JPH0445417Y2 - - Google Patents

Description

[Detailed description of the invention] [Effects of the invention] "Field of industrial application" This invention relates to a molded cable used in an underwater motor.

"Prior Art" FIG. 6 is a longitudinal sectional view of an underwater motor. The underwater motor has a motor shaft 27 rotatably supported inside.
A rotor 28 fixed to the cylindrical motor frame 21 is arranged with a small gap through a stator 29 fixed to the cylindrical motor frame 21 and a stator can 31 in close contact with the stator 29.
33 portion is fixed to end covers 34 and 35,
A cylindrical suction casing 36 having a plurality of holes provided on the outer periphery of the lower part is press-fitted and fixed to the end cover 34 .

The cable seat 22 is provided at the bottom of the motor frame 21. The cable 1 starts from one side of the cable joint 20 provided between the cable seat 22 and is arranged upward along the outer circumferential axis direction of the suction casing 36. 37 is a protective cover for the molded cable, which is fixed to the end cover 34 and the suction casing 36.

A conventional example of such a cable joint is disclosed in Japanese Utility Model Application Publication No. 129363/1983.

The invention of the earlier application is shown in FIG. 4, which is a vertical cross-sectional view, in which a four-core cable 1 has a conductor 3 coated with an insulating coating 2 to form a core wire 4, and the core wire 4 is
The submersible motor is also covered with a cab tire 5 made of sulfurized rubber or vinyl chloride, and has a length that allows the submersible motor to be submerged to a required depth and connected to a ground power source. 4 conductors 3
The end is bent at a right angle, and the tip fits into the hole at the rear end of the pin 12 in the direction that intersects the cable 1.
The pin 12 and the conductive wire 3 are fixedly connected by pressing the rear end of the pin 12 and the conductor 3 by crimping or soldering. The four pins 12 are arranged parallel to each other and spaced apart from each other.
A hole 14 into which a straight terminal 13 is inserted is formed on the tip side of the pin 12, and a tapered tip portion 15a is formed.
a cylindrical fitting part 15, a mounting flange 16,
A reinforcing member is provided with a protection part 17 that covers the length of the underwater cable 1 from the end of the underwater cable to the pin 12 in an L-shape, and is fitted onto the outer periphery of the mounting flange 16, is in contact with the outer surface of the mounting flange 16, and whose inner periphery is fitted into the protection part 17. The plate 18 is fitted and the cable joint 20 is integrally molded from synthetic resin or rubber. Mounting bolts 19 are inserted through the bolt holes of the reinforcing plate 18 and the mounting flange 16.
is screwed into the female thread of the cable seat 22.

The above is the cable joint part on the underwater cable 1 side, but the joint part coupled to this cable joint 20 is formed on the underwater motor side. A cylindrical metal cable seat 22 is attached to the frame 21 of the underwater motor.
are welded together, and the inner circumference 23 on the inside side of the cable seat 22 is larger than the fitting part 15 of the cable joint 20. A terminal block 25 made of an insulating material such as hard rubber or synthetic resin is fitted into the inner periphery 23 of the cable seat 22 via a sealing ring 26 , and a terminal block holder 24 is fitted in contact with the terminal block 25 .
is fitted. The above-mentioned straight terminal 13 is integrally molded on the terminal block 25. The straight terminal 13 is made of a metal with good electrical conductivity, and the conducting wire 8 led from the stator 29 is inserted into the hole at the end of the terminal 13.
Terminal 13 by crimping or soldering from above.
and the conducting wire are fixedly coupled. Terminal block 25
The end portion is formed into a tapered hole 25a so that the tip tapered portion 15a of the fitting portion 15 of the cable joint 20 is press-fitted.
It is becoming.

"Problems to be Solved by the Invention" In the conventional example described above, the relationship between the outer diameter A of the mounting flange 16 of the cable joint 20 and the outer diameter B of the cable seat 22 is A>B, as shown in FIG. Because the reinforcing plate 18 was installed in such a way that the reinforcing plate 18 was deformed especially in the axial direction near the bolt 19, the mounting flange 16 was tightened strongly around the mounting bolt 19, and the tightening force was uneven and was tightened more than necessary. The rubber of the mounting flange 16 escapes in the direction of arrow A in FIG. As a result, the pin 12 moves backward to the left in FIG. 4, and there is a risk that the contact between the pin 12 and the terminal 13 will be insufficient. Furthermore, if the cable joint is left fixed and used for a long time in such a state, cold flow of the rubber may occur, and once it is disassembled for maintenance, it may not be possible to reassemble it.

This invention eliminates the drawbacks of the conventional example and secures contact between the terminals on the motor side and the pins on the cable side by tightening the flange part by tightening the bolts for fastening the cable joint. The purpose is to provide molded cables for underwater motors.

[Structure of the idea]

``Means to solve the problem'' This idea is to insert the mounting flange of the cable joint, which is integrally molded of synthetic resin or rubber, screw the mounting bolt into the cable seat, compress the mounting flange, and connect the cable. In a molded cable for a submersible motor that is pressure-contacted to a seat and installed in a sealed manner, one end is in contact with the cable seat, and the other end is in contact with the cable seat, and the other end is in contact with the mounting flange or reinforcing plate and the hole through which the bolt for mounting the mounting flange should be inserted. Insert a tubular distance piece that is shorter than the thickness of the mounting flange that contacts the seat side of the bolt head, or the sum of the thickness of the mounting flange and the thickness of the reinforcing plate by the tightening margin of the mounting flange, and This molded cable for an underwater motor is characterized in that a mounting bolt is screwed into a cable seat through a bolt hole and a distance piece or a distance piece.

