JP3610500B2 - Architectural panel - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a building panel, and more particularly to a building panel in which an electric wire such as an F cable or a television cable is housed inside a building panel used for constructing a house.
[0002]
[Prior art]
Conventionally, buildings have been constructed using architectural panels.
On the other hand, in buildings, wires such as F cables, TV cables, telephone wires, and weak current wires have to be wired inside the building. The wiring is pre-installed in the building panel at the factory in advance, for example, by making a hole in the building panel assembled at the site, pushing the electric wire through the hole, and passing through the inside of the attic and the building panel and the back side It extended to the outlet and switch position and was taken into the room of the building.
[0003]
[Problems to be solved by the invention]
However, according to the conventional technology, after a building structure is made using a building panel or the like, it has been necessary to wire the wire while processing the building panel or avoiding the building panel. . There are dozens or more types of wiring patterns depending on combinations of switches, outlets, TV terminals, and the like, which are complicated and troublesome.
In addition, this work is complicated and is an on-site work, so that the efficiency is reduced, and the worker requires skill for wiring to an invisible place directly inside the building panel.
[0004]
Moreover, although the electric wire and the building panel were always assembled on site, their transportation was carried out separately.
The problem to be solved by the present invention is to provide a building panel that can reduce the work on site of wiring of electric wires.
[0005]
In other words,According to the first aspect of the present invention, the wires are preliminarily stored in the building panel in the form of wires and bundles, and the work of wiring in the field can be omitted and bundled.By using a partition plate with reduced frictional resistance between the wires,An object of the present invention is to provide a building panel that can smoothly pull a bundled electric wire from the inside of the building panel to the outside, and can be easily operated on site.
[0006]
[0007]
[0008]
[0009]
[0010]
[0011]
[Means for Solving the Problems]
The present invention is for achieving the above-described object.
Of this applicationThe invention described in claim 1 includes a frame member (11) forming a square frame and a face member (14) fixed to the front and back surfaces of the frame member (11), and an electric wire (20 ) And a wire (20) that is bundled so that it can be pulled out of the panel at the assembly site, and is within the frame of the frame material (11). A bundled wire (20),The bundled wires (20) This bundled wire that can be touched (20) And its wires (20) Bundled wires that divide between surrounding members that contact (20) When pulling out this bundled wire (20) Bundled wires with reduced frictional resistance (20) Partition plate for easy drawing (40) And its partition plate (40) Is the bundled wire (20) Wrap around the wire (20) Panels for building in a bundle (Ten) Hold it so that it can be pulled outThe face material (14) is provided with an electric wire extraction hole (14A) as a through hole for continuing the bundled electric wires (20) to the outside of the building panel (10). To do.
Here, storing in a bundle does not mean that it is difficult to bundle them together, but means that they are folded and stored alternately at a predetermined length. Here, the external shape of the wire outlet hole (14A) is not particularly limited, and may be a circle, an ellipse, a cloud, a polygon such as a triangle, a rectangle, or any other shape.
[0012]
[0013]
[0014]
[0015]
[0016]
[0017]
[0018]
[Action]
Of this applicationAccording to the first aspect of the present invention, the electric wire (20) is housed in the building panel (10) in a wiring and bundled form, so that the electric wire (20) is integrated with the building panel (10). Can be For this reason, it is not necessary to transport the electric wire (20) and the building panel (10) separately during transportation.If the building is constructed using the building panel (10), the building panel (10) Wiring to be performed along the line ends.
[0019]
And partition plate (40) Is a bundled wire (20) This bundled electric wire is wrapped around (20) Is held in contact. For this reason, the panel for construction (Ten) Wire bundled from inside (20) The construction panel (Ten) Bundled wires when pulling outside (20) Is a partition plate (40) Bundled wires that can move along the surface of (20) The frictional resistance applied to is reduced. Therefore, the electric wire (20) Can be pulled out smoothly with a small pulling force.As a result, the drawing work of the bundled electric wires (20) housed in the building panel (10) is facilitated, and the field work at the assembly site can be facilitated.
[0020]
[0021]
[0022]
[0023]
[0024]
[0025]
[0026]
[0027]
[0028]
[0029]
[0030]
【Example】
Less than,The present inventionFurther details will be described based on the drawings.
The drawings used here are FIGS. FIG.According to the present inventionArchitectural panelTo explain the principle ofAssembling perspective view, FIG. 2 is an external perspective view of the wire outlet hole, and FIG. 3 is the present invention.Building panelsA perspective view of the wiring usedShown in each.
