JP6358688B2 - Panel mounting member and mounting structure - Google Patents

Description

  The present invention relates to a panel mounting member and a mounting structure that can cope with various thicknesses of various panels and that can securely and continuously mount the panel to a wall or a roof.

Conventionally, various modes have been proposed in which a frame material is disposed around the periphery of a solar cell module (a solar cell panel is formed), and the panel is attached to a roof or a wall. Because various sizes (single size and thickness) are manufactured according to the manufacturer and application, fixing members such as frame materials and methods differ from panel to panel, which is very time-consuming. It is.

  For example, in the solar cell panel installation structure described in Patent Literature 1, the end of the solar cell panel 11 is viewed from above using the upper metal fitting 20 having a substantially inverted hat shape with respect to the roof mounting metal fitting 4 attached to the roof 1. Holding down. More specifically, the bolt 8a erected on the roof mounting bracket 4 is disposed so as to be inserted into the hole 22 formed in the upper bracket 20, and the nut 30 is tightened to fix the solar cell at the upper flange 23 of the upper bracket 20. The upper end of the panel 11 is pressed and held.

Japanese Patent No. 3352647

However, since there are products of various thicknesses in the solar cell panel as well as the above-mentioned Patent Document 1, it is necessary to prepare a plurality of types of pressers (= upper metal fitting in Patent Document 1) having different heights. there were.
In general, spacers with different heights are used to cope with the thickness of the solar cell panel. However, as with metal fittings with different heights, multiple types are required, which complicates member management. I had problems such as.
Furthermore, since various modes to be attached to roofs, walls, and the like have been proposed for greening panels and the like other than solar cell panels, there are similar problems in each mode.
In addition, in the above-mentioned Patent Document 1, since the presser (upper metal fitting 20) that is pressed and held from above is fastened and fixed with a nut 30 from above, the stress that holds and holds depends on the tightening strength of the nut 30. Yes. Therefore, when the tightening is insufficient, the nut may fall off or the solar cell panel 11 may be displaced. On the other hand, excessive tightening causes a problem that the frame 12 of the solar cell panel 11 is deformed.

  Therefore, an object of the present invention is to propose a panel mounting member and a mounting structure that can cope with various thicknesses of various panels and that can securely and continuously mount the panel to a wall or a roof.

  The present invention has been proposed in view of the above, and is an attachment member for attaching a panel to a base, comprising a fixing member for fixing to the base and a holding member for pressing the upper end of the panel. It is provided with an upright part formed in a vertical surface, a folded lower part, and one of the insertion parts through which the fastener can be inserted is formed in the upright part and the other is formed in the folded lower part and integrated in an opposing manner, The present invention relates to a panel mounting member, characterized in that an inclined protruding portion toward the other side is formed on the upright portion and the folded lower portion as a vertical adjustment means.

  Furthermore, the present invention is an attachment structure in which a panel is attached to a base using the attachment member, and a holding member integrated with a fixing member fixed to the base via a fastener is provided in a vertical direction. An adjustment means is formed by adjusting the rising part of the fixing member and the folding lower part of the holding member by forming an inclined protruding part toward the other side, and pressing the upper end of the panel with the holding member and fastening the panel. A mounting structure is also proposed.

The mounting member of the panel of the present invention has an insertion portion through which a fastening member can be inserted into a holding member that is positioned above and holds the upper end of the panel, and a fixing member that is positioned below and is fixed to the base. Integrated with each other and having an adjustment means in the vertical direction, for example, it can cope with various thicknesses of various panels such as a solar cell panel and a greening panel, and the panel is securely and continuously mounted on the wall. Can be attached to the roof. Therefore, since the attachment member to be used is substantially one kind, member management is also easy.
Furthermore, since the attachment member of the present invention fastens and fixes the fastener from the side, for example, even when the panel is a solar cell panel, the frame is not deformed, and the attachment is reliably performed. be able to.

