JP2015048608A - Snow removal cover for building structure roof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a snow removal cover for a building structure roof, which is simply and easily laid on to cover an inclined roof, a ridge, etc. of a general structure, allows accumulated snow removal without manual labor when snow falls, and is quickly and easily recovered, stored and kept when a snow season is over.SOLUTION: A snow removal cover for a building structure roof comprises: a plurality of belt-like fluororesin films 10(0), 10(1) and 10(2) having non-adhesive, snow-sliding and water-repellent physical properties; and frames 20(0), 20(1) and 20(2) for which both ends in a film length direction of the respective belt-like fluororesin films are crimped so as to be held over the film width length. Through the respective frames, the respective belt-like fluororesin films are spread respectively to an inclined roof and a ridge of the structure to cover the entire surfaces of the inclined roof and the ridge of the structure, and thus the snowfall is made to naturally slide.

Description

  The present invention relates to a snow removal cover for a roof of a building using a fluororesin-based synthetic resin film having non-adhesive properties, snow sliding properties and water repellent properties.

  The present invention solves the problem that the roof of ordinary houses is covered with snow, and that it is difficult to remove snow from the roof with the aging of residents. Developed. A conventional snow cover for a roof using the above-mentioned fluororesin-based synthetic resin film (hereinafter simply referred to as a fluororesin film) is provided with a planar heating element on the roof surface via a heat insulating layer, and a covering layer thereon. There have been proposals to provide a fluororesin film on the coating layer, but it has been difficult to put it to practical use because of its high cost. Further, a roofing material for a greenhouse that circulates warm air in a cylindrical bag made of a fluorine resin film provided with an air supply port for supplying air and an exhaust port for discharging the air has been proposed. There are drawbacks in that it is difficult to apply to a roof of a general house other than a greenhouse roof, such as requiring a long film stopper to fix both sides of the wall and a source of warm air.

JP 2008-269662 A Japanese Patent Laid-Open No. 2004-61 JP 2004-81205 A

The present invention provides a snow cover for a building roof that can easily and easily cover a ridge and an inclined roof of a general building so that snow can be removed without human intervention.
The present invention also provides a snow cover for a building roof that can be quickly and easily recovered and stored after the snow season.
Furthermore, the present invention provides a snow cover for a building roof that can be manufactured and sold at a low price.

