JP6534825B2 - Branched cable - Google Patents

Description

  The present invention relates to a cable with a branch.

A cable with a branch is known as a cable for supplying electric power to middle and high-rise buildings such as apartments and office buildings. The branched cable includes a trunk cable and a plurality of branch cables branched from the trunk cable (see, for example, Patent Document 1).
The upper end of the trunk cable of the branched cable installed in the middle-high building is fixed near the top floor and suspended vertically, and the middle part is appropriately supported and fixed on the middle floor, and each branch cable is It is pulled into each floor and connected to the distribution board.
And with the middle-high rise of the building in recent years, the receiving capacity of the middle-high-rise building is increasing. Accordingly, the size of the branched cable also increases, and the weight of the cable tends to increase. Therefore, the construction cost for lifting the cable with a branch and laying it in a building tends to increase.

Conventionally, copper or a copper alloy is widely used as a conductor of a cable with a branch, but using aluminum or an aluminum alloy as a conductor of the cable with a branch is studied for the purpose of weight reduction.
On the other hand, since widely used current distribution boards are designed on the premise of connection with a copper conductor, dissimilar metal contact corrosion is a problem when connecting aluminum conductors. That is, since the aluminum conductor will be damaged if moisture is intervened due to condensation occurring at the connection point, etc., it is necessary to take measures against dew condensation and moisture at the distribution board.

Moreover, the aluminum terminal used in order to connect an aluminum electric wire, for example to a copper bus bar is known (for example, refer patent document 2 and non-patent document 1).
The aluminum terminal has a function of preventing the occurrence of contact corrosion of dissimilar metals at the connection point between the aluminum wire and the copper bus bar.

Japanese Patent Application Publication No. 2005-100878 JP 2012-160318 A

Furukawa Electric Copper Plated Aluminum Terminal Catalog, [Search on October 30, 2014], Internet <URL: http://www.furukawa.co.jp/tukuru/pdf/aluminum-tanshi_d321.pdf>

However, it may be difficult to take measures against moisture that does not cause any condensation on the existing distribution board. In that case, the contact resistance of the aluminum conductor which has been damaged by the dissimilar metal contact corrosion is increased, which may generate heat at the connection point.
Moreover, since the aluminum terminal of the said patent document 1 and a nonpatent literature 1 is expensive compared with a normal terminal and causes the increase in cost, it may be desired to refrain from its use.

  Although aluminum has the merit of being lower in cost than copper, since the aluminum conductor is more difficult to bend than the copper conductor, the workability of attaching to the connection portion may be deteriorated.

  Furthermore, cables used for low-voltage trunk lines and switchboards often need to be wired in a narrow place or in a place where equipment is densely packed, and it may be necessary to carry out end processing while maintaining manual bending and bending. . In particular, when the cable is thick, it is not only difficult to bend but also heavy, which makes it difficult to handle, which causes a burden on the operator and deteriorates the workability.

  An object of the present invention is to provide a branched cable which can be reduced in weight and can be connected to existing equipment with good workability.

In order to solve the above problems, the invention according to claim 1 is:
A bifurcated cable comprising a trunk cable and a plurality of branch cables branch-connected to the trunk cable,
The mains cable comprises a main first mains cable and a second mains cable connected to one end of the first mains cable to electrically connect to a power supply,
The branch cable is connected to the first trunk cable,
The conductive material of the first trunk cable is aluminum or an aluminum alloy state, and are one of the second trunk cable and conductor material is copper of the branch cable, a copper alloy, silver or a silver alloy,
A plurality of strands of the conductor of the first trunk cable, the conductor of the second trunk cable, and the conductor of the branch cable are twisted together,
The diameter itself of the strands forming the conductor of the second trunk cable is made smaller than the strands forming the conductor of the first trunk cable, so that the second trunk cable has a diameter greater than that of the first trunk cable. As the flexibility of one side is increased and its manageability is improved, the workability of connecting the second trunk cable to the power supply is ensured.
The diameter of the strands constituting the conductor of the branch cable is made smaller than that of the strand constituting the conductor of the first trunk cable, whereby the flexibility of the branch cable compared to the first trunk cable is obtained. It is characterized in that the workability of connecting the branch cable to the existing equipment is secured by enhancing the property and improving the handling property .

The invention according to claim 2 is
A bifurcated cable comprising a trunk cable and a plurality of branch cables branch-connected to the trunk cable,
The mains cable comprises a main first mains cable and a second mains cable connected to one end of the first mains cable to electrically connect to a power supply,
The branch cable is connected to the first trunk cable,
The material of the conductor of the first trunk cable is aluminum or an aluminum alloy, and the surface of the conductor of the second trunk cable and the branch cable is made of any of copper, copper alloy, silver, silver alloy, tin or tin alloy Covered with the
A plurality of strands of the conductor of the first trunk cable, the conductor of the second trunk cable, and the conductor of the branch cable are twisted together,
The diameter itself of the strands forming the conductor of the second trunk cable is made smaller than the strands forming the conductor of the first trunk cable, so that the second trunk cable has a diameter greater than that of the first trunk cable. As the flexibility of one side is increased and its manageability is improved, the workability of connecting the second trunk cable to the power supply is ensured.
The diameter of the strands constituting the conductor of the branch cable is made smaller than that of the strand constituting the conductor of the first trunk cable, whereby the flexibility of the branch cable compared to the first trunk cable is obtained. It is characterized in that the workability of connecting the branch cable to the existing equipment is secured by enhancing the property and improving the handling property .

The invention according to claim 3 is
A bifurcated cable comprising a trunk cable and a plurality of branch cables branch-connected to the trunk cable,
The mains cable comprises a main first mains cable and a second mains cable connected to one end of the first mains cable to electrically connect to a power supply,
The branch cable has a first branch cable whose one end is connected to the first trunk cable and a second branch which is connected to the other end of the first branch cable so as to electrically connect to existing equipment. And have a cable,
The material of the conductor of the first trunk cable and the first branch cable is aluminum or an aluminum alloy, and the material of the conductor of the second trunk cable and the second branch cable is any of copper, copper alloy, silver or silver alloy Kadea is,
The conductor of the first trunk cable and the conductor of the second trunk cable are each formed by twisting a plurality of strands together, and the conductor of the second trunk cable is more than the strands constituting the conductor of the first trunk cable The diameter of the strands of the wire itself is made smaller, so that the flexibility of the second trunk cable is made higher than that of the first trunk cable, and the manageability is improved. Ease of connecting the mains cable to the power supply is ensured.
The conductor of the first branch cable and the conductor of the second branch cable are each formed by twisting together a plurality of strands, and the conductor of the second branch cable is composed of the strands constituting the conductor of the first branch cable The diameter of the strands of the wire itself is made smaller, so that the flexibility of the second branch cable is made higher than that of the first branch cable, and the manageability is improved. It is characterized by the workability which connects a branch wire cable to the said installation is ensured .

