JP2017078309A - Seam grip metal fittings - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a novel structure having superior workability in installing seam grip metal fittings for installing a frame on a folded-plate roof.SOLUTION: The present invention relates to seam grip metal fittings 20 for holding a seam joint part 12 of a folded-plate roof 1 with a pair of a first member 21 and a second member 22 pivoted on each other and also fixing a mounted crosspiece member 30 to the seam joint part 12. The seam grip metal fittings are so configured that an engagement part 22k for engaging one side of the crosspiece member 30 with an engagement part 37 is arranged on one side of a surface (upper surface part 22g) for mounting the crosspiece member 30, and a fixation part 22x for fixing press metal fittings 40 engaging an engagement part 38 on the other side of the crosspiece member 30 is arranged on the other side of the surface (upper surface part 22g) for mounting the crosspiece member 30, the pivoting position being arranged on the one side.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a metal fitting for installing a mount for an installation object on a roof such as a solar cell module on a folded plate roof.

  Conventionally, a metal fitting for installing an installation object on a roof such as a solar cell module on a folded plate roof is known. For example, Patent Document 1 discloses a gouge gripping metal fitting that fixes a goby portion of a folded-plate roof so as to be grasped from both sides, and on which a crosspiece (frame) is placed and fixed. A bolt protrudes upward from the central portion, a rail receiving member is fixed to the bolt, and a rail is fixed to the rail receiving member from both lateral sides.

  Similarly, Patent Document 2 discloses a configuration of a metal fitting that fixes a goby portion of a folded plate roof so as to be grasped from both sides and mounts and fixes a solar cell module thereon.

  Further, in Patent Document 3, a crosspiece (support member) is placed on a fixing member fixed on a folded plate roof, and a part of the crosspiece is pressed from above with a holding bracket, whereby the fixing member and the crosspiece are fixed. The structure which connects is disclosed.

Japanese Patent Laying-Open No. 2015-45192 JP 2013-32679 A JP 2014-51877 A

  With respect to the metal fittings described above, fixing work is performed at a high place such as on a roof, and therefore, workability improvement is further demanded.

  In this regard, the configuration disclosed in Patent Document 1 is a configuration in which bolts are inserted and fixed from both sides in the lateral direction with respect to the crosspieces, so that there are two fixing points of the bolts, and the workability is poor. In addition, it is difficult to visually check the bolt holes when inserting the bolts from the lateral direction, and another problem arises that workability is poor in this respect as well.

  The configuration disclosed in Patent Document 2 is a configuration in which the solar cell module is directly pressed by the upper bracket, and does not disclose a structure that can solve the problem with the configuration in which the crosspiece is fixed to the bracket.

  In the configuration disclosed in Patent Document 3, when fixing the crosspiece, it is necessary to insert a bolt from the lower side and insert it into the presser foot, which causes a problem of poor workability.

  This invention discovers the above subject, and proposes the novel structure excellent in the workability | operativity of the installation about the gob grip metal fitting for installing a mount frame on a folded-plate roof.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

That is, as described in claim 1,
While sandwiching the seam joint of the folded plate roof with a pair of first members and second members pivoted to each other,
A gob clamp for fixing a mounted beam member to the gob joint,
An engaging portion for engaging with an engaging portion on one side of the crosspiece member is disposed on one side of the surface on which the crosspiece member is placed,
A fixing portion for fixing a press fitting that engages with an engaging portion on the other side of the crosspiece member is disposed on the other side of the surface on which the crosspiece member is placed;
A position where the pivoting is performed is arranged on the one side;
Use a goby grip.

Moreover, as described in claim 2,
The fixing part for fixing the presser fitting is
It is constituted by an inclined surface portion having a through hole in which a female screw is formed,
A structure is adopted in which a bolt is screwed from an oblique direction to fix the presser fitting.

Moreover, as described in claim 3,
A vertical wall portion continuous with a lower portion of the inclined surface portion,
It further has a vertical wall portion located in the one side direction from the lower portion of the inclined surface portion,
In the lower part of the inclined surface part,
An engaging portion for engaging from above the engaging portion provided in the presser fitting,
An engaging portion formed at a position protruding from the vertical wall portion in the other side direction is provided.

