KR20220017707A - An Air Conditioning System for Planting House - Google Patents

Abstract

The present invention relates to an air conditioning system of a cultivating house, which comprises: an air supply device sucking external air from the outside of the cultivating house into the inside of the cultivating house; and an air supply duct moving the external air sucked through the air supply device to the inside of the cultivating house. The air supply duct comprises: a coil heat exchange unit in which a hollow tube is spirally twisted and fluid flows inside the tube; and a housing unit in which the coil heat exchange unit is accommodated and through which the external air flows therein, wherein the coil heat exchange unit is configured so that the fluid flowing inside exchanges heat with the external air flowing inside the housing unit.

Description

Grower's Air Conditioning System {An Air Conditioning System for Planting House}

The present invention relates to an air conditioning system for a grower, and more particularly, to a mushroom grower capable of minimizing browning and disease factors and maximizing quality mushrooms by minimizing temperature changes inside the grower when fresh outside air is supplied into the grower. of the air conditioning system.

King oyster mushroom reacts very sensitively to the environment, such as having high ventilation requirements. Therefore, it is important to create the best environment for fruiting body growth in order to achieve high-quality and high yield of king oyster mushroom.

Therefore, the best quality mushrooms can be harvested by controlling the entire mushroom grower with temperature, humidity, and carbon dioxide concentration under optimal environmental conditions.

In mushroom growers, if ventilation is insufficient, the concentration of carbon dioxide increases, and in such an environment, the shape of the mushroom's cap is distorted and the stem becomes thin and long, resulting in a sharp drop in commercial value and thus a decrease in farm household income.

In addition, there is a problem in that the normal growth of mushrooms is inhibited due to disorders caused by the drying phenomenon and temperature deviation of the mushrooms when the ventilation amount is too large in the mushroom growers, and accordingly, this also has a problem in that the income of the farmer is reduced.

Therefore, management work to remove carbon dioxide gas while maintaining proper temperature and humidity in the mushroom grower, that is, air-conditioning work, is very difficult and requires delicacy. do.

In other words, it is not an exaggeration to say that the success or failure of mushroom cultivation is determined through cooperation within these mushroom growers.

Therefore, in order to lead the success of mushroom cultivation in the art, a number of mushroom cultivation experts have increased the need to solve problems with the air conditioning system in the mushroom grower.

Currently, in the air conditioning system of a mushroom grower, a natural air conditioning method that relies on the exhaust port of the grower's ceiling and side windows to perform air conditioning according to the degree of opening, and a blower fan installed on the wall of the grower and operated by a timer A forced air conditioning method in which air is supplied into the grower is common.

These natural and forced air conditioning methods are often selected depending on the type of mushroom, but in recent years, as mass production methods and multi-batch production methods have been established, forced air conditioning methods are preferred.

Accordingly, in the grower, various facilities are installed to maintain temperature and humidity in winter and summer, when the difference between the inner and outer environment of the grower becomes severe, to realize an optimal environment for producing high-quality mushrooms.

In particular, in the winter season, the temperature difference with the outside is extreme, which causes a very big hindrance to the growth of mushrooms. Accordingly, numerous expert groups are constantly making efforts to reduce the temperature difference between the outside air and the inside air supplied to the grower.

An automobile radiator type heat exchanger is used as a device for the air conditioning system of a mushroom grower that is currently most commonly used.

As mentioned above, it is not an exaggeration to say that the process of inducing the development of young fruiting bodies is a turning point in determining the success or failure of cultivation due to the characteristics of the king oyster mushroom. Since the temperature, humidity, and carbon dioxide concentration of the surface of the medium have a significant and complex effect during weaning, it is necessary to properly protect the micro-weather on the surface of the medium. To this end, it is key to keep the temperature inside the grower within the range of 15 to 18 degrees Celsius from the initial stage of standing to the feet. The temperature inside the cultivation house drops only to 2 to 3 degrees Celsius, and when a car radiator-type heat exchanger is installed, it drops to 5 to 6 degrees Celsius, so the temperature difference between the inside and outside of the cultivation room becomes severe, which affects the germination of mushroom fruiting bodies. As a result, a malformed fruiting body divergence may be formed, and there is a problem in that the cropping time is delayed and the yield and quality are deteriorated.

Accordingly, in order to solve the problems of the conventional automobile radiator-type heat exchanger, numerous researches and developments are being conducted even now.