The invention according to claim 4 is
A bifurcated cable comprising a trunk cable and a plurality of branch cables branch-connected to the trunk cable,
The mains cable comprises a main first mains cable and a second mains cable connected to one end of the first mains cable to electrically connect to a power supply,
The branch cable has a first branch cable whose one end is connected to the first trunk cable and a second branch which is connected to the other end of the first branch cable so as to electrically connect to existing equipment. And have a cable,
The material of the conductor of the first trunk cable and the first branch cable is aluminum or an aluminum alloy, and the surface of the conductor of the second trunk cable and the conductor of the second branch cable is copper, copper alloy, silver, silver alloy, Covered with a covering layer of either tin or tin alloy ,
The conductor of the first trunk cable and the conductor of the second trunk cable are each formed by twisting a plurality of strands together, and the conductor of the second trunk cable is more than the strands constituting the conductor of the first trunk cable The diameter of the strands of the wire itself is made smaller, so that the flexibility of the second trunk cable is made higher than that of the first trunk cable, and the manageability is improved. Ease of connecting the mains cable to the power supply is ensured.
The conductor of the first branch cable and the conductor of the second branch cable are each formed by twisting together a plurality of strands, and the conductor of the second branch cable is composed of the strands constituting the conductor of the first branch cable The diameter of the strands of the wire itself is made smaller, so that the flexibility of the second branch cable is made higher than that of the first branch cable, and the manageability is improved. It is characterized by the workability which connects a branch wire cable to the said installation is ensured .

The invention according to claim 5 is the cable with a branch according to claim 3 or 4 , wherein
The conductor of the first trunk cable and the conductor of the second trunk cable, and the conductor of the first branch cable and the conductor of the second branch cable are respectively connected through connection members.
The material of the connection member is aluminum or an aluminum alloy, or copper or a copper alloy.

The invention according to claim 6 is the cable with a branch according to claim 5 ,
Insulating properties are the point at which the first trunk cable and the second trunk cable are connected via the connection member and the point at which the first branch cable and the second branch cable are connected via the connection member And an insulation coating portion coated with the material of

The invention according to claim 7, in the branch cable according to any one of claim 1 to 6
The branch cable is characterized in that said trunk cable and said branch line cable is connected to the front laying on the construction site and is configured to be laid at a predetermined position.

  According to the present invention, it is possible to obtain a branched cable which can be reduced in weight and can be connected to existing equipment with good workability.

It is an external view which shows the cable with a branch of this embodiment. It is a side view which carries out partial cross-sectional view and shows the connection part of the trunk cable and branch cable in the cable with a branch. It is a side view which shows the connection part of the 1st branch line cable in the branch line cable of a cable with a branch, and a 2nd branch line cable, seeing a partial cross section. It is sectional drawing in the aa a line of FIG. 3, and is sectional drawing of a 1st branch cable. It is sectional drawing in the bb line | wire of FIG. 3, and is sectional drawing of a 2nd branch cable. It is sectional drawing (a) of the 2nd branch cable of Embodiment 2, and (b). It is sectional drawing of the 2nd branch line cable of Embodiment 3. FIG. It is an external view which shows the cable with a branch of other embodiment.

  Hereinafter, with reference to the drawings, an embodiment of a cable with a branch according to the present invention will be described in detail. However, although various limitations preferable for carrying out the present invention are given to the embodiments described below, the scope of the present invention is not limited to the following embodiments and the illustrated examples.

(Embodiment 1)
FIG. 1 is an external view showing the cable with branch 100 of the present embodiment. FIG. 2 is a side view showing a connecting portion of the trunk cable 150 and the branch cable 110 in the branched cable 100 with a partial sectional view. FIG. 3 is a side view showing the connection portion of the first branch cable 10 and the second branch cable 20 in the branch cable 110 of the branch cable 100 with a partial cross section.
The connection between the first trunk cable 50 and the second trunk cable 60 in the trunk cable 150 of the branch cable 100 is the same as the connection between the first branch cable 10 and the second branch cable 20 shown in FIG. The configuration is similar except for the difference.

For example, as shown in FIGS. 1 to 3, the cable with branch 100 includes a trunk cable 150 and a plurality of branch cables 110 branch-connected to the trunk cable 150.
The branch cable 100 is a cable for supplying power to the middle and high buildings, and for example, the branch cables 110 of the number corresponding to the number of floors of the middle and high buildings are connected to the trunk cable 150.
The branch cable 100 is fixed to the ceiling 1 on the top floor side by a suspension jig 100 a attached to the upper end portion of the trunk cable 150 (first trunk cable 50). A midway portion of the trunk cable 150 (first trunk cable 50) is appropriately supported and fixed to a wall surface or the like of each floor.

The trunk cable 150 of the branch cable 100 is a cable for connecting to a power supply that supplies power to the middle and high buildings.
The main cable 150 has a main first main cable 50 and a second main cable 60 connected to the lower end of the first main cable 50.

The first trunk cable 50 has a length that occupies half or more of the trunk cable 150. In practice, it has a length that occupies the majority (eg, 90% or more) of the trunk cable 150.
As a material of the conductor 51 of the first trunk cable 50, aluminum or an aluminum alloy is used.
The conductor 51 is formed by twisting a plurality of strands. For example, the conductor 51 is a conductor having a cross-sectional area of 100 mm ^{2 obtained} by twisting 19 strands of φ2.6 mm. The conductor 51 is covered with an insulating layer 52 made of an insulating material. The insulating layer 52 may be covered by a sheath not shown.

The second trunk cable 60 is connected to the lower end of the first trunk cable 50 in order to electrically connect the trunk cable 150 to the existing facility (power supply).
Copper or a copper alloy is used as a material of the conductor 61 of the second trunk cable 60.
The conductor 61 is formed by twisting a plurality of strands. For example, the conductor 61 is a conductor having a cross-sectional area of 60 mm ^{2 obtained} by twisting 19 strands of φ 2.0 mm. The conductor 61 is covered with an insulating layer 62 made of an insulating material. The insulating layer 62 may be covered by a sheath not shown.
Here, assuming that the conductivity of copper is 100, the conductivity of aluminum is about 60, so that the resistances of the conductors are made equal in order to obtain substantially the same conduction capacity between the copper conductor and the conductor made of aluminum. The cross-sectional area of the copper conductor is about 60% of the cross-sectional area of the aluminum conductor.

The branch line cable 110 of the cable 100 with a branch is a cable for drawing in to each floor of a middle-high-rise building and connecting to a distribution board.
The branch cable 110 includes a first branch cable 10 whose one end is connected to the first trunk cable 50 and a second branch cable 20 which is connected to the other end of the first branch cable 10.

The first branch cable 10 has a length that occupies half or more of the branch cable 110. In practice, it has a length that occupies most of the branch cable 110 (for example, 90% or more).
As a material of the conductor 11 of the first branch cable 10, aluminum or an aluminum alloy is used.
The conductor 11 is formed by twisting a plurality of strands. For example, as shown in FIG. 4, the conductor 11 is a conductor having a cross-sectional area of 60 mm ^{2 obtained} by twisting 19 strands of φ 2.0 mm. The conductor 11 is covered with an insulating layer 12 made of an insulating material. The insulating layer 12 may be covered by a sheath not shown.