Moreover, as described in claim 4,
An engaging portion for engaging with an engaging portion on one side of the crosspiece member, and
The fixing part for fixing the presser fitting is
It shall be provided in the connection member fixed to said 2nd member.

According to the invention of claim 1,
By fixing the presser fitting only on one side of the crosspiece member, it is possible to complete the fixing of the crosspiece member with respect to the gob clamp and to realize a configuration with excellent workability.

According to the invention of claim 2,
The fastening operation of the bolt can be performed from an oblique direction, and the location of the through hole can be visually confirmed, so that a configuration excellent in workability suitable for high place work on the roof can be realized. Further, it becomes possible to press the engaging portion of the crosspiece member from an oblique direction, and the crosspiece member is fixed from both the upward direction and the lateral direction, so that the deviation of the crosspiece member can be reliably controlled.

According to the invention of claim 3,
The upward movement of the presser foot is regulated by the goblet gripper, and even when a wind blow-up load acts on the solar cell module and a load that pushes up the crosspiece member is generated, the crosspiece member is securely held from below. It becomes possible.

According to the invention as set forth in claim 4,
Depending on the orientation of the connecting member, the orientation of the engaging portion for engaging with the engaging portion on one side of the crosspiece member and the fixing portion for fixing the presser fitting can be set. This can correspond to the case where the direction and the longitudinal direction of the crosspiece member are orthogonal to each other.

The figure which shows the example which installs a solar cell module as an installation thing on a roof. The front view shown about the structure of the installation location of a goby grip metal fitting. The side view shown about the structure of the installation location of a goby grip metal fitting. (A) is a perspective view shown about the structure of a 1st member. (B) is a perspective view shown about the structure of the 2nd member. (C) is a perspective view which shows about the state which assembled the gob grip metal fitting temporarily. (D) is a perspective view shown about the structure of a presser fitting. (A) is a figure explaining the fixation by a gob clamp. (B) is a figure explaining the shape of a clamping part. The front view shown about the structure of the other Example of the installation location of a goby grip metal fitting. The side view shown about the structure of the other Example of the installation location of a goby grip metal fitting. (A) is a perspective view shown about the structure of a 1st member. (B) is a perspective view shown about the structure of the 2nd member. (C) is a perspective view shown about the state which assembled the 1st member and the 2nd member temporarily. (D) is a perspective view shown about the structure of a 3rd member. (E) is a perspective view showing the structure of the presser fitting. (F) is a perspective view showing a state in which a gob clamp is temporarily assembled.

  Next, embodiments of the present invention will be described with reference to the drawings. In the following description, the longitudinal direction of each roof material 10 constituting the folded plate roof 1 shown in FIG. 1 is defined as the vertical direction Y or the depth direction Y, and the direction in which the roof materials 10 are arranged is the horizontal direction X and the width direction. X or left-right direction X. Further, the terms “vertical” and “horizontal” are used for convenience of explanation, and do not limit specific directions.

  FIG. 1 shows an example in which a panel-like solar cell module 2 is installed as an installation on the roof. The folded roof 1 is configured by arranging a plurality of long roofing materials 10, 10 in the lateral direction X in the depth direction Y and joining them together at the joints 12.

  At a plurality of locations in the longitudinal direction Y of the goby joint portion 12, goze gripping metal fittings 20, 20 are attached at intervals, and a crosspiece member 30 constituting a frame is placed and fixed on the gouge gripping metal fittings 20, 20. .

  The crosspieces 30, 30 are installed at a plurality of locations in the lateral direction X so as to be parallel to each other at intervals, and the solar cell modules 2, 2 are installed on the crosspieces 30, 30. A fixing bolt 31 protrudes upward from the top of the crosspiece member 30, and the module holding bracket 35 is fixed to the fixing bolt 31 with a nut 36 while the solar cell module 2 is pressed by the module holding bracket 35. The solar cell module 2 is firmly fixed to the member 30. In addition, it is good also as a structure which makes the crosspiece member 30 the frame which makes a cross-beam shape in the vertical and horizontal direction, and mounts the solar cell module 2.

Next, a configuration in the case where the crosspiece member 30 is arranged along the depth direction Y of the roof material 10 will be described.
2 is a front view showing the configuration of the installation location of the goblet gripping metal, FIG. 3 is a side view of the same, FIG. 4 is a diagram for explaining the configuration of the goblet gripping metal, and FIG. is there.

  As shown in FIGS. 2 and 3, in the upper part of the tight frame 4, the roof materials 10, 10 adjacent to each other in the lateral direction X are joined together to form a joined joint 12. A connecting fitting 6 for connecting to the tight frame 4 is sandwiched between the seam joints 12, and the roof materials 10 and 10 and the tight frame 4 are connected and fixed via the connecting fitting 6.

  The goby joint 12 protrudes upward and has a substantially inverted L shape in cross section, and constitutes a ridge that extends in the depth direction Y. A gripping metal 20 is attached.

  A crosspiece member 30 is placed on the goblet gripping metal 20, and an engaging portion 37 on one side surface of the crosspiece member 30 is engaged with an engaging portion 22 k formed at one end of the goblet holding metal fitting 20. At the same time, the engaging member 38 on the other side in the lateral direction X of the crosspiece member 30 is pressed from above by the presser fitting 40, so that the crosspiece member 30 is fixed to the gob grip fitting 20.

  The solar cell module 2 is placed on the upper surface of the crosspiece member 30. Further, a concave groove 33 extending in the depth direction Y is formed on the upper surface of the crosspiece member 30, and the fixing bolt 31 protrudes from the concave groove 33, and the solar battery module 2 is pressed by the module pressing metal fitting 35, while the nut By fixing the module pressing member 35 to the fixing bolt 31 at 36, the solar cell module 2 is firmly fixed to the crosspiece member 30.

Next, the configuration of the gob clamp 20 will be described.
As shown in FIGS. 4A to 4C, the gob clamp 20 has a first member 21 and a second member 22, and is configured by connecting both members.

  As shown in FIG. 4A, the first member 21 includes a bottom surface portion 21a, a sandwiching portion 21b formed at one end of the bottom surface portion 21a, and a vertical wall portion 21c rising upward from the bottom surface portion 21a. And a connecting portion 21d formed at the upper end portion of the vertical wall portion 21c. The first member 21 can be manufactured, for example, by cutting a long aluminum extruded material into a predetermined length.

  As shown in FIG. 4B, the second member 22 includes a bottom surface portion 22a, a sandwiching portion 22b formed at one end of the bottom surface portion 22a, and a vertical wall portion 22c rising upward from the bottom surface portion 22a. The horizontal surface portion 22e extending substantially horizontally in the opposite direction to the sandwiching portion 22b from the upper end portion of the vertical wall portion 22c, and the diagonally upward direction from the extending end portion of the lateral surface portion 22e, extending in the direction of the sandwiching portion 22b. An inclined surface portion 22f that protrudes, an upper surface portion 22g that extends substantially horizontally from the upper end portion of the inclined surface portion 22f in the direction of the sandwiching portion 22b, a connecting portion 22d that is formed at the extending end portion of the upper surface portion 22g, and a connecting portion An engagement portion 22k for engaging with the engagement portion 37 (FIG. 5A) of the crosspiece member 30 in the vicinity of 22d is configured. The second member 22 can be manufactured, for example, by cutting a long aluminum extruded material into a predetermined length.

  4A and 4B, the connecting portion 21d of the first member 21 is formed in a columnar shape extending in the depth direction Y, and the connecting portion 22d of the second member 22 has a cross-section approximately C extending in the depth direction Y. Both members 21 and 22 are pivotably connected so that the connecting portion 21d is inserted from the side into the connecting portion 22d. And as shown in FIG.4 (C), the pivot part 24 is comprised in the location where both the members 21 and 22 were pivoted. The shapes of the connecting portions 21d and 22d may be reversed, that is, the connecting portion 21d side may have a substantially C-shaped cross section, and the connecting portion 22d side may have a cylindrical shape.

  As shown in FIGS. 4 (A) and 4 (B), a through hole 21h that penetrates in the thickness direction is formed at the center of the vertical wall portion 21c of the first member 21, and is opposed to the position of the through hole 21h. A through hole 22h penetrating in the thickness direction is also formed in the central portion of the vertical wall portion 22c of the second member 22. As shown in FIG. 4C, in a state where both members 21 and 22 are pivoted, the connecting bolt 25a is inserted into the through holes 21h and 22h, and the nut 25b is inserted into the protruding end of the connecting bolt 25a. (See FIG. 5 (A)) is fastened, and both members 21 and 22 are integrated.

  As shown in FIG. 4B, the inclined surface portion 22f is configured to form an inclined surface of about 45 degrees. The inclined surface portion 22f functions as a fixing portion 22x for fixing the presser fitting 40 shown in FIG. The presser fitting 40 includes an inclined surface portion 42f facing the inclined surface portion 22f of the second member 22, and an engaging portion 42k for engaging with the engaging portion 38 of the crosspiece member 30 at one end of the inclined surface portion 42f. And an engaging portion 42m for engaging with the engaging portion 22m (FIG. 4B) of the inclined surface portion 22f of the second member 22.

  As shown in FIGS. 4B and 4D, the inclined surface portion 22f of the second member 22 is formed with a through hole 22j in which a female screw is formed, and the inclined surface portion 42f of the presser fitting 40 is formed with a female screw. A through hole 42j that is not provided is formed, and the presser fitting 40 is fixed to the second member 22 by inserting and screwing the bolt 26 (see FIG. 5A) into both the through holes 22j and 42j. . In this fixing operation, both the through holes 22j and 42j can be visually confirmed obliquely from above, so that the operation can be easily performed.

Next, the fixing of the crosspiece member 30 using the gob clamp 20 will be described.
As shown in FIG. 5 (A), the first member 21 and the second member 22 are pivotally connected by a pivotal portion 24, and a connecting bolt 25a is inserted into both the members 21 and 22 to attach a nut 25b. The first member 21 and the second member 22 are integrated while being able to rotate with respect to each other.

  Next, the members 21 and 22 are connected to the inner space 20a of the gob catching metal fitting 20 so that the holding parts 21b and 22b are widened with the pivoting part 24 as a starting point and the gaps between the holding parts 21b and 22b are passed. The part 12 is inserted, and the state shown in FIG. In this state, the clamping portions 21b and 22b are opposed to the rising piece portions 10a and 10b constituting the seam joint portion 12 of the roof material 10, and by fastening bolt nuts 25a and 25b (FIG. 5A), The rising piece portions 10a and 10b are sandwiched from both sides by the sandwiching portions 21b and 22b.

  Here, the holding portions 21b and 22b are formed with protrusions 21u and 22u (projections) for contacting the rising piece portions 10a and 10b at points, and the rising piece portions 10a and 10b are provided with a plurality of portions. On the other hand, the protrusions 21u and 22u are in point contact (line contact in the depth direction), so that the rising pieces 10a and 10b can be reliably held by the holding portions 21b and 22b. In this embodiment, a V-shaped depression is formed in the lateral direction in cross section, and the protrusions 21u and 22u are formed at two upper and lower positions, respectively.

  As described above, the installation of the gob clamp 20 to the gob joint 12 can be completed. After the attachment is completed, the bottom joint portions 12 are sandwiched from both sides by the sandwiching portions 21b and 22b, and the bottom surface portions 21a and 22a of the gob catching metal fitting 20 are respectively placed on the top surface of the roofing material 10 (see FIG. 2).

  In the above-described mounting operation of the gob clamp 20, the first member 21 and the first member 21 are temporarily assembled and the bolt nuts 25 a and 25 b are temporarily tightened. , 25b can be easily completed by simply tightening, and a configuration with excellent workability can be realized.

  Next, as shown in FIG. 5A, the lower surface portion 30 g of the crosspiece member 30 is placed on the upper surface portion 22 g of the gob grip metal fitting 20. A concave groove-like engagement portion 37 extending in the depth direction is formed on one side surface of the crosspiece member 30, and the engagement portion 37 is engaged with the engagement portion 22 k of the gob grip metal fitting 20. In the present embodiment, the engaging portions 22k and 37 are engaged with each other by inserting the engaging portion 22k having a substantially U-shaped cross section into the protruding engaging portion 37 from the lateral direction.

  Next, as shown in FIG. 5A, while the engaging portion 42k of the presser fitting 40 is inserted into the concave groove-like engaging portion 38 formed in the other side surface of the crosspiece member 30 and extending in the depth direction. The inclined surface portions 22f and 42f are brought into contact with each other, and the bolt 26 is fastened. Thereby, the engaging part 37 engages with the engaging part 22k on one side of the crosspiece member 30, and the engaging part 38 engages with the engaging part 42k on the other side.

  Further, as shown in FIG. 5A, in a state where the presser fitting 40 is fixed by the bolt 26, the engaging portion 42m of the presser fitting 40 is engaged with the engaging portion 22m (angle) It is designed to engage with an inclined surface of about 45 degrees. As a result, the upward movement of the presser fitting 40 is regulated by the gob clamp 20, and even when the load in the push-up direction acts on the solar cell module due to the wind and the load that pushes up the crosspiece member 30 is generated, the crosspiece member 30. Can be securely held from below.

  As shown in FIG. 5 (A), the engaging portion 22m forms the inclined surface portion 22f by taking out the horizontal surface portion 22e in the horizontal direction from the vertical wall portion 22c and folding it back in the direction of 45 degrees obliquely. 22e and the inclined surface part 22f are comprised in the site | part which cross | intersects substantially V shape. And by comprising in this way, as shown in FIG.4 (C), the engaging part 22m is formed in the position projected over the horizontal direction from the vertical wall part 22c, and the vertical wall part 21c of the 1st member 21 and The distance X2 (distance in the width direction X) between the vertical wall portions 22c of the second member 22 can be shortened. As a result, the length of the bolt 25a can be shortened, the overall rigidity after the first member 21 and the second member 22 are integrated can be increased, and the gob joint can be gripped more firmly. It becomes possible and weight reduction is also achieved.

  As described above, the crosspiece member 30 can be fixed to the seam joint portion 12 via the seam gripping metal fitting 20. In addition, after fixing the crosspiece member 30 to the gob clamp 20, in order to restrict the displacement of the crosspiece member 30 in the depth direction Y, as shown in FIG. A movement restriction bolt (not shown) is driven into the crosspiece member 30 through the lateral through hole 22w formed in the rising portion.

Next, a configuration in the case where the crosspiece 30 is arranged orthogonal to the depth direction Y of the roof material 10 will be described.
FIG. 6 is a front view showing the configuration of the installation location of the gob grip, FIG. 7 is a side view, and FIG. 8 is a diagram for explaining the configuration of the gob grip.

  As shown in FIGS. 6 and 7, in the upper part of the tight frame 4, the roof materials 10 and 10 adjacent to each other in the lateral direction X are joined together to form a joined joint 12. A connecting fitting 6 for connecting to the tight frame 4 is sandwiched between the seam joints 12, and the roof materials 10 and 10 and the tight frame 4 are connected and fixed via the connecting fitting 6.

  The goby joint 12 protrudes upward and has a substantially inverted L shape in cross section, and constitutes a ridge that extends in the depth direction Y. A gripping metal 20A is attached.

  The crosspiece member 30 is placed on the goblet gripping metal 20A, and the engaging portion 37 on one side surface of the crosspiece member 30 is engaged with an engaging portion 23k formed at one end of the goblet holding metal fitting 20A. At the same time, the other side engaging portion 38 of the crosspiece member 30 in the lateral direction X is pressed by the presser fitting 40 from above, so that the crosspiece member 30 is fixed to the gob grip fitting 20A.