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to dramatically reduce the temperature difference between the air inside and outside the grower to enable high-quality production and mass production of cultivated products. is to provide

A grower air conditioning system according to an embodiment of the present invention includes: an air supply device for sucking external air outside the grower into the inside of the grower; and an air supply duct for moving external air sucked in through the air supply device to the inside of the grower, wherein the air supply duct is formed such that a hollow tube is spirally twisted, and a coil in which a fluid flows in the tube heat exchange unit; and a housing part formed to accommodate the coil heat exchange part and through which the external air flows therein, wherein the coil heat exchange part is configured so that a fluid flowing therein exchanges heat with external air flowing inside the housing part. do it with

Specifically, the air supply duct may be formed inside the housing part so that the coil heat exchanger is spirally twisted along the length direction of the housing part.

Specifically, the coil heat exchanger may be disposed inside the housing part such that a plurality of shafts are formed to be spirally twisted along the longitudinal direction of the housing part.

Specifically, the cultivator includes a cultivar bed on which the mushroom medium material is raised, the air supply device and the air supply duct are accommodated, and the air supply duct is disposed on a side wall of the cultivator, and the air supply device is a sirocco fan and may be disposed in the air supply duct.

Specifically, the air supply duct may include: an outdoor air duct for sucking external air from the outside of the grower into the inside of the grower; and a control duct for receiving the outside air introduced into the outside air duct and adjusting the temperature of the outside air to the temperature of the inside air of the grower, wherein the coil heat exchange unit is disposed only in the control duct, the sirocco A fan may be disposed in the outdoor air duct.

Specifically, it is formed in the outdoor air duct, formed upstream of the air supply device, may further include a filter unit for removing foreign substances contained in the external air outside the grower.

Specifically, the air supply duct, further comprising a connection duct for dispersing the flowing air, the adjustment duct, a plurality of transverse ducts transverse to the transverse direction of the grower; and a plurality of vertical ducts crossing the vertical direction of the grower, wherein the connection ducts may be formed to implement a connection between the horizontal ducts or a connection between the horizontal ducts and the vertical ducts.

Specifically, it is formed on the bottom of the grower and further includes a floor air conditioning unit for controlling the internal air of the grower, and the floor air conditioning unit is formed to include an excel pipe (XL Pipe), wherein the excel pipe is connected to the coil heat exchanger It can be configured to be connected.

In the cultivation yarn air conditioning system according to an embodiment of the present invention, the air supply device is formed as a sirocco fan, and the air supply duct is configured to contain a plurality of coiled corrugated pipes through which water flows, thereby reducing the temperature difference between the air inside the cultivation yarn and the outside air. It has the effect of enabling high-quality production and mass production of cultivated products by dramatically reducing it.

In addition, in the cultivation yarn air conditioning system according to an embodiment of the present invention, the air supply duct is formed of a coiled corrugated pipe, so that the specific surface area is widened, so that the residence time of air is remarkably increased, thereby increasing the heat exchange efficiency.

In addition, the cultivation air conditioning system according to an embodiment of the present invention installs a plurality of coil-type corrugated pipes through which water flows in the air supply duct, so that it is easy to connect with the existing Excel pipe for floor heating, and thus the existing floor Since hot water used for heating can be used as it is, there is an effect of reducing energy costs.

1 is a conceptual diagram of an air conditioning system for a grower according to an embodiment of the present invention.
FIG. 2 is an enlarged view of a part A of FIG. 1 and a conceptual view of an air supply device and an air supply duct of an air conditioning system of a grower according to an embodiment of the present invention.
3 is a conceptual diagram of an air supply duct of a grower's air conditioning system according to an embodiment of the present invention.
4 is a conceptual diagram of an air conditioning system for a grower according to another embodiment of the present invention.
5 is a conceptual diagram of a floor heating apparatus of an air conditioning system of a grower according to another embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In the present specification, in adding reference numbers to the components of each drawing, it should be noted that only the same components are given the same number as possible even though they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

The detailed description below will be described in detail together with the drawings shown below.

1 is a conceptual diagram of a grower's air conditioning system according to an embodiment of the present invention, FIG. 2 is an enlarged view of part A of FIG. 1 , and a conceptual diagram of an air supply device and an air supply duct of a grower's air conditioning system according to an embodiment of the present invention , FIG. 3 is a conceptual diagram of a supply air duct of a grower's air conditioning system according to an embodiment of the present invention, FIG. 4 is a conceptual diagram of a grower's air conditioning system according to another embodiment of the present invention, and FIG. 5 is another embodiment of the present invention It is a conceptual diagram of the floor heating system of the air conditioning system of the grower according to the following.

1 to 5 , the air conditioning system 1 of a grower according to an embodiment of the present invention includes an air supply duct 10 , an air supply device 20 , a grower 30 and a floor heating/cooling unit 40 . includes

Hereinafter, the air conditioning system 1 of a grower according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 5 .

