JP2014139380A - Maintenance method for waterproof sheet, and frame for solar battery panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To secure a large work space for performing maintenance work for a waterproof sheet.SOLUTION: A maintenance method includes: a lifting step of lifting an adjacent end, adjacent to a roof, of an end of a solar battery panel attached to a roof; a holding step of holding the solar battery panel, which has the adjacent end lifted in the lifting step, in a lifted state; and a maintenance step of maintaining a waterproof sheet on the roof below the solar battery panel held in the lifted state in the holding step.

Description

  TECHNICAL FIELD The present invention relates to a waterproof sheet maintenance method and a solar cell panel mount.

  Patent Document 1 discloses a solar panel that is rotatably attached to a fixing member fixed on a roof material via a hinge. In the configuration of Patent Document 1, the solar panel is rotated about the hinge as a rotation center to widen the gap between the solar panel and the roofing material, and the leaves and dust accumulated in the gap are removed.

JP 2012-162894 A

  As described above, Patent Document 1 aims to remove the leaves and dust accumulated in the gap between the solar panel and the roofing material, and therefore does not require a large work space. For this reason, in the structure of patent document 1, the hinge part has been arrange | positioned in the position close | similar to the roof, and it was not the structure which can isolate | separate a solar panel largely from a roof material.

  However, in the case of performing maintenance work (including replacement work) on the waterproof sheet affixed to a flat roof or the like, it is necessary to widen the work space. With the configuration of Patent Document 1, the work space can be secured widely. There wasn't.

  In view of the above facts, an object of the present invention is to ensure a wide working space for carrying out maintenance work on a waterproof sheet.

  In the maintenance method according to claim 1, among the end portions of the solar cell panel attached to the roof, the proximity end portion is raised in the ascending step of raising the proximity end portion close to the roof and the raising step. And a maintenance step of maintaining the waterproof sheet on the roof below the solar cell panel held in the raised state in the holding step.

  According to this maintenance method, in the ascending step, among the end portions of the solar cell panel attached to the roof, the adjacent end portion close to the roof is raised. In the holding step, the solar cell panel whose proximity end is raised in the raising step is held in the raised state. In the maintenance process, the waterproof sheet on the roof below the solar cell panel held in the raised state in the holding process is maintained.

  Here, in the maintenance method of claim 1, the work for carrying out the maintenance work of the waterproof sheet is performed as compared with the case of raising the non-proximal end not close to the roof in order to raise the close end close to the roof. A wide space can be secured.

  In the maintenance method according to claim 2, the rising step raises the proximity end higher than a non-proximity end not close to the roof.

  According to this maintenance method, the proximity end is raised higher than the non-proximity end. For this reason, compared with the case where the proximity end can be raised only to a position lower than the non-proximity end, it is possible to secure a wider work space for performing maintenance work on the waterproof sheet.

  The maintenance method according to claim 3, wherein the ascending step is configured such that the proximity end portion is centered on the non-proximity end portion that is pivotally attached to a gantry fixed to the roof by a hinge. Rotate to raise the proximal end.

  According to this configuration, since the proximity end is rotated to raise the proximity end, it is easy to raise the proximity end and raise the proximity end compared to the case where the entire solar cell panel is lifted upward. Good workability.

  The pedestal of the solar cell panel according to claim 4 includes: a gantry main body that supports the solar cell panel; and the adjacent end portion so as to be able to ascend an adjacent end portion close to the roof among the end portions of the solar cell panel. And a holding member for holding the raised solar cell panel in the raised state.

  According to this configuration, among the end portions of the solar cell panel attached to the roof, the proximity end portion close to the roof is raised, and the solar cell panel whose proximity end portion is raised can be held in the raised state. it can. Thereby, when maintaining the waterproof sheet on the roof below the solar cell panel held in the raised state, the maintenance work of the waterproof sheet is performed as compared with the case of raising the non-adjacent end not close to the roof. A large working space can be secured.

