KR20000002606A - Moisture and temperature control device by measuring wet bulb temperature - Google Patents

Abstract

PURPOSE: A moisture and temperature control device is provided to effectively control the moisture and the temperature, to economize energy and to reduce the producing cost in a greenhouse or a mushroom grower. CONSTITUTION: The moisture and temperature control device has:a thermocouple(10) for measuring the dry bulb temperature and a thermocouple(6) for measuring the wet bulb temperature installed inside of a moisture control object space(9) having a ventilating outlet(13); a water supplying container(7) for wetting a wick; a computer(2) connected with a wet bulb temperature measuring device(1) and a dry bulb temperature measuring device(3); a heating device(4) and a humidifying device(5) installed on a side of the moisture control object space(9); and an equal water surface keeping control device(12) for controlling the height of the water surface.

Description

Humidity and temperature control device by wet bulb temperature continuous measurement

The present invention relates to a humidity and temperature control device that can most appropriately control the humidity and temperature of a limited space where humidity control is required by continuously measuring the wet bulb temperature.

Humidity has a great influence on human life, including food and beverages, and directly or indirectly on the cultivation of agricultural products we always consume. In particular, in the cultivation of greenhouses, mushrooms, etc., which are cultivated in a limited space to create high added value, the cultivation environment such as humidity and temperature often affects the growth of agricultural products or the quality of agricultural products produced. In the case of mushrooms, humidity, along with temperature and light, is the physical factors that determine growth, and humidity is controlled as relative humidity according to temperature. Currently, in most cases, the control of temperature and humidity is based on experience. By means of the device, efficient control is not achieved, resulting in a decrease in productivity due to a waste of energy or an increase in facility costs due to redundant investment in facilities. Therefore, there is an urgent need for the development of a system capable of integrated management of humidity and temperature.

The present invention has been made to solve the above problems, the production of agricultural products produced by developing an integrated management system that can more efficiently control the humidity and temperature for a limited space, such as greenhouse or mushroom cultivation control of humidity and temperature is essential The goal is to improve quality evenly, save energy and reduce production costs to improve profitability or productivity.

In order to achieve the above object, a thermocouple for measuring dry bulb temperature and a thermocouple for measuring wet bulb temperature is installed inside a humidity control target space, and a water supply vessel for wicking is connected to a coil connected to one side of the humidity control target space, and the water supply container Immerse the wick attached to the tip of the thermocouple for measuring the wet bulb temperature in the water located inside, and connect the other part to the wet bulb temperature measuring device, the thermocouple for measuring the dry bulb temperature is connected to the dry bulb temperature measuring device and the wet bulb temperature Connect the measuring device and dry bulb temperature measuring device to the computer, connect the computer to the heating and humidification device installed at one side of the humidity control space, and adjust the water level of the wicking water supply container and the reserve storage container. It is to provide that the same surface maintenance control device is installed on one side of the humidity control target space.

1 is an overall configuration diagram of a humidity and temperature control device of the present invention

<Explanation of symbols for main parts of the drawings>

(1): Wet bulb temperature measuring device

(2): computer

(3): Dry bulb temperature measuring device

(4): heating device

(5) Humidifier

(6): Thermocouple for measuring wet bulb temperature.

(7): container

(8): coil

(9): humidity control target space

(10): Thermocouple for measuring dry bulb temperature

(11): spare storage container

(12): Equal sleep maintenance device

(13): ventilation outlet

14: wick

Referring to the configuration and operation of the present invention in detail based on the accompanying drawings as follows.

Figure 1 shows the overall configuration of the humidity and temperature control device of the present invention.

A thermocouple 10 for measuring dry bulb temperature and a thermocouple 6 for measuring wet bulb temperature are installed inside a humidity control target space 9 equipped with a ventilation outlet 13 at an upper portion thereof. A wick attached to the end of the wet bulb temperature measuring thermocouple 6 to the water located inside the wick wetting water supply container 7 mounted to the wick wetting water supply container 7 14) is immersed and connected to the wet bulb temperature measuring device (1), the thermocouple 10 for measuring the dry bulb temperature is connected to the dry bulb temperature measuring device (3) and the wet bulb temperature measuring device (1) and dry bulb temperature measuring device Connecting (3) to the computer (2), connecting the computer (2) to the heating device (4) and the humidifier (5) installed on one side of the humidity control target space (9), wicking water The same water level maintenance control device 12 which adjusts the water level of the supply container 7 and the reserve storage container 11 is controlled by humidity. The conditioned space air will been configured to be installed on one side (9).

