JP6207851B2 - Air conditioner - Google Patents

Description

  Embodiments described herein relate generally to an air conditioner.

  It is said that if the temperature and humidity in the air exceed certain conditions, heat stroke is likely to occur. In an air conditioner, an indoor unit installed in a room includes indoor temperature detection means for detecting the indoor temperature, indoor humidity detection means for detecting indoor humidity, and human detection means for detecting the presence of a person. When the presence of a person is confirmed in the room and it is determined that there is a risk of heat stroke based on the detected temperature of the indoor temperature detecting means and the detected humidity of the indoor humidity detecting means, the cooling is forcibly performed. Proposals have been made to prevent heatstroke indoors by driving.

  However, even if the cooling operation is forcibly performed, it is not known whether the cold air effectively acts on a person in the room.

JP 2012-237482 A

  Accordingly, to provide an air conditioner capable of effectively operating cold air on a person in a room and capable of preventing heat stroke more effectively when there is a risk of heat stroke and cooling operation is performed. With the goal.

  The air conditioner of this embodiment includes an indoor unit, indoor temperature detection means, indoor humidity detection means, heat stroke risk condition determination means, notification means, and control means. The indoor unit is installed indoors. The indoor temperature detection means detects the temperature of the room where the indoor unit is installed. The indoor humidity detecting means detects the indoor humidity. The heat stroke risk condition determination means determines whether or not the heat stroke risk condition is based on the detected temperature detected by the room temperature detection means and the detected humidity detected by the room humidity detection means. When the heat stroke risk condition determining means determines that the heat stroke risk condition is determined, the control means notifies the heat stroke risk condition that the heat stroke risk condition is detected, and starts the cooling operation. Furthermore, the indoor unit includes a wind direction plate and wind direction plate driving means. The wind direction plate controls the direction of the cold air blown from the blowout port during the cooling operation. The wind direction plate driving means drives the wind direction plate. The control means causes the wind direction plate driving means to swing the wind direction plate when the heat stroke risk condition determining means determines that the heat stroke risk condition is determined and the cooling operation is started.

The perspective view of the indoor unit in the air conditioner of one Embodiment Functional block diagram of air conditioner control device Flow chart of heat stroke prevention processing Plan view showing the flow of wind when the wind direction plate is swung

Hereinafter, an embodiment of an air conditioner will be described with reference to the drawings.
The air conditioner 1 according to the present embodiment includes an indoor unit 2 installed in the room 5 and an outdoor unit (not shown) installed outdoors. As shown in FIG. 1, the indoor unit 2 includes an indoor air suction port (not shown) formed on the outer surface in the top left-right width direction and a blowout port 7 formed in the left-right width direction on the lower front surface. The indoor unit 2 includes a ventilation path that communicates the air suction port and the outlet 7, and an indoor heat exchanger and an indoor fan (not shown) are disposed in the ventilation path. The outdoor unit is installed outdoors and includes a compressor and an outdoor heat exchanger (not shown). In the air conditioner 1, the refrigeration cycle is configured by connecting the indoor unit 2 and the outdoor unit with a refrigerant pipe, and the refrigerant circulates between the indoor unit 2 and the outdoor unit. The indoor unit 2 sucks indoor air from the suction port and sends out cool air or warm air that has passed through the indoor heat exchanger into the room from the air outlet 7 by the blowing action of the indoor fan.

  As shown in FIG. 1, a plurality of vertical wind direction plates 8 are provided in the ventilation path near the outlet 7 of the indoor unit 2, and a plurality of left and right wind direction plates 9 are provided on the rear side of the ventilation path of the vertical wind direction plate 8. It has been. Of these, the vertical wind direction plate 8 is long in the horizontal direction (left and right direction), and is swung with the shaft portion formed at the left and right ends as a fulcrum, so that the vertical direction of the wind blown from the blowout port 7 is changed. The deflection is controlled in a predetermined direction. The left and right wind direction plates 9 are arranged so that the respective side surfaces oppose each other in the left and right direction, and are connected by a connecting portion extending in the horizontal direction, and the connecting portion is swung in the left and right direction. Then, the angle of the right and left wind direction plate 9 is changed, and the right and left direction of the wind blown from the blowout port 7 is controlled to be deflected in a predetermined direction.

