KR101380704B1 - Conductor for electric circuit - Google Patents

Abstract

A conductor for an electric circuit system in which a plurality of conductors 1 are arranged along a traveling path of the traveling body at predetermined adjacent intervals, and the traveling body travels while collecting current from the conductor while the current collector slides in contact with the conductor 1 ( 1). It has a slide contact surface 11 and the adjacent surface 12 which adjoins the slide contact surface 11 which slide-contacts an electrical power collector, and predetermined | prescribed in the running direction of a traveling body in the boundary part of the slide contact surface 11 and the adjacent surface 12. A plurality of cut surfaces 13 are formed at intervals L. The predetermined distance L of the plurality of cut surfaces 13 is smaller than half of the value obtained by reducing the predetermined insulation distance L2 from the predetermined adjacent distance.

Description

CONDUCTOR FOR ELECTRIC CIRCUIT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a conductor for an electric circuit system in which a current collector slides on a conductor to conduct current collection.

Background Art Conventionally, electric circuit systems have been used in which a conductor is provided along a traveling path of a traveling body, and the traveling body travels while the current collector provided on the traveling body slides into contact with the conductor, and current is collected from the conductor.

The conductor is made of a conductive member of a long length, one surface of which is a slide contact surface, and a current collector provided with a traveling body slides in contact with the slide contact surface. Supplied.

In such a current collecting system, since the conductor and the current collector slide contact, these slide contact surfaces are likely to be damaged. That is, as shown in Fig. 12A, the slide contact surfaces of the conductor 1 and the current collector 2 are microscopically uneven surfaces, and when the two are in sliding contact with each other, the convex curved surfaces 81 are contacted and destroyed. (I.e., worn), wear powder 82 is discharged from between the slide contact surfaces. In this case, since the atoms of the convex surfaces 81 are easily joined and alloyed, adhesion (sintering) occurs easily, and one convex curved surface 81 becomes a small piece by shearing after condensation, and the other convex curved surface ( 81). While the sticking continues, the small pieces are separated from the body and become independent wear powder 82.

In addition, the adhered small pieces create a new convex curved surface 81, and the repetition of the detachment causes the wear powder 82 to grow without being discharged between the slide contact surfaces, thereby producing burrs as shown in Fig. 12B. burr) 83 may occur. This burr 83 is generated to be pushed out between the slide contact surfaces to both sides, and is generated to be connected to the fiber in the longitudinal direction of the conductor 1. Thus, when the long linear bur 83 generate | occur | produces, it may contact with the conductor 1 of another phase installed adjacently, the housing to which it is grounded, etc., and there exists a possibility that a short circuit or a wrinkle may arise. Therefore, in order to solve this problem, for example, a conventional technique such as Japanese Utility Model Publication No. Hei 3-97302 (hereinafter referred to as Document 1) has been developed.

In the prior art shown in Document 1, a plurality of cutting surfaces formed in a direction intersecting the longitudinal direction of the conductor are provided on the slide contact surface of the conductor at predetermined intervals. As a result, burrs generated between the slide contact surfaces are prevented from breaking at the cut surface portions and growing beyond the cut surfaces in the longitudinal direction, and short circuits and wrinkles caused by the burrs are prevented.

However, when the cut surface is formed on the slide contact surface, wear and vibration increase due to the slide contact between the current collector and the conductor, as compared with the case where the cut surface is not formed on the slide contact surface.

The present invention has been invented in view of the above-described conventional problems, and an object thereof is to provide a conductor for a current collecting system in which generation of burrs due to slide contact between the current collector and the conductor is suppressed and wear and vibration are suppressed from increasing. will be.

In order to solve the above problems, the present invention has the following configuration.

In the conductor for an electric circuit system of the present invention, a plurality of conductors are arranged along a traveling path of a traveling body at predetermined adjacent intervals so that the traveling body travels while the slide is brought into contact with the current collector installed on the traveling body. The above conductors are used in an electric circuit system for performing current collection. The conductor for the electric circuit system has a slide contact surface in sliding contact with the current collector and an adjacent surface adjacent to the slide contact surface. A plurality of cut surfaces are formed at a boundary between the slide contact surface and the adjacent surface at predetermined intervals in the travel direction of the traveling body. The predetermined interval is less than half of the value obtained by reducing the predetermined insulation distance from the predetermined adjacent interval.

