JP5633831B1 - Metal roofing and solar panel construction method - Google Patents

Abstract

An object of the present invention is to allow a metal roofing material to be laid up by itself without adopting a structure such as a conventional long metal roof gutter and a suspension. A right end portion 2 of a plate portion 1 is bent upward to form an inclined lower support portion 3 and a lower mounting portion 4 to be bent rightward is extended upward to extend vertically. The upper support portion 5 is bent rightward at the upper portion thereof, the upper bent portion 6 is bent, the right rake portion 7 whose end portion is inclined upwardly is bent, and the upper portion thereof is bent upward. The top portion 8 is formed of an insertion portion 10 having an inclined left side rake portion 9 that extends and bends to the left side and a lower end portion of the top portion 8 that is bent into a curved shape and has an insertion portion 11 at the end of the hanging part. A lower kneading part a is formed. Moreover, the upper kneading part b is formed. [Selection] Figure 12

Description

  According to the present invention, the roof material is formed in a predetermined shape in advance, and can be lifted up without a rack and without a tightening work process. The present invention relates to the field of metal roofing materials that can be fitted and installed with solar cell panels.

  Conventionally, a long metal roof gutter is disclosed as a utility model registration No. 3091185 registration utility model gazette.

  The long metal roof gutter disclosed as this registered utility model gazette is composed of a long metal that is bent and has a lower eaves portion 5 extending in the longitudinal direction at one end and an upper eave portion 20 at the other end. The upper collar portion 20a of the adjacent plate 1a is overlapped and tightened on the lower collar portion, which is tightened on the base by the suspension 15, and is sequentially coupled and installed, and the lower collar portion and the adjacent plate are provided. In the standing long metal roof gutter 1 which forms a peak portion of the roof extending in the longitudinal direction with the upper gutter part, the suspension is integrally attached to the end part 10 of the lower gutter part by bending. It is a thing.

  Furthermore, since the long metal roof gutter of the said disclosure has attached the hanger 15 to the end of the lower eaves part 5 as a problem to be solved, the end is bent and integrally attached, The operation | work which covers the hanging element 15 on the lower eaves part 5 of the roof gutter board 1 by 455 mm space | interval which was required in the child became unnecessary. Moreover, since the level difference between the hanging elements 15 is completely eliminated, it is not necessary to apply the reed tape again to the lower eaves part 5 in the whole longitudinal direction after tightening the hanging elements.

  Moreover, since the hanging element 15 is provided over the entire length in the longitudinal direction, when the upper eaves part 20a is put on the lower eaves part 5 of the adjacent roof eaves 1 and tightened, the eaves part does not wave. At the same time, the strength and rigidity of the metal roof gutter itself were also increased.

Utility Model Registration No. 3091185 Registration Utility Model Publication

  The long metal roof gutter disclosed in the prior art is formed on the inner side surface and the outer side surface of the hanger 15 when the hanger 15 and the lower gutter part 5 and the upper gutter part 20 of the roof gutter 1 are assembled. The lower collar part 5 and the upper collar part 20 are superposed and closely contacted to each other and are not tightened (see FIGS. 1 and 3 (b)). For this reason, it cannot be said that the strength of the connecting portions of the roof roof boards 1 is strong.

  Furthermore, the long metal roof gutter disclosed in the related art does not have a structure for fitting the solar cell panel in view of the assembled state of FIGS. 2 and 3B.

  However, the problem to be solved by the present invention is that the metal roofing material can be laid up by itself without adopting the structure such as the long metal roof roof plate 1 and the hanging member disclosed in the prior art. I made it.

  Furthermore, the problem to be solved by the present invention is to superimpose and fit the lower hull and upper hull formed at the left and right end portions of the hanger and the metal roof material, It is possible to construct a metal roof material that can exhibit advantages such as load resistance, impact resistance, and adsorption resistance without performing a metal tightening work process.

  Further, the problem to be solved by the present invention is to form solar cell panels on the left and right ends of the suspension and the metal roof material as necessary for the metal roof material rolled up as described above. The left and right end portions of the solar cell panel may be fitted and used together in the panel insertion portions of the two solar cell panels formed by superposing and fitting the lower and upper hull portions. I was able to do it.

  As a means for solving the problem, the metal roof material according to claim 1 is configured such that the right end portion 2 of the plate portion 1 constituting the metal roof material A is bent upward to form the inclined lower support portion 3. The lower mounting portion 4 that bends to the right above the inclined lower support portion 3, the upper portion of the lower mounting portion 4 is extended, and the vertical support portion 5 is connected to the vertical support portion 5. The upper fold portion 6 is bent to the right side, the right rake portion 7 is bent upward at the end portion of the upper fold portion 6, and the upper side of the right rake portion 7 is Bend the curved top portion 8, the curved left rake portion 9 extending and bending the curved top portion 8 leftward, and the lower end portion of the inclined left rake portion 9 bent into a curved shape. A lower kneading portion a composed of a fitting insertion portion 10 having an insertion portion 11 at the end of the hanging portion is formed, and the left end portion 12 on the left side of the plate portion 1 is bent upward to be inclined downward. The lower support portion 13 is bent to the left above the inclined lower support portion 13, the vertical support portion 15 is positioned above the lower mount portion 14, and the vertical support portion. 15 is extended to the right side and the upper bent portion 16 is bent, and the right cover portion 17 is bent at the end of the upper bent portion 16 so as to be inclined upward. The curved top portion 18 is bent in a curved shape, the inclined left covering portion 19 that bends the curved top portion 18 leftward, and the lower end portion of the inclined left covering portion 19 inward. The support portion 20 is bent and the end portion of the support portion 20 is bent to the left side, and the end portion bent to the curve shape is bent to the right side to form the presser portion 21. It is a metal roofing material characterized by forming the upper kneading part b.

