JP2019130330A - Heat-shielding material - Google Patents

Abstract

To provide a heat-shielding material which is a sheet-like heat-shielding material constituted of a multi-layer structure in which plural pieces of resin sheets are built in between high grade aluminum foils on both side surfaces to contain air and can be easily folded.SOLUTION: A heat-shielding material disclosed in this invention is a sheet-like heat shielding material constituted of a multi-layer structure in which plural pieces of resin sheets are built in between high grade aluminum foils on both side surfaces to contain air, and creasing processing of a horizontal direction to allow folding are performed at a predetermined interval. The creasing processing is performed by heat-welding the heat shielding material from a surface exterior by a heat-welding machine and melting only a resin sheet inside the heat-shielding material for crimping.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a heat shielding material having a high reflection effect, which is attached to the back side (outdoor side) of a plain shade made of curtain fabric, for example.

  Conventionally, a heat shielding material having a high heat reflection effect has been installed inside a building structure. They were used mainly for the purpose of keeping the heat cool and warm as well as the heat insulating material. In addition, since the heat shielding material has a difference of superiority and inferiority depending on the thermal reflectance, the thickness is about several millimeters. However, the heat insulation material has a higher heat insulation performance as the thickness increases, and even a thin object is about several tens of millimeters.

  Generally, the heat shielding material has a shape in which a high heat reflection effect is expected on the surface and a heat insulation effect is expected in the inner layer. For example, aluminum foil having a high heat reflection effect is provided on both side surfaces, and the inner layers thereof are mainly confined with a resin material such as polyethylene and are called air cushions or bubble sheets Yes.

  Since a high energy-saving effect can be expected if this heat shielding material having an excellent heat reflection effect and heat insulation effect is applied to an opening of a window, a technique applied to a curtain is disclosed (for example, Patent Document 1). Patent Document 1 discloses a curtain in which an aluminum foil having excellent heat ray reflectivity is used as a surface material, and a material having low heat conduction such as a resin sheet is incorporated therein.

  On the other hand, fabrics such as curtains and shades that are installed in window openings and are mainly used for lighting adjustment and blindfolding are mainly fibers, and there are a wide variety of materials and colors to consider design. There are plenty of choices. Some products have a light-shielding function, but they are said to have an effect on the heat-shielding performance that is expected to save energy.

  A plain shade, which is one of the roman shades that open and close these fabrics up and down, has a structure in which the fabric in the middle portion is folded by moving the lower weight bar portion up and down by an elevating cord. The folding interval differs depending on the size and manufacturer, but is basically determined by the spacing of the guide ring that is a member that penetrates the elevating cord.

  The guide ring may be previously added to a member called a ring tape, and the manufacturing process is simplified. The plain shade may be undefined depending on the material and mass of the fabric and may be distorted, and in order to sharpen the folding up, a sharp shade that is a higher type with a shaper member added further between the lifting and lowering cord guide rings There is also a so-called shade.

  A plurality of members, which are shapers, are installed in the middle between the respective guide rings. However, the longer the production length, the more the installation location is required. Most of them are made of resin and have a rod-like shape, and are attached in the middle between each guide ring.

  Next, the fabric installed on the back surface of the plain shade is a material for providing a lace function, and is a unique fabric that has a blindfold function from the outside and performs a single operation capable of obtaining daylighting. They are characterized by their drape curtains and lace curtains, but usually they are installed as a set.

JP 2007-303262 A

  Since the curtain of patent document 1 uses the aluminum foil excellent in the heat ray reflectivity on both surfaces, and incorporates the material with low heat conductivity, such as a resin sheet, the thickness of about several millimeters is required for it. Therefore, folding and winding are extremely difficult, and there is a problem with the opening / closing function that is the original function of the curtain. Moreover, since the color of the aluminum foil excellent in heat ray reflectivity is a metal color such as aluminum or silver, there is a problem in design. Therefore, even if a curtain is manufactured using the material disclosed in Patent Document 1 as it is, there is a problem in the design and the opening / closing function that is the original function of the curtain. Was extremely difficult.