The air supply duct 10 moves the outside air (OA) sucked through the air supply device 20 to the inside of the cultivator 30 .

The supply air duct 10 is composed of a coil heat exchanger 101 and a housing portion 102 , and includes an outside air duct 11 , an adjustment duct 12 , and a connection duct 13 .

The coil heat exchanger 101 is formed such that a hollow tube is spirally twisted, and a fluid (eg, water or glycol water) flows in the tube, and the fluid flowing therein is the housing portion 102 . It is configured to heat exchange with the outside air (OA) flowing in the inside. At this time, the external air (OA), the air (EA) heat-exchanged with the fluid flowing inside the coil heat exchanger 101 to always maintain about 10 to 12 degrees Celsius, preferably 15 degrees Celsius to It can be adjusted to stay between 18 degrees.

Through this, in the present invention, the air supply duct 10 is configured to contain a plurality of coil heat exchangers 101 through which water or glycol water is passed, and the temperature of the internal air (IA) and the external air (OA) of the cultivation yarn 30 It has the effect of remarkably reducing the deviation, enabling high-quality production and mass production of cultivated products, that is, mushrooms, and minimizing the factors of browning and disease.

In addition, the air supply duct 10 is formed to include the coil heat exchanger 101, which is a coiled corrugated pipe, so that the specific surface area is widened by the coil heat exchanger 101, so that the residence time of air is remarkably increased, thereby increasing the heat exchange efficiency there is

The coil heat exchanger 101 is formed to be spirally twisted along the longitudinal direction of the housing unit 102 inside the housing unit 102 , and the coil heat exchanger 101 is formed along the longitudinal direction of the housing unit 102 . A plurality of coil heat exchanger shafts (X) formed to be twisted in a spiral may be disposed inside the housing unit 102 to form a plurality. At this time, the coil heat exchanger axis (X) of the coil heat exchanger 101 may be preferably three or four.

The coil heat exchanger 101 may be disposed only in the adjustment duct 12 to be described later. That is, when the coil heat exchanger 101 is disposed in the outdoor air duct 11, the efficiency of the coil heat exchanger 101 disposed in the outside air duct 11 is inevitably reduced, resulting in waste of thermal efficiency. Therefore, in the present invention, the coil heat exchanger 101 is disposed only in the horizontal duct 121 and the vertical duct 122 of the adjustment duct 12, not the outside air duct 11, so that the outside air OA is optimally efficient. The temperature of the heat-exchanged air EA may be adjusted to be the same as or similar to the temperature of the internal air IA.

The coil heat exchanger 101 may be connected to the excel pipe 41 of the floor heating/cooling unit 40 to be described later. In this case, the coil heat exchanger end 101a of the coil heat exchanger 101 and the excel pipe 41 The excel pipe end 41a may be connected.

The housing part 102 is configured to accommodate the coil heat exchanger 101 , and external air OA flows therein.

The housing unit 102 determines the outer shape of the air supply duct 10, and may have a hollow cylindrical shape, for example.

The outdoor air duct 11 may suck in the outside air OA of the cultivation yarn 30 to be described later into the inside of the cultivation yarn 30 . The coil heat exchanger 101 is not disposed in the outdoor air duct 11, only the outer shape of the housing unit 102 may be formed, and only the air supply device 20 and the filter unit 21 to be described later may be disposed.

The adjustment duct 12 can receive the outside air OA that has flowed into the outside air duct 11 , and can adjust the temperature of the outside air OA to the temperature of the inside air IA of the cultivation yarn 30 . In the conditioning duct 12 , both the coil heat exchanger 101 and the housing part 102 can be arranged.

The adjustment duct 12 may include a plurality of transverse ducts 121 crossing the transverse direction of the cultivation yarn 30 and a plurality of vertical ducts 122 crossing the vertical direction of the cultivation yarn 30 .

On the other hand, in another embodiment, the adjustment duct 12, the air supply device 20 is additionally arranged, so that the insufficient air circulation capacity can be improved.

The connecting duct 13 may distribute the air flowing in the horizontal duct 121 or the vertical duct 122 to the vertical duct 122 or the horizontal duct 122 . That is, the connection duct 13 is formed to implement a connection between the horizontal duct 121 and the vertical duct 122 or a connection between the horizontal duct 121 and the horizontal duct 121, and flows in the horizontal duct 121 Air may be dispersed to another horizontal duct 121 or distributed to the vertical duct 122 , and air flowing in the vertical duct 122 may be dispersed to the horizontal duct 121 .