  In the platform of the solar cell panel according to claim 5, the platform body can raise the proximity end higher than a non-proximity end not close to the roof.

  According to this configuration, the proximity end can be raised higher than the non-proximity end, so that the maintenance work for the waterproof sheet can be performed compared to the case where the proximity end can only be raised to a position lower than the non-proximity end. A wider working space can be secured.

  The gantry of the solar cell panel according to claim 6 is attached so that the non-proximal end portion can be rotated by a hinge with respect to the gantry body.

  According to this configuration, since the proximity end can be raised by rotating the proximity end, it is easier to raise the proximity end and raise the proximity end compared to the case where the entire solar cell panel is lifted upward. Good workability.

  According to the structure of Claim 1, the work space for performing the maintenance work of a waterproof sheet can be ensured widely by raising the proximity | contact edge part close | similar to the roof.

  According to the structure of Claim 2, a working space for carrying out the maintenance work of the waterproof sheet can be secured more widely by raising the proximity end portion higher than the non-proximity end portion.

  According to the structure of Claim 3, the workability | operativity which raises a near end part by raising a near end part by rotation is good.

  According to the structure of Claim 4, the work space for performing the maintenance work of a waterproof sheet can be ensured widely by raising the proximity | contact edge part close | similar to the roof.

  According to the structure of Claim 5, the working space for carrying out the maintenance work of a waterproof sheet can be ensured more broadly by raising the proximity end part higher than the non-proximity end part.

  According to the structure of Claim 6, the workability | operativity which raises a near end part by raising a near end part by rotation is good.

It is a side view which shows the structure of the mount frame of the solar cell panel which concerns on 1st Embodiment. It is a perspective view which shows the structure of the mount frame of the solar cell panel which concerns on 1st Embodiment. In the structure shown in FIG. 1, it is a side view which shows the state which raised the proximity | contact edge part of the solar cell panel. It is a side view which shows the structure of the mount frame of the solar cell panel which concerns on 2nd Embodiment. It is a perspective view which shows the structure of the mount frame of the solar cell panel which concerns on 3rd Embodiment.

  Below, an example of an embodiment concerning the present invention is described based on a drawing.

[First Embodiment]
(Configuration of the solar cell panel mount 10 according to the first embodiment)
First, the configuration of a solar cell panel mount (hereinafter simply referred to as a mount) 10 according to the first embodiment will be described. FIG. 1 is a side view showing the configuration of the gantry 10. FIG. 2 is a perspective view showing the configuration of the gantry 10.

  As shown in FIG. 1, the gantry 10 includes a gantry body 20 that supports the solar battery panel 12. The gantry body 20 includes a horizontal frame 22 arranged in the horizontal direction (Y direction in FIG. 1) along the flat roof 100, and mounting members 24 and 25 for attaching the horizontal frame 22 to the flat roof 100. A waterproof sheet 102 is attached on the flat roof 100.

  As shown in FIG. 2, the horizontal frame 22 and the attachment members 24 and 25 are respectively arranged at one end 12 </ b> A and the other end 12 </ b> B in the width direction (X direction in FIG. 2) of the solar cell panel 12. In other words, the gantry body 20 includes two horizontal frames 22, two attachment members 24, and two attachment members 25. The horizontal frame 22 and the mounting members 24, 25 arranged at one end portion 12A in the width direction (X direction) of the solar cell panel 12, and the other end portion 12B in the width direction (X direction) of the solar cell panel 12. The horizontal frame 22 and the mounting members 24 and 25 are configured similarly.

  In the present embodiment, only one of the two attachment members 25 is shown in FIG. In FIG. 1, only the horizontal frame 22 and the mounting members 24, 25 arranged at one end 12 </ b> A in the width direction (X direction) of the solar cell panel 12 are illustrated.

