KR20060112807A - Room air temperature control system - Google Patents

Abstract

An indoor temperature control system is provided to refrigerate an indoor sufficiently by only using an outer air inflow obtained from an operation of an air distribution device. In a control system(100) for an indoor temperature, an air distribution device(110) has a channel connecting between an indoor room and an outdoors so as to be communicated through an air. An air conditioner(130) circularly cools an indoor air. At least one sensor detects an outer air condition to output a signal corresponding to the detected results. And, a main controller(140) controls at least one among the air conditioner and the air distribution device corresponding to the output signal outputted from the at least one sensor.

Description

Room temperature control system {

1 is a view showing a room in which the indoor temperature control apparatus according to a preferred embodiment of the present invention is employed,

Figure 2 is a block diagram showing the structure of the room temperature control apparatus according to an embodiment of the present invention,

Figure 3 is a flow chart showing the operation of the indoor temperature control apparatus according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: room temperature control device 110: supply and exhaust device

111: main body of the exhaust and exhaust device 123: internal outlet

127: interior entrance 130: air conditioner

140: master controller R: equipment room

H: Electronic device

The present invention relates to a temperature control device, and more particularly, to an indoor temperature control device for controlling an indoor temperature using an air supply / exhaust device and an air conditioner.

Typically, large electronics that perform network control, data archiving, etc., contain precision electronic components that are sensitive to temperature and dust. These electronic devices are generally installed in the same room as the equipment room, which is isolated from the outside, because stable operation is determined according to the ambient temperature and clean state. According to this, the outsiders are difficult to enter and exit the air communication with the outside atmosphere, the driving of the electronic device is made in a state in which the clean state is maintained well. However, the electronic devices generate a large amount of driving heat during the driving, and this driving heat causes the room temperature of the equipment room to increase. This increase in temperature may again affect the electronic devices, causing the driving of the electronic devices to become unstable. Therefore, conventionally, a separate air conditioner is installed indoors as an indoor temperature control device for controlling the indoor temperature. Since the conventional indoor temperature control device is installed in the room where air communication is hardly made with the outside, the air conditioner is continuously driven even in the winter when the indoor air can be cooled even by the outdoor air. Therefore, there is a problem that excessive power consumption due to the driving of the air conditioner during maintenance of the electronic devices occurs.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an indoor temperature control device that can efficiently control the indoor temperature even at a low maintenance cost.

An indoor temperature control apparatus according to the present invention for achieving the above object, the air supply and exhaust device having a flow path for connecting the indoor and outdoor air communication; Air conditioners for circulating and cooling indoor air; At least one sensor detecting the outdoor standby state and outputting a signal corresponding thereto; And a main controller which controls driving of each of the air supply / exhaust device and the air conditioner, and drives at least one of the air conditioner and the air supply / exhaust device in response to the output signal output from the at least one sensor. It features.

According to this, it is possible to reduce the air conditioner use time, it is possible to efficiently control the room temperature even at a low maintenance cost.

According to a preferred embodiment of the present invention, the at least one sensor includes a first sensor for measuring an outdoor temperature, and the main controller drives only the air conditioner when the outdoor temperature is higher than a preset first reference temperature. When the temperature is lower than the first reference temperature, only the supply / exhaust device is driven.

The at least one sensor may include a second sensor for measuring outdoor humidity, and the main controller may drive the air conditioner when the outdoor humidity is higher than a preset reference humidity.

In addition, it is preferable to include the third sensor installed adjacent to the cooling air outlet of the air conditioner unit to detect the driving abnormality of the air conditioner, wherein the control unit has a cooling air discharged from the air conditioner unit than the preset third reference temperature When it is high, it is preferable to stop the driving of the air conditioner and to drive the supply and exhaust device.

Here, the second sensor for measuring the humidity of the outdoor air; And a third sensor for detecting a driving abnormality of the air conditioner, wherein the controller drives the air conditioner irrespective of the outdoor temperature when the humidity of the outdoor air is higher than a preset reference humidity, and the air conditioner is abnormal. In the case of driving by the air supply / exhaust device, it is preferable to operate regardless of the outdoor temperature and the outdoor humidity.

On the other hand, the supply and exhaust device includes an opening and closing device for opening and closing the flow path and the intake and exhaust fan for generating air flow in the first and second passages, the main controller and a fourth sensor for detecting abnormal driving of the intake and exhaust fan; It is preferable that the signal exchange is connected.

At this time, more preferably, the supply and exhaust device may further include a filter device for filtering contaminants such as dust introduced from the outside during inhalation.

On the other hand, the fourth sensor is preferably a flow rate sensor for measuring the flow rate of the air flowing through the flow path, the main controller after stopping the drive of the blower, if the measured air flow rate is less than the predetermined reference flow rate The first and second passages may be opened when the outdoor temperature is lower than the preset second reference temperature, and the air conditioner may be driven when the outdoor temperature is higher than the preset second reference temperature.

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

Figure 1 shows an example of the equipment room (R) to which the present invention is applied. In the equipment room R according to the present embodiment, the electronic devices H generating the driving heat and the indoor temperature control device 100 for suppressing the increase in the indoor temperature caused by the driving heat are installed. 1 and 2, the indoor temperature control apparatus 100 according to the present embodiment includes an air supply / exhaust apparatus 110, an air conditioner 130, a main controller 140, and a plurality of sensors 150 ( 160, 170, 180.

The air conditioner 130 is for circulating cooling the indoor air inside the equipment room (R). Since the air conditioner 130 has the same configuration as that of a conventional air conditioner that is generally used except that the driving is controlled by the main controller 140 which will be described later, a detailed description thereof will be omitted.

The supply / exhaust apparatus 110 is for controlling the indoor temperature inside the equipment room R by using outdoor air (atmosphere) outside the equipment room R. To this end, the air supply and exhaust device 110 is provided with an air flow path connecting the equipment room R and the outside to enable air communication and a plurality of air supply and exhaust devices 121, 123, 125, and 127. 111, and an intake and exhaust fan 129 (see FIG. 2) forcing the air flow through the air passage. In the present embodiment, the air supply / exhaust apparatus 110 includes a first air passage (not shown) for guiding outdoor air indoors and a second air passage (not shown) for guiding indoor air outdoors. It is divided and configured, the intake and exhaust fan 129 is configured to individually perform the air flow through the first and second air flow path. According to this, when the intake and exhaust fan 129 is driven, the outdoor air sucked through the outer inlet 121 of the air supply and exhaust device main body 111 is introduced into the room via the duct 113 and the nozzle 123 and inside The indoor air sucked through the inlet 127 is discharged to the outside through the outer outlet 125. Here, the nozzle 123 is rotatable in the B, C direction shown in Figure 1 is configured to change the discharge direction of the exhaust air through the nozzle 123, in consideration of the convection phenomenon in the room It is preferable to be installed adjacent to the bottom surface. In addition, the inlet 127 is preferably installed adjacent to the ceiling of the room in consideration of the convection phenomenon. In addition, the outer inlet 121 and the outer outlet 125 are separate ducts when the air supply / exhaust apparatus 111 is not easily exposed to the outdoors due to a reason that the equipment room R is installed underground. Not shown) is preferably configured to facilitate the communication between outdoor air and indoor air. In this case, it is more preferable that the sensors for detecting outdoor temperature and humidity are installed adjacent to the separate duct so as to accurately measure the outdoor temperature and humidity.

On the other hand, as shown in Figure 2, the air supply and exhaust device 110 in the present embodiment has an opening and closing device 128 that can selectively open and close the intake and exhaust mechanism 121, 123, 125, 127 Equipped. According to this, when the air conditioner 130 is driven, it is possible to prevent the warm outdoor air from flowing into the room, thereby preventing a decrease in the indoor cooling efficiency by the air conditioner 130. In addition, when both the air conditioner 130 and the intake and exhaust fan 129 are abnormally driven, the minimum cooling efficiency is ensured by opening the air flow paths to achieve natural ventilation between the indoor and the outdoor.

The main controller 140 includes a plurality of operation keys 143, 144, 145, and 146 and a display window 142. Various information may be displayed on the display window 142. It is possible to display information related to an indoor temperature, an outdoor temperature, an indoor humidity, an abnormality of the air conditioner 130, and an abnormality of the intake and exhaust fan 129. On the other hand, the main controller 140 in the present embodiment is connected to the air supply and exhaust device 110 and the air conditioner 130 to enable signal transmission. According to this, the main controller 140 is a plurality of operation keys 143, 144, 145, 146 are input from the sensors 150, 160, 170, 180 to be manipulated by the administrator or described later In response to the signals, driving of the air supply / exhaust apparatus 110 and the air conditioner 130 may be controlled. Such a master controller may be configured to be operated remotely through a wired or wireless network to facilitate management of the administrator. For reference, the operation keys 143, 144, 145, 146 include an emergency switch 146 that can be directly operated by the manager in the event of an air conditioner 130. The signal input by the emergency switch is processed through a process equivalent to the signal output from the third sensor 170 to be described later. Since the driving control of the air conditioner 130 will be described in more detail later, a detailed description thereof will be omitted.

