body 110 are open, respectively, air can be introduced into the hollow 111 through the upper portion and the air introduced into the hollow 111 through the lower portion can be discharged to the outside.

The main body 110 extends a predetermined length from the upper space inside the house 10 to the lower space, and at the upper end is attached to the support frame of the house 10 so that the main body 110 can be supported by the support frame of the house 10. A fastening ring 112 to which the support rope 113 coupled to one end is fastened is formed.

It goes without saying that the main body 110 can be mounted and used in an upright position on the ground unlike the illustrated example.

The blower 120 is installed inside the main body 110 so as to move the upper air of the main body 110 to the lower side along the hollow 111. The blower 120 includes a blower fan 121 and a fan motor 122 that rotates the blower fan 121, and the fan motor 122 includes a first mounting frame coupled to the upper side of the main body 110 ( 125). By the operation of the blower 120, the air in the upper space of the house 10 flows into the hollow 111 through the upper end of the main body 110 and moves downward along the hollow portion 111.

The heater 130 is installed in the main body 110 under the blower 120 to heat the air moving along the hollow 111.

It is preferable to apply the heater 130 formed of a nano-carbon material in a circular ring shape.

The corrugated pipe 140 is coupled to the lower end of the body 110 and has a flow path communicating with the hollow 111 and is formed to be adjustable in length in the vertical direction. The corrugated pipe 140 guides the air moving downward along the hollow 111 by the blower 120 to the inner lower space of the house 10. The corrugated pipe 140 is formed of a flexible material so that the length can be adjusted in the vertical direction and flowable.

Although not shown in the drawing, the main body 110 is further provided with a length adjustment driving means for adjusting the length of the corrugated pipe 140, as the length adjustment driving means, a drive motor installed inside the main body 110, A take-up roller rotatably mounted to the drive motor, and one end is coupled to the take-up roller, and the other end is coupled to the lower end of the corrugated pipe 140 to raise the lower end of the corrugated pipe 140 upward by the rotation of the drive motor. It can be configured including a member. During the unwinding operation of the take-up roller, a weight member for adding a load to the lower end of the corrugated pipe 140 may be further installed so that the corrugated pipe 140 automatically extends downward.

The diffusion housing 150 is coupled to the lower end of the corrugated pipe 140 and serves to diffuse the air discharged to the outside through the lower part of the corrugated pipe 140 to the surroundings.

The diffusion housing 150 diffuses the air moving downward along the corrugated pipe 140 to spread to the lower space inside the house 10, and is attached to the second mounting frame 155 coupled to the lower end of the corrugated pipe 140. Are combined. The upper part of the diffusion housing is narrow and the lower part is formed in a wide cone shape. It is preferable that the diameter of the lower portion of the diffusion housing 150 is formed larger than the diameter of the corrugated pipe 140 so that air can spread to a wide area.

The temperature sensor 145 is installed on the outer surface of the main body 110 to measure the internal temperature of the house 10, and the measured temperature information is provided to the controller 170 to be described later.

Unlike the illustrated example, the temperature sensor 145 may be installed in the corrugated pipe 140 to measure the external temperature.

The control unit 170 controls the driving of the blower 120 and the heater 130. The control unit 170 processes operation information transmitted from the remote controller 181 and received by the receiving unit 183.

As an example, the control unit 170 controls the air blower 120 and the heater 130 to be turned on/off corresponding to the operation information received from the remote controller 181 when set to the manual mode from the remote controller 181. . In addition, when a signal set in the automatic mode from the remote controller 181 is received, the controller 170 controls the blower 120 and the heater 130 when the temperature measured by the temperature sensor 145 corresponds to the set operation condition. It can be operated.

The vertical air agitation device 100 of the present invention described above mixes the hot air above the inner space in which the cooling/heating machine is operated and the cold air below the inner space, such as the house 10, thereby While being able to maintain uniformity, there is an advantage that the length of the corrugated pipe 140 can be adjusted, so that the position where air is discharged can be freely adjusted.

On the other hand, in the present invention, a diffusion housing 150 is installed under the corrugated pipe 140 to diffuse the air discharged through the lower part of the corrugated pipe 140.

The diffusion housing 150 serves to diffuse the air discharged through the lower portion of the corrugated pipe 140, but there is a problem that the air located under the diffusion housing 150 is stagnant. In particular, the congestion worsens when the cold air stays close to the ground during heating. In order to solve this problem, the present invention further includes a riding means.

The piggybacking means piggybacks stagnant air located under the diffusion housing 150 into the air discharged through the lower part of the corrugated pipe 140. The air circulation effect can be further improved by this riding means.

The illustrated riding means is formed to protrude from the outer surface of the diffusion housing 150, and the cross section is positioned to be in contact with the ends of the protruding portions 160 and the protruding portions 160 formed in a streamlined shape of an airfoil shape, and the diffusion housing 150 ) And a venturi hole 163 formed by penetrating vertically.

The raised portion 160 is formed on the outer surface of the diffusion housing 150. The protrusion 160 is formed along the trajectory of a circle made of a predetermined radius from the center of the diffusion housing 150. The protrusion 160 may be formed in a number of concentric circles. In the illustrated example, three raised portions 160 are formed concentrically on the outer surface of the diffusion housing 150. The cross section of each ridge 160 is formed in a streamlined shape of an airfoil.

