JP2014088731A - Wiring pulling-in device - Google Patents

Abstract

A wiring lead-in device of the present invention supports outdoor wiring and introduces it into an indoor through an opening, and the supporting means includes wiring support portions made of a foamed elastic resin material on a base and a cover, respectively. They are arranged so as to compress each other, and support the wiring by sandwiching them. Further, a height difference is provided between the first wiring support portion and the second wiring support portion.
[Effect] Each of the two wiring support portions is sandwiched so as to be compressed by the foaming elastic resin material, and rainwater or the like is difficult to invade by providing a height difference between the two wiring support portions, thereby exhibiting high water stoppage. Moreover, it can be easily supported by attaching a cover, and since it is integrated with the ventilation building, it is excellent in appearance.
[Selection] Figure 8

Description

  The present invention is a wiring lead-in device that is installed continuously with a ventilation building that opens and ventilates the top of the roof, has a high water-stopping property, and the wiring of roof-arranged equipment such as solar cell panels indoors It relates to a device for retracting.

In the lead-in structure for drawing the wiring of the photovoltaic power generation panel indoors, there is a lead-in structure of the wiring that forms an opening in the base plate.
(For example, see Patent Document 1)
In addition, there is one in which the opening for ventilation and the wiring inlet are the same opening.
(For example, see Patent Document 2)

Japanese Patent No. 4438474 JP 11-44035 A

In the invention described in Patent Document 1, the wiring entrance of the solar panel is drawn in such that it has a waterproof effect, and it is necessary to form a separate opening when a ventilation wing is provided, which requires a lot of work. It took.
Moreover, although the invention of patent document 2 can also omit the labor of construction by using the opening part of a ventilation building also as the drawing-in opening of a wiring, you have to install a solar panel to the inside of a ventilation building, The construction of the solar panels and the ventilation building was not simple and did not have high water-stopping properties.

  Therefore, there has been a demand for a wiring drawing-in device that has high water-stopping properties, does not require labor for construction, and can easily pull in wiring of equipment arranged on the roof such as a solar panel.

  Therefore, the wiring lead-in device of the present invention is for drawing the wiring of the arrangement device on the roof indoors from the opening, and is composed of at least a base and a cover, and the base has the wiring from the lower side. A support wiring support portion made of an expandable elastic resin material, the cover supporting the wiring from above, and a cover wiring support portion made of an expandable elastic resin material; The base wiring support part and the cover wiring support part are compressed to each other when the cover is attached to the base to support the wiring, and the wiring is sandwiched and supported. It is.

  The opening is an opening for building ventilation that opens a roof top of a sloped roof in the longitudinal direction thereof, and the base is continuous with a ventilation building that is arranged along the longitudinal direction of the opening. Are preferably arranged.

  In addition, the base wiring support section includes a first base wiring support section on the opening portion side of the base and a second base wiring support section on the eaves side, and the first base wiring support section It is preferable that the part is attached to the upper surface of the folded piece which is extended on the upper side by extending the end side on the opening portion side of the base.

  The cover wiring support portion includes a first cover wiring support portion corresponding to the first base wiring support portion, and a second cover wiring support portion corresponding to the second base wiring support portion. It is preferable that the second cover wiring support portion is disposed on the table from the back surface of the cover.

  Moreover, it is preferable that the said wiring drawing-in apparatus is a form substantially the same as a ventilation building in an external appearance, and has a connection means for connecting with a ventilation building and another roof member.

  According to the first aspect of the present invention, the wiring can be introduced indoors and can be supported without damaging the wiring by sandwiching and supporting the wiring with an elastic foamable resin material. In addition, it is possible to block the inflow of external rainwater and the like through the wiring, and to provide a wiring drawing-in device having a high water-stopping property.

  According to the second aspect of the present invention, since the elastic foamable resin materials are arranged so as to compress each other, it is possible to prevent external rainwater or the like from infiltrating into the foamable resin material and flowing into the room. Thus, it is possible to provide a wiring drawing device having a higher water-stopping property.

  According to the third aspect of the present invention, the wiring support portions of the base are arranged at two locations, the opening portion side and the eaves side, and the first wiring support portion on the opening portion side is arranged at a higher position by the folded piece. Therefore, since the folded piece exhibits an effect as a draining material, it is possible to provide a wiring drawing device having a higher water-stopping property.