  The solar cell module 2 is placed on the upper surface of the crosspiece member 30. Further, a concave groove 33 extending in the lateral direction X is formed on the upper surface of the crosspiece member 30, and the fixing bolt 31 protrudes from the concave groove 33, and the solar battery module 2 is pressed by the module pressing bracket 35, and the nut By fixing the module pressing member 35 to the fixing bolt 31 at 36, the solar cell module 2 is firmly fixed to the crosspiece member 30.

Next, the configuration of the gob clamp 20A will be described.
As shown in FIG. 8 (F), the gob clamp 20A has a first member 21, a second member 22A, and a connecting member 23, and is configured by connecting these members.

  As shown in FIG. 8A, the first member 21 has the same configuration as that shown in FIG.

  As shown in FIG. 8B, the second member 22A includes a bottom surface portion 22a, a sandwiching portion 22b formed at one end of the bottom surface portion 22a, and a vertical wall portion 22c rising upward from the bottom surface portion 22a. The upper wall portion 22g extends substantially horizontally from the upper end portion of the vertical wall portion 22c in the direction of the sandwiching portion 22b, and the connecting portion 22d is formed at the extended end portion of the upper surface portion 22g. . The second member 22A can be manufactured, for example, by cutting a long aluminum extruded material into a predetermined length.

  As shown in FIGS. 8A and 8B, the connecting portion 21d of the first member 21 is formed in a cylindrical shape extending in the depth direction Y, and the connecting portion 22d of the second member 22A is formed in a cylindrical shape extending in the depth direction Y. Thus, both the members 21 and 22 are pivotally connected so that the connecting portion 21d is inserted into the connecting portion 22d from the side. And as shown in FIG.8 (C), the pivot part 24 is comprised in the location where both the members 21 and 22 were pivoted.

  As shown in FIGS. 8 (A) and 8 (B), a through hole 21h penetrating in the thickness direction is formed in the central portion of the vertical wall portion 21c of the first member 21 so as to face the position of the through hole 21h. A through hole 22h penetrating in the thickness direction is also formed in the central portion of the vertical wall portion 22c of the second member 22A. Then, as shown in FIG. 8C, in a state where both the members 21 and 22 are pivoted, the connecting bolt 25a is inserted into the through holes 21h and 22h, and the nut 25b is inserted into the protruding end of the connecting bolt 25a. (See FIG. 7) is fastened, and both the members 21 and 22A are integrated.

  As shown in FIGS. 8B and 8C, a vertical through hole 22p is formed in the upper surface portion 22g of the second member 22A, and a bolt 22v is inserted into the through hole 22p from below. The bolt 22v is disposed so as to protrude from the upper surface portion 22g.

  As shown in FIG. 8D, the connecting member 23 includes a lower plate portion 23a, an inclined surface portion 23b that rises in an oblique direction of about 45 degrees in a direction away from the lower plate portion 23a, and a lower plate at an upper end portion of the inclined surface portion 23b. An inclined surface portion 23f that rises in a direction approximately 45 degrees obliquely toward the portion 23a side, an upper surface portion 23g that extends substantially horizontally from the upper end portion of the inclined surface portion 23f so as to face the lower plate portion 23a, and the upper surface portion 23g. A vertical wall portion 23c that connects the extended end portion of the lower plate portion 23a, an engagement portion 23k that is formed at the upper end portion of the vertical wall portion 23c and engages with the engagement portion 37 of the crosspiece member 30, and an upper surface An opening 23d penetrating in the vertical direction in the portion 23g and a through hole 23e penetrating in the vertical direction in the lower plate portion 23a are configured.

  As shown in FIGS. 8C and 8D, the bolt 22v protruding from the upper surface portion 22g of the second member 22A is inserted into the through hole 23e of the connecting member 23, and the nut 23s from the opening 23d of the connecting member 23. By inserting (see FIG. 7) and fastening to the bolt 22v, both members 22A and 23 are integrated (FIG. 8 (F)).