As means for solving the problem, the metal roofing material according to claim 2, wherein the metal roofing material A forms the plate part 1 in a horizontal shape, and the right side of the plate part 1 2. The metal roofing material according to claim 1, wherein an upper horizontal portion 22 higher than the plate portion 1 is formed, and an upper horizontal portion 22 higher than the plate portion 1 is formed on the left side of the plate portion 1. It is.

As a means for solving the problem, the metal roofing material according to claim 3 is characterized in that the metal roofing material A is moved downward with the lower hulling portion a of the metal roofing material A down, and the upper hushing portion. At the time of superposed vertical winding with b facing upward, the end 24 of the horizontal base 23 is bent upward between the lower brazing portion a and the upper brazing portion b, thereby supporting leg portions 25. A bent portion 27 is formed by bending the upper end portion 26 of the support leg portion 25 to the right side, and the end portion of the bent portion 27 is bent upward so that the inclined support portion 28 is A top part 29 is formed in the upper part of the shape support part 28, and an end part of the top part 29 is inclined to form a suspension B having an insertion part 30, and the fitting part 10 of the lower kneading part a is formed. Inserting the insertion part 30 of the said suspension B into the insertion part 11, and assembling and constructing the said suspension B, the said lower helix part a, and the said upper helix part b integrally. A metal roofing material according to claim 1 or the 2 and symptoms.

  As a means for solving the problem, the metal roofing material according to claim 4 is configured such that the right end portion 2 of the plate portion 1 is bent upward so that the inclined lower support portion 3 is replaced with the inclined lower support portion 3. The lower mounting portion 4 that bends to the right side above the lower mounting portion 4 extends upward from the lower mounting portion 4, and the vertical support portion 5 is bent to the right side above the vertical support portion 5. Then, the upper fold portion 6 and the right rake portion 7 that bends the end portion of the upper fold portion 6 in an inclined manner are bent, and the upper portion of the right rake portion 7 is bent and the curved top portion 8 is bent. The inclined left rake portion 9 that extends and bends the curved top portion 8 to the left side, and the lower end portion of the inclined left rake portion 9 is bent into a curved shape to insert the hanging end portion. 11 is formed, and the left end portion 12 on the left side of the plate portion 1 is bent upward so that the inclined lower support portion 13 is inclined. A lower mounting portion 14 that is bent leftward above the lower support portion 13, a vertical support portion 15 is extended above the lower support portion 14, and an upper portion of the vertical support portion 15 is extended rightward. The upper bent portion 16 is bent, the right cover portion 17 is bent upward at the end portion of the upper bent portion 16, and the upper portion of the right cover portion 17 is bent in a curved shape. Then, the curved top 18 is bent, the curved left top 19 is bent to the left, the lower left cover 19 is bent inward, and the support 20 is bent. The end portion of the support portion 20 is bent to the left side and the end portion bent to the right side is bent to the right side to form an upper knurled portion b including the presser portion 21. The metal roofing material A and the end 24 of the horizontal base 23 are bent upward to support the support leg 25, and the upper end 26 of the support leg 25 is set to the right side. A bent portion 27 to be bent is formed, and an end portion of the bent portion 27 is bent upward to form an inclined support portion 28, an apex portion 29 above the inclined support portion 28, and the apex portion 29. The metal roofing material is formed on the left side of the suspension B which is extended in a slanted shape to form the suspension B having the insertion portion 30 and fixed in a vertical state at a predetermined position of the roof base material. The insertion part 30 of the insertion part B is inserted into the insertion part 10 of the insertion part 11 for inserting the suspension end part of the lower kneading part a of A, and the back surface part of the extension part B is closely polymerized. On the other hand, the upper helix portion b formed on the left side of the metal roofing material A is superposed and adhered to the right side of the hanger B so as to overlap with the lower haze portion a. The support portion 28, the top portion 29, and the insertion portion 30 are fitted from above, and the lower claw portion a, the suspension B, and the upper crest portion b are formed by superposition. The solar panel insertion portions 31 and 32 of the solar panel P are formed, and the left edge portion 33 and the right edge portion 34 of the solar panel P are fitted to the solar panel insertion portions 31 and 32. It is a solar panel construction method.

  As a means for solving the problem, the metal roofing material according to claim 5 is configured such that the solar panel fitting insertion portions 31 and 32 include the suspension B, the lower stirring portion a, and the upper stirring portion b. One solar panel insertion part 31 formed between the lower mounting part 4 of the lower claw part a and the pressing part 21 of the upper claw part b, 5. The solar panel construction method according to claim 4, wherein the other solar panel fitting insertion portion 32 is formed between the lower mounting portion 14 and the upper bending portion 16 of the upper knurled portion b. is there.