The second branch cable 20 is connected to the other end of the first branch cable 10 in order to electrically connect the branch cable 110 to the existing facility (distribution board).
As a material of the conductor 21 of the second branch cable 20, copper or a copper alloy is used.
The conductor 21 is formed by twisting a plurality of strands. For example, as shown in FIG. 5, the conductor 21 is a conductor having a cross-sectional area of 38 mm ^{2 obtained} by twisting seven strands of φ2.6 mm. The conductor 21 is covered with an insulating layer 22 made of an insulating material. The insulating layer 22 may be covered by a sheath not shown.
Here, assuming that the conductivity of copper is 100, the conductivity of aluminum is about 60, so that the resistances of the conductors are made equal in order to obtain substantially the same conduction capacity between the copper conductor and the conductor made of aluminum. The cross-sectional area of the copper conductor is about 60% of the cross-sectional area of the aluminum conductor.

As shown in FIG. 2, the conductor 11 at one end of the first branch cable 10 is connected to the conductor 51 of the first trunk cable 50 via the branch connector 70. As a material of the branch connector 70, aluminum or an aluminum alloy, or copper or a copper alloy is used. Here, since the conductor 11 and the conductor 51 are made of aluminum or an aluminum alloy, the branch connector 70 is preferably made of aluminum or an aluminum alloy.
At a location where the conductor 51 of the first trunk cable 50 and the conductor 11 of the first branch cable 10 are connected via the branch connector 70, an injection mold 80 made of polyethylene or EP rubber is provided.

As shown in FIG. 3, the conductor 11 of the first branch cable 10 and the conductor 21 of the second branch cable 20 are connected via the connection member 30. Similarly, the conductor 51 of the first trunk cable 50 and the conductor 61 of the second trunk cable 60 are connected via the connection member 30.
For the connection member 30, for example, a conductor connection pipe or a connector can be used. As a connector, a C-type connector, a T-type connector, etc. can be used, but it is not particularly limited.
As a material of the connecting member 30, aluminum or an aluminum alloy, or copper or a copper alloy is used. The connection member 30 is preferably made of aluminum or an aluminum alloy.
The connection member 30 is made of aluminum or aluminum alloy, or copper or copper alloy, whereby the conductor 11 and the conductor 21 and the conductor 51 and the conductor 61 can be suitably connected.

An insulating covering portion 40 is provided at a point where the conductor 11 of the first branch cable 10 and the conductor 21 of the second branch cable 20 are connected via the connection member 30. Similarly, an insulating covering portion 40 is provided at a location where the conductor 51 of the first trunk cable 50 and the conductor 61 of the second trunk cable 60 are connected via the connection member 30.
The insulating covering portion 40 covers the connection portion of the cable with an insulating material, and for example, resin, mold, tape winding, heat shrinkable tube, cold shrinkable tube, etc. can be used.
The insulating covering portion 40 has a function of protecting the connection portion of the cable, and as will be described later, the connection portion is provided with good insulation and waterproofness.

The branched cable 100 is not connected to the first branch cable 10 and the second branch cable 20 at the construction site, or connected to the first trunk cable 50 and the second trunk cable 60, but to a factory or the like. After carrying in to the construction site what was connected beforehand, it lays down.
By connecting the first branch cable 10 and the second branch cable 20, and the first trunk cable 50 and the second trunk cable 60 in a factory with a well-controlled quality control, good insulation properties can be obtained at the connection points of the cables. Waterproofness can be provided.
Specifically, a cable with a branch is formed by a skilled worker connecting the first branch cable 10 and the second branch cable 20 and the first trunk cable 50 and the second trunk cable 60 using a dedicated tool at the factory. The quality of 100 stabilizes. In particular, in the factory where temperature and humidity are controlled by skilled workers, the inner surface is coated with a compound that prevents oxidation and corrosion after brushing to remove the oxide film on the surface of conductors 11 and 21 and the oxide film on conductors 51 and 61. By completing the connection work with the connecting member 30 within a predetermined time, the quality of the cable with branch 100 is further stabilized.
Further, the connection between the main line cable 150 and the branch line cable 110 is similarly made at the factory to stabilize the quality.

  The lengths of the branch cables 110 in the branch cable 100, that is, the lengths of the first branch cable 10 and the second branch cable 20, and the lengths of the trunk cable 150 in the branch cable 100, that is, the first trunk cable 50. The lengths of the second trunk cable 60 and the length of the second trunk cable 60 are previously adjusted in accordance with the path length for wiring the cable with branch 100 for each middle and high-rise building at the construction site. In particular, the length of the second branch cable 20 is adjusted in anticipation of the remaining length to be cut when connecting to the distribution board which is the existing equipment. Further, the length of the second trunk cable 20 is adjusted in anticipation of the remaining length to be disconnected when connecting to the power supply.

In such a cable with branch 100, the first main cable 50 having the conductor 51 made of aluminum or aluminum alloy and the first branch cable 10 having the conductor 11 made of aluminum or aluminum alloy are the same as those of the cable 100 with branch. As it occupies the majority, weight reduction and cost reduction can be achieved as compared with the conventional branched cable in which the conductor is copper or copper alloy.
The second trunk cable 60 having the conductor 61 made of copper or copper alloy is connected to the end of the trunk cable 150 of the cable with branch 100, and copper is connected to the end of the branch cable 110 of the cable with branch 100. Alternatively, since the second branch cable 20 having the conductor 21 made of copper alloy is connected, different metal contact corrosion becomes a problem when the branch cable 100 is electrically connected to the existing distribution board or power supply equipment. I have not. Further, copper or a copper alloy is used for the material of the conductor 61 of the second trunk cable 60 and the material of the conductor 21 of the second branch cable 20, and the handling of the flexible second trunk cable 60 or the second branch cable 20 is easy. Because it has good quality, it can be connected to existing distribution boards and power supply equipment with good workability.
That is, the branched cable 100 according to the present embodiment is an excellent cable which can reduce weight and cost and can be suitably connected to existing equipment with good workability.

In addition, the conductor outer diameter can be reduced by using copper or silver having higher conductivity than aluminum, or by using a material having a high electric capacity such as a carbon nanotube-containing copper alloy which has been studied recently. , You can avoid the enlargement of the equipment to be connected.
When silver or a silver alloy is used as the material of the conductor 61 of the second trunk cable 60 and the conductor 21 of the second branch cable 20, if the silver conductor is used for the minimum necessary length of the cable with branch 100 The cost increase can be suppressed.

In the first embodiment, the conductor 11 is a conductor having a cross-sectional area of 60 mm ^{2 obtained} by twisting 19 strands of φ 2.0 mm, and the conductor 21 is obtained by twisting 7 strands of φ 2.6 mm Although the cross-sectional area is a conductor of 38 mm ^2, the present invention is not limited thereto. The conductor 11 is a conductor having a cross-sectional area of 60 mm ^{2 obtained} by twisting 19 strands of φ 2.0 mm. It may be a conductor having a cross-sectional area of 38 mm ² in which nine strands of φ 2.2 mm are twisted.
Thus, the thinner the strands of the conductor 21 of the second branch cable 20, the easier it is to bend. The thinner the wire, the better the handleability of the second electric wire / cable 20, so that it can be connected to the existing distribution board or power supply equipment with good workability.