  On the other hand, although the plain shades, which are popular as one of the interior items that recently improve the decorativeness of windows, have high design, the fabrics used for them have some effects on the heat shielding performance, The effect is insignificant.

  In some cases, the plain shade is undefined depending on the material and mass of the fabric and may be distorted, which impairs the design effect. Also, if the folding position is set to random, compact folding will not be realized. The sharp shade is a thing to improve them, but it is necessary to add a shaper member between the guide rings for passing the lifting cord in order to sharpen the folding up, so it is expensive due to the manufacturing process and cost. It was.

  Next, the fabric installed on the back of the plain shade is a unique shade that can be operated independently to provide a semi-transparent lace function, and there was nothing specially installed for energy saving measures as the plain shade lining. .

  The present invention has been made in view of the above problems, and is a sheet-like heat shielding material composed of a multilayer structure in which a plurality of resin sheets are embedded in high-purity aluminum foils on both side surfaces to confine air. It is an object of the present invention to provide a heat shielding material that can be easily folded.

  In order to achieve the above object, the present invention is a sheet-like heat shield composed of a multilayer structure in which a plurality of resin sheets are incorporated in high-purity aluminum foils on both side surfaces to confine air, Horizontal scoring for enabling folding is performed at predetermined intervals, and the scoring is performed by heat-welding the heat-shielding material from outside the surface with a heat-welding machine. The heat shielding material is provided by melting and crimping only the resin sheet. In the plain shade provided with the heat shielding material of the present invention, horizontal stripes for enabling folding necessary for opening and closing the substantially entire back surface side (outdoor side) of the plain shade made of curtain fabric. A sheet-like heat shielding material having a high heat reflection effect that has been applied at predetermined intervals may be attached and fixed.

  By adopting such a configuration, while maintaining a high cold insulation effect, the design benefits of the plain shade manufactured with conventional curtain fabrics and the advantage of being able to select from abundant fabrics are also secured. Unfolding and messy fold-up during folding can be eliminated and sharp folding can be performed.

  Further, in the present invention, the heat shielding material is composed of a multilayer structure in which a plurality of resin sheets are embedded in high-purity aluminum foil on both sides and the air is trapped. The material is heat-welded by a heat-welding machine from the outside of the surface, and only the resin sheet inside the heat-shielding material is melted and crimped.

  With such a configuration, the creasing process can be easily performed by the heat welding machine, and as a result, the production cost is low, so that it can be provided to the general consumer at a low price.

  In the present invention, a guide ring for passing an elevating cord for operation in the vertical direction on the back surface side (outdoor side) of the plain shade is predetermined in the vertical direction at least at both the left and right end portions and the central portion. A large number are provided for each interval, and the scoring process on the heat shield material is performed in the horizontal position and the horizontal position connecting the left and right end portions and the central guide ring provided in the horizontal direction of the plain shade accessory when attached to the plain shade. It is good also as performing to the horizontal position lowered by the thickness of the heat shielding material from the center.

  By adopting such a configuration, the conventional plain shade is prevented from being unsteadily folded up by the fabric, and a sharp fold and a compact fold are realized without protruding to the front side. In addition, it has the same sharp shape as the sharp shade that is the upper type of the plain shade, so the values are improved.

  Further, in the present invention, the heat shield is provided with vertical notches slightly larger than the size of the guide ring at all positions of the plurality of guide rings of the plane shade attached in the attached state to the plain shade. The guide ring with the plain shade attached to the horizontal direction to pass the cord in the vertical direction is inserted into the vertical notch formed in the heat shield and penetrated, with the guide ring attached to the plain shade rotated in the vertical direction. Then, the heat shield may be fixed to the plain shade by returning to the horizontal direction and passing the lifting / lowering cord through the guide ring.