In addition, the conductor for an electric circuit system of the present invention is provided with an insulating coating that accommodates the conductor along the traveling path of the traveling body, and the traveling body travels while the slide is brought into contact with the conductor, the current collector provided on the traveling body, the conductor The above conductors are used in an electric circuit system for performing current collection. The conductor for the electric circuit system has a slide contact surface in sliding contact with the current collector and an adjacent surface adjacent to the slide contact surface. A plurality of cut surfaces are formed at predetermined intervals in the traveling direction of the traveling body on a boundary portion between the slide contact surface and the adjacent surface. The predetermined interval is less than half of the value obtained by reducing the width of the conductor from the width of the insulating coating.

In the conductor for an electric circuit system, it is preferable that a plurality of the conductors are arranged in parallel with an interval of 16.8 mm so that the predetermined interval is smaller than 3.9 mm, which is half of the value obtained by reducing the insulation distance of 9 mm from the adjacent interval of 16.8 mm. .

In the conductor for an electric circuit system, it is preferable that a plurality of the conductors are arranged side by side with an interval of 9 mm so that the predetermined interval is smaller than 1.5 mm, which is half of the value obtained by reducing the insulation distance of 6 mm from the adjacent interval of 9 mm.

In the conductor for an electric circuit system, it is preferable that the cut surface is recessed in a predetermined dimension from the adjacent surface to the slide contact surface.

In this invention, generation | occurrence | production of the burr by the slide contact of an electrical power collector and a conductor is suppressed, and increase of abrasion and a vibration is suppressed.

1: shows the conductor of one Embodiment of this invention, (a) is a side view, (b) is a bottom view, (c) is AB sectional drawing of FIG.
2 is a perspective view showing a part of an electric circuit system, a conveying system and a traveling body.
3 is a partial sectional view showing an electric circuit system, a conveying system and a traveling body.
4 is a perspective view through the inner insulation sheath and conductor of the housing rail of the electric circuit system.
(A) is sectional drawing of the housing rail which accommodated the insulation coating and conductor in said embodiment, (b) is an enlarged view explaining the insulation distance of the conductor adjacent in (a).
6 is a cross-sectional view of a housing rail accommodating an insulation coating and a conductor in another embodiment.
7 is a cross-sectional view of a conductor of another embodiment and an insulating coating containing the same.
8 is a cross-sectional view of a conductor of still another embodiment.
9 is a perspective view of a current collector of yet another embodiment.
10 is a perspective view of a current collector of yet another embodiment.
11 is a perspective view of a current collector of yet another embodiment.
Fig. 12 shows a slide contact state between a conventional conductor for an electric circuit system and a current collector, (a) is a cross-sectional view illustrating the discharge of wear powder from a mutual slide contact surface, and (b) a burr at the mutual slide contact surface. It is sectional drawing explaining generation | occurrence | production.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated according to embodiment shown to an accompanying drawing.

In the electric circuit system, a conductor is provided along a travel path of a traveling body, and the traveling body conducts current collection from the conductor by sliding the current collector installed in the traveling body while slidingly contacting the conductor. In this embodiment, as shown to FIG. 2, FIG. 3, the conveying system 71 carries the conveyance rail 71 provided along the predetermined | prescribed travel path | route so that the traveling body 3 may run to the support body 32 through the wheel 33. 7) is provided, and the electric circuit system is provided in this conveyance system 7 in parallel. Here, the wheel 33 is fixed to the inner surface 3201 side of the support body 32 so as to be rotatable in the circumferential direction. Moreover, the conveyance rail 71 is equipped with the 1st end part 71A and the 2nd end part 71B in the longitudinal direction Y. As shown in FIG. In addition, in the lateral direction X, at least both ends of 71 A of 1st edge parts of the conveyance rail 71 are clamped from both sides by the support body 32 by the wheel 33.

As the traveling body 3, various moving bodies, including a member moving in a crane, a hoist, a manufacturing line, an inspection line, etc. are mentioned, In this embodiment, although the electric machine 4 is equipped with the electric hoist, it is not specifically limited. .

