JP3164250B2 - Connection device for power cable - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connection structure of a cable conductor at an intermediate connection portion of a power cable, and more particularly, to a mechanical structure provided on a conductor connector using a conductor connector and a conductor joint as conducting means. The present invention relates to a power cable connecting device for connecting cables on both sides using a simple fixing means.

[0002]

2. Description of the Related Art A slip-on type conductor connecting means for connecting a power cable has been conventionally known. As means for connecting the cable, for example, JP-A No. 2-15
No. 5,415, and Japanese Utility Model Laid-Open No. 2-77868 are known. The conventional power cable connecting device has a configuration as shown in FIG. 8, and has copper conductor connectors 2 fixed to the connection ends of the conductors 1 of the two cables to be connected. It is provided. In the conductor connector 2, a large-diameter compression section 3 is arranged on the cable side, an opening 4 for inserting a cable conductor is provided at the center of the compression section, and the conductor 1 is inserted into the opening 4 for compression. Then, conductivity between the conductor and the conductor connector is obtained.

At the tip of the conductor connector 2, an insertion head member 5 is provided so as to protrude. When the insertion head member 5 is inserted into the conductor joint 10, a locking step 7 of the head 6 is provided. Is locked to the locking step 12 of the conductor joint 10 so that the conductor connector is fixed to the conductor joint. In the conductor joint 10 into which the conductor connector is inserted, a number of narrow strip-shaped members 10a are arranged in a substantially annular shape, and ring-shaped springs 14 are arranged therearound and tightened from the outside. It is configured as follows. Further, a concave portion 11 is provided on the inner surface of each of the conductor coupling members 10a formed in a ring shape, and the insertion head member 5 of the conductor connector is accommodated in a large-diameter hollow portion formed by the concave portion 11. I have to.

The above-described conductor connector is integrally fixed to the other cable conductor to be connected, and the conductor connectors provided at the connection ends of the two cables are inserted into the conductor joint 10 respectively. Then, the connection portion can be formed. Then, by using the conductor connector connected to the conductor joint, electrical continuity between the two cables can be obtained, and the effect of fixing and holding is exhibited in accordance with the pulling force applied to the cable. be able to. The power cable connecting device as shown in FIG. 8 is also used for a terminal connecting portion of a power cable, and one conductor connector 2a is previously combined with a conductor joint 10 and then the other is connected to the other. The conductor can be connected by inserting the conductor connection 2. After the cables are connected as described above, the periphery thereof is covered with an insulating member so as to be fixedly held.

[0005]

However, as shown in FIG. 8, the conductor connectors 2, 2a attached to the connection ends of the cables are inserted into the conductor joint 10, and the two members are locked. When a mechanism for locking the step portion is used, there is a problem that play is generated at the connection portion. The problem that the backlash occurs occurs in a state described in detail in the example shown in FIG. Apart from FIG. 8, as shown in FIG. 9, a connecting portion of a cable is configured.
In the example shown in FIG. 9, conductor connectors 2, 2
a is inserted.
The conductor joints 2 and 2a have the same shape, and have the same structure as the conductor joint 10 shown in FIG.
For this purpose, means for inserting and fixing from both sides is used.

In the example shown in FIG. 9, a small-diameter portion 8 formed between the main body of the conductor connector 2 and the insertion head member 5 is formed.
Is a state in which the length is set to L, the projection 13 at the insertion-side end of the conductor joint 10 is positioned in correspondence with the small-diameter portion 8, and the locking step provided on both sides is engaged. To keep it fixed. However, when the above-described locking means is used, in order to lock the projection of the conductor joint 10 with respect to the small diameter portion of the conductor connector,
It is necessary to set the length L1 of the protruding portion 13 to L> L1, and there is a problem that play is left at a portion where the conductor connector 2 is inserted into and fixed to the conductor joint 10a.

As shown in FIG. 9, when the conductor connector 2 is inserted into the conductor joint 10, the large diameter portion 6 of the insertion head member 5 engages with the projection 13 of the conductor joint 10. It enters in a spread state, and then closes again with the protrusion 13 located at the small diameter portion of the conductor connector. At this time, since the conductor joint is inclined, the protrusion having the length L1 is in the state of the length L2 of the diagonal line.
It is necessary to set the length of each member so that L> L2 with respect to the length L. Therefore, in the power cable connecting device, a large play is left at the combination position of the locking steps of each member.