Second Embodiment
Next, a second embodiment of the cable with a branch according to the present invention will be described. In addition, about the structure similar to Embodiment 1, a same sign is attached and description is omitted.

The material of the conductor 11 of the first branch cable 10 is aluminum or an aluminum alloy. As shown in FIG. 4, the conductor 11 is formed by twisting a plurality of strands 11a, and becomes, for example, a conductor having a cross-sectional area of 60 mm ^{2 obtained} by twisting 19 strands of φ 2.0 mm.
As a material of the conductor 21 of the second branch cable 20, copper or a copper alloy is used. As shown in FIG. 6A, the conductor 21 is formed by twisting a plurality of strands 21a, and becomes, for example, a conductor having a cross-sectional area of 38 mm ^{2 obtained} by twisting 19 strands of φ1.6 mm.

As a material of the conductor 51 of the first trunk cable 50, aluminum or an aluminum alloy is used. The conductor 51 is formed by twisting a plurality of strands. For example, the conductor 51 is a conductor having a cross-sectional area of 100 mm ^{2 obtained} by twisting 19 strands of φ2.6 mm.
As a material of the conductor 61 of the second trunk cable 60, copper or a copper alloy is used. The conductor 61 is formed by twisting a plurality of strands. For example, the conductor 61 is a conductor having a cross-sectional area of 60 mm ^{2 obtained} by twisting 19 strands of φ2.0 mm.
The strands of the first trunk cable 50 and the second trunk cable 60 are the same except that they are different in thickness from the strands (11a, 21a) of the first branch cable 10 and the second branch cable 20. Illustration is omitted.

As described above, if the branch cable 110 has a structure in which the strand 21a constituting the conductor 21 of the second branch cable 20 is thinner than the strand 11a constituting the conductor 11 of the first branch cable 10, The flexibility of the second branch cable 20 is improved more than the branch cable 10. That is, flexibility is improved by making the strands of the second branch cable 20 into a thin wire structure.
In addition, if the trunk cable 150 has a structure in which the strands of the conductor 61 of the second trunk cable 60 are thinner than the strands of the conductor 51 of the first trunk cable 50, the trunk cable 50 is smaller than the first trunk cable 50. Also, the flexibility of the second trunk cable 60 is improved. That is, the flexibility is improved by forming the strands of the second trunk cable 60 into a thin wire structure.

As a result, the manageability at the time of the operation of electrically connecting the second branch cable 20 to the existing distribution board is improved, so that the branch cable 110 can be easily connected to the existing equipment.
Similarly, the ease of operation at the time of the operation of electrically connecting the second trunk cable 60 to the existing power supply facility is improved, so that the trunk cable 150 can be easily connected to the existing facility.
That is, it becomes easy to connect the cable 100 with a branch to the existing installation, and the working efficiency is improved.
In addition to further thinning the strands of the second branch cable 20 and the second trunk cable 60, the second branch cable 20 and the second trunk cable 60 can be made by using copper which is easier to handle than aluminum. Since the manageability at the time of the operation of electrically connecting to the distribution board or the power source equipment is improved, the cable with branch 100 can be easily connected to the existing equipment, and the work efficiency can be improved.

The wire 21a of the conductor 21 of the second branch cable 20 is not limited to one having a wire diameter of φ1.6 mm. For example, in the case of a conductor having a cross-sectional area of 38 mm ² , as shown in FIG. 6 (b), a strand of 34 strands of φ 0.45 mm is twisted to form one bundle of twin strands 21 b and seven twin strands 21 b. It may be a conductor 21 which is combined to be a main twist.
Moreover, the strand of the conductor 61 of the 2nd trunk cable 60 is not restricted to that whose strand diameter is (phi) 2.0 mm. For example, in the case of a conductor having a cross-sectional area of 60 mm ² , a conductor 61 obtained by twisting 30 strands of φ1.6 mm and a strand obtained by twisting 20 strands of φ0.45 mm are used as one bundle of child twists. It may be a conductor 61 in which nineteen strands are twisted to make a parent twist. The configuration of the strands of the second trunk cable 60 is the same as that of the strands 21 a of the second branch cable 20 except for the thickness thereof, so the illustration is omitted.

Thus, the flexibility of the second branch cable 20 is further improved as the diameter of the strands 21a of the conductor 21 is reduced, so that the workability for electrically connecting the second branch cable 20 to the existing distribution board Improve further.
In addition, since the flexibility of the second trunk cable 60 is further improved as the diameter of the strands constituting the conductor 61 is reduced, the workability for electrically connecting the second trunk cable 60 to the existing power supply equipment is improved. It improves further.

Further, the second branch cable 20 shown in FIG. 6A is connected to the end of the first branch cable 10 shown in FIG. 4 and the end of the second branch cable 20 is further shown in FIG. The branched cable 100 may have a configuration in which the second branch cable 20 is connected. In addition, the conductor 21 (the second branch cable 20, see FIG. 6A) obtained by twisting 19 strands of φ1.6 mm and the one obtained by twisting 34 strands of φ0.45 mm into a bundle of one child The connection member 30 may be used to connect to the conductor 21 (see the second branch cable 20, see FIG. 6B) in which seven twists 21b are twisted together to form a main twist 21b.
In the case of the cable with branch 100 having such a configuration, the diameter of the conductor of the conductor becomes smaller toward the end of the cable, and the flexibility of the second branch cable 20 is further improved. It will be easier to do.

Even when the first branch cable 10 (conductor 11) and the second branch cable 20 (conductor 21) have the same cable size, the diameter of the strands 21a of the second branch cable 20 (conductor 21) may be reduced. Since the flexibility of the second branch cable 20 is further improved, the workability of electrically connecting the second branch cable 20 to the existing distribution board or power supply equipment is further improved.
Similarly, even when the first trunk cable 50 (conductor 51) and the second trunk cable 60 (conductor 61) have the same cable size, the diameter of the strands 61a of the second trunk cable 60 (conductor 61) is reduced. As the flexibility of the second trunk cable 60 is further improved, the workability of electrically connecting the second trunk cable 60 to the existing distribution board or power supply equipment is further improved.

(Embodiment 3)
Next, a third embodiment of the cable with a branch according to the present invention will be described. In addition, about the structure similar to Embodiment 1, 2, a same sign is attached | subjected and description is omitted.

