JP2013217084A - Fixture, fitting structure, and fitting method of solar battery module panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fixture of a solar battery module panel, not only enabling fitting work for fitting a solar battery module panel to a roof to be easily performed, but also capable of withstanding a long period of service.SOLUTION: A fixture 1 of a solar battery module panel for fitting the solar battery module panel 2,... on an inclined roof Y comprises: a rail member 11 having a hollow part 11a in its inside, a slit part 11b communicating with the hollow part 11a, extending in the longitudinal direction, and formed on its top face, the rail member 11 being fixed on the inclined roof Y; and a fixing member 12 having a fixing base 12a fixed to the rail member 11 by a bolt 120 of which head 120a is accommodated in the hollow part 11a of the rail member 11 and of which shank 120b is inserted into a slit part 11b and a nut 121, and a reception part 12b for receiving an end of the solar battery module panel 2.

Description

  The present invention relates to a mounting jig for mounting a solar cell module panel on a roof, a solar cell module panel mounting structure using the mounting jig, and a solar cell module panel mounting method using the mounting jig. It is.

  Conventionally, an attachment jig for attaching a solar cell module panel to a roof of a building using a rail member and a fixing member is known (see, for example, Patent Document 1).

JP 2001-271468 A

  However, in the conventional solar cell module panel mounting jig as disclosed in Patent Document 1, the load of the solar cell module panel is borne only by the fixing member at the end because the workability is important, and the intermediate fixing member is the sun. It was the structure which served only the role of the connection material between battery module panels.

  For this reason, especially when using it for an inclined roof etc., since an excessive load will be applied to the fixing member of an edge part, there was an anxious element about whether it can endure long-term service.

  Therefore, the present invention can easily perform the mounting operation for mounting the solar cell module panel on the roof, as well as a solar cell module panel mounting jig that can withstand long-term use, and a solar that uses this mounting jig. It aims at providing the attachment structure of a battery module panel, and the attachment method of the solar cell module panel using this attachment jig.

  In order to achieve the above object, a solar cell module panel mounting jig of the present invention is a solar cell module panel mounting jig for mounting a solar cell module panel on a roof, and has a hollow portion therein. A slit portion extending in a longitudinal direction communicating with the hollow portion is formed on the upper surface, a rail member fixed to the roof, and a head portion is housed in the hollow portion of the rail member, and a shaft portion is inserted into the slit portion. And a fixing member having a fixing base fixed to the rail member by a fastening member and a receiving portion for receiving an end of the solar cell module panel.

  Here, there is play between the hollow portion of the rail member and the head of the fastening member and between the slit portion of the rail member and the shaft portion of the fastening member, and the fastening member In the state which is not fastened, it is good for the fixing member to be movable in the longitudinal direction of the rail member.

  Moreover, the said fixing member is good to have as a receiving part the side receiving part which receives the side surface of the edge part of the said solar cell module panel, and the upper receiving part which receives the edge part of the said solar cell module panel from an upper side.

  Furthermore, the upper receiving part may be formed so as to face both sides of the rail member in the longitudinal direction.

  Further, the upper receiving portion is provided with a downward projecting piece projecting downward, and can be engaged with an upward projecting piece projecting upward provided at an end of the solar cell module panel. It is good to be.

  Further, the upper receiving part is supported by a support part that rises from the fixed base part, and the inner side surface of the lower end part of the downward projecting piece has a tapered shape that becomes narrower from the support part toward the upper side or It is good to have a chamfered shape.

  Furthermore, the fixing base of the fixing member can be divided into a split piece on one end side and a split piece on the other end side of the rail member by removing the fastening member, and the split piece It is preferable that the upper receiving portion is provided in any one of the above.

  Moreover, it is good for the edge part of the said hollow part of the said rail member to form the stopper part which stops the movement in the said hollow part of the said head of the said fastening member.

  The solar cell module panel mounting structure of the present invention is characterized in that the solar cell module panel is mounted on the roof using the above-described solar cell module panel mounting jig of the present invention.