[0008] In the connection portion, only the portions locked by the two locking steps bear the stress applied to the cable against the tension between the conductor connector and the conductor joint. Since the conductor connector and the conductor joint are made of copper, the tensile force is
There is also a problem that the strength is relatively small. Further, when inserting and fixing the conductor connector to the conductor joint, as shown in FIG. 9, when the axes of the two do not coincide or when a force is applied from the side, the conductor joint is There is a problem that the engagement state of the conductor connector is not set well. And, when the strip-shaped member of the conductor joint is inclined with respect to the conductor connector, the action of the locking step portions to be locked with each other cannot be sufficiently exhibited, and the electrical conduction is not achieved. The problem that the state cannot be set remains.

[0009]

SUMMARY OF THE INVENTION The object of the present invention is to solve the above-mentioned problems of the conventional connection device, in which a conductor joint is used as a member for obtaining electrical continuity, and a conductor connector is directly connected. The tensile force applied to the cable is 2
It is an object of the present invention to provide a power cable connecting device that acts as a compressive force on a pin member disposed at a connecting portion of two conductor connectors to improve the strength of the connecting portion.

[0010]

According to the present invention, a conductor connector is fixed to a tip of a cable conductor, and an insertion head member projecting from the tip of the conductor connector is inserted into a conductor joint and fixed.
The present invention relates to a power cable connecting device for obtaining electrical continuity of a cable conductor connected via the conductor joint. The invention according to claim 1 of the present invention is characterized in that the conductor connectors 20, 20a provided at the distal ends of the two cables 1, 1a to be connected, respectively,
In order to connect the two conductor connectors 20, 20a by inserting them into the conductor connection portion 10, one conductor connector 2
0, an insertion-side connector 30 provided on the other end of the conductor connector 20a, a locking-side connector 50 provided on the other conductor connector 20a, and an insertion-side connector 30 provided on the insertion-side connector 30. A pin member 40 on which a head 42 can protrude and retract on the side surface of the head member, an insertion hole 53 provided on the locking side connector 50 and a tapered surface 52 provided on the insertion port side, and an end of the tapered portion The locking step 54 having the inner surface of the hole standing upright from the small diameter portion of the above, and the pin member 40 with the insertion-side connector 30 completely inserted into the insertion hole 53 of the locking-side connector 50. A pin member 40... Whose head 42 is expanded and exposed to the insertion hole 53 is provided.
It is characterized in that it is fixed so as to be sandwiched between the inner surface 37 of the head member 36 of the insertion-side connector 30 and the locking step 54. According to a second aspect of the present invention, in the connection device,
The tension applied to the cable between the inner surface of the head 42 of the insertion-side connector and the locking step 54 of the locking-side connector 50
It acts on the pin member 40 in the direction of compression.

With the above-described configuration, in the power cable connecting device of the present invention, electrical conduction can be set by connecting the conductor connector and the conductor joint, and the electric connection can be made with respect to the conductor joint. The cable tension does not act. Further, the tension applied to the cable can be borne by two connecting members of the insertion-side connector and the locking-side connector provided on the opposing conductor connector,
Since the tension applied to the connecting member acts on the head of the pin member in the direction of compression, the strength of the connecting portion can be set high. Furthermore, since the insertion-side connector and the locking-side connector provided on the conductor connector can be formed using a metal material having high strength, the connection member can be configured to be small. Become.

[0012]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a connecting device for a power cable according to the present invention. In the example shown in FIG.
The mechanism for fixing the conductor connector 20 to the connection end of the cable conductor is performed in the same manner as in the conventional example, and the connection end of the conductor 1 is inserted into the opening 24 of the conductor connector. , The compression unit 23 is compressed and fixed. The conductor connector 20a is also attached to the facing cable conductor 1a. The conductor connector is formed as a copper member. A member for inserting the cable conductor 1 is provided at one end of the conductor connector, and a conductor joint 10 is provided at the other end.
The insertion distal end portions 21 and 21a for inserting into the holes are formed in a substantially cylindrical shape.