[0031]
First,Outline of the building panel according to the present inventionThe configuration will be described. The following configurations are all configured at the factory where the panels are manufactured.
That is, the present inventionThis is achieved in a building panel including a frame member 11 having a vertically long rectangular frame shape and a face member 14 fixed to the front and back surfaces of the frame member 11. The interior of the frame 11 of the building panel 10 includes a vertical core 12 in the vertical direction and two horizontal cores 13 and 13 in the horizontal direction, and is divided into six sections as a whole. A face material 14 is fixed to the front and back surfaces formed by the frame material 11. Of course, the applicable shape of the building panel 10 is not limited to the building panel 10 described above, and the number of the vertical core members 12 and the horizontal core members 13 may be any number other than those described above. The number of sections divided by the core material may be any number other than those described above.
[0032]
Electric wires 20 are accommodated in the frame of the frame member 11 of the building panel 10. Here, the electric wire 20 is a concept including an F cable, a television cable, a telephone pipe, a weak current electric wire, a sensor wire, and the like. As shown in FIG. 1, the electric wire 20 to be stored is stored in a shape along one vertical frame member in the building panel 10, and most of the electric wires 20 to be stored are the frame member 11 and the vertical core. In a section surrounded by the material 12 and the horizontal core material 13, they are alternately folded back and stored in a predetermined length. Further, as shown in FIG. 1, the electric wire 20 is stored so that the longitudinal direction of the bundled electric wires 20 is substantially parallel to the long side direction of the frame member 11.
[0033]
And in the place near facet 11A in face material 14 in the section, as shown in FIGS. It has. As shown in FIGS. 1 and 2, the wire outlet hole 14 </ b> A has a triangular inner peripheral shape and is formed so that the bottom side thereof is parallel to the short side of the frame member 11. Although not shown in the figure, a lid that covers the wire extraction hole 14A is prepared for the wire extraction hole 14A. When shipping from the factory, the lid is fixed and bundled at the site. When the electric wire 20 is taken out from the building panel 10, it is removed. After the bundled electric wires 20 are removed from the building panel 10, the lid is adhered to the electric wire extraction holes 14A and fixed again.
[0034]
On the other hand, an outlet 21 is provided near the small facet 11A located on the opposite side of the electric wire extraction hole 14A, and the electric wire 20 serving as the wiring is stored so as to be connected to the outlet 21. That is, the electric wire 20 is disposed across the two horizontal core members 13 and 13, and the horizontal core members 13 and 13 are provided with electric wire through grooves 13A and 13A each having a rectangular opening. Yes. The wire through-groove 13A is opened to a large size so as to pass even a thick wire 20, for example, an F cable.
[0035]
Building panel 10In the example shown in FIG.It is placed so as to be in contact with the bundled electric wires 20, and is laid down so as to be in contact with the sliding sheet 16 for improving slipping when the bundled electric wires 20 are pulled out. And a heat insulating material 15 made of glass wool or the like. The other face material (not shown) is fixed to the frame material 11.
[0036]
here,The sliding sheet 16 is made of polyethylene sheet, cardboard or corrugated paper,In the example shown in FIG.The shape is a square shape corresponding to the section divided by the vertical core member 12 and the horizontal core member 13, and one piece for each section,Indicates the case of insertion.Further, as shown in FIG. 1, the sliding sheet 16 is disposed so as to be sandwiched between the bundled electric wires 20 and the heat insulating material 15.
[0037]
As shown in FIG. 1, the heat insulating material 15 is substantially the same shape as the sliding sheet 16, and is formed in a square shape corresponding to the section divided by the vertical core material 12 and the horizontal core material 13. Has been. When glass wool is used as the heat insulating material 15, sound insulation can be achieved in addition to the heat insulating effect.
Next,According to the configuration described aboveThe operation and effect of the building panel will be described.
[0038]
That is, the aboveAs shown in FIG. 1, the building panel 10 stores the electric wires 20 in a bundle and a bundle, so that the electric wires 20 can be integrated with the building panel 10. For this reason, it is not necessary to transport the electric wire 20 and the building panel 10 separately during transportation. If the building is constructed using the building panel 10, wiring to be performed along the building panel 10 is completed. Will be.
