JP2007291814A - Roof-top installed device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device to be installed on a roof for shortening a construction period and reducing the number of members. <P>SOLUTION: The roof-top installed device is composed of a roof-tile laid on a roof-backing material and having a nail hole at a ridge-side part, a support member laid on the roof-tile and having a through hole at a position covering the nail hole, a fixing member piercing through the through hole of the support member as well as the nail hole of the roof tile and an installation stand for installing a sun-light utilization unit. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to a rooftop installation apparatus.

  In recent years, in order to protect the environment and save energy, solar-powered devices have been installed on the rooftops of houses and buildings. In order to increase the output voltage and output current to required values, or to protect solar cells over a long period of time, a solar cell device that is one of solar-powered devices is usually packaged into a solar cell module.

  When the solar cell module is mounted on the roof tile of a house, the frame and the solar cell module are fixed in a state where the frame is assembled on the roof tile.

  A general mounting example for fixing the solar cell module to the gantry will be described with reference to FIG. In the figure, J is a solar power generation device, 119 is a gantry (vertical beam), 120 is a gantry (horizontal beam), 112 is a solar cell module, and 121 is a pressing member.

  A specific method of attaching the gantry and the solar cell device is to place a gantry (vertical beam) 119 on the roof tile, and on the gantry (vertical beam) 119, the gantry (horizontal beam) is orthogonal to the direction. ) 120 is arranged, and then the solar cell module 112 is installed on the gantry (horizontal crosspiece) 120. Then, one end of the solar cell module 112 can be placed on the gantry (horizontal beam) 120, the one end can be clamped between the gantry (horizontal beam) 120 and the pressing member 121, and these can be clamped and fixed by bolts or the like. In order to fix such mounts 119, 120 on the roof, the mounts 119, 120 and the roof base material are connected and fixed via metal fittings.

Here, FIG. 6 shows an example of the metal fitting 101 that fixes the gantry 119 (vertical beam) on the roof tile 121. In the figure, the metal plate 121 and the frame (vertical bar) 119 are attached by being inserted through a hole provided in the flat roof tile 121. Further, the metal fitting 101 and the base plate 122 are fixed with screws 117. However, when holes are perforated and attached to the flat roof tile 121, problems such as water leakage may occur from the perforated holes. In order to solve this problem, a part of the metal fitting is not seen from the roof tile 121 laid in the direction of the eaves without making a hole in the roof tile 121, and the metal fitting 101 and the equipment 119 are attached. (See, for example, Patent Document 1).
Japanese Patent Laid-Open No. 11-293865

  However, the apparatus mounting bracket 101 on the roof tile and the installation apparatus using the mounting bracket 101 shown in Patent Document 1 have a structure in which a part of the mounting bracket 101 is inserted under the pier 119, so that the apparatus is mounted. In this case, since it is necessary to fix the roof tile 121 and the pier 119 with the nail 117 or the like, there are problems that the construction time is increased and the number of members is increased.

  This invention is made | formed in view of the problem of such a prior art, and it aims at providing the installation apparatus on a roof which shortened construction time and reduced the number of members.

  To achieve the above object, the on-roof installation apparatus according to claim 1 is laid on a roof base material, has a roof tile having a nail hole in a ridge side portion, and is placed on the roof tile, A support member having a through hole at a position covering the nail hole, a fixing member that penetrates the through hole of the support member and the nail hole of the roof tile, and is inserted into at least a part of the roof base material, and the through hole The eaves-side portion is fixed to the support member, and a gantry on which solar-powered equipment is installed is provided.

  The on-roof installation apparatus according to claim 2 is the on-roof installation apparatus according to claim 1, wherein the support member includes a first extending portion that extends toward the ridge side with respect to the through hole. One extending portion is fixed to at least one of the roof tile and the roof base material.

  The on-roof installation device according to claim 3 is the on-roof installation device according to claim 1 or 2, wherein the support member extends in a direction parallel to the through hole. The second extending portion is fixed to at least one of the roof tile and the roof base material.

  The roof installation device according to claim 1 of the present invention is a roof tile that is laid on a roof base material and has a nail hole at a ridge side portion, and a position that is placed on the roof tile and covers the nail hole A support member having a through-hole, a fixing member that penetrates the through-hole of the support member and the nail hole of the roof tile, and is inserted into at least a part of the roof base material, Since the support member and the platform on which the solar-powered device is installed are provided, the support member and the roof tile can be fixed at the same time by using the nail holes of the roof tile, thereby reducing the number of members. In addition, the construction time can be shortened.

