JPH04250009A - Method and device for manufacturing heat insulating panel - Google Patents

Abstract

PURPOSE:To provide a manufacture and manufacturing device of a heat insulating panel where it can spread a mineral fiber uniformly between metallic hoop materials and is free from scattering also to the circumference. CONSTITUTION:A mineral fiber 3 is spread by a spreader 5 which reciprocates in the direction meeting at right angles with a conveying direction of a metallic hoop material 1 and a moving speed of the spreader 5 is made higher than that of the central part of a widthwise direction of the metallic hoop material 1 at both side end parts. Therefore, the mineral fiber 3 can be spread uniformly between the metallic hoop materials 1 which are in the course of conveyance of the mineral fiber 3 and moreover the mineral fiber 3 is not scattered to the circumference.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for producing a heat insulating panel in which a heat insulating layer containing inorganic fibers is filled between two metal hoops.

0002

2. Description of the Related Art Conventionally, this type of heat insulating panel has been mixed with inorganic fibers 3 such as glass fibers in the form of mats, strings, or cords cut into predetermined dimensions. As a method of mixing inorganic fibers 3 cut into predetermined dimensions, a round or rectangular cylinder 24 is inserted between a double conveyor 8 and an injection device 7 for foamable resin material 2, as shown in FIGS. 6 and 7. The cut inorganic fibers 3 were blown away by a blower 25 using as a guide. At this time, the cylindrical body 24 was oscillated via a motor 26 and a link body 27 in order to widen the spraying range of the inorganic fibers 3.

0003

In the past, in order to blow off the cut inorganic fibers 3 with air, there was a large variation in the amount of spraying near and far from the cylindrical body 24. or,
The cut inorganic fiber 3 (for example, 25 m/m length) is inserted into the cylinder 2.
The inorganic fibers 3 within the cylinder 24 are dispersed through the inorganic fibers 3.
clogging occurred, resulting in defective products due to contamination defects.

Furthermore, when the thickness of the inorganic fibers 3 is as small as several microns in diameter, there is a problem in that the inorganic fibers 3 are scattered around by the blower 25, which deteriorates the environment. The present invention has been made in view of the above circumstances,
The purpose is to provide a method and apparatus for producing a heat insulating panel in which inorganic fibers can be uniformly distributed between metal hoop materials without scattering to the surrounding area.

[0005]

[Means for Solving the Problems] The manufacturing method of the present invention continuously supplies a pair of metal hoop materials 1 facing each other vertically, and a foamable resin material 2 and an inorganic fiber 3 are placed between the metal hoop materials 1. Inorganic fiber 3 is filled between 1 metal hoop material
In the method for manufacturing a heat insulating panel in which a heat insulating layer 4 is formed in which inorganic fibers 3 are mixed, the inorganic fibers 3 are spread by a spreading device 5 that reciprocates in a direction perpendicular to the conveyance direction of the metal hoop material 1, and the moving speed of the spreading device 5 is is larger at both ends of the metal hoop material 1 than at the center in the width direction, and the manufacturing apparatus of the present invention continuously produces a pair of metal hoop materials 1 by vertically facing each other A supply means 6 for supplying the metal hoop material 1, an injection device 7 for injecting the foamable resin material 2 between the metal hoop material 1, a dispersing device 5 for spreading the inorganic fibers 3 between the metal hoop material 1, and a heating foaming of the foamable resin material 2. A heat insulating material layer 4 in which inorganic fibers 3 are mixed between metal hoop materials 1
This is a heat insulating panel manufacturing device equipped with a double conveyor 8 that forms a metal hoop material, and a cutting device 10 that cuts a heat insulating long board material 9 formed by the double conveyor 8 into a predetermined size. An inorganic fiber crusher 12 is slidably attached to a guide 11 extending in a direction perpendicular to the conveying direction of metal hoop material 1, and the crusher 12 is driven in a reciprocating manner to adjust the moving speed to the width of metal hoop material 1. The driving means 13 is configured to be larger at both end portions than at the center portion in the direction, and the above problem is solved by these configurations.

[0006]

[Operation] The inorganic fibers 3 are spread by the spreading device 5 that reciprocates in a direction perpendicular to the direction of conveyance of the metal hoop material 1, and the moving speed of the spreading device 5 is set at both ends of the metal hoop material 1 rather than at the center in the width direction. Since the inorganic fibers 3 are made larger in portions, the inorganic fibers 3 can be uniformly scattered between the metal hoop materials 1 being conveyed, and the inorganic fibers 3 are not scattered around.

[0007]

[Example] The metal hoop material 1 may be galvanized iron plate, aluminum plate, galvanized steel plate, aluminum zinc alloy plated steel plate, stainless steel plate, titanium steel plate, these metal plates colored with general paint, PVC resin, acrylic. Those coated with film, fluororesin, etc. are used.