[0039]
Further, as shown in FIG. 1, a sliding sheet 16 positioned in parallel with the face material 14 is disposed between the bundled electric wires 20 and the heat insulating material 15 so as to be in contact with the electric wires 20. ing. That is, the heat insulating material 15 and the bundled electric wires 20 facing the heat insulating material 15 are not in contact with each other. For this reason, when the bundled wires 20 are pulled out of the building panel 10 from the inside of the building panel 10 through the wire extraction holes 14A, the bundled wires 20 are insulated from the heat insulating material 15. It can move along the surface of the sliding sheet 16 without being entangled. In addition, since the surface of the sliding sheet 16 is formed so as to have a small frictional resistance, even if the surface of the bundled electric wire 20 and the surface of the sliding sheet 16 come into contact with each other, the sliding force can be reduced smoothly with a small pulling force. Can be pulled out.
[0040]
further,aboveAccording to the building panel 10, the bundled electric wires 20 are arranged so that the longitudinal direction thereof is substantially parallel to the long side direction of the frame member 11. For this reason, after assembling the building panel 10 on-site, when the bundled wires 20 are pulled in the long side direction of the frame member 11 from the wire takeout holes 14A, the bundled wires 20 are The direction in which the wire 10 is pulled outside and the direction in which the bundled electric wires 20 move inside the building panel 10 are substantially the same direction. As a result, when the bundled electric wires 20 are pulled out from the electric wire extraction hole 14A, they do not come into contact with the inner peripheral surface of the electric wire extraction hole 14A and the extraction operation does not become difficult.
In addition, as described above, when the longitudinal direction of the electric wires 20 is arranged so as to be substantially parallel to the long side direction of the frame member 11, the building panel 10 is arranged so that the long side direction is perpendicular to the floor. In the case of assembling, the bundled wires 20 are bundled in the divided sections of the frame material 11 rather than arranged so that the longitudinal direction of the bundled electric wires 20 is substantially perpendicular to the long side direction of the frame material 11. The electric wire 20 thus moved does not move downward and become biased.
Therefore, the bundled electric wires 20 are not biased in one direction in the compartments, causing entanglement and making it difficult to take out. Further, since the bundled electric wires 20 are alternately folded and stored at a predetermined length, the electric wires 20 are not twisted and are gradually pulled in order rather than being wound and stored. The electric wire 20 is not entangled inside the building panel 10. Therefore, the electric wire 20 can be drawn out smoothly from the inside of the building panel 10 through the electric wire extraction hole 14A, and the drawing operation of the electric wire 20 at the site can be facilitated.
[0041]
Also,aboveArchitectural panel 10ThenAs shown in FIG. 1, a heat insulating material 15 made of glass wool or the like is disposed between a sliding sheet 16 and a face material (not shown) facing the sliding sheet. The heat insulating material 15 blocks heat from moving in a direction substantially perpendicular to the face material 14. Thereby, the building panel 10 having an excellent heat insulating effect can be formed. In addition, when glass wool is used as the heat insulating material 15, it is possible to achieve sound insulation, and it is possible to form the building panel 10 having an excellent sound insulation effect in addition to the heat insulation effect.
[0042]
Further, when the building panel 10 is erected and the short side of the frame member 11 is fixed to the external anchor bolt 28 with the nut 27, a spanner 26 or the like is inserted into the frame member 11 from the wire outlet hole 14A. Turn the nut 27 to fix it. At that time, as shown in FIG. 2, the electric wire outlet hole 14 </ b> A is formed in a triangular shape, and the base of the triangle is formed in parallel to the short side of the frame member 11. Therefore, the spanner 26 and the like can be rotated along the bottom by setting the long bottom of the triangular shape of the wire outlet hole 14A. As a result, the spanner 26 and the like can be rotated at a large rotation angle, the tightening operation of the nut 27 can be facilitated, and the on-site assembly operation can be facilitated.
[0043]
Next, a case where specific wiring is performed will be described with reference to FIG.
First, as shown in FIG. 3, when the wall panel 10A of the building panel 10 has been erected, the lower edge of the roof panel 10B of the building panel 10 comes into contact with the upper edge of the wall panel 10A. The structure of the roof part of the building is formed. Here, the bundled electric wires 20 are pulled out from the electric wire extraction holes 14A of the building panel 10 in which the electric wires 20 are housed, and the stapling stops 23 are performed on the indoor side surface of the roof panel 10B, and these are performed at an appropriate place. The electric wire 20 is connected by the joint box 22.
[0044]
As shown in FIG. 3, an electric appliance 25 can be connected to the tip of the connected electric wire 20.
In the above example,An electric shutter is illustrated as the electric appliance 25. In addition, in the building panel 10, as shown in FIG. 3, the switch 24 of the electric appliance 25 can be provided at the same time.
