KR200196084Y1 - Controlling system of temperature for mushroom caltivation house - Google Patents

Abstract

The present invention relates to a temperature control device for mushroom cultivation to maintain the indoor temperature of the cultivation building below 15 ℃ to ensure that the mushrooms satisfy the conditions sufficient for growth,

The temperature control device 20 includes a conventional cooling unit 21 for cooling the ground water to be sprayed; A storage tank 22 for temporarily storing the ground water cooled by the cooling unit 21; A circulation pump (23) installed between the cooling unit (21) and the storage tank (22) to supply the cooling unit (21) so that it can be recooled when the temperature rises without using groundwater in the storage tank (22); An injection pump 24 for spraying the groundwater stored at a low temperature in the storage tank 22 to the inner cavity 11 of the mushroom cultivation 10; A recovery tank 25 for recovering the groundwater sprayed on the inner cavity 11; A return pump 26 for supplying the ground water of the recovery tank 25 to the cooling unit 21 to recool it; An injection pipe 30 connected to an end portion of a pipe 27 connecting upper portions of the injection pump 24 and the inner cavity 11 to inject ground water; It is characterized in that it comprises a recovery table 40 for collecting the ground water flowing down installed on both sides of the inner cavity 11 to the recovery tank 25.

Description

Controlling system of temperature for mushroom caltivation house

The present invention relates to a temperature control device for mushroom cultivation, and more particularly, to the provision of a temperature control device capable of temperature control to meet the listing conditions to be grown in the winter mushrooms grown in the summer.

Since mushrooms grow best at a temperature of about 13 to 15 ° C, they are easy to cultivate in winter, and farmers are cultivating mushrooms in winter for the purpose of increasing income by using cold season.

However, since most farms grow mushrooms in the winter with good growth conditions, there is a disadvantage in that the price is low at the time of shipping and the profitability is low. Therefore, the number of farmers growing mushrooms in the summer is increasing.

In order to exclude the mushrooms growing in the winter as described above, the first temperature of the growth conditions should be provided with a temperature control device for lowering the temperature below 15 ℃, a level similar to winter.

In order to control the temperature as described above, after having a cultivation structure composed of double inner and outer dongs, the outer dong is covered with a sunshade to block sunlight, and the outside of the inner dong is sprayed with groundwater to flow the outer surface of the inner dong. have.

As described above, when the temperature is adjusted using only groundwater without the need for a separate cooling means, it is difficult to maintain the internal temperature of the cultivation plant below 21 ° C, and thus, the state of mushrooms growing in the cultivation plant is not good. .

That is, although the temperature of the groundwater is maintained at 16 to 17 ° C., when it is exposed to the ground, it is difficult to maintain the temperature of the cultivation plant at a level similar to that of the winter season when the temperature rises rapidly in contact with the external heat.

Although the groundwater temperature used to control the temperature of cultivation is low, considering that the external temperature of summer is 30-35 ℃, the temperature of the sprayed groundwater is converted to a temperature of 20 ℃ or more during heat exchange with external heat. Since it is injected and flowed down, it is impossible to maintain the internal temperature of the cultivated copper below 15 ° C.

Therefore, the present invention is designed to solve the problems as described above, by maintaining the temperature of the ground water to a low temperature state using a separate cooling means and then sprayed by supplying the mushroom ash back to maintain the room temperature of the cultivation of less than 15 ℃ The purpose of the present invention is to provide mushroom mushrooms with easy growing conditions and to contribute to the income of farmers.

Figure 1 is a block diagram showing a temperature control device of the present invention mushroom re-drawing.

Figure 2 is a cross-sectional view of the mushroom rearing taken along the line AA of Figure 1;

Figure 3 is a perspective view of the ground water injection pipe B portion of Figure 2;

Figure 4 is a cross-sectional view of the excavated groundwater recovery section C portion of FIG.

5 is a cross-sectional configuration of the groundwater injection pipe of FIG.

* Description of the symbols used in the main parts of the drawings *

10; Mushroom Cultivator

11; Internal sinus

12; Outer wing

20; Thermostat

21; Cooling Unit

22; Storage tank

23; Circulation pump

24; Injection pump

25; Recovery Tank

26; Return pump

30; Injection pipe

49; Recovery

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the present invention for achieving the above object.

Figure 1 is a block diagram showing the temperature control device of the mushroom reinvented according to the present invention, Figure 2 is a cross-sectional view of the mushroom retake taken along the line A-A of Figure 1, Figure 3 is a groundwater spray pipe B of Figure 2 4 is a cross-sectional configuration diagram taken from the groundwater recovery table, part C of FIG. 2, and FIG. 5 is a cross-sectional configuration diagram taken from the groundwater injection pipe of FIG. 3.