  As a means for solving the problem, in the metal roofing material according to claim 6, the solar panel P is composed of a plurality of panels, and includes a solar start panel P, a solar middle panel P, and a solar end panel P. The eaves and ridge spacers 39 with legs 40 are fitted to the corners 35, 36 on the front left and right sides of the solar start panel P and the corners 37, 38 on the rear left and right sides of the solar end panel P. And corners 37 and 38 on both the left and right sides of the solar start panel P, corners 41 and 42 on the front and right and left sides of the solar panel P, and corners on the left and right sides of the solar panel P. 43 and 44 and intermediate joint spacers 47 with legs 48 are fitted to the corners 45 and 46 on both the front left and right sides of the solar end panel P. A solar panel construction method of claim 4 or the 5, characterized in that allowed to connect said the solar start panel P and the solar in the panel P and the solar end panel P Te.

  As a means for solving the problem, the metal roofing material according to claim 7, wherein the eaves and ridge spacer 39 with the legs 40 and the intermediate joint spacer 47 with the legs 48 penetrate the legs 40 and 48. 7. The solar panel construction method according to claim 4, wherein the holes 49 are formed respectively.

In the first aspect of the invention, the right end portion 2 of the plate portion 1 constituting the metal roofing material A is bent upward so that the inclined lower support portion 3 is placed on the right side above the inclined lower support portion 3. The lower mounting portion 4 is bent upward, the upper portion of the lower mounting portion 4 is extended so that the vertical support portion 5 is bent, and the upper portion of the vertical support portion 5 is bent rightward. The bent portion 6 and the right rake portion 7 that bends the end portion of the upper bent portion 6 in an upwardly inclined manner are bent, and the bent ridge portion 8 is bent by bending the upper portion of the right rake portion 7. An inclined left rake portion 9 that extends and bends the shape-like top portion 8 to the left side, and a lower end portion of the inclined left rake portion 9 is bent into a curved shape so as to have an insertion portion 11 at the end of the hanging part. A lower kneading portion a composed of the insertion portion 10 is formed, and the left end portion 12 on the left side of the plate portion 1 is bent upward so that the inclined lower support portion 13 is replaced with the inclined lower support portion 13. A lower mounting portion 14 that bends to the left side above, a vertical support portion 15 that extends above the lower mounting portion 14, and an upper portion that extends above the vertical support portion 15 to the right side. The upper bent portion 16 and the right cover portion 17 that bends the end portion of the upper bent portion 16 in an inclined manner are bent upward, and the upper portion of the right cover portion 17 is bent in a curved shape. 18, the inclined left covering portion 19 that bends the curved top portion 18 leftward, the lower end portion of the inclined left covering portion 19 is bent inward, and the supporting portion 20 is bent. The metal roofing material is bent to the left side in a curved shape, and the bent end portion is bent to the right side to form an upper knurled portion b composed of a holding portion 21. The above-described upper kneading portion and the lower kneading portion are only closely polymerized, and the metal roofing material is not hung and tightened without performing a tightening work process. It is Rukoto, roofing up construction has been folded plate roofing materials, load bearing, and has a number of advantages in impact resistance and absorption resistance adhesion or the like.

Furthermore, the metal roofing material of the present invention makes the construction work extremely simple and can be easily performed, thereby reducing the construction cost.

In addition, the present invention provides a solar panel that is firmly formed by using a springback action in the left and right side solar panel insertion portions, which are formed by fitting the lower and upper hull portions as necessary. It has the advantage that it can be fitted.

  The metal roofing material A of the invention according to claim 2 forms the plate portion 1 horizontally, and forms an upper horizontal portion 22 higher than the plate portion 1 on the right side of the plate portion 1. Since it is a metal roof material in which the upper horizontal part 22 higher than the said board part 1 is formed in the left side of the said board part 1, respectively, it has the same effect as the invention of the said Claim 1.

According to a third aspect of the present invention, the metal roofing material A is overlapped with the lower roofing portion a of the metallic roofing material A facing downward and the upper winding portion b facing upward. The end 24 of the horizontal base 23 is bent upward between the lower kneading part a and the upper kneading part b, and the support leg 25 is connected to the upper end 26 of the support leg 25. A bent portion 27 that is bent to the right side is formed, an end portion of the bent portion 27 is bent upward to form an inclined support portion 28, and an apex portion 29 is formed above the vertical support portion 28. An end portion of the top portion 29 is inclined to form a suspension B having an insertion portion 30, and the insertion portion 30 of the suspension B is inserted into the insertion portion 11 of the fitting insertion portion 10 of the lower kneading portion a. Since the metal roofing material is constructed by assembling and assembling the suspension B, the lower brazing portion a, and the upper brazing portion b, the invention according to claim 1 and Flip has load bearing, the advantages in impact resistance and absorption resistance adhesion or the like.