As described above, according to the building panel 10 of the embodiment described with reference to FIGS. 1 and 2, it is possible to eliminate the labor of wiring in the field, and the building panel 10 having good workability in the field assembly. Can be provided.
[0045]
Finally,Example aboveThe variation of will be described.
In the above example,The sliding sheet 16 is arranged between each bundled electric wire 20 and the heat insulating material 15 so as to contact only one side of the bundled electric wire 20 for each section. Of course, the present invention is not limited to this, and two sliding sheets 16 may be arranged for each section so as to contact both surfaces of the bundled electric wires 20. In this case, both surfaces of the bundled electric wires 20 are not in contact with the surface material 14 around the electric wires 20, and are completely blocked. For this reason, when the electric wire 20 is pulled out of the building panel 10 from the inside of the building panel 10 through the electric wire extraction hole 14A, the surface of the electric wire 20 does not come into contact with the surrounding face material 14 and the like. Then, the sliding sheet 16 arranged on both surfaces of the bundled electric wires 20 moves along the surface where the frictional resistance is small. As a result, the bundled electric wires 20 housed in the building panel 10 can be pulled out smoothly with a smaller pulling force, and field work can be further facilitated.
[0046]
Also,In the above example,As shown in FIG. 1, the electric wire 20 is bundled only in the section where the electric wire extraction hole 14A is arranged among the sections divided by the vertical core member 12 and the horizontal core member 13 of the building panel 10. However, it is not particularly limited to this, and the electric wires 20 may be bundled in other sections. Thereby, the electric wire 20 having a longer length can be accommodated in one building panel 10.
[0047]
Also,In the above example,As described above, the face material 14 may be made of a normal material as the building panel 10, but the side facing the indoor side of the face material 14 of the building panel 10 according to the present embodiment is the panel. In a factory where production is performed, a fire-resistant plate material that forms an inner wall surface in advance may be used. Here, the refractory plate material is a plate material made of a refractory material, and the refractory material referred to here is mainly an inorganic material that has been recognized as refractory, such as asbestos cement, calcium silicate, magnesium carbonate, silica stone, and limestone. New ceramics used as raw materials.
If this building panel 10 is used to construct a building on the site, the application of the fireproof plate material is also completed at the same time. Thereby, the face material 14 can be omitted and the number of members can be reduced, and the work of attaching the refractory plate material can be omitted, thereby facilitating on-site work.
[0048]
further,In the above example,In the factory that manufactures the side facing the outdoor side of the face material 14 of the building panel 10, an outer wall finishing material that forms an outer wall surface in advance may be used. If this building panel 10 is used to construct a building at the site, the pasting of the outer wall finishing material will be completed at the same time. Accordingly, the face material 14 can be omitted to reduce the number of members, and the work of attaching the outer wall finishing material can be omitted, thereby facilitating on-site work.
[0049]
Furthermore,In the above example,Although only the electric wire 20 is accommodated in the building panel 10, the joint box 22, the stapling stopper 23, etc. may be accommodated if possible. As a result, the joint box 22, the staple stopper 23, and the like can be integrated with the building panel 10, and it is not necessary to transport them separately during transportation.
In addition, if the building is constructed using the building panel 10, the wiring to be performed along the building panel 10 is completed, and the installation of the joint box 22 and the like is also completed. It can be easy.
[0050]
Furthermore, the electric wires 20 housed in the building panel 10 are wired using F cables, etc., but depending on the types of outlets or switches connected to the F cables, multiple types of F cables of different colors are used. May be used simultaneously. Thereby, in the wiring work in the field, since the wiring work can be clearly confirmed by the color of the F cable, the erroneous wiring in the field can be prevented.
[0051]
Also,In the above example,The external shape of the wire extraction hole 14A is a triangle in consideration of workability when attaching the nut 27 to the anchor bolt 28, but the shape of the wire extraction hole 14A is not particularly limited to a triangle. When inserting an F cable or the like into a panel that is not fixed by the anchor bolt 28, a circular shape may be used, and a non-circular shape such as a polygon such as an ellipse, a cloud, or a rectangle, or an F cable, etc. Any possible shape may be used.
[0052]
Now, the building panel with the above configuration Ten In FIG. 4, the place characterizing the building panel according to the present invention is used.explain.
FIG.An embodiment of the building panel of the present inventionIndicating and building panelsExpand the main part ofIt is a partial top view to show.