  The solar cell module panel mounting method of the present invention is such that the mounting jig for the solar cell module panel of the present invention described above is fixed to the upper surface of the roof, and obliquely on the upper surface of the fixed base of the fixing member of the mounting jig. By placing the lower corner of one end of the solar cell module panel lifted in an inclined state and lowering the other end that has been lifted, one end of the solar cell module panel rotates. The solar cell module panel is fitted to the roof through the mounting jig, and is fitted into the receiving portion of the fixing member.

  Such a solar cell module panel mounting jig of the present invention is a solar cell module panel mounting jig for mounting a solar cell module panel on a roof.

  A slit portion extending in the longitudinal direction communicating with the hollow portion on the upper surface is formed on the upper surface, a rail member fixed to the roof, and a head is housed in the hollow portion of the rail member so that the slit portion is It is set as the structure provided with the fixed member which has the fixed base part fixed to a rail member by the fastening member by which the axial part was penetrated, and the receiving part which receives the edge part of a solar cell module panel.

  Because of this configuration, to attach the solar cell module panel to the roof, work to fix the mounting jig to the roof, work to fasten the fastening member of the fixing member, and work to place the solar cell module panel on the rail member Is very easy.

  In addition, usually, a plurality of solar cell module panels are mounted on one mounting jig. At this time, the fixing member between the solar cell module panels is also fixed to the rail member by the fastening member. Even when used for an inclined roof or the like, an excessive load is not applied only to the fixing member at the end of the rail member, and it can withstand long-term service.

  Here, there is play between the hollow portion of the rail member and the head portion of the fastening member, and between the slit portion of the rail member and the shaft portion of the fastening member, and the fastening member is not fastened. Then, when the fixing member is movable in the longitudinal direction of the rail member, the fixing member on the rail member can be easily adjusted to a desired position, and a bolt and a nut are used as a fastening member. When the nut is screwed onto the shaft of the bolt from above, the bolt head initially contacts the lower surface of the hollow portion, so that the nut can be screwed in by the frictional force received from this lower surface. Since the head portion of the bolt comes into contact with the upper side surface of the hollow portion, the nut can be screwed by the frictional force received from the upper side surface, whereby the fixing member can be firmly fixed to the rail member.

  In addition, when the fixing member has, as the receiving portion, a side receiving portion that receives the side surface of the end portion of the solar cell module panel and an upper receiving portion that receives the end portion of the solar cell module panel from above, the fixing member is Since the end portion of the battery module panel is restrained not only from the side surface but also from the upper side, the solar cell module panel can be more stably fixed.

  Further, when the upper receiving portion is formed so as to face both sides of the rail member in the longitudinal direction, when the plurality of solar cell module panels are mounted on one mounting jig, the solar cell is mounted. The fixing members between the module panels can be implemented as one each.

  Further, the upper receiving portion is provided with a downward protruding piece that protrudes downward, and can be engaged with an upward protruding piece that is provided at the end of the solar cell module panel. Can make the solar cell module panel a more stable fixed state by the engagement of the downward protruding piece and the upward protruding piece.

  Further, the upper receiving part is supported by a support part rising from the fixed base part, and the inner side surface of the lower end part of the downward projecting piece is tapered or chamfered so that the distance from the support part becomes narrower as it goes upward. When the solar cell module panel is fixed to the mounting jig, the upper end portion of the upward protruding piece of the solar cell module panel is guided to the tapered or chamfered inner surface of the downward protruding piece, The downward projecting piece and the upward projecting piece can be easily engaged with each other.

  Further, the fixing base of the fixing member can be divided into a split piece on one end side of the rail member and a split piece on the other end side by removing the fastening member, and one of these split pieces. If the upper receiving part is provided, the split piece provided with the upper receiving part can be removed if the fastening member is removed, so that one end of the solar cell module panel is not constrained. The solar cell module panel can be easily removed, and the solar cell module panel can be easily removed.