As described above, the plurality of sensors 150, 160, 170, and 180 output various detection signals required for driving control of the air conditioner 130 and the exhaust / exhaust apparatus 110 by the main controller 140. It is for. To this end, in the present embodiment, the first sensor 150 for measuring the outdoor temperature, the second sensor 160 for measuring the outdoor humidity, the third sensor 170 for detecting abnormal driving of the air conditioner 130 and And a fourth sensor 180 for detecting abnormal driving of the supply / exhaust apparatus 110. The third sensor 170 in the present embodiment is configured to detect the temperature of the cooling air discharged from the air conditioner 130, as shown in Figure 1, the equipment room (R) when the non-driving of the air conditioner 130 It is configured to detect the internal temperature. According to this, the main controller 140 recognizes abnormal driving of the air conditioner 130 when the temperature measured by the third sensor 170 is higher than the preset third reference temperature when the air conditioner 130 is driven. The corresponding process proceeds as shown in FIG. In addition, the fourth sensor 180 according to the present exemplary embodiment is installed on the air flow path of the supply / exhaust device 110 and configured to measure the air flow amount by the driving of the intake / exhaust fan 129. Accordingly, the main controller 140 determines that the intake and exhaust fan 129 is abnormally driven when the air flow rate measured by the fourth sensor 180 is lower than the preset air flow rate when the intake and exhaust fan 129 is driven. The corresponding subsequent process proceeds as shown in FIG. 3.

Hereinafter, the operation of the room temperature control apparatus according to the embodiment of the present invention configured as described above will be described in detail with reference to FIG.

When the driving of the indoor temperature control device starts, the outdoor temperature T1 is measured by the first sensor, and the main controller compares the measured outdoor temperature with the preset first reference temperature TS1 (S100). Here, the first reference temperature TS1 is set to an outdoor temperature at which the indoor temperature can be prevented from rising higher than the temperature which guarantees the normal driving of the electronic device when the supply / exhaust device is driven. In this embodiment, the first reference temperature TS1 is set to 18 ° C. do. If it is determined in S100 that the outdoor temperature T1 is higher than the first reference temperature TS1, the main controller drives the air conditioner (S200) and continuously monitors whether the air conditioner is abnormal and the outdoor temperature (T1) (S210). , S211). When it is detected in S211 that the outdoor temperature T1 is lower than the first reference temperature TS1, the main controller stops driving of the air conditioner and drives the supply / exhaust device (S300). In addition, if it is measured that the driving of the air conditioner is abnormally performed in S210, the main controller stops the driving of the air conditioner to suppress energy consumption (S215) and drives the supply / exhaust apparatus to adjust the room temperature (S220).

 For reference, in the present embodiment, the air supply and exhaust device is configured to include an air flow channel opening and closing device and an intake and exhaust fan. According to this, the air supply / exhaust apparatus can open and close the air flow path irrespective of driving the intake / exhaust fan. Accordingly, if the air conditioner is abnormally driven (S230) and abnormally driven to the intake and exhaust fan is measured (S230), the main controller controls the switchgear to open only the air passage so that the cooling of the indoor temperature is performed indoors and outdoors. It is made by natural communication between the air (S250). In this case, the air conditioner and the intake / exhaust fan consuming unnecessary power by abnormal operation are preferably stopped.