In order to achieve the above-mentioned object, the invention of claim 1 of the snow cover for a building roof of the present invention has a thickness of a plurality of strip-like fluororesin synthetic resin films of 50 to 250 μm, non-adhesive, In order to be able to sandwich both ends in the film length direction of each of the strip-shaped fluorine resin films and those having snow sliding and water-repellent properties (hereinafter simply referred to as strip-shaped fluorine resin films) Each frame-like fluororesin film is stretched over the building ridge and the inclined roof through the respective frames, so that the building ridge and the inclined roof are entirely covered. A snow removal cover for a building roof that is covered with a cover so that snowfall can be naturally slid, wherein the frame comprises a pair of elongated plates, and the film length of the strip-like fluororesin film One or both of the pair of elongated plates is a semi-rigid plate so that the strip-like fluororesin film can be sandwiched and crimped by the pair of elongated plates over the film width length at each end in the direction. The belt-like fluororesin film is sandwiched and pressure-bonded by the pair of elongated plates.
Further, in order to achieve the above-mentioned object, the invention of claim 2 of the snow cover for a building roof according to the present invention, as shown in the drawing, has a plurality of strip-like fluororesin-based synthetic resin films having a thickness of 50 to 250 μm and is non-adhesive. And both ends in the film length direction of each of the strip-shaped fluororesin films can be sandwiched over the width of the film, respectively. The strip-shaped fluororesin film is stretched on the building ridge and the inclined roof through the frames, respectively, and the building ridge and the inclined roof are formed. A snow cover for a building roof that is entirely covered so that snowfall can be naturally slid, wherein the frame comprises a pair of elongated plates, and the film of the belt-like fluorine resin film. One elongated plate of the pair of elongated plates so that the strip-like fluororesin film can be sandwiched and crimped by the pair of elongated plates over the width of the film at each end in the film length direction. A pair of semi-rigid or soft packing plates made of rubber or synthetic resin between the strip-shaped fluorine resin film or between the other elongated plate and the strip-shaped fluorine resin film. Each end of the belt-like fluorine resin film is sandwiched and crimped by an elongated plate.
Furthermore, in the invention of claim 3 of the snow cover for a building roof according to the present invention, in order to achieve the above object in the invention of claim 1 or 2, as shown in the drawing, A film having a thickness of 50 to 250 μm and having non-adhesive, snow-sliding and water-repellent properties (hereinafter simply referred to as a strip-shaped fluororesin film) and both ends of each strip-shaped fluororesin film in the film length direction, The film is composed of a frame that is detachably pressure-bonded so that it can be sandwiched over the film width, and each of the belt-like fluororesin films is stretched over the building ridge and the inclined roof through the frames, A snow cover for a building roof that covers the entire building ridge and the inclined roof so that snowfall can be naturally slid, wherein the frame comprises a pair of elongated plates. The one elongated plate is attached to each end in the film length direction of the strip-shaped fluororesin film so that the strip-shaped fluororesin film can be sandwiched and crimped by the pair of strips over the film width length. The back adhesive surface of the double-sided adhesive tape having an adhesive strength stronger than the non-adhesive strength of the belt-like fluororesin film and having the release paper adhered to the surface to be peelable is set to the film width length of each end of the belt-like fluororesin film. Adhering to the appropriate length, and sticking each end of the strip-shaped fluororesin film to the front adhesive surface of the double-sided adhesive tape, the pair of elongated plates are sandwiched between the strip-shaped fluororesin film and crimped This facilitates the work to be performed.
In the present invention, the belt-like fluorine resin film is a non-polymer such as an ethylene-tetrafluoroethylene copolymer (hereinafter referred to as ETFE) film or a tetrafluoroethylene-hexafluoropropylene copolymer (hereinafter referred to as FEP) film. This refers to a strip-like fluororesin-based synthetic resin film having high adhesive properties, snow sliding properties and water repellency. The thickness of the belt-like fluorine resin film is required to be in the range of 50 μm to 250 μm. The reason is that when the belt-like fluorine resin film is 50 μm or less, it is too thin and flexible, and it takes time to stretch, and it is difficult to crimp it by being sandwiched between frames, and when it is 250 μm or more, it is folded or folded. This is because it is difficult, is troublesome to cover and coat, and is expensive.
Examples of general physical properties of the strip-shaped ETFE film are as follows.

When a covering cover is formed on a ridge and an inclined roof of a general building by using a plurality of strip-like fluororesin films, each strip-like fluororesin film is stretched through a frame in which both ends in the film length direction are crimped. The two side portions (ears) in the film width direction are overlapped. Also, depending on the shape of the roof, such as the roof of a building or a half-gable roof, there are cases where a plurality of belt-shaped fluorine resin films are crossed and overlapped, and each belt-shaped fluorine resin film is stretched through the frame. .
In addition to the normal belt-like film, the belt-like fluorine resin film has a large tensile strength and tear strength when it is formed in a cylindrical shape and folded, or a belt-like film that is folded in both sides in the film width direction. The resistance to wind pressure and vibration is large, and the latter can increase or decrease the film width.
The strip-shaped fluororesin film has a pair of elongated plates sandwiched across the length of the film at both ends in the film length direction and is detachably pressure-bonded. Can be averaged over the film width length. The adjustment of the tensile force in the length direction of the film is determined in consideration of the thickness, width, length, roof structure, influence of wind force, and the like of the belt-like fluorine resin film.
As the elongated plate used in the present invention, a metal plate, a synthetic resin plate, a wooden plate, or the like is used. As shown in the drawings, the elongated plate has a pair of bolts and nuts or screws and nuts (hereinafter simply referred to as bolts) and bolt holes into which bolts are inserted and corresponding film holes. The film is sandwiched between the strips and can be crimped, and a rope hole is provided for attaching ropes, wires, nails, screws, etc. (hereinafter simply referred to as ropes) and attached to the building. It should be possible to attach or detachably attach to the ground near the building via a pile or the like.
In addition, a rubber-like or synthetic-resin-like plate shape is sandwiched between the pair of elongated plates at each end in the film length direction of the belt-like fluorine resin film over the film width length and detachably pressed. It is preferable to insert the packing over the film width length between the elongated plate and each end of the strip-like fluororesin film in the film length direction. Alternatively, it is preferable to use one of the pair or the pair in which the elongated plate is made of a semi-rigid material. Further, in order to attach the pair of elongated plates to the respective ends of the film length of the strip-like fluororesin film, one end of each pair of the elongated plates is attached to the end of the length of the strip-like fluororesin film. It is desirable from the viewpoint of work that the other elongated plate is sandwiched after the film is fixed through the double-sided adhesive tape in the film width direction.