  In addition, when a stopper portion is provided at the end portion of the hollow portion of the rail member to stop the movement of the head portion of the fastening member in the hollow portion, the fastening member of the fixing member at the end portion of the rail member is Even if the head is loosened, the head is restrained by the stopper portion, so that safety can be further improved.

  Such a solar cell module panel mounting structure of the present invention is configured such that the solar cell module panel is mounted on the roof using the above-described solar cell module panel mounting jig of the present invention.

  Since it is such a structure, it can be set as the attachment structure of the solar cell module panel which enjoyed the effect of the attachment jig of the above-mentioned solar cell module panel of this invention.

  Such a solar cell module panel mounting method of the present invention is such that the above-described solar cell module panel mounting jig of the present invention is fixed to the upper surface of the roof, and obliquely to the upper surface of the fixing base of the fixing member of the mounting jig. One end of the solar cell module panel rotates and is fixed by placing the lower corner of one end of the solar cell module panel lifted in an inclined state and lowering the other end that has been lifted The solar cell module panel is configured to be fitted to the roof through a mounting jig by being fitted into the receiving portion of the member.

  With this configuration, the solar cell module panel can be attached to the roof with a simple attachment operation.

It is explanatory drawing explaining schematic structure of the attachment structure of the solar cell module panel using the attachment jig of the solar cell module panel of an Example. It is a perspective view which shows schematic structure of the attachment jig | tool of the solar cell module panel of an Example. It is a perspective view which shows schematic structure of the rail member which comprises the attachment jig | tool of the solar cell module panel of an Example. It is a figure which shows schematic structure of the fixing member which comprises the attachment jig | tool of the solar cell module panel of an Example, Comprising: (a) is a perspective view which shows the disassembled state, (b) is a perspective view which shows the assembled state FIG. It is the elements on larger scale which expand and show the part of the upper receiving part of the fixing member which comprises the attachment jig | tool of the solar cell module panel of an Example. It is a perspective view which shows schematic structure of the fixing member used in the middle which comprises the attachment jig | tool of the solar cell module panel of an Example. It is explanatory drawing for demonstrating the assembly of the attachment jig | tool of the solar cell module panel of an Example. It is AA arrow sectional drawing in FIG. It is explanatory drawing for demonstrating the attachment method of the solar cell module panel of an Example. It is explanatory drawing for demonstrating the attachment method of the solar cell module panel of an Example.

  DESCRIPTION OF EMBODIMENTS Hereinafter, modes for carrying out the present invention will be described based on examples shown in the drawings.

  First, the configuration of the embodiment will be described.

  FIG. 1 shows a schematic configuration of a solar cell module panel mounting structure using the solar cell module panel mounting jig 1 of the embodiment.

  In the solar cell module panel mounting structure of this embodiment, the solar cell module panels 2,... Are mounted on the inclined roof Y of the building B via the mounting jigs 1,.

  In addition, the decorative member 3 is provided in the lower edge part of the attachment jig | tool 1, ..., and the design beauty | look is exhibited.

  About the mounting jig 1 of the solar cell module panel of this Example, the schematic structure was shown in FIG.

  The mounting jig 1 is mainly composed of a rail member 11 and fixing members 12.

  As shown in FIG. 3, the rail member 11 has a rectangular parallelepiped shape, and has a hollow portion 11a inside. A slit portion 11b extending in the longitudinal direction communicating with the hollow portion 11a is formed on the upper surface. Is formed.

  In addition, the part below the hollow part 11a is also hollow in order to achieve weight reduction and the like.

  As shown in FIGS. 4 (a) and 4 (b), the fixing member 12 includes a divided piece 12A and a divided piece 12B, which are formed by a bolt 120, a nut 121, a spring washer 122, and a flat washer 123 as fastening members. It is integrated so that it can be divided.

  More specifically, the split piece 12A forms a part of the fixed base portion 12a of the fixing member 12, and the side receiving portion 126A that is a part of the receiving portion 12b that receives the side surface of the end portion of the solar cell module panel 2 on the upper surface. Is composed mainly of a divided fixing base portion 124A formed so as to stand up and a fixing plate 125 having a bolt hole 125a for integrating with the divided piece 12B.