The air supply duct 10 may be disposed on the side wall 31 of the cultivation yarn 30 to be described later. That is, the vertical duct 122 of the supply air duct 10 may be disposed on the side wall 31 of the cultivation yarn 30 , and the outside air duct 11 is the ceiling 33 or the side wall 31 of the cultivation yarn 30 . ) may be formed, and a plurality of connection ducts 13 are formed to implement a connection between the horizontal duct 121 and the vertical duct 122 .

The length of the air supply duct 10 may be adjusted by calculating the heat exchange capacity according to the width of the cultivation yarn 30 . As an example, the air supply duct 10 may have a length in the range of about 5m to 7m when the width of the cultivation yarn 30 is about 30 pyeong, and may have a length in the range of about 8m to 9m when the area is about 40 pyeong.

The air supply device 20 sucks the outside air OA from the outside of the cultivation yarn 30 into the inside of the cultivation yarn 30 .

The air supply device 20 may be, for example, a Sirocco Fan, may be disposed only in the outside air duct 11 , and may further include a filter unit 21 .

The filter unit 21 is formed in the outdoor air duct 11 , and is formed upstream of the sirocco fan (ie, air supply device) 20 , and removes foreign substances contained in the external air OA of the cultivation yarn 30 . can do.

Specifically, the air supply device 20 is disposed in the outdoor air duct 11 to suck in the outside air (OA) outside the cultivator 30 through the filter unit 21 , and then supply it to the connection duct 13 . do.

At this time, the external air (OA) supplied to the connecting duct 13 is distributed to the horizontal duct 121 or the vertical duct 122, and at this time, the external air (OA) distributed to the horizontal duct 121 or the vertical duct 122 ) is converted into heat-exchanged air (EA) by exchanging heat with the coil heat exchanger 101, at this time, the heat-exchanged air (EA) has a temperature equal to or similar to the temperature of the internal air (IA) inside the cultivation yarn 30 adjusted to do

The cultivator 30 sets the internal environment of the mushroom medium material 301 so that the culture medium 203 on which the mushroom medium material 301 is raised is disposed, and the mushroom medium material 301 is isolated from the external environment and grown within a certain condition. ) may be a culture room that is optimally provided to suit the growth conditions of

In the cultivation yarn 30, the bottom 32 is formed on the ground G, the side walls 31 are formed to extend upward in all directions of the bottom 32, and the ceiling 33 is the upper part of the side wall 31. It may be configured to cover.

The cultivator 30 may accommodate the air supply device 20 and the air supply duct 10 for adjusting the internal environment to match the growth conditions of the mushroom medium material 301 .

The cultivation yarn 30 may arrange the air supply duct 10 on the side wall 31 , and external air OA from the outside of the cultivation yarn 30 is supplied to the cultivation yarn 30 through the air supply duct 10 and the air supply device 20 . ) can be delivered internally.

The turbid air containing carbon dioxide emitted by mushrooms, etc. must be ventilated inside the grower 30 with fresh air from the outside. At this time, when the temperature of the external air (OA) supplied to the inside of the grower 30 is similar to the temperature of the internal air (IA) inside the grower 30, the occurrence of various diseases is small, and mushrooms with excellent quality can be grown. In addition, a high yield of mushrooms may be possible.

Accordingly, in the present invention, as described above, the air supply duct 10 is configured to contain a plurality of coil heat exchangers 101 through which a fluid (eg, water) passes, and the air inside the cultivation yarn 30 and the outside air (IA) and the outside. It is implemented to have the effect of dramatically reducing the temperature deviation of air (OA) to enable high-quality production and mass production of cultivated products, that is, mushrooms.

The floor heating and cooling unit 40 is formed on the bottom 32 of the grower 30 to control the internal air IA of the grower 30, and is formed to include an excel pipe (XL Pipe) 41, The pipe 41 may be configured to be connected to the coil heat exchanger 101 .

The excel pipe 41 may be disposed to occupy a large surface area on the bottom 32 of the cultivator 30, for example, may be disposed as shown in FIG. 5 . At this time, the excel pipe 41 may receive hot or cold water from an external hot water supply source or a cold water supply source through the excel pipe end 41a to keep the floor 32 cold or hot.

In this case, the excel pipe end 41a may be branched in addition to the external hot water supply source or cold water supply source to be further connected to the coil heat exchanger end 101a of the coil heat exchanger 101 . Through this, the present invention can use the hot water used for the existing floor heating or the cold water used for the existing floor cooling as it is, thereby reducing energy costs.

