JPH02243342A - Manufacturing device for insulated panel - Google Patents

Abstract

PURPOSE:To manufacture insulated panels of various wall thicknesses without replacing side guides by providing side guides and pressing side seal pieces of a side conveyor to an area between ends of a metal hoop material along both sides of a double conveyor and a constituting side guide of an upper guide and a lower guide. CONSTITUTION:Metal hoop materials 1 and 2 are preheated up to 20-50 deg.C in a preheating chamber 15, after which a foaming resin material is injected between the metal hoop materials 1 and 2 by an injection device 16. Then, while the metal hoop materials 1 and 2 move between upper and lower conveyors 4a, 4b of a double conveyor 4, the foaming resin material is foamed to fill a foamed resin layer 3 between the metal hoop materials 1 and 2 and form an insulated panel A. A side guide 8 is constituted of an upper guide 9 and a lower guide 10, and the upper guide 9 and the lower guide 10 are mounted respectively on the upper conveyor 4a and the lower conveyor 4b of the double conveyor 4. The upper guide 9 is lifted and lowered in correspondence to the thickness of the insulated panel A to be manufactured by lifting and lowering the upper conveyor 4a, and the interval between the upper and lower conveyors 4a, 4b is adjusted.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to an apparatus for manufacturing insulation panels of different widths and thicknesses.

[Conventional technology]

Traditionally, metal hoop materials such as colored galvanized steel sheets, colored aluminum sheets, colored aluminum-zinc alloy plated steel sheets, stainless steel sheets, titanium steel sheets, etc. are carried into a double conveyor, and foamed resin material is injected between the metal hoop materials. A heat insulating panel is then manufactured by heating the metal hoop material to foam the foamable resin material and filling the metal hoop material with a foamed resin layer. In this case, in order to prevent the foamable resin material from leaking outside between the side edges of the upper and lower metal hoop materials when the foamable resin material foams, paper or synthetic resin is placed between the side edges of the metal hoop materials. Side conveyors are placed on both sides of the double conveyor to supply side sealing materials such as sheets, metal foils, and packing materials, and to correctly position and convey the side sealing materials between the side edges of the metal hoop materials. Then, the side seal piece of the side conveyor is pressed against the side seal material by the side guides installed along both sides of the double conveyor, and the side seal material closes the side edges of the metal hoop material. trying to prevent leakage. The side seal material is adhered to the foamed resin layer by the self-adhesive force of the foamed resin material. Insulating panels are manufactured in this way, and the wall thickness of this type of insulating panels is, for example, 22 mm, 35 mm,
451111.60mm, 100ne, 120ao
There are many types of heat insulating panels such as s, and these heat insulating panels with different wall thicknesses are manufactured by changing the vertical spacing of the double conveyor and changing the thickness of the side seal piece of the side conveyor.

[Problem to be solved by the invention]

Conventionally, side guides have a fixed thickness, and therefore, when manufacturing thick insulation panels, there is a problem that they cannot support thick side seal pieces and the side seal pieces fall down. On the other hand, when manufacturing thin insulation panels, it is not possible to insert the side guide between the side edges of the double conveyor and suppress the side seal piece, so the side seal material is inserted between the side edges of the metal hoop material. There was a problem in that the side guides themselves could not be positioned in the same direction, and only insulating panels with a certain thickness could be manufactured, and the side guides themselves had to be replaced in order to manufacture insulating panels with different thicknesses. The present invention has been made to solve the above-mentioned problems, and its purpose is to provide a heat insulating panel manufacturing apparatus that can produce heat insulating panels of various thicknesses without replacing side guides. It is in.