In this embodiment, the temporary bar 70 is provided in the upper part of the travel path | route of the traveling body 3 of a building, The conveyance rail 71 and the electric circuit system of the conveying system 7 are installed in this temporary bar 70. As shown in FIG. Housing rail 61 is suspended. Here, the conveyance rail 71 is suspended by the temporary bar 70 by fastening and fixing the said 2nd end part 71B and the temporary bar 70 by well-known means, such as a bolt and welding. In addition, a part of the housing rail 61 is covered by the fixed frame 63. In addition, the fixed shaft 64 penetrating these is provided in the temporary frame 70 and the fixed frame 63. The fixed shaft 64 is fixed by the temporary bar 70 and well-known means, such as a nut and welding. As a result, the housing rail 61 is suspended from the temporary bar 70.

The main body 30 of the traveling body 3 is supported by the conveyance rail 71 so that a run is possible, and the current collector 5 which is a part of the traveling body 3 and is a trolley is supported by the housing rail 61 so that a running is possible. do. The main body 30 of the traveling body 3 is connected to the current collector 5 through the traction arm 31 at the same time as the electric device 4 is installed, and the current collector 5 as the main body 30 travels. ) Is also running.

As shown to FIG. 3, FIG. 4, the housing rail 61 is formed from the steel plate molding material, and is provided with the opening part 65 downward in the longitudinal direction Y. As shown in FIG. This opening 65 becomes a housing rail 61 earth. In the vicinity of the opening 65 of the inside 61A of the housing rail 61, the current collector holder 51 is supported by the current collector 5 so as to be able to travel. A fastener 62A that extends in the horizontal direction X and is fixed to the inside 61A of the housing rail 61 is provided above the longitudinal direction Y of the inside 61A of the housing rail 61. An insulating sheath 62 made of an insulating material and open in one direction (downward in the longitudinal direction Y in the figure) is provided in the fixing tool 62A, and the conductor 1 is fixed to the insulating sheath 62.

As shown in FIG. 1, the conductor 1 is formed of a conductive member having a long length, and a slide contact surface whose one surface (first surface 1A of the conductor 1) is in sliding contact with the current collector 2 ( 11), and in this embodiment, it is comprised from the molding material which has a predetermined cross-sectional shape formed with copper or another unit metal or alloy. Although the cross-sectional shape of the conductor 1 is not specifically limited, In this embodiment, substantially H type | mold which consists of the flange parts 101A and 101B and the web part 102 is performed. And the outer surface (1st surface 1A of the conductor 1) (surface opposite the web part 102) of 101 A of one flange part (1st flange part) turns into the slide contact surface 11, Sides on both sides of the branch portion 101A become adjacent surface 12 continuous adjacent to the slide contact surface 11. That is, both surfaces in the longitudinal direction X of the flange portion 101A sandwich the slide contact surface 11 and serve as the adjacent surface 12 continuous to the vertical direction Y. On the other hand, the 2nd flange part 101B side in the conductor 1 is fixed by the insulating sheath 62 as mentioned above. As shown in Fig. 5 (a), a plurality of these conductors 1 are arranged in a predetermined adjacent distance L1 in the horizontal direction X, and each slide contact surface 11 is downward in the vertical direction Y. The second flange portion 101B is fixed to the insulating sheath 62 so as to face the same. In the present embodiment, three conductors 1 are arranged side by side with an adjacent gap L1 of 16.8 mm in the horizontal direction X. The current collector 2 is in sliding contact with the slide contact surface 11 from the downward direction (the first flange portion 101A side).

As shown in FIG. 3, the current collector 2 is held by a current collector holder 51 provided at an upper end portion in the longitudinal direction Y of the current collector 5, and the slide contact surface 21 thereof is a conductor 1. ) Is fixed so as to face the slide contact surface 11 (in this embodiment, facing upward).

