JP4155103B2 - Wiring protection structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a protective structure optimal for outdoor wiring.
[0002]
[Prior art]
Conventionally, when an air-conditioning pipe that connects an indoor indoor unit and an outdoor outdoor unit is arranged on the outer wall surface of a house, there is one that covers the air-conditioning pipe with a duct (for example, see Patent Document 1).
[0003]
[Patent Document 1]
Japanese Utility Model Publication No. 58-49013 [0004]
[Problems to be solved by the invention]
By the way, since the wiring (electric wire) drawn into the indoor from the outside via the power meter box arranged on the outer wall surface of the house is arranged along the outer wall surface of the house relatively easy to see from the road side, More aesthetics are required than air conditioning piping ducts.
[0005]
The present invention has been made in order to meet the above-described demand, and an object of the present invention is to provide a wiring protection structure that improves the aesthetics as well as the wiring protection.
[0006]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the present invention is a protective structure for wiring drawn into the indoor from the outside via a power meter box arranged on the outer wall surface of the house, and is arranged along the outer wall surface of the house The wiring is housed in a hollow wiring housing path made of a single member or a plurality of members and having a drawing-side end portion into which the wiring is drawn and a drawing-side end portion into which the wiring is drawn out toward the power meter box. In addition, a box connecting member that covers the wiring drawn out from the drawing side end and drawn into the drawing hole in the peripheral wall of the wattmeter box is disposed at the drawing side end of the wiring accommodating path. A connection base formed in a substantially U-shaped cross-sectional shape that fits on the outer surface of the base of the wiring accommodation path is fixed in advance to the outer wall surface that is configured by the base and the connection cover and on which the drawer side end is located. The The rear end portion of the wiring accommodation path on the drawer side end portion side is inserted into the connection base, and the connection cover paired with the connection base has a substantially U-shaped cross-sectional shape that fits on the outer surface of the wiring accommodation path cover. In the state where it is formed and covered with the rear end portion on the drawer side end portion side of the cover, it is fixed to the connection base, and the other end portion of the box connection member on the wattmeter box side is widened in a divergent shape in the width direction. On the other hand, the wattmeter box is composed of a base and a cover, and the dividing line between the base and the cover of the box connecting member is at least in the vicinity of the wattmeter box. And the cover of the box is formed by removing the connection cover of the box connection member, sliding the cover upward, , There is provided a protective structure by pulling forward, wiring, wherein a can be removed.
[0008]
According to a second aspect of the present invention, the dividing line of the box connecting member is such that the end portion on the wattmeter box side is located on the outer wall surface side than the dividing line of the wattmeter box, and the end portion on the wiring accommodating path side is the wiring accommodating path. It is preferable to have a structure formed so as to be continuous with the dividing line.
[0009]
As in claim 3, the box connecting member has a recess formed in the side wall portion of the base located in the vicinity of the wattmeter box, and a convex portion formed in the side wall portion of the cover located in the vicinity of the wattmeter box. The dividing line of the box connecting member is positioned closer to the outer wall surface than the dividing line of the wattmeter box in the vicinity of the wattmeter box, and is substantially in line with the dividing line of the wiring accommodation path in the vicinity of the wattmeter box. It is preferable to adopt a configuration that is formed to satisfy the following.
[0010]
Operation and effect of the invention
ADVANTAGE OF THE INVENTION According to this invention, while a wiring is protected by the wiring accommodation path arrange | positioned along the outer wall surface of a house, aesthetics improve.
[0011]
In addition, the box connecting member protects the wiring between the drawing side end of the wiring housing path and the wattmeter box, and improves aesthetics.
[0012]
Furthermore, since the other end of the box connecting member on the wattmeter box side is formed to be wide in the width direction , the wiring is routed when a plurality of lead-in holes are formed in the peripheral wall of the wattmeter box. Can be pulled into the pull-in hole without difficulty.
[0013]
In addition, when removing the cover of the power meter box and inspecting the inside, it is possible to remove the cover by simply sliding the cover upward and then pulling it forward. by Ru slide downward covered from, it is possible to mount, facilitates attachment and detachment of the cover of the power meter box.
[0014]
According to the second aspect , since the dividing line of the box connecting member is continuous with the dividing line of the wiring housing path, the aesthetics are improved.
[0015]
According to the third aspect , since the dividing line of the box connecting member is connected to the dividing line of the wiring accommodating path in a substantially straight line, the aesthetics are improved.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0017]
In the case of a house 1 such as a detached house as shown in FIGS. 1 to 3, the wiring (electric wire) 4 from the electric pole 3 on the road side passes through the wattmeter box 6 arranged on the outer wall surface 5 of the house 1. And in the part shown by A, it is drawn indoors from the outdoors. Similarly, in the case of a house 1 such as an apartment house (apartment or the like) as shown in FIG. 4, it is similarly drawn into each room (indoor) from the outside through the wattmeter box 6 at the portion indicated by A. It is supposed to be. Note that the wiring 4 may be directly drawn indoors from the wattmeter box 6.
[0018]
On the outer wall surface 5 of the house 1, a hollow wiring accommodating path 7 extending in a vertical direction with a predetermined length is attached along the outer wall surface 5, and the wiring 4 is accommodated in the wiring accommodating path 7. It has come to be.
[0019]
As shown in FIGS. 5 to 7, the upper end portion (one end portion) of the wiring accommodating path 7 is a drawing-side end portion 7 a into which the wiring 4 is drawn, and the lower end portion (other end portion) is the wattmeter with the wiring 4. It is a drawer-side end 7 b that is pulled out toward the box 6.
[0020]
The wiring accommodating path 7 includes a base 9 attached to the outer wall surface 5 and a cover 10 that can be attached to the base 9.
[0021]
The base 9 has a substantially U-shaped cross-sectional shape, and a bottom wall portion 9a attached to the outer wall surface 5 is formed in a flat plate shape, and a central portion in the width direction of the bottom wall portion 9a. The screw holes 9b for fixing to the outer wall surface 5 with screws 11 (see FIG. 7C) are formed at predetermined intervals in the length direction, and both side portions of the inner surface of the bottom wall portion 9a. Are integrally formed with a non-rotating ridge 9c of a saddle 19 (see FIG. 7C) extending in the length direction. For example, every other screw hole 9b is formed in an elliptical shape that is long in the width direction and the length direction.
[0022]
As shown in FIG. 9A, the saddle 19 is held through a binding band 20 that binds the wiring 4 accommodated in the wiring accommodating path 7.
[0023]
An inward concave ridge 9e and an outward concave ridge 9f extending in the length direction are formed at the upper and lower positions on the upper portions of both side walls 9d of the base 9, respectively.
[0024]
The cover 10 has a substantially inverted U-shaped cross-sectional shape, and inwardly bent portions 10b extending in the length direction are formed at the lower ends of the side wall portions 10a.
[0025]
Then, while bending both side wall portions 9d of the base 9 inward or bending both side wall portions 10a of the cover 10 outward, the inward bent portions of the cover 10 are formed on the outward concave strip portions 9f of the base 9. By fitting 10b, the cover 10 is locked and fixed to the base 9 [state shown in FIG. 5 (e)].
[0026]
On the inner surface of both side wall portions 10b of the cover 10, a protruding strip portion 10c extending in the length direction is integrally formed, and this protruding strip portion 10c is fixed when the cover 10 is locked and fixed to the base 9. The base 9 comes to be held against the upper end portions of the side wall portions 9d.
[0027]
As shown in detail in FIG. 6 (c) and FIG. 6 (d), which is an enlarged view of the portion B of FIG. 6 (c), when the base 9 is arranged in the horizontal direction (lateral direction), the cover 10 Before locking and fixing the cover 10, the inwardly bent strip (edge) 9 e positioned below the base 9 is hooked with the inwardly bent portion (edge) 10 b positioned above the cover 10 to cover the cover 10. Can be temporarily locked in a suspended state.
[0028]
As shown in FIG. 7, the base 9 of the wiring receiving path 7 has the lead-in side end 7 a side located below the roof of the roof 1 a of the house 1, and the lead-out side end 7 b side located above the wattmeter box 6. In such a state that the bottom wall portion 9a is in close contact with the outer wall surface 5, the saddle 12 is fastened together with the screw 11 using the screw hole 9b and fixed to the outer wall surface 5. . When the outer wall surface 5 is made of concrete or the like, a screw 12 plug 12 may be used.
[0029]
As shown in FIGS. 7 and 8, the terminal base 13 of the terminal member 22 is fixed in advance with screws 14 to the outer wall surface 5 where the lead-in side end portion 7 a of the wiring accommodating path 7 is located.
[0030]
The terminal base 13 is formed in a substantially U-shaped cross-sectional shape that fits to the outer surfaces of the bottom wall portion 9a and both side wall portions 9d of the base 9, and the bottom wall portion 13a is attached to the outer wall surface 5 with screws 14. While being fixed, female screw holes 13c are formed in the upper edge portions of the side wall portions 13b.
[0031]
When the lead-in side end portion 7a of the wiring receiving path 7 is upward (see FIG. 1) or downward (see FIG. 3), the terminal base 13 has both side wall portions 13b as shown in FIG. 7 (a). When it is fixed to the outer wall surface 5 so as to be in the left-right position and the lead-in side end portion 7a of the wiring accommodating path 7 is oriented sideways (see FIG. 2 and FIG. 4), as shown in FIG. It fixes to the outer wall surface 5 so that the part 13b may become an up-down position.
[0032]
The base 9 is fixed to the outer wall surface 5 with screws 11 in a state in which the tip end portion on the pull-in side end 7 a side is inserted into the terminal base 13.
[0033]
The terminal cover 15 paired with the terminal base 13 is formed in a substantially U-shaped cross-sectional shape that fits to the outer surfaces of the upper wall portion 10d and both side wall portions 10a of the cover 10, The screw 16 is fixed to the female screw hole 13c of the terminal base 13 by using the screw hole 15b of the upper wall portion 15a in a state of covering the tip portion on the end 7a side.
[0034]
The terminal base 13 and the terminal cover 15 constitute a terminal member 22 that closes the opening 7c of the drawing side end 7a while leaving the insertion opening of the wiring 4 at the drawing side end 7a of the wiring accommodation path 7. Note that the opening of the terminal member 22 may be sealed with a putty 18.
[0035]
1, 7, and 8, the lead-in side end portion 7 a of the wiring housing path 7 is provided so as to face upward. In this upward direction, as shown in FIG. 9 (b), infiltration of rainwater can be prevented when the drawing-side end portion 7a is within the rain line 21a. Here, the rain line 21 means a line inclined upward at 45 degrees with respect to a horizontal line on the lower surface of the roof of the house 1 roof 1a. Is difficult to enter, and if it is outside the rain line 21b, it is not obstructed by the eaves, so rainwater can easily enter.
[0036]
In FIG. 2, the lead-in side end portion 7a of the wiring housing path 7 is provided so as to face sideways, and in FIG. 3, the lead-in side end portion 7a of the wiring housing path 7 is provided so as to face downward. In this lateral direction or downward direction, if the drawing-side end portion 7a is in the rain line 21a, rain water can be prevented from entering, and even if the drawing-side end portion 7a is outside the rain line 21b, rain water can enter.
[0037]
On the other hand, as shown in FIGS. 10 to 12, the connection base 23 of the box connection member 28 is preliminarily formed on the outer wall surface 5 where the drawing-side end 7 b of the wiring accommodation path 7 located above the wattmeter box 6 is located. It is fixed with screws 24.
[0038]
One end portion 28a on the wiring housing path 7 side of the box connecting member 28 is substantially the same as the shape of the wiring housing path 7, but the other end portion 28b on the wattmeter box 6 side is also apparent from FIGS. In this way, it is formed in a wide shape that spreads in the width direction .
[0039]
The connection base 23 is formed in a substantially U-shaped cross-sectional shape that fits to the outer surfaces of the bottom wall portion 9 a and both side wall portions 9 d of the base 9, and the bottom wall portion 23 a is attached to the outer wall surface 5 with screws 24. While being fixed, female screw holes 23c are formed in the upper edge portions of both side wall portions 23b.
[0040]
The base 9 is fixed to the outer wall surface 5 with screws 11 in a state in which the rear end portion on the lead-out side end 7 b side of the wiring accommodation path 7 is inserted into the connection base 23.
[0041]
The connection cover 25 that is paired with the connection base 23 is formed in a substantially U-shaped cross-sectional shape that fits to the outer surfaces of the upper wall portion 10d and the both side wall portions 10a of the cover 10, and the drawer side of the cover 10 In a state of covering the rear end portion on the end 7b side, the screw 26 is fixed to the female screw hole 23c of the connection base 23 using the screw hole 25b of the upper wall portion 25a.
[0042]
The connection base 23 and the connection cover 25 constitute a box connection member 28, which is drawn out from the lead-out side end 7 b of the wiring housing path 7, and wattmeter from the lead-in hole 6 b in the upper peripheral wall 6 a of the wattmeter box 6. The wiring 4 drawn into the box 6 is covered. The lead-in hole 6b of the wattmeter box 6 is provided on the entire peripheral wall, and the unused lead-in hole 6b is covered with a thin film so that only the lead-in hole 6b to be used is pierced with a tool (so-called so-called). knock out).
[0043]
The wattmeter box 6 includes a base 30 and a cover 31. When the cover 31 in the attached state of FIG. 12A is removed by inspection or the like, as shown in FIG. The lower portion of 31 is pulled forward (see arrow a), and then the cover 31 is slid upward (see arrow b), and then pulled forward (see arrow c) to be removed. .
[0044]
Therefore, when the dividing line L2 between the connecting base 23 and the connecting cover 25 of the box connecting member 28 is located outside the dividing line L1 between the base 30 and the cover 31 of the wattmeter box 6, the cover 31 is moved upward. When sliding, since the connection base 23 and the connection cover 25 are in the way, it is necessary to remove both the connection base 23 and the connection cover 25.
[0045]
For this reason, the concave portions 23d are formed in the side wall portions 23b of the connection base 23 in the vicinity of the wattmeter box 6, and the convex portions 25d that fit into the concave portions 23d are formed in the corresponding portions of the both side wall portions 25c of the connection cover 25. To do.
[0046]
Thereby, in the vicinity of the wattmeter box 6, the dividing line L3 between the concave portion 23d of the connection base 23 and the convex portion 25d of the connection cover 25 is more than the dividing line L1 between the base 30 and the cover 31 of the wattmeter box 6. Since it comes to be located in the outer wall surface 5 side, the cover 31 can be slid upwards only by removing the connection cover 25.
[0047]
12A, in the dividing lines L2 and L3 of the box connecting member 28, the dividing line L3 at the end on the wattmeter box 6 side is located closer to the outer wall surface 5 than the dividing line L1 of the wattmeter box 6. However, the dividing line L2 at the end on the wiring housing path 7 side is continuous with the dividing line L5 of the wiring housing path 7 in a straight line.
[0048]
The dividing line L4 between the connection base 23 and the connection cover 25 of the box connection member 28 may be inclined as shown by a two-dot chain line. Even in this case, at least in the vicinity of the wattmeter box 6, the wattmeter The dividing line L4 between the connection base 23 and the connection cover 25 is positioned closer to the outer wall surface 5 than the dividing line L1 between the base 30 and the cover 31 of the box 6.
[0049]
Further, as shown in FIG. 12C, the side wall portions 23b and 25c of the connection base 23 and the connection cover 25 of the box connection member 28 have the same height as the dividing line L3 in FIG. You can also set the height.
[0050]
On the other hand, as shown in FIGS. 1 to 4, a branch wiring accommodation path 7 ′ is provided in the middle of the wiring accommodation path 7, and the tip of the branch wiring accommodation path 7 ′ is directed toward the outer wall surface 5. By passing the wiring 4 through the through hole 5a of the outer wall surface 5 (see FIG. 15A), the portion indicated by A is drawn indoors from the outdoors.