In the present invention, both ends in the length direction of the belt-like fluorine resin film are detachably pressure-bonded over the width of the film by the pair of elongated plates forming the frame. When the resin film is stretched, an average large tension is applied to the film without tearing even if the fluororesin film is extremely thin compared to the case where the belt-shaped fluororesin film is stretched by eyelets. Can be adjusted to give. In addition, through the pair of elongated plates forming the frame, it is directly stretched by a nail, a screw, etc., and can be detachably engaged, or on the ground near the building or the building, Since it can be stretched and detachably attached via a rope, etc., it is easy to stretch the belt-like fluororesin film, and there is a snow cover for a building roof that covers the entire building ridge and the inclined roof. Easy and quick. Therefore, during snowfall, snow on a general building ridge and a sloped roof falls on the ground by natural snow sliding due to the physical properties of the belt-like fluorine resin film. The snowfall on the roof that has fallen on the ground can be removed on the ground with human power or a snow remover, eliminating the trouble and danger of removing snow on the roof. In addition, in unoccupied houses, collapse due to snow on the roof is prevented.
Moreover, since the strip | belt-shaped fluorine resin film used for this invention is utilized in large quantities for the greenhouse greenhouse covering material etc., it is easy to acquire cheaply.
Furthermore, the snow removal cover for roofs of the present invention used for building ridges and sloped roofs can be used to remove the attachment of each frame from the building or the ground near the building outside of the season, and The film is wound through a pair of elongated plates forming frames at both ends of the film, and can be easily removed and stored.

It is a whole explanatory view of a use state showing an example of the present invention. It is a whole explanatory drawing of the use condition which shows another Example of this invention. FIG. 3 is a partially enlarged explanatory view showing in principle the band-like fluorine resin film used in FIGS. 1 and 2 and a frame bonded to the band-like fluorine resin film. It is explanatory drawing which showed the strip | belt-shaped fluorine resin film and a pair of elongate board which forms the flame | frame crimped | bonded to this in cross-sectional view. It is another explanatory drawing which showed in cross-section the strip-like fluorine resin film and a pair of elongated plates forming a frame bonded to this. It is explanatory drawing shown in sectional drawing when a double-sided adhesive tape is stuck on one elongate board of a pair of elongate board which forms a flame | frame. It is explanatory drawing which showed in cross-section the strip | belt-shaped fluorine resin film stuck to one elongate board of FIG. 6-1, and the other elongate board crimped | bonded to this.

  The form for implementing the snow cover for a building roof of the present invention is shown in Example 1 and Example 2.