In the invention according to claim 4, the right end portion 2 of the plate portion 1 is bent upward, and the inclined lower support portion 3 is bent downward, and the lower portion of the inclined lower support portion 3 is bent rightward. The portion 4 is extended above the lower mounting portion 4 to bend the vertical support portion 5, the upper portion of the vertical support portion 5 is bent to the right side, and the upper bent portion 6 is The right rake portion 7 that bends the end of the bent portion 6 in an upwardly inclined manner is bent, the upper portion of the right rake portion 7 is bent to extend the curved top portion 8, and the curved top portion 8 extends to the left side. The lower left rake portion 9 to be bent is a lower spiral consisting of a fitting insertion portion 10 having a lower end portion of the inclined left rake portion 9 bent into a curved shape and having an insertion portion 11 at the end of the hanging part. Part a is formed, the left end portion 12 on the left side of the plate portion 1 is bent and extended upward, and the inclined lower support portion 13 is bent leftward above the inclined lower support portion 13. The lower mounting portion 14 is bent by extending the vertical support portion 15 above the lower mounting portion 14, extending upward to the right side above the vertical support portion 15, and the upper bending portion 16. The right side cover part 17 which bends the end part of the upper bending part 16 in an upwardly inclined manner is bent, the upper part of the right side cover part 17 is bent in a curved shape, the curved top part 18 is formed, and the curved top part 18 is formed. An inclined left covering portion 19 that bends to the left side is bent inwardly at a lower end portion of the inclined left covering portion 19, and a support portion 20 is bent, and an end portion of the support portion 20 is bent to the left side. And a metal roofing material A that is bent to the right side to form an upper knurled portion b composed of a pressing portion 21 and an end portion 24 of the horizontal base portion 23. Is bent upward to form a support leg 25, and a bend 27 is formed to bend the upper end 26 of the support leg 25 to the right. 7 is bent upward, the inclined support portion 28 is extended upward, the top portion 29 is extended above the inclined support portion 28, and the end portion of the top portion 29 is extended in an inclined manner to form the insertion portion 30. A hanging end portion of the lower crest portion a of the metal roofing material A is inserted on the left side of the hanging piece B which is formed in a vertical position and fixed to a predetermined position of the roof base material. The insertion part 30 of the insertion part 11 is inserted into the insertion part 30 and the upper part is formed on the left side of the metal roofing material A, with the insertion part 30 of the extension part B being inserted and closely polymerized with the back surface part of the extension part B. The zipper portion b is fitted from above the slanted support portion 28, the top portion 29, and the insertion portion 30 of the hanger B which is overlapped and adhered to the right side of the hanger B and overlaps with the lower helix portion a. The solar panel insertion portion 3 of the solar panel P formed by superposing the lower brazing portion a, the suspension B and the upper brazing portion b. 32, and the solar panel construction method in which the left edge 33 and the right edge 34 of the solar panel P are fitted and installed in the solar panel insertion portions 31 and 32. The solar panel having advantages such as excellent properties and adsorption resistance can be made very simple and can be installed very easily.

According to a fifth aspect of the present invention, in the solar panel fitting insertion portions 31 and 32, the lower heel in which the suspension B, the lower heel portion a, and the upper heel portion b are in close contact and fitted. One solar panel insertion part 31 formed between the lower mounting part 4 of the upper part a and the holding part 21 of the upper upper part b, and the lower mounting part 14 of the upper upper part b, The solar panel construction method according to claim 4, which is the other solar panel insertion portion 32 formed between the upper bent portion 16 and the same effect as the invention according to claim 4. .

  In the invention described in claim 6, the solar panel P is composed of a plurality of panels, and includes a solar start panel P, a solar middle panel P, and a solar end panel P. Elevator / building spacers 39 with legs 40 are fitted to the corners 35, 36 on the side and the corners 37, 38 on both the left and right sides of the solar end panel P, and both the left, right and left sides of the solar start panel P Corners 37 and 38, corners 41 and 42 on both the left and right sides of the solar middle panel P, corners 43 and 44 on the left and right sides of the solar middle panel P, and the front left and right sides of the solar end panel P An intermediate joint spacer 47 with legs 48 is fitted to the corners 45, 46 on both sides, so that the solar start panel P and the soot Since the error in the panel P solar panel construction method according to claim 3 or the 4 or the 5 wherein allowed to connect the solar end panel P, has the same effect as the invention described in claim 4.

  Furthermore, the present invention has the advantage that the solar panel can be made very easily and can be easily installed.

  In the invention according to claim 7, the eaves-and-ridge spacer 39 with the legs 40 and the intermediate joint spacer 47 with the legs 48 form through holes 49 in the legs 40 and 48, respectively. Or since it is the solar panel construction method described in the said 5 or 6, it is excellent in workability | operativity, such as an electrical cord for a solar panel connection.

  Furthermore, the present invention has the same effects as the inventions of the fourth, fifth and sixth aspects.

It is a partially notched perspective view which shows the use condition in this invention metal roofing material and construction method.

It is a top view which shows the use condition of FIG.

It is a partially cutaway enlarged perspective view of the usage state of FIG.

It is a perspective view which shows the 1st Example of the metal roofing material.

It is a front view of the metal roof material of FIG.

FIG. 6 is a partially cutaway plan view of the metal roofing material of FIG. 5.

It is a partially notched enlarged front view of the lower kneading part formed in the right end part of the metal roofing material.

It is a partially notched enlarged front view of the upper kneading part formed in the left end part of the metal roofing material.