  As shown in FIG. 1, each horizontal frame 22 is formed in a rod shape having a length in the horizontal direction (Y direction). Each mounting member 24 is disposed on one end 22A side in the longitudinal direction of each horizontal frame 22 (left side in FIG. 1). Each mounting member 25 is disposed on the other end 22B side in the longitudinal direction of each horizontal frame 22 (the right side in FIG. 1).

  The lower portions of the mounting members 24 and 25 are fixed to the flat roof 100 so as to stand upward from the flat roof 100. The lower portions of the mounting members 24 and 25 are fixed to the flat roof 100 by anchor bolts or other fixing means. The upper portions of the mounting members 24 and 25 are fixed to the horizontal frame 22 via brackets (fixing members) 40. Specifically, the bracket 40 is screwed to the upper part of each attachment member 24, 25 with a bolt 41, so that the upper part of each attachment member 24, 25 is fixed to the horizontal frame 22.

  In addition, the gantry body 20 includes connecting frames 28 and 29 for connecting two horizontal frames 22 as shown in FIG. The connection frame 28 is disposed between the two horizontal frames 22 and connects the longitudinal end portions 22 </ b> A of the two horizontal frames 22. The connection frame 29 is disposed between the two horizontal frames 22 and connects the other end 22B side of the horizontal frame 22 in the longitudinal direction.

  Further, as shown in FIG. 1, the gantry body 20 is provided on each horizontal frame 22, and supports members 26 and 27 that support the one end portion 12 </ b> A in the width direction (or the other end portion 12 </ b> B in the width direction) of the solar cell panel 12. have. The support members 26 and 27 that support the width direction one end portion 12A of the solar cell panel 12 and the support members 26 and 27 that support the width direction other end portion 12B of the solar cell panel 12 are configured similarly. .

  In this embodiment, in FIGS. 1 and 2, only the support members 26 and 27 that support the width direction one end portion 12 </ b> A of the solar cell panel 12 are illustrated. As shown in FIG. 1, each support member 26 is provided on the side of one end 22 </ b> A in the longitudinal direction of each horizontal frame 22. Each support member 27 is provided on the other end 22 </ b> B side in the longitudinal direction of each horizontal frame 22.

  Each support member 26 includes a fixed portion 26A that is fixed to the longitudinal end portion 22A side of the horizontal frame 22, a support portion 26B that supports the back surface of the solar cell panel 12 on the longitudinal end portion 12C side, and a support portion 26B. A connecting portion 26C that connects the fixing portion 26A. The fixed portion 26A, the support portion 26B, and the connecting portion 26C are integrally formed.

  Each fixing portion 26 </ b> A is fixed to the horizontal frame 22 by being screwed to the side surface of the horizontal frame 22 by a bolt 43.

  Each support portion 26 </ b> B is configured by a plate body that is inclined so as to be lowered toward the longitudinal end portion 22 </ b> A side (left side in FIG. 1) of the horizontal frame 22. The upper surface of each support portion 26 </ b> B is a support surface 26 </ b> D that supports the solar cell panel 12 on which the back surface of the solar cell panel 12 is placed.

  Each connecting portion 26C is configured by a plate body erected from the fixed portion 26A. The lower part of each connecting part 26C is connected to the left end part in FIG. 1 of the fixing part 26A. The upper part of each connecting part 26C is connected to the right end part in FIG. 1 of the supporting part 26B.

  Each support member 27 is formed in a bar shape standing upward from the other end 22B in the longitudinal direction of the horizontal frame 22, and has a function of supporting the back surface of the other end 12D in the longitudinal direction of the solar cell panel 12. Have. Each support member 27 is fixed to the horizontal frame 22 via a bracket (fixing member) 44. Specifically, the bracket 44 is screwed to the support member 27 and the horizontal frame 22 with bolts 45, so that the support member 27 is fixed to the upper surface of the horizontal frame 22.

