KR20200132427A - Gamaroom Air Conditioning Device - Google Patents

Abstract

The present invention relates to an air conditioning device for a cauldron room. More specifically, the present invention relates to the air conditioning device for a cauldron room, preventing condensation or moisture even if the condensation or the moisture is generated by a temperature difference with the outside, wherein cooking appliances cooking soup or stew are arranged in the cauldron room which is installed on a front side of a restaurant.

Description

Gamaroom Air Conditioning Device

The present invention relates to a kiln room air conditioner, and more particularly, in a kiln room in which a cookware for cooking soup or hot water is disposed and installed in front of a restaurant, condensation or moisture can be prevented even if it occurs due to a temperature difference with the outside. It relates to a kiln room air conditioning system.

In the case of restaurants that provide soup or hot water, such as sundaeguk, galbitang, and seolleongtang, a cooking device such as a cauldron is required, and a separate kiln room is installed and used according to the space constraints of the kitchen. The kiln room is a cooking space for soup or hot water and is installed on the front side, and at least one side is formed of a transparent window so that the inside can be seen from the outside, and thus acts as an interior element.

However, since the conventional kiln room is installed on the front surface where the outside air directly comes into contact, and the transparent window is formed of glass, there is a problem that condensation occurs in the transparent window or moisture is filled when the temperature difference with the outside is large. There was a problem of condensation and mold formation or water accumulation.

In particular, in the case of the kiln room, there is a problem that condensation is more likely to occur in the transparent window because the internal temperature is higher than that of a general indoor space due to heat and water vapor caused by cooking utensils such as a cauldron.

As conceived to solve the above problems, an object of the present invention is to prevent condensation or moisture even if it occurs due to a temperature difference from the outside in a kiln room in which a cookware for cooking soup or hot water is disposed and installed in front of a restaurant. It is to provide a kiln room that can be used.

In order to achieve the above object, the kiln room air conditioning apparatus according to the present invention includes a kiln room having a transparent window formed on at least one surface; A sensor unit for sensing environmental information such as temperature and humidity inside and outside the kiln room; An air conditioning unit including an air supply module for supplying air of a specific temperature therein and an exhaust module for discharging the air inside; It is characterized in that it is possible to prevent condensation from occurring in the transparent window by including a controller unit that controls the operation of the air conditioning unit according to the temperature and humidity inside and outside the kiln room sensed by the sensor unit.

The sensor unit includes a temperature sensor formed on the inside of the kiln room and on the inside surface of the transparent window, respectively, to sense temperatures of the inside of the kiln room and on the transparent window surface; It characterized in that it comprises a humidity sensor for sensing the humidity inside the kiln room.

The air supply module includes a cold and hot fan that generates air of a specific temperature set according to control to the controller unit and provides power for supplying it to the interior of the kiln room, and controls the speed of air through output control. ; And a supply pipe through which the air of a specific temperature to be supplied moves and is supplied to the inside of the kiln room; The air supply pipe serves as an air passage for supplying the air flow provided from the hot and cold air to the inside of the kiln room, and a diffuser is formed at the end of the air supply pipe, and the diffuser is installed on the ceiling of the kiln room. Providing air at a specific temperature and velocity; The exhaust module is characterized in that it comprises an exhaust motor providing power for discharging the air inside the kiln room to the outside, and an exhaust pipe that is an air passage for discharging the air inside the kiln room to the outside.

The controller unit includes an environmental information management module for receiving and managing environmental information inside and outside the kiln room sensed from the sensor unit; And an air conditioning unit control module for controlling an operation of the air conditioning unit according to environmental information inside and outside the kiln room collected by the environmental information management module; The environmental information management module receives and manages the environmental information detected by the sensor unit through a wired or wireless connection to the sensor unit, and integrally manages the presence or absence of an abnormality in the sensor unit through the connection state of the sensor unit. In charge; The air conditioning unit control module determines turn-on, turn-off of the air-conditioning unit, and temperature and speed of air to be provided inside the air-conditioning unit based on environmental information inside and outside the kiln room collected through the environmental information management module It is characterized in that it plays a role of controlling the operation.