[Means to solve the problem]

The present invention consists of a pair of metal hoop members 1.2 facing each other at the top and bottom.
A double conveyor 4 that foams the foamed resin material that is carried in and injected into the metal hoop material 1.2 and fills the metal hoop material 1.2 with a foamed resin layer 3;
In the manufacturing apparatus for a heat insulating panel, the side feeder 6 is arranged on both sides of the side conveyor 6 to close the side edges of the upper and lower metal hoops 1.2 via the side sealing material 5. Side guides 8 for pressing the seal piece 7 between the side edges of the metal hoop material 1.2 are installed along both sides of the double conveyor 4, and the side guides 8 are composed of an upper guide 9 and a lower guide 10, and The guide 9.10 is movable in a direction perpendicular to the traveling direction of the metal hoop material 1.2, and this configuration solves the above problem. [Function 1: When manufacturing a thick heat insulating panel A, if the thick side seal piece 7 of the side conveyor 6 is suppressed and guided by the upper and lower guides 9 and 10 of the side guide 8, the side seal piece 7 will not fall down. and, on the other hand,
When manufacturing a thin heat insulating panel A, for example, the upper guide 9 of the side guide 8 may be moved outward and the lower guide 10 may press and guide the side seal piece 7 of the side conveyor 6. The present invention will be described below based on embodiments shown in the accompanying drawings. Metal hoop materials 1.2 include galvanized iron plates, aluminum plates, galvanized steel plates, aluminum-zinc alloy plated steel plates, stainless steel plates, titanium steel plates, etc., or these metal plates colored with general paints, PVC resin, Those coated with acrylic film, fluororesin, etc. are used. The metal hoops 1.2 are respectively wound onto payoffs 17-11, 12, as shown in FIG. A metal hoop material 1.2 is supplied from a payoff reel 11.12, and both ends thereof are bent and formed by forming rolls 13.14. Next, the metal hoop material 1.2 is placed in the preheating chamber 15.
The polyol, incyanate,
A hard urethane foam resin material containing a catalyst, a blowing agent, etc., a 7-ohm resin material, and a foamable resin material of 7-ohm phenol are injected. After that, as the metal hoop material 1.2 moves on the upper and lower conveyors 4a and 4b of the double conveyor 4, the foamable resin material is foamed and the foamed resin layer 3 is filled between the metal hoop materials 1.2 for insulation. Panel A is thus formed. The double conveyor 4 has heating means 17 such as hot air ducts arranged above and below, as shown in FIG.
As a result, the metal hoop material 1.2 is heated and the foamable resin material is foamed. In this case, the metal hoop material 1.2 is heated within the range of 20 to 70°C. As shown in Fig. 3, side conveyors 6 are installed on both sides of the double conveyor 4, extending approximately 2/3 of the total length from the rear end of the double conveyor 4, and carry aluminum foil paper, aluminum foil, plastic film, etc. film, EPT
, both side end surfaces of the metal hoop material 1.2 are pressed by a side sealing material 5 such as a backing made of foamed neoprene rubber, etc., to prevent the foaming material d (greasy material from leaking out). As shown in FIG. 11, a side seal piece 7 made of synthetic resin such as nylon is attached to each chain element 18a of a chain 18 in which multi-stage chain elements 18a are endlessly connected by pins 19. Yes, sprocket 20 and double conveyor 4
It is rotatably attached to sled-shaped side guides 8 installed along both sides of the sled. Side seal piece 7
The leading end of the insulation panel A is manufactured as shown in Fig. 5.
A convex portion 21 or a concave portion 22 is formed corresponding to the shape of the side end portion. In this embodiment, a chain 18 is embedded in the rear end of the side seal piece 7 and twisted so that the tip of the side guide 8 and the chain 18 do not come into contact with each other. The side conveyor 6 is replaceable, and a spare side conveyor 6 is stored in the side conveyor storage device 28. The side guide 8 is composed of an upper guide 9 and a lower guide 10, as shown in FIG. According to the thickness of the heat insulating panel A to be manufactured, the upper guide 9 is raised and lowered by raising and lowering the upper conveyor 4a, and the interval between the upper and lower conveyors 4a and 4b is adjusted. The top is the ID 9 and the bottom guide 10
A resin sliding material 24 is attached to the tip surface of the side seal piece 7 to improve the sliding of the side seal piece 7. The upper and lower guides 9.10 are supported by support bars 23 driven by separate motors.
Therefore, it is movable in the line direction, that is, in the direction perpendicular to the running direction of the metal hoop material 1.2. However, when manufacturing thick insulation panel A, the sixth
As shown in the figure, a side seal piece 7 with a large thickness is adopted, and the side seal material 5 is pressed and supported by the upper guide 9 and the lower side guide 10 of the side guide 8, and the metal hoop material 1.2 is used. In order to manufacture a thin heat insulating panel A by guiding it between the side edges of The side seal piece 7 is supported only by the guide 10. In order to manufacture a heat insulating panel A with a thickness of about 100 yen, the upper guide 9 is
is moved outward, the auxiliary guide 25 is placed on the tip of the lower guide 0, and the side seal piece 7 is supported by the lower guide 10 and the auxiliary guide 25. Assistance is id 25
is necessary until the foamable resin material injected between the metal hoops 1 and 2 foams and hardens, so there is no need to place it over the entire length of the lower guide 10, and it is necessary to As long as it spans the length. Further, the width of the heat insulating panel A to be manufactured is adjusted by moving the upper and lower guides 9 and 10 inwardly and outwardly, as shown in FIGS. 9 and 10. Long insulation panel A formed by double conveyor 4
are slowly cooled, cut into predetermined dimensions by a cutting device 26 such as a band saw, and sequentially conveyed by a roller conveyor 27 and stacked at a predetermined location. Effects of the Invention 1 The present invention is a double-layer construction in which a pair of metal hoops facing each other at the top and bottom are carried in and the foamable resin material injected into the metal hoops is foamed to fill the metal hoops with a foamed resin layer. In a heat insulating panel manufacturing apparatus comprising a conveyor and a side conveyor arranged on both sides of the double conveyor to close the side edges of upper and lower metal hoop materials via a side sealing material, Side guides for pressing the seal piece between the side edges of the metal hoop material are installed along both sides of the double conveyor. It is designed to be able to move freely in orthogonal directions, so when manufacturing thick insulation panels, if the vertical guides of the side guides press and guide the thick side seal pieces on the side conveyor, the side seal pieces will not fall over. On the other hand, when manufacturing thin heat insulating panels, it is sufficient to move the upper guide of the side guides outward and use the lower guide to suppress and guide the side seal piece of the side conveyor.
In this way, insulation panels of various thicknesses can be manufactured without replacing the side guides themselves, and insulation panels of various widths can be manufactured by moving the upper and lower guides of the side guides inward and outward. It is something.