  In addition, the adjustment means in the vertical direction is formed with both the fixing member and the holding member formed with an inclined protrusion on the other side, so that the inclined protrusion is in pressure contact with the other surface. The wearing tool is tightened, and the holding member moves to a position for pressing (abutting) the panel, and is fixed as a force for pressing the panel from above.

  Furthermore, since the panel mounting structure using the mounting member has substantially one type of mounting member used as described above, the member management is also easy. For example, various panels such as solar cell panels and greening panels. The panel can be attached to the wall or the roof reliably and continuously.

It is a front view which shows the attachment structure of the panel of one Example (1st Example) of this invention. (A) Front view of fixing member constituting mounting member of first embodiment, B sectional view on right side, plan view of main part on lower side, (b) front view of fastener, (c) FIG. 5 is a front view of the holding member, a cross-sectional view of the A on the right side, a plan view of the main part on the lower side, and (d) an exploded perspective view showing a state in which the holding member is assembled to the fixing member. (A) The side view which shows the procedure which constructs the mounting structure of the panel of 1st Example, shows the state which hold | maintained the holding member above the fixing member fixed between panels, (b) The front view, (c ) Side view showing a state in which the fixing member and the holding member are integrated using a fastener, (d) A sectional view thereof, (e) Side view showing a state in which the panel is pressed by the holding member, (f) ) A sectional view of the same, (g) Front view showing the attached state. (A) A side view showing the panel mounting structure in the first embodiment for comparison, (b) a side view showing a mounting structure using a thicker panel than (b), and (c) a vertical adjustment means. Sectional view and side view of the main part showing a reference example (an opening is formed in the fixing member), (d) a main part showing a reference example (an opening is formed in the holding member) of the adjustment means in the vertical direction It is sectional drawing and a side view.

The panel mounting member according to the present invention includes a fixing member positioned below and fixed to the base, and a holding member positioned above and holding the upper end of the panel.
Both members have an insertion portion through which the fastener can be inserted and are integrated in an opposing manner, and have an adjustment means in the vertical direction.
With this configuration, it is possible to cope with various thicknesses of various panels, and it is possible to reliably and continuously attach the panels to the wall or the roof.

The fixing member includes a fixing portion that is fixed to the base and a substantially vertical upright portion, and the upright portion has one of an insertion portion (hole portion) and an adjusting means.
The holding member includes a pressing portion that presses the upper end of the panel and a substantially vertical folded portion, and the folded portion has the other of an insertion portion (hole portion) and an adjusting means, respectively. .
That is, the standing portion of the fixing member and the folded portion of the holding member are each formed in a substantially vertical surface shape and are arranged to face each other, but one of the insertion portions (hole portions) through which the fastener is inserted is the standing portion. In addition, the other is formed in the folded portion, and one of the adjustment means in the vertical direction is formed in the standing portion and the other is formed in the folded portion.

The insertion portion is a hole portion through which the fastener can be inserted, and may be circular, elliptical, or rectangular, may be a long hole, or may be an open groove shape. In order to move in the vertical direction (height direction), at least one of them may be a long hole or a groove shape, and both may be a long hole or a groove shape.
In addition, the configuration having “adjusting means in the vertical direction” is, of course, a configuration movable in the vertical direction (height direction), that is, “at least one insertion portion (hole portion) is a long hole or It includes a “grooved” configuration.

  Fasteners that are inserted through the insertion portion mainly refer to bolts and nuts in the illustrated embodiments described later, but are not limited thereto, and for example, “bolts” include those in the illustrated embodiments. Such a hexagonal bolt may be used, a square root bolt inserted through a rectangular hole, or a welding bolt may be used.

The vertical adjustment means may be configured so that the height of the holding member (the height of the pressing portion) can be attached to the upright portion and the folding lower portion at any position during fastening, and the position can be determined by fastening. .
As the adjustment means in the vertical direction, an aspect in which an opening is formed in one of the fixing member and the holding member and an inclined protrusion inserted into the opening is formed in the other (= referred to below) A mode), a mode in which inclined projections toward the other side are formed on both the fixing member and the holding member (hereinafter referred to as an embodiment).