  The support member 27 is configured to support the other end 12D in the longitudinal direction of the solar cell panel 12 at a position higher than the support position of the support member 26 with respect to the one end 12C in the longitudinal direction of the solar cell panel 12. Thereby, the solar cell panel 12 is supported in a state where the one end portion 12C in the longitudinal direction is inclined so as to be closer to the land roof 100 than the other end portion 12D in the longitudinal direction. That is, in the present embodiment, among the end portions of the solar cell panel 12, one end portion 12 </ b> C in the longitudinal direction of the solar cell panel 12 is a close end portion close to the land roof 100, and the other end portion 12 </ b> D in the longitudinal direction of the solar cell panel 12 is. It is a non-proximal end that is not close to the flat roof 100.

  A hinge 36 is provided on the upper part of the support member 27, and the other end 12 </ b> D in the longitudinal direction of the solar cell panel 12 is attached via the hinge 36. Thereby, the solar cell panel 12 is configured such that the one end portion 12C in the longitudinal direction can rotate around the axis along the width direction (X direction in FIG. 2) of the solar cell panel 12 with the other end portion 12D in the longitudinal direction as a center. ing.

  Specifically, the solar cell panel 12 has a longitudinal position one end portion 12C (proximal end portion) placed on the support surface 26D of the support member 26 (position shown in FIGS. 1 and 2) and a longitudinal direction. One end portion 12C (proximity end portion) in the direction is rotatable between a raised position (position shown in FIG. 3) raised higher than the other end portion 12D (non-proximity end portion) in the longitudinal direction. .

  The longitudinal end 12C (proximity end) of the solar cell panel 12 is positioned at a position lower than the longitudinal other end 12D (non-proximity end) at the placement position. Moreover, as for the solar cell panel 12, the mounting position is made into the operation position which performs solar power generation.

  Furthermore, as shown in FIG. 2, the gantry 10 includes a holding member 30 that holds the solar cell panel 12 in the raised state (the raised position). The holding member 30 is formed in a rod shape having a length. One end 30B in the longitudinal direction of the holding member 30 is attached to the one end 22A in the longitudinal direction of one horizontal frame 22 (the horizontal frame 22 on the front side in FIG. 2) so as to be rotatable around an axis along the Y direction. It has been. Specifically, the holding member 30 stands up and holds the solar cell panel 12 in the raised state (the position shown in FIG. 3), and the retracted position that tilts and retracts from the holding position (FIGS. 1 and 2). (Position shown in FIG. 2).

  As shown in FIG. 2, an engagement portion 30 </ b> A such as a hook is formed at the distal end portion of the holding member 30. The engaging portion 30 </ b> A is configured to hold the solar cell panel 12 in the raised state by being engaged with the engaged portion 13 provided on the back surface of the solar cell panel 12. Further, the distal end portion of the holding member 30 is detachably held with respect to the connecting frame 28 in the retracted position.

  Further, in the present embodiment, as shown in FIG. 1, the wiring 14 for sending electricity generated by the solar cell panel 12 is connected at the other longitudinal end portion 12 </ b> D of the solar cell panel 12. Specifically, it is connected to the other end 12D side in the longitudinal direction (right side in FIG. 1) from the rotation center of the hinge 36 in the solar cell panel 12. In other words, when the one end portion 12C in the longitudinal direction of the solar cell panel 12 is raised, it is connected to a portion of the other end portion 12D in the longitudinal direction that approaches the support member 27 (see FIG. 3). As described above, the wiring 14 whose one end is connected to the other end 12D in the longitudinal direction of the solar cell panel 12 is arranged on the support member 27 and the horizontal frame 22 on the other end.

(Maintenance method of waterproof sheet 102 on flat roof 100 in the first embodiment)
Next, as a function of the gantry 10 according to the first embodiment, a maintenance method for the waterproof sheet 102 on the flat roof 100 will be described.