In the conductor joint 10 for inserting and holding the conductor connector from both sides, the inner surface is formed to have a smooth inner surface shape into which a cylindrical insertion tip is inserted. As described in the above, there is no mechanism provided for locking and holding by providing irregularities. Further, the conductor joint 10 is formed in a cylindrical shape by combining copper strip-shaped members in the same manner as in the case of the conventional connection portion, and a plurality of ring-shaped springs 14 are arranged around the cylindrical joint, The inserted insertion tip is tightened from the outside to fix and hold the conductor connector. And between the conductor joint and the conductor connector,
Only electrical continuity can be obtained,
The tension applied to the cable is borne by a connection member 25 described later.

[0014] The connecting members provided on the conductor connector include insertion-side connectors 30 and locking-side connectors 50 with respect to the recessed holes 22 and 22a formed in the insertion tips 21 and 21a of the conductor connectors. Are screwed in, and the two members constituting the connecting member can be formed using a material having a high strength such as iron. Then, the head member 36 of the insertion-side connector 30 provided on the one conductor connector 20 is provided.
Is connected to the locking connector 50 provided on the other conductor connector 20a.
To connect the head of the conductor connector inserted into the conductor joint. Note that the connection member of the present invention has a structure that cannot be removed once connected.

The connecting member 25 shown in FIG.
The structure as shown in detail in FIG. In the example shown in FIG. 2, the insertion-side connector 30 which is screwed into and fixed to one of the conductor connectors is configured as a substantially cylindrical shape, and an outer thread 31 is provided on the outer peripheral portion. In addition, a head member 36 is provided so as to protrude through a tapered portion 32 at a distal end portion of a cylindrical main body. Further, a concave portion 35 is formed from the head member 36 of the insertion-side connector 30 toward the inside of the main body, and a plurality of pin members 40 are radially arranged in the concave portion 35. The pin member 40 has a hinge 4 inside the insertion-side connector body.
1 is pivotably mounted through the pin member 4.
Means (not shown) for urging the 0 head outward is arranged so that the head 42 of the pin member projects to the outer periphery of the head member.

The locking connector 50 provided on the other conductor connector in correspondence with the insertion connector 30 has an outer screw 5 on the outer peripheral portion of the cylindrical main body as in the case of the insertion connector.
1 to form a mechanism for screwing and fixing the conductor connector into the concave portion of the conductor connector. An insertion hole 53 is provided at a distal end of the locking side connector corresponding to the main body insertion side connector through a tapered portion 52 toward the inside of the main body. The boundary with the portion is set as a locking step 54 and is used as a member for locking and fixing the sliding surface 44 of the pin member. Further, a tapered portion 3 formed as a surface corresponding to each of the two fixing members.
2, 52 are formed so that their inclination angles are the same, and in a state where the insertion side connector and the locking side connector are combined, a gap and play are not formed between both members. Is done.

As shown in FIG. 3, the connecting member constructed as described above can be fixed by inserting the insertion-side connector 30 toward the locking-side connector 50 as shown in FIG. To be. Insert the insertion-side connector 30 to the locking-side connector 5
As shown in FIG. 1, the operation of inserting the insertion end of the conductor connector into the conductor joint 10 is performed at the same time as the operation of inserting the insertion tip of the conductor connector into the conductor joint 10 arranged outside the connection portion. That is, as shown in FIG. 3, when the head member 36 of the insertion-side connector 30 is inserted into the insertion hole 53 of the locking-side connector 50, the head 42 of the pin member 40 is Since the pin member is guided along the tapered portion of the connector, when the pin member passes through the distal end portion of the tapered portion 52, the pin member is reduced to have the same outer diameter as the head member 36. When the head of the insertion-side connector is completely inserted into the locking-side connector, as shown in FIG. 4, the pressing action on the pin member is released, and the pin member is not shown. It is pressed by the spring or the like, and is projected outward.

As shown in FIG. 4, when the two fixing members are locked, the head 42 of the pin member located at the tip end of the insertion hole 53 is in contact with the head inner surface 37 of the head member 36. , And between the locking step 54 of the insertion hole 53. Then, in a state where tension is applied to the conductor connector holding the connection member in the length direction of the cable,
The inner surface 37 of the head as the locking surface on both sides and the locking step 54 exert a pressing action on the head of the pin member. Therefore, like the connection part of the conventional cable,
The strength of the connecting portion can be set to be larger than when using a mechanism for directly engaging the locking step portions. Further, in the structure of the connecting portion of the present invention, in a state where the insertion-side connector is inserted into the locking-side connector, in order to swing the head of the pin member, there is no need to set a large space, As shown in FIG. 4, if there is a minimum gap in which the head of the pin member can slide with respect to the locking surfaces on both sides, it is possible to swing the pin member,
All that is required is that only a very small gap is formed at the connection part of the conductor connector.