In the above-mentioned reference mode, when the two members are tightened, the inclined protrusion moves in the opening, and the inclined portion contacts the upper part (or lower part) of the opening, so that the holding member is in a predetermined position (the pressing part is Move to the position holding the panel). When the fastener is further tightened, the holding member tends to move downward, and this is a force for pressing the solar cell panel from above. Here, sufficient torque is applied to the fastener and the operation is completed.
In this aspect, it is only necessary to have an opening on one side and an inclined protrusion on the other, and the opening may be a groove (slit) or a wide shape, and the shape is not particularly limited. In addition, the inclined protruding portion is not particularly limited in its shape, but in the fixing member (standing portion) positioned below, the protruding protrusion is formed so that the protruding height gradually increases upward, In the holding member (folded lower part) positioned at the upper side, the protruding height is gradually increased toward the lower side. Furthermore, the inclined protrusion in this reference mode needs to be a position and size (width) to be inserted into the opening in the attached state.
In addition, even if this inclined protrusion part is a ridge part formed by press work, the protrusion piece formed by cutting and raising process may be sufficient as it. In the case of a protruding piece, even if it is formed so that the protruding piece protrudes to the opposite side in the same manner as the ridge formed by pressing, it is further bent to constitute an inclined surface that is equivalent to the plate thickness. May be.

  And when an opening part is formed in a fixing member and an inclined protrusion part is formed in a holding member, both members are tightened in a face-to-face manner, so that the inclined protrusion part of the holding member becomes an opening part of the fixing member. It moves to the lower side in contact with the upper end of. In this case, the inclined protrusions are formed so that the protrusion height gradually increases downward as described above.

  In addition, when the opening is formed in the holding member and the inclined protrusion is formed in the fixing member, the two members are tightened in a face-to-face manner so that the inclined protrusion of the fixing member becomes the opening of the holding member. It moves to the lower side in contact with the lower end. In this case, the inclined protrusions are formed so that the protrusion height gradually increases upward as described above.

In the above-described embodiment, the holding member has a predetermined position (position where the pressing portion presses the panel) as long as at least one of the facing upright portion and the folded lower portion has an inclined protruding portion that protrudes to the facing side (inside). However, as in the first embodiment described later, it is desirable to provide an inclined protruding portion that protrudes inward for both the upright portion and the folded lower portion, and the inclined protruding portions of both are combined with the same inclination angle. It is more desirable. This is because the movement by tightening is performed smoothly.
The “inclined protruding portion” in this embodiment is as described in the above reference embodiment, but it does not have to be the position or size (width) to be inserted into the opening in the attached state.

  The fixing part of the fixing member is a part to be fixed to the base, and the fixing may be performed by inserting a bent piece (claw piece) in the base as shown in the illustrated embodiment, Fastening with bolts and nuts, welding, screwing, or the like may be used. In the case of fastening with bolts and nuts, a fixing method having a slide function is very useful as in the case of using a rail material having a groove portion that opens upward as a base.

  As described above, the upright portion of the fixing member is a substantially vertical vertical piece, and is formed with one of an insertion portion (hole portion) through which the fastener is inserted and one of adjustment means in the vertical direction. However, any other configuration may be added as appropriate as long as the function (action) is not inhibited.

The folding part of the holding member is a vertical piece having a substantially vertical surface as described above, and is formed with the other of the insertion part (hole part) through which the fastener is inserted and the other of the adjustment means in the vertical direction. However, any other configuration may be added as appropriate as long as the function (action) is not inhibited.

The holding portion of the holding member may extend either to the inside or the outside or to both.
Moreover, you may make it add what kind of structure except a holding | suppressing part and a folding lower part to this holding member suitably. That is, the mounting portion of the external member corresponding to the function of the panel corresponds to that. For example, when the panel is a solar cell panel, an attachment portion for an external member such as a snow stopper may be formed.