[0051]
As shown in FIG. 13, when the outer wall surface 5 in the vicinity of the through hole 5a has a right-angle wall 5b protruding outward from the outer wall surface 5 at a substantially right angle, the steps T1 and T2 of the right-angle wall 5b There are big and small (T1 <T2).
[0052]
And when the level | step difference T2 of the right-angle wall 5b is large, as shown in FIG.13 (b) and FIG.15 (d), the corner base 37 of the 1st wall surface connection member 36 is previously fixed to the right-angle wall 5b with the screw 38. To do.
[0053]
The corner base 37 is formed in a substantially U-shaped cross-sectional shape that fits to the outer surface of the lower half of the elbow member 39 fixed to the distal end portion of the wiring accommodating path 7 ′, and the bottom wall portion 37 a is a screw 38. While being fixed to the right-angle wall 5b, the hook hole (not shown) is formed in the upper part of the both-sides wall part 37b, respectively.
[0054]
The tip of the elbow member 39 is inserted into the corner base 37. FIG. 15D shows an example in which the elbow member 39 is not used. In this case, the tip of the wiring housing path 7 ′ is directly inserted into the corner base 37.
[0055]
The corner cover 40 that is paired with the corner base 37 is formed in a substantially U-shaped cross-sectional shape that fits on the outer surface of the upper half of the elbow member 39 and covers the tip of the elbow member 39. A hook portion (not shown) of the corner cover 40 is locked and fixed in the hook hole of the corner base 37. The outer wall surface 5 side of the corner cover 40 is formed wide at the end.
[0056]
The corner base 37 and the corner cover 40 constitute a first wall surface connecting member 36, which is drawn out from the elbow member 39 and covers the wiring 4 that is drawn indoors from the through hole 5a of the outer wall surface 5.
[0057]
When the step T1 of the right-angle wall 5b is small, as shown in FIGS. 13 (a), 14 and 15 (a) to 15 (c), the decorative plate of the second wall surface connecting member 42 is disposed on the right-angle wall 5b. 43 is fixed with a screw 38 in advance. Note that the decorative plate 43 and the plate cover 44 of the second wall surface connecting member 42 are thinner than the corner base 37 and the corner cover 40 of the first wall surface connecting member 36 because the step T1 of the right-angle wall 5b is small.
[0058]
The decorative plate 43 is formed in a substantially U-shaped cross-sectional shape that fits on the outer surface of the lower half of the elbow member 39 fixed to the tip of the wiring receiving path 7 ', and the bottom wall 43a is a screw hole. 43f is fixed to the right-angle wall 5b with screws 38, and hook holes 43c (see FIG. 14 (f)) are formed in the upper portions of the side wall portions 43b.
[0059]
The tip of the elbow member 39 is inserted into the decorative plate 43. 15A to 15C show an example in which the elbow member 39 is not used. In this case, the tip of the wiring housing path 7 ′ is directly inserted into the decorative plate 43.
[0060]
The plate cover 44 that is paired with the decorative plate 43 is formed in a substantially U-shaped cross-sectional shape that fits the outer surface of the upper half of the elbow member 39, and covers the tip of the elbow member 39. As shown in FIG. 14 (f), the hook portion 44 a of the plate cover 44 is locked and fixed in the hook hole 43 c of the decorative plate 43.
[0061]
As shown in FIG. 14A, the decorative plate 43 and the plate cover 44 have a straight short tube portion 42d that is short in the direction of the step T1 between the bottom wall portion 43a, the upper wall portion 44a, and the side wall portions 43b and 44b. The flange portion 43d, 44d that protrudes outward and comes into contact with the outer wall surface 5 is formed on the peripheral wall portion on the distal end side of the short cylindrical portion 42d.
[0062]
The decorative plate 43 and the plate cover 44 constitute a second wall surface connecting member 42, which is drawn out from the elbow member 39 and covers the wiring 4 that is drawn indoors from the through hole 5 a of the outer wall surface 5.
[0063]
The short cylindrical portion 42d and the flange portions 43d and 44d of the second wall surface connecting member 43 are divided by a dividing line L6 substantially parallel to the right-angle wall 5a.
[0064]
On the back surface of the flange portions 43d and 44d of the second wall surface connecting member 43, as shown in FIGS. 14 (e), 15 (b) and 15 (c), a plurality of pieces extending so as not to intersect the short tube portion 42d. A number of concave cut grooves 42a are formed. In this example, five concave cut grooves 42a are formed, so that five patterns can be cut.
[0065]
The flange portions 43d and 44d of the second wall surface connecting member 43 are formed with screw holes 42b for firmly fixing to the outer wall surface 5. The surface side of the screw hole 42b is shown in FIG. ), A thin film portion 42c that can be pierced by a screw 45 screwed to the outer wall surface 5 is formed (so-called knockout).
[0066]
Next, the effect of the protective structure for the pipe 4 configured as described above will be described.
[0067]
(1) Since the wiring 4 is accommodated in the wiring accommodating path 7 arranged along the outer wall surface 5 of the house 1, the wiring 4 is protected by the wiring accommodating path 7 and the wiring 4 is covered by the wiring accommodating path 7. As a result, aesthetics are improved.
[0068]
(2) Since the terminal member 22 closes the opening 7c of the lead-in side end 7a of the wiring housing path 7, entry of foreign matter into the wiring housing path 7 is prevented, and aesthetics are improved.
[0069]
(3) If the opening 7c of the drawing-in side end 7a is directed sideways or downward, rainwater can be prevented from entering from the opening 7c. It is particularly effective to turn the opening 7c sideways or downward when the lead-in side end 7a is located outside the rain line 21b.
[0070]
(4) Since the bottom wall portion 9a of the base 9 of the wiring accommodating path 7 is flat, a special saddle having a concave portion that fits into the convex portion is formed in the conventional product in which the convex portion is formed on the bottom wall portion 9a. However, the general-purpose saddle 19 having no concave portion can fasten and support the wiring 4 substantially linearly, and since the bottom wall portion 9a has no convex portion, the base 9 of the wiring accommodation path 7 is attached to the outer wall surface. When attached to 5 with the screw 11, it will not bend.
[0071]
(5) Since the saddle 19 does not rotate at the time of screwing by the non-rotating projection 9c of the bottom wall portion 9a of the base 9, the mounting workability of the saddle 19 is improved. The bottom wall portion 9a can be reinforced by the non-rotating convex ridge portion 9c.
[0072]
(6) When the base 9 is disposed in the horizontal direction, before the cover 10 is locked and fixed, an inward concave strip (edge) 9e located below the base 9 is placed above the cover 10 Since the inwardly bent portion (edge) 10b is hooked and the cover 10 can be temporarily locked in a suspended state, it is not necessary to hold the cover 10 by hand, and the workability of the wiring accommodation path 7 is improved. To do.
[0073]
(7) The box connection member 28 protects the wiring 4 between the lead-side end 7b of the wiring housing path 7 and the wattmeter box 6, and improves aesthetics.
[0074]
(8) Since the other end portion 28b on the wattmeter box 6 side of the box connecting member 28 is formed wide in the width direction, even when a plurality of lead-in holes 6b are formed in the peripheral wall 6a of the wattmeter box 6. The distance between the wirings 4 can be widened and can be pulled into the drawing hole 6b without difficulty.
[0075]
(9) The dividing line L3 between the connection base 23 and the connection cover 25 of the box connecting member 28 is outside the dividing line L1 between the base 30 and the cover 31 of the wattmeter box 6 at least in the vicinity of the wattmeter box 6. Since it is located on the wall surface 5 side, when the cover 31 of the wattmeter box 6 is removed and the inside is inspected, the connection cover 25 of the box connection member 28 is simply removed, and the lower part of the cover 31 of the wattmeter box 6 is removed. Can be removed by sliding the cover 31 forward, then sliding the cover 31 upward, and then pulling forward, and can be attached by sliding the cover 31 from the front, sliding downward, and pushing backward. Since it can do, attachment / detachment of the cover 31 of the wattmeter box 6 becomes easy.