And as shown in FIG. 1, predetermined space | interval L in the longitudinal direction Y to the part which becomes the boundary of the slide contact surface 11 and the adjacent surface 12 of the conductor 1 (part where the one-sidedness of the slide contact surface 11 changes). A plurality of cut surfaces 13 are formed at intervals of. A plurality of cutting surfaces 13 are formed in the longitudinal direction (vertical direction Y) of the conductor 1, ie, in the traveling direction of the traveling body 3 in sliding contact with the slide contact surface 11 at intervals of a predetermined interval L. Here, the predetermined interval L is determined according to the predetermined insulation distance L2 determined by the current and voltage fed by the electric circuit system. Here, as shown in Fig. 5 (b), the insulation distance L2 in the present embodiment has a burr 83 having a length L described later in a direction (horizontal direction X) facing each other from adjacent conductors 1. In this case, the length of the gap formed between the burrs 83 is referred to. In the electric circuit system of this embodiment shown in FIG. 5, the rated current is 100A or less, the rated voltage is more than 300V and 600V or less, and the predetermined insulation distance L2 in this case is 9 mm in the case of JIS standard (Japan Standards Association) See, "JIS Handbook (2011) ((19)) Electrical Installation I", C8373 Trolley Bus Ducts, see Table 3 on page 2347). The predetermined distance L is set to a value smaller than half of the value obtained by reducing the predetermined insulation distance L2 from the predetermined adjacent distance L1. In the present embodiment, the predetermined distance L <(16.8mm-9mm) /2=3.9mm is set, but it is preferable that the margin (0.1mm in this embodiment) is reduced to set the predetermined distance L <3.8mm. . The length of the margin is not limited to 0.1 mm. In addition, in this embodiment, the cut surface 13 is formed so that the sliding contact surface 11 may be recessed by predetermined dimension Lx from the adjacent surface 12 in the horizontal direction X of the conductor 1. As this predetermined dimension Lx, although setting to 1.2 mm is illustrated concretely, it is not limited to this.

When the slide contact surface 11 of the conductor 1 and the slide contact surface 21 of the current collector 2 are in sliding contact with each other, adhesion occurs by shearing after adhesion, and the burr 83 as shown in FIG. May occur. In this embodiment, since the cutting surface 13 is provided in the boundary part of the slide contact surface 11 and the adjacent surface 12 of the conductor 1 in which the burr 83 generate | occur | produces, the longitudinal direction ( The burr 83 is prevented from growing in the longitudinal direction Y) of the conductor 1. That is, the burr 83 is difficult to grow to a length exceeding the interval (that is, the predetermined interval L) of the cut surface 13. And since the predetermined space | interval L is set to the value smaller than half of the value which reduced the predetermined insulation distance L2 from the predetermined | prescribed adjacent space | interval L1, even if the burrs 83 of adjacent conductors 1 and 1 grow so that they may mutually grow, There is a gap between the predetermined insulation distance L2 and more. Thereby, even if the burr 83 generate | occur | produces in the conductor 1, the predetermined insulation distance L2 is ensured between burrs 83, and the short circuit and wrinkle by the burr 83 are prevented. In addition, wear and vibration generated when the current collector 2 contacts the slide contact surface 11 are not as large as those in the case where the cut surface is formed on the slide contact surface 11.

Next, another embodiment will be described with reference to FIG. 6. In addition, about the structure similar to the said embodiment, the same code | symbol is attached | subjected, description is abbreviate | omitted, and a different structure is demonstrated. In the present embodiment, the number of conductors 1, the predetermined interval L, the predetermined adjacent interval L1, and the predetermined insulation distance L2 are different from the above embodiments.

That is, in the electric circuit system of this embodiment, the rated current is 100 A or less and the rated voltage is 300 V or less, and the predetermined insulation distance L2 in this case is 6 mm in the case of JIS standard. In addition, five conductors 1 are arranged side by side with an adjacent gap L1 of 9 mm. At this time, the predetermined interval L <(9mm-6mm) /2=1.5mm is set, but it is preferable that the margin (0.1 mm in this embodiment) is reduced to set the predetermined interval L <1.4mm. The length of the margin is not limited to 0.1 mm. Thereby, the effect similar to the said embodiment can be acquired. In addition, in this embodiment, the cut surface 13 is the slide contact surface 11 from the adjacent surface 12 in the horizontal direction X of the conductor 1 (1st flange part 101A of the conductor 1) similarly to the above. (1st of 1 A of 1st surface of the conductor 1) is formed so that it may be recessed by predetermined dimension Lx (not shown). As this predetermined dimension Lx, although setting to 1.2 mm is illustrated concretely, it is not limited to this.

Next, another embodiment will be described with reference to FIG. 7. In addition, about the structure similar to the said embodiment, the same code | symbol is attached | subjected, description is abbreviate | omitted, and a different structure is demonstrated.

