JPS63111036A - Panel material and its manufacture - Google Patents

Abstract

PURPOSE:To obtain a panel material whose surface is in a mirrorlike state, by a method wherein small holes are perforated on a film covering a frame body. CONSTITUTION:Any of top and bottom films 3a, 3b of a panel material 1 are formed by adhering close to circumferential sides 2a, 2b, 2c, 2d of a frame body 2, through which an air layer 4 is formed. Small holes 5, 5 are perforated on the top film 3a, which are on the inside of the frame body 2 and in the vicinity of two corners on a diagonal line. Although heat contraction of a film 3 is performed when the film 3 passes through the inside of a heating tunnel 14, discharge of air in the air layer 4 through the small holes 5, 5 becomes easy. Therefore, the surfaces of the top and bottom films 3a, 3b are stretched tight, being finished into a mirrorlike state and not damaged.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a panel material used in buildings such as agricultural hotbed greenhouses and a method for manufacturing the panel material.

[Prior Art] Conventionally, glass materials have generally been used as panel materials for agricultural greenhouses, and panels made of double molded plastic sheets have also been proposed.

[Problems to be Solved by the Invention] However, the above-mentioned conventional greenhouse made of glass material is expensive, heavy, and difficult to handle, and has many problems in terms of economy, maintenance, etc. when used as an agricultural greenhouse. Furthermore, conventional double-molded plastic sheets have problems in terms of rigidity, and the surface of the sheet bulges or wrinkles due to expansion and contraction due to the temperature of the internal air. There has been a demand for panel materials that are easier to manufacture and have good weather resistance as members for greenhouse greenhouses, which require properties against all weather conditions such as heat, light, and water.

The present invention has been made in view of this point, and is a panel material for buildings, etc., which is lightweight, inexpensive, easy to handle, and has excellent rigidity, and whose surface is always mirror-like, and a method for manufacturing the same. The purpose is to provide.

[Means for solving the labor problem] The configuration of the present invention for achieving the above object will be explained with reference to drawings corresponding to embodiments.

That is, the first invention of the present invention includes a frame body (2) made of metal, plastic, or an equivalent material, which is suitably modularized, and a frame body (2) that is heat-shrinked around the entire circumference of the frame body (2). At least one place inside the attached heat-shrinkable plastic film (3) and the frame (2),
A panel material for a special electric building or the like is provided with a small hole (5) formed in the film (3).

Further, the second aspect of the present invention is to seal the entire outer periphery of the frame body (2) made of metal, plastic, or a material with the same effect and formed into a suitable module with a heat-shrinkable plastic film (3). The film (3) is coated in a shape, and small holes (5) are made in the sealed film (3), and the entire outer periphery of the film (3) is heated.
) is heated and shrunk, and the film (3) is stretched in a mirror-like state on the upper and lower surfaces of the sacred object (2).

[Function] According to the panel material for buildings, etc. according to the present invention produced by the manufacturing method of the present invention, a heat-shrinkable plastic film is used on the outer periphery of the panel material, and heat is applied to the entire outer periphery of the frame (2). Due to the adhesion caused by shrinkage, the entire surface of the upper and lower films (3) has a mirror-like finish, and the overall rigidity has improved, and even during use, the surface of the upper and lower films becomes even more taut due to sunlight. In addition, since an air layer is formed between the films on the top and bottom surfaces, it has good insulation properties like double glazing, and is also lighter and easier to handle than glass.
It can be manufactured at low cost.

Furthermore, since the air inside the film enters and exits through the small holes formed in the upper and lower films, the panel material does not swell or wrinkle due to high or low temperatures. The air can be easily discharged, and the film on the top and bottom surfaces has a beautiful finish.
There will be no damage to the product.

Furthermore, in terms of repair, only the film (3) within the frame (2) needs to be repaired, and can be easily repaired on site using a dryer or by natural shrinkage.

[Example] Hereinafter, a panel material for buildings, etc. and a manufacturing method thereof according to the present invention will be explained in detail with reference to an example shown in FIGS. 1 to 5.

Fig. 1 is a perspective view showing the overall structure of the panel material according to the present invention with the rubber packing and film partially cut out, Fig. 2 is a cross-sectional view taken along line I-1 in Fig. 1, and Fig. 3 is , a schematic diagram of the manufacturing process for explaining the manufacturing method of the above panel material, FIG. 4 is a schematic perspective view of an agricultural hotbed greenhouse using the above panel material, and FIG. FIG. 3 is a plan view of a frame showing an example of application of the embodiment.

As shown in FIGS. 1 and 2, the panel material 1 according to the present invention has a frame width of 6 mm made of a material such as metal or plastic.
mm to 10 am, preferably 7IIIm to 8aI11, the frame 2 is formed into a substantially rectangular planar shape, and the entire circumference of the frame 2 is
A heat-shrinkable plastic film 3 such as vinyl chloride resin or polyester film with improved weather resistance is hermetically coated and adhered by heat shrinking, and the upper and lower films 3a, 3b and i) "recording frame" are formed. 2 to form a flat rectangular parallelepiped air layer 4.

Further, the films 3a and 3b on the upper and lower surfaces are formed in close contact with the surrounding side surfaces 2a, 2b, 2c, and 2d of the frame body 2. That is, the film 3a on the top and bottom surfaces of the scrap paper,
The air layer 4 formed by the film 3b and the frame 2 is further kept in a sealed state on the outside of the periphery of the frame 2 by the extended portions of the films 3a and 3b.

Furthermore, small holes 5.5 are formed in the fill 43a on the top surface at two locations near two diagonal corners inside the frame 2.