  According to the invention of claim 4, the second cover wiring support portion at a position corresponding to the second base wiring support portion is disposed on the table from the back surface of the cover, and is more than the first cover wiring support portion. It is placed at a high position. As a result, between the position supported by the first base wiring support part and the first cover wiring support part and the position supported by the second base wiring support part and the second cover wiring support part. Therefore, it is possible to provide a wiring drawing device that can prevent the inflow of external rainwater or the like and has a higher water-stopping property.

  According to the fifth aspect of the present invention, it is possible to connect to a ventilation building, and since it takes almost the same form as the ventilation building, when the both are connected and arranged, a wiring drawing device excellent in appearance is provided. Can do.

It is a perspective view which shows an example of the base concerning 1st Example of this invention. (A) is a perspective view which shows the state which attached the base and cover base concerning 1st Example of this invention, (b) is a perspective view which shows the state from the back surface of the cover concerning 1st Example of this invention. FIG. It is a perspective view which shows the state which passed the wiring through the wiring drawing-in apparatus concerning the 1st Example of this invention. It is an AA line expanded sectional view of FIG. It is a top view which shows the state which connected the wiring drawing-in apparatus concerning 1st Example of this invention, and the ventilation building. (A) is a perspective view which shows the state which attached the base to the cover base concerning 2nd Example of this invention, (b) shows the state from the back surface of the cover concerning 2nd Example of this invention. It is a perspective view. It is a perspective view which shows the state which passes wiring through the base concerning 2nd Example of this invention, and attaches a cover. It is a perspective view which shows the state which connected the wiring drawing-in apparatus concerning 2nd Example of this invention, and a ventilation building.

An embodiment of the present invention will be described with reference to the drawings.
FIGS. 1 to 5 show a wiring drawing apparatus according to a first embodiment of the present invention, which is attached to a single-flow roof 9. FIG. 1 shows an example of a base 2 used for the wiring drawing-in device 1. The wiring drawing device 1 includes a base 2 and a cover 3, and uses a cover base 4 to attach the cover 3. With this wiring drawing-in device 1, the wiring 5 of the on-roof placement equipment such as a solar panel on the roof 9 can be supported and drawn indoors through the opening 7 of the roof 9. The opening 7 of the roof uses a portion that opens the top of the roof when the ventilation building 8 (FIG. 5) is used.

The base 2 includes a flat bottom plate 11, a first base wiring support portion 13a, a second base wiring support portion 13b, and cover mounting bases 14a and 14b.
On the opening 7 side (upper right side in FIG. 1) of the bottom plate 11 of the base 2, a folded piece 12 is formed in which the end is extended and folded to be cantilevered. A buffer material is disposed on the folded upper surface of the folded piece 12 to form the first base wiring support portion 13a.

  Further, a buffer material is further disposed on the eaves side of the first base wiring support portion 13a (the left front side in FIG. 1) on the top surface of the bottom plate 11, thereby forming the second base wiring support portion 13b. . The folded piece 12 extends the end of the bottom plate 11, bends at an angle of a right angle or more, and then bends further toward the eave direction (the left front direction in FIG. 1). The base wiring support part 13a is disposed at a position higher than the second base wiring support part 13b.

  The buffer material is a foamable resin material having elasticity. Specifically, an ethylene propylene rubber material (EPDM) is preferable, but a urethane resin material or a silicon resin material may be used as long as it is a foamable resin material having elasticity. The bottom plate 11 can be made by forming a steel plate, but since it is installed outdoors, it is preferable to use a galvalume steel plate having high corrosion resistance. However, it is not limited to a galvalume steel plate, but may be made of other materials such as a normal galvanized steel plate or an aluminum steel plate.

  The above-described cover mounting bases 14a, 14b and the like are not arranged on the eaves side of the second base wiring support portion 13b, and the wiring introduction portion extends over the entire width direction of the bottom plate 11 (left-right direction in FIG. 1). 15 can be used. The eaves side edge of the wiring introduction part 15 is folded back to prevent injury to the user.

  Cover mounting bases 14a and 14b are disposed on both sides of the bottom plate 11 (the right front side and the left back side in FIG. 1). The cover mounting bases 14a and 14b are raised from the bottom plate 11 in a table shape, and the height thereof is higher than that of the first base wiring support portion 13a. The heights of the cover mounting bases 14a and 14b are set to the same height as the ventilation building 8 when the flat cover 3 and the cover base 4 are attached. In addition, screw holes 16 and 16 for attaching the cover 3 and the cover base 4 are formed in the cover mounting bases 14a and 14b.