  By adopting such a configuration, the heat shielding material, which is the lining of the plain shade, is securely fixed without being detached from the plain shade main body. Moreover, since it can be easily detached, cleaning when the plain shade main body becomes dirty can be easily performed.

  Moreover, in this invention, it is also characterized by arrange | positioning the lining which makes it difficult to see a heat-shielding material from a back surface side (outdoor side) while having a low heat-shielding effect in the back surface side (outdoor side) of a heat-shielding material. Good.

  By adopting such a configuration, it is possible to make it difficult to see from the back side (outdoor side) the heat shielding material that is inferior in design by using the race type, which is the original purpose capable of adjusting lighting.

  According to the present invention, there are many similar applications because of the reason that the heat shielding material that can obtain a high heat reflection effect until now has a poor design and the bulkiness problem during storage due to the thickness of several millimeters. However, it was not commercialized, but the present invention is a sheet-like structure composed of a multi-layer structure in which a plurality of resin sheets are embedded in high-purity aluminum foil on both sides with high heat reflection effect to confine air. This heat shielding material can be easily folded by creasing. By specializing this heat shield as a plain shade lining used in the opening of the window, these problems can be solved, and furthermore, with unique processing methods and attachment methods that can be installed on existing plain shades, Realized at low cost. While realizing a high energy saving effect and a maintained design property at a low cost, blindfolding and daylighting for privacy protection by the opening / closing function, which is the original purpose of the curtain, can be established without any problems.

It is a figure which shows the whole form of this invention, and shows a mode that the heat shield material A processed in order to install in these is installed in the back surface of the plain shade main body cloth G. The ring-shaped B which is an important part is shown in the lower right of the drawing. It is a figure which shows the side surface of FIG. 1, and shows the direction of the surface O (indoor side) and the back surface U (outdoor side) of the plain shade main body fabric G. The ring-shaped B which is an important part is shown in the lower right of the drawing. A heat welding process flow YO in which the heat shielding material A is sandwiched between the heat welding machines YU and YD, only the resin material portion inside the heat shielding material is melted and pressed, and the surface of the heat shielding material is creased. It is a figure which shows the one part position which performs the process of FIG. 3, and shows the welding part C3 which the guide ring B touches, and the C2 position which is an important position of Claim 3. These particularly indicate that the lower side is thermally welded from the position where the thickness of the heat shield is lowered from the center between C3 and the adjacent C3. It is a detailed view of the flow of installing the heat shield A on the fabric G of the plain shade body. After the lifting cord D is removed from all the guide rings B, the flow steps 1, 2, and 3 are performed, and the lifting cord D is again performed. The important process in the operation | work which inserts in all the guide rings B is shown. The plain shade for making it difficult to see from the back surface side U (outdoor side) the heat-shielding material A installed in the back surface of the plain shade main body cloth | dough G which is Claim 5 is shown. In order to insert and install the guide ring B in the heat shielding material A, a state in which a longitudinal cut slightly larger than the guide ring B is provided in a portion where the guide ring B contacts the heat shielding material A is shown. A mode that the heat shield material A which is a side view of FIG. 7 is installed in the plain shade main body cloth G is shown.

Hereinafter, a plane shade provided with a heat shield according to an embodiment of the present invention will be described in detail with reference to the drawings.
As shown in FIGS. 1 and 2, a sheet-like heat shielding material A is fixedly installed on the back surface side U (outdoor side) of the plain shade main body fabric G. The guide ring B and the lifting cord D, which are incidental parts of the plain shade G connected to the plain shade G, pass through the heat shielding material A and are further installed on the back side U (outdoor side) of the heat shielding material A. The heat shield A is integrated as a lining.

  Further, the heat shield A is subjected to horizontal scoring C2 and C3 to enable folding necessary for opening and closing. Since the heat shielding material A is a multilayer structure in which a plurality of resin sheets are embedded in aluminum foils on both sides and air is confined, horizontal scoring C2 and C3 can be performed by a heat welding machine. As shown in FIG. 3, the heat shield A is sandwiched between the upper part YU of the heat welding machine and the lower part YD of the welding machine, and becomes a streak C in which the heat shield is welded by YO indicating the flow after welding.