A U-shaped annular rubber gasket 6 is fitted around the frame body 2 with the film 3 in close contact with the side surfaces 2a, 2b, 2c, and 2d of the frame body 2, and the flange of the rubber gasket 6 is The small hole 5.degree. 5 formed in the upper film 3a is covered by the portion 6a.

Next, an embodiment of the method for manufacturing the panel material 1 described above will be described in detail with reference to FIG. 3.

First, the frame width of the members constituting the frame 2 made of materials such as metal and plastic according to the present invention (film 3a
, 3b) was set to one width as described in F. This is based on the results of experiments on the completed outer panel material.If the frame width is 10 mm or more, air convection will occur inside the house and the temperature inside the house will escape. This is because it has been found that in the case of proverb 1 or below, heat radiation and conduction occur and the temperature escapes. That is, by setting the frame width within the above-mentioned range, air convection within the frame does not occur, and neither radiation nor conduction occurs, so that the heat retention effect of the house is ideal.

For the above reason, the frame body 2, which is made of a member having the above frame width and formed into a rectangular planar shape, is pushed into the packaging machine 7 in the fingertip X direction, as shown in FIG. 3(a). In the packaging machine 7, a heat-shrinkable film 3 having good weather resistance such as vinyl chloride resin or polyester film is wound between the upper roller 8a and the lower roller 8b. 2
The upper and lower surfaces of are covered with the film 3 as shown on the left side of FIG. 3(a). Here, the film 3 is melted near the right side of the frame 2 by the top sealer 9, and the third
As shown in Figure (b), seal portions 3c, 3 on both left and right sides.
d is formed.

Next, this is sealed using the side sealer 11 as shown in Fig. 3 (
As shown in C), seal portions 3e and jf are formed on both front and rear sides of the film 3, so that the periphery of the frame 2 is sealed and packaged with the film 3. Then, as shown in FIG. 3(C), the high-speed rotating needle 12.
12 in the Y direction with a fingertip to punch a small hole 5.5 in the upper film 3a.

Here, the reason why the high-speed rotating needle 12 is used to drill the small holes 5, 5 is to weld the periphery of the formed small hole 5.5, thereby making it difficult to widen the hole diameter.

Next, when the product 13 is passed through a heating tunnel (shrink tunnel) 14 shown in FIG. 3(d), the film 3 is heated and shrunk. Since the structure is such that the air in the air layer 4 can be easily discharged through the holes 5.5, the surfaces of the upper and lower films 3a and 3b are taut and have a mirror-like finish, which prevents them from being damaged. Furthermore, the seal portions 3c, 3d, 3e, and 3f of the Mf film 3 are in close contact with the side surfaces 2a, 2b, 2c, and 2d of the frame 2, respectively, as shown in FIG.
) comes out as product panel material 1 shown in ( ).

The panel material 1 is now completed, but if necessary, U-shaped annular rubber packings 6 may be fitted around the outer circumference of the panel material 1 as shown in FIG. 3(f). At the same time, the small holes 5.5 formed in the upper film 3a are covered with the flange 6a of the rubber packing 6, thereby obtaining a finished panel material 1 as shown in FIG. 3(g).

FIG. 4 is an external view when the panel material according to the present invention is assembled on a frame constituting an agricultural hotbed greenhouse, and FIG. 5 shows that when the panel material is enlarged, reinforcement It is a plan view showing an application example of the embodiment in which the material 16 is formed inside the frame, in which (b)
) is the case where reinforcing materials 16 are placed inside the frame in a diamond shape.

[Effects of the Invention] As described in detail above, according to the panel material for buildings, etc. and the manufacturing method thereof according to the present invention, the entire outer periphery of the frame 2 is covered with a heat-shrinkable plastic film 3 in a sealed manner. Moreover, by forming a small hole in at least one part of the film to facilitate the entry and exit of the internal air and heat shrinkage, the upper and lower film surfaces are taut and finished with a beautiful flat surface. The rigidity of the frame has been improved, and it has good insulation and heat retention similar to conventional double-glazed glass, and the top and bottom film surfaces remain even more taut when exposed to sunlight during use. can do.

Furthermore, I! than glass! It is easy to handle in quantity, can be mass-produced at low cost, and can be easily repaired on site by repairing only the film within the frame.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway perspective view showing the overall structure of the panel material according to the present invention, FIG. 2 is a sectional view taken along line II in FIG. 1, and FIG. 3 is the panel material as above. 4 is an external view showing an agricultural hotbed vinyl greenhouse in which the same panel material is assembled, and FIG. 5 is a frame showing an application example of the above embodiment in which reinforcing material is formed. FIG. 1.-panel material, 2-frame, 3-film, 3a. 3b-upper and lower films, 4-air layer, 5-small holes, 1
4-Heating tunnel (shrink tunnel). Patent Applicant Bonpac Co., Ltd. Agent/Patent Attorney Norimitsu Nishimura No. 1 Figure 2 Figure 4 Figure 5

Claims (2)

[Claims] (1) a frame made of metal, plastic, or the same material and formed into a suitable module; a heat-shrinkable plastic film that is heat-shrinked and adhered to the entire circumference of the frame; A panel material comprising a small hole formed in the film at least at one location inside the frame. (2) The entire outer periphery of a frame made of metal, plastic, or the same material and formed into a suitable module is hermetically covered with a heat-shrinkable plastic film, and the sealed film is covered with a heat-shrinkable plastic film. Drill a small hole in the
Furthermore, the method for manufacturing a panel material is characterized in that the film is heated and shrunk by heating the entire outer periphery of the film, and the film is stretched in a mirror-like state on the upper and lower surfaces of the frame body.