[0076]
(10) Since the dividing line L2 of the box connecting member 28 is connected to the dividing line L5 of the wiring accommodating path 7, the aesthetics are improved.
[0077]
(11) Since the dividing line L2 of the box connecting member 28 is connected to the dividing line L5 of the wiring housing path 7 in a substantially straight line, the aesthetics are improved.
[0078]
(12) Since the second wall surface connecting member 42 is composed of the short cylindrical portion 42d and the flange portions 43d and 44d, the wiring accommodating path 7 is bent sharply as in the case where the step T1 of the right-angle wall 5b is small. It can cope with well.
[0079]
(13) Since the short cylindrical portion 42d and the flange portions 43d and 44d of the second wall surface connecting member 42 are divided by a dividing line L6 substantially parallel to the right-angle wall 5b, the makeup which is a divided body on the right-angle wall 5b side. The plate 43 can be used as a positioning member when forming the wiring accommodating path 7 '.
[0080]
(14) With the concave cut groove 42a of the second wall surface connecting member 42, a part of the flange portions 43d, 44d is cut with a tool according to the situation of the site such as an obstacle 46 (see FIG. 15B). And the workability of the cutting is improved.
[0081]
(15) Since the thin film portion 42c is formed in the screw hole 42d of the flange portions 43d and 44d of the second wall surface connecting member 42, the unnecessary screw hole 42d is covered with the thin film portion 42c, and the aesthetics are improved. In addition to the improvement, the intrusion of rainwater from the screw hole 42d into the second wall surface connecting member 42 is prevented.
[0082]
In the above embodiment, the wiring accommodating path 7 is configured by a plurality of members including the base 9 and the cover 10, but is configured by a single member such as a cover that can be attached to the wiring 4 from the outside. Is also possible.
[Brief description of the drawings]
FIG. 1 is a perspective view of a first example house employing a wiring protection structure according to the present invention.
FIG. 2 is a perspective view of a second example house employing the wiring protection structure according to the present invention.
FIG. 3 is a perspective view of a third example house employing the wiring protection structure according to the present invention.
FIG. 4 is a perspective view of a fourth example house employing the wiring protection structure according to the present invention.
5A is a plan view, FIG. 5B is a front view, FIG. 5C is a bottom view, FIG. 5D is a side view, and FIG. 5E is an enlarged view of FIG. .
6A is a perspective view of the base, FIG. 6B is a perspective view of the base with the saddle attached, FIG. 6C is a perspective view of the cover suspended from the base, and FIG. It is an enlarged view of B part of (c).
7A and 7B are connection bases for a terminal member, in which FIG. 7A is a perspective view of the upward and downward positions, FIG. 7B is a perspective view of a lateral position, FIG. 7C is a perspective view before mounting the base, and FIG. FIG. 4 is a perspective view after the base is attached.
8A and 8B are terminal members, in which FIG. 8A is a perspective view before the connection cover is attached, and FIG. 8B is a perspective view after the connection cover is attached.
9A is a perspective view of a saddle and a binding band, and FIG. 9B is an explanatory view of a rain line.
FIG. 10 is a wattmeter box, (a) is an exploded perspective view of the wattmeter box and a box connecting member, and (b) is a perspective view of the wattmeter box.
11A is a front view, FIG. 11B is a plan view, FIG. 11C is a side view, FIG. 11D is a bottom view, FIG. 11E is a rear view, and FIG. FIG.
12A is a side view showing a dividing line, FIG. 12B is a side view of a power meter box cover removal procedure, and FIG. It is a side view of the modification of a box terminal member.
13A is a side view of the second wall surface connecting member, and FIG. 13B is a side view of the first wall surface connecting member.
FIG. 14 is a second wall surface connecting member, (a) is a front view, (b) is a plan view, (c) is a side view, (d) is a bottom view, (e) is a rear view, and (f). Is a sectional view, and (g) is an enlarged sectional view of a thin film portion.