For example, other metal materials other than copper or copper alloy may be used for the material of the conductor 21 of the second branch cable 20 and the material of the conductor 61 of the second trunk cable 60.
In that case, a covering layer (21d) made of copper or a copper alloy is provided so as to cover the surface of a conductor made of another metal material that is not copper or a copper alloy.
Specifically, for example, as shown in FIG. 7, when the conductor 21 of the second branch cable 20 is a conductor having a cross-sectional area of 38 mm ² and 19 strands of the strand 21 a of φ 1.6 mm are twisted, for example, It is sufficient that the conductor 21 has a configuration in which nineteen strands 21 a of which the surface of the strand main body 21 c made of aluminum or aluminum alloy is covered with the covering layer 21 d made of copper or copper alloy.
When the conductor 61 of the second trunk cable 60 is a conductor having a cross-sectional area of 60 mm ² and 19 strands of φ 2.0 mm strands, the surface of the wire main body made of aluminum or aluminum alloy is It is sufficient that the conductor 61 has a configuration in which 19 strands covered with a covering layer made of copper or copper alloy are twisted. In addition, the construction is the same except that the wire (wire body, covering layer) of the second trunk cable 60 is different in thickness from the wire 21a (wire body 21c, covering layer 21d) of the second branch cable 20. As it is, it will not be described in detail here nor will it be illustrated.
Since aluminum or an aluminum alloy is used as the material of the conductor 21 of the second branch cable 20, the cross-sectional area of the first branch cable 10 conductor 11 is 38 mm ² which is the same as the conductor 21 of the second branch cable 20. Is preferred. Similarly, since aluminum or an aluminum alloy is used as the material of the conductor 61 of the second trunk cable 60, the cross-sectional area of the first trunk cable 50 conductor 51 is 60 mm ² which is the same as the conductor 61 of the second trunk cable 60. Is preferred.

The covering layer 21d can be formed by copper plating the surface of the wire main body 21c made of aluminum or an aluminum alloy.
Alternatively, a copper clad aluminum wire may be used as the wire 21a in which the surface of the wire main body 21c made of aluminum or aluminum alloy is covered with the covering layer 21d made of copper or copper alloy.

In this manner, the wire 21 is made of aluminum or aluminum alloy as the material of the conductor 21 of the second branch cable 20, and the surface of the wire body 21c of aluminum or aluminum alloy is covered with the covering layer 21d of copper or copper alloy. In the case of a conductor 21 in which a plurality (19 in this case) of 21a are twisted, for example, a conductor in which a plurality of (19) strands 21a of copper or copper alloy are twisted as shown in FIG. 21 can achieve further weight reduction and cost reduction.
Moreover, since the surface of the conductor 21 (strand 21a) of the second branch cable 20 is covered with the covering layer 21d made of copper or copper alloy, the existing distribution board 100 with the branch cable 100 (branch cable 110) In the case of electrical connection, dissimilar metal contact corrosion does not become a problem.
Although copper or a copper alloy is used as the material of the cover layer 21d here, the same effect can be obtained when silver or a silver alloy, or tin or a tin alloy is used as the material of the cover layer 21d.

Similarly, aluminum or an aluminum alloy is used as a material of the conductor 61 of the second trunk cable 60, and a plurality of strands covered with a covering layer made of copper or a copper alloy are provided Here, for the conductor 61 which is 19) twisted, for example, it is possible to achieve further weight reduction and cost reduction as compared with the conductor 61 in which a plurality of (19) strands made of copper or copper alloy are stranded. it can.
Further, since the surface of the conductor 61 of the second trunk cable 60 is covered with a covering layer made of copper or copper alloy, the case of electrically connecting the cable 100 with branch (main cable 150) to the existing power supply equipment There is no problem with different metal contact corrosion.
Although copper or a copper alloy is used as the material of the cover layer here, the same effect can be obtained when silver or a silver alloy, or tin or a tin alloy is used as the material of the cover layer.

  Further, as in the second embodiment, the flexibility is further improved by reducing the diameter of the strands constituting the conductor while keeping the second branch cable 20 and the second trunk cable 60 in the same cable size. The workability of electrically connecting the second wire / cable to the distribution board or power supply equipment is further improved.

As described above, in the cable with branch 100 of the present embodiment, the conductor 11 of the main first branch cable 10 and the conductor 51 of the main first trunk cable 50 are made of aluminum or an aluminum alloy, compared with the conventional cable. Weight reduction and cost reduction.
Furthermore, the second branch cable 20 connected to the end of the first branch cable 10 and the second trunk cable 60 connected to the end of the first trunk cable 50 are conductors made of copper or copper alloy. Since the conductors 21 and 61 whose surfaces are covered with the covering layer 21d made of copper or copper alloy 21 or 61 are provided, the dissimilar metal contacts when electrically connected to the existing distribution board or power supply equipment Corrosion is not a problem. In addition, the second branch cable 20 connected to the end of the first branch cable 10 and the second trunk cable 60 connected to the end of the first trunk cable 50 are the conductors 21 made of silver or silver alloy. , 61, or even when the surface is provided with conductors 21 and 61 covered with a covering layer (21d) made of silver or silver alloy or tin or tin alloy, it is possible to electrically connect to the existing distribution board or power supply equipment. There is no problem with different metal contact corrosion when connected.
With such a branched cable 100, it is possible to reduce the weight and to connect suitably to existing equipment with good workability.

The present invention is not limited to the above embodiment.
For example, as shown in FIG. 8, the branch cable 110 may be the branch cable 100 in which the entire branch cable 110 is the second branch cable 20.
The branch cable 100 includes a trunk cable 150 and a plurality of second branch cables 20 (branch cables 110) branch-connected to the trunk cable 150.

  In the case of the cable with branch 100 in which copper or copper alloy is used for the material of the conductor 21 of the second branch cable 20 as a branch cable, the second branch cable 20 is electrically connected to the existing distribution board There is no problem with different metal contact corrosion.

Further, since the trunk cable 150 in the branch cable 100 has the main first trunk cable 50 and the second trunk cable 60 connected to the lower end thereof, as described above, weight reduction and cost reduction can be achieved. It contributes. Moreover, since the trunk cable 150 is a thicker cable than the branch cable 110, and the total extension of the trunk cable 150 is equal to or greater than the total extension of the branch cable 110, weight reduction and cost reduction of the trunk cable 150 are achieved. This makes it possible to reduce the weight and cost of the branch cable 100.
In particular, since the trunk cable 150 is a cable hung on the ceiling 1, it is preferable to reduce its weight also from the viewpoint of construction procedure and construction cost.

  The configuration of the conductor 21 of the second branch cable 20 (branch cable 110) is arbitrary, and for example, even if the conductor 21 is obtained by twisting seven strands 21a of φ 2.6 mm, the strands of φ 1.6 mm The conductor 21 may be 19 strands. Alternatively, the conductor 21 may be a conductor 21 in which 34 strands of? 0.45 mm strand 21a are twisted to form one bundle of child twists 21b and seven bundles of the child twists 21b are twisted together.

  Further, as in the third embodiment, the second branch cable 20 (the branch cable is provided with the covering layer 21d made of copper or copper alloy so as to cover the surface of the conductor made of another metal material which is not copper or copper alloy. 110). For example, a second branch cable 20 including a conductor 21 having a configuration in which nineteen strands 21a of which the surface of a strand main body 21c made of aluminum or aluminum alloy is covered with a covering layer 21d made of copper or copper alloy is twisted. It can be used as a cable.