[0008] The metal hoop materials 1 are each wound onto a payoff reel which is a supply means 6. The metal hoop material 1 is supplied to the forming machine 14 by the supply means 6, and both ends thereof are bent and formed. After that, the metal hoop material 1 is preheated to 20 to 50 degrees Celsius in a preheating chamber 15, and after that, inorganic fibers 3 such as glass fibers are sprinkled between the metal hoop materials 1 from a spreading device 5, and then by a pouring device 7. A foamable resin material 2 such as rigid urethane foam, isocyanurate foam, or phenol foam containing polyol, isocyanate, catalyst, blowing agent, etc. is injected. As shown in detail in FIGS. 3 and 4, the dispersion device 5 has a crusher 12 slidably attached to a guide 11 extending in a direction perpendicular to the conveyance direction of the metal hoop material 1. One end of the link 16 is rotatably connected via a connecting bar 17, and the other end of the link 16 is connected to an arm 20 connected to a driven gear 18a of a driving means 13 consisting of a pair of non-circular gears 18 and a motor 19. They are rotatably connected. Examples of the non-circular gear 18 include an elliptic bilobal gear and an elliptical gear. Drive side gear 1
8b is rotationally driven by a motor 19, and the crusher 12 is reciprocated in a direction perpendicular to the conveying direction of the metal hoop material 1 via the arm 20, the link 16, and the connecting bar 17.
In this case, the moving speed of the crusher 1 is higher at both ends of the metal hoop material 1 than at the center in the width direction. Inorganic fibers 3 pulverized by a pulverizer 12 of
The amount of spraying is suppressed and the spray is uniformly distributed as a whole. For example, the conveyance speed of the metal hoop material 1 is 10 m/
min, the traverse speed of the crusher 12 is carried out at 30 m/min. Incidentally, if the dispersion device 5 is located behind the injection device 7 in the conveyance direction of the metal hoop material 1, scattering of the inorganic fibers 3 can be more reliably prevented. Furthermore, by changing the length of the arm 20, the stroke width W of the crusher 12 can be changed. After this, while the metal hoop material 1 is moved between the double conveyors 8, the foamable resin material 2 is foamed, and a heat insulating material layer 4 in which inorganic fibers 3 are mixed between the metal hoop materials 1 is formed. A plate material 9 is obtained. The double conveyor 8 is heated by hot air ducts (not shown) placed above and below, and the metal hoop material 1 is thereby heated.
is heated, and the foamable resin material 2 foams. in this case,
The metal hoop material 1 will be heated within the range of 20 to 70°C. As shown in FIG. 2, side seal conveyors 21 are installed on both sides of the double conveyor 8, and side seals 22 such as film EPT such as aluminum foil paper, aluminum foil, or plastic film, or packing such as foamed neoprene rubber are used to seal the metal hoop material. Both sides of 1 are pressed to prevent the foamable resin material 2 from leaking.

[0009] Insulating long plate material 4 formed in this way
is slowly cooled and cut into a predetermined size by a cutting device 10 such as a band saw to produce a heat insulating panel A as shown in FIG. The heat insulation panels A are sequentially conveyed by a roller conveyor 23 and stacked at a predetermined location.

0010

[Effects of the Invention] In the present invention, inorganic fibers are spread by a spreading device that reciprocates in a direction perpendicular to the conveying direction of the metal hoop material, and the moving speed of the spreading device is adjusted to the widthwise center of the metal hoop material. Since the inorganic fibers are made larger at both end portions, the inorganic fibers can be uniformly scattered between the metal hoop materials being conveyed, and the inorganic fibers are not scattered around.

[Brief explanation of the drawing]

FIG. 1 is a schematic side view showing one embodiment of the present invention.

FIG. 2 is a schematic plan view of the same as above.

FIG. 3 is an enlarged perspective view of essential parts of the same as above.

FIG. 4 is an enlarged perspective view of essential parts of the same as above.

FIG. 5 is a sectional view showing an example of a heat insulating panel manufactured by the above method.

FIG. 6 is a perspective view showing a conventional example.

FIG. 7 is a perspective view showing a conventional example.

[Explanation of symbols]

A Insulation panel 1 Metal hoop material 2. Foamable resin material 3 Inorganic fiber 4 Insulation layer 5 Spreading equipment 6 Supply means 7 Injection device 8 Double conveyor 9 Insulated long board material 10 Cutting device 11 Guide 12　Crusher 13 Driving means 16 Link 18 Non-circular gear 19 Motor 20 Arm

Claims (3)

[Claims] Claim 1: A pair of metal hoop materials are continuously supplied with the upper and lower sides facing each other, and a foamable resin material and inorganic fiber are filled between the metal hoop materials, so that the inorganic fibers are mixed between the metal hoop materials. In a method for manufacturing a heat insulating panel that forms a heat insulating material layer, inorganic fibers are spread by a spreading device that reciprocates in a direction perpendicular to the conveyance direction of the metal hoop material, and the moving speed of the spreading device is set at the center of the metal hoop material in the width direction. A method for manufacturing a heat insulating panel, characterized in that the heat insulating panel is made larger at both end parts than at the end part. Claim 2: A supply means for continuously supplying a pair of metal hoop materials facing each other vertically, an injection device for injecting a foamable resin material between the metal hoop materials, and dispersing inorganic fibers between the metal hoop materials. A scattering device, a double conveyor that heats and foams the foamable resin material to form a heat insulating layer with inorganic fibers mixed between the metal hoops, and a cutting device that cuts the insulating long plate material formed by the double conveyor into predetermined dimensions. A heat insulating panel manufacturing device comprising: an inorganic fiber crusher and a crusher in which the dispersing device is slidably attached to a guide spanned in a direction perpendicular to the conveying direction of the metal hoop material; 1. A heat insulating panel manufacturing apparatus comprising a driving means that is reciprocally driven so that the moving speed is greater at both end portions of the metal hoop material than at the center portion in the width direction. 3. A crusher is slidably attached to a guide that spans the spreading device in a direction perpendicular to the conveying direction of the metal hoop material, one end of the link is rotatably connected to the crusher, and the other end of the link is connected to the crusher. is rotatably connected to an arm connected to a driven gear of a drive means consisting of a pair of non-circular gears and a motor, so that the moving speed of the crusher is greater at the ends of the metal hoop material than at the center in the width direction. 3. The heat insulating panel manufacturing apparatus according to claim 2, wherein the apparatus is configured to: