JP6403043B2 - Residential temperature controller - Google Patents

Description

  The present invention relates to an in-house temperature control apparatus, and more particularly to an in-house temperature control apparatus having a plurality of partitioned spaces.

  There are a plurality of partitioned spaces in the house, and a certain space is used as a living room equipped with air conditioning equipment such as an air conditioner. However, it is normal that air conditioning equipment is not installed in spaces (non-residential rooms) such as corridors, dressing rooms, closets, and staircases. For this reason, for example, a person who was in a room where heating was effective in the winter may lose physical condition due to a heat shock when moving to a non-room.

  Patent Document 1 provides a ventilation path for guiding warm air from a utility room equipped with a warm air generation device and an opening / closing device for opening and closing the ventilation path in a dressing room that is not a living room, and the temperature of the dressing room is equal to or lower than a predetermined temperature. The one that opens the air passage is shown.

  In this case, even if the temperature of the non-residential room is equal to or higher than a predetermined value, a heat shock may occur if the temperature difference from the temperature of the living room is large.

JP 2010-85016 A

  This invention is made | formed in view of the said problem, and makes it a subject to provide the temperature control apparatus in a house which can relieve the heat shock in a house effectively.

An in-house temperature control device according to the present invention includes an air conditioner installed in one of two adjacent spaces in a house, a temperature sensor installed in the other space, and the space between the two spaces. Two space chambers obtained from an opening connecting the two, a ventilation part having a variable opening area disposed in the opening, a temperature sensor provided in the air conditioner, and a temperature sensor disposed in the other space depending on the temperature difference Ri Do and a control unit for changing the opening area of the ventilation unit, the control unit and the air conditioner is connected by wire or wirelessly, the controller increases the opening area of the ventilation part In some cases, a signal is sent to the air conditioner so as to increase the output of the air conditioner .

The residential temperature control apparatus according to the present invention includes an air conditioner installed in one of two adjacent spaces in the house, a temperature sensor installed in the other space, and the two spaces. Two spaces obtained from an opening connecting the two, a ventilation section having a variable opening area disposed in the opening, a temperature sensor provided in the air conditioner, and a temperature sensor disposed in the other space. The control unit is configured to change the opening area of the ventilation unit according to a difference in room temperature. The control unit and the air conditioner are connected by wire or wirelessly, and the control unit increases the opening area of the ventilation unit. In some cases, a signal is sent to the air conditioner so as to change the direction of the wind to the direction toward the ventilation section .

  According to the present invention, since the ventilation portion changes the opening area in accordance with the room temperature difference between the two spaces, the room temperature difference between the two spaces can be appropriately reduced, and the room temperature difference is eliminated. Therefore, heat shock can be reliably suppressed.

It is a block diagram of the Example of this invention. It is a perspective view which shows a ventilation part same as the above. It is sectional drawing which shows the other example of a ventilation part same as the above.

  Hereinafter, the present invention will be described in detail with reference to the illustrated embodiment. In FIG. 1, reference numerals 1 and 2 denote spaces in a house. Is installed. The wall 3 that partitions the space 1 and the space 2 is provided with an opening 30 that connects between the spaces 1 and 2 and can be opened and closed by the door 4. Further, as shown in FIG. 2, a ventilation portion 5 having a variable opening area is provided in a portion above the door 4 of the opening 30. The ventilation section 5 includes an opening / closing plate 50 that is rotatable on the space 2 side with the upper end side as a fulcrum, and the opening / closing plate 50 is rotationally driven by the drive unit 6. As the driving unit 6, a stepping motor, an electric actuator, or the like can be used.

  On the other hand, a temperature sensor 7 is arranged on the inner wall of the space 2, and the temperature sensor 7 and the air conditioner 11 installed in the space 1 are connected to the control unit 8 that controls the driving of the driving unit 6. ing. The control unit 8 takes in the room temperature of the space 2 by the temperature sensor 7 arranged in the space 2 and takes in the room temperature of the space 1 by the temperature sensor 12 provided for the air conditioner 11 to control the room temperature.

  And the control part 8 changes the opening area of the ventilation part 5 by controlling the angle of the said opening-and-closing plate 50 according to the difference of the room temperature of both the spaces 1 and 2 taken in from both the temperature sensors 7 and 12. FIG.

  The opening area of the ventilation part 5 is normally controlled when the opening and closing plate 50 is in a vertical state and the opening area of the ventilation part 5 is zero. The part 8 takes in the room temperature of both the spaces 1 and 2 and maintains the state where the opening area is zero if there is no room temperature difference.

  However, if the room temperature of the space 1 is higher than the room temperature of the space 2 due to the operation of the air conditioner 1 and the like, and the room temperature difference between the spaces 1 and 2 exceeds a predetermined value, the controller 8 Rotates the opening / closing plate 50 by driving the drive unit 6. At this time, since the control unit 8 rotates the opening / closing plate 50 by an angle corresponding to the room temperature difference between the two spaces 1 and 2, the opening area of the ventilation unit 5 is kept small if the room temperature difference is small. If the temperature difference is large, the temperature is kept large.