  The on-roof installation device according to claim 2 of the present invention is the on-roof installation device according to claim 1, wherein the support member includes a first extending portion extending to the ridge side with respect to the through hole. The first extending portion is fixed to at least one of the roof tile and the roof base material, and in addition to the above-described effects, the direction in which the support member is peeled off at the eaves side portion from the through hole of the support member When a force is applied to the through hole, the distance from this force point to the through hole is shorter than the distance to the fixing position of the first extending portion. The removal of the member can be suppressed.

  The on-roof installation device according to claim 3 of the present invention is the on-roof installation device according to claim 1 or 2, wherein the support member extends in a direction parallel to the through hole. Since the second extending portion is fixed to at least one of the roof tile and the roof base material, in addition to the above-described effect, the support member may have a roof tile caused by a rolling earthquake or the like. Even when stress in the beam direction is applied, the rigidity of the support member in the beam direction can be increased by the presence of the second extending portion, so that the fixing member can be prevented from coming off due to the moment applied to the support member. This can be further suppressed as compared with the case of fixing only by the above.

  Hereinafter, the roof installation apparatus of the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is a schematic configuration diagram showing a roof installation apparatus according to an embodiment of the present invention, in which a gantry for installing solar-powered equipment is fixed to a support member 1. In the figure, 1 is a support member, 12 is a through hole, 16 is a nail hole, 17 is a fixing member, 19 is a roof base material (pier), 21, 21a and 21b are roof tiles, and 22 is a roof base material (field plate). Reference numeral 119 denotes a stand for solar-powered equipment.

  As shown in FIG. 1, the on-roof installation apparatus according to the present invention lays a roof tile 21 on a roof base material 19, 22, and places a support member 1 on the roof tile 21. The base 119 for installing the solar-powered device is fixed.

<Roof tile>
Here, as the roof tile 21, various tiles such as a flat tile, a Japanese tile, and a slate tile can be appropriately used. And in order to fix the roof tile 21 and the roof base materials 19 and 22 with a nail, a screw, etc., the nail hole 16 is normally opened in the ridge side part of the roof tile 21.

<Supporting member>
FIG. 2 shows an example of the support member 1 according to the present invention. In the figure, 1a is a supporting member on the eaves side from the through hole, 1b is a first extending portion, 2 is a second extending portion, 3 is a first extending member, 4 is a second extending member, and 5 is a first extending portion. 1 through hole, 6 is a second through hole, and 12 is a through hole.

  The support member 1 is made of stainless steel, a hot dip galvanized steel plate, aluminum, a resin molded product, or the like. What is necessary is just to set the shape of the supporting member 1 suitably according to the magnitude | size, weight, etc. of sunlight utilization apparatus. Moreover, the through-hole 12 can be formed by performing well-known press processing and boring processing to the material which comprises a supporting member. The diameter of the through-hole 12 is preferably determined with reference to the counterbore diameter defined by JISB1001. If it does in this way, the supporting member 1 can be made into a diameter which has predetermined intensity | strength also by the additional process of a through-hole, and can attach the fixing member 17 mentioned later easily.

  Further, as shown in FIG. 1, for example, if the eaves-side portion of the through hole 12 is bent to produce a shape protruding upward, the support member 1 and the bases 119, 120 are maintained at a predetermined distance from the roof tile 21. Can be fixed, so that the workability at the time of construction is increased and the construction time required for installing the gantry can be shortened.

(First extension)
Here, as shown in FIG. 1, the support member 1 includes a first extending portion 1 b extending from the through hole 12 to the ridge side, and the first extending portion 1 b includes the roof tile 21 and the roof base materials 19 and 22. It is preferable to be fixed to at least one of them. As a method for fixing the roof base materials 19 and 22, a fixing member 17 described later can be used. In this case, the first through hole 5 can be provided in the same manner as the through hole 12.