  As shown in FIG. 4, the processing positions of the horizontal creasing processes C2 and C3 are specified by the position of the guide ring B installed on the back surface side U (outdoor side) of the plain shade G. The scoring process C3 is performed on the horizontal position C3I of the position BI where the guide ring B is installed, and C2I is thermally welded in the horizontal direction at a position where the thickness AA of the heat shield is lowered from the center between the upper and lower C3I. These are the positions where the lower part of the center part is reasonably short so that it is prevented from protruding to the O side and is folded up compactly.

  Next, the procedure for attaching and fixing the heat shield A on the back side (outdoor side) of the plain shade G is shown in FIG. As shown in FIG. 7, cuts BK are vertically formed in all positions BI where the guide ring B installed on the back surface U (outdoor side) of the plain shade G in advance in the heat shield A is installed. The notch BK is slightly larger than the diameter of the guide ring B. Further, the lifting / lowering cord D, which is an accessory part of the plain shade G, is removed from the guide ring B.

  Next, as shown in FIG. 8, the sheet-like heat shielding material A in which the cut BK is formed is attached to the back side of the plain shade G. The vertical cut BK is rotated BC from the fixed position horizontal direction of the guide ring B installed in the plane shade G in the vertical direction (FIG. 5-1) and penetrated (FIG. 5-2). At that time, it is made easier to penetrate through the work BH to widen the cut BK. After the penetration, the guide ring B rotates BM in the horizontal direction and returns to the original fixed position (FIG. 5-3). Finally, the lifting / lowering cord D is passed through the guide ring B to return to the original state. The heat shielding material A is fixed to the plain shade G without being detached by these operations.

  In addition, as shown in FIG. 6, the plain shade originally has its own shade called a twin or double with a lace function that can be operated independently, but in those types, the heat shield A is operated independently. It becomes difficult to see the heat shielding material A from the outside by hiding it with possible lace fabric. In this way, by arranging a lace lining on the back side (outdoor side) of the heat shield material that makes the heat shield effect low and makes it difficult to see the heat shield material from the back side (outdoor side), heat insulation of the heat shield material It is possible to make it difficult to see from the back side (outdoor side) a heat shielding material that is inferior in design without substantially reducing the effect.

A: Heat shielding material AA: Heat shielding material thickness B: Guide ring BK, which is a part attached to a plain shade BK: Cut for inserting the guide ring into the heat shielding material BI: Position where B is installed BC: B is inserted into BK Rotating B for B B: Opening BK to insert B into BK BM: Rotating B after inserting B into BK C: Heat-sealing material heat-sealed Muscle CI: Position of the muscle where the heat shield material is thermally welded C1: Muscle where the edge portion of the heat shield material is heat welded C2: Muscle which is thermally welded horizontally between the heat shield materials C3 C3: Heat shield material Muscles C2I: C2 muscle welding position C3I: C3 muscle welding position D: Lifting cord E which is an accessory part of the plain shade E: Head box portion F of the plain shade body F: Plain shade body The weight bar section G: Plain shade body fabric R: Plain shade twin or double type lace part called YU: Upper part of welding machine YD: Lower part of welding machine 1/2: Indicates that the distance between C3 and adjacent C3 is half State S: State in which a heat shield is inserted and installed in the plain shade body O: Front side direction of the plain shade body (indoor side)
U: Back side direction of the plain shade body (outdoor side)
YO: Flow after heat shielding material is welded by welding machine

Claims (1)

A sheet-like heat shielding material composed of a multilayer structure in which a plurality of resin sheets are incorporated in high-purity aluminum foils on both sides to confine air,
Horizontal scoring to allow folding is applied at predetermined intervals,
The scoring process is performed by heat-welding the heat-shielding material with a heat-welding machine from outside the surface, and melting and pressing only the resin sheet inside the heat-shielding material.