  If the room temperature of the space 2 rises due to the entry / exit of the air through the ventilation portion 5 connecting the upper portions of the spaces 1 and 2 and the temperature of the spaces 1 and 2 falls within the predetermined value, the control portion 8 Close part 5. The position of the opening 30 is preferably provided in the upper part of the wall 3 which is a partition partitioning the spaces 1 and 2 in consideration of the heating in winter.

  The opening 30 that connects the space 1 and the space 2 may be provided in the wall 3 or may be a duct 31 disposed in the ceiling as shown in FIG. The louvers 51 and 52 are respectively arranged on the ceiling surfaces of the spaces 1 and 2 where both ends of the duct 31 are open, and at least one of the louvers 51 and 52 is of a shutter type so that the opening area can be changed. The ventilation section 5 is used. In addition, a fan 9 is arranged in the duct 31, and when the louvers 51 and 52 are opened according to the room temperature difference between the two spaces 1 and 2, the fan 9 is also operated, so that both the spaces through the duct 31 are operated. You may ensure the ventilation between 1 and 2. The blower 9 assists the movement of air from one space 1 to the other space 2, and the air flow rate is adjusted by changing the opening area of the louver 52. The louver 51 may also be a shutter type with a variable opening area.

  If the room temperature difference between the two spaces 1 and 2 increases, the control unit 8 may change not only the opening area of the ventilation unit 5 but also the output and air direction of the air conditioner 11. That is, when the room temperature difference is large and the opening area of the ventilation unit 5 is increased, the output of the air conditioner 11 is increased or the direction of the wind is changed to the direction toward the ventilation unit 5.

  Since the temperature of the space 1 also decreases when the warm air in the space 1 moves toward the space 2 having a low room temperature by opening the ventilation unit 5, the air conditioner 11 operating to maintain a constant room temperature decreases the room temperature. Increase the output accordingly. However, in this case, due to a time lag, the room temperature of the space 1 temporarily decreases. On the other hand, when increasing the output area of the air conditioner 11 at the same time as increasing the opening area of the ventilation part 5, the room temperature of the space 2 can be raised while suppressing a temporary decrease in the room temperature of the space 1. Note that only one of the increase in the output of the air conditioner 11 and the change in the wind direction may be performed.

  And in the thing which changes the output of the air conditioner 11 simultaneously with changing the opening area of the ventilation part 5, not only according to the room temperature difference of both the spaces 1 and 2, but the ventilation part only according to the room temperature value of the space 2. The change of the opening area of 5 and the output change of the air conditioner 11 may be performed. That is, if the room temperature of the space 2 becomes lower than a predetermined set value, the opening area of the ventilation part 5 is increased and the output of the air conditioner 11 is increased at the same time. Even if the room temperature difference between the two spaces 1 and 2 is not so large, if the room temperature of the space 2 whose room temperature is lower than that of the space 1 is too low, there is a risk of causing a heat shock, but this can be prevented.

  Although several examples were shown as the ventilation part 5 which changes opening area according to a room temperature difference, it is not limited to these, What changes the ventilation volume between both the spaces 1 and 2 by changing opening area Any form can be used. Moreover, although the example which assumed the time of heating in winter was shown, you may make it the ventilation part 5 change an opening area according to the room temperature difference of both the spaces 1 and 2 also at the time of cooling in summer. In this case, it is preferable that the ventilation portion 5 communicates between the lower portions of the spaces 1 and 2.

  The connection between the control unit 8 and the air conditioner 11 may be performed wirelessly instead of wired. Usually, the air conditioner 11 sends the room temperature measured by the temperature sensor 12 provided in the air conditioner 11 to the remote controller side in addition to the exchange of signals for changing the output and wind direction with the remote controller. By utilizing this point, wireless connection between the control unit 8 and the air conditioner 11 can be easily performed. If the control unit 8 and the drive unit 6 are also wirelessly connected, the control unit 8 can be disposed in the space 1 where it can be easily operated.

DESCRIPTION OF SYMBOLS 1 Space 2 Space 5 Ventilation part 6 Drive part 7 Temperature sensor 8 Control part 11 Air conditioner 12 Temperature sensor

Claims (2)

An air conditioner installed in one of the two adjacent spaces in the house, a temperature sensor installed in the other space, an opening connecting the two spaces, and an opening arranged in the opening. The opening area of the ventilation section is determined according to a difference in room temperature between two spaces obtained from the ventilation section having a variable opening area, a temperature sensor provided in the air conditioner, and a temperature sensor disposed in the other space. Ri Do and a control unit for changing, the control unit and the air conditioner is connected by wire or wireless, and the control unit, when increasing the opening area of the ventilation unit, so as to increase the output of the air conditioner A house temperature control device characterized by sending a signal to the air conditioner . An air conditioner installed in one of the two adjacent spaces in the house, a temperature sensor installed in the other space, an opening connecting the two spaces, and an opening arranged in the opening. The opening area of the ventilation section is determined according to a difference in room temperature between two spaces obtained from the ventilation section having a variable opening area, a temperature sensor provided in the air conditioner, and a temperature sensor disposed in the other space. The control unit and the air conditioner are connected by wire or wirelessly, and when the opening area of the ventilation unit is increased, the control unit changes the direction of the wind toward the ventilation unit. An in-house temperature control device characterized by sending a signal to the air conditioner.

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