For example, as shown in FIG. 4, the indoor unit 2 described above is installed on the upper surface of the wall surface 4 on one side of the room 5 and blows air toward the room 5.
As shown in FIG. 2, the control device for the indoor unit 2 includes a control unit 11, an indoor temperature sensor 12, an indoor humidity sensor 13, a human detection sensor 14, an up / down wind direction plate drive control motor 15, a left / right wind direction plate drive control motor 16, A buzzer 17 as notification means, a communication unit 18 with a remote controller 19 and the like are provided. The control unit 11 is configured mainly with a microcomputer, and has a function of controlling an electric device arranged in the indoor unit 2 and controlling the control unit 3 of the outdoor unit. As will be described later, the control unit 11 has a function of heat stroke risk condition determination means.

  The indoor temperature sensor 12 is provided in the suction side ventilation path of the indoor unit 2 and detects the temperature of the air in the room 5 in which the indoor unit 2 is installed from the air sucked into the indoor unit 2. Function as. The indoor humidity sensor 13 is provided in the suction side ventilation path of the indoor unit 2 and detects the humidity of the air in the room 5 in which the indoor unit 2 is installed from the air sucked into the indoor unit 2. Function as. In this case, the human sensor 14 is fixed and is installed in the left and right portions in the lower part of the front surface of the indoor unit 2 so as to be directed leftward and rightward from the central portion. The human sensor 14 is composed of a pyroelectric infrared sensor that detects the presence or absence of a person by detecting infrared rays emitted from a human body, for example. By arranging two human sensors 14 on the left and right, it is possible to detect whether the person M (see FIG. 4) is located in the left-right direction with respect to the indoor unit 2 in the room 5.

  The up / down wind direction plate drive control motor 15 is for swinging the up / down wind direction plate 8 and deflecting the wind direction in the up / down direction to a predetermined angle, and functions as a wind direction plate driving means. The left / right wind direction plate drive control motor 16 is for swinging the left / right wind direction plate 9 via the connecting portion and deflecting the wind direction in the left / right direction to a predetermined angle, and this also functions as wind direction plate driving means. The buzzer 17 functions as a notification unit. The communication unit 18 performs, for example, infrared communication with a remote controller 19 that is a remote control device. The user can input the operation, stop, operation mode, set temperature, wind direction, wind speed, operation time, and the like of the air conditioner 1 using the remote controller 19.

  Signals from the indoor temperature sensor 12, the indoor humidity sensor 13, the human sensor 14, the communication unit 18, and the like are input to the control unit 11. The control unit 11 controls the indoor fan drive motor 6, the up / down wind direction plate drive control motor 15, the left / right wind direction plate drive control motor 16, the buzzer 17, and the like of the indoor unit 2 based on these input signals and a control program prepared in advance. At the same time, it controls the compressor of the outdoor unit.

  In this case, the control unit 11 stores a heat stroke determination table for determining heat stroke risk conditions. For example, when the temperature is 30 ° C., the risk of heat stroke is low if the humidity is less than 90%, but the risk of heat stroke increases if the humidity is 90% or more. When the temperature is 35 ° C., the risk of heat stroke is low if the humidity is less than 50%, but the risk of heat stroke tends to increase if the humidity is 50% or more. In the heat stroke determination table, a region where the risk of heat stroke is high and a region where the risk is low are set in advance due to the relationship between temperature and humidity. The controller 11 is a heat stroke risk condition determination unit that determines whether or not a heat stroke risk condition has been reached based on the detected temperature of the indoor temperature sensor 12, the detected humidity of the indoor humidity sensor 13, and the heat stroke determination table. Also works.

  FIG. 3 schematically shows a flow for carrying out heat stroke prevention processing. In step S1, it is in a standby state and the cooling operation is not performed. In this standby state, the control unit 11 rotates the indoor fan drive motor 6 by a predetermined time (Y minutes) at predetermined time (X minutes) intervals. When the indoor fan is rotated by the indoor fan drive motor 6, the air is blown from the outlet 7 toward the room 5, whereby the air in the room 5 is agitated, and the temperature and humidity in the room 5 are corrected. Averaged.

  In step S <b> 2, the control unit 11 determines whether or not the temperature detected by the indoor temperature sensor 12 is equal to or higher than a preset temperature A ° C. The set temperature A is, for example, 30 ° C. If the detected temperature of the indoor temperature sensor 12 is lower than the set temperature A ° C, the process returns to step S1 according to “NO”, and if it is equal to or higher than the set temperature A ° C, the process proceeds to step S3 according to “YES”. In step S <b> 3, the controller 11 determines that the current state of the room 5 is a heat stroke risk condition based on the detected temperature of the indoor temperature sensor 12, the detected humidity of the indoor humidity sensor 13, and the heat stroke determination table. It is determined whether or not.

  If it is determined in step S3 that the heat stroke risk condition has not been reached, the control unit 11 returns to step S1 according to “NO”, and if it is determined that the heat stroke risk condition has been reached, “YES” The process proceeds to step S4. In step S4, it is determined whether or not there is a person in the room 5 based on the detection signal of the human sensor 14, and if it is determined that no person is present, the process returns to step S1 according to "NO" If it is determined that M (see FIG. 4) is in the room, the process proceeds to step S5 according to “YES”.

  In step S5, the control unit 11 sounds the buzzer 17 to start the cooling operation. By sounding the buzzer 17, it is notified that the room 5 is in a heat stroke risk condition. At the start of the cooling operation, the control unit 11 drives the up / down air direction plate drive control motor 15 to swing the upper / lower air direction plate 8 in the up / down direction, and drives the left / right air direction plate drive control motor 16 to move left / right. The wind direction plate 9 is swung (oscillated) in the left-right direction. By starting the cooling operation, the cold air cooled by the heat exchanger in the indoor unit 2 is sent out from the outlet 7 toward the room 5. Further, by swinging the vertical wind direction plate 8 and the left and right wind direction plate 9, as shown by an arrow B in FIG. 4, the cold wind sent from the outlet 7 also swings up and down and left and right, and the cold wind is spread over a wide range of the room 5. It begins to flow. At this time, the control unit 11 also detects the position where the person M is present based on the information from the two human sensors 14 and controls the direction of the wind so that the wind goes to the position where the person M is present. Thereby, the cold air blown out from the indoor unit 5 can effectively act on the person M in the room 5, can cool the person M's body effectively, and can effectively prevent heat stroke. Will be able to.

  In step S6, the control unit 11 determines whether or not it is determined by the human sensor 14 that the person is absent for a predetermined time (Z minutes) during the cooling operation. When it is detected that the person M is in the room 5, the cooling operation is continued. When it is determined in step S6 that the person is absent for a predetermined time in step S6, the control unit 11 returns to step S1 according to “YES”, enters a standby state, and the cooling operation ends.

  According to the above-described embodiment, the following operational effects can be obtained. In the heat stroke prevention process, the control unit 11 determines whether or not the condition of the room 5 is a heat stroke risk condition based on the detected temperature of the indoor temperature sensor 12 and the detected humidity of the indoor humidity sensor 13, and the heat stroke is determined. When it is determined that it is a dangerous condition, the buzzer 17 notifies that it is a heat stroke dangerous condition, and the cooling operation is started. As a result, it is possible to prevent cold air from being blown into the room 5 from the outlet 7 of the indoor unit 2 and acting on the person M in the room 5 to cause heat stroke. In addition, in this case, when the cooling operation is started, the up / down wind direction plate drive control motor 15 and the left / right wind direction plate drive control motor 16 are caused to swing the up / down wind direction plate 8 and the left / right wind direction plate 9, thereby Cold air can be more effectively applied to the person M who is present, the body of the person M can be effectively cooled, and heat stroke can be more effectively prevented.

  The wind direction plate includes an up / down wind direction plate 8 and a left / right wind direction plate 9, and when the control unit 11 swings the wind direction plate, by swinging both the up / down wind direction plate 8 and the left / right wind direction plate 9, The cool air blown out from the outlet 7 into the room 5 can be sent to a wider range, the cold air can be more effectively applied to the person M in the room 5, and heat stroke can be prevented more effectively. Will be able to.

  A human sensor 14 capable of detecting a position where a person is present is provided, and the control unit 11 causes the wind direction so that the wind goes to the position where the person is present based on detection information of the human sensor 14 when the cooling operation is started. By controlling the direction of the plate 8 and the left and right wind direction plates 9, the cold air can be more effectively applied to the person M in the room 5, and heat stroke can be more effectively prevented.

  The controller 11 starts the cooling operation only when the presence sensor 14 detects that there is a person in the room 5, and after the cooling operation starts, the person is absent for a predetermined time or more based on the detection information of the presence sensor 14. If it is, the cooling operation is terminated. According to this, wasteful electric power can be reduced as much as possible while preventing heat stroke.