  The panel attached by the attachment member of the present invention is mainly a solar cell panel (a solar cell panel comprising a solar energy conversion module and a frame material surrounding the periphery thereof), but a greening panel, a daylighting panel, a new roof panel, etc. It may be possible, or a configuration in which these plural types of panels are used in combination is also possible.

  In addition, the base to be attached to the panel may be a housing (RC or the like), or may be one in which various rail materials (cross members) having a groove portion opened upward on the housing are arranged, A support member or a rail material may be arranged on an existing roof or the like, and it does not ask whether it is a new installation or an existing installation. That is, the aspect of the base is not limited as long as the mounting member of the panel can be fixed.

  And the attachment member of the panel of this invention can adjust the height easily according to thickness, such as a solar cell panel and a greening panel to attach, and can hold | maintain it. Therefore, it is not necessary to prepare a plurality of types of members (mounting brackets and spacers) having different heights as in the prior art, and a single type of mounting member can be used to hold various types of panels reliably and easily.

  Furthermore, since the panel mounting structure of the present invention using the mounting member has substantially one type of mounting member to be used as described above, member management is also easy, such as a solar cell panel or a greening panel. It is possible to cope with various thicknesses of the various panels, and it is possible to reliably and continuously attach the panel to the wall or the roof.

  The mounting member 1 according to the first embodiment of the present invention shown in FIGS. 1 to 3 includes a fixing member 2 that is fixed to the base 5 and a holding member 3 that presses the upper end of the panel 6. The dressing device 4 is integrated in an opposing manner, and has an adjustment means in the vertical direction.

  The fixing member 2 includes a fixing portion 21 fixed to the base 5 and a substantially vertical upright portion 22. The upright portion 22 includes one of an insertion portion (hole portion) and an adjusting means 221 and 222, respectively. It is the structure which has.

In the fixing member 2 of the illustrated embodiment, as shown in the lower left of FIGS. 2 (a) and 2 (d), a fixing portion 21 is installed in contact with the base 5 and is a flat plate having a substantially rectangular shape in plan view. Bending pieces (claw pieces) 211 are formed on the back side of the portion 20 at the front and rear sides of the portion 20 in a substantially vertical downward direction. In addition, the front-back direction refers to the left-right direction in the figure, and the fixing member 2 is substantially symmetrical in the front-rear direction.
The upright portion 22 has a substantially vertical surface rising from a side edge of the flat plate portion 20, and a substantially circular insertion portion (hole portion) 221 is formed in the upright portion 22 from above the substantially center. On the left and right sides, as the adjusting means in the vertical direction, inclined protruding portions 222, 222 formed so that the protruding height gradually increases upward are formed by pressing.

  The holding member 3 includes a pressing portion 31 that presses the upper end of the panel 6 and a substantially vertical folded portion 32. The folded portion 32 includes the insertion portion (hole) and the other of the adjusting means. The configuration includes 331 and 332.

In the holding member 3 of the illustrated embodiment, as shown in the upper right of FIGS. 2 (c) and 2 (d), the pressing portions 31, 31 are substantially horizontally inward from the front and rear of the substantially vertical folded portion 32. It is formed so as to extend in a shape.
The folding portion 32 is formed with a long hole-like insertion portion (hole portion) 321 extending in the vertical direction substantially at the center, and gradually protrudes downward on the left and right sides as adjustment means in the vertical direction. Inclined protrusions 322 and 322 formed so as to increase in length are formed so as to protrude inward. Except for protruding outward, the inclined protrusions 323 and 323 are arranged in parallel with the inclined protrusions 332 and 332 in the same manner.
Furthermore, an inclined piece-like mounting portion 33 is provided above the holding portion 31 on the front side.