[Brief explanation of drawings]

FIG. 1 is a schematic side view showing one embodiment of the present invention, FIG. 2 is a schematic plan view of the same, FIG. 3 is a schematic plan view showing a double conveyor and a side conveyor in the same, and FIG. 4 is a schematic plan view of the same. FIG. 5 is a partially omitted enlarged view of FIG. Figures 1 and 10 are explanatory diagrams showing the manufacture of heat insulating panels with different widths, Figure 11 is a partially omitted plan view showing the side conveyor in the above, and Figure 12 is a cross section showing an example of the heat insulating panel manufactured by the above. In the figure, A is a heat insulation panel, 1.2 is gold hoop material, 3 is a foamed resin layer, 4 is a double conveyor, 5 is a side seal material, 6 is a side conveyor, 7 is a side seal piece, 8 is a side 9 is an upper guide, and 10 is a lower guide.

Claims (3)

[Claims] (1) A double conveyor in which a pair of metal hoops facing each other at the top and bottom are carried in and the foamed resin material injected between the metal hoops is foamed to fill the space between the metal hoops with a foamed resin layer; In a heat insulating panel manufacturing apparatus comprising a side conveyor arranged on both sides to close the side end portions of the upper and lower metal hoop materials via a side seal material, the side seal piece of the side conveyor is attached to the metal hoop material. A side guide is installed along both sides of the double conveyor to be pressed between the side edges of the double conveyor, and the side guide is composed of an upper guide and a lower guide, and the upper and lower guides are movable in a direction perpendicular to the running direction of the metal hoop material. A manufacturing device for a heat insulating panel, characterized in that: (2) The apparatus for manufacturing a heat insulating panel according to claim 1, wherein a sliding material is provided on the front end surfaces of the upper and lower guides of the side guides. (3) The heat insulation panel manufacturing apparatus according to claim 1, wherein an auxiliary guide is removably placed on the lower guide of the side guide.