JPH04128456A - Formation of roof panel - Google Patents

Abstract

PURPOSE:To enhance work efficiency by originating the plane of a roof, and dividing the plane into predetermined small panels on a drawing, and calculating the full size of each of actual roof panels according to the form of each small panel, so as to manufacture panels to be installed on the roof. CONSTITUTION:The plane of a roof is divided into small parts according to the arrangement and combination of panels 20a to 20d of basic shape. The full size of each roof panel to be actually used is calculated correspondingly to the form of each panel 20a to 20d and according to the actual gradient and size of the roof. Then each roof panel is actually formed according to the calculated full size of each roof panel. The work of installing the roof panels is thereby facilitated.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a roof panel installed on a roof frame for constructing a roof, particularly a roof panel suitable for use in roofs with complicated roof shapes. Regarding the forming method.

[Conventional technology]

Since the roof can be constructed using relatively simple roof frames, the construction method using roof panels as the foundation is widely used.

Figure 5 shows a two-story building with roof panels installed on the second roof frame. The roof type of the building shown is a gable roof, and rectangular panels are used as the roof panels. A plurality of roof panels 10 are installed in both directions along the slope of the roof around the ridgepole, and constitute the foundation of the roof surface.

Figures 6 (A) and (B) show an example of the structure of the roof panel 1 (), with Figure (A) showing the front side and Figure (B) showing the back side. There is.

Reference numeral 12 denotes a frame body, and a plate material 14 is stretched on one side of this lattice-shaped frame body 12 to form a panel. This plate material 14 is not limited to only one side, but can also be configured to be stretched on both sides.

The size of each roof panel 10 is standardized into a plurality of types, and various sizes are used depending on the size of the roof.

By using such roof panels, it is possible to construct a roof with a relatively easily constructed roof frame using roof panels and the like. It is sufficient to provide a roof support structure in the necessary parts to install the one-piece roof panel 10, and there is no need to construct a roof frame using a large number of beams and rafters.

[Problem to be solved by the invention]

However, with roof panels that are standardized and manufactured like the conventional roof panels described in Section 1. Although it is possible to prepare a roof that corresponds to the shape of the roof, it is not possible to easily adapt to roofs with complex external shapes. (11) In the case of a roof with a shape where multiple roofs intersect, there is a so-called flying geese section. It is only possible to use ready-made panels immediately.

Therefore, on-site workers have no choice but to appropriately arrange the shape and size of ready-made roof panels, or construct roof support structures and roof shrines on-site as in the conventional 1-method. However, repair work and on-site construction of such roof panels not only requires skill but also prolongs the construction work time. The problem was that the roof could not be constructed in panel form.

[Purpose of the invention]

The present invention has been made with the aim of solving the following two problems, and the first is that the roof can be sized to accurately fit the roof, no matter how complex the external shape. It is an object of the present invention to provide a method for forming a roof panel, which can easily form a roof panel having a shape.

[Means to solve the problem]

In order to achieve the objective described above, the roof panel forming method according to the present invention includes the step of plan shape setting-1, which creates a plan view of the roof on which the roof panel is to be installed, and the steps illustrated in this step. A W-plane division process in which the planar shape of the roof is subdivided into one or more predetermined types of panel shapes, and the actual roof slope and roof size are The roof panels to be installed on the roof are calculated based on the actual panel size setting - [, and the panel size set in this L range. Creating roof panels to be manufactured 1. It is characterized by the following.

[A' January 1] 1. According to the method for forming an IJ 4N panel having the configuration described above, first, the outer shape of the roof on which the roof panel is installed and the slope change line of the roof surface are represented in a plan shape diagram. And this is a drawing
- to subdivide into predetermined panel shapes.

This panel shape is a planar projection shape of a roof panel that is actually used. In other words, it sets the shape of the roof panel used in Drawing 2.

Here, the actual size of the roof panel to be actually used can be easily calculated from the subdivided panel shape by considering the roof slope, that is, the roof surface inclination angle.

As a result, if the above-mentioned subdivision is performed according to the shape of the roof panel that can actually be manufactured, the slope of the roof will be standardized to a certain extent, so it will be possible to adapt to the slope and divide the roof panel into parts of the same type or size. By forming the panels, a roof panel adapted to the roof can be prepared very quickly.

Therefore, since the formation of this roof panel does not depend on the shape of the roof, the roof panel can be used even for roofs with complex shapes. Furthermore,
For each roof to be constructed, it is advisable to accurately form the necessary roof panels at the panel manufacturing stage, making the actual roof panel installation work more intensive and more efficient. Do 1.

〔Example〕

In the following, preferred embodiments of the present invention will be described with reference to the drawings.

FIGS. 1A, 1B, 1C, and 1D show examples of panel shapes for subdividing the planar shape of a roof. In this embodiment, four types of panel shapes are used, and Figure (A) shows a rectangular panel 2 (1a).

Figure (B) shows a square panel 20b, Figure (C) shows a parallelogram panel 20c, and Figure (D) shows an inverted diagonal panel 20d.