  In the maintenance method of the waterproof sheet 102 according to the first embodiment, first, as shown in FIG. 3, the solar cell panel is centered on the hinge 36 on the other end 12D side in the longitudinal direction of the solar cell panel 12. The 12 longitudinal end portions 12C (proximate end portions close to the flat roof 100) are rotated to raise the longitudinal end portion 12C to the ascending position (ascending step).

  At this time, the one end portion 12C in the longitudinal direction is raised higher than the other end portion 12D in the longitudinal direction (non-proximal end portion not close to the land roof 100).

  Next, the solar cell panel 12 whose longitudinal end portion 12C is raised in the ascending step is held in the raised state (holding step). Specifically, by rotating the holding member 30 from the retracted position (position shown in FIGS. 1 and 2) to the holding position (position shown in FIG. 3), the holding member 30 is raised and the holding member 30 is 30 A of engaging parts are engaged with the to-be-engaged part 13 of the back surface of the solar cell panel 12, and the solar cell panel 12 is hold | maintained in a raise state. In addition, when the method according to the present embodiment is captured by the above-described ascending step and holding step, it can be grasped as a method for holding the solar cell panel 12.

  Next, maintenance (maintenance inspection) of the waterproof sheet 102 on the flat roof 100 below the solar battery panel 12 held in the raised state in the holding step is performed (maintenance step).

  Specifically, in the maintenance process, the deterioration state of the waterproof sheet 102 is visually inspected. And when the waterproof sheet 102 has deteriorated, a part or all of the waterproof sheet 102 stuck on the flat roof 100 is replaced.

  Thus, in this embodiment, the longitudinal direction one end part 12C (proximal end part close to the land roof 100) of the solar cell panel 12 is raised. For this reason, compared with the case where the longitudinal direction other end part 12D (non-adjacent end part which is not close to the flat roof 100) of the solar cell panel 12 is raised, the work space for carrying out the maintenance work of the waterproof sheet 102 can be secured widely. .

  Moreover, in this embodiment, the longitudinal direction one end part 12C (proximity end part) of the solar cell panel 12 is raised higher than the longitudinal direction other end part 12D (non-proximity end part). For this reason, compared with the case where the longitudinal direction one end portion 12C (proximity end portion) can only be raised to a position lower than the longitudinal direction other end portion 12D (non-proximity end portion), work for performing maintenance work on the waterproof sheet 102 Space can be secured more widely.

  Furthermore, in this embodiment, since the longitudinal direction one end part 12C (proximity end part) of the solar cell panel 12 is rotated and the longitudinal direction one end part 12C (proximity end part) is raised, the entire solar cell panel 12 is moved. Compared with the case of lifting and lifting upward, it is easy to raise the one end portion 12C (proximal end portion) in the longitudinal direction, and the workability of raising the one end portion 12C (proximal end portion) in the longitudinal direction is good.

[Second Embodiment]
(Configuration of the solar cell panel mount according to the second embodiment)
Next, the gantry 200 according to the second embodiment will be described. FIG. 4 is a side view showing the configuration of the gantry 200 according to the second embodiment. In addition, about the part comprised the same as 1st Embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted suitably.

  In the gantry 200 according to the second embodiment, as shown in FIG. 4, portions of the gantry body 20 excluding the mounting members 24 and 25 (two horizontal frames 22, connecting frames 28 and 29, and two support members 26. , 27, etc.) and the whole can be raised.

  Specifically, the gantry 200 includes a bracket (fixing member) 236 instead of the hinge 36 in the gantry 10. The other end portion 12D in the longitudinal direction of the solar cell panel 12 is fixed to the support member 27 by a bracket (fixing member) 236. Note that one end 12 </ b> C in the longitudinal direction of the solar cell panel 12 may be fixed to the support member 26.

  The gantry 200 does not have the holding member 30 in the gantry 10. Further, the engaged portion 13 with which the engaging portion 30 </ b> A of the holding member 30 is engaged is not provided on the back surface of the solar cell panel 12.