  Further, the divided piece 12B forms a part of the fixed base 12a of the fixing member 12, has a bolt hole 124a for integrating with the divided piece 12A on the lower surface, and an end portion of the solar cell module panel 2 on the upper surface. A split receiving base 124B having a working hole 124b for tightening or loosening the nut 121 and a support plate 127 are formed so that a side receiving part 126B that is a part of the receiving part 12b that receives the side is raised. It is mainly comprised from the upper side receiving part 128 which is a part of receiving part 12b which receives the edge part of the solar cell module panel 2 supported from the upper side, and functions as a fixing | fixed part.

  Here, the upper receiving portion 128 protrudes on both sides from the upper end portion of the support plate 127 and has a substantially T-shaped cross section.

  Furthermore, downward projecting pieces 128a and 128a projecting downward are provided at the outer end of the upper receiving portion 128, and upward projecting upward provided at the end of the solar cell module panel 2 described later. It can engage with the protruding piece 2a.

  Moreover, as shown in FIG. 5, it arrange | positions at the upper edge part side of the rail member 11 so that engagement with the upward protrusion piece 2a of the lower edge part side of the solar cell module panel 2 can be performed easily. The inner side surface 128b at the lower end of the downward projecting piece 128a is tapered so that the space between the inner surface 128b and the support plate 127 becomes narrower toward the upper side.

  Furthermore, the downward projecting piece 128a disposed on the lower end side of the rail member 11 is arranged so as to be easily engaged with the upward projecting piece 2a on the upper end side of the solar cell module panel 2. The inner side surface 128c of the lower end portion has a chamfered shape close to a round shape that becomes narrower with the support plate 127 as it goes upward.

  In addition, in the intermediate fixing member 12 sandwiched between the solar cell module panels 2 and 2, as shown in FIG. 6, the damage of electric leakage when the insulation measures for the solar cell module panel 2 is damaged is avoided. For this purpose, the ground metal fitting 4 is provided in the portion of the divided fixed base 124A.

  Then, as shown in FIG. 7, when the head portion 120a of the bolt 120 of the fixing member 12 is inserted into the hollow portion 11a from the end portion of the rail member 11 with the nut 121 loosened, as shown in FIG. A simple mounting jig 1 is completed.

  In addition, there is play between the hollow portion 11a of the rail member 11 and the head portion 120a of the bolt 120 and between the slit portion 11b of the rail member 11 and the shaft portion 120b of the bolt 120. In a state where 120 is loosened, the fixing member 12 is movable in the longitudinal direction of the rail member 11.

  Further, as shown in FIG. 8, a screw 5 is screwed onto the lower surface of the end of the hollow portion 11 a of the rail member 11, and the head 5 a of the screw 5 is connected to the head 120 a of the bolt 120. It is a stopper part that stops it from moving further outside.

  Next, a method for mounting the solar cell module panel using the solar cell module panel mounting jig 1 of the embodiment will be described.

  First, the mounting jig 1 is fixed to the upper surface of the inclined roof Y of the building B with a fixing bracket (not shown) in the inclination direction.

  A plurality of mounting jigs 1,... Are fixed in the same manner in parallel with the mounting jig 1 at substantially equal intervals.

  Subsequently, the solar cell module panels 2,... In the tilt direction are fixed by the plurality of fixing members 12,.

  Specifically, in the state shown in FIG. 8, the fixing member 12 is fixed at the lower end of the rail member 11 by tightening the nut 121 with a tool such as a wrench.

  And the decorative member 3 is attached to the outer side of the fixing member 12 at the lower end of the rail members 11.

  Subsequently, as shown in FIG. 9, the lower corner portion of one end portion of the solar cell module panel 2 is placed on the upper surface of the split fixing base portion 124B of the fixing member 12 at the lower end portion and lifted. When the other end is lowered, while rotating in the direction of the arrow, the upward protruding piece 2a of the solar cell module panel 2 and the downward protruding piece 128a of the upper receiving portion 128 of the fixing member 12 are engaged, The side surface of the end portion of the solar cell module panel 2 is received by the side surface receiving portion 126B.

