JP2005341729A - Adapter for bypass cable - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an adapter for a bypass cable which can easily perform bypass cable connecting work, in a short time. <P>SOLUTION: The adapter 1 for the bypass cable has an apparatus terminal connecting side end 1a, a bypass cable connecting side end 1b, and a folding part 1c. The apparatus terminal connecting side end 1a has a hook type hole 1d for electrically connecting to the device terminal. This hook type hole 1d has a shape for connecting holes 1e, 1f of a plurality of diameters to cutout holes 1g opened at a side face. The bypass cable connecting side end 1b has a connecting part 1h for electrically connecting to the bypass cable. The folding part 1c is provided between the apparatus terminal connecting side end 1a and the bypass cable connecting side end 1b. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a bypass cable adapter, and more particularly to an adapter for a bypass cable that performs power distribution in place of the overhead power distribution cable when the cable is repaired and inspected.

  When there is an accident such as a lightning strike on an overhead distribution line, a bypass cable is laid from the high-voltage generator car and 6 kV distribution line to prevent power outages of customers supplied by the distribution line and to make emergency power transmission as soon as possible. Then, power is supplied to the customer's equipment. And while supplying electric power with a bypass cable, the repair inspection work of an accident area is performed.

  FIG. 6 is a view showing the vicinity of the end of a general bypass cable. Referring to FIG. 6, the bypass cable 50 has a copper tube terminal 50a at the end portion, and the copper tube terminal 50a has two bolt holes 50b.

  As shown in FIG. 7, the bypass cable 50 is connected to the customer facility by removing the customer lead wire 60 connected to the terminal 30 of the customer facility device with the bolt 35 from the customer facility device. Later, the bolt 35 was inserted into the bolt hole 50b of the bypass cable 50 and fastened.

  Further, when the bypass cable 50 is connected to the copper bar, the bypass clamp 20 is used as shown in FIG. The bypass clamp 20 includes a main body portion 21 having a curved pressing portion 21 a and a fastening portion 22 that can be screwed into the main body portion 21. A bypass cable 50 can be electrically connected to the main body 21.

  The connection between the bypass cable 50 and the copper bar 40 using the bypass clamp 20 is performed by arranging the copper bar 40 between the pressing portion 21a of the main body portion 21 and the fastening portion 22 and screwing the fastening portion 22 into the holding portion. This is done by sandwiching the copper bar 40 between the portion 21 a and the fastening portion 22.

  Further, when the bypass cable 50 is connected to a copper bar, a copper bar connection adapter 80 may be used as shown in FIG. The copper bar connection adapter 80 is connected to the copper bar 40 by fastening the pair of plates 80b with four bolts 80c with the copper bar 40 sandwiched between the pair of plates 80b.

The structure of the end portion of the bypass cable is disclosed in, for example, Japanese Patent Application Laid-Open No. 6-311630.
JP-A-6-311630

  With reference to FIG. 7, if the customer lead 60 is connected to the customer's equipment, the customer lead 60 becomes an obstacle, and the bypass cable 50 is directly connected to the customer's equipment. Have difficulty. For this reason, when connecting the bypass cable 50 to the customer's equipment, the customer lead wire 60 has to be once removed from the customer's equipment, and the bypass cable connection work is complicated.

  Further, while the bypass cable 50 is connected to the customer's equipment, the customer lead wire 60 removed from the customer's equipment cannot be connected to the customer's equipment, and the customer lead. The wire 60 had to be temporarily supported and protected.

  Further, the bolt hole 50b of the bypass cable 50 has a size corresponding to a φ8 mm bolt. For this reason, when the diameter of the bolt 35 for connecting to the customer's equipment is larger than φ8 mm, such as φ12 mm, the bypass cable 50 cannot be directly connected to the customer's equipment.

  Referring to FIG. 8, since the bypass clamp 20 is directly connected to the copper bar 40, a large contact area between the copper bar 40 and the bypass clamp 20 cannot be secured, and it is difficult to securely fix the bypass clamp 20. there were.

  Referring to FIG. 9, the copper bar connection adapter 80 is difficult to handle because of its increased weight and size. Moreover, since the size of the copper bar connection adapter 80 is large, there are places where the attachment is difficult due to insufficient separation from other phases. In addition, since the copper bar connection adapter 80 requires four bolts, it is difficult to work in a narrow work space in the cubicle.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a bypass cable adapter that can easily perform a bypass cable connection operation in a short time.

  One bypass cable adapter of the present invention is a bypass cable adapter for electrically connecting a bypass cable to a device terminal, and has a connection portion for electrically connecting to the bypass cable. An end portion, an end portion on the device terminal connection side having a hook-shaped hole for electrical connection to the device terminal, and a bent portion provided between the end portion on the bypass cable connection side end portion and the end portion on the device terminal connection side The hook-shaped hole has a shape in which a plurality of holes having a plurality of diameters and a cutout hole opened on a side surface are connected to each other.