The venturi hole 163 is formed by vertically penetrating the diffusion housing 150. Venturi hole 163 is formed in a circular shape. The venturi hole 163 is formed in a position in contact with the end of the raised portion 160. The venturi holes 163 may be formed at regular intervals along the edge of the ridge 160.

The air discharged from the lower portion of the corrugated pipe 140 moves at a high speed along the outer surface of the diffusion housing 150, and the air flow is changed by the raised portion 160. As it passes through the end of the ridge 160, the speed of air increases and the pressure decreases accordingly. Accordingly, the air, which is located under the diffusion housing 150 and is stagnant, is sucked into the upper portion of the diffusion housing 150 through the venturi hole 163 and rides on the flow of air rapidly passing through the upper portion of the diffusion housing 150. do.

Another example of the riding means is shown in FIG. 4. 4, the riding means includes a venturi hole 165 formed by vertically penetrating the diffusion housing 150, and a protruding blade 167 formed at one edge of the venturi hole 165 to be inclined upward. .

Venturi hole 165 is formed in a square shape. A plurality of venturi holes 165 are formed at regular intervals.

The protruding feather 167 is formed at one edge of the venturi hole 165. The protruding feather 167 is made to be inclined upward. The flow of air moving at a high speed along the top of the diffusion housing 150 is changed by the protruding blades 167. Accordingly, the air, which is located under the diffusion housing 150 and is stagnant, is sucked into the upper portion of the diffusion housing 150 through the venturi hole 165 and rides on the flow of air passing through the upper portion of the diffusion housing 150 quickly. do.

As described above, the present invention uses the Venturi effect to significantly improve the air circulation effect because stagnant air stagnant under the diffusion housing is piggybacked on the air flow discharged from the corrugated pipe.

The vertical air stirring device according to another embodiment of the present invention may be hinged to a corrugated pipe and a diffusion housing.

Referring to FIG. 5, a pair of first hinge brackets 157 are formed on the second mounting frame 155 installed at the lower end of the corrugated pipe. Further, a second hinge bracket 190 is formed on the diffusion housing 150 to be inserted between the first hinge brackets 157.

A first insertion hole 159 into which the bolt 210 is inserted is formed in the first hinge brackets 157, and a second insertion hole 195 into which the bolt 210 is inserted into the second hinge bracket 190 Is formed. In addition, a buffer unit 200 is installed in the second insertion hole 195.

The buffer unit 200 includes an inner ring frame 201 having a circular center hole 203 inside, a dovetail-shaped first binding groove 205 formed on the outer circumferential surface of the inner ring frame 201, and an inner ring An outer ring frame 207 coupled to the outside of the frame 201, a dovetail-shaped second coupling groove 209 formed on the inner circumferential surface of the outer ring frame 207, the inner ring frame 201 and the outer ring frame It is installed between the 207 and one side is fixed to the first coupling groove 205 and the other side is made of an elastic member 210 fixed to the second coupling groove 209.

The above-described buffer unit 200 is inserted into the second insertion hole 195 and coupled to the second hinge bracket 190. The outer ring frame 207 of the buffer unit 200 may be coupled to the second insertion hole 195 in a force-fitting manner. The bolt 210 passing through the first insertion hole 159 of the first hinge bracket 157 passes through the center hole 203 of the inner ring frame 201.

The inner diameter of the outer ring frame 207 is formed larger than the outer diameter of the inner ring frame 201. The outer peripheral surface of the inner ring frame 201 and the inner peripheral surface of the outer ring frame 207 are spaced apart. The elastic member 210 is positioned in the spaced gap. A spring may be used as the elastic member 210.

Since the first hinge brackets 157 and the second hinge bracket 190 are hinge-coupled through the above-described buffer unit 200, the inclination of the diffusion housing 150 can be freely adjusted and at the same time when the blower unit is operated. It has the advantage of absorbing vibration and shock transmitted through the corrugated pipe.

In the above, the present invention has been described with reference to an exemplary embodiment, but this is only exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent embodiments are possible therefrom. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

110: main body 120: air blower
130: heater 140: corrugated pipe
150: diffusion housing 160: ridge
163: Venturi Hall

Claims (3)

A body having a hollow through which air can pass from the top to the bottom;
A blower installed inside the main body to move the upper air of the main body to the lower side along the hollow;
A heater installed under the air blower to heat the air moving along the hollow;
A corrugated pipe coupled to the lower end of the main body and having a flow path communicating with the hollow and capable of adjusting the length in the vertical direction;
A diffusion housing coupled to a lower end of the corrugated pipe and formed in a conical shape with a narrow upper portion and a wide lower portion to diffuse air discharged through the lower portion of the corrugated pipe;
A riding means located below the diffusion housing and for riding the stagnant air into the air discharged through the lower part of the corrugated pipe;
A temperature sensor installed on the body or the corrugated pipe to measure a temperature;
A vertical air stirring device for controlling temperature and humidity, comprising a; a control unit for controlling the driving of the heater and the blower using temperature information of the temperature sensor. According to claim 1, wherein the riding means is formed to protrude from the outer surface of the diffusion housing, the cross section is formed in a streamlined shape of an airfoil, and is positioned to contact the end of the raised portion and penetrates the diffusion housing vertically. Vertical air stirring device for controlling temperature and humidity, characterized in that it has a venturi hole formed by the. The vertical type for controlling temperature and humidity according to claim 1, wherein the riding means includes a venturi hole formed by vertically penetrating the diffusion housing, and a protruding blade formed at one edge of the venturi hole and inclined upward. Air stirring device.

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