Embodiment 1 of the present invention is shown in FIGS. 1, 3, 4, 6-1 and 6-2. The snow cover for building roof according to the first embodiment of the present invention includes a plurality of strip-shaped fluorine resin films 10 (0), a frame 20 (0) in which both ends in the film length direction are pressure-bonded, and one strip-shaped fluorine resin. A film 10 (1), a frame 20 (1) in which both ends in the film length direction are pressure-bonded, a pair of strip-like fluorine resin films 10 (2), and a frame 20 in which both ends in the film length direction are pressure-bonded (2).
Each of the strip-shaped fluororesin films 10 (0), 10 (1) and 10 (2) is a strip-shaped ETFE film having a thickness of 100 μm and a width of 1.6 m corresponding to the roof length and eave length, etc. Used according to the length of the film cut.
For the frame 20 (0), the frame 20 (1), and the frame 20 (2), a pair of synthetic resin strips having a thickness of 5 mm, a width of 10 cm, and a length of 1.6 m are used.
As shown in FIG. 4, the pair of elongated plates is composed of rigid synthetic resin elongated plates 21 (0), 21 (1), 21 (2) and semi-rigid synthetic resin elongated plates 22 (0), 22 (1). , 22 (2).
As shown in FIG. 3, each elongated plate has several bolt holes (not shown) for inserting bolts 211, a pair of ropes 30 (0), ropes 30 (1), or ropes 30 (2). Two rope holes (including wire holes or engagement holes for inserting nails, screws, etc.) 200 to be connected are drilled in two places. Further, the belt-like fluorine resin film 10 (0), 10 (1) or 10 (2) sandwiched between the pair of elongate plates and press-bonded is connected to the bolt hole and the rope hole 200 of each elongate plate. A penetrating film hole 100 is drilled. A bolt 211 and a washer 212 are inserted into the front bolt hole of one elongated plate of the pair of elongated plates to sandwich the belt-like fluorine resin film, and a washer ( (Not shown) is inserted into the bolt 211, the bolt 211 is screwed by a nut (not shown), and the belt-like fluororesin film is strongly held by the pair of elongated plates over the width of the film. It will be detachably crimped.
As shown in FIGS. 6A and 6B, in order to sandwich and attach the strip-like fluororesin film to the pair of elongated plates, one elongated plate 21 of the pair of elongated plates is used. In (0), 21 (1) or 21 (2), the adhesive surface on the back surface of the double-sided adhesive tape having the release paper adhered to the front surface is set to a length corresponding to the film width of the strip-shaped fluororesin film. It is desirable to adhere. The reason is that, when the belt-like fluororesin film is sandwiched between the other elongated plates and crimped, it is possible to easily align bolt holes and rope holes.
The working procedure of the embodiment of the present invention is as follows. First, the strip-shaped fluororesin film 10 (1) is placed on the ridge 511 along the length direction of the ridge 511 in the film length direction, and both side portions in the film width direction are placed. Bending along both sides of the ridge 511 and laying on the inclined roofs 51 on both sides, and folding or folding the strip-like fluororesin film 10 (1) at both ends in the longitudinal direction of the ridge 511, respectively. If necessary, after adhering through the single-sided adhesive tape described in Japanese Patent No. 531318 or Japanese Patent Application No. 2013-176290 or the double-sided adhesive tape 40 and covering both ends of the ridge 511 and its lengthwise direction. Each frame 20 (1) is formed by hanging the strip-shaped fluorine resin film 10 (1) below each end face 52 of the building 50 and crimping the strip-shaped fluorine resin film 10 (1) on both ends in the length direction. The strip-shaped fluororesin film 10 (1) is