Normal mushroom cultivator (舍; 10) is a plastic house is composed of a double inner and the inner dong 11 and the outer dong 12, the outer dong 12 is provided with a sunshade to block sunlight and the inner dong 11 Base plate 13 for growing mushrooms is a configuration that is installed in multiple stages.

In the present invention, by spraying the ground water from the outer upper portion of the inner dong 11 of the mushroom cultivator 10 flows down the temperature control device 20 that can maintain the temperature suitable for the mushrooms to grow the temperature of the inner dong 11 It is characterized by providing).

The temperature control device 20;

A general cooling unit 21 for cooling the ground water to be injected and a storage tank 22 for temporarily storing the ground water cooled by the cooling unit 21, the cooling unit 21 and the storage tank 22 Since the ground water in the storage tank 22 is not used between the phases, a circulation pump 23 for recooling the temperature is further installed.

An injection pump 24 is provided for supplying the ground water stored at a low temperature in the storage tank 22 to the inner cavity 11 of the mushroom cultivator 10, and the ground water sprayed into the inner cavity 11 flows down. A recovery tank 25 for recovery and a return pump 26 for supplying ground water on the recovery tank 25 to the cooling unit 21 for recooling are provided.

Between the cooling unit 21 and the storage tank 22, the circulation pump 23, the injection pump 24, the recovery tank 25 and the return pump 26 is connected to the pipe 27 for the flow of groundwater. .

Check valves 28 and 29 are provided in the pipe 27 between the circulation pump 23 and the cooling unit 21 and the pipe 27 between the return pump 27 and the cooling unit 21 to prevent backflow. And prevent simultaneous operation.

An injection pipe 30 for injecting ground water is connected to an end portion of the pipe 27 connecting the upper portion of the injection pump 24 and the inner cavity 11, and is sprayed on both lower sides of the inner cavity 11. A recovery table 40 for collecting the flowing ground water to the recovery tank 25 is further installed.

The injection pipe 30 is installed in a direction perpendicular to the main pipe 31 and the main pipe 31 are configured in multiple stages by reducing the diameter toward the front to prevent the injection amount of ground water due to the pressure difference is changed. It consists of a plurality of auxiliary pipes (32, 33).

The auxiliary pipes (32, 33) has a diameter smaller than the diameter of the main pipe 31 and is provided with a spray nozzle 35 at its end, the ground water is diffused and sprayed to cover the outside of the inner cavity (11) Allow the surface of (36) to flow down.

The recovery table 40 is installed to be inclined toward the recovery tank 25 in the lower portion of the space formed between the inner cavity 11 and the outer cavity 12.

The recovery table 40 is configured by fixing a water collecting pipe 41 having a roughly X-shaped cross section on the support frame 42 of the inner cavity 11 and the outer cavity 12.

In the collecting pipe 41 which is in contact with the inner cavity 11, the vinyl 36 covering the inner cavity 11 is positioned inside the collecting tube 41 so that the groundwater flowing down can be easily collected. .

An oxygen supply pipe 50 having a supply fan and an exhaust fan for supplying and discharging oxygen necessary for mushroom growth to the inner cavity 11 above the inner cavity 11 and the outer cavity 12 in which the injection pipe 30 is located. ), And the cooling unit 21, the circulation pump 23, the injection pump 24, the recovery tank 25, the return pump 26 and the check valve (28, 29) to the controller provided separately It is configured to be controlled by.

Looking at the working relationship of the present invention as described above;

By operating the temperature control device 20, the ground water is supplied to the cooling unit 21 and cooled to about 5 ° C. or less, which is a temperature at which the water does not freeze and is then supplied to the storage tank 22.

The low temperature groundwater supplied to the storage tank 22 is injected through the pipe 27 by the injection pump 24, and the injection pipe installed between the inner dong 11 and the outer dong 12 of the mushroom cultivator 10 ( 30 is supplied to the injection through the auxiliary pipes (32, 33) provided in the main pipe (31) constituting the injection pipe (30).

The ground water sprayed as described above forms a water film while flowing along the surface of the vinyl 36 of the inner cavity 11 to have a temperature of 13 to 15 ° C. suitable for mushrooms to grow. To be maintained.

This is because the temperature of the ground water stored in the storage tank 22 is kept at a low temperature by the cooling unit 21 and supplied, so that even if the external temperature is 30 ° C. or higher, the ground water to be sprayed suddenly becomes 15 ° C. or higher. Because it does not rise.

In particular, it is possible because the groundwater in a low temperature state is continuously supplied to flow to the surface of the vinyl 36 of the inner cavity 11 to continue to form a water film.

In the process of maintaining the water film phenomenon by supplying groundwater as described above, if there is a temperature change such as the temperature of the inner cavity 11 becomes too low, the detection value of the temperature sensor provided in the inner cavity 11 is controlled. It can be applied to the groundwater to cut off or reduce the amount of groundwater to maintain the most appropriate temperature.