    As shown in FIG. 2A, a cover base 4 is attached to the base 2. As shown in FIG. 1, of the two cover mounting bases 14 a and 14 b in the base 2, the first cover mounting base 14 a on the front side is wider than the second cover mounting base 14 b on the far side (in the width direction ( 1 and 2 (a), and the bottom plate 11 and the wiring introduction portion 15 are also extended in accordance with the size of the first cover mounting base 14a. This extended part becomes a part for connecting with the connection part 24 of the ventilation building 8 or the other wiring drawing-in device 1.

  As shown in FIG. 2A, the cover pedestal 4 includes a flat plate portion 21 and a vertical portion 22, and the vertical portion 22 is formed by bending 25 in the vertical direction from the end side of the flat plate portion 21. . The flat plate portion 21 has a flat plate shape like the bottom plate 11 of the base 2. The flat plate portion 21 has a substantially U-shaped flat surface because a predetermined portion is cut from the eaves side between the first flat plate portion 21a and the second flat plate portion 21b. When the cover pedestal 4 is attached to the base 2, the cutout portion 23 is arranged so that the first base wiring support portion 13 a, the second base wiring support portion 13 b and the passage 6 of the base 2 are exposed. It has been excised.

  The edge of the cover base 4 on the eave side (the front side in FIG. 2A) is formed to be in the same position as the edge of the cover mounting bases 14a and 14b on the eaves side. The first flat plate portion 21a of the cover base 4 has the same width as the extended first cover mounting base 14a, and the second flat plate portion 21b having the same size as the first cover mounting base 14b becomes the second cover mounting base 14b. It is attached. Therefore, the second cover mounting base 14b is located only at a part below the second flat plate portion 21b, and the other part is hollow. This hollow portion serves as a hollow coupling portion 24 for coupling to the ventilation building 8 and other wiring drawing device 1.

  As shown in FIGS. 2A and 4, the depth of the flat plate portion 21 of the cover base 4 is longer than the depth of the base 2, and the vertical portion 22 is bent in the vertical direction. It has become. Therefore, a predetermined space is provided between the back end surface of the base 2 and the vertical portion 22. In this portion, the wiring 5 is introduced and becomes a passage 6 from the inside to the inside.

  Screw holes 26 and 26 are formed in the flat plate portion 21 at positions corresponding to the screw holes 16 and 16 formed in the first cover mounting base 14a and the second cover mounting base 14b, and screws are passed through these holes. Thus, the cover base 4 can be attached and fixed to the base 2.

  As shown in FIG. 2B, the cover 3 includes a vertical portion 32 formed by bending 33 from the end side of the flat plate portion 31 in the vertical direction. When the flat plate portion 31 is attached so as to cover the cut portion 23 of the cover pedestal 4, the bent portion 33 and the vertical portion 32 of the cover 3 overlap the bent portion 25 and the vertical portion 22 of the cover pedestal 4.

  The flat plate portion 31 is formed slightly larger than the cut portion 23 of the flat plate portion 21 of the cover base 4. When the cover 3 is attached to the cover base 4 so that the flat plate portion 31 covers the cut portion 23, the peripheral edge of the flat plate portion 31 overlaps the first flat plate portion 21a and the second flat plate portion 22b around the cut portion 23, The excised portion 23 can be covered from above. In this state, the cover 3 is fixed to the cover base 4 by passing the screws through the screw holes 16 and 26 and the screw holes 37 and 37 formed corresponding thereto.

  Further, a blocking wall 36 is formed by bending the eaves side of the flat plate portion 31 (the lower side in FIG. 2B) in the vertical direction. The height of the blocking wall is about half that of the first cover mounting base 14a and the second cover mounting base 14b. For this reason, when the cover 3 is attached to the base 2, the wiring opening 10 through which the wiring 5 can be inserted into the second base wiring support portion 13 b can be partially blocked from above, and intrusion of rainwater is blocked. it can. That is, as shown in FIG. 3, the portion not covered by the blocking wall 36 becomes a wiring opening 10 through which the wiring 5 is inserted.

  As shown in FIG. 2B, the back surface of the cover 3, that is, the back surface of the flat plate portion 31, is attached to the first base wiring support portion 13a and the second base wiring support portion 13b of the base 2 at the time of mounting. The first cover wiring support part 34a and the second cover wiring support part 34b are arranged at corresponding positions. The first cover wiring support part 34a and the second cover wiring support part 34b are formed by arranging a cushioning material, and the cushioning material is an elastic foam like the wiring support parts 13a and 13b of the base. It can be made of a conductive resin material.