  Further, the gantry 200 is configured such that the horizontal frame 22 can be attached to and detached from the upper portions of the mounting members 24 and 25. Specifically, by loosening the bolt 41 and removing it from the bracket 40, each horizontal frame 22 is removed from the mounting members 24, 25, and the bracket 40 is screwed to the top of each mounting member 24, 25 by the bolt 41. Thus, the horizontal frame 22 is attached to the upper portions of the mounting members 24 and 25.

  Further, the gantry 200 includes the horizontal frame 22 removed from the attachment members 24 and 25 and additional members (an example of a holding member) 224 and 225 added between the attachment members 24 and 25.

  The lower part of each additional member 224, 225 can be attached to each attachment member 24, 25 by being screwed to the upper part of each attachment member 24, 25 with a bolt 223, for example.

  Moreover, the upper part of each additional member 224,225 is fixed with respect to the horizontal frame 22 via the bracket (fixing member) 40, for example. Specifically, the upper part of each additional member 224, 225 is fixed to the horizontal frame 22 by screwing the bracket 40 onto the upper part of each additional member 224, 225 with a bolt 41. .

(Maintenance method of waterproof sheet 102 on flat roof 100 in the second embodiment)
Next, as a function of the gantry 200 according to the second embodiment, a maintenance method for the waterproof sheet 102 on the flat roof 100 will be described.

  In the maintenance method for the waterproof sheet 102 according to the second embodiment, first, the bolt 41 is removed from the bracket 40, and each horizontal frame 22 is removed from the attachment members 24, 25.

  Next, a part of the gantry body 20 excluding the mounting members 24 and 25 (a part composed of two horizontal frames 22, connecting frames 28 and 29, two support members 26 and 27, etc.) is made up of a plurality of workers. By lifting, the whole of the solar cell panel 12 including the longitudinal end portion 12C (proximal end portion) is raised (ascending step).

  Next, additional members 224 and 225 are added between the horizontal frame 22 of the gantry body 20 raised in the ascending step and the mounting members 24 and 25. Then, as shown in FIG. 4, the lower portions of the additional members 224 and 225 are screwed to the upper portions of the mounting members 24 and 25 with bolts 223. Further, the upper portion of each additional member 224, 225 is fixed to the horizontal frame 22 by screwing the bracket 40 onto the upper portion of each additional member 224, 225 with a bolt 41.

  In this way, the portions excluding the attachment members 24 and 25 in the gantry body 20 are held in the raised state by the additional members 224 and 225.

  Next, maintenance (maintenance inspection) of the waterproof sheet 102 on the flat roof 100 below the solar battery panel 12 held in the raised state in the holding step is performed (maintenance step).

  Specifically, in the maintenance, the deterioration state of the waterproof sheet 102 is visually inspected. And when the waterproof sheet 102 has deteriorated, a part or all of the waterproof sheet 102 stuck on the flat roof 100 is replaced.

  Thus, in this embodiment, the whole solar cell panel 12 including the longitudinal direction one end part 12C (proximity end part) and the longitudinal direction other end part 12D (non-proximity end part) of the solar cell panel 12 is raised. For this reason, compared with the case where a part of solar cell panel 12 is raised, the work space for performing the maintenance work of the waterproof sheet 102 can be ensured more widely.

[Third Embodiment]
(Configuration of the solar cell panel mount according to the third embodiment)
Next, the gantry 300 according to the third embodiment will be described. FIG. 5 is a perspective view showing a configuration of a gantry 300 according to the third embodiment. In addition, about the part comprised the same as 1st Embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted suitably.

  In the gantry 300 according to the third embodiment, as shown in FIG. 5, the longitudinal direction (S direction) of the solar cell panel 12 is centered on the width direction other end portion 12 </ b> B (the oblique side portion) of the solar cell panel 12. The one end 12A in the width direction is configured to rotate around the axis.