The air conditioning unit control module stores operating conditions (indoor temperature, relative humidity, surface temperature) according to the dew point calculation table, and stores environmental information (measured indoor temperature, relative humidity, surface temperature) collected from the environmental information management module. When the operation condition information is compared with the operation condition information, the air conditioning unit is turned on and controlled to operate; Control the operation of the air supply module and the exhaust module according to whether the measured environmental information corresponds to the set operating conditions and appropriate environmental conditions (appropriate indoor temperature, appropriate relative humidity) to prevent condensation while satisfying the appropriate environmental conditions. It is characterized by controlling.

The kiln room air conditioner according to the present invention can prevent condensation from occurring on the transparent window by adjusting the temperature and humidity inside the kiln room by inflowing air of a specific temperature, circulating the air, and venting through discharge. An excellent effect of being able to be controlled to maintain environmental conditions occurs.

In addition, even though the kiln room has a structure that is liable to generate condensation in a high temperature and high humidity environment due to heat and water vapor generated from the cooking utensils in the kiln room, it has an excellent effect of preventing condensation through air conditioning control.

1 schematically shows the structure of a kiln room air conditioning apparatus according to a preferred embodiment of the present invention,
2 is a system configuration diagram of the kiln room of FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 schematically shows the structure of a kiln room air conditioning apparatus according to a preferred embodiment of the present invention, and FIG. 2 is a system configuration diagram of the kiln room of FIG. 1.

1 and 2, in the kiln room air conditioning apparatus according to the present invention, in a kiln room having a transparent window formed on at least one surface, a sensor unit for sensing environmental information such as temperature and humidity inside and outside the kiln room ( 10) and an air conditioning unit 20 including an air supply module 210 for supplying air of a specific temperature to the inside and an exhaust module 220 for discharging the air inside and outside the kiln room sensed by the sensor unit. It may be configured to include a controller unit 30 for controlling the operation of the air conditioning unit according to the temperature and humidity.

The transparent window may be formed of a partial window or a front window, and may be formed of glass or tempered glass.

The sensor unit 10 is formed on the inside of the kiln room and on the inside surface of the transparent window, respectively, a temperature sensor 110 that senses the temperature of the inside of the kiln room and the transparent window surface, and a humidity sensor 120 that senses the humidity inside the kiln room. ) And may be configured to further include a wind direction sensor 130 for checking the wind direction inside the kiln room.

In addition, it may be configured to further include a motion detection sensor that detects when a person enters the inside of the kiln room.

The air supply module 210 serves to supply air of a specific temperature into the kiln room.

The air supply module 210 includes a hot and cold air fan 211 that generates air of a specific temperature and supplies it to the inside of the kiln room, and a supply pipe 212 that is supplied to the inside of the kiln by moving the air of a specific temperature to be supplied. Can be configured.

Here, the hot and cold air fan 211 may be configured to include an air supply motor that provides power to supply the generated air of a specific temperature to the room.

The hot and cold fan 211 generates air of a specific temperature set according to control to the controller unit, provides power for supplying it to the interior of the kiln room, and controls the speed of air through output control.

The supply pipe 212 serves as an air passage for supplying the air flow provided from the hot and cold air to the inside of the kiln, and a diffuser is formed at the end of the air supply pipe, and the diffuser is installed on the ceiling of the kiln. Supply air at a specific temperature and speed into the room.

The exhaust module 220 includes an exhaust motor 221 that provides power for discharging the air inside the kiln room to the outside, and an exhaust pipe 222 that is an air passage for discharging the air inside the kiln room to the outside. Can be configured.

Through the air conditioning unit 20 including the air supply module 210 and the exhaust module 220, air of a specific temperature and speed can be circulated and ventilated, through which condensation or moisture is generated inside the kiln room. Can be prevented.

The controller unit 30 serves to control the operation of the air conditioning unit 20 according to the environmental information of the kiln room sensed through the sensor unit 10.

The controller unit 30 receives and manages environmental information inside and outside the kiln room sensed from the sensor unit 10, and the environmental information inside and outside the kiln room collected by the environmental information management module According to, it may be configured to include an air conditioning unit control module 320 for controlling the operation of the air conditioning unit.

Here, the environmental information means atmospheric information such as temperature, humidity, and wind direction inside and outside the kiln room, and may be further defined to include motion detection information on whether a person is present in the kiln room.