  Further, a base 35 is formed on the back surface of the flat plate portion 31, and a second cover wiring support portion 34b is disposed on the base. Therefore, in FIG.2 (b), the 2nd cover wiring support part 34b is arrange | positioned in the position higher than the 1st cover wiring support part 34a. Accordingly, the second base wiring support portion 13b is disposed at a position lower than the first base wiring support portion 13a, and the second cover wiring support portion 34b It can contact the wiring support part 13b and compress each other.

  3 and 4 show a state where the wiring 5 is inserted into the wiring opening 10 of the base 2 and the cover base 4 and the cover 3 are attached. The wiring 5 drawn from the wiring opening 10 below the blocking wall 36 with the cover 3 attached is sandwiched between the second base wiring support portion 13b and the second cover wiring support portion 34b, and then It is sandwiched and supported by the first base wiring support part 13a and the first cover wiring support part 34a, passes through the passage 6, and is drawn indoors from the opening 7 that opens the roof.

  As shown in FIG. 4, the folded piece 12 is formed on the bottom plate 11, and the first base wiring support portion 13 a is positioned higher than the bottom plate 11. Thereby, even if rainwater or the like flows from the wiring opening 10 of the wiring drawing-in device 1, the folded piece 12 plays a role of draining water and does not flow into the opening 7.

  Moreover, since the 2nd cover wiring support part 34b is arrange | positioned by providing the base 35 from the flat plate part 31, the wiring 5 drawn in to the wiring drawing-in apparatus 1 is connected with the 2nd base wiring support part 13b. The first cover wiring support portion 34b is once clamped in the vicinity of the bottom plate 11 of the base 2 and then the first base wiring support portion 13a and the first base wiring support portion 13a at a position higher than the bottom plate 11 of the base 2 by the folded piece 12. Is supported by the cover wiring support portion 34a. Therefore, after the wiring 5 is once supported, it is supported at a high position from the bottom plate 11, and even if rainwater flows in through the wiring, the intrusion of rainwater can be prevented by this height difference.

  The base wiring support portions 13a and 13b and the cover wiring support portions 34a and 34b compress each other. At the portion where the wiring 5 is sandwiched, since the wiring 5 is sandwiched, the compression is performed until the height of each cushioning material is about one fifth from the state before supporting. Further, although not shown, it is preferable that in a portion where the wiring 5 is not sandwiched, the respective cushioning materials come into contact with each other and compress each other so that the height is about half. Since the cushioning material compresses each other, it is possible to prevent the inflow of rainwater and the like from the outside, and to prevent the inflow of rainwater and the like from around the wiring.

  As shown in FIG. 5, the wiring retractor 1 can be connected to the ventilation building 8. At this time, similarly to the connection part 24 of the wiring drawing-in device 1, a connection part 24a is also formed in the ventilation building 8, and the first cover mounting base 14a and the first flat plate part 21a of the wiring drawing-in device 1 are formed in this part. The extended part is inserted and connected. The inclination of the surface of the cover pedestal 4 and the cover 3 of the wiring drawing device 1 and the wiring introduction part 15 of the base 2 are substantially the same as the shape of the outer surface of the ventilation building 8, and the wiring drawing device having a good appearance in appearance. can do.

  Next, as shown in FIG. 6 to FIG. 8, a description will be given of the wiring lead-in device 51 that is attached to a roof having an inclination in both buildings. The wiring drawing device 51 includes a base 52, a cover pedestal 53, and a cover 54.

  As shown in FIG. 6 (a), the cover pedestal 53 is composed of a mountain-shaped flat plate portion 61 in which a plate-like material is partially bent into a mountain shape, and the top of the central portion in the longitudinal direction is opened. Thus, a passage 65 through which the wiring 5 passes is formed. It is preferable that the mountain-shaped flat plate portion 61 has substantially the same form as the substrate that is the basic form of the ventilation building 58.

  As shown in FIG. 8, the ventilation building 58 is ventilating from the opening 56 that opens the top of the roof 9, and when the wiring drawing device 51 is connected to the ventilation building 58, the passage 65 of the cover base 53 is provided. The opening 56 of the roof 9 is located directly below the bottom. Note that mounting plates 63 and 63 for mounting the entire cover formed in a trapezoidal shape are disposed on the mountain-shaped flat plate portion 61 of the cover base 53.

