KR20200068978A - System for Providing insect breeding temperature and ventilation control - Google Patents

Abstract

The present invention relates to an insectarium temperature and ventilation control system. More specifically, the present invention relates to an empty house-utilizing insectarium temperature and ventilation control system for urban agriculture, wherein a heating system of an empty house or a residential building is utilized, and a ventilation system of an existing building structure is utilized so that initial investment costs can be innovatively reduced. The insectarium temperature and ventilation control system of the present invention utilizes an empty house or an existing residential building and comprises an independent hot air blower control device and an independent ventilation fan control device. The system comprises an insect-rear control unit (IRCU) which performs the operations of: when a control mode is set, controlling each device in a centralized control manner by interworking with the independent ventilation fan control device and the independent hot air blower control device which are used in an insectarium; when a ventilation fan is operated by the ventilation fan control device, blocking a hot air blower by the hot air blower control device; and when the hot air blower is operated by the hot air blower control device, blocking an operation of the ventilation fan by the ventilation fan control device. According to the present invention, an insectarium temperature and ventilation control system utilizing an empty house or an existing residential building is constructed, and thus initial investment costs can be reduced by 1/10 compared to a conventional insectarium.

Description

System for Providing insect breeding temperature and ventilation control}

The present invention relates to a temperature and ventilation control system of an insect farm, and more specifically, to utilize the heating system of an empty house or a residential building for urban farming, and to innovatively lower an initial investment cost by utilizing a ventilation device of an existing building structure. It relates to the temperature and ventilation control system of the insect farm using the target vacant house.

Poor ventilation of insect farms decreases oxygen, increases carbon dioxide and ammonia gas concentrations, increases dust, humidity, etc., reduces feed intake and increases respiratory rate, spawning rate, and mortality due to disease. This is the main factor to increase.

Most of the ventilation and temperature control systems used in many insect farming families in Korea are independent control systems. In reality, many farm owners cannot purchase and install expensive imported all-in-one systems except for some corporate farms. There are limitations, and it is a trend to separately purchase and use controllers of individual companies that are needed, and there is a problem that efficient farm management cannot be performed by controlling individual functions and functions of different ventilation fans and temperature control systems.

Domestic control systems mainly use shielded data cables or inside data cables that are vulnerable to lightning, so when the system is stopped due to a lightning strike (inductive lightning) or when there is a system error due to a power outage, warning about temperature and ventilation, and action based on experience when a problem occurs Is only being done.

When the ventilation fan is operated by the inverter or the phase control, the efficiency is deteriorated, so the ventilation volume cannot be operated with the maximum air volume of the ventilation fan, the operation time of the ventilation fan (air circulation) per day cannot be checked, and the daily temperature inside the kennel. It is not possible to check the change, the highest and lowest temperature change among the daily temperature changes, and the temperature change in the kennel during the night.

In addition, the controller of the hot air fan and the controller of the ventilation fan are controlled differently in the winter, consuming a lot of fuel according to the temperature variation, which increases the burden on the farm for heating costs.

Among the prior art, the spawning induction device of native bumblebee has the advantage of reducing energy and reducing the initial device cost and maintenance cost compared to the existing hot water boiler device, while providing an optimal scattering environment by applying an automatic temperature control method using electricity. , There is a problem that only the temperature control function is possible and there is no function for ventilation.

In the prior art, the ventilation 용 for pig farms with a controller is a farm ventilation 휀 that can be operated by a remote control by combining a controller and a ventilation 가, and a controller that controls the discharge of polluted air from the farm according to temperature is combined. There is an advantage, but there is no function to reduce the heating cost through connection with the operation of a hot air fan or a boiler, and only the function of operating the ventilation fan according to the temperature. In addition, the ventilation system of the house using carbon dioxide ?? The old control method relates to the ventilation system of a house that ventilates considering the CO2 of the house in addition to the temperature, and also considers CO2 in addition to the temperature, but still has no function for reducing the heating cost.

Of the prior art, the smart control system and method for the optimal lighting environment of the kennel has the effect of reducing the waste of energy using the technology of managing the lighting of the poultry farm using a smartphone or the heating cost in conjunction with a hot air fan or a boiler. There is no function to reduce energy consumption, and only considering energy saving by replacing the lamp with an LED.

