JP7402650B2 - panel loading rack - Google Patents

Description

The present invention relates to a panel loading rack, and more particularly to a panel loading rack capable of transporting architectural panels horizontally loaded therein.

Loading racks capable of loading architectural panels and construction members manufactured in factories have been known for transporting these construction panels and construction members (for example, Patent Document 1 , 2).
To explain the specific loading and transportation method, architectural panels (for example, exterior wall panels and eaves panels) taken out from a factory's production line are stored in a factory while being loaded horizontally on a loading rack. Thereafter, they are loaded horizontally onto a loading rack and loaded onto a transport vehicle such as a truck, and transported to a construction site.
The transported construction panels are unloaded together with a loading rack by a tow truck or the like installed at the construction site and stored at the construction site. Then, they are lifted up one by one by a crane or the like installed at the construction site and attached to a predetermined part of the building body.

JP2016-89567A Japanese Patent Application Publication No. 2018-104041

By the way, when loading racks such as those disclosed in Patent Documents 1 and 2 are used, as mentioned above, loading and transporting work from the factory to the construction site becomes easier, and loading and transporting construction panels becomes more efficient. As demand for construction panels increases, there is a need for a loading rack that can stably load and transport architectural panels.
In addition, it is possible to combine and load various architectural panels and construction materials of different lengths and widths with vertical spacing, and to transport these construction panels and construction materials stably. A possible loading rack was needed.
In particular, when loading and transporting eaves panels, etc., which have finishing panels fixed to the top, front, and both sides of rectangular panel frames among various architectural panels, damage to the finishing panels, etc. There was a need to prevent this.
Furthermore, there is a need for a panel loading rack that can stably perform lifting operations in addition to loading and transporting construction panels.

The present invention has been made in view of the above problems, and an object of the present invention is to improve the efficiency of loading and transporting construction panels, and to stably load and transport the construction panels. Our goal is to provide a panel loading rack that is possible.
Another object of the present invention is to provide a panel loading rack capable of loading a plurality of various construction panels and construction members in combination.
Another object of the present invention is to provide a panel loading rack capable of stably carrying out lifting operations in addition to loading and transporting construction panels.

The above-mentioned problem can be solved by the panel loading rack of the present invention, which is a panel loading rack capable of transporting architectural panels horizontally loaded therein, and which is capable of transporting architectural panels at a predetermined interval in order to support the architectural panels from below. A pair of panel receiving members provided at a distance from each other, and a pair of connecting members provided at an interval so as to sandwich the architectural panel and connecting the pair of panel receiving members, the panel receiving member comprising: A pair of support columns are provided at intervals so as to sandwich the construction panel and extend in the vertical direction, and the support support section extends to connect the pair of support columns, and the construction panel is placed on the upper surface. a panel receiving part for the panel receiving part; are removably provided to each other at intervals that allow the architectural panels to be accommodated horizontally when stacked in the vertical direction, and the pillar part has an engaging convex part formed at one end in the vertical direction; , an engagement hole portion formed at the other end in the vertical direction and removably engages with the engagement convex portion when a plurality of the panel stacking racks are stacked in the vertical direction, The panel support member is configured by stacking a plurality of panel support members in the vertical direction, and further includes an auxiliary panel support member that is provided between the pair of panel support members and supports the architectural panel from below, and the top end of the connection member This is solved by forming an auxiliary engaging portion for removably engaging the auxiliary panel receiving member in the vertical direction .

With the above configuration, it is possible to realize a panel loading rack that can improve the efficiency of loading and transporting construction panels and stably loading and transporting construction panels.
Specifically, since the pair of connecting members are disposed above the panel receiving portion and are provided to sandwich the architectural panel, the architectural panel can be stably loaded and transported.
Further, with the above configuration, it is possible to realize a panel loading rack capable of loading a plurality of architectural panels at intervals in the vertical direction.
Further, as described above, since the panel loading rack is provided with the auxiliary panel receiving member, it is possible to load and transport a plurality of various building panels and construction members in combination.
In addition, as mentioned above, the auxiliary engagement part for engaging the auxiliary panel receiving member is formed at the upper end of the connecting member, making it easier to assemble panel loading racks and load construction panels. It can be made more efficient.