  Another bypass cable adapter of the present invention is a bypass cable adapter for electrically connecting the bypass cable to the plate-like conductor, and includes a clamp having a pressing portion and a fastening portion for sandwiching the plate-like conductor; And an attachment that can be disposed between the pressing portion and the plate-like conductor and can be brought into contact with the plate-like conductor in a larger area than the holding portion.

  According to one adapter for a bypass cable of the present invention, since the hook-shaped hole has a cutout hole that opens to the side surface, the bolt can be inserted from the opening on the side surface. The adapter can be engaged.

  Moreover, since the hook-shaped hole has a plurality of diameter holes connected to the notch hole, it is possible to deal with a plurality of diameter bolts.

  In addition, since a bent part is provided between the bypass cable connection side end and the equipment terminal connection side end, it is connected to the equipment terminal by avoiding the customer lead wire connected to the equipment terminal at this bent part. It becomes possible to do. As a result, even when the bypass cable is connected to the equipment terminal, it is not necessary to remove the consumer lead from the equipment terminal, saving labor and time for connection work, and temporarily removing the removed consumer lead. Eliminates the need for support and protection.

  According to another bypass cable adapter of the present invention, the attachment can be brought into contact with the plate-like conductor in a larger area than the holding portion, so that a large contact area with the plate-like conductor can be secured and reliable fixing is achieved. It becomes possible.

  In addition, by placing the attachment between the plate-shaped conductor and the pressing portion, and tightening the plate-shaped conductor to the attachment or the pressing portion side by the fastening portion, the adapter can be easily connected to the plate-shaped conductor, Labor and time for connecting work can be saved.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
FIG. 1 is a front view (a), a side view (b), and a lower view (c) showing a configuration of a bypass cable adapter according to Embodiment 1 of the present invention. With reference to FIG. 1, the adapter 1 for bypass cables of this Embodiment is for electrically connecting a bypass cable to an apparatus terminal. The bypass cable adapter 1 includes a device terminal connection side end 1a, a bypass cable connection side end 1b, and a bent portion 1c.

  The equipment terminal connection side end 1a has a hook-shaped hole 1d for electrical connection to the equipment terminal. The hook-shaped hole 1d has a shape in which a plurality of holes 1e and 1f having a plurality of diameters and a notch hole 1g opened on a side surface are connected. The holes 1e and 1f having a plurality of diameters include, for example, a bolt hole 1e having a diameter of φ8 mm and a bolt hole 1f having a diameter of φ12 mm.

  The bypass cable connection side end 1b has a connection 1h for electrical connection to the bypass cable. The connecting portion 1h is, for example, a bolt hole, and the bolt hole 1h has a diameter of, for example, φ8 mm, and two, for example, are provided.

  The bent portion 1c is provided between the device terminal connection side end 1a and the bypass cable connection side end 1b. Due to the bent portion 1c, the main surface of the device terminal connection side end 1a and the main surface of the bypass cable connection side end 1b are located on different planes (for example, on a parallel plane).

The dimensions of each part of the bypass cable adapter 1 of the present embodiment are, for example, that the length L _{1a of the} device terminal connection side end _1a is 50 mm, the length L _{1b of} the bypass cable connection side end _1b is 50 mm, and the bent portion 1c. The length L _1c seen from the direction perpendicular to the main surface of the device terminal connection side end 1a is 20 mm, the actual length L _1g of the bent portion 1c is 40 mm, the width L _1h is 30 mm, and the thickness L _1i is The pitch L _1j between 4 mm and the two bolt holes 1 h is 22 mm. Further, the length L _1e between the position where the notch hole 1g is connected to the holes 1e and 1f having a plurality of diameters and the outermost end portion of the device terminal connection side end portion 1a is 15 mm, and the notch hole 1g opens on the side surface. The length L _1f between the position to be connected and the outermost end portion of the device terminal connection side end portion 1a is 30 mm.

  FIG. 2 is a diagram illustrating a state in which the bypass cable is connected to the equipment of the customer using the bypass cable adapter according to the first embodiment of the present invention. Referring to FIG. 2, consumer lead wire 60 is originally electrically connected to terminal 30 of the customer equipment by bolt 35. The hook-shaped hole 1d of the bypass cable adapter 1 according to the present embodiment has a cutout hole 1g that opens to the side surface. The bolt 35 is inserted from the opening of the notch hole 1g, and the bolt 35 is engaged with the bolt hole 1e or 1f.