  Then, as shown in FIG. 10, when this operation is performed in the same manner toward the upper end of the rail member 11, the solar cell module panel mounting structure of this embodiment as shown in FIG. Is completed.

  In addition, what is necessary is just to perform the removal operation | work of the solar cell module panel 2, ... in the reverse procedure.

  Next, functions and effects of the embodiment will be described.

  The solar cell module panel mounting jig 1 of such an embodiment is a solar cell module panel mounting jig for mounting the solar cell module panels 2,.

  And the slit part 11b which has the hollow part 11a inside and is extended in the longitudinal direction which communicates with the hollow part 11a is formed in the upper surface, the rail member 11 fixed to the inclined roof Y, and the hollow part 11a of the rail member 11 A fixed base portion 12a fixed to the rail member 11 by a bolt 120 and a nut 121 in which the head portion 120a is housed and the shaft portion 120b is inserted into the slit portion 11b, and a receiving portion 12b that receives the end portion of the solar cell module panel 2. The fixing member 12 is provided.

  With such a configuration, in order to attach the solar cell module panels 2 to the inclined roof Y, the work of fixing the mounting jigs 1 to the inclined roof Y, the bolt 120 and the nut 121 of the fixing member 12 are performed. It is very easy to screw and fasten the solar cell module panels 2... And place them on the rail members.

  In addition, since the fixing member 12 between the solar cell module panels 2 and 2 is also fixed to the rail member 11 by the bolts 120 and nuts 121, an excessive load is applied only to the fixing member 12 at the lower end of the rail member 11. It can withstand long-term service.

  Here, there is play between the hollow portion 11 a of the rail member 11 and the head portion 120 a of the bolt 120 and between the slit portion 11 b of the rail member 11 and the shaft portion 120 b of the bolt 120, and the nut 121. In the state in which is loosened, the fixing member 12 is movable in the longitudinal direction of the rail member 11.

  For this reason, the position of the fixing member 12 on the rail member 11 can be easily adjusted so as to be a desired position.

  In addition, when the nut 121 is screwed onto the shaft portion 120b of the bolt 120 from above, the head portion 120a of the bolt 120 initially contacts the lower surface of the hollow portion 11a, so that the nut 121 is screwed by the frictional force received from the lower surface. Since the head portion 120a of the bolt 120 contacts the upper side surface of the hollow portion 11a from the middle, the nut 121 can be screwed by the frictional force received from the upper side surface. The rail member 11 can be firmly fixed.

  In addition, the fixing member 12 includes, as receiving portions 12b, side receiving portions 126A and 126B that receive the side surfaces of the end portions of the solar cell module panel 2, and an upper receiving portion 128 that receives the end portions of the solar cell module panel 2 from above. Have.

  For this reason, since the fixing member 12 restrains the end of the solar cell module panel 2 not only from the side surface but also from the upper side, the solar cell module panel 2 can be more stably fixed.

  Further, the upper receiving portion 128 is formed in a substantially T-shaped cross section so as to face both sides of the rail member 11 in the longitudinal direction.

  For this reason, the fixing member 12 between the solar cell module panels 2 and 2 can be implemented as one each.

  Further, the upper receiving portion 128 is provided with downward protruding pieces 128a and 128a protruding downward, and is engaged with the upward protruding piece 2a protruding upward provided at the end of the solar cell module panel 2. It is possible.

  For this reason, the solar cell module panel 2 can be in a more stable fixed state by the engagement between the downward projecting piece 128a and the upward projecting piece 2a.

  Further, the upper receiving portion 128 is supported by a support plate 127 rising from the fixed base portion 12a, and the inner side surface 128b of the lower end portion of the downward projecting piece 128a disposed on the upper end side of the rail member 11 is It is set as the taper shape which becomes narrow between support plates 127 as it goes to.