On the other hand, in the case of some domestic and foreign integrated control systems, the efficient aspect is superior to the domestic independent ventilation and temperature control systems, but the facility itself is expensive, it is incompatible with the independent facilities, and it is difficult to decipher English by farm operators and managers. This is a lot of reality.

Ventilation, temperature, and lighting conditions are very important systems for farming insects at insect farms, but in many small farms in Korea, ventilation fans, hot air fans, and dimmer systems use independent systems. The operating systems are not efficient, and the initial investment cost is very high.

In order to solve the above problems, if low-cost rental houses, vacant houses, and general residential buildings are used as insect breeding grounds, the cost can be reduced by 1/10 compared to the existing initial investment cost, and existing house buildings You can use the wall or heating system you have.

In addition, it is possible to prevent the malfunction of the controller by being installed independently in the vacant house and independently controlling each of the hot air fan controller, the ventilation fan controller, and the dimmer controller by interlocking organically. Insect farm ventilation and temperature control system technology needs to be developed.

1. Registered Patent No. 10-11142017: spawning induction device of native bumblebee. 2. Registered Patent No. 10-0856986: Ventilation for pig farms with controllers. 3. Registered Patent No. 10-1457985: Smart control system and method for optimal lighting environment of poultry farm. 4. Patent No. 10-0825879: Ventilation system of house using carbon dioxide and a control method therefor.

The present invention has been devised to solve the above-mentioned problems, and the present invention utilizes an empty house or an existing house building heating system, and utilizes a ventilation device of an existing building structure to innovatively lower the initial investment cost. It is an object of the present invention to disclose a temperature and ventilation control system of an insect breeding facility utilizing the.

In order to achieve the above object, the present invention utilizes an empty house or an existing building for urban farming, and the temperature and ventilation control system of the insect farm including a stand-alone hot air fan control device and a ventilation fan control device, when a control mode is set , Control each device in a centralized manner by interlocking with the independent ventilation fan control device and the hot air fan control device used in the insect farm, and when the ventilation fan is operated by the ventilation fan control device, the hot air fan is blocked by the hot air fan control device and the hot air fan is controlled. When the hot air fan is operated by the device, the ventilation fan is configured to include an Insect-Rear Control Unit (IRCU) that blocks the operation by the ventilation fan control device, and the IRCU is an independent ventilation fan control device for connection with the hot air fan control device. It is characterized by using an optical communication cable, monitoring the status of an insect farm, notifying the manager of the monitoring result, and releasing control of the independent hot air fan control device and the ventilation fan control device connected to the IRCU when an error occurs.

In addition, the temperature and ventilation control system of the insect farm using an empty house or an existing house for urban farming according to another embodiment of the present invention, an IRCU (Insect-Rear Control Unit) is an independent ventilation fan control device and a hot air fan A connection step connected using an optical communication cable for connection with the control device; When the control mode is set, the IRCU is a control step of controlling each device in a centralized manner by interlocking with a stand-alone ventilation fan control device and a hot air fan control device being used in an insect farm; When the ventilation fan is operated by the ventilation fan control device, the hot air fan is blocked by the hot air fan control device, and when the hot air fan is operated by the hot air fan control device, the operation of the ventilation fan is blocked by the ventilation fan control device; A monitoring step of monitoring the status of the insect farm and notifying the manager of the monitoring result; And a release step of releasing control of the stand-alone hot air fan control device and the ventilation fan control device connected to the IRCU when an error situation occurs.

As described above, since the present invention builds a temperature and ventilation control system of an insect farm using an empty house or an existing house building, the initial investment cost can be lowered to a level of 1/10 compared to an existing insect farm.

In addition, since the existing heating equipment and the partition walls of the house can be utilized, individual control is possible, and it is possible to control by interlocking the hot air fan controller, the ventilation fan controller, and the dimmer controller, which are independently installed and independently controlled.

Lastly, since the system has an error or a function stops due to a lightning strike (guided lightning), some farms cause a fire due to this, which can cause a lot of damage to the farm.