In other words, after measuring the dry bulb temperature and the wet bulb temperature continuously and calculating the relative humidity, the temperature is controlled by operating the heating device 4 and the ventilation device controlled as a microprocessor based on the dry bulb temperature. On the basis of the calculated relative humidity value, the humidifier 5, which is controlled as a microprocessor, is operated to control the humidity in the limited space.

The operation of the present invention is as follows.

In the present invention, the temperature condition is controlled through the heating device 4 and the ventilation device for the limited space requiring the control of humidity and temperature, the relative humidity is determined by measuring the wet bulb temperature, and then the humidification device 5 is required. We have developed a system to obtain humidity conditions.

The device developed in the present invention is a thermocouple 10 for measuring the dry bulb temperature for measuring the temperature of the humidity control target space (9), a heating device (4) for the temperature control and a ventilation device, a thermocouple with a wick for measuring the wet bulb temperature , Humidification device (5) for humidity control, device for supplying water for evaporation of wet bulb temperature measuring device (1), recorder capable of recording and computerizing the measurement value of thermocouple and connected to it to process and control data continuously It consists of the computer 2 etc. which supply an output.

The thermocouple 10 for measuring the dry bulb temperature can be used as long as it can measure a range of 0-300 ℃ but the present invention used a resistance thermocouple of Pt-100Ω excellent in linearity and accuracy in such a low temperature region. . The thermocouple 6 for measuring the wet bulb temperature also used the same type as the thermocouple 10 for measuring the dry bulb temperature, but a wick 14 was attached to allow water to evaporate at the end thereof. The wick (14) attached to the thermocouple (6) for measuring the wet bulb temperature is contained in the wick wetting water supply container (7) supplied with water from the outside, and the water in the container is supplied through the water supply device and the supply pipe, The upper end of 7) has a sufficiently reduced cross-section so that the water evaporates only through the wick 14 attached to the thermocouple 6 for wet bulb temperature measurement. In addition, the container 7 should be made of a transparent material so that the inner surface of the water can be confirmed.

The main function of the water supply device is to keep the surface of the container 7 installed in the humidity control target space 9 at all times. That is, the device to supply only the amount of water evaporated from the wick (14) is a structure in which the sealed container and the open container are combined to apply the classical method, and the Shanghai East and fixed devices for the initial control of the water level Attached. By using the balance between the vacuum pressure in the sealed container and the atmospheric pressure acting on the surface of the open container, the surface of the container 7 can be maintained in the same state as the initial operation, and the size of the sealed container is changed according to the total amount of water evaporated according to the continuous operation time. You decide.

The water supply pipe is constructed in a spiral shape so that the heat is sufficiently transferred before the water is supplied to the evaporation vessel in the thermostat so that the temperature in the thermostat can be reached. As such, a water supply device and a spiral supply pipe that maintain a constant surface of water in the evaporation container and replenish evaporated water become an essential part of the wet bulb temperature measuring device 1 for humidity control.

The heating device 4 and the ventilation device may apply a general electric heating device 4 and an exhaust fan, and the humidifier 5 may use a heating type, an ultrasonic type, a spray type, or the like according to the characteristics of the application field.

The recorder for recording the electrical signals output from the thermocouples (3) and (1) for measuring dry and wet bulb temperature is a general-purpose continuous recorder that can be used with any type of resistance thermocouple connected directly. It is useful to have a connection device (eg RS-232C port) that can exchange information with (2). A computer can be used as long as it is a personal computer (PC) of 16bit or higher in the market, and the humidity calculation can be used by using dedicated software or by writing a simplified program. In addition, if a personal computer is equipped with an interface card for data acquisition and dedicated software, the recorder can be omitted and the electrical output signal of the thermocouple can be directly connected to the computer.

When commercialized as a practical device, a computer may be replaced as a microprocessor capable of controlling only the function of the device developed in the present invention.

An embodiment is described as follows.

One embodiment of an apparatus developed in the present invention will be described. Humidity and temperature control system by the wet bulb temperature continuous measurement developed in the present invention is the humidity and temperature for a limited space, such as a greenhouse used in the production of high value-added agricultural products, the humidity affects the growth, crops and product quality As a system that can be integrated and managed and controlled, this paper will briefly describe the embodiment of the present invention when applied to mushroom cultivation.