At this time , the connecting member is removably attached to the pair of panel receiving members in the vertical direction, the auxiliary panel receiving member has the same shape as the panel receiving member, and the panel loading rack includes: The auxiliary connecting member connects the panel receiving member and the auxiliary panel receiving member, which are arranged at the same height position and adjacent to each other , and the auxiliary connecting member connects the panel receiving member and the auxiliary panel receiving member. It is preferable that it is detachably attached to the panel receiving member in the vertical direction .
With the above configuration, the panel receiving member and the auxiliary panel receiving member can be used in common, so that the manufacturing cost of the panel loading rack can be suppressed. In addition, the work of assembling panel loading racks and loading construction panels becomes even more efficient.
Further, as described above, since the panel loading rack further includes the auxiliary connecting member, the construction panels can be more stably loaded and transported.

At this time, the engagement protrusion is formed at the upper end of the support column, the engagement hole is formed at the lower end of the support column, and the auxiliary engagement part is formed at the engagement protrusion. An auxiliary engagement protrusion having substantially the same shape, the auxiliary panel receiving member can be attached and removed in the vertical direction at a position corresponding to the auxiliary engagement protrusion in the vertical direction of the lower end of the connecting member. It is preferable that an auxiliary engagement hole is formed to engage with.
With the above configuration, the assembly rigidity of the auxiliary panel receiving member can be increased. Therefore, various building panels and construction members can be more stably loaded and transported.

At this time, the connecting attachment portions are provided in a pair so as to protrude from the main body portion of the support portion in opposite directions, and are connected to a bottom wall portion that supports the longitudinal end portion of the connecting member from below. , a first side wall portion and a second side wall portion each continuously protruding upward from both ends in the width direction of the bottom wall portion and are provided to sandwich the end portion of the connecting member. good.
With the above configuration, the assembly rigidity of the connecting member can be increased.
Further, with the above configuration, the total length of the panel loading rack can be adjusted, for example, in accordance with the total length of the construction panel or construction member.

At this time, a panel fixing part is provided on the upper surface of the panel receiving part for fixing the building panel in a state in which it is placed, and a lifting device is provided in the upper part of the support part. A rack lifting part for lifting the panel loading rack is provided, and the rack lifting part is preferably arranged at a position above the panel fixing part.
With the above configuration, it is possible to efficiently lift construction panels, such as eave panels, which are stacked horizontally and lifted horizontally toward a predetermined portion of the building body.
Specifically, the lifting device does not directly lift the building panels, but rather lifts the panel loading rack loaded with the building panels, so the building panels can be lifted efficiently and stably.

According to the panel loading rack of the present invention, it is possible to improve the efficiency of loading and transporting construction panels, and to stably load and transport the construction panels.
In addition, a plurality of various construction panels and construction members can be combined and stacked.
Furthermore, in addition to loading and transporting construction panels, lifting operations can be performed stably.

FIG. 2 is a perspective view showing the panel loading rack of the present embodiment, showing a state in which construction panels are loaded. FIG. 3 is a diagram showing a state in which the construction panel is lifted together with a part of the panel loading rack. It is a perspective view showing a construction panel (eave panel). FIG. 3 is a perspective view of the construction panel seen from another angle. It is a figure explaining the work of installing a construction panel in a predetermined part of a building main body. FIG. 3 is an exploded perspective view showing panel receiving members stacked in the vertical direction. It is a perspective view showing a panel receiving member and a connecting member. It is a perspective view showing an auxiliary panel receiving member and an auxiliary connecting member. It is a perspective view showing the panel loading rack of a 2nd embodiment. It is a perspective view which shows the panel loading rack of 3rd Embodiment. It is a perspective view showing a panel loading rack of a 4th embodiment.