Figure 1 shows the configuration of a temperature and ventilation control system of an insect farm according to the present invention.
Figure 2 shows the control method of the temperature and ventilation control system of the insect farm according to the present invention.
Figure 3 shows a detailed configuration of the IRCU (Insect-Rear Control Unit) of the temperature and ventilation control system of the insect farm according to the present invention.

The present invention can be applied to a variety of transformations and may have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention. In the description of the present invention, if it is determined that a detailed description of known technologies related to the present invention may obscure the subject matter of the present invention, the detailed description will be omitted.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, terms such as “comprises” or “consist of” are intended to indicate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, one or more other It should be understood that features or numbers, steps, operations, components, parts or combinations thereof are not excluded in advance.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention relates to a temperature and ventilation control system of an insect farm using an empty house.

Figure 1 shows the configuration of a temperature and ventilation control system of an insect farm according to the present invention. 1, the temperature and ventilation control system 100 of the insect farm of the present invention is an IRCU (Insect-Rear Control Unit) 110, a ventilation fan controller 120, a ventilation fan inverter 130, a dimmer controller 140 ), a hot air fan controller 150, and an external device 160.

The ventilation fan controller 120 may control the side ventilation fan 121, the relay ventilation fan 122, and the roof ventilation fan 123 according to temperature.

The ventilation fan inverter 130 may also perform the same function as the ventilation fan controller 120.

The hot air fan controller 150 may control the hot air fan 151 according to the atmospheric temperature. The dimmer controller 140 can control the lighting 142, such as LED, according to temperature.

IRCU controller can transmit melody before dimmer on/off. The IRCU controller can receive environment information necessary for temperature and ventilation control for each insect farm in conjunction with an external device (DB server, management server, manager smartphone, etc.), or transmit monitoring and control result information.

The temperature and ventilation control system of the insect farm including an independent hot air fan control device and a ventilation fan control device utilizing an empty house for urban farming according to an embodiment of the present invention, when a control mode is set, the insect farm is using the above Independent ventilation fan control device and hot air fan control device are interlocked to control each device in a centralized manner. When the ventilation fan is operated by the ventilation fan control device, the hot air fan is blocked by the hot air fan control device. Ventilation fan by the fan control device is configured to include an IRCU (Insect-Rear Control Unit) to block the operation, the IRCU is

Independent ventilation fan control device, using an optical communication cable for connection with the hot air fan control device, monitoring the status of insect farms, notifying the manager of the monitoring result, and controlling the independent hot air fan control device and ventilation fan connected to the IRCU when an error occurs It can be configured to release control of the device.

In the present invention, the IRCU 110 of the temperature and ventilation control system 100 of the insect farm is interlocked with the independent ventilation fan control system 120,130, the hot air fan control system 150, and the dimmer control system 140 used in the existing insect farm. This allows the central system to control the existing systems (120, 130, 140, 150), blocks the hot air fan when the ventilation fan is running, and blocks the ventilation fan when the hot air fan is running, so that farmers can efficiently utilize operating devices without additional burden. In addition, the owner or farm manager can monitor the status of each insect farm through the operation management control management program.

Since the controller equipments of the existing companies use a shielded data cable or an inside cable, the controller may malfunction or the controller may stop due to a lightning strike (induction), but the IRCU 110 is a standalone ventilation fan used in an existing insect farm. By using an optical communication cable for connection with the control devices 120, 130, the hot air fan control device 150, and the dimmer control device 140, it is possible to prevent malfunction of lightning (induction lightning), thereby reducing the burden on the farmer. Not only that, you can also increase your confidence in the IRCU.

Figure 2 shows the control method of the temperature and ventilation control system of the insect farm according to the present invention. The temperature and ventilation control system of the insect farm of the present invention includes a connection step in which an IRCU (Insect-Rear Control Unit) is connected using an optical communication cable for connection with an independent ventilation fan control device and a hot air fan control device; When the control mode is set, the IRCU is a control step of controlling each device in a centralized manner by interlocking with a stand-alone ventilation fan control device and a hot air fan control device being used in an insect farm; When the ventilation fan is operated by the ventilation fan control device, the hot air fan is blocked by the hot air fan control device, and when the hot air fan is operated by the hot air fan control device, the operation of the ventilation fan is blocked by the ventilation fan control device; A monitoring step of monitoring the status of the insect farm and notifying the manager of the monitoring result; And a release step of releasing control of the stand-alone hot air fan control device and the ventilation fan control device connected to the IRCU when an error situation occurs.