(Modification)
Below, the modification of the cable 100 with a branch is demonstrated. About the same composition as Embodiments 1-3, a same sign is attached and explanation is omitted.

(Modification 1)
In the branch cable 110 (cable 100 with branch) using copper or copper alloy as the material of the conductor 11 of the main first branch cable 10 and using copper or copper alloy as the material of the conductor 21 of the second branch cable 20, The conductor 11 of the one branch cable 10 is a conductor of 38 mm ² in cross section formed by twisting seven strands 11 a of φ 2.6 mm, and the conductor 21 of the second branch cable 20 is nineteen strands of the strand 21 a of φ 1.6 mm The wire 21a of the conductor 21 of the second branch cable 20 may be thinner than the wire 11a of the conductor 11 of the first branch cable 10 so that the resulting conductor has a cross-sectional area of 38 mm ² . Furthermore, in the trunk cable 150 (cable 100 with branch) using copper or copper alloy as the material of the conductor 51 of the first first trunk cable 50 and using copper or copper alloy as the material of the conductor 61 of the second trunk cable 60 The conductor 51 of the first trunk cable 50 is a conductor having a cross-sectional area of 60 mm ^{2 formed} by twisting 19 strands of φ 2.0 mm, and the conductor 61 of the second trunk cable 60 is 30 strands of φ 1.6 mm The strands of the conductor 61 of the second trunk cable 60 may be thinner than the strands of the conductor 51 of the first trunk cable 50 so that the resulting conductor has a cross-sectional area of 60 mm ² .

Moreover, while using aluminum or aluminum alloy as a material of the conductor 11 of the 1st main branch cable 10 and using aluminum or an aluminum alloy as a material of the conductor 21 of the 2nd branch cable 20 (cable 100 with branch) The conductor 11 of the first branch cable 10 is a conductor having a cross-sectional area of 38 mm ^{2 formed} by twisting seven strands 11a of φ 2.6 mm and the conductor 21 of the second branch cable 20 is a strand 21 a of φ 1.6 mm The strand 21a of the conductor 21 of the second branch cable 20 may be thinner than the strand 11a of the conductor 11 of the first branch cable 10 so as to be a conductor of 38 mm ² in cross-sectional area formed by real twist. Furthermore, in the trunk cable 150 (cable 100 with branch) in which aluminum or an aluminum alloy is used as the material of the conductor 51 of the main first trunk cable 50 and aluminum or an aluminum alloy is used as the material of the conductor 61 of the second trunk cable 60. The conductor 51 of the first trunk cable 50 is a conductor having a cross-sectional area of 60 mm ^{2 formed} by twisting 19 strands of φ 2.0 mm, and the conductor 61 of the second trunk cable 60 is 30 strands of φ 1.6 mm The strands of the conductor 61 of the second trunk cable 60 may be thinner than the strands of the conductor 51 of the first trunk cable 50 so that the resulting conductor has a cross-sectional area of 60 mm ² .

With such branch cable 100, the flexibility of the second branch cable 20 is improved more than the first branch cable 10, so the work of electrically connecting the second branch cable 20 to the existing distribution board The ease of handling is improved. Further, the flexibility of the second trunk cable 60 is improved more than that of the first trunk cable 50, so that the manageability at the time of the work of electrically connecting the second trunk cable 60 to the existing power supply equipment is improved.
Therefore, it becomes easy to connect the cable 100 with a branch to the existing installation, and the working efficiency will be improved.
The conductor 11 of the first branch cable 10 and the conductor 21 of the second branch cable 20 are connected via the connection member 30, and the first branch cable 10 and the second branch cable 20 are connected via the connection member 30. It is a matter of course that the portion where they are connected is covered with the insulating covering portion 40.
Further, the conductor 51 of the first trunk cable 50 and the conductor 61 of the second trunk cable 60 are connected via the connection member 30, and the first branch cable 10 and the second branch cable 20 via the connection member 30. It is a matter of course that the portion where they are connected is covered with the insulating covering portion 40.

In the cable with branch 100 of Modification 1 using only a conductor made of copper or copper alloy, the entire branch cable 110 is the second branch cable 20, and the conductor 21 of the second branch cable 20 is copper or copper alloy It may be made of
Further, in the cable with branch 100 of the first modification using only the conductor made of aluminum or aluminum alloy, the entire branch cable 110 is the second branch cable 20, and the conductor 21 of the second branch cable 20 is aluminum or aluminum alloy It may be made of
In this case, if the wire 21a of the conductor 21 of the second branch cable 20 is thin, its flexibility is improved, and at the time of the work of electrically connecting the second branch cable 20 to the existing distribution board It is preferable because the handling property is improved.

(Modification 2)
While using a hard copper wire as a material of the conductor 11 of the main 1st branch wire cable 10, the branch wire cable 110 (cable 100 with a branch) which used the soft copper wire for the material of the conductor 21 of the 2nd branch wire 20 may be sufficient. Furthermore, even if it is the trunk cable 150 (cable 100 with a branch) which uses a hard copper wire as a material of the conductor 51 of the 1st main trunk cable 50 and uses a soft copper wire as a material of the conductor 61 of the 2nd trunk cable 60. Good. The soft copper wire is copper whose hardness is lowered by tempering, which is lower in hardness than a hard copper wire and is a metal material rich in flexibility.
In particular, the conductor 11 of the first branch cable 10 is a conductor having a cross-sectional area of 38 mm ^{2 formed} by twisting seven strands 11 a of φ 2.6 mm, and the conductor 21 of the second branch cable 20 is a strand 21 a of φ 1.6 mm. It is preferable to make the strands 21a of the conductor 21 of the second branch cable 20 thinner than the strands 11a of the conductor 11 of the first branch cable 10 so as to form a conductor having a cross-sectional area of 38 mm ² by twisting 19 pieces. . Similarly, the conductor 51 of the first trunk cable 50 is a conductor having a cross-sectional area of 60 mm ^{2 formed} by twisting 19 strands of φ2.0 mm, and the conductor 61 of the second trunk cable 60 is a strand of φ1.6 mm. It is preferable to make the strands of the conductor 61 of the second trunk cable 60 thinner than the strands of the conductor 51 of the first trunk cable 50 so as to obtain a conductor with a cross-sectional area of 60 mm ^{2 formed} by main twist.

With such branch cable 100, the flexibility of the second branch cable 20 is improved more than the first branch cable 10, so the work of electrically connecting the second branch cable 20 to the existing distribution board The ease of handling is improved. Further, the flexibility of the second trunk cable 60 is improved more than that of the first trunk cable 50, so that the manageability at the time of the work of electrically connecting the second trunk cable 60 to the existing power supply equipment is improved.
Therefore, it becomes easy to connect the cable 100 with a branch to the existing installation, and the working efficiency will be improved.
The conductor 11 of the first branch cable 10 and the conductor 21 of the second branch cable 20 are connected via the connection member 30, and the first branch cable 10 and the second branch cable 20 are connected via the connection member 30. It is a matter of course that the portion where they are connected is covered with the insulating covering portion 40.
Further, the conductor 51 of the first trunk cable 50 and the conductor 61 of the second trunk cable 60 are connected via the connection member 30, and the first branch cable 10 and the second branch cable 20 via the connection member 30. It is a matter of course that the portion where they are connected is covered with the insulating covering portion 40.