  As shown in FIG. 8D, the inclined surface portion 23f is configured to form an inclined surface of about 45 degrees. The inclined surface portion 23f functions as a fixing portion 23x for fixing the presser fitting 40 shown in FIG. The presser fitting 40 has the same configuration as that shown in FIG.

  As shown in FIGS. 8D and 8E, the inclined surface portion 23f of the connecting member 23 is formed with a through hole 23j in which a female screw is formed, and the female surface is formed in the inclined surface portion 42f of the presser fitting 40. A through hole 42j that is not formed is formed, and a bolt 26 (see FIG. 7) is inserted into and screwed into the through holes 22j and 42j, whereby the presser fitting 40 and the connecting member 23 are integrated (see FIG. 7).

Next, fixation of the crosspiece member 30 using the gob clamp 20A will be described.
As shown in FIG. 8 (C), the first member 21 and the second member 22A are pivotally connected by the pivoting portion 24, and the connecting bolt 25a is inserted into both the members 21 and 22, and the nut 25b (FIG. 6). Are attached and temporarily tightened, and the first member 21 and the second member 22A are integrated with each other while being rotatable. Further, the connecting member 23 is integrated with the second member 22A to obtain the state shown in FIG.

  Then, similarly to the configuration shown in FIG. 5 (A), the goby joint portion 12 is sandwiched between the clamping portions 21b and 22b of the first member 21 and the second member 22. Next, as shown in FIGS. 6 and 7, by fixing the presser fitting 40 to the inclined surface portion 23 f of the connecting member 23, the crosspiece member 30 can be fixed to the gob grip fitting 20 </ b> A. Note that the contents described in FIGS. 5A and 5B are the same for the gob gripping metal 20A, and the description thereof is omitted.

With the contents described above, the following configuration can be realized.
That is, as shown in FIGS.
While sandwiching the seam joint 12 of the folded roof 1 with a pair of first member 21 and second member 22 pivoted to each other,
A gob clamp 20 for fixing the crosspiece 30 to be mounted to the gob joint 12,
The engaging portion 22k for engaging with the engaging portion 37 on one side of the crosspiece member 30 is disposed on one side of the surface (upper surface portion 22g) for placing the crosspiece member 30,
A fixing portion 22x for fixing the presser fitting 40 that engages with the engaging portion 38 on the other side of the crosspiece member 30 is disposed on the other side of the surface (upper surface portion 22g) on which the crosspiece member 30 is placed,
A configuration in which the position where the pivoting is performed is arranged on the one side can be realized.

Similarly, in the configurations of FIGS.
While sandwiching the seam joint 12 of the folded plate roof 1 with a pair of the first member 21 and the second member 22A pivoted to each other,
A gob clamp 20A for fixing the crosspiece member 30 to be mounted to the gob joint 12;
The engaging portion 23k for engaging with the engaging portion 37 on one side of the crosspiece member 30 is disposed on one side of the surface (upper surface portion 22g) for placing the crosspiece member 30,
A fixing portion 23x for fixing the presser fitting 40 that engages with the engaging portion 38 on the other side of the crosspiece member 30 is disposed on the other side of the surface (upper surface portion 22g) on which the crosspiece member 30 is placed. Configuration can be realized.

  Thus, by fixing the presser fitting 40 only on one side of the crosspiece member 30, the fixation of the crosspiece member 30 to the gob clamp 20 can be completed, and a configuration with excellent workability can be realized.

  Further, as shown in FIG. 5A, the fixing portion 23x for fixing the presser fitting 40 is constituted by an inclined surface portion 22f having a through hole 22j in which a female screw is formed, and the bolt 26 is attached from an oblique direction. The presser fitting 40 is fixed by screwing.

  Thereby, the fastening operation of the bolt 26 can be performed from an oblique direction, and the location of the through hole 22j can be visually confirmed, and a configuration excellent in workability suitable for a high place operation on the roof can be realized. . Further, it becomes possible to press the engaging portion 38 of the crosspiece member 30 from an oblique direction, and the crosspiece member 30 is fixed from both the upward and lateral directions, so that the deviation of the crosspiece member 30 is reliably regulated. be able to.