  For this reason, when the solar cell module panel 2 is fixed to the mounting jig 1, the upper end portion of the upward projecting piece 2a of the solar cell module panel 2 is guided by the tapered inner surface 128b of the downward projecting piece 128a. Therefore, the downward protrusion piece 128a and the upward protrusion piece 2a can be easily engaged.

  Further, the inner side surface 128c of the lower end portion of the downward projecting piece 128a disposed on the lower end side of the rail member 11 has a chamfered shape that is close to a round shape that becomes narrower with the support plate 127 as it goes upward. Has been.

  Therefore, when the solar cell module panel 2 is fixed to the mounting jig 1, the upper end portion of the upward projecting piece 2a of the solar cell module panel 2 is guided by the chamfered inner side surface 128c of the downward projecting piece 128a. Therefore, the downward protrusion piece 128a and the upward protrusion piece 2a can be easily engaged.

  Furthermore, the fixing base 12a of the fixing member 12 can be divided into a split piece 12A on the lower end side of the rail member 11 and a split piece 12B on the upper end side by removing the nut 121. An upper receiving portion 128 is provided in the split piece 12B on the end side.

  For this reason, if the nut 121 is removed, the upper end portion side split piece 12B provided with the upper receiving portion 128 can be removed, so that the upper end portion of the solar cell module panel 2 is not restrained. The solar cell module panel 2 can be easily removed, and the solar cell module panel 2 can be easily removed.

  Moreover, the head 5a of the screw 5 which becomes a stopper part which stops the movement in the hollow part 11a of the head 120a of the volt | bolt 120 in the lower end part of the hollow part 11a of the rail member 11 is provided. .

  For this reason, even if the bolt 120 and the nut 121 of the fixing member 12 at the lower end of the rail member 11 are loosened, the head 120a is restrained by the head 5a of the screw 5 serving as a stopper portion. Safety can be improved.

  The solar cell module panel mounting structure of such an embodiment uses the solar cell module panel mounting jigs 1,... It is an installed configuration.

  Since it is such a structure, it can be set as the attachment structure of the solar cell module panel which enjoyed the effect of the solar cell module panel attachment jig 1 of an above-described Example.

  The solar cell module panel mounting method of such an embodiment fixes the solar cell module panel mounting jig 1,... Of the above-described embodiment to the upper surface of the inclined roof Y, and The lower corner portion of one end portion of the solar cell module panel 2 lifted in an inclined state is placed on the upper surface of the split piece 12B of the fixed base portion 12a of the fixing member 12, and the other lifted end portion is lowered. As a result, one end of the solar cell module panel 2 rotates and fits into the receiving portion 12b of the fixing member 12, and the solar cell module panel 2,. It is set as the structure attached to the inclined roof Y via.

  Since it is such a structure, the solar cell module panel 2, ... can be attached to the inclined roof Y by simple attachment work.

  As mentioned above, although the form for implementing this invention was explained in full detail based on the Example with reference to drawings, the concrete structure is not limited to this Example, and is a grade which does not deviate from the summary of this invention. Design changes are included in the present invention.

  For example, in the above-described embodiment, the mounting jig 1 is fixed to the upper surface of the inclined roof Y in the inclined direction. However, the embodiment is not limited thereto, and the mounting jig 1 is inclined to the upper surface of the inclined roof Y. You may fix and implement toward the direction orthogonal to.

  In the above-described embodiment, the mounting jig 1 is applied to the inclined roof Y, but is not limited thereto, and may be applied to a flat roof or the like.

  Moreover, in the above-mentioned Example, it implements by fixing the solar cell module panel 2 ... of 1 row of an inclination direction with the some fixing member 12, ... by two rail members 11,11 unit. However, the present invention is not limited to this, and, for example, one row of solar cell module panels 2,... In the tilt direction is fixed by a plurality of fixing members 12,. You may carry out like this.

  Furthermore, in the above-described embodiment, the bolt 120, the nut 121, the spring washer 122, and the flat washer 123 are used as the fastening member. However, the present invention is not limited to this, and may be implemented using, for example, a rivet.