In this embodiment, the conductor 1 does not need to be provided in plurality, and the width L3 (length direction (length perpendicular | vertical to the longitudinal direction Y of the conductor 1) of the insulating sheath 62 in which this conductor 1 is accommodated is shown. ) And the width L4 of the conductor 1 (the length direction (the length orthogonal to the longitudinal direction Y of the conductor 1)) is set. Specifically, the predetermined distance L is defined by the insulation sheath 62. The width L3 is set to a value smaller than half of the value obtained by reducing the width L4 of the conductor 1 (that is, L <(L3-L4) / 2). (1) In the transverse direction X of (the first flange portion 101A of the conductor 1), the predetermined contact is made from the adjacent surface 12 to the slide contact surface 11 (the first surface 1A of the conductor 1). It is formed so that the dimension Lx may be concaved (not shown). Although this predetermined dimension Lx specifically sets to 1.2 mm, it is not limited to this.

Although no special member is provided in the opening direction (downward in the vertical direction Y) of the insulating sheath 62 containing the conductor 1 to avoid the current collector 2 traveling, the width of the insulating sheath 62 is reduced. A conductive member (not shown) may be provided outside the direction (horizontal direction X). Even in such a case, even if the burr 83 grows on the outer side of the conductor 1 in the width direction by setting the predetermined interval L as described above, it does not reach the outer side of the width direction of the insulating sheath 62. This prevents short circuits and wrinkles caused by the conductive member on the outer side of the insulating sheath 62 and the burr 83 of the conductor 1.

Next, another embodiment will be described with reference to FIG. 8. In addition, about the structure similar to the said embodiment, the same code | symbol is attached | subjected, description is abbreviate | omitted, and a different structure is demonstrated.

In this embodiment, the conductor 1 is provided along the travel path of the traveling body 3, and the current collector 2 in which the traveling body 3 is installed on the traveling body 3 is in sliding contact with the conductor 1. The present invention relates to a conductor 1 used in an electric circuit system that travels while collecting current from the conductor 1. And it is characterized by forming so that the slide contact surface 11 which slide-contacts with the electrical power collector 2 may become a convex curved surface. Thereby, the area which slide-contacts the collector 2 and the conductor 1 can be made small, the growth of the burr 83 is suppressed, and the short circuit and the wrinkle by the burr 83 are prevented. In this case, also in the conductor 1 in this embodiment, you may provide the cut surface 13 as mentioned above. In addition, in this embodiment, the cutting surface 13 is the slide contact surface 11 from the adjacent surface 12 in the horizontal direction X of the conductor 1 (1st flange part 101A of the conductor 1) similarly to the above. It is formed so that the 1st surface 1A of the conductor 1 may be recessed by predetermined dimension Lx (not shown). As this predetermined dimension Lx, although setting to 1.2 mm is illustrated concretely, it is not limited to this.

Next, another embodiment will be described with reference to FIG. 9. In addition, about the structure similar to the said embodiment, the same code | symbol is attached | subjected, description is abbreviate | omitted, and a different structure is demonstrated.

In this embodiment, the conductor 1 is provided along the travel path of the traveling body 3, and the current collector 2 in which the traveling body 3 is installed on the traveling body 3 is in sliding contact with the conductor 1. The present invention relates to a current collector 2 used in an electric circuit system that travels while collecting current from the conductor 1. And it is characterized by forming so that the slide contact surface 21 which slide-contacts the conductor 1 may become a convex curved surface. In addition, the code | symbol 52 in a figure is a pressing member which consists of a spring for pressing the collector 2 to the conductor 1. As shown in FIG. Thereby, the area which slide-contacts the collector 2 and the conductor 1 can be made small, the growth of the burr 83 is suppressed, and the short circuit and the wrinkle by the burr 83 are prevented.

Next, another embodiment will be described with reference to FIG. 10. In addition, about the structure similar to the said embodiment, the same code | symbol is attached | subjected, description is abbreviate | omitted, and a different structure is demonstrated.

In this embodiment, the conductor 1 is provided along the travel path of the traveling body 3, and the current collector 2 in which the traveling body 3 is installed on the traveling body 3 is in sliding contact with the conductor 1. The present invention relates to a current collector 2 used in an electric circuit system that travels while collecting current from the conductor 1. And the notch part has the slide contact surface 21 and slide contact surface 21 which are in sliding contact with the conductor 1, and is adjacent to the slide contact surface 21, and the boundary part of the slide contact surface 21 and the adjacent surface over the whole length of a travel direction. (22) is formed. In this case, it is preferable that both ends of the travel direction in the slide contact surface 21 are formed so that it may become a convex curved surface. Thereby, the area which slide-contacts the collector 2 and the conductor 1 can be made small, the growth of the burr 83 is suppressed, and the short circuit and the wrinkle by the burr 83 are prevented.