Embodiments according to the present invention will be described below with reference to FIGS. 1 to 8C.
This embodiment is a panel loading rack that can be transported with architectural panels loaded horizontally, and includes a pair of panel receiving members provided at a predetermined interval to support the architectural panels from below. , a pair of connecting members are provided at intervals so as to sandwich the architectural panel, and a pair of connecting members connect the pair of panel receiving members, and the panel receiving members are provided at intervals so as to sandwich the architectural panel. The connecting member has a pair of support pillars extending in the vertical direction, and a panel receiving part extending to connect the pair of support pillars and for placing a construction panel on the top surface. relates to an invention characterized in that it is attached to a tether attachment part provided on a side portion of a support column and is disposed at a position above a panel receiving part.

As shown in FIG. 1, the panel loading rack 1 of this embodiment is a rack capable of transporting and storing a plurality of construction panels 2 loaded therein. It is used to store the architectural panels 2 loaded horizontally or to transport them horizontally loaded from the factory to the construction site.
In addition, as shown in FIG. 2, the panel loading rack 1 is used to lift the loaded construction panels 2 toward a predetermined part of the building body, and the panel loading rack 1 is used to lift the stacked construction panels 2 toward a predetermined part of the building body, and to place the construction panels 2 horizontally on the predetermined part. It is used when installing from above and below.

As shown in FIGS. 3A and 3B, the architectural panel 2 is a rectangular plate-shaped panel member that constitutes a building, and is specifically an eaves panel, and includes a rectangular plate-shaped panel frame 2a and a panel. The frame 2a is mainly composed of finishing surface materials 2b fixed to the upper surface, front surface, and both side surfaces of the frame 2a, respectively.
Fixing holes 2c and 2d for fixing to the panel loading rack 1 are formed at both ends of the panel frame 2a in the frontage direction on the bottom surface of the panel frame 2a, respectively.
In addition, a portion between the fixing hole 2c and the fixing hole 2d on the bottom surface of the panel frame 2a is provided with a hole for fitting into a predetermined part of the building body B (specifically, the arm B1) shown in FIG. 4 from above and below. A plurality of notch grooves 2e are formed at intervals.
Note that the architectural panel 2 is not particularly limited to an "eaves panel", and may be a single-sided finished panel such as an "external wall panel" or a "roof panel", or a double-sided finished panel such as a "wall panel". Various architectural panels can be used.

As shown in FIG. 1, the panel loading rack 1 includes a pair of panel receiving members 10 provided at a predetermined interval to support the architectural panel 2 from below, and a pair of panel receiving members 10 spaced apart from each other so as to sandwich the architectural panel 2. a pair of connecting members 20 which are arranged with a space between them and connect the pair of panel receiving members 10; and an auxiliary panel receiving member 30 which is arranged between the pair of panel receiving members 10 and erected on the upper surface of the connecting members 20. It is mainly composed of an auxiliary connecting member 40 that connects the panel receiving member 10 and the auxiliary panel receiving member 30, which are arranged at the same height position and adjacent to each other.
In the panel loading rack 1 of this embodiment, a pair of panel receiving members 10 are vertically stacked in three stages. "Long architectural panels" are loaded on the first tier of the panel loading rack 1, "medium sized architectural panels" and "short architectural panels" are loaded side by side on the second tier, and 3 ``Long architectural panels'' are loaded on each tier.

As shown in FIGS. 1 and 5, the panel receiving member 10 is a receiving member for the construction panel 2, and is a substantially H-shaped elongated body made of a square pipe made of a metal material. In addition to functioning as a base for the construction panel 1, it also functions as a member for removably fixing the architectural panel 2.
Two panel receiving members 10 are provided with an interval between them in order to support both ends of the building panel 2 in the frontage direction from below.
Further, the panel receiving members 10 can be stacked in the vertical direction at intervals sufficient to accommodate the architectural panels 2, and are configured to be removable from each other.