As shown in Fig. 2, the method for controlling the temperature and ventilation control system 100 of the insect farm of the present invention is composed of detailed operation steps as follows.

As shown in FIG. 2, in the first step (S100), the ventilation fan controller 120, the ventilation fan inverter 130, the dimmer controller 140, and the hot air fan controller 150 independently perform operations according to temperature. do.

The hot air blower controller 150 operates the hot air blower until the air temperature reaches a set temperature when the atmospheric temperature is lower than or equal to the set temperature. When the hot air fan reaches the set temperature (for example, 21 degrees Celsius) or more, the operation stops, but the standby temperature increases by 2-3 degrees from the set temperature. Among the existing hot air blowers, there is a control function that predicts the expected temperature before the set temperature and stops the hot air blower before the set temperature so that the hot air blower is stopped at the set temperature, but a hot air blower without such a function is also considered in the present invention.

The ventilation fan controller determines whether to operate the ventilation fan according to the ambient temperature, for example, if a set temperature (e.g., 22 degrees Celsius) is set, if the set temperature by the hot air fan is 21 degrees, the hot air fan stops at the set temperature accurately. If necessary, it is not necessary to start the ventilation fan, but if the air temperature increases by 23 degrees or more even if the hot air fan stops operating at the set temperature, the ventilation fan controller operates at the set temperature of 22 degrees to ventilate the air. It goes down to 21 degrees or less again, and accordingly, the hot air fan is operated again, and the process of operating the ventilation fan again is repeated, resulting in waste of heating costs.

In step 2 (S200), the IRCU sets a ventilation fan and a temperature control mode so that each controller operates under the control of the IRCU through communication with the respective controllers 120, 130, 140, and 150. For setting the control mode, a mode setting command and a response message thereto can be transmitted and received between the IRCU and each controller.

In step 3 (S300), when entering the control mode, the IRCU controls each controller (120,130,140) to perform constant monitoring and confirmation for each error situation in a ventilation fan and temperature control mode suitable for the operation mode of each insect farm.

Information on the operation mode for each insect farm (standard breeding model information) is stored in the IRCU's own memory, or the IRCU is provided with the information through a separate DB server 160. The environment (temperature, humidity, ventilation, etc.) for each season/area/breeding ground is set, and IRCU is controlled through optimal information for insect breeding.

Displays the current ventilation/temperature status of the kennel on the display screen, and records the temperature change between nights, so that the farm or manager can check the change of the kennel through the display screen or smartphone, ventilation fan control unit, hot air fan control The device is linked to the insect breeding program for the operation mode for each insect breeding station built in the IRCU so that the operation can be controlled.

In step 4 (S400), when an error occurs, the control modes of the independent ventilation fan controllers 120, 130, the hot air fan controller 150, and the dimmer controller 140 that are organically connected to the IRCU are released. When the control mode is released, as in step 1, the ventilation fan controller 120, the ventilation fan inverter 130, the dimmer controller 140, and the hot air fan controller 150 independently operate according to temperature. To release the control mode, the mode release command and a response message to it can be transmitted and received between the IRCU and each controller.

In step 5 (S500), when an error situation occurs or an abnormal signal of the IRCU is detected, an alarm signal is generated through a speaker or the like, and information about the alarm condition is transmitted to the insect farm owner or manager to notify the alarm condition. For example, alarm signals such as “The temperature has dropped below 10 degrees in the insect farm” and “The farm door has been opened” are transmitted to the user through text, email, and social network service (SNS).

When the alarm condition is resolved in step 5, the IRCU is performed from step 2 again to perform temperature and ventilation control of the insect farm in a centralized manner.

Figure 3 shows a detailed configuration of the IRCU (Insect-Rear Control Unit) of the temperature and ventilation control system of the insect farm according to the present invention.