Next, another embodiment will be described with reference to FIG. 11. In addition, about the structure similar to the said embodiment, the same code | symbol is attached | subjected, description is abbreviate | omitted, and a different structure is demonstrated.

In this embodiment, the conductor 1 is provided along the travel path of the traveling body 3, and the current collector 2 in which the traveling body 3 is installed on the traveling body 3 is in sliding contact with the conductor 1. The present invention relates to a current collector 2 used in an electric circuit system that travels while collecting current from the conductor 1. And a part of the slide contact surface 21 which slide-contacts the conductor 1 is formed in the recessed part which injects into the collector 2 from the slide contact surface 21, and the solid lubricant 23 is a slide contact surface in this recessed part. Buried so as to be exposed at (21). Thus, a part of the lubricant is supplied between the slide contact surface 11 of the conductor 1 and the slide contact surface 21 of the current collector 2, so that the slide contact surface 11 and the current collector 2 of the conductor 1 are supplied. The growth of the burr 83 between the slide contact surfaces 21 is suppressed, and short circuits and wrinkles caused by the burr 83 are prevented.

Next, another embodiment will be described. In addition, description is abbreviate | omitted about the structure similar to the said embodiment, and a different structure is demonstrated.

In this embodiment, the conductor 1 is provided along the travel path of the traveling body 3, and the current collector 2 in which the traveling body 3 is installed on the traveling body 3 is in sliding contact with the conductor 1. The present invention relates to a conductor 1 used in an electric circuit system that travels while collecting current from the conductor 1. The recessed portion formed by recessing the conductor 1 from the slide contact surface 11 is formed in a part of the slide contact surface 11 in sliding contact with the current collector 2, and the solid lubricant is provided in the recessed contact surface 11. Buried to be exposed. Thus, the lubricant is supplied between the slide contact surface 11 of the conductor 1 and the slide contact surface 21 of the current collector 2 so that the slide contact surface 11 of the conductor 1 and the slide contact surface of the current collector 2. The growth of the burr 83 between the 21 is suppressed, and the short circuit and the wrinkle by the burr 83 are prevented.

Claims (5)

A plurality of conductors are arranged along the traveling path of the traveling body at predetermined adjacent intervals, and the traveling body travels while slidingly contacting the current collector installed on the traveling body with the conductor to conduct current collection from the conductor. As the conductor used,
A plurality of cut surfaces having a slide contact surface in sliding contact with the current collector and an adjacent surface adjacent to the slide contact surface, and having a predetermined interval in the traveling direction of the traveling body, at a portion that becomes a boundary between the slide contact surface and the adjacent surface; And the predetermined spacing is less than half of a value obtained by reducing a predetermined insulation distance from the predetermined adjacent spacing. The insulation sheath which accommodates a conductor is provided along the traveling path of a traveling body, The said traveling body is used for the electric circuit system which runs while carrying a slide contact with the conductor the current collector installed in the said traveling body, and collects from the said conductor. As a conductor,
A plurality of cut surfaces are formed on the boundary between the slide contact surface and the adjacent surface, with a slide contact surface in sliding contact with the current collector and the slide contact surface at predetermined intervals in the traveling direction of the traveling body. And the predetermined distance is smaller than half of the value obtained by reducing the width of the conductor from the width of the insulating sheath. 3. The method according to claim 1 or 2,
And a plurality of the conductors are arranged at a spacing of 16.8 mm, and the predetermined spacing is smaller than 3.9 mm, which is half of the value of reducing the insulation distance of 9 mm from the adjacent spacing of 16.8 mm. 3. The method according to claim 1 or 2,
And a plurality of the conductors are arranged at a distance of 9 mm adjacent to each other, and the predetermined distance is smaller than 1.5 mm, which is half of the value obtained by reducing the insulation distance of 6 mm from the 9 mm adjacent distance. 3. The method according to claim 1 or 2,
A conductor for an electric circuit system, wherein the cut surface is recessed in a predetermined dimension from the adjacent surface to the slide contact surface.

Images