FIGS. 2A and 2B show an example of a planar shape of a roof having a relatively complex shape. Each has a hipped roof or multiple intersecting shapes.
Part d is alive. Conventionally, it has been difficult to install roof panels at intersections between roof surfaces having slopes in different directions.

First, in the planar shape setting step, which is the first step of the present invention, the out-of-plane shape of the roof and the change line (ridgeline) of the roof surface slope are represented on the drawing based on an anatomical drawing or the like. That is,
A diagram represented by thick lines in FIG. 2 is created.

Next, in plane division -1, the basic shape panels, that is, the arrangement of the panels 20a to 20d in FIG. 1 are shown.

The combination subdivides the planar shape of the roof shown in FIG. 2 above. In making this subdivision, panel installation efficiency, roof strength, etc. are taken into consideration. This subdivided state is shown by thin lines in FIG.

As can be understood from the figure, the whole is completely divided into the four types of panel shapes described above.

As a result, the subdivided panel 20 is divided into roof panel 1 ()
The actual dimensions of the roof panels 10 will provide all the roof panels 10 needed to construct the roof as shown. Therefore, the third step: Calculating the actual panel size 1-
It is done to some extent. This 4 calculation calculates the original τ of the roof panel 10 in the non-sloping direction from the actual roof size,
This is done by calculating the original size in the slope direction from the actual size of the roof and the slope of the roof surface.

In this way, when the shape of the roof panel 10 to be used is specified and the original size is calculated, the roof panel manufacturing process is carried out as the final process of forming the roof panel. This I] process is
31 is the step of actually creating the roof panel 10 based on the calculated roof panel original (j), so that the second
All roof panels required for the roof configuration shown in Figures (A) and (B) are prepared.

FIGS. 3(A) and 3(B) are diagrams showing how the corner ridge 30 shown in FIG. 2 and the roof panel 10 at each corner 32 are joined. Figure (A) shows the case of a corner ridge 30, in which a joining member 34 is attached to the outer surface of the frame 12 at the joining side end of each roof panel 10, and by closely joining this part, , both roof panels 10 are joined while maintaining a predetermined angle. That is, the slope of the roof surface is formed.

Next, figure (B) shows the case of each corner 32, or figure (B) shows the case of each corner 32.
Similar to A), a joining portion 36 is provided on the frame 12 at the joining side end of the roof panel 10.

However, its shape is different from that of the joining member 34, and it is joined so that the surface side 10a of the roof panel 10 forms a valley in a closely joined state. In this way, the joint part I4
By joining the corners through 34.
Using :S, the combination ('1;1':, also becomes simple.

In addition, in FIG. 4, the planar shape and subdivision state of the roof, which has a relatively uncomplicated shape, are omitted. The gable roof in Figure (A) uses rectangular panel gables. In the hipped roof shown in Figure (B), either rectangular panels or square panels will be used. Therefore, it is possible to construct a roof without forming roof panels using the h-method according to the present invention (this is especially the case for gable roofs), or by using the present invention, it is possible to construct roof panels without forming roof panels. It will be easier to form. That is, the present invention can be advantageously applied to roofs with a stepped I-shaped roof, but is not limited to this, and can be advantageously applied to roofs with a mid-line T-shaped roof, +, , /< -.
(= can also be used effectively.

〔Effect of the invention〕

As explained above (7), according to the roof panel forming force method according to the present invention, a roof panel that precisely fits the roof can be manufactured in a cylinder, regardless of the shape of the roof. Particularly in the case of a roof with a complicated external shape, it becomes possible to form the roof using roof panels, which was difficult, and the efficiency of construction work is also improved.

[Brief explanation of drawings]

Fig. 1 is an explanatory diagram showing an example of the panel shape according to an embodiment of the method of the present invention; Fig. 2 is an explanatory diagram showing the out-of-plane shape of the roof and the state of subdivision; Fig. 3 (A) and (B) is an explanatory diagram of the panel joining type in the example, and Figures 4 (A) and (B) are illustrations of a roof with a relatively simple shape.
FIG. 5 is an explanatory view showing the installation of a conventional roof panel, and FIG. 6 is a perspective view showing the general shape of the roof panel. ...Roof panel, frame, panel shape, '3 [] Corner ridge, 6 corners.

Claims (2)

[Claims] (1) A planar shape setting step in which a planar shape diagram of the roof on which the roof panel is to be installed is created, and the planar shape of the roof illustrated in this step is reduced to one or more predetermined types of panel shapes. a planar dividing step for dividing; a panel actual size setting step for calculating the actual size of the roof panel to be actually used based on the actual roof slope and roof size corresponding to each subdivided panel shape; A roof panel forming method comprising: a roof panel manufacturing step of manufacturing a roof panel to be installed on the roof based on the panel original size set in this step. (2) The method for forming a roof panel according to claim (1), wherein the subdivision in the plane division step is performed by a combination of shapes selected from rectangles, triangles, and parallelograms.