In addition to the connecting member shown in FIG. 2, in the present invention, a conductor connector attached to the connecting end of two cables is directly connected using a pin member as shown in FIG. A mechanism can be configured. In the example shown in FIG. 5, the configuration of the main part of the insertion-side connector 30 and the locking-side connector 50 is the same as that in FIG. I have. In this embodiment, a plurality of pin members 63 are swingably arranged via a hinge 64 with respect to a head member 60 formed at the distal end of the insertion-side connector 30. Further, as in the case of the above-described embodiment, a means (not shown) for urging the pin member in a direction of projecting outward is provided.

In the pin member 63 of the present invention, the surface of the end portion supported by the hinge is formed in a linear shape pressed against the head inner surface 61 at the position shown in FIG. It is formed to be swingable via a hinge. Therefore, as shown in FIG. 5, when the pin member is swung outward, the pin member is held at a position where it is locked to the head inner surface 61. The head member 6
The pin member 63 provided on the inner surface of the head member 60 is configured to slide with respect to the inner surface 61 of the head member 60 and the sliding surface 62, and a gap is formed between the pin member and each sliding surface. In a state where the pin member is set to be very small, swing of the pin member is allowed. Further, in the insertion hole 65 formed inside the locking-side connector 50 corresponding to the head member 60 provided on the insertion-side connector 30, the surface on the insertion-side connector side is used as a locking step 66. The locking step 66 is formed in a curved surface, and the radius of the curved surface is set to the sliding surface 6.
2.

The two connecting members shown in FIG. 5 follow the operation of inserting the insertion head member of the conductor connector into the conductor joint, and connect the insertion side connector to the locking side connector 50. The operation of inserting and fixing the 30 head members 60 is performed. First, in the process of inserting the insertion-side connector into the locking-side connector, as shown in FIG. 6, as the head member of the insertion-side connector is inserted, a pin is inserted into the tapered portion of the locking-side connector. The member 63 is slid, and the pin member is guided through the hinge 64 so as to be reduced. In a state where both members are completely fitted, as shown in FIG. 7, the sliding surface 62 of the head member and the locking step 66 of the insertion hole coincide with each other, and the pin member 63 , And stops at a position as shown in the figure. Therefore, in a state where the pin member is stopped and held, the head inner surface 61 and the locking step 66 are engaged with the pin member 63, and when a tensile stress is applied to the cable. , And a state in which a compressive force acts on the pin member.

As shown in FIG. 2 or FIG. 5, in the case where two connecting members of an insertion side connector and a locking side connector are provided for a conductor Each of the connecting members is made of a high-strength material such as iron or stainless steel, and can be made as a relatively small member. Then, a plurality of pin members that bear the pressing force at the connection portion are arranged in the radial direction with respect to the axial direction of the conductor connector, and when a stress in the tensile direction is applied to the connection portion, or in the bending direction. Even when stress of
The force of the stress acting on the pin member can act as a compressive force. Further, the pin member arranged in the connecting portion of the present invention can be urged in a direction of swinging outward by using an urging member such as a spring, and as means for the urging, A spring of any configuration can be used.

Further, in the embodiment of the present invention, instead of using the means for urging the pin member with a spring or the like, the pin member can be made of a shape memory alloy. When connecting the opposing conductor connector, the pin member is kept in a cooled state, and the pin member is heated while the conductor connector is locked, so that the pin member is inserted into the insertion-side connector and the locking-side connector. Can be set in a state of entering between the locking members provided in the above. Therefore, even in such a configuration, after the conductor connector is connected, it is possible to maintain a state in which the connection portion does not separate.

Further, using the connection means as described above,
When the conductor connector is directly connected to form a connection portion of the cable, the electrical conduction state of the conductor connector is determined by a conductor connector attached to the cable conductor and a conductor joint into which the conductor connector is inserted. Set between. Furthermore, the connection between the insertion-side connector and the locking-side connector provided on the conductor connector can perform the function of fixing and holding at the connection portion of the conductor connector. Then, after connecting the cable as described above, a work of forming a semiconductive layer and covering the outside with an insulator is performed on the connection portion, as in the case of the conventional device. In addition, the electrical characteristics of the connection portion can be maintained.

