JPH01157210A - Floor wiring mechanism - Google Patents

Abstract

PURPOSE:To facilitate the new setting of wiring, the increment of equipments, and the improvement of repair, by setting a wiring pit so that an opening on the side surface of the wiring pit may be faced with a duct set on the surface of a floor, and by leading a cable in the duct, into the wiring pit. CONSTITUTION:A power line W1 from a distribution hoard T1 and a data line W2 from an information board T2 are classified, and are contained in a duct 10 constructed on the lower side of a floor surface F. A wiring pit 21 is set so that the side surface opening 22 of the pit 21 may be faced with the duct 10. Wiring floor members 20 are arranged in the shape of a matrix, and between the members 20, the wiring pits 21 are formed in the shape of a lattice. The power line W1 and the data line W2 are classified and are led from the duct 10 into the wiring pit 21, and terminals are risen in a plurality of terminal equipments M. The upper surface of the floor members 20 is covered with floor boards to form the floor surface F. As a result, the new setting of a wiring, the increment of equipments, and the improvement of repair are facilitated.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention provides a method for installing each O
This article relates to a floor wiring structure for wiring cables such as A-type equipment power lines and communication lines.

(Prior art) Supported by the remarkable advances in electronic technology and communication technology in recent years, OA equipment has undergone rapid evolution, and as a result,
Office automation of general office work is also progressing at a remarkable pace.

For this reason, OAI devices, which had previously been placed near the walls and windows of office automation rooms, have gradually begun to spread throughout the room, and the AC power cables used for these devices (hereinafter referred to as "
The environment in office automation rooms has deteriorated, with floors covered with cables such as power cables (hereinafter referred to as "power cables"), signal lines, and communication lines (hereinafter referred to as "information cables").

Therefore, a floor wiring structure as shown in FIG. 11 was devised. This floor wiring structure is based on Utility Model No. 62-13103.
Wiring floor material (90
) are laid on the floor of the OA room, each OA equipment (93) is placed on top of the carpet (92), and an electric cable (Wl) is placed on each wiring pin (91).
The purpose is to improve the environment of the OA room by inserting information cables (enemy 2) and information cables (enemy 2).

(Problem to be solved by the invention) However, when several types of cables (Wl) (enemy 2) are wired using this type of floor wiring structure, as shown in FIGS. board (Tl) and information board (
The cable (WIX SO2) from T2) is connected to the wiring pit (9
1) Wiring will be concentrated within the However, the width of the pitch (91) of this type of wiring floor material (90) is
Usually, it is formed narrowly, and when a large number of cables (holes) are distributed in this wiring pit (91), the 12th
As shown in the figure, the power cable (eye) and the information cable (
-2) are mixed and intersected within the same wiring pin (91), which poses a problem in that maintenance during equipment expansion or repair improvement becomes complicated.

In addition, electric power cable (Wl) and information cable (v2)
At the point where they intersect (the point indicated by the arrow \ in Figure 12), noise is superimposed on the information cable (Wl-) due to electromagnetic induction of the power cable (Wl), which may cause malfunction of each device (93). There were some problems.

Furthermore, a large number of 0A
If 41 units (93) are installed, cape/l, (w
1) (Wl) was routed more than necessary, which caused a voltage drop and caused malfunction of each device (93).

The present invention was made in view of the above circumstances, and
The purpose is to make maintenance easier by wiring cables in an orderly manner within the wiring flooring, and to prevent interference due to electromagnetic induction by eliminating the intersection of power cables and information cables within the wiring pit. To provide a floor wiring structure which can prevent voltage drop as much as possible by reducing cable routing.

(Means for Solving the Problems) The means taken by the present invention to solve the above problems are as follows: 2) on the floor (F
) Wiring floor material (20) equipped with a duct (10) installed on the floor (F) and a wiring pit (2+) laid on the floor (F)
and the wiring pit (2) in the duct (10).
A floor wiring structure characterized in that the side openings (22) of 1) are arranged so as to face each other, and the cable (l/l) (2) in the duct (10) is drawn into the wiring pit (21). Its gist is as follows.

(Action of the invention) Therefore, the present invention provides a duct installed on the floor (F) (
By arranging the wiring floor material (20) so that the side opening (22) of the wiring pit (21) faces the wiring pit (21), the wiring board (TI) and information board (T2) can be installed on the duct (10). Various cables (%1ll) (Wl) such as electric cables (s 1) and information cables (s 2) can be drawn in and wired from etc., and then branched to wiring pins (21) to connect each device (M). ).

(Example) The present invention will be described below according to an example shown in FIGS. 1 to 6.

FIG. 1 is a partial perspective view showing the floor wiring structure according to this embodiment;
Fig. 2 is a partially enlarged view of Fig. 1, Fig. 3 is a perspective view of the construction member (40) in Fig. 2, and Fig. 4 is an A in Fig. 2.
= A enlarged sectional view, FIG. 5 is an enlarged BB sectional view in FIG. 2, and FIG. 6 is a plan view showing the concept of the floor wiring structure according to this embodiment.

In these figures, the symbol (10) is a duct formed of polyvinyl chloride so that the cross section is in the shape of a horizontal E,
Partition wall (1) installed on the floor (F) and erected in the center
1) into a heavy power wiring path (12) and a light power wiring path (13), and a heavy power cable (Wl) such as a power cable (attached) drawn from the distribution board (Tl) and an information panel. Information cable pulled in from (T2) (enemy 2)
It is now possible to wire separately from light power cables such as 2). The right wall (14) of this duct (lO)
) (on the right side in the figure) and the top of the partition wall (11), there is a thin wall part (
15a) is formed, and as shown in FIG. 2, a wiring pit) (2
By cutting out the can wall (11) (1, 4) at the location corresponding to 1), an opening (15) facing the side opening of the wiring pit (21) is formed, and this opening (15) The cable (WIXν2) can be drawn from the duct (10) to the wiring pin (21) through the duct. Note that this opening (15) may be formed by a knockout that forms a rectangular knockout hole when punched. Further, a recess (16) is formed at the upper edge of the partition wall (11) over the entire length thereof, and a fourth
As shown in the figure and Fig. 5, a decorative cover (50
) is adapted to engage with a protrusion (51) formed at the center of the back surface. Note that the duct (10) does not necessarily need to be divided into a wiring passage for heavy electricity (12) and a wiring passage for light electricity (13), and may be a single duct (10) with only one wiring passage, but this By dividing into two or more as in the embodiment, each wiring path (12
) (13) Cables (Wl) (IJ2) can be organized in lacquer for each cable, making maintenance even easier when expanding equipment or repairing and improving.

Code (20) is made of polyethylene and has a length of 1 m on one side.
It is a square wiring floor material, in which a checkerboard-shaped wiring pit (21) is formed by four pits (21a021b) running vertically and horizontally, and an O
Type A equipment M) electric cable (Wl) and information cable (
Wl) can be wired. The bottoms (21c) of these pits (21a) (21b) are extremely thin compared to other parts, and the floor surface (F ) The wiring floor material (20) is bent to some extent at the bottom (21c) of the pit (21a) (21b). In addition, the code|symbol (30) is a carpet placed directly on the upper surface of the flooring material for wiring (20).

Reference numeral (40) is an installation member formed in an abbreviated shape from polyvinyl chloride, and as shown in FIG. A guide path leading to the wiring pit (21) of the flooring material (20) is formed by two white walls (41a) (41b), and as shown in Fig. 5, this construction member (40)
A recess (42) formed at the edge of the opening (15) of the partition wall (11) engages with the edge of the opening (15) of the partition wall (11) to connect the light electrical wiring path (13).
).

Reference numeral (50) denotes an aluminum decorative cover that covers the duct (10), and as shown in FIGS.
) is adapted to engage with a recess (16) formed at the end of the partition wall (11) of the duct (10).

Each member configured as described above is arranged as follows.

That is, as shown in FIG. 1, FIG. 2, and FIG.
(10) is installed on the floor (F) on the wall side where the distribution board (TI) and information board (T2) are installed, and the wiring floor material (50)
The side opening (22) of the wiring pin (2],) is connected to the duct (
10) is laid so as to face the frontage (15) formed in the right side wall (14). Then, the heavy electric power cable (12) such as the power cable (1) common to each OA type equipment M) is connected to the heavy electric power wiring path (12) of (10), such as the information cable (2). Light electrical cable (1*11
) is a distribution board (T1) in each light power wiring path (13).
Or it is drawn in from the information board (T2). The drawn-in heavy power cable (su1) straddles the light power cable (v2) by the guideway of the construction member (40) and reaches the wiring pit (21).
and connected to each OA type equipment M), and the light power cable (%111) is routed from the light power wiring path (13) through the opening (15) in the right side wall (14) to the wiring pin (2).
1) and connected to each OA type device M).

At this time, the cable for heavy electricity (%11) and the cable for light electricity (%11) are
WIXW2) will intersect at the location indicated by the arrow in Fig. 6, but both cables (WIXW2)
) are separated from each other, so electromagnetic induction interference can be prevented.

Furthermore, by forming the duct (10) from metal, an electromagnetic shielding effect can be obtained within the duct (10), and electromagnetic interference can also be prevented.

In this way, the floor wiring structure according to this embodiment is arranged so that the side opening (22) of the wiring pit (21) faces the duct (10) arranged on the floor (F). By placing (20), the distribution board (T1) is placed on (10).
Various cables (Wl) 12) such as power cables (Wl) and information cables (enemy 2) can be drawn in and routed from the information board (T2), etc., and further branched from there to the wiring pit (21) to connect each device. (M) can be wired. Therefore, the cable (WIXW2) inside the wiring pin (21)
), the wiring maintenance becomes very easy as there is no mixing of cables (old) and information cables (v2), and interference due to electromagnetic induction can be prevented. (y
t) (W2) is also eliminated, and voltage drop can be prevented as much as possible.

The shape of the wiring pins (21) of the wiring floor material (20) is not limited to the above embodiment, but may be formed radially as shown in FIG. 8
They may be formed in parallel as shown in the figure.

Further, the arrangement relationship between the duct (10) and the wiring pit (21) is not limited to the above embodiment, and may be arranged as shown in FIG. 9 or 10-. ) Wiring pin) (21) side opening (22)
It suffices if they are placed so that they face each other. At this time, the 10th
Instead of dividing the duct into two as in the case shown in the figure, use the wiring floor material (2
If the left side duct (10a) across 0) is used as the wiring path (12) for heavy electric current, and the right side duct (10b) is used as the wiring path (13) for light electric current, As in the embodiment shown in the figure, it is no longer necessary for the heavy power cable (Wl) to straddle the light power wiring path (13), so the height of the duct (10) can be kept low.
10) and the wiring floor material (20) can be on the same surface, and not only when the duct (lO) is made of metal, but also when it is made of resin,
Since the power cable (-1) and the information cable (2) are wired separately, interference due to electromagnetic induction can be prevented.

(Effects of the Invention) As described above, the floor wiring structure according to the present invention is provided by arranging the wiring floor material so that the side opening of the wiring pit faces the duct arranged on the floor. It is configured so that various cables such as power cables and information cables can be drawn in and routed from the distribution board or information panel, and further branched from there to a wiring pit and wired to each device.

Therefore, in the conventional floor wiring structure as shown in Fig. 12,
Various cables were wired vertically and horizontally within the wiring floor material, and the cables in the wiring pit were mixed and crossed, but according to the floor wiring structure according to the present invention, as shown in FIG. In addition, the cables in the duct only need to be wired in one direction, horizontally or vertically, and the cables in the wiring pit can only be wired in one direction, vertically or horizontally.

Therefore, according to the floor wiring structure according to the present invention, various cables in the wiring pit can be arranged and routed. Maintenance becomes extremely easy when expanding equipment or repairing and improving equipment.

In addition, various types of cables such as power cables and information cables can be routed without crossing each other within the wiring pit, which prevents interference caused by electromagnetic induction, and thereby ensures normal operation of each OA type equipment. will be compensated.

Furthermore, since the number of electrical cables and the like to be routed can be reduced, voltage drops due to the route can be prevented as much as possible, and the normal operation of each OA type device is thereby guaranteed.

[Brief explanation of the drawing]

FIG. 1 is a partial perspective view showing one embodiment of the floor wiring structure according to the present invention, FIG. 2 is a partially enlarged view of FIG. 1, FIG. 3 is a perspective view of the construction member in one embodiment, and FIG. 4 5 is an enlarged sectional view taken along line BB in FIG. 2, FIG. 6 is a plan view showing the concept of the floor wiring structure according to the embodiment, and FIGS. FIG. 8 is a plan view showing another example of the shape of the wiring pit, FIGS. 9 and 10 are plan views showing other examples of the arrangement relationship between the duct and the wiring pit, and FIG.
The figure is a partial perspective view showing a conventional floor wiring structure, and FIG. 12 is a plan view showing the concept of the conventional floor wiring structure. Explanation of symbols IO...dak) 20...Wiring floor material 2
1... Wiring pit 22... Side opening Tl... Distribution board T2... Information board 1... Power cable 2... Information cable F... Above floor level Patent applicant Future Kogyo Co., Ltd.Figure 4Figure 5Figure 6Figure 7Figure 8Figure 9Figure 10

Claims (1)

[Claims] 1) A duct installed on the floor for leading in and wiring cables from a distribution board, information board, etc., and a wiring flooring material provided with a wiring pit laid on the floor. A floor wiring structure, characterized in that the duct is arranged so that the side opening of the wiring pit faces the duct, and the cable in the duct is drawn into the wiring pit. 2) The floor wiring structure according to claim 1, wherein the duct has a wiring path for heavy current and a wiring path for weak current. 3) The floor wiring structure according to claim 1 or 2, wherein the wiring pits are formed in a grid pattern. 4) The floor wiring structure according to claim 1 or 2, wherein the wiring pits are formed radially. 5) The floor wiring structure according to claim 1 or 2, wherein the wiring pits are formed in parallel.