Further, as shown in FIG.
The vertical wall portion 22c is continuous with the lower portion of the inclined surface portion 22f, and further includes a vertical wall portion 22c positioned in one direction with respect to the lower portion of the inclined surface portion 22f. An engaging part 22m for engaging with the engaging part 42m provided from above is provided with an engaging part 22m formed at a position protruding from the vertical wall part 22c in the other direction. .

  As a result, the upward movement of the presser fitting 40 is regulated by the gob clamp 20, and even when the wind blow-up load acts on the solar cell module and a load that pushes up the crosspiece member 30 is generated, the crosspiece member 30 is lowered. It becomes possible to keep holding from the side reliably.

Also, as shown in FIGS.
An engaging portion 23k for engaging with the engaging portion 37 on one side of the crosspiece member 30, and
The fixing portion 23x for fixing the presser fitting 40 is
Provided on the connecting member 23 fixed to the second member 22A,
The configuration.

  Accordingly, the orientation of the engaging portion 23k for engaging with the engaging portion 37 on one side of the crosspiece member 30 and the fixing portion 23x for fixing the presser fitting 40 can be set according to the orientation of the connecting member 23. For example, this can correspond to the case where the direction in which the goby joint portion 12 extends and the longitudinal direction of the crosspiece member 30 are orthogonal (FIGS. 6 and 7).

  In addition to the configuration described above, for example, in the configuration shown in FIG. 8F, by shifting the fixing angle of the connecting member 23 with respect to the second member 22A by 90 degrees, as shown in FIG. The extending direction of the goby joint 12 and the longitudinal direction of the crosspiece member 30 can also be used in the same configuration. 4C, the engaging portion 22k and the inclined surface portion 22f are provided on both sides in the width direction X, respectively, but the engaging portion 22k and the inclined surface portion 22f are provided on both sides in the depth direction Y. For example, as shown in FIGS. 6 and 7, it is possible to cope with a case where the direction in which the goby joint portion 12 extends and the longitudinal direction of the crosspiece member 30 are orthogonal to each other.

  INDUSTRIAL APPLICABILITY The present invention can be widely applied to metal fittings for installing a mount for an installation object on a roof such as a solar cell module on a folded plate roof.

DESCRIPTION OF SYMBOLS 1 Folded plate roof 2 Solar cell module 4 Tight frame 10 Roof material 12 Seam joint 20 Seam grip metal fitting 21 First member 22 Second member 23 Connecting member 24 Pivoting part 30 Crosspiece member 40 Holding metal

Claims (4)

While sandwiching the seam joint of the folded plate roof with a pair of first members and second members pivoted to each other,
A gob clamp for fixing a mounted beam member to the gob joint,
An engaging portion for engaging with an engaging portion on one side of the crosspiece member is disposed on one side of the surface on which the crosspiece member is placed,
A fixing portion for fixing a press fitting that engages with an engaging portion on the other side of the crosspiece member is disposed on the other side of the surface on which the crosspiece member is placed;
A position where the pivoting is performed is arranged on the one side;
Goby grip The fixing part for fixing the presser fitting is
It is constituted by an inclined surface portion having a through hole in which a female screw is formed,
It is configured to fix the presser fitting by screwing a bolt from an oblique direction.
The goblet gripping metal fitting according to claim 1, wherein: A vertical wall portion continuous with a lower portion of the inclined surface portion,
It further has a vertical wall portion located in the one side direction from the lower portion of the inclined surface portion,
In the lower part of the inclined surface part,
An engaging portion for engaging from above the engaging portion provided in the presser fitting,
An engagement portion formed at a position protruding from the vertical wall portion in the other side direction is provided.
The gob grip metal fitting according to claim 2, wherein: An engaging portion for engaging with an engaging portion on one side of the crosspiece member, and
The fixing part for fixing the presser fitting is
Provided on the connecting member fixed to the second member,
The gob grip metal fitting according to any one of claims 1 to 3, wherein

Images