  The 1st extension part 1b is comprised from stainless steel, a hot-dip galvanized steel plate, aluminum, a resin molded product, etc. In the case of being integrally formed with the support member 1, it may be bent according to the inclination of the roof base materials 19 and 22 at a portion extending from the through hole 12 toward the ridge. In addition, when a member is newly connected as the first extending portion 1b using the same material, a through hole is newly provided in the support member 1 and the first extending portion 1b, and connected by a bolt and a nut. Alternatively, welding or a tapping screw may be used, or one may be tapped and the other fixed to the bolt. Furthermore, if it is possible to expand and contract by using a long hole in the fixing part of the support member 1 and the first extending part 1b, and fixing with bolts, even if the height and standards of the roof base materials 19 and 22 are different, Since it can respond, it is preferable.

  Since the support member 1 includes the first extending portion 1b, the support member 1 is fixed at the position of the through hole 12 and the first through hole 5 even when a moment is applied by a blowing load due to wind pressure, and Since the through hole 12 on the power point side of the first through hole 5 is also fixed, the moment applied to the support member 1 can be suppressed. As a result, the fixing member 17 can be prevented from coming off due to this moment, and the supporting member 1 is firmly fixed.

(Second extension part)
Further, as shown in FIG. 1, the support member 1 includes a second extending portion 2 that extends in a direction parallel to the through hole 12, and the second extending portion 2 includes a roof tile 21 and a roof base material 19, 22. It is preferable to be fixed to at least one of the above. Since the 2nd extension part 2 and the 2nd through-hole 6 can also be formed by the material and the processing method similar to the 1st extension part 1b and the 1st through-hole 5, description is abbreviate | omitted.

  The second extending portion 2 is particularly effective when stress is applied in the direction of the roof tile 21 due to a rolling earthquake or the like. This is because providing the second extending portion 2 increases the rigidity of the support member 1 in the longitudinal direction, and even when the stress described above is applied to the support member 1, the second extending portion 2 is caused by the rigidity. This is because the moment applied to the support member 1 can be suppressed by the repulsive force, and the fixing member 17 can be prevented from coming off.

<Fixing member>
The fixing member 17 is preferably made of iron, stainless steel or the like and subjected to anticorrosion treatment such as dacroplating or painting. As the shape of the fixing member 17, a conventionally known member such as a screw, a nail, or a bolt can be used. Further, the length of the fixing member 17 is appropriately determined in consideration of the shape of the roof tile 21, the mounting heights of the mounts 119 and 120, and the like. At this time, the roof tile 21 and the fixing member 17 can be firmly fixed to the roof base materials 19 and 22 as the insertion depth with the roof base materials 19 and 22 is deeper. In consideration of workability, specifically, a wood screw is preferably used as the fixing member 17.

  And the diameter of the fixing member 17 is smaller than the nail hole 16 and the through-hole 12 of the roof tile 21, and the wind pressure, the roof shape, the wind-up load applied to the solar-powered device, and the solar light-utilization differ depending on the region. It is determined appropriately in consideration of the weight of the equipment and the bases 119 and 120, the load in the roof inclination direction when the snow falls from the roof, the seismic load, and the like. Specifically, wood screws having a diameter of 4 mm to 6 mm can be preferably used, and the roof base material 19, 22 can be firmly formed by using a double thread, a high / low thread, or a single thread in addition to the normal single thread as the thread shape. Can be fixed.

  In addition, when the diameter of the fixing member 17 is larger than the diameters of the nail hole 16, the through hole 12, the first through hole 5, and the second through hole 6, construction is performed using a concrete drill that is a well-known drilling means. Sometimes the diameters of the nail hole 16, the through hole 12, the first through hole 5, and the second through hole 6 can be easily increased.

<Stand>
The mounts 119 and 120 are made of stainless steel, hot-dip galvanized steel, aluminum, or the like. The shape of the gantry 119, 120 may be appropriately set depending on the size, weight, etc. of the solar-powered device. FIG. 4 shows the bases 119 and 120 to which the solar equipment is attached. For example, as shown in FIG. 5, the gantry 119, 120 has a rail shape, and a gantry (vertical beam) 119 is arranged in the eaves-ridge direction on the roof tile, and the gantry (vertical beam) 119 is arranged in the column direction. A gantry (horizontal crosspiece) 120 can be arranged to assemble the gantry 119, 120 for mounting and fixing the solar device. Note that it is needless to say that the vertical frames 119 and the horizontal beam 120 are not essential for the mounts 119 and 120, and that at least one of the mounts 119 and 120 functions sufficiently as a mount if fixed to the support member 1.