The panel receiving member 10 is provided at intervals so as to sandwich the architectural panel 2, and extends so as to connect a pair of pillar parts 11 extending in the vertical direction, and extends so as to connect the pair of pillar parts 11. 2, and a panel receiving section 12 for placing the panel 2 on the top surface.
Note that a plurality of elastic bodies (elastic rubber materials) (not shown) may be attached at intervals on the upper surface of the panel receiving portion 12 in order to suppress damage to the horizontally stacked architectural panels 2.

As shown in FIG. 5, the support portions 11 are portions that become supports for the panel loading rack 1 as a whole when a plurality of panel receiving members 10 are stacked in the vertical direction, and are arranged at the four corners of the panel loading rack 1. ing.
The support portion 11 includes a main body portion 11a having a rectangular cross section that is elongated in the vertical direction, an engaging convex portion 11b having a U-shaped cross section that is formed at the upper end of the main body portion 11a and protrudes upward, and a main body. It has an engagement hole 11c that is formed at the lower end of the portion 11a and removably engages with the engagement convex portion 11b when a plurality of them are stacked in the vertical direction.
Further, the support portions 11 are provided in a pair so as to protrude from the outer surface of the main body portion 11a in opposite directions, and have a connecting attachment portion 11d for attaching the connecting member 20, and a connecting convex portion 11b formed on the outer surface of the supporting portion 11. It has a rack lifting hole 11e for lifting the panel loading rack 1 by a lifting device, and an attachment hole 11f formed on the outer surface of the main body part 11a and for attaching the connecting bar member 350 shown in FIG. 8C, for example. There is.

As shown in FIGS. 5 and 6, the connecting attachment portion 11d has a U-shaped longitudinal section, and includes a bottom wall portion 11da that supports the longitudinal end of the connecting member 20 from below, and a bottom wall portion 11da that supports the longitudinal end of the connecting member 20 from below. It has a first side wall part 11db and a second side wall part 11dc that continuously protrude upward from both ends in the width direction and are provided so as to sandwich the ends of the connecting member 20.
Therefore, the tether attachment portion 11d can hold the tether member 20 from both sides and from below, as shown in FIG.

The rack lifting holes 11e are through holes for attaching the ends of the wires L2 hooked to the lifting device L (lifting hook L1) shown in FIG. 2, and are arranged at the four corners of the panel loading rack.
In this embodiment, as shown in FIG. 2, two long sling wires are used to horizontally suspend the panel loading rack 1.

As shown in FIG. 5, the panel receiving part 12 is a long body with a rectangular cross section, and is a part that supports the end of the building panel 2 in the frontage direction from below, and is a part of the panel loading rack 1. They are arranged at both ends in the longitudinal direction.
A plurality of panel fixing holes 12a for fixing the architectural panel 2 in a horizontally placed state are formed on the upper surface of the panel receiving part 12 at intervals.
In the above configuration, when fixing the construction panel 2 to the panel loading rack 1, the panel fixing hole 12a and the fixing holes 2c and 2d on the bottom of the construction panel 2 are vertically communicated with each other. It can be fastened with fixing bolts.

As shown in FIG. 6, the connecting member 20 is a member that connects the pair of panel receiving members 10, and is made of a long body made of a square pipe or the like made of a metal material, and provides rigidity to the panel loading rack 1. In addition to the function of holding the architectural panel 2 between them, it also functions as a member that holds the architectural panel 2 between them.
A plurality of auxiliary engagement protrusions 21 are formed at the upper end of the connecting member 20 at intervals for vertically removably engaging the lower end of the auxiliary panel receiving member 30.
Further, at a position corresponding to the auxiliary engagement protrusion 21 in the vertical direction of the lower end of the connecting member 20, an auxiliary engagement is provided for removably engaging the upper end of the auxiliary panel receiving member 30 in the vertical direction. A hole 22 is formed.
The auxiliary engagement protrusion 21 has substantially the same shape as the engagement protrusion 11b, and the auxiliary engagement hole 22 has substantially the same shape as the engagement hole 11c.