stretched and detachably attached to the end face 52 through nails or screws inserted into a pair of rope holes 200 provided in the pair of elongated plates. Alternatively, the belt-like fluorine resin film 10 (1) is stretched through the ropes 30 (1) and 30 (1) connected to the rope holes 200 of the pair of elongated plates forming the frame 20 (1). Then, the building 50 or the ground pile 500 near the building 50 is detachably attached. At the same time, the strip-shaped fluororesin film 10 (2) is placed on the strip-shaped fluororesin film 10 (1) laid on the inclined roofs 51 on both sides of the ridge 511 in parallel with the length direction of the ridge 511 and parallel to the ridge 511. The strip-shaped fluororesin film 10 (2) is stretched on the end face 52 in the same manner as described above through the pair of elongated plates forming the frame 20 (2) laid and crimped at both ends in the film length direction. Detachably engaged via nails or screws inserted into the pair of rope holes 200 or connected to the rope holes 200 of the pair of elongated plates forming the frame 20 (2). The strip-shaped fluororesin film 10 (2) is stretched through the rope 30 (2) and the rope 30 (2) in the same manner as described above, and is detachably attached to the building 50 or the ground pile 500 nearby. However, the belt-like fluorine resin film 10 (1) is 511 and to prevent the lifting rise from both sides of the inclined roof 51.
Next, in order to lay a plurality of strip-shaped fluorine resin films 10 (0) in parallel with the strip-shaped fluorine resin film 10 (2) on the sloped roof 51, the film width direction of the strip-shaped fluorine resin film 10 (2). The upper ear surface in the film width direction of the first belt-like fluorine resin film 10 (0) among the plurality of belt-like fluorine resin films 10 (0) can be laid on the back surface of the lower ear portion. The upper ear surface in the film width direction of the second belt-like fluorine resin film 10 (0) is overlapped with the back surface of the lower ear portion of the first belt-like fluorine resin film 10 (0). Repeatedly repeat the same procedure, and then lay the bottom of the back of the strip-shaped fluororesin film 10 (0) in the film width direction so as to cover the rain gutter (not shown) of the roof eave 512. And each zonal fluorine tree The pair of elongated plates forming the respective frames 20 (0) in which both ends in the length direction of the film 10 (0) are pressure-bonded are respectively suspended on the respective face surfaces 52 side of the building 50, and the respective frames 20 (0). In the same manner as described above, a strip-like fluororesin film 10 (0) is stretched on each end face 52 through a pair of elongated plates to detachably attach, or each frame 20 (0) is formed. Each of the strip-like fluororesin films 10 (0) is stretched in the same manner as described above via the rope 30 (0) and the rope 30 (0) connected to the rope holes 200 of the pair of elongated plates. Alternatively, it is detachably attached to the ground pile 500 near the ground. If necessary, the strip-like fluororesin films or the strip-like fluororesin film and the ridge surface or the sloped roof surface can be detachably attached with the single-sided adhesive tape or the double-sided adhesive tape.
As a result of the above operations, a plurality of strip-like fluororesin films are sequentially stretched over the ridge 511 and the inclined roof 51 of the building 50 to cover the entire surface, thereby completing the snow removal cover of the present invention. Snowfall does not accumulate on the ridge 511 and the sloped roof 51 by the snow removal cover of the present invention, and naturally snows on the ridge 511 and the sloped roof 51 to accumulate snow on the ground, thereby facilitating snow removal.