(Modification 3)
It may be a branch cable 110 (cable 100 with branch) using a hard aluminum wire as the material of the conductor 11 of the main first branch cable 10 and a soft aluminum wire as the material of the conductor 21 of the second branch cable 20 . Furthermore, while using a hard aluminum wire as the material of the conductor 51 of the main first trunk cable 50 and a soft aluminum wire as the material of the conductor 61 of the second trunk cable 60 (cable 100 with branch) It is also good. The soft aluminum wire is an aluminum whose hardness is lowered by tempering, which is lower in hardness than a hard aluminum wire and is a metal material rich in flexibility.
In particular, the conductor 11 of the first branch cable 10 is a conductor having a cross-sectional area of 38 mm ^{2 formed} by twisting seven strands 11 a of φ 2.6 mm, and the conductor 21 of the second branch cable 20 is a strand 21 a of φ 1.6 mm. It is preferable to make the strands 21a of the conductor 21 of the second branch cable 20 thinner than the strands 11a of the conductor 11 of the first branch cable 10 so as to form a conductor having a cross-sectional area of 38 mm ² by twisting 19 pieces. . Similarly, the conductor 51 of the first trunk cable 50 is a conductor having a cross-sectional area of 60 mm ^{2 formed} by twisting 19 strands of φ2.0 mm, and the conductor 61 of the second trunk cable 60 is a strand of φ1.6 mm. It is preferable to make the strands of the conductor 61 of the second trunk cable 60 thinner than the strands of the conductor 51 of the first trunk cable 50 so as to obtain a conductor with a cross-sectional area of 60 mm ^{2 formed} by main twist.

With such branch cable 100, the flexibility of the second branch cable 20 is improved more than the first branch cable 10, so the work of electrically connecting the second branch cable 20 to the existing distribution board The ease of handling is improved. Further, the flexibility of the second trunk cable 60 is improved more than that of the first trunk cable 50, so that the manageability at the time of the work of electrically connecting the second trunk cable 60 to the existing power supply equipment is improved.
Therefore, it becomes easy to connect the cable 100 with a branch to the existing installation, and the working efficiency will be improved.
The conductor 11 of the first branch cable 10 and the conductor 21 of the second branch cable 20 are connected via the connection member 30, and the first branch cable 10 and the second branch cable 20 are connected via the connection member 30. It is a matter of course that the portion where they are connected is covered with the insulating covering portion 40.
Further, the conductor 51 of the first trunk cable 50 and the conductor 61 of the second trunk cable 60 are connected via the connection member 30, and the first branch cable 10 and the second branch cable 20 via the connection member 30. It is a matter of course that the portion where they are connected is covered with the insulating covering portion 40.

(Modification 4)
While aluminum or an aluminum alloy is used as the material of the conductor 11 of the main first branch cable 10, the surface of the conductor 21 (wire 21a) made of aluminum or aluminum alloy as the conductor 21 of the second branch cable 20 has an ionization tendency It may be a branch cable 110 (cable 100 with a branch) having a configuration in which a covering layer 21d made of a metal material (for example, zinc, nickel) whose rank is lower than aluminum and higher than copper is provided. Furthermore, while aluminum or an aluminum alloy is used as the material of the conductor 51 of the main first trunk cable 50, the surface of the conductor 61 (wire) made of aluminum or aluminum alloy tends to be ionized as the conductor 61 of the second trunk cable 60. The trunk cable 150 (cable 100 with branch) may be configured to be provided with a covering layer made of a metal material (e.g., zinc, nickel) whose rank is lower than aluminum and higher than copper.

For example, in the case where the conductor 21 of the second branch cable 20 is a conductor having a cross-sectional area of 38 mm ² and 19 strands of the strand 21 a of φ1.6 mm, the surface of the strand body 21 c made of aluminum or aluminum alloy Using a conductor 21 in which 19 strands 21a covered with a covering layer 21d made of a metal material (for example, zinc, nickel, tin) having an ionization tendency lower than aluminum and higher than copper are used. Can. Similarly, in the case where the conductor 61 of the second trunk cable 60 is a conductor having a cross-sectional area of 60 mm ² and 19 strands of φ 2.0 mm strands, the surface of the wire main body made of aluminum or aluminum alloy The conductor 61 having a configuration in which nineteen strands of wire covered with a covering layer made of a metal material (for example, zinc, nickel, tin) having an ionization tendency lower than aluminum and higher than copper can be used.
In addition, it is preferable to provide the coating layer 21d on the surface of the conductor 21 (strand 21a) via the intermediate alloy layer. The intermediate alloy layer referred to here is an alloy layer in which the order of ionization tendency is a material between the material of the conductor 11 and the material of the covering layer 21 d. By providing this intermediate alloy layer, corrosion of the conductor 21 (wire 21a) made of aluminum or aluminum alloy can be more preferably prevented. The same applies to the case where the covering layer is provided on the surface of the conductor 61 (strand) of the second trunk cable 60.
With such a branched cable 100, since the main part of the cable is made of aluminum or an aluminum alloy, weight reduction and cost reduction can be achieved as compared with the conventional cable.
The conductor 11 of the first branch cable 10 and the conductor 21 of the second branch cable 20 are connected via the connection member 30, and the first branch cable 10 and the second branch cable 20 are connected via the connection member 30. It is a matter of course that the portion where they are connected is covered with the insulating covering portion 40.
Further, the conductor 51 of the first trunk cable 50 and the conductor 61 of the second trunk cable 60 are connected via the connection member 30, and the first branch cable 10 and the second branch cable 20 via the connection member 30. It is a matter of course that the portion where they are connected is covered with the insulating covering portion 40.

(Modification 5)
Copper or a copper alloy is used for the material of the conductor 11 of the main first branch cable 10 and the material of the conductor 51 of the main first trunk cable 50, and the material of the conductor 21 of the second branch cable 20, and the second trunk cable The branched cable 100 may use silver or a silver alloy as the material of the 60 conductors 62. When silver or a silver alloy is used for the conductor 21 of the second branch cable 20 and the material of the conductor 62 of the second trunk cable 60, the silver conductor is used for the minimum required length of the cable with branches 100. Cost can be suppressed.
Such a cable with branch 100 can also be connected to the existing distribution board or power supply equipment. The conductor of the entire cable with branches 100 may be silver.