  Base arrangement portions 62 and 62 that can arrange the base 52 from both sides of the passage 65 to the eaves direction are formed. In the embodiment shown in FIG. 6, the pedestal 52 is attached to only one of the base placement portions 62 and 62 and is not placed on the other. Whether to arrange them in both or only one may be determined in consideration of the position and quantity of the wiring 55.

  The base 52 has substantially the same form as the base 2 according to the first embodiment shown in FIG. 1, but is not an enlargement of only one cover mounting base, and both cover mounting bases have the same size. . A first base wiring support portion 71 and a second base wiring support portion 72 are disposed on the base 52, and the first base wiring support portion 71 is disposed at a higher position by the folded piece 73. . The first base wiring support portion 71 and the second base wiring support portion 72 are made of a buffer material, and the buffer material is made of a foamable resin material having elasticity, according to the first embodiment. The same as the base 2.

  The cover 54 has substantially the same form as the cover 3 according to the first embodiment shown in FIG. The first cover wiring support part 81 and the second cover wiring support part 82 are arranged, and the second cover wiring support part 82 is arranged one step higher by the table 83. This also consists of a foamable resin material having elasticity. Further, the front end of the cover 53 is folded back to form a blocking wall 84.

As shown in FIG. 7, the wiring 55 enters the indoor from the second base wiring support portion 72 and the first base wiring support portion 71 through the passage 65 and through the opening 56 of the roof 9.
As with the first embodiment, the cover 54 is attached to the cover pedestal so that its peripheral edge overlaps. At that time, the first base wiring support portion 71 and the first cover wiring support portion 81 supported the wiring 55 by the second base wiring support portion 72 and the second cover wiring support portion 82. It is the same as that of a 1st Example also about the point which mutually contacts in a state and compresses each other.

  As shown in FIG. 8, the entire cover 57 is attached to the mounting bases 63, 63 while being supported by the wiring drawing device 51 through the wiring 55. Since the entire cover 57 has substantially the same shape as the outer cover of the ventilation ridge 58, the ventilation ridge 58 and the wiring drawing-in device 51 have the same form by arranging them continuously with the ventilation ridge 58. An excellent wiring pull-in device 51 can be provided. In addition, although not shown, a connection portion can be formed in the wiring drawing-in device 51 to be connected to the ventilation building 58.

DESCRIPTION OF SYMBOLS 1 ... Wiring drawing-in apparatus, 2 ... Base, 3 ... Cover, 4 ... Cover base, 5 ... Wiring, 6 ... Passage, 8 ... Ventilation building, 12 ... Folding piece, 13a ... First base wiring support part, 13b ... 2nd base wiring support part, 21 ... Flat plate part, 24 ... Cavity connection part, 34a ... 1st cover wiring support part, 34b ... 2nd cover wiring support part, 36 ... Shut off wall,
DESCRIPTION OF SYMBOLS 51 ... Wiring drawing-in device, 52 ... Base, 53 ... Cover base, 54 ... Cover, 55 ... Wiring, 56 ... Opening, 58 ... Ventilation building, 71 ... First base wiring support part, 72 ... Second Base wiring support part, 81 ... first cover wiring support part, 82 ... second cover wiring support part

Claims (5)

For drawing the wiring of the equipment placed on the roof indoors from the opening,
At least a base and a cover,
The base is for supporting the wiring from below, and has a base wiring support portion made of a foamable elastic resin material,
The cover is for supporting the wiring from above, and has a cover wiring support portion made of a foaming elastic resin material,
The wiring drawing device according to claim 1, wherein the base wiring support portion and the cover wiring support portion compress each other and support the wiring while sandwiching the cover when the cover is attached to the base to support the wiring. The opening is an opening for building ventilation that opens a roof top of a sloped roof in the longitudinal direction thereof,
The wiring lead-in device according to claim 1, wherein the base is disposed continuously with a ventilation ridge disposed along a longitudinal direction of the opening. The base wiring support part consists of a first base wiring support part on the opening portion side of the base and a second base wiring support part on the eaves side,
The first base wiring support part is attached to the upper surface of a folded piece that is extended on the upper side by extending an end of the base on the opening portion side. Wiring retractor. The cover wiring support portion includes a first cover wiring support portion corresponding to the first base wiring support portion and a second cover wiring support portion corresponding to the second base wiring support portion. ,
The wiring lead-in device according to claim 3, wherein the second cover wiring support portion is disposed on a table from the back surface of the cover. The wiring pull-in device has almost the same form as the ventilation building in appearance,
The wiring drawing-in device according to any one of claims 1, 2, 3 to 4, further comprising connecting means for connecting to a ventilation building and other roof members.

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