The environmental information management module 310 receives and manages the environmental information sensed by the sensor unit through a wired or wireless connection with the sensor unit 10, and checks the presence or absence of an abnormality in the sensor unit through the connection state of the sensor unit. It is in charge of integrated management.

And the air conditioning unit control module 320 is provided to the inside of the kiln room, turn-on, turn-off of the air supply module 210 and the exhaust module 220 based on environmental information collected through the environmental information management module inside and outside the kiln room. It is responsible for controlling the operation of the air conditioning unit by determining the temperature and speed of the air to be used.

The air conditioning unit control module 320 determines the operation of the air supply module 210 and the exhaust module 220 based on environmental information inside and outside the kiln room, and basically, the environmental information inside and outside the kiln room satisfies a set operating condition range. In this case, the air supply module 210 and the exhaust module 220 are turned on or off to control.

<Table 1> below is a table for calculating the dew point at which condensation occurs.

Referring to Table 1 above, it can be seen that when the temperature and humidity inside the kiln room are high, condensation occurs even if the surface temperature of the transparent window is high. In the case of the kiln room, since the temperature and humidity are higher than the general indoor space due to the heat and water vapor generated when cooking the cauldron, there is a problem that condensation is easily generated, so an air conditioning facility to prevent condensation and moisture is essential.

The air conditioning unit control module 320 stores operating condition information according to the dew point calculation table of Table 1, and compares the environmental information collected from the environmental information management module 310 with the operating condition information to correspond to the operating condition information. When the air conditioning unit is turned on and controlled to operate.

Here, the operating condition information is information generated in consideration of a margin in the dew point calculation table, and may include information set to a temperature higher than a surface temperature of condensation occurrence on the dew point calculation table.

For example, when the room temperature is 30°C and the relative humidity is 70%, condensation occurs when the surface temperature is 23.3°C according to the dew point calculation table, but the condensation generation condition is 23.3°walk in consideration of the margin to prevent condensation in advance. It is possible to set a high 24 degrees as the operating condition. Accordingly, when the indoor temperature is 30 degrees and the relative humidity is 70%, and the surface temperature of the transparent window reaches 24 degrees due to the internal and external temperature difference, the operation condition information is satisfied and the air supply unit and the air supply unit The exhaust module is operated.

Here, the air conditioning unit control module 320 operates the air conditioning unit when the operation condition information is satisfied, and controls the operation to increase the surface temperature of the operation condition information to prevent condensation.

For example, if the room temperature is 30 degrees and the relative humidity is 70% and the surface temperature of the transparent window is 24 degrees, the operating conditions are satisfied, and the relative humidity is lowered while maintaining the temperature through the input and discharge of air at a specific temperature ( For example, by circulating and discharging air at 30 degrees to reduce humidity), by controlling both temperature and relative humidity (for example, by circulating and discharging air at a temperature lower than 30 degrees to lower the temperature and humidity, condensation occurs) Can be prevented.

Here, the control of the air supply module 210 and the exhaust module 220 may be adjusted based on a set appropriate environmental condition. The appropriate environmental conditions may be set differently for each season. For example, when the appropriate environmental information is set to an indoor temperature of 25 degrees and a relative humidity of 60%, and the sensed indoor temperature is 30 degrees and the humidity is 70%, the indoor temperature The air supply unit and the exhaust module must be operated to lower both the and relative humidity, and the cold and hot air fan of the air supply unit generates air with a temperature higher than 30 degrees and supplies the generated air to the interior of the kiln room, and the exhaust module is exhausted. The motor is driven to discharge the air inside the kiln room to the outside to circulate the air.

Accordingly, the air in the kiln room is circulated and discharged so that the temperature decreases and the relative humidity decreases, and by adjusting the strength of the air supply motor, the temperature decrease and the rate of decrease of the relative humidity may be adjusted.

In addition, even if the air temperature is the same as the room temperature, if the air speed is high, only the relative humidity can be lowered while maintaining the temperature due to the ventilation effect, so that condensation can be prevented in advance even if there is no change in the surface temperature.