15A is an exploded perspective view of the second wall surface connection member, FIG. 15B is a front view of a part of the flange portion of the second wall surface connection member, and FIG. 15C is a view of the second wall surface connection member. A perspective view and (d) are exploded perspective views of the 1st wall surface connecting member.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 House 4 Wiring 5 Outer wall surface 5a Through-hole 5b Right angle wall 6 Power meter box 6b Lead-in hole 7 Wiring accommodation path 7 'Branch wiring accommodation path 7a Lead-in side end part 7b Lead-out side end part 7c Opening 9 Base 9a Around bottom wall part 9c Stop projection 9e Inward recess 10 Cover 10b Inward bending 13 Terminal base 15 Terminal cover 19 Saddle 22 Terminal member 23 Connection base 23d Recess 25 Connection cover 25d Protrusion 28 Box connection member 28a One end 28b The other end 30 Base 31 Cover 42 Second wall connection member 42a Concave cut groove 42b Screw hole 42c Thin film portion 42d Short tube portion 43 Decorative plate 43a Bottom wall portion 43d Flange portion 44 Plate cover 44d Flange portions L1 to L6 Dividing lines T1, T2 Step

Claims (3)

It is a protective structure for the wiring (4) that is drawn indoors from the outside via the wattmeter box (6) arranged on the outer wall surface (5) of the house (1),
It consists of a single member or a plurality of members arranged along the outer wall surface (5) of the house (1), and the lead-in side end (7a) into which the wiring is drawn in and the wiring (4) into the wattmeter box (6) The wiring is accommodated in a hollow wiring accommodating path (7) having a drawing-side end (7b) drawn out toward the end, and the drawing-side end (7b) of the wiring accommodating path (7) A box connecting member (28) is disposed that covers the wiring (4) drawn from the side end (7b) and drawn into the drawing hole (6b) in the peripheral wall of the wattmeter box (6),
The box connection member (28) is composed of a connection base (23) and a connection cover (25).
A connection base (23 formed in a substantially U-shaped cross-sectional shape that fits on the outer surface of the base (9) of the wiring receiving path (7) is formed on the outer wall surface (5) where the lead-out side end (7b) is located. ) Is fixed in advance, and the rear end portion on the lead-out side end portion (7b) side of the wiring accommodating path (7) is inserted into the connection base (23),
The connection cover (25) paired with the connection base (23) is formed in a substantially U-shaped cross-sectional shape that fits on the outer surface of the cover (10) of the wiring accommodation path (7), and the cover (10). In a state where it is covered with the rear end portion of the drawer side end (7b) side of the connection base (23),
The other end (28b) of the box connecting member ( 28 ) on the wattmeter box (6) side is formed to have a wide end-like width in the width direction ,
The wattmeter box (6) includes a base (30) and a cover (31), and a dividing line (L3) between the base (23) and the cover (25) of the box connecting member (28) is provided. At least in the vicinity of the power meter box (6), the power meter box (6) is positioned closer to the outer wall surface (5) than the dividing line (L1) between the base (30) and the cover (31). The cover (31) of the box (6) is formed by removing the connection cover (25) of the box connection member (28), sliding the cover (31) upward, and then pulling forward. Wiring protection structure characterized in that it can be removed . The dividing line of the box connecting member is such that the end on the wattmeter box side is located closer to the outer wall surface than the dividing line of the wattmeter box, and the end on the wiring accommodating path side is continuous with the dividing line of the wiring accommodating path The wiring protective structure according to claim 1 , wherein the wiring protective structure is formed. The box connecting member has a recess formed in the side wall portion of the base located in the vicinity of the wattmeter box, and a convex portion formed in the side wall portion of the cover located in the vicinity of the wattmeter box. Is located on the outer wall surface side near the dividing line of the wattmeter box in the vicinity of the wattmeter box, and is formed so as to be substantially in line with the dividing line of the wiring accommodation path outside the vicinity of the wattmeter box. The wiring protective structure according to claim 2 , wherein:

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