  Specifically, the gantry 300 is provided with a support body 338 that supports the solar cell panel 12 so that the solar cell panel 12 can be contacted and separated with respect to the upper portion of the support member 27 disposed at one end 12A in the width direction of the solar cell panel 12. Yes.

  The support body 338 includes a fixing portion 338 </ b> A that is fixed to the upper portion of the support member 27, and a support portion 338 </ b> B that supports the back surface of the other end portion 12 </ b> D in the longitudinal direction of the solar cell panel 12. The fixed portion 338A and the support portion 338B are integrally formed.

  Each fixing portion 338 </ b> A is fixed to the upper portion of the support member 27 by being screwed to the side surface of the support member 27 with a bolt 343.

  Each support portion 338 </ b> B is configured by a plate body that is inclined so as to be lowered toward the longitudinal end portion 22 </ b> A side of the horizontal frame 22. The upper surface of each support portion 338 </ b> B is a support surface 338 </ b> D that supports the solar cell panel 12 on which the back surface of the solar cell panel 12 is placed.

  Further, the gantry 300 includes a hinge 336 provided on the upper portions of the support members 26 and 27 disposed at the other widthwise end portion 12B of the solar cell panel 12 instead of the hinge 36. A support body 338 is also attached to the upper portion of the support member 27, and a hinge 336 is fixed to a support surface 338D of the support body 338.

  The other end 12B in the width direction of the solar cell panel 12 is attached to the upper portions of the support members 26 and 27 via the hinge 336. Thereby, the solar cell panel 12 is configured such that the width direction one end portion 12A can be rotated around the axis line along the longitudinal direction (S direction) of the solar cell panel 12 with the width direction other end portion 12B as a center.

  Specifically, the solar cell panel 12 has a longitudinal end portion 12C (proximal end portion) in the width direction one end portion 12A placed on the support surface 26D of the support member 26 and a longitudinal direction in the width direction end portion 12A. The mounting position where the other end portion 12D is placed on the support surface 338D of the support 338, the longitudinal end portion 12C (proximal end portion) in the width direction one end portion 12A, and the longitudinal direction other end portion in the width direction one end portion 12A. It can be rotated between a raised position (position shown in FIG. 5) where 12D is raised.

  In the ascending position, one end 12C (proximity end) in the width direction one end 12A side of the solar cell panel 12 is the other end 12D (non-proximity end) in the width direction other end 12B side. Is going to rise higher.

  The holding member 30 is configured to hold the solar cell panel 12 in the raised state (the raised position shown in FIG. 5) by engaging the engaging portion 30 </ b> A with the engaged portion 13.

(Maintenance method of waterproof sheet 102 on flat roof 100 in the third embodiment)
Next, as a function of the gantry 300 according to the third embodiment, a maintenance method for the waterproof sheet 102 on the flat roof 100 will be described.

  In the maintenance method for the waterproof sheet 102 according to the third embodiment, first, as shown in FIG. 5, the solar cell panel is centered on the hinge 336 on the other end 12 </ b> B in the width direction of the solar cell panel 12. The one end portion 12A in the width direction is rotated to raise the one end portion 12A in the width direction to the ascending position (ascending step).

  At this time, the longitudinal direction one end 12C (proximity end) on the width direction one end 12A side of the solar cell panel 12 is higher than the longitudinal other end 12D (non-proximity end) on the width other end 12B side. Be raised.

  Next, the solar cell panel 12 in which the width direction one end portion 12A is raised in the ascending step is held in the raised state (holding step). Specifically, by rotating the holding member 30 from the retracted position to the holding position (position shown in FIG. 5), the holding member 30 is raised and the engaging portion 30A of the holding member 30 is moved to the solar cell panel 12. Is engaged with the engaged portion 13 on the back surface of the solar cell panel 12 to hold the solar cell panel 12 in the raised state.

  Next, maintenance (maintenance inspection) of the waterproof sheet 102 on the flat roof 100 below the solar battery panel 12 held in the raised state in the holding step is performed (maintenance step).

