JP2009299314A - Temperature regulating system of house - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a temperature regulating system which can bring about an effective heating effect even in cold regions, in particular, in mountainous regions etc. with extreme annual temperature difference. <P>SOLUTION: Blinds 19 and 20, the fin angles of which can be automatically adjusted, are installed on the indoor side of a glass door or glass windows 17a and 18a, which face the outdoor sides of adjacent sun heating rooms 17 and 18, via panes 17b and 18b of glass in habitable rooms 13 and 14 of a house. A solar radiation sensor 22, which detects the amount of solar radiation incident from the outdoor-side glass door or glass window into the sun heating room, and a temperature sensor 23, which detects the room temperature of the sun heating room, are provided. A control unit 32 regulates the temperature in the room of the house by automatically adjusting the fin angle of the blind depending on the amount of solar radiation detected by the solar radiation sensor and the room temperature detected by the temperature sensor. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a temperature control system in a house that can exhibit an effective heating effect even in a cold region.

  Heating is considered to be indispensable for living comfortably in detached houses, especially in cold regions. Air conditioning, electric / hot water floor heating, kerosene, gas, electricity, etc. are used as heat sources. Fan heaters (including FF fan heaters), stoves, kotatsu, and electric carpets are used.

  Using such a heating device is naturally costly, and it is preferable to refrain from using it as much as possible from the viewpoint of energy saving.

  The present inventor did not use any heaters during the construction of a house for many years in the Yamagata region where the outside air falls to −10 ° C. or lower in winter and the temperature difference is severe. We have succeeded in realizing a “no-heating system” by developing a housing structure and construction method that can comfortably spend a year including winter.

  Therefore, the problem to be solved by the present invention is to provide a temperature control system that can provide an effective heating effect even in cold regions, particularly in the Yamagata region where the temperature difference between the years is severe. is there.

  In order to solve this problem, the invention according to claim 1 is characterized in that the fin angle is provided on the indoor side of the outdoor translucent surface facing the outdoor side of the sun heating room adjacent to the living room of the house via the indoor translucent surface. A solar sensor that detects the amount of solar radiation entering the sun heating room from the outdoor translucent surface, and a temperature sensor that detects the room temperature of the sun heating room, This is a temperature adjustment system in a house characterized in that the fin angle of the blind is automatically adjusted according to the detected amount of solar radiation and the room temperature detected by the temperature sensor.

  According to a second aspect of the present invention, in the temperature control system according to the first aspect, the compressor of the heat pump water heater is installed in the sun heating room, and the thermal efficiency of the compressor is increased by effectively utilizing the room temperature of the sun heating room. In addition, the present invention is characterized in that the low-temperature exhaust from the compressor can be used for cooling.

  According to the present invention, a blind that can automatically adjust the fin angle is installed inside a glass door or glass window on the outside of a sun heating room adjacent to a living room of a house through glass, A solar sensor that detects the amount of solar radiation entering the sun heating room from the glass door or glass window and a temperature sensor that detects the room temperature of the sun heating room are provided, and the amount of solar radiation detected by the solar sensor and the room temperature detected by the temperature sensor are provided. Accordingly, since the blind fin angle is automatically adjusted, the room temperature of the sun heating room can be raised through the automatic adjustment of the blind fin angle even when the amount of solar radiation is small. For example, even if the outside air is -10 ° C in winter, the room temperature of the sun heating room can be raised to 40 ° C or higher, and in the summer, the sun is blinded to reduce the amount of sunlight. It is possible to prevent the room temperature of the room from rising excessively, thereby maintaining the room at a comfortable temperature.

  In addition, by installing the compressor of the heat pump water heater in the sun heating room, the room temperature of the sun heating room is effectively used to increase the thermal efficiency of the compressor, and the low-temperature exhaust from the compressor is used for cooling. be able to.

  Hereinafter, a preferred embodiment of the present invention will be described with reference to FIG. In FIG. 1, the code | symbol 10 is a wooden house house, and is shown as a two-story house in this embodiment. Reference numeral 11 is the floor of the first-floor room, 12 is the ceiling of the first-floor room 13, or the floor of the second-floor room 14, 15 is the roof, and 16 is the stairs.