It is an enlarged front view of the hanging element.

FIG. 10 is a perspective view of the hanging member of FIG. 9.

It is a partially cutaway front view of the metal roofing material in which the solar panel was fitted.

It is a partially notched enlarged front view of the state which assembled the metal roofing material and the hanging member.

FIG. 13 is a partially cutaway front view of a state in which a solar panel is fitted after assembling the metal roofing material and the hanging member of FIG. 12.

It is a perspective view before the assembly of the solar panel.

FIG. 15 is an enlarged perspective view of the eaves and ridge spacer of FIG. 14.

FIG. 15 is an enlarged perspective view of the intermediate spacer in FIG. 14.

  Since the embodiments of the invention described in claims 1 to 7 of the present invention are common, they will be described collectively as follows.

  In the figure, A is a metal roofing material of the present invention, and has the following configuration.

  In the metal roofing material A of the present invention, the lower end portion a which is the gist of the present invention is formed on the right end portion 2 of the plate portion 1, while the left end portion 12 of the plate portion 1 is formed on the left end portion 12 of the present invention. The upper kneading portions b which are the gist of the above are respectively formed. Hereinafter, an embodiment of the both kneading portions a and b will be described.

  A lower mounting portion 4 that bends the right end portion 2 of the plate portion 1 of the metal roof material A upward and bends the inclined lower support portion 3 to the right above the inclined lower support portion 3. Form. Then, the upper portion of the lower mounting portion 4 is extended to bend the vertical support portion 5, and the upper portion of the vertical support portion 5 is bent to the right side to form the upper bent portion 6. Further, the right rake portion 7 is formed so that the end of the upper bent portion 6 is inclined upward, and the upper portion of the right rake portion 7 is bent to form the curved top portion 8 into the curved shape. An inclined left rake portion 9 that extends and bends the top portion 8 to the left is formed. Furthermore, the lower end portion of the inclined left rake portion 9 is bent into a curved shape to form the fitting insertion portion 10 having the insertion portion 11 at the end of the hanging portion.

  The above is the configuration of the lower mixing portion a.

  The shape of the insertion part 11 at the end of the hanging part is formed in a state slightly narrower than the width of the fitting insertion part 10 formed in the lower part.

  Next, an embodiment of the upper kneading portion b will be described.

  An inclined lower support portion 13 is formed by bending the left end portion 12 on the left side of the plate portion 1 upward. A lower mounting portion 14 that is bent leftward is formed above the inclined lower support portion 13, and a vertical support portion 15 is formed above the lower mounting portion 14.

  Further, the upper portion of the vertical support portion 15 is bent to extend rightward to bend the upper bent portion 16, and the right cover portion 17 is bent to be inclined upward at the end of the upper bent portion 16. Respectively. Further, a curved top 18 is formed by bending the upper side of the right cover 17 into a curved shape.

  An inclined left covering portion 19 that bends the curved top portion 18 leftward and a lower end portion of the inclined left covering portion 19 are bent inward to form a support portion 20.

  Further, the end portion of the support portion 20 is bent to the left side, and the end portion bent to the curve shape is bent to the right side to form the holding portion 21.

  The right-side covering part 17, the bending part 18, and the left-side covering part 19 are shaped so that the right scooping part 7, the curved top part 8 and the left scooping part 9 of the lower kneading part a can be fitted. It is formed by.

  As shown in FIGS. 8, 12, 13 and the like, the shape of the support portion 20 and the presser portion 21 is as follows when the solar panel P is fitted in the solar panel insertion portion 31 described below. It is a shape that can demonstrate the springback function.

  That is, when the edge portion of the solar panel P is fitted in the solar panel insertion portion 31, the holding portion 21 is formed by the gap formed between the support portion 20 and the holding portion 21. The solar panel P is pushed upward, but when the solar panel P is securely inserted, the entire upper surface of the solar panel P is firmly pressed by the spring back function of the presser portion 21. Accordingly, it is possible to exert an extremely excellent effect on the anti-adsorption property by typhoon and the like.

  The above is the embodiment of the upper kneading portion b.

  The metal roofing material A has the plate portion 1 formed in a horizontal shape, and an upper horizontal portion 22 higher than the plate portion 1 is formed on the right side of the plate portion 1 and on the left side of the plate portion 1. Upper horizontal portions 22 higher than the plate portion 1 are formed.

  B is a hanging member which is a component of the present invention, and has the following configuration.

  The hanging element B is used when the metal roofing material A is overlapped with the metal roofing material A overlapped with the lower kneading portion a downward and the upper hushing portion b upward. It is what you use. The embodiment is as follows.

  A support leg 25 that vertically bends one end 24 of the horizontal base 23 vertically and a bent part 27 that bends the upper end 26 of the support leg 25 rightward are formed. Then, the end portion of the bent portion 27 is bent upward to form the inclined support portion 28, and the top portion 29 is formed above the vertical support portion 28.

  Further, the insertion portion 30 is formed by extending the end portion of the top portion 29 in an inclined manner.

  The insertion portion 30 is developed so as to be gradually opened outward from the top portion 29, bent slightly above the tip portion, and formed in a vertical shape so that it can be easily inserted.