In addition, even if only the exhaust motor of the exhaust module is operated while the air supply module is stopped, it is possible to prevent condensation from occurring even at the same surface temperature by lowering the humidity by the ventilation effect.

Table 2 below schematically shows the operation control of the air supply module and the exhaust module in consideration of operating conditions and appropriate environmental conditions according to a preferred embodiment of the present invention.

Referring to Table 2, the air conditioning unit control module may control the operation of the air supply module and the exhaust module according to whether the measured environmental information corresponds to a set operating condition and an appropriate environmental condition.

First, when the measured environmental information is outside the set operating conditions, condensation cannot occur, so the cold/hot air of the air supply module and the exhaust motor of the exhaust module are kept in the OFF state.

However, when appropriate environmental control (for example, indoor temperature 25 degrees and humidity 40-60%) is set, and the measured environmental information does not satisfy the appropriate environmental conditions, the air conditioning unit control module controls the hot and cold air and the exhaust motor. It can be operated and controlled to satisfy appropriate environmental conditions. The air conditioning control for meeting the appropriate environmental conditions is the same as the control when the conditions are within the range of the operating conditions and out of the range of the appropriate environmental conditions, and thus will be described later.

In addition, if the measured environmental information satisfies the operating condition range and satisfies the appropriate environmental conditions at the same time, since it is necessary to lower the surface temperature of the transparent window, condensation can be prevented by lowering the humidity. If the humidity is lowered by circulating and discharging the internal air by operating the exhaust motor while generating air of the same temperature as and supplying it to the kiln room, condensation occurs only when the surface temperature is lowered, so that condensation can be prevented.

In addition, when the measured environmental information satisfies the operating condition range but out of the appropriate environmental condition range, it is possible to control to satisfy the appropriate environmental condition with the effect of preventing condensation from occurring.

More specifically, if the operating condition range is satisfied but out of the appropriate environmental condition range, the temperature is satisfied but the humidity is out of the range, the humidity is satisfied but the temperature is out of the range, or both the temperature and humidity are out of the range. The air supply unit and the exhaust module can be controlled by subdividing them according to the requirements.

Referring to <Table 2>, when the humidity is satisfied but the temperature is high, air with a temperature lower than the indoor temperature is generated and supplied to the inside of the kiln room, and the exhaust motor can be controlled to lower the indoor temperature by maintaining the OFF state. However, since the surface temperature can also reach the dew point temperature in the process of lowering only the temperature, in this case, the exhaust motor can be turned on to temporarily lower the humidity to prevent condensation from occurring.

On the contrary, when the temperature is low, air with a temperature higher than the indoor temperature is generated and supplied to the inside of the kiln room, and the exhaust motor is maintained in an OFF state, thereby controlling to increase the indoor temperature only. However, since the surface temperature can also reach the dew point temperature in the process of increasing only the temperature, in this case, it can be controlled to prevent condensation by temporarily lowering the humidity by turning on the exhaust motor.

In addition, when the temperature is satisfactory but the humidity is high, the cold and hot air blower is maintained in an OFF state, and only the exhaust motor is operated to lower the humidity and prevent condensation from occurring.

For reference, in the case of the cauldron, heat and water vapor are continuously generated by the cauldron, so it is difficult to generate when the humidity is low, so there is no need to consider the control when the humidity is low. However, when the humidity is low, the air velocity of high or low temperature is increased, provided to the kiln room, and circulated to temporarily lower or increase the surface temperature to prevent condensation from occurring.

Next, if both the temperature and humidity are out of the range of appropriate environmental conditions, the case where both the temperature and humidity are high, the temperature is high and the humidity is low, both the temperature and humidity are low, and the temperature is low and the humidity is high. It is possible to control the air supply unit and the exhaust module.

More specifically, when the temperature is high in both humidity, a cold and hot air blower creates air with a temperature lower than the indoor temperature and supplies it to the inside of the kiln room to reduce the indoor temperature, and operates the exhaust motor to discharge the internal air to the outside and ventilate it. Condensation can be prevented while controlling to lower the humidity.

In addition, when the temperature is high but the humidity is low, the cold and hot air blower generates air with a temperature lower than the indoor temperature and supplies it to the inside of the kiln room, and the exhaust motor is kept in an OFF state to reduce the indoor temperature and prevent condensation from occurring.