  Moreover, the said fastener 4 integrates the said fixing member 2 and the said holding member 3 in opposition, Comprising: In the fastener 4 of the example of illustration, FIG.2 (b) and FIG.2 ( d) from the insertion part (hole part) 221 of the fixing member 2, the bolt 4a passing through the insertion part (hole part) 321 of the holding member 3, the nut 4b, the washer 4c, and the washer 4d. Become.

  The base 5 for fixing the mounting member 1 made up of these members 2, 3, and 4 is shown in FIG. A hole (slit) into which the bent piece (claw piece) 211 of the fixing member 2 is inserted is formed in the supporting member (rafter).

Moreover, as the panel 6 attached by the said attachment member 1, although a solar cell panel, a greening panel, a lighting panel, a newly installed roof panel, etc. are assumed, the solar cell panel was used here.
Then, the mounting member 33 formed on the rear side of the holding member 3 is configured to mount the external member 7 having the upright portion 71. The standing portion 71 of the external member 7 serves to prevent snow from falling during snowfall and functions as a snow stopper, but mainly discharges air in the back surface space 60 of the solar cell panel 6. Functions as a discharging means. That is, the wind blown to the upright portion 71 causes a turbulent flow upward, and the upper end of the upright portion 71 is in a reduced pressure state, so that the air in the back space 60 of the solar cell panel 6 is sucked out to the front side. In addition, the flow of air in the back space 60 is remarkably accelerated, and the temperature at which the solar cells themselves are generated can be suppressed to prevent the power generation efficiency from being lowered.

Next, the construction procedure of the mounting structure using the mounting member 1 having the above-described configuration will be described with reference to FIG.
First, as shown in FIG. 3A, the fixing member 2 having the above configuration is fixed between adjacent solar cell panels 6 and 6. As described above, since the base 5 is formed with slit holes into which the bent pieces (claw pieces) 211 of the fixing member 2 are inserted, the fixing member 2 can be easily attached.

  Next, as shown in FIG. 3 (b), the bolt 4a is inserted from the back surface side of the insertion portion (hole) 221 of the fixing member 2, inserted into the insertion portion (hole) 321 of the holding member 3, and the tip thereof When the washer 4c, washer 4d and nut 4b are fitted and fixed in this order, the state shown in FIG.

  The state of FIG. 3 (c) shows a state in which the standing portion 22 of the fixing member 2 and the folded lower portion 32 of the holding member 3 are integrated in an opposing manner in the fastener 4. In this state, as shown in FIG. 3 (d), the inclined protrusion 222 of the fixing member 2 (standing part 22) positioned below is formed so that the protrusion height gradually increases upward. The inclined protruding portion 322 of the holding member 3 (folded lower portion 32) located at the position is formed so that the protruding height gradually increases downward, and corresponds to the example of the above embodiment. When the fastener 4 is tightened, the facing interval is narrowed as indicated by the arrows, and the inclined protrusions 222 and 322 come into contact with each other.

When the fastening tool 4 is further tightened, the holding member 3 moves downward (slids) so that the inclined protrusions 222 and 322 are brought into contact with each other and guided to the inclination, so there is no need for the operator to press from above. The holding portions 31 and 31 of the holding member 3 are fixed in a state where the upper ends of the solar cell panels 6 and 6 are pressed from above. That is, a downward stress indicated by an arrow acts on each of FIGS. 3E and 3F, and this becomes a force for pressing the solar cell panels 6 and 6 from above. Here, sufficient torque is applied to the fastener 4 to complete the operation.
FIG. 3G shows a state in which the fastening tool 4 is fastened at the facing interval t. However, since the fastening tool 4 is fastened, the facing distance t does not increase. As long as the facing interval t is not widened, the holding member 3 cannot move upward, and is prevented from coming off.

  The mounting structure of the solar cell panel 6 according to the first embodiment of the present invention thus constructed can cope with various thicknesses as shown in FIGS. 4A and 4B, for example, and reliably and continuously. The solar cell panels 6, 6 'can be attached to a wall or a roof. Therefore, since the attachment member 1 to be used is substantially one type, member management is also easy. Note that the mounting structure shown in FIG. 4B uses the same mounting member 1 as in the first embodiment, and the thickness of the panel 6 'is thicker than that of the panel 6 in the first embodiment. This is an example using the same, and since the thickness of the panel 6 ′ is not changed at all, the same reference numerals are given and the description is omitted.