<Others>
In the rooftop installation apparatus according to the present invention, the solar-powered devices fixed to the gantry 119, 120 do not correspond to the components of the rooftop installation apparatus of the present invention, but for example, solar water heaters, solar power generation An apparatus, etc. can be used.

  Moreover, the roof base materials 19 and 22 have a predetermined gradient, and are configured by a roof base material 22 (field plate), asphalt roofing, or the like on a structural material formed of rafters or the like. The roof base materials 19 and 22 are preferably provided with a roof base material 19 (a pier) that determines the position of an existing roof tile. By fixing the roof tile 21 and the support member 1 to this pier part, the insertion depth of the fixing member 17 to be inserted can be increased, and the fixing strength of the fixing member 17 to the roof base materials 19 and 22 can be increased.

  According to the roof installation apparatus of the present invention having the above-described configuration, the roof tile 21 having the nail hole 16 on the roof base materials 19 and 22, and the support member having the through hole 12 at a position covering the nail hole 16. Are placed in the order of 1. At this time, the nail hole 16 of the roof tile 21 and the through hole 12 of the support member 1 are penetrated by the fixing member 17 and inserted into at least a part of the roof base materials 19 and 22. Since the support member 1 and the roof tile 21 can be fixed at the same time, the number of members can be reduced and the construction time can be shortened.

  Further, the support member 1 may integrally form the first extending portion 1b and the second extending portion 2. Further, when the first extending member 3 and the second extending member 4 are separately formed and fixed, the roof installation device according to the present invention can be easily made from the above-mentioned end material of the support member 1. Therefore, it is preferable because it leads to an effect of cost reduction.

  And it is preferable that at least any one of the nail hole 16, the through hole 12, the first through hole 5, and the second through hole 6 described above is a long hole. The long hole mainly refers to a substantially elliptical hole, but opposing sides of the rectangle may be arcuate. The major axis of the ellipse may have a major axis in the eaves ridge direction or a major axis in the column direction. If there is a long axis in the eaves direction, it is easy to align the roof tiles in the eaves direction. If there is a long axis in the direction of the girders, the roof in the direction of the girders. Positioning can be facilitated with respect to the displacement of the roof tile.

<< Construction Procedure of Rooftop Installation Device According to the Present Invention >>
Next, a method for attaching the roof tile 21 and the support member 1 to the roof base material 21 will be described in detail with reference to the accompanying drawings.

  FIGS. 3A to 3E are views showing a process of attaching the on-roof installation apparatus according to the present invention to an existing roof. In the figure, 1 is a support member, 12 is a through-hole, 16 is a nail hole, 21a and 21b are roof tiles, 19 is a roof base material (pier), 22 is a roof base material (field plate) 17 is a fixing member.

  Fig.3 (a) is a schematic block diagram of the existing roof structure. Usually, the pier 19 is arranged and fixed on the roof base material (field plate) 22, and the fixing member 17 is inserted into the pier 19 through the nail hole 16 of the roof tile 21, thereby the roof tile 21 and the roof base material. 19 and 22 are fixed.

(First step)
The first step is a step of removing the existing roof tile 21a. The situation is as shown in FIG. In addition, as a method of removing the roof tile 21a corresponding to a predetermined position of the roof base materials 19 and 22, it may be removed by dividing with a hammer or the like. Thereafter, the fixing member 17 that fixes the roof tile 21a to the roof base materials 19 and 22 can be removed with a nipper or the like.

(Second step)
The second step is a step of temporarily fixing the support member 1 at a predetermined position. The situation is as shown in FIG. For example, in the case where the first extending portion 1b is provided in the support member 1, after the positions of the nail hole 16 of the roof tile 21b and the through hole 12 of the support member 1 are aligned, the first through hole is first formed. 5 may be temporarily fixed by the fixing member 17. Workability can be improved by temporarily fixing the support member 1.

(Third step)
The third step is a step of simultaneously fixing the roof tile 21 and the support member 1 with the fixing member. As shown in FIG. 3 (d), the through hole 12 of the support member 1 and the nail hole 16 of the roof tile 21 are penetrated by the fixing member 17, and at least a part of the roof base materials 19 and 22 is formed. By inserting, the roof tile 21 and the support member 1 are fixed to the roof base materials 19 and 22. Similarly, when the second extending portion 2 is provided in addition to the first extending portion 1b, the second through hole 6 and the nail hole 16 of the roof tile 21 may be fixed by the fixing members 17 and 22. .