On the other hand, if it is determined that the outdoor temperature is lower than the first reference temperature TS1 in S100, the main controller immediately controls the indoor temperature by suctioning the outdoor air by driving the supply / exhaust device (S300). Even in the state where the air supply and exhaust device is driven as described above, the main controller continuously monitors the outdoor temperature T1 through the first sensor (S311) as well as the abnormal operation of the intake / exhaust fan through the first sensor (S315). If it is detected in S311 that the outdoor temperature T1 is higher than the first reference temperature TS1, the driving of the exhaust / exhaust apparatus is stopped (S320) and the air conditioner is driven (S330). Continue to monitor outdoor temperature. When it is detected that the supply and exhaust device is abnormally driven in S315, as described above, the air conditioner is driven to achieve stable driving of the electronic devices even though power is wasted somewhat (S316 and S351). If an abnormality of the air conditioner being driven by S351 is found (S360), since the cooling through the air conditioner and the intake and exhaust fan cannot be made, only the intake and exhaust mechanism is opened and the driving of the air conditioner and the intake and exhaust fan is stopped. According to this, the inside of the equipment room is cooled by natural air communication through the intake and exhaust vents, and unnecessary power consumption can be reduced by stopping the operation of the air conditioner and the intake and exhaust fan, which are not normally driven.

On the other hand, the operation of the air conditioner due to the abnormality of the intake / exhaust fan is preferably carried out after checking whether the outdoor temperature T1 is lower than the second reference temperature TS2 which is low enough to cool the room only by opening the air flow path. (S350). This is to suppress unnecessary power waste due to the air conditioner driving when the indoor air is very low, such as winter, when the indoor temperature can be cooled by only opening the intake and exhaust vents (S370).

For reference, the electronic equipment as described above is determined whether the stable driving even by indoor humidity. Accordingly, in the present embodiment, it is determined whether the supply / exhaust device is driven in consideration of the outdoor humidity H1 (S110, S212, and S312). That is, even when the outdoor temperature T1 is lower than the first reference temperature TS1, if the outdoor humidity H1 is measured to be higher than the reference humidity HS, the driving of the air supply and exhaust device is canceled and the air conditioner is driven. According to this, it is possible to suppress abnormal driving of electronic devices in the room by outdoor air of high humidity.

According to the present invention described above, it is possible to selectively drive the supply and exhaust device and the air conditioner corresponding to the standby state outside the equipment room. Accordingly, the air conditioner can be stopped in a situation where the indoor air can be sufficiently cooled only by the introduction of outdoor air by the supply / exhaust device, thereby reducing the power consumption of the air conditioner.

Claims (9)

An air supply / exhaust apparatus having a flow path connecting the indoor and outdoor air communication; Air conditioners for circulating and cooling indoor air; At least one sensor detecting the outdoor standby state and outputting a signal corresponding thereto; And And a main controller for controlling driving of each of the air supply and exhaust devices and driving at least one of the air conditioner and the air supply and exhaust device in response to the output signal output from the at least one sensor. Indoor temperature controller. The method of claim 1, The at least one sensor includes a first sensor for measuring the outdoor temperature, And the main controller drives only the air conditioner when the outdoor temperature is higher than a preset first reference temperature, and drives only the supply / exhaust device when the outdoor temperature is lower than the first reference temperature. The method of claim 2, The at least one sensor includes a second sensor for measuring the outdoor humidity, And the main controller drives the air conditioner when the outdoor humidity is higher than a preset reference humidity. The method of claim 2, Room temperature control device further comprises a third sensor for detecting a drive failure of the air conditioner. The method of claim 4, wherein The third sensor is a temperature sensor installed adjacent to the cooling air outlet of the air conditioning unit, The control unit is characterized in that the cooling air discharged from the air conditioning unit is higher than the third reference temperature is set, the indoor temperature control device characterized in that to stop the driving of the air conditioner and to drive the supply and exhaust device. The method of claim 2, A second sensor measuring humidity of the outdoor air; And And a third sensor for detecting a driving abnormality of the air conditioner. The controller drives the air conditioner regardless of the outdoor temperature when the humidity of the outdoor air is higher than a preset reference humidity. And when the air conditioner is abnormally driven, driving the supply / exhaust device regardless of the outdoor temperature and the outdoor humidity. The method according to any one of claims 1 to 6, The supply and exhaust device includes an opening and closing device for opening and closing the flow path and an intake and exhaust fan for generating air flow in the first and second passages, The main controller is connected to the fourth sensor for detecting abnormal driving of the intake and exhaust fan, the indoor temperature control device. The method of claim 7, wherein The fourth sensor is a room temperature control device, characterized in that the flow rate sensor for measuring the flow amount of air flowing through the flow path. The method of claim 8, When the measured air flow rate is smaller than the preset reference flow rate, the main controller stops driving the blower, and then opens the first and second passages when the outdoor temperature is lower than the preset second reference temperature. And controlling the air conditioner when the outdoor temperature is higher than the preset second reference temperature.

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