  In addition, the bypass cable 50 is electrically connected to the bolt hole 1h serving as the connection portion 1h of the bypass cable adapter 1 of the present embodiment by a bolt. Thereby, the bypass cable 50 and the apparatus terminal 30 can be electrically connected using the adapter 1 for bypass cables of this Embodiment.

  According to the present embodiment, since the hook-shaped hole 1d has the cutout hole 1g that opens to the side surface, the bolt 35 can be inserted from the opening on the side surface, and the bolt 35 can be inserted into the bolt 35 without removing the bolt 35. It becomes possible to engage the adapter 1 of this Embodiment.

  Further, since the hook-shaped hole 1d has a plurality of diameter holes 1e and 1f connected to the cutout hole 1g, it is possible to correspond to the bolts 35 having a plurality of diameters. That is, when the diameter of the bolt 35 for connecting to the device terminal 30 is φ8 mm, the bolt 35 is engaged with the φ8 mm bolt hole 1 e, and when the diameter of the bolt 35 is φ12 mm, the bolt is inserted into the φ12 mm bolt hole 1 f. 35 can be engaged.

  Moreover, since the bending part 1c is provided between the apparatus terminal connection side edge part 1a and the bypass cable connection side edge part 1b, the customer lead wire 60 connected to the apparatus terminal 30 by this bending part 1c is connected. The bypass cable 50 can be connected to the device terminal 30 while avoiding it. Thereby, even when the bypass cable 50 is connected to the equipment terminal, it is not necessary to remove the customer lead wire 60 from the equipment terminal 30, and it is possible to save the labor and time of the connection work and to remove the customer lead. There is no need to temporarily support and protect the wire 60.

  Actually, when the bypass cable was connected using the adapter 1 for the bypass cable according to the present embodiment, the work that took about 48 minutes in the past is about 17 minutes, and the time is greatly reduced. I was able to plan.

  In the present embodiment, a description has been given of a case where two diameter holes 1e and 1g are connected as a plurality of diameter holes, but the plurality of diameter holes may be composed of three or more diameter holes. Good. Further, it is not necessary that two or more diameter holes are connected to each other as a plurality of diameter holes, and two or more diameter holes may be connected to the notch hole 1g independently.

(Embodiment 2)
FIG. 3 is a front view (a), a side view (b), and a lower view (c) showing the configuration of the attachment used in the bypass cable adapter according to the second embodiment of the present invention. Referring to FIG. 3, attachment 11 used in the bypass cable adapter of the present embodiment is provided at each of rod-shaped portion 11 a having a substantially semicircular cross section and both ends of rod-shaped portion 11 a. And an enlarged diameter portion 11b. The enlarged diameter portion 11b has a shape in which a part of a circle is cut out in a straight line. Both the lower surface of the rod-shaped portion 11a of the attachment 11 and the lower surface of the enlarged diameter portion 11b form a substantially flat surface and constitute the same plane.

The dimensions of each part of the attachment 11 are, for example, the length L _2a of the rod-shaped portion 11a is 55 mm, the length L _2b of the enlarged diameter portion 11b is 10 mm, the overall length L _2c is 75 mm, and the width L _{2d of the} enlarged diameter portion 11b. Is 25 mm, the diameter of the rod-shaped portion 11 a is φ15 mm, and the height L _2e from the lower surface of the expanded diameter portion 11 b is 18 mm.

  4 and 5 are a side view and a front view showing a state in which the bypass cable is connected to the copper bar using the bypass cable adapter according to the second embodiment of the present invention. Referring to FIGS. 4 and 5, the bypass cable adapter according to the present embodiment includes the attachment 11 and the bypass clamp 20. By this bypass cable adapter, the bypass cable 50 is electrically connected to the copper bar 40 which is a plate-like conductor.

  Here, the bypass clamp 20 has a main body portion 21 and a fastening portion 22, and the main body portion 21 has a pressing portion 21 a for sandwiching the copper bar 40 together with the fastening portion 22. The pressing portion 21 a is curved, and the curved portion can hold the curved surface of the rod-shaped portion 11 a of the attachment 11. In a state where the attachment 11 is held by the pressing portion 21a, the diameter-enlarged portion 11b of the attachment 11 is located outside the pressing portion 21a.

  The attachment 11 can be disposed between the pressing portion 21a and the copper bar 40, and can be brought into contact with the copper bar 40 in a larger area than the pressing portion 21a by contacting the copper bar 40 with the flat lower surface thereof. It is.

  According to the present embodiment, since the attachment 11 can be brought into contact with the copper bar 40 in an area larger than that of the pressing portion 21a, a large contact area between the copper bar and the bypass cable adapter can be ensured, and reliable fixing can be performed. Is possible.