As shown in FIGS. 1 and 7, the auxiliary panel receiving member 30 has the same shape as the panel receiving member 10, and is erected on the upper surface of the connecting member 20.
The auxiliary panel receiving member 30 is mainly composed of a pair of support sections 31 that are spaced apart from each other so as to sandwich the architectural panel 2 therebetween, and a panel support section 32 that connects the pair of support sections 31. .
Naturally, the support column 31 has the same shape as the support column 11, and the panel receiver 32 has the same shape as the panel receiver 12.

As shown in FIGS. 1 and 7, the auxiliary connecting member 40 is a member that connects the panel receiving member 10 and the auxiliary panel receiving member 30, and includes a short auxiliary connecting member 40A and a long auxiliary connecting member 40B. There are two types.
As shown in FIG. 1, a plurality of auxiliary engagement protrusions 41 are formed at the upper end of the auxiliary connecting member 40B at intervals. Further, an auxiliary engagement hole 42 is formed in the lower end of the auxiliary connecting member 40B at a position corresponding to the auxiliary engagement protrusion 41 in the vertical direction.
Naturally, the auxiliary engagement protrusion 41 has the same shape as the auxiliary engagement protrusion 11b, and the auxiliary engagement hole 42 has the same shape as the engagement hole 11c.

In the panel loading rack 1 of this embodiment, two auxiliary panel receiving members 30 are arranged at the second stage of the panel loading rack 1, as shown in FIG.
Further, one auxiliary connecting member 40A and one auxiliary connecting member 40B are arranged in the second stage of the panel loading rack 1.

In the above configuration, as shown in FIGS. 1 and 6, the connecting member 20 is arranged at a position above the panel receiving part 12 in the height direction of the panel loading rack 1, and sandwiches the architectural panel 2. It is set up like this.
Therefore, the construction panels 2 can be stably loaded and transported.
Moreover, as shown in FIG. 4, the panel loading rack 1 is used when lifting the stacked building panels 2 toward the building body B, and can stably lift the building panels 2.
In addition, the panel loading rack 1 is used when installing a lifted architectural panel 2 (eave panel) on a predetermined part of the building body B (branch B1) from above and below in a horizontal state. Interference between the arm B1 of the building body B in the vertical direction can be avoided, and the architectural panel 2 can be stably installed.

Further, in the above configuration, as shown in FIGS. 1 and 5, the panel loading rack 1 includes a rack lifting hole 11e and a panel fixing hole 12a.
Therefore, the construction panel 2 is not directly lifted by the lifting device L shown in FIG. 2, but the panel loading rack 1 loaded with the construction panels 2 is lifted, so that the construction panel 2 can be lifted efficiently and stably. Can be done.
Further, in the above configuration, the rack lifting hole 11e is arranged above the panel fixing hole 12a, and further outside the panel fixing hole 12a in the short direction of the panel loading rack 1.
Therefore, the panel loading rack 1 has a shape that is stable and easy to lift. As a result, it is possible to perform stably and efficiently the work of lifting architectural panels 2, such as eave panels, which are horizontally stacked and hoisted horizontally towards a predetermined portion of the building body.

<Other embodiments of panel loading rack>
Next, second, third, and fourth embodiments of the panel loading rack will be described based on FIGS. 8A to 8C.
Note that descriptions of the same contents as those of the panel loading rack 1 described above will be omitted.

As shown in FIG. 8A, the panel loading rack 101 of the second embodiment includes a pair of panel receiving members 110 and a pair of connecting members 120 that connect the panel receiving members 110. 101 is loaded with one "medium-sized architectural panel."
Furthermore, as shown in FIG. 8B, the panel loading rack 201 of the third embodiment is configured from a pair of panel receiving members 210 and a pair of connecting members 220 that connect the panel receiving members 210 to each other, and the panel On the loading rack 201, one "short construction panel" is loaded.
As described above, the panel loading rack may be realized with a simple configuration.