Hereinafter, an IRCU (Insect-Rear Control Unit) will be described in detail. 3, the IRCU device includes a digital input/output unit 111, a power unit 112, a sensor unit 113, a memory unit 114, a control unit 115, an A/C power control unit 116, and RS232C. It may be configured to include any one or more of the communication unit 117, the optical cable communication unit 118, the FND display unit 119.

The control unit 115 is equipped with a microcomputer processor for 1) data processing and digital input/output, sensor, RS232C communication, and FND display, 2) ventilation fan and temperature control mode suitable for the operation mode of each insect farm. In case of error situation, it performs constant monitoring and confirmation, and 3) when an error situation occurs, release control of the independent ventilation fan controller (120,130), hot air fan controller (150), and dimmer controller (140) organically connected to the IRCU, and 4) When an error condition occurs or an IRCU abnormal signal is detected, an alarm signal is generated.

The digital input/output unit 111 1) converts the analog temperature data sensed by the sensor unit 113 into digital temperature data, and 2) controls the temperature data of the digitally converted sensor unit 113 into a controller 115. And RS232C to the communication unit 117, 3) parsing (Parsing) the data received from the breeding information DB 160, and transmits it to each processing unit of the IRCU, and 4) outputs a melody at the on/off time of the dimmer.

The power supply unit 112 1) converts AC 220V, which is external power, to DC 5V, DC 8V, and DC 12V, and 2) supplies the converted DC power with a constant voltage to each circuit.

The sensor unit 113 is equipped with 1) 2 channels of atmospheric temperature sensor and 1 channel of humidity sensor, and additionally includes other sensors (pressure sensor, geomagnetic sensor, etc.) to detect insect movement, etc. can do.

The memory unit 114 records 1) a flash memory that can be read/written, and 2) records insect breeding information and operation/management information for each kennel that can be used even when communication is blocked, and 3) can be used when the dimmer is turned on or off. Record the melody.

The A/C power control unit 116 controls 1) a connection unit for connecting an external control system power supply, 2) an external independent ventilation fan, hot air blower, and dimmer power supply contrary to IRCU breeding information data, and 3) a maximum output of the ventilation fan It includes a control unit to switch the power supply line of the ventilation fan to the external power supply (380V 3-phase power supply) in the mode signal to operate the ventilation fan in direct operation.

The RS232C communication unit 117 includes 1) data transmission/reception and a connection unit for connection with an optical cable communication unit, and 2) performs conversion signal processing of the optical cable.

The optical cable communication unit 118 converts a digital signal into a light emitting signal or a light receiving signal from a standalone hot air fan control controller and a ventilation fan control controller to a digital signal, and transmits/receives it to/from an IRCU or to/from the server's operating software. Plays a role.

The FND display unit 119 displays 1) a temperature for allowing the user to visually check the sensed standby temperature, 2) displays the current state of the controller by displaying the controller status with a designated abbreviated symbol, or 3) each It performs the function of displaying the temperature of each sensor of the temperature sensor and the average temperature in the insect breeder.

In addition, the IRCU has other functions: 1) When the power is cut off by installing the auxiliary battery, an alarm signal can be generated to notify the farmer or manager of the emergency.

The functions performed by the server's operating software are as follows. The server's operating software: a) sets the facility of the kennel by season/area/carrying environment, and connects the information of the standard breeding model to control the IRCU through optimal information of insect breeding, and b) ventilation/temperature of the current farm. It displays the status and records the temperature change between nights, so that the farmer or manager can check the change of the kennel, and c) In case of IRCU abnormality or the temperature in the kennel changes rapidly, text to the farmer via a mobile phone such as a smartphone. (SMS), e-mail, or SNS alerts are sent, and depending on the degree of urgency, texting or calling can be performed. D) Ventilation fan control device, hot air fan control device, etc. are linked to the insect breeding program. So that the operation can be controlled.

The server's operating software may be mounted on a separate server and run, or may be built into the IRCU's memory and run within the IRCU. Operating as a separate server or embedded in the IRCU is a matter that can be easily adopted by a person skilled in the art according to a specific implementation environment.

On the other hand, the control method of the temperature and ventilation control system for insect breeding according to an embodiment of the present invention is implemented in the form of program instructions that can be performed through various electronic information processing means and can be recorded in a storage medium. The storage medium may include program instructions, data files, data structures, or the like alone or in combination.