In summary, in the recultivation air conditioning system 1 according to an embodiment of the present invention, the air supply device 20 is formed as a sirocco fan, and the air supply duct 10 is passed through a plurality of coiled corrugated pipes (that is, coils) By configuring the heat exchanger 101) to be built-in, the temperature difference between the inside air (IA) and the outside air (OA) of the grower 30 is dramatically reduced to enable high-quality production and mass production of cultivated products, that is, mushrooms. there is

In addition, in the cultivation yarn air conditioning system 1 according to an embodiment of the present invention, the air supply duct 10 is formed of a coiled corrugated pipe 101, so that the specific surface area is widened, so that the residence time of the air is dramatically increased, so that the heat exchange efficiency is improved has an increasing effect.

In addition, in the planter air conditioning system 1 according to an embodiment of the present invention, a plurality of coil-type corrugated pipes 101 through which water passes in the air supply duct 10 are installed, and the existing excel pipe 41 for underfloor heating is used. ), and thus the hot water used for existing floor heating can be used as it is, which has the effect of reducing energy costs.

Although the present invention has been described in detail through specific examples, it is intended to describe the present invention in detail, and the present invention is not limited thereto, and by those of ordinary skill in the art within the technical spirit of the present invention It will be clear that the transformation or improvement is possible.

All simple modifications or changes of the present invention fall within the scope of the present invention, and the specific scope of protection of the present invention will be made clear by the appended claims.

1: Grower's air conditioning system
10: supply air duct
101: coil heat exchanger 101a: coil heat exchanger end
102: housing part 11: outdoor air duct
12: adjustment duct 121: transverse duct
122: vertical duct 13: connecting duct
20: air supply device 21: filter unit
30: grower
31: side wall 32: floor
33: ceiling 301: mushroom medium material
302: cultivar
40: floor heating and cooling unit 41: excel pipe
41a: Excel pipe end
OA: Outside air IA: Inside air
EA: heat exchanged air
X: Coil Heat Exchanger Axial G: Floor

Claims (8)

an air supply device for sucking the outside air of the grower into the inside of the grower; and
Comprising an air supply duct for moving the outside air sucked through the air supply device to the inside of the grower,
The air supply duct,
a coil heat exchanger in which a hollow tube is spirally twisted and a fluid flows in the tube; and
It is formed to accommodate the coil heat exchange part, and includes a housing part in which the external air flows,
The coil heat exchange unit,
The air conditioning system of a grower, characterized in that the fluid flowing therein is configured to exchange heat with external air flowing inside the housing part. According to claim 1, wherein the air supply duct,
The air conditioning system of a grower, characterized in that the coil heat exchanger is formed to be spirally twisted in the longitudinal direction of the housing part inside the housing part. The method of claim 2, wherein the coil heat exchanger comprises:
The air conditioning system of a grower, characterized in that it is disposed inside the housing so that a plurality of shafts are formed to be spirally twisted along the longitudinal direction of the housing. The method of claim 1,
In the cultivator, a cultivar bed on which the mushroom medium material is raised is disposed, the air supply device and the air supply duct are accommodated,
The air supply duct,
It is disposed on the side wall of the grower,
The air supply device,
A sirocco fan, the air conditioning system of a grower, characterized in that it is disposed in the air supply duct. According to claim 4, The air supply duct,
an outdoor air duct for sucking the outside air of the grower into the inside of the grower; and
and a control duct for receiving the outside air introduced into the outside air duct and adjusting the temperature of the outside air to the temperature of the inside air of the grower,
The coil heat exchange unit is disposed only in the adjustment duct,
The sirocco fan is an air conditioning system of a grower, characterized in that it is disposed in the outdoor air duct. 6. The method of claim 5,
The air conditioning system of the grower, which is formed in the outdoor air duct, and is formed upstream of the air supply device, further comprising a filter unit for removing foreign substances contained in external air outside the grower. According to claim 6, The air supply duct,
Further comprising a connecting duct for dispersing the flowing air,
The adjustment duct,
a plurality of transverse ducts crossing the transverse direction of the grower; and
It includes a plurality of vertical ducts crossing the vertical direction of the grower,
The connecting duct is
The air conditioning system of a grower, characterized in that it is formed to implement a connection between the horizontal ducts or a connection between the horizontal duct and the vertical duct. 8. The method of claim 7,
It is formed on the bottom of the grower and further comprises a floor heating and cooling unit for controlling the internal air of the grower,
The floor heating and cooling unit,
Doedoe formed to include an excel pipe (XL Pipe), the air conditioning system of a grower, characterized in that the excel pipe is configured to be connected to the coil heat exchanger.

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