  The horizontal base portion 23 and the bent portion 27 are parallel to each other.

  P is a solar panel and has the following configuration.

  As the solar panel P, it is preferable to use a commercially available product having a thickness of “SAMURAI” marked by Kyocera Corporation with a thickness of 8 mm. Therefore, in this invention, the solar panel P, the solar middle panel P, and the solar end panel P use the eaves and ridge spacer 39 with the leg 40 and the intermediate joint spacer 47 as follows.

  That is, as shown in FIG. 14, the corners 35, 36 on the front left and right sides of the solar start panel P and the corners 37, 38 on the rear left and right sides of the left and right solar end panels P・ Fit the ridge spacer 39. Furthermore, the corners 37 and 38 on both the left and right sides of the solar start panel P, the corners 41 and 42 on the left and right sides of the solar panel P, and the corners 43 of the left and right sides of the solar panel P 44, and intermediate joint spacers 47 with legs 48 are fitted to the corners 45, 46 on the front left and right sides of the solar end panel P, and the solar start panel P, the solar middle panel P, and the solar end. The panel P is connected (FIG. 14).

  Reference numeral 33a denotes a ground attached to the corner portions 35 and 36 on both the front left and right sides of the solar start panel P.

  Further, the ground 33a is also attached to the corners 41, 42 on the front left and right sides of the solar panel P.

  The earth 33a is also attached to the corners 45 and 46 on both the front left and right sides of the solar end panel P in the same manner as described above.

  An embodiment of the eaves and ridge spacer 39 is as follows.

  The spacer 39 is formed by bending one end portion of the elongated upper plate portion 50 at a right angle to form a side plate portion 51 and bending the lower end portion of the side plate portion 51 at a right angle inward. A lower plate portion 52 is formed. Further, a part of the front end portion of the lower plate portion 52 protrudes to form a protruding portion 54, and the front end portion of the protruding portion 54 is bent at a right angle to form the leg 40 with a hole 49. .

  Reference numeral 53 denotes a fitting insertion portion formed between the upper plate portion 50 and the lower plate portion 52.

  The above configuration is an example of the implementation of the eaves / building spacer 39.

  An embodiment of the intermediate joint spacer 47 with the legs 48 is as follows.

  As shown in FIG. 16, the spacer 47 bends one end portion of the elongated upper plate portion 55 at a right angle to form a side plate portion 57, and the lower end portion of the side plate portion 57 is perpendicular to the inside direction. The lower plate part 58 is formed by bending it into a shape. Further, a part of the front end portion of the lower plate portion 58 protrudes to form a protruding portion 59, and the front end portion of the protruding portion 59 is bent at a right angle to form a leg 48 with a hole 49. .

Reference numeral 60 denotes a fitting insertion portion formed between the upper plate portion 55 and the lower plate portion 58.

Reference numeral 56 denotes a cutout portion formed by cutting out the left side portion of the upper plate portion 55.

The above configuration is an example of the intermediate joint spacer 37.

C, after the solar panel P is fitted on the metal roof material A and the suspension member B of the present invention and the metal roof that is overlapped with the base material of the roof, and is fitted and rolled up, Stopper for preventing slipping of the solar panel P fitted to the upper and lower kneading parts a and b and the suspension B, which are fitted and assembled together for the purpose of preventing the solar panel P from being slipped downward. It is.

D is a cord cover for storing a wiring cord (not shown) connected to a solar panel P fitted to the roofing material A made of metal of the present invention which is vertically stretched on the roof.

The cord cover D is integrated with and inserted into the anti-slip stopper C of the solar panel P shown in FIGS. Used on the front end face.

E is a nose having a structure that is not easily detached from the eaves attached to the eaves of the roof sheet material A according to the present invention.

Next, the construction method of the metal roofing material A of the present invention, the hanger B, and the solar panel P is as follows.

The hanging elements B are installed at predetermined intervals on predetermined positions of the roof base material. Thereafter, the lower sheet a of one sheet of the metal roofing material A is brought into close contact with the left side of the suspension B. In that case, the insertion port 30 of the said suspension B is inserted in the insertion part 11 of the fitting insertion part 10 of the said lower kneading part a.

As a result, as shown in FIGS. 12 and 13, the suspension B and the lower crest portion a of the metal roofing material A have a tip portion that hangs perpendicularly from an inclined shape. While the insertion port 30 is inserted, the left rake portion 9 and the rake portion 30 are superposed, the curved top portion 8 and the top portion 29 are superposed, the right rake portion 7 and the inclined bent portion 28 are superposed, and the upper fold portion is bent. The part 6 and the bent part 27 are superposed, and further, the vertical support part 5 and the bent part 27 are superposed.

At that time, the insertion port 30 of the hanging element B is always in the state of pulling the inclined left side rake part 9 of the lower hump part a in the direction of the right side rake part 7 of the hanging element B. Therefore, the upward pulling force of the suspension B is prevented.

As described above, the hanger B and the lower crest portion a of the metal roof material A are fitted and in a superposed state.

Next, it is as follows when the construction method for fitting the lower brazing part a with respect to the said suspension B and the upper brazing part b which are fitting and it has become the superposition | polymerization state is as follows.