  Further, the attachment 11 is disposed between the copper bar 40 and the holding portion 21a, and the copper bar 40 is fastened to the attachment 11 or the holding portion 21a side by the fastening portion 22, thereby easily connecting the copper bar 40 to the copper bar 40. The adapter can be connected, and the labor and time for connection work can be saved.

  Actually, when the bypass cable was connected using the bypass cable adapters 11 and 20 of the present embodiment, it took about 28 minutes when the conventional bypass clamp was used. The work time was minutes and the time was greatly reduced.

  A temperature rise test and a vibration test were performed on the bypass cable adapter of the first embodiment.

  As a test method of the temperature rise test, a current of 300 A was passed through each prototype, and the temperature rise value of each part of the adapter for the bypass cable at that time was measured. In the measurement, the determination was made based on the fact that the temperature rise value was 40 ° C. or less and no abnormality was found in each part.

  As a result of the temperature rise test, the maximum temperature rise value of the bypass cable adapter of the first embodiment was 38 ° C., and no abnormality was found at any measurement point.

  Moreover, as a test method of the vibration test, each prototype was fixed on a test stand, and a vibration having a vibration width of 5 mm was applied for 1 hour at 1000 cycles / min. In the measurement, the determination was made based on the fact that the adapter for the bypass cable fixed to the test bench was not loosened or loose.

  As a result of the vibration test, the adapter for bypass cable according to the first embodiment did not loosen or play.

  A temperature rise test and a vibration test were performed on the bypass cable adapter of the second embodiment. The same method and criteria as in Example 1 were used for the test method and the judgment criteria of the temperature rise test and vibration test.

  As a result of the temperature rise test, the maximum temperature rise value of the bypass cable adapter of the second embodiment was 30 ° C., and no abnormality was found at any measurement point.

  As a result of the vibration test, the adapter for the bypass cable according to the second embodiment did not loosen or play.

  From Examples 1 and 2, it was confirmed that any of the bypass cable adapters of Embodiments 1 and 2 had no problem in terms of temperature rise and vibration.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  The adapter for a bypass cable according to the present invention can be advantageously applied to an apparatus that performs power distribution in place of the cable when the cable for overhead power distribution is repaired and inspected.

It is the front view (a) which shows the structure of the adapter for bypass cables in Embodiment 1 of this invention, a side view (b), and a lower view (c). It is a figure which shows the state which connects a bypass cable to a customer's apparatus equipment using the adapter for bypass cables in Embodiment 1 of this invention. It is the front view (a) which shows the structure of the attachment used for the adapter for bypass cables in Embodiment 2 of this invention, a side view (b), and a downward view (c). It is a side view which shows the state which connects a bypass cable to a copper bar using the adapter for bypass cables in Embodiment 2 of this invention. It is a front view which shows the state which connects a bypass cable to a copper bar using the adapter for bypass cables in Embodiment 2 of this invention. It is a figure which shows the terminal part vicinity of a general bypass cable. It is a figure for demonstrating the connection to the consumer equipment of a bypass cable. It is a figure which shows a mode that the clamp of a bypass cable is directly connected to a copper bar. It is a figure which shows the mode of the connection to the copper bar by a copper bar connection adapter.

Explanation of symbols

  1 Adapter for bypass cable, 1a Device terminal connection side end, 1b Bypass cable connection side end, 1c Bending part, 1d Hook-shaped hole, 1e, 1f hole, 1g Notch hole, 1h Connection part (bolt hole), DESCRIPTION OF SYMBOLS 11 Attachment, 11a Bar-shaped part, 11b Expanded diameter part, 20 Bypass clamp, 21 Main body part, 21a Holding part, 22 Fastening part, 11, 20 Bypass cable adapter, 30 Equipment terminal, 35 bolt, 40 Copper bar, 50 Bypass cable 50a copper tube terminal, 50b bolt hole, 60 lead wire, 80 copper bar connection adapter, 80b plate, 80c bolt.

Claims (2)

A bypass cable adapter for electrically connecting the bypass cable to the equipment terminal,
A bypass cable connection side end portion having a connection portion for electrically connecting to the bypass cable;
An equipment terminal connection side end having a hook-shaped hole for electrical connection to the equipment terminal;
A bent portion provided between the bypass cable connection side end and the device terminal connection side end;
The hook-shaped hole is a bypass cable adapter having a shape in which a plurality of holes having a plurality of diameters and a cutout hole opened on a side surface are connected to each other. A bypass cable adapter for electrically connecting the bypass cable to the plate conductor,
A clamp having a pressing part and a fastening part for sandwiching the plate-like conductor;
An adapter for a bypass cable, comprising: an attachment that can be disposed between the pressing portion and the plate-like conductor and that can be brought into contact with the plate-like conductor in a larger area than the pressing portion.

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