  On the south side of the house 10, a sun heating room is provided adjacent to the first-floor room 13 and the second-floor room 14. The sun heating room may be provided through the first floor and the second floor, but in this embodiment, the first floor sun heating room 17 and the second floor sun heating room 18 are provided separately. Both the outer wall surface 17a of the first-floor sun heating room 17 and the indoor surface 17b on the first-floor living room 13 side are glass surfaces (glass doors or glass windows) over almost the entire surface or at least a relatively large area. Solar radiation can be taken into the first floor room 13 effectively. Similarly, in the first floor sun heating room 18, both the outer wall surface 18a and the indoor surface 18b on the second floor living room 14 side are almost entirely or at least a relatively large area with a glass surface (glass door or glass window). Therefore, the solar radiation can be effectively taken into the second-floor room 14. Doors (not shown) are provided on the indoor glass surface 17b between the first floor living room 13 and the first floor sun heating room 17, and the indoor glass surface 18b between the second floor living room 14 and the second floor sun heating room 18 respectively. Provided between the first-floor living room 13 and the first-floor sun heating room 17 and between the second-floor living room 14 and the second-floor sun heating room 18.

  Blinds 19 and 20 are attached to the indoor side of the outer wall glass surfaces 17a and 18a of the first floor sun heating room 17 and the second floor sun heating room 18, respectively. The blinds 19 and 20 are of a type in which the angle of the fins can be automatically adjusted, and a control unit 32 for this purpose is attached in place. In this embodiment, the fin angle adjustment of the first-floor blind 19 and the second-floor blind 20 is simultaneously controlled by a single control unit 32, but the fin angles of these blinds 19 and 20 are controlled simultaneously. An embodiment in which a dedicated control unit is used for each individual control may be employed.

  The control unit 32 automatically adjusts the fin angles of the blinds 19 and 20 based on detection signals from the solar sensor 22 that detects the amount of solar radiation and the temperature sensor 23 that detects the room temperature of the sun heating rooms 17 and 18. Such solar radiation sensor 22 and temperature sensor 23 are well known and are readily available on the market.

  The solar radiation angle varies greatly depending on the season, time and location (latitude). For example, in the Yamagata region, the solar radiation angle at noon is about 80 degrees at the summer solstice and about 30 degrees at the winter solstice. The amount of solar radiation detected by the solar radiation sensor 22 varies depending on the solar radiation angle and the weather. However, since it is necessary to increase the room temperature by actively taking solar radiation indoors in the winter, the control unit 32 controls the blinds 19 and 20. The fin angle is controlled to substantially match the solar radiation angle. According to the experiment of the present inventor, it has been found that the room temperature of the sun heating rooms 17 and 18 rises to 40 ° C. or higher even when the outside air temperature is −10 ° C. The room temperature of the sun heating rooms 17 and 18 is transferred to the first-floor room 13 and the second-floor room 14 through the boundary glass surfaces 17b and 18b, so that these rooms are effectively (for example, at the above-described outside temperature). Can also be heated to room temperature up to about 20 ° C.).

  If the temperature sensor 23 detects a room temperature of, for example, 40 ° C. or higher, the control unit 32 may be exposed to solar radiation. The fin angles of the blinds 19 and 20 are adjusted so as to block the screen. In FIG. 1, symbol S indicates summer solar radiation, and symbol W indicates winter solar radiation.

  In order to raise the indoor temperature, the basic control method is to make the fin angle of the blinds 19 and 20 substantially coincide with the solar radiation angle so as to actively capture the solar radiation. By making the color darker, such as black, or by applying a paint mainly composed of a heat storage material such as trans 1,4-polybutadiene, it is possible to store heat by applying solar radiation to the fin surface. good. In this case, the heat storage on the surface of the blind is gradually dissipated to the sun heating rooms 17 and 18 so that the room temperature of the sun heating rooms can be maintained. For example, during the day when solar radiation is obtained, the fin angles of the blinds 19 and 20 are made to substantially coincide with the solar radiation angle, and in the evening when the solar radiation is not obtained, the fin angles of the blinds 19 and 20 are set to the solar radiation angle at a predetermined angle. It is possible to control to obtain a heat storage effect by crossing.

  In the first floor sun heating room 17, a compressor 24 of the heat pump hot water supply device 21 is installed. In general, the compressor 24 is often installed outdoors. However, particularly in cold regions in winter, it is extremely inefficient to produce hot water near 100 ° C from the outdoor compressor 24, which wastes energy. become. According to this embodiment, as described above, the room temperature of the sun heating room 17 can be set to 40 ° C. or higher even in a severe winter period such as -10 ° C., so that the compressor 24 is operated efficiently. And can reduce wasteful consumption of energy. In addition, since the temperature of the air that has passed through the compressor 24 is reduced by about 7 ° C. due to heat exchange, by installing the compressor 24 in the sun heating room 17, this cold exhaust can be used for cooling in the summer.

  In this house 10, rainwater is used to produce water used in the toilets 25 and 26. Reference numeral 27 denotes a rainwater tank, which is accommodated in a rainwater use facility space 28 that is installed by using a recess of the structural housing of the house 10, so that maintenance can be performed by providing a door that can be opened and closed at the opening facing outward. I have to. The rainwater falls through the roof 15, the eaves fence 29 and the fence 30, is filtered by the filter 31, and is stored in the rainwater tank 27.

