JPH04205569A - Method and device for designing rain gutter - Google Patents

Abstract

PURPOSE:To realize the design of a rain gutter with high accuracy at high speed by determining a proper rain gutter dimension and a rain gutter fitting relational dimension to eaves by an arithmetic device based on roof conditions, weather conditions and design conditions. CONSTITUTION:An arithmetic device 3 plots an eaves detailed drawing on a display 4 based on roof conditions inputted from a keyboard 1 and a mouse 2. Then, the arithmetic device 3 operates the capacity of a rain gutter can be adapted to displacement, wind force, a snow quantity based on weather conditions inputted from the keyboard 1 and the mouse 2. Moreover, the form and the dimension of the rain gutter are determined with using respective kinds of rain gutter data stored in a ROM 8 in advance based on the capacity of the rain gutter and design conditions inputted from the keyboard 1 and the mouse 2. Besides, the arithmetic device 3 plots the drawing in which the form and the dimension of the rain gutter are overwritten on the eaves detailed drawing as an eaves contented drawing on the display 4. Thus, the design of the rain gutter can be executed with high accuracy at high speed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a rain gutter design method and a rain gutter design device.

[Conventional technology] Traditionally, rain gutters were designed using manual calculations, taking into consideration roof conditions such as roofing material and roof slope, meteorological conditions such as drainage volume, wind power, and amount of snow, and design conditions such as gutter shape. Therefore, the appropriate rain gutter dimensions and the related dimensions for installing the rain gutter to the eaves were determined.

[Problems to be Solved by the Invention] However, in the prior art, the above-mentioned rain gutter design is based on manual calculation, and therefore there is a limit to the improvement in design accuracy and design speed.

An object of the present invention is to enable rain gutter design to be executed with high accuracy and speed.

[Means for Solving the Problems] The rain gutter design method according to claim 1 is based on roofing materials, roof conditions such as roof slope, rainwater fall distribution at each roof tap, meteorological conditions such as drainage amount, gutter shape, etc. input the design conditions into the calculation device,
The calculation device determines the appropriate rain gutter dimensions and the related dimensions for rain gutter installation, and based on the determination results by this calculation device, the dimensions of each part of the rain gutter and the related dimensions for rain gutter installation are outputted from the output device. It's ours.

The rain gutter design device according to claim 2 includes an input device for inputting roof conditions such as roofing material and roof slope, meteorological conditions such as rainwater fall distribution for each roof pitch, drainage amount, and design conditions such as seed shape;
A calculation device that determines appropriate rain gutter dimensions and related dimensions for rain gutter installation based on roof conditions, and an output that outputs the dimensions of each part of the rain gutter and related dimensions for rain gutter installation based on the results determined by this calculation device. The device is equipped with a device.

[Function] According to the present invention, based on the roof conditions, weather conditions, and design conditions, the calculation device determines the appropriate rain gutter dimensions and the related dimensions for installing the rain gutter to the eaves. We can design gutters with high precision and speed.

[Embodiment] Fig. 1 is a circuit diagram showing an example of the rain gutter design device of the present invention, and Fig. 2 is a diagram showing how the eaves fit together.

The rain gutter design device is constructed as shown in FIG.

In FIG. 1, 1 is a keyboard, 2 is a mouse, 3 is an arithmetic unit, 4 is a display, and 5 is a printer. At this time, the keyboard 1 and mouse 2 constitute an input device, and the display 4 and printer 5 constitute an output device. The arithmetic unit [3 is an input/output circuit 6, a CPU 7, a ROM
8, RAM9. Note that 10 is an external storage device.

The keyboard 1 and mouse 2 input the following (A) to (C) to the arithmetic device 3.

(A) Roof conditions ■Roofing materials: Japanese wood, Western wood, cement wood, folded plates, slate, etc. ■Roof slope ■Eave structure: distance between the eaves and the tip of the roof, mounting slope, etc. ■Others...・Roof area, eave length (B) Weather conditions ■ Drainage volume (rainfall) ■ Wind power ■ Snowfall ■ Other (C) Design conditions ■ Gutter shape: round gutter, square gutter, etc., height and width of the gutter 1. Length, coefficient of linear expansion, shape of expansion joint (expansion/contraction length) ■Gutter color: If there is a designated color at the eaves, determine the color of the gutter by considering the relationship with the designated color.

■The type of metal fittings, whether the metal fittings are invisible or not, and the strength of the metal fittings.■Whether or not a funnel is used for the joint with the vertical gutter.■Other calculation device 3 uses the above information input from keyboard 1 and mouse 2. Display 4 detailed map of the eaves based on the roof conditions.
Draw it out.

Based on the above-mentioned weather conditions input from the keyboard 1 and mouse 2, the calculation device 3 calculates the capacity of the rain gutter that can be adapted to the amount of drainage, wind power, and snowfall.

Furthermore, the calculation device 3 uses various rain gutter data pre-stored in the ROM 8 based on the capacity of the rain gutter which is the above-mentioned calculation result and the above-mentioned design conditions inputted from the keyboard 1 and the mouse 2. , type of rain gutter (round gutter, square gutter, etc.),
Determine dimensions.

The eaves fitting diagram is the one overwritten on the narrow opening (see Figure 2).
It is drawn on Display 4 as At this time, the arithmetic unit 3 draws on the display 4 the relative dimensions of the rain gutter installation, such as the relative position of the rain gutter to the eaves, the fitting pitch (installation interval), etc., and allows the printer 5 to print out the relevant dimensions.

According to the above embodiment, the calculation device 3 determines the appropriate rain gutter dimensions and the installation of the rain gutter to the eaves based on the roof conditions, weather conditions, and design conditions. Gutter design can be executed with high precision and speed.

[Effects of the Invention] As described above, according to the present invention, rain gutters can be designed with high precision and high speed.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an example of the rain gutter design device of the present invention, and FIG. 2 is a diagram showing how the eaves fit together. 1... Keyboard (input device), 2... Mouse (input device), 3... Arithmetic device, 4... Display (input/output device), 5... Printer (output device). Patent applicant: Sekisui Chemical Co., Ltd. Representative Hiroshi 1) Kaoru

Claims (2)

[Claims] (1) Roof conditions such as roof material and roof slope, meteorological conditions such as rainwater fall distribution at each roof pitch, drainage volume, and design conditions such as gutter shape are input into the calculation device, and the calculation device determines the appropriate rain gutter dimensions. and determining the dimensions related to the installation of the rain gutter, and outputting the dimensions of each part of the rain gutter and the dimensions related to the installation of the rain gutter from an output device based on the determination result by the calculation device. (2) An input device for inputting roofing materials, roof conditions such as roof slope, meteorological conditions such as rainwater fall distribution at each roof pitch, drainage volume, and design conditions such as gutter shape, appropriate rain gutter dimensions based on roof conditions,
and an arithmetic device that determines the dimensions related to the installation of the rain gutter, and an output device that outputs the dimensions of each part of the rain gutter and the dimensions related to the installation of the rain gutter based on the results determined by the arithmetic device. Design equipment.