KR900006704Y1 - The energy measure for house - Google Patents

Abstract

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Description

Home Energy Requirements Calculator

1 is a perspective view of the present invention.

2 is a plan view of the top plate of the present invention.

3 is a plan view of the assistant of the present invention.

4 is a rear view of the assistant of the present invention.

The energy consumption calculator of the designed home is to easily calculate the heating energy requirements of the existing house even for housewives.

The energy consumed in a house includes heating energy as well as device energy required when using an energy heating device for lighting energy.

Lighting, cooking, and appliance energy generate heat when applied to the required applications, respectively, and reduce the heating energy requirements. Therefore, the heating energy is significantly affected by the internal heat generation including the heat generation and airtightness of the building itself as well as the human body heat of the occupants, and the internal heat generation should be taken into account when calculating the heating energy requirements of the existing house.

In order to devise an energy requirement calculator for homes that can easily calculate the heating energy requirement of an existing house, the house owner or housewife needs to find a simple and accurate heating energy calculation method and an internal heating energy estimation method.

To do this, first, the functional relationship between the difference in energy requirements and variables was calculated. Second, the type and size of internal heat generation and the effects of heating energy requirements on the houses were calculated.

Using this result, the equation for calculating the heating energy requirement (Q) of the house is as follows.

T _E = E _e + E _w + E _win + E _p + E ₁ + E ₂ . … … … … … … … … … … … … … (Eq. 1)

here

T _E : Heating energy requirement due to energy change factors (Mcal / m ² , year)

E _e : Energy requirement of the roof (Mcal / m ² , year)

E _w : wall energy requirement (Mcal / m ² , year)

E _win : Creative energy requirement (Mcal / m ² , year)

E _p : energy requirement of the floor (Mcal / m ² , year)

E ₁ : Energy requirement for ventilation (Mcal / m ² , year)

E ₂ : Energy requirement due to internal heat generation (Mcal / m ² , year)

Q = T _E × (I + H _L ) × (I / E) × F _h × D × H _h × D _L. … … … … … … … … (Eq. 2)

H _L : Heat loss rate coefficient of the floor

E: Equipment efficiency

R _A : House area factor

D: shape factor of house

H _A : Heating area / floor area

D _L : Heating load factor

Based on the above principle, the present invention analyzes the heating energy requirement according to the change of the factors affecting the heating energy requirement of the house using the DOE-2.1A program, and analyzes the result of the heating energy of the existing house by statistical method. The requirements are simple, quick and precise.

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

The calculator's structure consists of grooves (A '), recessed holes (B) (B'), see-through holes (C) (C '), and housing specifications (change elements) (D) (D'). Thirteen assistants (Tab) with top plate (E) and thirteen numbers (1 …… 13) and thirteen one-story specifications (1a …… 13a) and nine two-story specifications (1 ₂ …… 9 ₂ ) ) (1b …… 13b) and the contents of each assistant are as follows.

(1b) and (2b) indicate the insulation state of the wall and roof (heat insulation thickness: mm), (3b) indicates the degree of ventilation, and (4b) indicates the window structure and window area ratio (window area / floor area). , (5b) is the number of people living in the house, (6b) is the average monthly gas consumption, (7b) is the average monthly electricity consumption, (8b) is the degree of insulation of the floor (heat insulation thickness: mm) (9b) denotes the area of the house, (10b) denotes the shape of the house, (11b) denotes the heating area (heating area) of the house, and (12b) denotes the area, ( No. 13b) shows boiler efficiency and briquetting heating.

The usage of such a calculator is adapted according to the number corresponding to the house to be obtained (for example, the first floor of the Seoul area).

In other words, up to the upper part of the assistant (1b… 8b), the number (heating energy requirement for each variable) on the right side can be added or subtracted according to the sign (+ or-) in front of it. Multiply the numbers that come out and continue (9b). … Multiply the number from the right seeing hole to assistant (12b) and multiply this number by the number below the assistant (13b) in a house heating briquettes, and this value is the annual heating energy requirement of the house you want to find. (Briquette)

And in a house with oil (oil) heating, multiply the number in the upper right hole of assistant (13b) by the number, and this value calculates the heating energy requirement (amount of diesel) required for the year you want to find. Will be.

In case of two-story houses in Seoul (Seoul, Suwon, Chuncheon, Incheon, Cheongju, Daejeon, etc.), the same calculation shall be made as above, except that 1 ₂ … … 9 Use ₂ assistants (1 ₂ …… 9 assistant ₂ is on the back of assistants 1b …… 9b).

To calculate the heating energy requirements of the house more accurately by using the calculator of the present invention, use the interpolation method when the specification of the house (the change factor) is the median value of the value written on each assistant. Calculations give better results.

An embodiment of the present invention is as follows.

Energy Requirements Calculator for Homes

1. Precautions

end. Use each assistant in the order of 1, 2, 3-12, and 13 from above.

2. Description of Assistant

Window area

The area of housing excludes the area of basements and attics.

Ventilation degree

3. How to use the calculator

end. For the house you want to find, you can find the number in the space on the right if you match the number. Calculating this number according to the sign is the annual heating energy consumption of the house.

(E.g. one-story house, wall thickness 20mm, roof 30mm, floor 25mm, normal ventilation, double glazing, window area ratio 20%, 4 residents in the house, gas consumption 11kg / month, Power consumption 110KWH, housing area ratio 83m ² (25 pyeong), the type of house The heating part is room (bedroom), the area is Seoul, and the boiler efficiency is 85%.

(Calculation example)

(4.9 + 4.7 + 5.9 + 1.4-1.5-1.7-1.2 + 1.5) × 1.13 × 83 × 1.014 × 0.5 × 1.0 × 1.18 = 786ℓ

I. In case of a two-story house, 1 ₂ . … 9 You must use Assistant ₂ .

All. For a more accurate calculation, if the housing specifications (change factor) are the values written for each assistant and the median value, it is better to calculate them using the supplementary compensation.

City of Examples

The energy requirement calculator was devised using the energy requirements for each heating energy change factor and equations (1) and (2). In order to find out the precision of the developed home energy requirements calculator, the results are compared with BEPS values calculated using the DOE­2 program (Table 1 and 2).

In the table, the maximum error is 4.1% for one-story homes and 5.8% for two-story homes, with a rough (average) error of around 3%.

The result is an error for the basic house, and if the change of the housing area or the type of house is made, the value of the error is expected to increase, but there is no big change.

The present invention is simpler than the conventional method for analyzing building energy by water calculation, and it is possible to obtain precise results like a computer program. Therefore, it is a simple house energy calculation method that the homeowner or housewife can easily calculate the heating energy requirements directly. Raise awareness and use it as a design basis for future repairs.

TABLE 1

註 1) DOE­2 is a value of 80%.

2) In the change factor, A refers to the thickness of the insulation of the wall, floor and roof (mm), in B, 1 means single window, 2 means double window, 3 means triple window, C means glass window area ratio (%), D Is the number of family members, E is the average monthly gas consumption (kg / month), and F is the number of ventilations. The blank area below the change element is the same as the value above.

3) Error means (1­ calculation chart value / DOE­2) × 100 and unit is%.

TABLE 2

Claims (1)

Holes for the top plate (E) marked with recesses (A) (A '), recesses (B) (B') and see-through holes (C) (C ') and housing specifications (D) (D') Thirteen assistants (1 _b ..., 13) indicated with thirteen number 113 and thirteen first-level specifications (1a... 13a) and nine two-story specifications (1 ₂ 9 ₂ ). 13 _b ) Home energy requirements calculator fitted.