This exampleThe building panel described in FIG. Ten WhenThe configuration is almost the same,The difference isInstead of the bundled electric wires 20 housed in the frame of the frame material 11 and the sliding sheet 16, the frame of the frame material 11 of the present embodiment has a bundle shape as shown in FIG. The present invention is characterized in that it accommodates an electric wire 20 made into a bundle and a partition plate 40 that wraps around the bundled electric wires 20.
Specifically, the partition plate 40 is a corrugated cardboard that is flexible and can contact the bundled electric wires 20 between the electric wires 20 and surrounding members that contact the electric wires 20. When partitioning and pulling out the electric wire 20, the frictional resistance applied to the electric wire 20 is reduced so that the bundled electric wires 20 can be easily pulled out. Further, the partition plate 40 is formed so as to be able to hold the wire 20 in a bundled state by wrapping around the bundled wire 20. Other configurations are:As described with reference to FIGS.The same components are denoted by the same component numbers, and the description thereof is omitted.
And according to such an Example structure, similarly to what was demonstrated with the principle explanatory drawing by FIG. 1 etc. which were mentioned above,Since the electric wire 20 is housed inside the building panel 10, the electric wire 20 can be integrated with the building panel 10. For this reason, it is not necessary to transport the electric wire 20 and the building panel 10 separately during transportation. If the building is constructed using the building panel 10, wiring to be performed along the building panel 10 is completed. Will be.
[0053]
And the partition plate 40 is a bundled electric wire 20By holding the wire around the wire 20Can be touched adjacent toWill be placed,When the electric wire 20 is pulled out of the building panel 10 from the inside of the building panel 10, the electric wire 20 can move along the surface of the partition plate 40, and the frictional resistance applied to the electric wire 20 is reduced. As a result, the drawing work of the electric wires 20 housed in the building panel 10 can be facilitated, and the field work at the assembly site can be facilitated.
[0054]
In the middle of the electric wire 20 housed in the building panel 10, it is fixed to the inner surface of the frame member 11 by a stapling stopper 23. This prevents the wires 20 that are bundled for a predetermined length or more from being pulled out, thereby preventing disconnection.
Next,In this exampleA jig for bundling the electric wires 20 and a method for bundling the electric wires 20 will be described.
[0055]
FIGS. 5 to 7 show the steps for making the wires into a bundle. FIG. 5 is a perspective view of the wire bundled jig not wrapped around the wires, and FIG. FIG. 7 shows a perspective view of a state in which an electric wire is wound around a bundling jig, and FIG. 7 shows a perspective view of a state in which the electric wire is wrapped around a wire bundling jig and wrapped with a partition plate.
First, the configuration of the wire bundling jig 30 will be described.
[0056]
The electric wire bundling jig 30 is used to store the electric wires 20 in the building panel 11 including a frame member 11 forming a square frame and a face member 14 fixed to the front and back surfaces of the frame member 11. The electric wires 20 are bundled with a partition plate 40 that partitions the bundled electric wires 20 and the surrounding members such as the heat insulating material 15 and the face material 14 that are in contact with the electric wires 20. Can be packaged.
Specifically, as shown in FIG. 5, the electric wire bundle forming jig 30 is arranged in two rows in a flat plate-like support portion 31 and at positions spaced apart by a larger distance than the width of the partition plate 40 in the support portion 31. And a plurality of protrusions 32 protruding from the support part 31.
[0057]
The support part 31 of the electric wire bundle forming jig 30 has a substantially rectangular shape as a whole, and a notch part 34 that is notched toward the center is formed near the center of one pair of pieces. This is because a fixing tool such as a stapler can be easily inserted into the center of the side edge of the folded partition plate 40, and when the partition plate 40 placed on the support portion 31 is lifted, It is formed so that a hand or the like can be easily inserted into the lower portions of both sides. The protrusions 32 of the wire bundling jig 30 are formed so that the wires 20 can be bundled by alternately winding the wires 20 between the rows. Further, the partition plate 40 is a corrugated cardboard having flexibility, and is formed so as to be wrapped by being folded so as to enclose the wound electric wire 20.
[0058]
Next, a method of packaging the electric wires 20 in a bundle using the electric wire bundle forming jig 30 will be described with reference to FIGS.
First, as shown in FIG. 5, the electric wire bundle forming jig 30 is horizontally placed on a floor or a work table. Next, as shown in FIG. 6, the partition plate 40 is placed between the rows of the protrusions 32 arranged in two rows. Since the interval between the rows of the protrusions 32 is set to be larger than the width of the partition plate 40, the partition plate 40 can be easily placed.
