Method for evaluating thermal comfort of a structure and an assisting method, program or system for designing a structure in consideration of thermal comfort
First Claim
1. A method for evaluating thermal comfort of a structure constituted by a first, second, . . . n-th part (n is a natural number of at least two) wherein at least one of these parts is a translucent member for introducing light to the inside, the method for evaluating thermal comfort of a structure comprising:
- a step (a) of preparing data (1) of the material property of the first part, the material property of the second part, . . . the material property of the n-th part, and data (2) of an mount of solar radiation passing through the translucent member to reach a measuring device having a shape imitating a human body part, an amount of solar radiation to the structure, an amount of convection heat transfer in the structure, an amount of radiation heat transfer in the structure, humidity in the structure and/or a thermo-regulating function of the measuring device, and calculating at least one of the amount of heat loss from the surface of the measuring device, the temperature of the measuring device and/or the wettedness at the surface of the measuring device based on at least one in each of data (1) and (2), and a step (b) of calculating a thermal comfort index of the measuring device by using a result of the above calculation.
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Accused Products
Abstract
A step of preparing data of (1) material properties of a first part and so on and data of (2) an amount of solar radiation passing through the translucent member to reach a measuring device having a shape imitating a human body part, an amount of solar radiation to the structure, an amount of convection heat transfer in the structure, an amount of radiation heat transfer in the structure, humidity in the structure and/or a thermo-regulating function of the measuring device, and calculating at least one of the amount of heat loss from the surface of the measuring device, the temperature of the measuring device and/or the wettedness at the surface of the measuring device based on at least one in each of data (1) and (2), and a step (b) of calculating a thermal comfort index of the measuring device by using a result of the above calculation, are presented, whereby the thermal comfort of a structure is evaluated without using a laboratory equipment.
26 Citations
23 Claims
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1. A method for evaluating thermal comfort of a structure constituted by a first, second, . . . n-th part (n is a natural number of at least two) wherein at least one of these parts is a translucent member for introducing light to the inside, the method for evaluating thermal comfort of a structure comprising:
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a step (a) of preparing data (1) of the material property of the first part, the material property of the second part, . . . the material property of the n-th part, and data (2) of an mount of solar radiation passing through the translucent member to reach a measuring device having a shape imitating a human body part, an amount of solar radiation to the structure, an amount of convection heat transfer in the structure, an amount of radiation heat transfer in the structure, humidity in the structure and/or a thermo-regulating function of the measuring device, and calculating at least one of the amount of heat loss from the surface of the measuring device, the temperature of the measuring device and/or the wettedness at the surface of the measuring device based on at least one in each of data (1) and (2), and a step (b) of calculating a thermal comfort index of the measuring device by using a result of the above calculation. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 20)
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9. An assisting method for designing a structure in consideration of thermal comfort, the structure being constituted by a first, second, . . . the n-th part (n is a natural number of at least two) wherein at least one of these parts is a translucent member for introducing light to the inside, the assisting method for designing a structure comprising:
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a step (a) of preparing at least one candidate value for each of the material property of a first part, the material property of a second part, . . . the material property of an n-th part, and registering candidate values of material properties of these parts in a predetermined data base, a step (b) of selecting and reading the material property registered in said data base for each part, and preparing at least one combination among the registered material properties, calculating at least one of the amount of heat loss from the surface of the measuring device, the temperature of the measuring device and/or the wettedness at the surface of the measuring device based on at least one in each of data (1) combinations of material properties thus prepared and (2) an mount of solar radiation passing through the translucent member to reach the measuring device having a shape imitating a human body part, an amount of solar radiation to the structure, an amount of convection heat transfer in the structure, an amount of radiation heat transfer in the structure, humidity in the structure and/or a thermo-regulating function of the measuring device, and calculating a thermal comfort index of the measuring device by using a result of the above calculation, and a step (c) of selecting a combination of material properties having a value closest to the optimum thermal comfort index. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 22)
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21. A thermal comfort evaluation system for a structure constituted by a first, a second, . . . an n-th part (n is a natural number of at least two) wherein at least one of these parts is a translucent member for introducing light to the inside, the thermal comfort evaluation system for a structure comprising:
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means for preparing data (1) of the material property of the first part, the material property of the second part, . . . the material property of the n-th part, and data (2) of an mount of solar radiation passing through the translucent member to reach a measuring device having a shape imitating a human body part, an amount of solar radiation to the structure, an amount of convection heat transfer in the structure, an amount of radiation heat transfer in the structure, humidity in the structure and/or a thermo-regulating function of the measuring device, and calculating at least one of the amount of heat loss from the surface of the measuring device, the temperature of the measuring device and/or the wettedness at the surface of the measuring device based on at least one in each of data (1) and (2), and means for calculating a thermal comfort index of the measuring device by using a result of the above calculation.
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23. An assisting system for designing a structure constituted by a first, a second, . . . an n-th part (n is a natural number of at least two) wherein at least one of these parts is a translucent member for introducing light to the inside, the assisting system for designing a structure comprising:
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(a) means for preparing at least one candidate value for each of the material property of the first part, the material property of the second part, . . . the material property of the n-th part, and registering candidate values of material properties of these parts in a predetermined data base, (b) means for selecting and reading the material property registered in said data base for each part and preparing at least one combination among the registered material properties, calculating at least one of the amount of heat loss from the surface of the measuring device, the temperature of the measuring device and/or the wettedness at the surface of the measuring device based on at least one in each of data (1) combinations of material properties thus prepared and (2) an mount of solar radiation passing through the translucent member to reach the measuring device in a form of a human body part, an amount of solar radiation to the structure, an amount of convection heat transfer in the structure, an amount of radiation heat transfer in the structure, humidity in the structure and/or a thermo-regulating function of the measuring device, and calculating a thermal comfort index of the measuring device by using a result of the above calculation, and (c) means for selecting a combination of material properties having a value closest to the optimum thermal comfort index.
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Specification