When the upper brazing portion b is fitted from above the superposed lower brazing portion a and fitted to the suspension B, it is fitted as shown in FIGS. 1, 2, 3, 11, 12, and 13. And polymerize.

That is, the inclined left covering portion 19 of the upper kneading portion b overlaps with the inclined left rake portion 9, and the support portion 20 and the presser portion 21 are disposed below the fitting insertion portion 10.

  Further, the curved top portion 8 and the curved top portion 18 are superposed, the inclined support portion 28 and the right covering portion 17 are superposed, the superposed portion 27 and the upper bent portion 16 are superposed, and the support leg portion 25 is perpendicular. The support leg 15 is polymerized.

  As described above, the hanging suspension B to be overlapped, the lower hump portion a, and the upper haze portion b are fitted and superposed, so that the solar panel fits between the presser portion 21 and the lower mounting portion 4. An insertion part 31 is formed.

  On the other hand, a solar panel insertion portion 32 is also formed between the lower placement portion and the upper bent portion 16 (FIGS. 12 and 13).

  The spacers 39 and 47 are fitted to the solar panel P as follows.

  As shown in FIG. 14, the corners 35, 36 on the front left and right sides of the solar start panel P and the corners 37, 38 on the rear left and right sides of the solar end panel P are used for eaves and buildings with legs 40. The spacer 39 is fitted. Furthermore, the corners 37 and 38 on both the left and right sides of the solar start panel P, the corners 41 and 42 on the left and right sides of the solar panel P, and the corners of the left and right sides of the solar panel P Intermediate joint spacers 47 with legs 48 are fitted to the corners 45 and 46 on both the front left and right sides of the solar end panel P. The solar start panel P, the solar middle panel P, and the solar end panel P are connected.

  Next, a procedure for fitting the solar panel P to the metal roofing material A and constructing it will be described.

  As shown in FIG. 14, after inserting spacers 39 and 47 into the start panel P, the panel P is fitted into the solar panel insertion portions 31 and 32 (FIGS. 11 and 13).

  At that time, the lower plate portions 52 and 58 of the spacers 39 and 47 fitted on the right side of the panel P are placed on the lower placement portion 4, while the spacer 39 fitted on the right side of the panel P, The panel P is fitted and installed in a state where the upper plate portions 50 and 55 of 47 are pressed by the presser portion 21.

  Furthermore, the lower plate portions 52 and 58 of the spacers 39 and 47 fitted on the left side of the panel P are placed on the lower placement portion 14, while the spacers 39 and 47 fitted on the left side of the panel P are placed. The panel P is fitted and installed in a state in which the upper plate portions 50 and 55 are in contact with the upper bent portion 16.

  The above is the fitting construction procedure to the solar panel insertion part 31, 32 of the solar start panel P.

  Next, in the procedure of connecting the middle panel P to the start panel P, an intermediate joint spacer 47 is fitted to the start panel P as shown in FIG.

  Thereafter, the middle panel P is fitted and installed in the same manner as the procedure for fitting the solar start panel P.

  Further, the solar end panel P is also fitted with the eaves and ridge spacer 39, and then the solar end panel P is fitted into the solar panel fitting insertion portions 31 and 32. The solar end panel P is inserted into the spacer 47.

  As a result, both the solar panel P and the solar end panel P are fitted and installed in the same state as when the solar panel fitting insertion portions 31 and 32 are fitted, just like the start panel P. Therefore, since the specific description is the same as the above, the description was omitted.

A Metal roofing material B Hanging element C Stopper D Code cover E Nose P Solar panel a Lower mixing part b Upper mixing part 1 Plate part 2 Right end part 3 Inclined lower support part 4 Lower mounting part 5 Vertical Support part 6 Upper bending part 7 Right rake part 8 Curved top part 9 Inclined left rake part 10 Insertion part 11 Insertion part 12 Left end part 13 Inclined lower support part 14 Lower mounting part 15 Vertical support part 16 Upper folding Curved portion 17 Right-side cover portion 18 Curved top portion 19 Inclined left-side cover portion 20 Bearing portion 21 Presser portion 22 Upper horizontal portion 23 Horizontal base portion 24 End portion 25 Support leg portion 26 Upper end portion 27 Bending portion 28 Inclined support portion 29 Top part 30 Insertion part 31 Solar panel insertion part 32 Solar panel insertion part 33 Left side edge part 33a Earth 34 Right side edge part 35 Corner part 36 Corner part 37 Corner part 38 Corner part 39 Eaves / building spacer 40 Leg part 41 Corner 42 Corner Triangular portion 44 corner 45 corner 46 corner portion 47 intermediate joint for a spacer 48 leg 49 through hole 50 upper plate portion 51 side plate portion 52 lower board portion 53 fitting portion 54 protrusion

Claims (7)