A second embodiment of the present invention is shown in FIGS. The snow cover for building roof according to Example 2 of the present invention has a pair of elongate fluorine resin films 10 (0) and a pair of elongated films forming a frame 20B (0) in which both ends in the film length direction are pressure-bonded. A pair of strip-shaped fluorine resin films 10 (1), a pair of elongated plates forming a frame 20B (1) in which both ends in the film length direction are pressure-bonded, and a pair of strip-shaped fluorine resin films 10 ( 2) and a pair of elongated plates forming a frame 20B (2) in which both ends in the film length direction are pressure-bonded. Since the strip-like fluororesin films 10 (0), 10 (1) and 10 (2) are the same as those in Example 1 except for the film length, detailed description thereof is omitted.
As shown in FIG. 5, the frames 20B (0), 20B (1) and 20B (2) have a pair of elongated plates 21 (0), 21 (1) or 21 (2) and the pair of elongated strips. Rubber or synthetic resin packing plates 23 (0), 23 (1), 23 between the belt-like fluorine resin films 10 (0), 10 (1) or 10 (2) sandwiched by the plates, respectively. (2) is inserted, strongly sandwiched between the pair of elongated plates, and the belt-like fluororesin film is pressure-bonded.
According to the working procedure of the embodiment of the present invention, a plurality of strip-like fluororesin films 10 (0) are laid on the inclined roofs 51 on both sides of the building 50 over the building 511 and below the eaves 512 on both sides. At the same time, each frame 20B (fitted to both ends in the longitudinal direction so that the belt-like fluorine resin films 10 (0) can be stretched by overlapping the ears of the belt-like fluorine resin films 10 (0). The ropes 30 (0) and 30 (0) connected to the pair of elongated plates forming (0) are sequentially attached to the ground pile 500 or the building 50 in a detachable manner.
Next, the strip-like fluororesin film 10 (1) is placed on the ridge 511 along the length direction of the ridge 511 in the film length direction, and both ends in the film width direction are along both sides of the ridge 511. While bending and laying on both sides of the inclined roof 51, the strip-like fluororesin film 10 (1) is folded or folded at both ends of the ridge 511, and the single-sided adhesive tape or the double-sided adhesive tape as required. Each frame 20B (1) which adheres via 40 and covers the ridge 511 and its both ends, hangs down below each wife face 52, and crimps both ends in the length direction of the strip-like fluororesin film 10 (1). The strip-shaped fluororesin film 10 (1) is stretched on each end face 52 via a nail or screw inserted into a pair of rope holes 200 provided on the pair of elongated plates), and is detachable. Engagement or frame 20B ( The strip-shaped fluororesin film 10 (1) is stretched through the ropes 30 (1) and 30 (1) connected to the rope holes 200 of the pair of elongated plates in the above), and the building 50 or its vicinity And detachably attached to the ground pile 500. At the same time, the strip-shaped fluororesin film 10 (2) is placed on the strip-shaped fluororesin film 10 (1) laid on the inclined roofs 51 on both sides of the ridge 511 in parallel with the length direction of the ridge 511. Through the pair of elongated plates of the frame 20B (2) laid in parallel with the ridge 511 and crimped at both ends in the longitudinal direction, the strip-like fluorine resin is connected to the end face 52 through nails or screws in the same manner as described above. The film 10 (2) is stretched and detachably attached thereto, or, similarly to the above, each strip-shaped fluororesin film 10 (2) is stretched via the ropes 30 (2) and 30 (2). Then, the strip-like fluororesin films 10 (1) and 10 (0) are lifted from both sides of the ridge 511 and the inclined roof 51 by being detachably attached to the building 50 or the ground pile 500 near the building 50. To prevent. In addition, if necessary, the strip-like fluororesin films or the strip-like fluororesin film and the ridge surface or the inclined roof surface are subjected to an adhesive treatment with the single-sided adhesive tape or the double-sided adhesive tape.
As a result of the above operations, the ridge 511 and the sloped roof 51 of the building 50 are sequentially covered with a plurality of strip-like fluororesin films so that the snow removal cover of the present invention is completed, and the snowfall of the sloped roof 51 of the building 50 is completed. The snow removal cover of the present invention does not accumulate snow on the ridge 511 and the inclined roof 51, and naturally snows on the ridge 511 and the inclined roof 51 to accumulate snow on the ground, thereby facilitating snow removal.