As shown in FIG. 8C, the panel loading rack 301 of the fourth embodiment includes a pair of panel receiving members 310, a pair of connecting members 320 that connect the panel receiving members 310, and an upper surface of the connecting members 320. In addition to comprising a pair of auxiliary panel receiving members 330 and an auxiliary connecting member 340 that connects the auxiliary panel receiving members 330 to each other, the panel further includes a pair of connecting bar members 350 that connects the panel receiving members 310 to each other. ing.
The connecting bar member 350 is made of a rectangular plate-like elongated body, and functions as a connecting member that provides rigidity to the panel loading rack 1. In addition, when the panel loading rack 301 is lifted and transported by a forklift or the like, It also functions as an abutting member that abuts the fork portion (claw portion).
The connecting bar member 350 is disposed at a lower position than the connecting member 320, and is fixed to a mounting hole 311f provided in the support column 311 using a fixing bolt (not shown).

In the above configuration, the connecting bar member 350 is arranged at approximately the same height position as the panel receiving part 312 in the height direction of the panel loading rack 1, and is arranged at a slightly lower position than the construction panel 2.
Then, when the panel loading rack 301 loaded with the building panels 2 is lifted and transported by a forklift or the like, it is possible to avoid the forklift (fork part) from coming into contact with the bottom surface of the building panels 2.
Therefore, when the architectural panel 2 is, for example, a double-sided finished panel instead of a single-sided finished eave panel, damage to the finished surface material can be suppressed.
In addition, in the case of a single-sided finished eave panel, even if a forklift (fork part) comes into contact with the bottom surface of the eave panel, the finished surface material will not be damaged, so there is no particular effect.

In addition, in the above configuration, as shown in FIG. 4, the panel loading rack 301 is lifted together with the building panel 2, and the lifted building panel 2 (eave panel) is placed horizontally at a predetermined part (branch B1) of the building body B. Used when installing from above and below.
At this time, if the connecting bar member 350 is left attached to the panel loading rack 1, the connecting bar member 350 and the arm B1 will interfere with each other.
Therefore, before installing the construction panel 2 on the building body B, specifically, before lifting the panel loading rack 301, it is preferable to remove the connecting bar member 350 in advance.
This will result in a panel loading rack that can efficiently carry out a series of operations from loading and transporting construction panels 2 to lifting and installing them.

<Other embodiments>
In the above embodiment, as shown in FIG. 5, the engagement convex portion 11b of the panel receiving member 10 is formed at the upper end of the column 11, and the engagement hole 11c is formed at the lower end of the column 11. However, it is not particularly limited and can be changed, and the configurations may be reversed.
That is, the engagement hole 11c may be formed at the upper end of the column 11, and the engagement protrusion 11b may be formed at the lower end of the column 11.
In addition, there is no particular limitation to the engagement relationship between the convex portion and the hole portion. That is, the strut part 11 has a first engaging part formed at its upper end, and a second engaging part formed at its lower end, which removably engages with the first engaging part when stacked in the vertical direction. It may have a joint part.

In the above embodiment, as shown in FIGS. 1 and 7, the auxiliary panel receiving member 30 has the same shape as the panel receiving member 10, and although the components are made common, they do not necessarily have the same shape. You don't have to.
For example, the auxiliary panel receiving member 30 may have a simpler shape than the panel receiving member 10 to make the assembly work easier, or may have a wider shape than the panel receiving member 10 and may be used for construction panels. The retention of 2 may be improved.

In the above embodiment, the panel loading rack according to the present invention has been mainly described.
However, the embodiments described above are merely examples for facilitating understanding of the present invention, and do not limit the present invention. The present invention may be modified and improved without departing from its spirit, and it goes without saying that the present invention includes equivalents thereof.
In particular, the shapes, arrangements, and combinations of the panel receiving member (auxiliary panel receiving member) and the connecting member (auxiliary connecting member) described in the above embodiment are merely examples and do not limit the present invention. do not have.