  Specifically, in the maintenance, the deterioration state of the waterproof sheet 102 is visually inspected. And when the waterproof sheet 102 has deteriorated, a part or all of the waterproof sheet 102 stuck on the flat roof 100 is replaced.

  Thus, in this embodiment, the longitudinal direction one end part 12C (proximal end part close to the flat roof 100) on the width direction one end part 12A side of the solar cell panel 12 is raised. For this reason, it is possible to secure a wide working space for carrying out maintenance work of the waterproof sheet 102.

  Moreover, in this embodiment, the longitudinal direction one end part 12C (proximal end part) of the width direction one end part 12A side of the solar cell panel 12 is the longitudinal direction other end part 12D (non-proximity end part) of the width direction other end part 12B side. ) Is higher than For this reason, compared with the case where the longitudinal end portion 12C (proximity end portion) can only be raised to a position lower than the longitudinal direction other end portion 12D (non-proximity end portion), the maintenance work for the waterproof sheet 102 is performed. A wider working space can be secured.

(Modification)
In the first to third embodiments, the deterioration state of the waterproof sheet 102 is inspected as a maintenance step through the ascending step and the holding step. However, the present invention is not limited to this. For example, a solar cell panel Before raising the 12 adjacent end portions (longitudinal end portion 12C), the deterioration state of the waterproof sheet 102 is inspected, and if the waterproof sheet 102 is deteriorated, the maintenance process is performed through the ascending step and the holding step. A pasting operation may be performed as a process.

  In the first and third embodiments, the holding member 30 is attached to the gantry body 20 (horizontal frame 22). However, the holding member 30 is not limited thereto, and the holding member 30 is not limited to the gantry body 20 (horizontal frame 22). It may be configured as a separate part separated from the gantry body 20. In this configuration, for example, between the longitudinal end portion 12C (in the third embodiment, the width direction end portion 12A, the same applies hereinafter) of the solar cell panel 12 positioned at the raised position and the gantry body 20 (horizontal frame 22). The holding member 30 is arranged, the holding member 30 is fixed to each of the longitudinal end 12C and the gantry body 20, and the solar cell panel 12 is held in the raised state (the raised position).

  The present invention is not limited to the above-described embodiment, and various modifications, changes, and improvements can be made. For example, the modification examples described above may be appropriately combined.

10 Base 12 Solar Panel 12C Longitudinal One End (Example of Proximal End)
12D longitudinal direction other end part (an example of a non-proximity end part)
20 Base body 30 Holding member 36 Hinge 100 Flat roof (an example of a roof)
102 Tarpaulin 200 Base 300 Base

Claims (6)

Of the ends of the solar cell panel attached to the roof, the ascending step of raising the proximity end close to the roof;
A holding step of holding the solar cell panel in which the proximity end portion is raised in the rising step in a rising state;
A maintenance step for maintaining the waterproof sheet on the roof below the solar cell panel held in the raised state in the holding step;
Maintenance method of tarpaulin including.   The maintenance method of the waterproof sheet according to claim 1, wherein the raising step raises the proximity end higher than a non-proximity end not close to the roof.   In the ascending step, the proximity end portion is rotated about the non-proximity end portion attached to the pedestal fixed to the roof by a hinge so that the proximity end portion is rotated. The maintenance method of the waterproof sheet according to claim 2 to raise. Among the end portions of the solar cell panel, the gantry main body that supports the solar cell panel so that the proximity end portion close to the roof can be raised,
A holding member for holding the solar cell panel in which the proximity end is raised in an elevated state;
A solar panel mount comprising:   The said base body is a base of the solar cell panel of Claim 4 which can raise the said proximity edge part higher than the non-proximity edge part which is not close to the said roof.   The pedestal of the solar cell panel according to claim 5, wherein the non-proximal end portion is attached to the gantry body so as to be rotatable by a hinge.

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