Mushrooms are rich in nutrients, have a unique taste and aroma, and are recognized as high-quality foods containing medicinal ingredients. They are produced and consumed worldwide. Although wild mushrooms still have the highest value in taste and aroma, their production does not meet consumption, and as an alternative, many kinds of mushrooms are artificially cultivated, and many advances have been made in cultivation techniques. Development of cultivation technologies such as selection and production of medium, control of growth environment, etc. are being made continuously. What is described in the embodiment of the present invention is a system that can simultaneously control the humidity and temperature occupying an important position in the growth conditions of mushrooms.

The temperature of mushrooms is slightly different between the mycelial growth temperature and the fruiting body formation temperature, and these temperature conditions are different depending on the type of mushroom. In general, the optimum growth temperature of hyphae is about 18-27 ℃ and the optimum temperature for fruiting body formation is 8-32 ℃, which is rather wide. In addition, moisture or humidity should be controlled as other conditions leading to growth. In general, the growth of mushrooms is made in humid conditions, and the control range of humidity shows various ranges depending on the type of mushroom, growth period, and growing method.

When cultivating with wood, the moisture of the wood itself is important, and when using the medium in a greenhouse-like environment, the moisture in the medium and the humidity in the greenhouse must be properly controlled. Since high relative humidity is required, there is a great need for moisture or humidity control. Therefore, the quality of mushrooms produced by a device or facility that can effectively control relative humidity according to temperature conditions can be improved and the yield can be increased.

In order to control the temperature of the mushroom cultivator (greenhouse) according to the type, growth time and state of the mushroom by the apparatus developed in the present invention, the temperature in the cultivator is measured using a thermocouple for measuring dry bulb temperature included in the apparatus of the present invention. Based on this, by operating the warm air heating and ventilation system, the temperature inside the grower can be adjusted to the required level, and the thermocouple for measuring the wet bulb temperature to control the moisture or relative humidity required according to the growth conditions of the mushroom under the controlled temperature. Relative humidity in the grower can be determined by measuring the wet bulb temperature and comparing it with the measured dry bulb temperature. Based on this value, the humidifier is operated to control the relative humidity in the growers and further control the water concentration in the medium. At this time, all the measurement and control, such as the operation of the heating device according to the dry bulb temperature measurement, the calculation of the relative humidity by comparing the measured dry bulb temperature and the wet bulb temperature, and the operation of the humidification device based on the calculated value, are performed by a computer or a microprocessor. If a dedicated microprocessor can be manufactured and mass-produced, the entire device can be manufactured at a more economical price.

As another embodiment

In the above-described embodiment, by utilizing the humidity and temperature control system (system) by the wet bulb temperature continuous measurement developed through the present invention to control the temperature, relative humidity and moisture concentration of the culture medium of mushroom growers to improve the quality and increase the yield Although it has been shown to be able to meet the growing needs of growers and the needs of consumers, it can be applied to the limited space where humidity and temperature control is required without any major changes or changes, and for the space with a certain degree of thermal insulation. Seems useful.

Therefore, the present invention continuously measures the dry bulb and wet bulb temperature in a limited space where temperature and humidity control is very important, such as a mushroom grower or a greenhouse for growing crops, and calculates relative humidity using a computer or a microprocessor. Based on these dry bulb temperature and relative humidity values, temperature and humidity can be controlled using a microprocessor-controlled heating and ventilation system and a humidifier.These control functions effectively control the growth environment of various agricultural products. It is an invention that can increase the added value of agricultural products cultivation and improve the income of growers by improving and increasing the output, and from the consumer's point of view, the supply of fresh and delicious agricultural products can be expected.

Claims (1)

A thermocouple 10 for measuring dry bulb temperature and a thermocouple 6 for measuring wet bulb temperature are installed inside a humidity control target space 9 equipped with a ventilation outlet 13 at an upper portion thereof. A wick attached to the end of the wet bulb temperature measuring thermocouple 6 to the water located inside the wick wetting water supply container 7 mounted to the wick wetting water supply container 7 14) is immersed and connected to the wet bulb temperature measuring device (1), the thermocouple 10 for measuring the dry bulb temperature is connected to the dry bulb temperature measuring device (3) and the wet bulb temperature measuring device (1) and dry bulb temperature measuring device (3) to the computer (2), to connect the computer (2) to the heating device (4) and the humidifier (5) installed on one side of the humidity control target space (9), wicking water The same water level maintenance control device 12 which adjusts the water level of the supply container 7 and the reserve storage container 11 is used as a humidity agent. Humidity and temperature control according to the wet-bulb temperature is continuously measured, it characterized in that the configuration been that it is installed at one side the conditioned space (9).