  A ventilation fan 33 is provided in the first-floor room 13 or a bathroom (not shown), and exhaust heat from the room is sent to the exhaust heat pipe 34 by the operation of the ventilation fan 33. The exhaust heat pipe 34 is branched into an exhaust heat utilization pipe 35 having an exhaust port in the rainwater utilization facility space 28 and an exhaust pipe 36 having an exhaust port toward the outside, and one of them is selected by a branch switch 37. Mainly in winter, the branch switch 37 is operated so that the exhaust heat from the room passes through the exhaust heat utilization pipe 35, and the exhaust heat is sent into the rainwater utilization facility space 28. As a result, the rainwater utilization facility space 28 is heated, so that the rainwater tank 27 does not freeze even in winter, and the stored water can be used in the toilets 25 and 26. Since there is no need to install a heater to prevent the rainwater tank 27 from freezing, rainwater can be used for household toilets all year round even in cold regions such as Tohoku, which is extremely effective in saving water resources and reducing costs. is there.

  On the other hand, mainly in summer, the branch switch 37 is operated so that the exhaust heat from the room passes through the exhaust pipe 36, and the exhaust heat is directly discharged to the outside to prevent the room temperature from rising excessively. The ventilation fan 33 may be operated at all times, but it is preferable that the ventilation fan 33 be operated around a midnight time zone where the electricity bill can be reduced. Further, instead of manually operating the branch switch 37, the branch control may be automatically performed in response to a detection result from a temperature sensor or the like that detects the outside air temperature.

  Although the rainwater tank 27 in the illustrated embodiment uses and supplies rainwater as water for the toilets 25 and 26, it may be used for other purposes instead of or in combination with this. Needless to say. For example, a rainwater tank can be used to use rainwater as water for planting when houseplants are placed in the sun heating rooms 17 and 18 and the living rooms 13 and 14. In particular, when a rainwater tank is installed in the first floor sun heating room 17 that has a room temperature of 40 ° C. or higher even in winter, it is possible to prevent freezing without using exhaust heat in the room. It is.

  In the illustrated embodiment, the compressor 24 of the heat pump hot water supply device 21 is installed in the first floor sun heating room 17, but instead of or in combination with this, the rainwater utilization facility space 28 described above is used. The compressor may be installed. Also in this case, as described above, the rainwater utilization facility space 28 can be warmed by using exhaust heat from the room even in the winter, so that it contributes to energy saving by increasing the thermal efficiency and the cooling from the compressor in the summer. Exhaust can be used for cooling.

1 is a schematic elevation view of a house to which an embodiment of a temperature control system according to the present invention is applied. It is a top view which shows roughly the internal structure of rainwater utilization equipment space, (a) mainly shows the flow of waste heat in winter, (b) shows mainly in summer.

Explanation of symbols

10 Housing 11 First Floor 12 Second Floor 13 First Floor Room 14 Second Floor Room 15 Roof 16 Stairs 17 First Floor Sun Heating Room 17a Exterior Wall Glass Surface of First Floor Sun Heating Room (Outdoor Translucent Surface)
17b Indoor side glass surface of the first floor sun heating room (indoor side translucent surface)
18 Second Floor Sun Heating Room 18a Exterior Wall Glass Surface (Outdoor Translucent Surface) of Second Floor Sun Heating Room
18b Indoor side glass surface of the second floor sun heating room (indoor side translucent surface)
19 First floor blind 20 Second floor blind 21 Heat pump hot water supply device 22 Solar radiation sensor 23 Temperature sensor 24 Compressor 25 First floor toilet 26 Second floor toilet 27 Rain water tank 28 Rain water utilization equipment space 29 Eaves 30 竪 樋 31 Filter 32 Control unit 33 Ventilation fan 34 Exhaust Heat pipe 35 Waste heat utilization pipe 36 Exhaust pipe 37 Branch switch

Claims (2)

A blind that can automatically adjust the fin angle is installed on the indoor side of the outdoor translucent surface facing the outside of the sun heating room adjacent to the living room of the house through the indoor translucent surface. Provided with a solar sensor that detects the amount of solar radiation entering the sun heating room from the light surface and a temperature sensor that detects the room temperature of the sun heating room, and blinds according to the amount of solar radiation detected by the solar sensor and the room temperature detected by the temperature sensor Temperature control system in a house, characterized by automatically adjusting the fin angle of the house. Installed a heat pump water heater compressor in the sun heating room to effectively use the room temperature of the sun heating room to increase the thermal efficiency of the compressor and to use the low-temperature exhaust from the compressor for cooling The temperature regulation system according to claim 1, wherein

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