  In addition, the first embodiment is an example corresponding to the above-described embodiment as the adjustment means in the vertical direction, and both the fixing member 2 and the holding member 3 are projected substantially in the same direction toward the other side. Since the portions 221 and 321 are formed, the fastening tool 4 is tightened in a state where the inclined protruding portions 221 and 321 are in contact with each other, and the holding member 3 (the pressing portion 31) holds the solar cell panel 6 ( It moves smoothly to the position where it abuts) and is fixed as a force that presses the solar cell panel 6 from above.

  Note that, as described above, the fixing member 2 in this embodiment is substantially symmetrical in the front-rear direction, and the folded lower portion 32 of the holding member 3 has similar inclined protrusions 322 and 323 formed on both sides. Yes. Therefore, in this case, the arrangement direction of the holding member 3 is set so that the direction in which the attachment portion 33 to which the external member 7 is attached is formed is the front, but the fixing member 2 is not necessarily as illustrated. The holding member 3 may not be disposed on the left side (viewed from the front) but may be disposed on the right side. However, in that case, the fixing member 2 is rotated 180 degrees so that the inclined protruding portion 222 faces the left side. In this case, the inclined protruding portions 323 and 323 of the holding member 3 and the inclined protruding portion 222 of the fixing member 2 face each other and can be made to behave exactly as described above.

The attachment structure of each attachment member 1X, 1Y shown in FIGS. 4 (c) and 4 (d) is an example corresponding to the above-mentioned reference mode as the adjustment means in the vertical direction, as in the example of FIG. 4 (c). In the case where the opening 224 is formed in the standing part 22 of the fixing member 2X, and the inclined protruding part 324 is formed in the folding lower part 32 of the holding member 3X so that the protruding height gradually increases downward, both members When 2X and 3X are tightened face-to-face, the inclined protrusion 324 of the holding member 3X contacts the upper end of the opening 224 of the fixing member 2X and moves downward.
Further, as in the example of FIG. 4D, an opening 325 is formed in the folded lower portion 32 of the holding member 3Y, and the protruding height is gradually increased upward in the standing portion 22 of the fixing member 2Y. When the inclined protruding portion 225 is formed, when both the members 2Y and 3Y are tightened in a face-to-face manner, the inclined protruding portion 225 of the fixing member 2Y comes into contact with the lower end of the opening 325 of the holding member 3Y. Move to.

DESCRIPTION OF SYMBOLS 1 Attachment member 2 Fixing member 21 Fixing part 22 Standing part 221 Insertion part (hole part)
222 Inclined protrusion 3 Holding member 31 Pressing part 32 Folding lower part 321 Insertion part (hole part)
322, 323 Inclined protruding portion 33 Mounting portion 4 Fastening tool 4a Bolt 4b Nut 4c Washer 4d Washer 5 Base 6 Solar cell panel 60 Back space 7 External member

Claims (2)

An attachment member for attaching the panel to the base,
It consists of a fixing member that fixes to the base and a holding member that presses the upper end of the panel. Each of the members has an upright part and a folding part that are formed in a substantially vertical surface, and is one of the insertion parts through which the fastener can be inserted. Is formed on the upright portion and the other is formed on the folded lower portion so as to be opposed to each other. A panel mounting member. A mounting structure in which a panel is mounted on a base using the mounting member according to claim 1,
A holding member that is integrated with a fixing member fixed to the base via a fastener, and an upright portion of the fixing member and an inclined protruding portion toward the other side at the folding portion of the holding member as an adjustment means in the vertical direction. A panel mounting structure characterized in that it is formed and adjusted, and the upper end of the panel is pressed and fastened by a holding member.

Images