  The product of the present invention is lightweight, easy to manufacture and can be mass-produced at low cost.

10 (0), 10 (1), 10 (2) Band-shaped fluorine resin film 100 Film hole 20 (0), 20 (1), 20 (2) Frame 20B (0), 20B (1), 20B (2) Frame 21 (0), 21 (1), 21 (2) Hard synthetic resin plate 22 (0), 22 (1), 22 (2) Semi-rigid synthetic resin plate 23 (0), 23 (1), 23 ( 2) Packing plate 24 (0), 24 (1), 24 (2) Double-sided adhesive tape 25 (0), 25 (1), 25 (2) Release paper 200 Rope hole 211 Bolt 212 Washer 30 (0), 30 (1), 30 (2) Rope 40 Single-sided adhesive tape or double-sided adhesive tape 50 Building 51 Sloped roof 511 Building 512 Eaves 52 Building wife 500 Ground pile

Claims (3)

  A plurality of strip-shaped fluororesin-based synthetic resin films having a thickness of 50 to 250 μm and having non-adhesive, snow-sliding and water-repellent properties (hereinafter simply referred to as strip-shaped fluororesin films), and each of the strip-shaped fluororesins. Each end of the film in the film length direction is composed of a frame that is detachably pressure-bonded so as to be sandwiched over the length of the film, and each band-like fluororesin film is attached to the building through each frame. A snow cover for a building roof that is stretched over a building and an inclined roof so as to cover the entire building and the inclined roof of the building so that snowfall can be naturally slid. The strip-shaped fluororesin film is formed of a pair of strips, and the strip-shaped fluororesin film is formed at each end in the film length direction of the strip-shaped fluororesin film over the film width by the pair of strips. One or both of the pair of elongated plates is a semi-rigid plate, and the band-like fluororesin film is sandwiched and crimped by the pair of elongated plates so that the belt-like fluorine resin film is sandwiched and crimped. Snow cover for building roof.   A plurality of strip-shaped fluororesin-based synthetic resin films having a thickness of 50 to 250 μm and having non-adhesive, snow-sliding and water-repellent properties (hereinafter simply referred to as strip-shaped fluororesin films), and each of the strip-shaped fluororesins. Each end of the film in the film length direction is composed of a frame that is detachably pressure-bonded so as to be sandwiched over the length of the film, and each band-like fluororesin film is attached to the building through each frame. A snow cover for a building roof that is stretched over a building and an inclined roof so as to cover the entire building and the inclined roof of the building so that snowfall can be naturally slid. The strip-shaped fluororesin film is formed of a pair of strips, and the strip-shaped fluororesin film is formed at each end in the film length direction of the strip-shaped fluororesin film over the film width by the pair of strips. Of the pair of elongated plates, between the back surface of one elongated plate and the surface of the strip-shaped fluororesin film, or the surface of the other elongated plate and the strip-shaped fluororesin film. A semi-rigid or soft packing plate made of rubber or synthetic resin is sandwiched between the back surface of the belt, and each end of the belt-like fluororesin film is sandwiched and crimped by the pair of elongated plates. Snow cover for building roof. A plurality of strip-shaped fluororesin-based synthetic resin films having a thickness of 50 to 250 μm and having non-adhesive, snow-sliding and water-repellent properties (hereinafter simply referred to as strip-shaped fluororesin films), and each of the strip-shaped fluororesins. Each end of the film in the film length direction is composed of a frame that is detachably pressure-bonded so as to be sandwiched over the length of the film, and each band-like fluororesin film is attached to the building through each frame. A snow cover for a building roof that is stretched over a building and an inclined roof so as to cover the entire building and the inclined roof of the building so that snowfall can be naturally slid. The strip-shaped fluororesin film is formed of a pair of strips, and the strip-shaped fluororesin film is formed at each end in the film length direction of the strip-shaped fluororesin film over the film width by the pair of strips. The back adhesive surface of the double-sided adhesive tape that has an adhesive strength stronger than the non-adhesive strength of the strip-like fluororesin film and has a release paper adhered to the surface so that the release paper can be peeled off. Is attached to a length corresponding to the film width length of each end of the strip-like fluororesin film, and by sticking each end of the strip-like fluororesin film to the front adhesive surface of the double-sided adhesive tape The snow removal cover for a building roof according to claim 1 or 2, wherein the pair of elongate plates are sandwiched between the strip-like fluororesin films to facilitate crimping.

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