[0059]
Next, the electric wires 20 are alternately wound between the protrusions 32 of each row in a state where the partition plate 40 is placed between the rows of the protrusions 32. Thereby, the electric wires 20 can be bundled.
Next, as shown in FIG. 7, the partition plate 40 is folded so as to enclose the electric wire 20 in a state where the electric wire is wound between the protrusions 32. That is, it is folded so that the near side and the far side of the partition plate 40 in the state as shown in FIG. Then, although not shown in the drawing, they are fixed with staples so as not to be scattered at several places of the partition plates 40 that overlap each other. Thereby, as shown in FIG. 7, the wound electric wire 20 can be packaged by the partition plate 40 in a state of being held in a bundle.
[0060]
Next, although not shown, by removing the electric wire 20 from the protrusion 32, a bundled electric wire 20 wrapped with a partition plate 40 can be obtained.
Lastly, by putting the bundled electric wires 20 wrapped with the partition plate 40 into the frame material 11 of the building panel 10, the building panel having the bundled electric wires 20 inside is completed.
[0061]
According to this method, in the manufacturing process, only the electric wires 20 can be wrapped and held by the partition plate 40 in a bundled state. For this reason, in the manufacturing process of the building panel 10, a wiring set line for wrapping with the partition plate 40 in a state in which only the electric wires 20 are bundled apart from the panel manufacturing line that forms only the panel such as the frame member 11 is provided. Can do. In the wiring set line, only a large number of the bundled wires 20 packaged and a uniform quality can be stocked in advance, and the manufacturing cost can be reduced.
[0062]
【The invention's effect】
Since this invention is comprised as mentioned above, there exists an effect as described below.
In other words,According to invention of Claim 1, while storing an electric wire beforehand in the inside of a building panel, and the labor of wiring in the field can be omitted,By using a partition plate with reduced frictional resistance with the wire,An electric wire can be smoothly pulled out from the inside of a building panel, and a building panel that can be easily worked on site can be provided.
[0063]
[0064]
[0065]
[0066]
[0067]
[Brief description of the drawings]
[Figure 1]It is an assembly perspective view for explaining an outline of a building panel according to the present invention.
[Figure 2]In the building panel according to the present invention,It is an external appearance perspective view which shows an electric wire extraction hole.
[Fig. 3]Using the building panel according to the present inventionIt is a perspective view which shows the mode of wiring.
[Fig. 4]In the building panel which concerns on this invention, the part to characterize is expanded and shownFIG.
FIG. 5 is a perspective view showing a state in which a wire is not wound around a wire bundling jig, which is a process for forming a bundle of wires.
FIG. 6 is a perspective view showing a state in which an electric wire is wound around an electric wire bundling jig, which is a step for forming electric wires into a bundle.
FIG. 7 is a perspective view showing a state in which a wire is wound around a wire bundling jig and wrapped with a partition plate, which is one step for forming the wire into a bundle.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Architectural panel, 10A ... Wall panel, 10B ... Roof panel, 11 ... Frame material, 11A ... Small edge surface, 12 ... Vertical core material, 13 ... Horizontal core material, 13A ... Wire penetration groove, 14 ... Face material, 14A DESCRIPTION OF SYMBOLS ... Electric wire extraction hole, 15 ... Heat insulating material, 16 ... Sliding sheet, 20 ... Electric wire, 21 ... Outlet, 22 ... Joint box, 23 ... Staple stop, 24 ... Switch, 25 ... Electric appliance, 26 ... Spanner, 27 ... Nut, 28 ... Anchor bolt, 30 ... Electric wire bundle forming jig, 31 ... Supporting part, 32 ... Projection part, 34 ... Notch part, 40 ... Partition plate.

Claims (1)

A frame material forming a square frame and a surface material fixed to the front and back surfaces of the frame material, and an electric wire wired inside and a bundled electric wire that can be pulled out of the panel at the assembly site Is an architectural panel that houses
In the frame of the frame member, a bundled electric wire and a space between the bundled electric wire and the surrounding members that are in contact with the electric wire can be contacted with the bundled electric wire. When pulling out the bundled electric wires while partitioning, the frictional resistance applied to the bundled electric wires is reduced, and a partition plate for easily pulling out the bundled electric wires is stored.
The partition plate wraps around the bundled wires and keeps the wires bundled so that they can be pulled out of the building panel.
The building panel according to claim 1, wherein the face material is provided with an electric wire take-out hole as a through hole for allowing the bundled electric wires to continue to the outside of the building panel.

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