B Building Y Tilted roof (roof)
DESCRIPTION OF SYMBOLS 1 Mounting jig 2 Solar cell module panel 2a Upward projecting piece 3 Decorative member 4 Ground metal fitting 5 Screw 5a Head (stopper part)
11 Rail member 11a Hollow portion 11b Slit portion 12 Fixed member 12a Fixed base portion 12b Receiving portion 12A Split piece 12B Split piece 120 Bolt (fastening member)
120a head 120b shaft 121 nut (fastening member)
122 Spring washer (fastening member)
123 Flat washer (fastening member)
124A Split fixing base 124B Split fixing base 124a Bolt hole 124b Working hole 125 Fixing plate 125a Bolt hole 126A Side receiving part 126B Side receiving part 127 Support plate (supporting part)
128 Upper receiving part 128a Downward protruding piece 128b Inner side surface 128c of downward protruding piece Inner side surface of downward protruding piece

Claims (10)

A solar cell module panel mounting jig for mounting a solar cell module panel on a roof,
A rail member which has a hollow portion inside and is formed with a slit portion extending in the longitudinal direction communicating with the hollow portion on the upper surface, and fixed to the roof;
A fixed base fixed to the rail member by a fastening member in which a head is housed in the hollow portion of the rail member and a shaft portion is inserted into the slit portion, and a receiving portion for receiving an end portion of the solar cell module panel. A mounting jig for a solar cell module panel, comprising: a fixing member having a fixing member.   Between the hollow portion of the rail member and the head of the fastening member and between the slit portion of the rail member and the shaft portion of the fastening member, there is play, and the fastening member is fastened. 2. The solar cell module panel mounting jig according to claim 1, wherein the fixing member is movable in a longitudinal direction of the rail member when the rail member is not in a closed state.   The fixing member has, as the receiving portion, a side receiving portion that receives a side surface of an end portion of the solar cell module panel, and an upper receiving portion that receives an end portion of the solar cell module panel from above. The solar cell module panel mounting jig according to claim 1 or 2.   The solar cell module panel mounting jig according to claim 3, wherein the upper receiving portion is formed so as to face both sides in the longitudinal direction of the rail member.   The upper receiving portion is provided with a downward protruding piece that protrudes downward, and is engageable with an upward protruding piece that is provided at an end of the solar cell module panel. The solar cell module panel mounting jig according to claim 3 or 4, wherein:   The upper receiving part is supported by a support part rising from the fixed base part, and the inner side surface of the lower end part of the downward projecting piece is tapered or chamfered so that the distance from the support part becomes narrower as it goes upward. The solar cell module panel mounting jig according to claim 5, wherein the mounting jig is a solar cell module panel mounting jig.   The fixing base of the fixing member can be divided into a split piece on one end side of the rail member and a split piece on the other end side of the rail member by removing the fastening member. 7. The solar cell module panel mounting jig according to any one of claims 3 to 6, wherein the upper receiving portion is provided on one of them.   The stopper part which stops the movement in the said hollow part of the said head of the said fastening member is formed in the edge part of the said hollow part of the said rail member, The Claim 1 thru | or 7 characterized by the above-mentioned. 2. A solar cell module panel mounting jig according to item 1.   The solar cell module panel mounting structure, wherein the solar cell module panel is mounted on the roof using the solar cell module panel mounting jig according to any one of claims 1 to 8.   A state in which the solar cell module panel mounting jig according to any one of claims 1 to 8 is fixed to an upper surface of a roof, and is inclined obliquely to the upper surface of the fixed base portion of the fixing member of the mounting jig. The lower corner portion of one end portion of the solar cell module panel lifted in step 1 is placed, and the other end portion that has been lifted is lowered, so that one end portion of the solar cell module panel rotates and the fixing member The solar cell module panel mounting method, wherein the solar cell module panel is fitted into the receiving portion, and the solar cell module panel is mounted on the roof via the mounting jig.