In the above embodiment, the first branch cable 10 and the second branch cable 20, and the first trunk cable 50 and the second trunk cable 60 are connected in a factory where quality control is maintained and the cable 100 with branch is connected. Although the present invention is not limited thereto.
For example, in a factory with good quality control, a socket of a connector may be attached to the end of the first branch cable 10 and a cable with a connector plug attached to the end of the second branch cable 20 may be used. Similarly, in a factory where quality control is maintained, a socket of a connector may be attached to the end of the first trunk cable 50 and a cable having a connector plug attached to the end of the second trunk cable 60 may be used. In the case of the cable with branch 100, by connecting the socket and the plug of the connector, the first branch cable 10 and the second branch cable 20, the first trunk cable 50 and the second trunk cable 60 even in the construction site etc. And can be easily connected.

  In addition, it is needless to say that other specific details and the like can be appropriately changed.

100 cable with branch 110 branch cable 10 first branch cable 11 conductor 11a wire 12 insulation layer 20 second branch cable 21 conductor 21a wire 21b wire twist 21c wire main body 21d covering layer 22 insulation layer 150 trunk cable 50 first trunk line Cable 51 Conductor 52 Insulating layer 60 Second trunk cable 61 Conductor 62 Insulating layer 70 Branch connector 80 Injection mold 30 Connecting member 40 Insulating sheath

Claims (7)

A bifurcated cable comprising a trunk cable and a plurality of branch cables branch-connected to the trunk cable,
The mains cable comprises a main first mains cable and a second mains cable connected to one end of the first mains cable to electrically connect to a power supply,
The branch cable is connected to the first trunk cable,
The conductive material of the first trunk cable is aluminum or an aluminum alloy state, and are one of the second trunk cable and conductor material is copper of the branch cable, a copper alloy, silver or a silver alloy,
A plurality of strands of the conductor of the first trunk cable, the conductor of the second trunk cable, and the conductor of the branch cable are twisted together,
The diameter itself of the strands forming the conductor of the second trunk cable is made smaller than the strands forming the conductor of the first trunk cable, so that the second trunk cable has a diameter greater than that of the first trunk cable. As the flexibility of one side is increased and its manageability is improved, the workability of connecting the second trunk cable to the power supply is ensured.
The diameter of the strands constituting the conductor of the branch cable is made smaller than that of the strand constituting the conductor of the first trunk cable, whereby the flexibility of the branch cable compared to the first trunk cable is obtained. A cable with a fork characterized in that the workability is improved by connecting the branch cable to the existing equipment by enhancing the property and improving the manageability thereof . A bifurcated cable comprising a trunk cable and a plurality of branch cables branch-connected to the trunk cable,
The mains cable comprises a main first mains cable and a second mains cable connected to one end of the first mains cable to electrically connect to a power supply,
The branch cable is connected to the first trunk cable,
The material of the conductor of the first trunk cable is aluminum or an aluminum alloy, and the surface of the conductor of the second trunk cable and the branch cable is made of any of copper, copper alloy, silver, silver alloy, tin or tin alloy Covered with the
A plurality of strands of the conductor of the first trunk cable, the conductor of the second trunk cable, and the conductor of the branch cable are twisted together,
The diameter itself of the strands forming the conductor of the second trunk cable is made smaller than the strands forming the conductor of the first trunk cable, so that the second trunk cable has a diameter greater than that of the first trunk cable. As the flexibility of one side is increased and its manageability is improved, the workability of connecting the second trunk cable to the power supply is ensured.
The diameter of the strands constituting the conductor of the branch cable is made smaller than that of the strand constituting the conductor of the first trunk cable, whereby the flexibility of the branch cable compared to the first trunk cable is obtained. A cable with a fork characterized in that the workability is improved by connecting the branch cable to the existing equipment by enhancing the property and improving the manageability thereof . A bifurcated cable comprising a trunk cable and a plurality of branch cables branch-connected to the trunk cable,
The mains cable comprises a main first mains cable and a second mains cable connected to one end of the first mains cable to electrically connect to a power supply,
The branch cable has a first branch cable whose one end is connected to the first trunk cable and a second branch which is connected to the other end of the first branch cable so as to electrically connect to existing equipment. And have a cable,
The material of the conductor of the first trunk cable and the first branch cable is aluminum or an aluminum alloy, and the material of the conductor of the second trunk cable and the second branch cable is any of copper, copper alloy, silver or silver alloy Kadea is,
The conductor of the first trunk cable and the conductor of the second trunk cable are each formed by twisting a plurality of strands together, and the conductor of the second trunk cable is more than the strands constituting the conductor of the first trunk cable The diameter of the strands of the wire itself is made smaller, so that the flexibility of the second trunk cable is made higher than that of the first trunk cable, and the manageability is improved. Ease of connecting the mains cable to the power supply is ensured.
The conductor of the first branch cable and the conductor of the second branch cable are each formed by twisting together a plurality of strands, and the conductor of the second branch cable is composed of the strands constituting the conductor of the first branch cable The diameter of the strands of the wire itself is made smaller, so that the flexibility of the second branch cable is made higher than that of the first branch cable, and the manageability is improved. A cable with a branch characterized in that the workability for connecting a branch cable to the equipment is secured . A bifurcated cable comprising a trunk cable and a plurality of branch cables branch-connected to the trunk cable,
The mains cable comprises a main first mains cable and a second mains cable connected to one end of the first mains cable to electrically connect to a power supply,
The branch cable has a first branch cable whose one end is connected to the first trunk cable and a second branch which is connected to the other end of the first branch cable so as to electrically connect to existing equipment. And have a cable,
The material of the conductor of the first trunk cable and the first branch cable is aluminum or an aluminum alloy, and the surface of the conductor of the second trunk cable and the conductor of the second branch cable is copper, copper alloy, silver, silver alloy, Covered with a covering layer of either tin or tin alloy ,
The conductor of the first trunk cable and the conductor of the second trunk cable are each formed by twisting a plurality of strands together, and the conductor of the second trunk cable is more than the strands constituting the conductor of the first trunk cable The diameter of the strands of the wire itself is made smaller, so that the flexibility of the second trunk cable is made higher than that of the first trunk cable, and the manageability is improved. Ease of connecting the mains cable to the power supply is ensured.
The conductor of the first branch cable and the conductor of the second branch cable are each formed by twisting together a plurality of strands, and the conductor of the second branch cable is composed of the strands constituting the conductor of the first branch cable The diameter of the strands of the wire itself is made smaller, so that the flexibility of the second branch cable is made higher than that of the first branch cable, and the manageability is improved. A cable with a branch characterized in that the workability for connecting a branch cable to the equipment is secured . The conductor of the first trunk cable and the conductor of the second trunk cable, and the conductor of the first branch cable and the conductor of the second branch cable are respectively connected through connection members.
The cable with a branch according to claim 3 or 4 , wherein a material of the connection member is aluminum or an aluminum alloy, or copper or a copper alloy. Insulating properties are the point at which the first trunk cable and the second trunk cable are connected via the connection member and the point at which the first branch cable and the second branch cable are connected via the connection member The cable with a branch according to claim 5 , characterized in that it comprises an insulation coating part coated with the material of (1). 7. The cable with a branch according to any one of claims 1 to 6 , wherein the trunk cable and the branch cable are connected before laying at a construction site and laid at a predetermined location. Branched cable described in Section.

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