The groundwater that is injected into the inner cavity 11 and flows down while forming a water film is collected by the collecting pipe 41 of the recovery table 40 installed below the side surface of the inner cavity 11 and collected by the recovery tank 25.

Since the groundwater collected in the recovery tank 25 is in a state where the temperature is raised by heat exchange with the external heat, the ground water is supplied to the cooling unit 21 again by the return pump 26 and cooled to a low temperature so that the storage tank 22 It continues the circulation to be supplied.

When the temperature of the internal cavity 11 does not increase any more and it is not necessary to spray groundwater, the supply of groundwater is stopped, and when the groundwater temperature in the storage tank 22 rises, it is stored by the circulation pump 23. The ground water in the tank 22 is supplied to the cooling unit 21 to perform the operation of recooling.

By repeating the above operation to form a water film on the surface of the inner cavity (11) of the mushroom cultivator (11) will be able to maintain (adjust) the temperature of the inner cavity (11) to a temperature suitable for mushroom growth.

When the return pump 26 operates to supply the groundwater of the recovery tank 25 to the cooling unit 21 or when the groundwater of the storage tank 22 is supplied to the cooling unit 21 by the circulation pump 23. Each check belt 28 and 29 provided in the pipe 27 between the pump 23 and the cooling unit 21 and the pipe 27 between the return pump 27 and the cooling unit 21 is controlled by a controller. Naturally, it is ON / OFF to prevent backflow phenomenon.

In addition, while the groundwater is sprayed on the surface of the inner cavity 11, external air is supplied to the inner cavity 11 through the oxygen supply pipe 50 installed together with the injection pipe 30 to sufficiently supply oxygen necessary for the mushroom to grow. Supply and discharge.

The present invention as described above maintains the temperature of the groundwater to a low temperature state using a separate cooling means and then supplied to the mushroom re-distribution to be sprayed by maintaining the indoor temperature of the cultivation dong below 20 ℃ to maintain the conditions sufficient for the mushroom to grow Satisfaction can provide the convenience of mushroom cultivation and contribute to the income increase of farmers.

Claims (4)

As a plastic house, it is composed of an inner dong (11) and an outer dong (12), the outer dong 12 is provided with a sunshade to block sunlight and the inner dong (11) has a base plate 13 for growing mushrooms In configuring the temperature control device 20 for controlling the temperature of the inner cavity 11 of the mushroom cultivation company (舍; 10) installed in multiple stages; The temperature control device 20 includes a conventional cooling unit 21 for cooling the ground water to be sprayed; A storage tank 22 for temporarily storing the ground water cooled by the cooling unit 21; A circulation pump (23) installed between the cooling unit (21) and the storage tank (22) to supply the cooling unit (21) so that it can be recooled when the temperature rises without using groundwater in the storage tank (22); An injection pump 24 for spraying the groundwater stored at a low temperature in the storage tank 22 to the inner cavity 11 of the mushroom cultivation 10; A recovery tank 25 for recovering the groundwater sprayed on the inner cavity 11; A return pump 26 for supplying the ground water of the recovery tank 25 to the cooling unit 21 to recool it; A pipe 27 connected between the cooling unit 21 and the storage tank 22, the circulation pump 23, the injection pump 24, the recovery tank 25, and the return pump 26 to flow groundwater; A check belt 28 provided in the pipe 27 between the circulation pump 23 and the cooling unit 21 and the pipe 27 between the return pump 27 and the cooling unit 21 to prevent backflow and simultaneous operation. , 29); An injection pipe 30 connected to an end of a pipe 27 connecting upper portions of the injection pump 24 and the inner cavity 11 to inject ground water; Mushroom cultivation temperature control device characterized in that it comprises a recovery table 40 for collecting the ground water flowing down installed on both sides of the inner cavity 11 to the recovery tank (25). The method of claim 1; The injection pipe 30 has a main pipe 31 composed of multiple stages by reducing the diameter toward the front; It consists of a plurality of auxiliary pipes (32, 33) installed in a direction perpendicular to the main pipe (31); At the end of the auxiliary pipe (32, 33) mushroom cultivation temperature control device comprising a spray nozzle (35) for diffusing and spraying groundwater. The method of claim 1; The recovery table 40 is installed inclined in the direction of the recovery tank (25) on the holding frame (42) of the inner cavity (11) and the outer cylinder (12) having a water-shaped cross section; The temperature control device for mushroom cultivation, characterized in that the collection pipe 41 in contact with the inner cavity 11 is installed so that the vinyl 36 covering the inner cavity 11 is located inside the collection tube 41. . The method of claim 1; An oxygen supply pipe 50 having a supply fan and an exhaust fan for supplying and discharging oxygen necessary for mushroom growth to the inner cavity 11 above the inner cavity 11 and the outer cavity 12 in which the injection pipe 30 is located. Mushroom cultivation temperature control apparatus characterized in that it further comprises a).