[0025]

Since the power cable connecting device of the present invention is constructed as described above, the electrical continuity in the power cable connecting device is set by the connection between the conductor connector and the conductor joint. And no tension or the like of the cable acts on the conductor joint.
In addition, the tension applied to the cable can be borne by the connecting member between the insertion-side connector and the locking-side connector provided on the opposing conductor connector, and the tension applied to the connecting member is reduced by the pin member. Since it acts on the head in the direction of compression, the strength of the connecting portion can be set high. Furthermore, since the insertion-side connector and the locking-side connector provided on the conductor connector can be formed using a metal material having high strength, the connection member can be configured to be small. Become. Then, the pin member can be swung in the locking direction only by providing a small gap for swinging the pin member with respect to the connection portion of the conductor connector. No large backlash is formed, and a good connection state of the cable can be maintained.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view illustrating a configuration of a power cable connection device of the present invention.

FIG. 2 is a cross-sectional view illustrating a configuration of an insertion-side connector and a locking-side connector provided in a connection portion.

FIG. 3 is an explanatory diagram of a state in which an insertion-side connector is being inserted into a locking-side connector;

FIG. 4 is an explanatory view of a state in which the insertion-side connector is locked and held by the locking-side connector.

FIG. 5 is a sectional view showing a configuration of another connecting member of the power cable connecting device of the present invention.

FIG. 6 is an explanatory view showing a state of the connecting member shown in FIG. 5 during a connection operation.

FIG. 7 is an explanatory view of a state where the insertion-side connector of FIG. 5 is connected to the locking-side connector.

FIG. 8 is an explanatory diagram showing a configuration of a conventional power cable connection device.

9 is an explanatory view of the power cable connection device of FIG. 8 in a state where a conductor joint is opened.

[Explanation of symbols]

Reference Signs List 1 cable conductor, 2 conductor connector, 5 insertion head member, 7/12 locking step, 10 conductor joint, 14 ring spring, 20 conductor connector,
21 insertion tip, 22 recess, 30 insertion side connector, 31 outer thread, 32 taper part, 3
6 head member, 37 head inner surface, 40 pin member, 41 hinge, 42 head, 50
Locking connector, 51 Outer thread, 52 Taper, 53 Insertion hole, 54 Locking step, 60
Head member, 61 head inner surface, 62 sliding surface,
63 pin member, 64 hinge, 65 insertion hole, 66 locking step.

──────────────────────────────────────────────────続 き Continuation of front page (72) Inventor Akira Saito 1008 Shinbori, Kumagaya-shi, Saitama Mitsubishi Cable Industry Co., Ltd. Kumagaya Works (58) Field surveyed (Int. Cl. ⁷ , DB name) H02G 15 / 08

Claims (2)

(57) [Claims] 1. A conductor connector is fixed to a distal end portion of a cable conductor, and an insertion head member protruding from the distal end portion of the conductor connector is inserted into and fixed to a conductor joint, and is connected via the conductor joint. In a power cable connecting device for obtaining electrical continuity between cable conductors, a conductor connector provided at each of the distal ends of two cables to be connected is connected by inserting the two conductor connectors into a conductor connecting portion. For this purpose, an insertion-side connector provided at the tip of one conductor connector, a locking-side connector provided at the other conductor connector, and an insertion-side connector provided at the insertion-side connector, which can swing through a hinge in a recess. A pin member having a head protruding and retracting on a side surface of the head member, an insertion hole provided on the locking side connector, and a tapered surface provided on an insertion port side, and a hole from a small diameter portion at an end of the tapered portion. A locking step with the inner surface of the A pin member whose head is expanded and exposed to the insertion hole in a state where the insertion-side connector is completely inserted into the insertion hole of the locking-side connector; and The power cable connecting device, wherein the head is fixed so as to be sandwiched between the inner surface of the head member of the insertion-side connector and the locking step. 2. A tension applied to a cable between an inner surface of a head of an insertion-side connector and a locking step of a locking-side connector, wherein a tension is applied to the pin member with respect to the pin member. The connection device for a power cable according to claim 1, wherein the connection device acts in a direction in which the power cable operates.