In addition, when both the temperature and humidity are low, the cold and hot air blower generates air of a higher temperature than the indoor temperature and supplies it to the inside of the kiln room, and the exhaust motor maintains the OFF state to increase the indoor temperature and prevent condensation from occurring.

Finally, when the temperature is low but the humidity is high, the hot and cold air blower generates air with a temperature higher than the indoor temperature and supplies it to the inside of the kiln room, and the exhaust motor is also operated to increase the indoor temperature and lower the humidity to prevent condensation.

As described above, the kiln room air conditioner according to the present invention prevents condensation from occurring on the transparent window by adjusting the temperature and humidity inside the kiln room by introducing air at a specific temperature to circulate the air and ventilate it through discharge. And, at the same time, it can be controlled to maintain appropriate environmental conditions.

In the detailed description of the present invention described above, it has been described with reference to a preferred embodiment of the present invention, but the protection scope of the present invention is not limited to the above embodiments, and those of ordinary skill in the art It will be appreciated that various modifications and changes can be made to the present invention without departing from the spirit and technical scope.

10 sensor unit 20 air conditioning unit
30: controller unit

Claims (5)

In the kiln room having a transparent window formed on at least one surface;
A sensor unit for sensing environmental information such as temperature and humidity inside and outside the kiln room;
An air conditioning unit including an air supply module supplying air of a specific temperature to the inside and an exhaust module discharging the air inside;
A kiln room air conditioning apparatus capable of preventing condensation from occurring on the transparent window, including a controller unit that controls the operation of the air conditioning unit according to the temperature and humidity inside and outside the kiln room sensed by the sensor unit.
The method of claim 1,
The sensor unit
A temperature sensor formed on the inside of the kiln room and on the inside surface of the transparent window, respectively, to sense temperatures of the inside of the kiln room and on the transparent window surface;
A kiln room air conditioning apparatus comprising a humidity sensor for sensing humidity inside the kiln room.
The method of claim 1,
The air supply module is
The hot and cold fan generates air of a specific temperature set according to control to the controller unit, provides power for supplying it to the interior of the kiln room, and controls the speed of the air through output control;
And a supply pipe through which the air of a specific temperature to be supplied is moved and supplied into the kiln room;
The air supply pipe serves as an air passage for supplying the air flow provided from the hot and cold air to the inside of the kiln room, and a diffuser is formed at the end of the air supply pipe, and the diffuser is installed on the ceiling of the kiln room. Providing air at a specific temperature and velocity;
The exhaust module is
A kiln room air conditioner comprising an exhaust motor providing power to discharge air inside the kiln room to the outside and an exhaust pipe serving as an air passage for discharging the air inside the kiln room to the outside.
The method of claim 1,
The controller unit
An environmental information management module for receiving and managing environmental information inside and outside the kiln room sensed from the sensor unit;
And an air conditioning unit control module for controlling an operation of the air conditioning unit according to environmental information inside and outside the kiln room collected by the environmental information management module;
The environmental information management module
Receiving and managing environmental information detected by the sensor unit through a wired or wireless connection with the sensor unit, and managing the presence or absence of an abnormality in the sensor unit through a connection state of the sensor unit;
The air conditioning unit control module
The role of controlling the operation of the air conditioning unit by determining the turn-on, turn-off of the air conditioning unit, and the temperature and speed of air to be provided inside the kiln room based on the environmental information inside and outside the kiln room collected through the environmental information management module. The kiln room air conditioner, characterized in that in charge of.
The method of claim 4,
The air conditioning unit control module
The operating conditions (indoor temperature, relative humidity, surface temperature) according to the dew point calculation table are stored, and environmental information (measured indoor temperature, relative humidity, surface temperature) collected from the environmental information management module is compared with the operating condition information. When the operation condition information is satisfied, the air conditioning unit is turned on and controlled to operate;
Control the operation of the air supply module and the exhaust module according to whether the measured environmental information corresponds to the set operating conditions and appropriate environmental conditions (appropriate indoor temperature, appropriate relative humidity) to prevent condensation while satisfying the appropriate environmental conditions. The kiln room air conditioner, characterized in that to control.

Images