  The right end portion of the plate portion constituting the metal roofing material is bent upward to bend the inclined lower support portion, and the lower placement portion is bent to the right above the inclined lower support portion. Extending the upper part of the mounting part to bend the vertical support part, the upper part of the vertical support part is bent to the right side, the upper bent part is inclined, and the end of the upper bent part is inclined upward The right rake portion that bends to the right, the upper portion of the right rake portion to be bent, the curved top portion, the inclined left rake portion that extends and bends the curved top portion to the left side, and the inclined left rake portion. The lower end portion of the plate portion is bent into a curved shape to form a lower kneading portion comprising an insertion portion having an insertion portion at the end of the hanging portion, and the left end portion on the left side of the plate portion is bent upward. An inclined lower support portion, a lower placement portion that bends leftward above the inclined lower support portion, a vertical support portion above the lower placement portion, and The upper portion of the straight support portion is bent to extend to the right side, the upper bent portion, and the right cover portion that bends the end portion of the upper bent portion upward in an inclined manner. Bend upwards in a curved shape, support the curved top by bending the curved left top to the left, and the lower left end of the inclined left covering inward. Bending the end portion of the support portion to the left side, and bending the end portion bent to the right side to form an upper knot portion comprising a presser portion. A metal roofing material. The metal roofing material forms the plate portion horizontally, and forms an upper horizontal portion higher than the plate portion on the right side of the plate portion, and an upper step higher than the plate portion on the left side of the plate portion. 2. The metal roofing material according to claim 1, wherein horizontal portions are formed respectively. The metal roofing material is overlapped with the lower seam portion of the metal roofing material facing downward and the upper seam portion facing upward. Between, the end of the horizontal base is bent upward to form a support leg, and the upper end of the support leg is bent to the right. Is bent upward to form an inclined support part, an upper part of the vertical support part above the top part, and an end part of the top part extending in an inclined form to form a hanging part having an insertion part. insert the spigot of the retaining clips in the insertion portion of the inserting portion of Stephen ze parts, claims, characterized in that the assembly construction with the said retaining clips and the upper Stephen ze part and the lower Stephen ze parts together The metal roofing material according to 1 or 2 .   Bending the right end of the plate part upwards, the inclined lower support part, the lower mounting part bending rightward above the inclined lower support part, and the upper part of the lower mounting part are extended Then, the vertical support portion, the upper portion of the vertical support portion is bent to the right side, the upper bent portion is bent, and the end portion of the upper bent portion is bent upward to be inclined. Fold the upper side of the right side rake part into a curved top part, the inclined left side rake part extending from the curved top part to the left side, and the lower end part of the inclined left side rake part. Bent to form a lower knurled portion consisting of a fitting insertion portion having an insertion portion at the end of the hanging portion, and the left end portion on the left side of the plate portion is bent upward to support an inclined downward support A lower mounting portion that is bent to the left above the inclined lower support portion, a vertical support portion above the lower support portion, and a right portion above the vertical support portion. Bending upward and bending the upper bent portion, and bending the upper edge of the upper bent portion upward in a slanted manner, and bending the upper portion of the right covered portion in a curved shape. The curved top is bent, the curved left top is bent to the left, the lower left cover is bent inward, and the support is formed at the end of the support. A metal roofing material that is bent in a curved shape on the left side, and an end portion that is bent in the curved shape is bent on the right side to form an upper knotted portion that includes a pressing portion, and a horizontal base The end is bent upward to form a support leg, the upper end of the support leg is bent to the right, and the end of the bent part is bent upward to be inclined. A vertical support portion is formed in a state where a top portion is formed at an upper portion of the inclined support portion, and an end portion of the top portion is inclined to form a hanging portion having an insertion portion, and the roof support material is vertically wound at a predetermined position. The insertion part of the suspension part is inserted into the insertion part of the insertion part that inserts the suspension end part of the lower crest part of the metal roof material on the left side of the suspension part to be fixed. The upper hanger portion that is closely polymerized with the back surface portion of the metal roof material, and the upper helix portion that is formed on the left side of the metal roofing material is polymerized and adhered to the right side of the hanger to be polymerized with the lower hull portion. The slanted support part, the top part, and the insertion part are fitted from above, and the solar panel insertion part of the solar panel formed by superposing the lower claw part, the suspension and the upper cuff part is formed. In addition, a solar panel construction method is characterized in that the left and right edge portions of the solar panel are fitted and installed in the solar panel insertion portion. The solar panel insertion portion includes a presser for the lower mounting portion and the upper bracing portion of the lower brazing portion, in which the suspension, the lower brazing portion, and the upper brazing portion are in close contact with each other and are fitted together. One solar panel insertion part formed between the upper part and the other solar panel insertion part formed between the lower mounting part and the upper bending part of the upper kneading part The solar panel construction method according to claim 4, wherein the method is a solar panel construction method.   The solar panel is composed of a plurality of panels, and includes a solar start panel, a solar middle panel, and a solar end panel. The solar start panel has front and left and right side corners, and the solar end panel has rear left and right sides. The corners of the eaves and ridges with legs are fitted to the corners of the solar start panel, the corners of the left and right sides of the solar start panel, the corners of the front left and right sides of the solar panel, and the rear of the solar panel The solar start panel, the solar middle panel, and the solar end panel are connected by fitting spacers for intermediate joints with legs on the left and right side corners and the front left and right side corners of the solar end panel. The solar panel construction method according to claim 4 or 5, wherein: The solar panel construction method according to claim 4, 5, or 6, wherein the eaves-and-building spacer with legs and the intermediate joint spacer with legs respectively form through holes in the legs.

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