The program instructions recorded on the storage medium may be specially designed and configured for the present invention or may be known and available to those skilled in the software art. Examples of storage media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs, DVDs, and magnetic-optical media such as floptical disks. (magneto-optical media) and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. In addition, the above-described medium may be a transmission medium such as an optical or metal wire, a waveguide including a carrier wave that transmits a signal specifying a program command, a data structure, or the like. Examples of program instructions include machine language codes such as those produced by a compiler, as well as high-level language codes that can be executed by a device that processes information electronically using an interpreter or the like, for example, a computer.

The above has been described with reference to preferred embodiments of the present invention, but those of ordinary skill in the art may vary the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be understood that modifications and changes can be made.

100: temperature and ventilation control system, 110: IRCU,
120: ventilation fan controller, 130: stand-alone ventilation fan control,
140: dimmer control device, 150: hot air fan control device.

Claims (3)

An insect farm temperature and ventilation control system including an independent hot air fan control device and a ventilation fan control device utilizing an empty house or an existing residential building for urban farming, the system being used in an insect farm when a control mode is set. In conjunction with the independent ventilation fan control device and the hot air fan control device, each device is controlled centrally, and when the ventilation fan is operated by the ventilation fan control device, the hot air fan is blocked by the hot air fan control device and when the hot air fan is operated by the hot air fan control device. Ventilation fan by the ventilation fan control device is configured to include an IRCU (Insect-Rear Control Unit) to block the operation, the IRCU uses an independent ventilation fan control device, an optical communication cable for connection with the hot air fan control device, , Monitoring the status of insect farms, notifying the manager of the monitoring results, and in the event of an error, release the control of the stand-alone hot air fan control unit and the ventilation fan control unit connected to the IRCU,
The IRCU is equipped with a 2-channel air temperature sensor and a 1-channel humidity sensor, and includes a sensor unit including a pressure sensor and/or geomagnetic sensors for detecting insect movement, etc.
The IRCU sets a control mode for ventilation fan and temperature control so that each control device operates under the control of the IRCU through communication with each control device,
The IRCU controls each control unit to perform ventilation and temperature monitoring in accordance with the operation mode of each insect breeding station and temperature control mode to monitor and check the condition of each insect condition. Control system.
According to claim 1,
The IRCU,
Digital input / output unit, power supply unit, memory unit, control unit, A/C power control unit, RS232C communication unit, optical cable communication unit, FND display unit further comprising any one or more of the vacant house use insect farm for urban agriculture Temperature and ventilation control system.
As a control method of the temperature and ventilation control system of the insect farm using an empty house for urban agriculture or an existing house building,
IRCU (Insect-Rear Control Unit) is connected to the stand-alone ventilation fan control unit and a hot air fan control unit using an optical communication cable for connection;
When the control mode is set, the IRCU is a control step of controlling each device in a centralized manner by interlocking with a stand-alone ventilation fan control device and a hot air fan control device used in an insect farm;
When the ventilation fan is operated by the ventilation fan control device, the hot air fan is blocked by the hot air fan control device, and when the hot air fan is operated by the hot air fan control device, the operation of the ventilation fan is blocked by the ventilation fan control device;
A monitoring step of monitoring the temperature and humidity of an insect farm using a temperature sensor and a humidity sensor included in the system, monitoring the movement of insects using a pressure sensor or a geomagnetic sensor, and notifying the manager of the monitoring result; And
Including the release step of releasing control of the stand-alone hot air fan control device and the ventilation fan control device connected to the IRCU when an error situation occurs,
In the connection step, before setting the control mode, the ventilation fan control device and the hot air fan control device of the temperature and the ventilation control system of the insect farm independently operate according to temperature,
In the control step, the IRCU establishes a control mode for ventilation fans and temperature control so that each controller operates under the control of the IRCU through communication with each control device,
In the monitoring step, the IRCU controls each control device to perform constant monitoring and confirmation for each error situation in a ventilation fan and a temperature control mode suitable for an operation mode for each insect farm, an insect farm using an empty house for urban farming. Temperature and ventilation control system.

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