(4th process)
The fourth step is a step of covering with the roof tile 21 after attaching the support member 1 according to the present invention. The situation is as shown in FIG. Here, as the roof tile 21, the roof tile 21a removed in FIG. 3B may be used as it is, or a new roof tile 21 may be laid instead of the roof tile 21a.

  At this time, in the case where a gap is generated in the joint portion between the roof tile 21a and the roof tile 21b due to the thickness of the support member 1, it is preferable to perform a water stop treatment using a resin or the like in order to suppress the intrusion of rainwater. . Specific examples of the resin material include urethane rubber, rubber rubber, natural rubber, butadiene rubber, and ethylene propylene rubber (EPDM). Moreover, in order to perform a water stop process, you may provide the water stop site | part 7 as shown in FIG. Needless to say, this water-stopping part can also be formed by the bending or welding described above.

  Moreover, it is preferable to provide a protective sheet at the contact portion between the support member 1 and the roof tile 21b in order to protect the roof tile surface. Specific examples of the protective sheet include asphalt roofing, rubber through roofing, and a rubber sheet in order to provide an adhesive layer on the contact surface with the roof roof roof tile.

  If the support member 1 is installed on the existing roof tile by the above steps and the support member 1 and the gantry 119, 120 of the solar power utilization equipment are fixed, the on-roof installation device according to the present invention can be obtained.

  Note that the embodiment of the present invention is not limited to the above-described example, and it is needless to say that various modifications can be made without departing from the spirit of the present invention.

  For example, in the construction procedure of the above-described roof installation apparatus, the existing roof tile 21 has been described as an example. However, if the support member 1 is attached at the same time that the roof tile 21 is laid at the time of new construction, the first step may be omitted. The construction time can be shortened. Moreover, since the 2nd process can be skipped when attaching the supporting member 1 to the roof base materials 19 and 22 with a gentle gradient, construction time can be shortened.

  Moreover, it is preferable that the shape of the through-hole 12, the 1st through-hole 5, the 2nd through-hole 6, and the nail hole 16 is circular shape, In this case, since a corner | angular part does not exist, stress is added to the supporting member 1. Also, the roof tile 21 and the support member 1 can suppress stress concentration starting from the corners, and provide a rooftop installation device having long-term reliability. In addition, it cannot be overemphasized that the long hole shape in this specification and a round should not be understood exactly like mathematical definition.

It is a schematic block diagram which shows the state which fixed to the supporting member 1 the mount frame which installs the sunlight utilization apparatus which concerns on this invention. It is a perspective view which shows an example of the supporting member 1 which concerns on this invention. It is a schematic block diagram of the existing roof structure. It is a figure which shows the 1st process which concerns on this invention. It is a figure which shows the 2nd process which concerns on this invention. It is a figure which shows the 3rd process which concerns on this invention. It is a figure which shows the 4th process which concerns on this invention. It is a figure which shows the general attachment example which fixes a solar cell module to a mount frame. It is a perspective view which shows the modification of the supporting member 1 which concerns on this invention. It is a figure which shows the conventional base mounting apparatus.

Explanation of symbols

1: support member 1a: support member on the eaves side from the through hole 1b: first extending portion 2: second extending portion 3: first extending member 4: second extending member 5: first through hole 6 : Second through hole 7: Water stop portion 12: Through hole 16: Nail hole 17: Fixing member 19: Roof base material (pier)
21, 21a, 21b: Roof member 22: Roof base material (field plate)
112: Solar cell module 119: Mount (vertical beam)
120: Stand (horizontal crossing)
121: Presser member
J: Solar power generator

Claims (3)

A roof tile laid on the roof base material and having a nail hole in the ridge side part;
A support member placed on the roof tile and having a through hole at a position covering the nail hole;
A fixing member that penetrates the through hole of the support member and the nail hole of the roof tile and is inserted into at least a part of the roof base material;
An on-roof installation device comprising: a stand that is fixed to the support member at an eaves side portion from the through hole and on which a solar-powered device is installed.   The support member includes a first extending portion that extends to the ridge side with respect to the through hole, and the first extending portion is fixed to at least one of the roof tile and the roof base material. The roof installation apparatus of Claim 1.   The support member includes a second extending portion that extends in a direction parallel to the through hole, and the second extending portion is fixed to at least one of the roof tile and the roof base material. The on-roof installation apparatus according to claim 1 or 2.

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