1,101,201,301 Panel loading rack 2 Architectural panel 2a Panel frame 2b Finished surface material 2c, 2d Fixing hole (fixed part)
2e Notch groove 10, 110, 210, 310 Panel receiving member 11, 311 Support column 11a Main body 11b Engagement protrusion 11c Engagement hole 11d Connecting attachment part 11da Bottom wall 11db First side wall 11dc Second side wall 11e Rack lifting hole (rack lifting part)
11f, 311f Mounting holes 12, 312 Panel receiving part 12a Panel fixing hole (panel fixing part)
20, 120, 220, 320 Connecting member 21 Auxiliary engagement convex portion 22 Auxiliary engagement hole portion 30, 330 Auxiliary panel receiving member 31 Support portion 32 Panel receiving portion 40 (40A, 40B), 340 Auxiliary connecting member 41 Auxiliary engagement Convex part (auxiliary engagement part)
42 Auxiliary engagement hole portion 350 Connection bar member B Building body B1 Arm bar L Lifting device L1 Lifting hook L2 Wire

Claims (5)

A panel loading rack capable of transporting architectural panels loaded horizontally,
a pair of panel receiving members provided at a predetermined interval to support the architectural panel from below;
a pair of connecting members that are provided at intervals so as to sandwich the architectural panel and connect the pair of panel receiving members;
The panel receiving member is provided with a pair of supporting columns that are spaced apart from each other so as to sandwich the architectural panel and extend in the vertical direction, and extends so as to connect the pair of supporting columns. a panel receiver for placing the on the top surface;
The connecting member is attached to a connecting attachment part provided on a side portion of the support column, and is located above the panel receiving part ,
The panel receiving members are removably provided to each other at intervals that can accommodate the architectural panels horizontally when stacked in a plurality in the vertical direction,
The strut portion has an engaging protrusion formed at one end in the vertical direction, and is formed at the other end in the vertical direction, and removably engages with the engaging protrusion when stacked in plural in the vertical direction. an engagement hole;
The panel loading rack is
configured by stacking a plurality of the pair of panel receiving members in the vertical direction,
further comprising an auxiliary panel receiving member provided between the pair of panel receiving members for supporting the architectural panel from below,
The panel loading rack is characterized in that an auxiliary engaging portion is formed at an upper end portion of the connecting member for vertically removably engaging the auxiliary panel receiving member . The connecting member is removably attached to the pair of panel receiving members in the vertical direction,
The auxiliary panel receiving member has the same shape as the panel receiving member,
The panel loading rack further includes an auxiliary connecting member that connects the panel receiving member and the auxiliary panel receiving member that are arranged at the same height position and adjacent to each other ,
The panel loading rack according to claim 1 , wherein the auxiliary connecting member is removably attached to the panel receiving member and the auxiliary panel receiving member in the vertical direction . The engagement protrusion is formed at the upper end of the support column,
The engagement hole is formed at a lower end of the support column,
The auxiliary engagement portion is an auxiliary engagement convex portion having substantially the same shape as the engagement convex portion,
An auxiliary engagement hole that removably engages the auxiliary panel receiving member in the vertical direction is formed in a lower end portion of the connecting member at a position corresponding to the auxiliary engagement convex portion in the vertical direction. The panel loading rack according to claim 2 , characterized in that: The tether attachment part is
are provided in a pair so as to protrude from the main body portion of the support portion to mutually opposite sides,
A bottom wall portion that supports the lengthwise end of the connecting member from below; and a bottom wall portion that continuously protrudes upward from both widthwise ends of the bottom wall portion and is provided to sandwich the end portion of the connecting member. 4. The panel loading rack according to claim 1, further comprising a first side wall portion and a second side wall portion. A panel fixing part for fixing the architectural panel in a state where the architectural panel is placed is provided on the upper surface of the panel receiving part,
A rack lifting part for lifting the panel loading rack by a lifting device is provided in an upper part of the support column,
The panel loading rack according to any one of claims 1 to 4 , wherein the rack lifting part is arranged above the panel fixing part.

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