  The control unit 11 periodically drives the indoor fan by the indoor fan drive motor 6 in the standby state of the cooling operation. When the indoor fan is not driven by the indoor fan drive motor 6 in the standby state, the air around the indoor unit 2 hardly flows, and therefore the detected temperature by the indoor temperature sensor 12 and the detected humidity by the indoor humidity sensor 13 are There is a risk that the data will be biased. On the other hand, the indoor fan is driven by the indoor fan drive motor 6 so that the air in the room 5 flows. Therefore, the indoor temperature sensor 12 and the indoor humidity sensor 13 average the entire room 5. It becomes possible to detect temperature and humidity as accurately as possible. Moreover, in the standby state, the indoor fan drive motor 6 periodically drives the indoor fan for a predetermined time, so that power consumption and noise can be reduced compared to the case where the indoor fan drive motor 6 is continuously driven during the standby state. Can be reduced.

(Other embodiments)
The air conditioner may be at least having a cooling function, and may have no heating function. The notifying means is not limited to the buzzer 17 and may be notified by voice, for example.
In the above-described embodiment, the human sensor 14 is provided with two fixed sensors, and the two human sensors 14 can detect the position where the person is present. When the head is swung and the region in the left-right direction is divided into several parts and a position where a person is present is detected every predetermined time, there is only one human sensor and a sensor driving means is required. The human sensor may be a sensor using a CMOS sensor or a CCD camera that can recognize an image.

  As described above, according to the air conditioner of the present embodiment, whether or not the indoor condition is a heat stroke risk condition based on the detected temperature of the indoor temperature detecting means and the detected humidity of the indoor humidity detecting means. When it determines and it is determined that it is a heat stroke dangerous condition, while notifying that it is a heat stroke dangerous condition by an alerting | reporting means, a cooling operation is started. Thereby, it becomes possible to prevent cold air from acting on a person in the room and causing heat stroke. In addition, in this case, when the cooling operation is started, the wind direction plate is swung, so that the cold air can be more effectively applied to the person in the room, and heat stroke is more effectively prevented. Will be able to.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  In the drawings, 1 is an air conditioner, 2 is an indoor unit, 5 is indoors, 6 is an indoor fan drive motor, 7 is an outlet, 8 is a vertical wind direction plate (wind direction plate), 9 is a left and right wind direction plate (wind direction plate), 11 is a control unit (control means, heat stroke risk condition determination means), 12 is an indoor temperature sensor (room temperature detection means), 13 is an indoor humidity sensor (room humidity detection means), and 14 is a human sensor (human detection means). , 15 is an up / down wind direction plate drive control motor (wind direction plate drive means), 16 is a left / right wind direction plate drive control motor (wind direction plate drive means), and 17 is a buzzer (notification means).

Claims (4)

An indoor unit installed indoors, an indoor temperature detecting means for detecting the temperature of the room in which the indoor unit is installed, an indoor humidity detecting means for detecting the humidity in the room, and a detection detected by the indoor temperature detecting means Heat stroke risk condition determination means for determining whether or not it is a heat stroke risk condition based on temperature and the detected humidity detected by the indoor humidity detection means, notification means, and control means, the control means, When it is determined that the heat stroke risk condition determination means is a heat stroke risk condition, the notification means is an air conditioner that starts a cooling operation while notifying that it is a heat stroke risk condition,
The indoor unit includes a wind direction plate for controlling the direction of the cold air blown from the outlet during cooling operation, and a wind direction plate driving means for driving the wind direction plate,
The indoor unit includes an indoor fan for blowing air,
The control means drives the indoor fan in a cooling operation standby state before the heat stroke risk condition determination means determines the heat stroke risk condition,
The control unit causes the wind direction plate to swing by the wind direction plate driving unit when the heat stroke risk condition determination unit determines that the heat stroke risk condition is determined and starts the cooling operation. Harmony machine. The wind direction plate includes a vertical wind direction plate and a left and right wind direction plate,
2. The air conditioner according to claim 1, wherein when the wind direction plate is swung by the wind direction plate driving unit, the control unit swings both the upper and lower wind direction plates and the left and right wind direction plates. Equipped with a human detection means capable of detecting the position of a person,
The control means controls the direction of the wind direction plate by the wind direction plate driving means so that the wind goes to a position where a person is present based on detection information of the person detection means when the cooling operation is started. The air conditioner according to claim 1 or 2.   The control means starts the cooling operation only when the person detection means detects that there is a person in the room, and after the cooling operation starts, the person is absent for a predetermined time or more based on the detection information of the person detection means. The air conditioner according to claim 3, wherein the cooling operation is terminated when

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