"Operation" When the mounting bolt is screwed into the cable seat, the mounting flange is compressed through the reinforcing plate. When the bolt is tightened, the distance piece is pressed against the cable seat and the reinforcing plate, or between the cable seat and the seat side of the bolt head. is,
The mounting flange is compressed with a predetermined tightness.

"Example" Hereinafter, an example of this invention will be described with reference to the drawings. FIG. 1 is a longitudinal sectional view, and FIG. 2 is a sectional view taken along line CC in FIG. In FIG. 1, the same parts as in the conventional example are given the same reference numerals, and the explanation will be omitted. A short cylindrical distance piece 6 into which a bolt 19 can be loosely inserted is inserted into the round mounting flange 16 so that it can be inserted into and taken out from a hole coaxial with the bolt 19, but in close contact with the bolt 19. The length of this distance piece 6 is the length of the mounting flange 16 in the disassembled state.
Screw the bolt 19 into the cable seat 22 in the state shown in FIG.
When one end of the distance piece 6 comes into pressure contact with the end surface of 2 and the other end comes into pressure contact with the reinforcing plate 18, that is,
At a position where the tightening torque of the bolt 19 increases rapidly, the mounting flange 16 is compressed between the cable seat 22 and the reinforcing plate 18 and is set to have an appropriate tightening margin to maintain watertightness.

In the state shown in FIG. 1, even if the bolt 19 is tightened too much, the tightening torque increases, but the distance piece 6 hardly shrinks, so the reinforcing plate 18
The rubber of the mounting flange 16 around the distance piece 6 will not be deformed in this portion, causing the rubber of the mounting flange 16 to flow, and the mounting flange 16 will not be excessively compressed. Therefore, since the rubber does not flow as shown by arrow A in FIG. 5 of the conventional example, the pin 12 does not move backward.

FIG. 3 is a longitudinal sectional view showing only the vicinity of the bolt 19 of another embodiment. The circular tubular distance piece 7 has an inner diameter through which the bolt 19 is loosely inserted.
The outer periphery has an outer diameter that can go in and out of the hole 18a drilled in the reinforcing plate 18 and a hole centered on the bolt 19 of the mounting flange 16, and its length is the same as the insertion part of the bolt 19 of the reinforcing plate 18 when disassembled. thickness t1
is shorter than the sum t1+t2 of the thickness t2 of the mounting flange 16 and the thickness t2 of the mounting flange 16, and the difference gives an appropriate compression to the mounting flange 16, and
It is designed to maintain watertightness between the In this embodiment, when the bolt 19 is screwed into the cable seat 22, the mounting flange 16 is compressed via the reinforcing plate 18. Then, the distance piece 7 is compressed by the seat side of the bolt head of the bolt 19 and the cable seat 22, and the tightening margin of the mounting flange 16 becomes constant.

The example describes a case where the connecting part between the cable 1 and the pin whose tip ends intersect in an L-shape, and in order to protect it, the protective part molded integrally with the mounting flange is L-shaped. However, in molded cables used in underwater motors, for example, where the underwater cable is introduced from the top cover, the cable core wire and the pin tip point in the same direction, and the mounting flange is provided at the end of the unbendable protective part. Similarly, a distance piece may also be provided.

[Effect of idea]

This idea involves inserting the mounting flange of the cable joint, which is integrally molded from synthetic resin or rubber, and screwing the mounting bolt into the cable seat.The mounting flange is then compressed and pressed into contact with the cable seat, and the cable is sealed and installed underwater. In the molded cable of the motor, one end touches the cable seat through the hole through which the bolt for mounting the mounting flange or reinforcing plate and the mounting flange should be inserted, and the other end touches the reinforcing plate or the seat side of the bolt head of the mounting bolt. Insert a tubular distance piece that is shorter than the thickness of the adjacent mounting flange or the sum of the thickness of the mounting flange and the thickness of the reinforcing plate by the tightening margin of the mounting flange, and connect the bolt hole of the reinforcing plate with the distance piece or distance piece. Since the molded cable for the underwater motor is characterized by screwing the mounting bolt into the cable seat through the cable seat, the length of the distance piece can be selected to match the required tightening allowance of the mounting flange. Flow deformation is prevented, it becomes easy to obtain a uniform and appropriate sealing effect, and poor contact between pins and terminals no longer occurs.

[Brief explanation of drawings]

Fig. 1 is a vertical sectional view of an embodiment of this invention, Fig. 2 is a sectional view taken along the line CC in Fig. 1, Fig. 3 is a partial longitudinal sectional view of another embodiment, and Fig. 4 is an exploded view of the conventional example. FIG. 5 is a partial longitudinal sectional view showing the assembled state of FIG. 4, and FIG. 6 is a longitudinal sectional view of the underwater motor. 1... Cable, 2... Insulation coating, 3... Conductor, 4... Core wire, 5... Cab tire, 6, 7...
...Distance piece, 12...Pin, 13...
Terminal, 14... Hole, 15... Fitting part, 16... Flange, 17... Protective part, 18... Reinforcement plate, 19...
... Bolt, 20 ... Cable joint, 21 ... Frame, 22 ... Cable seat, 23 ... Inner circumference, 24
...Terminal block holder, 25...Terminal block, 26...Sealing ring, 27...Motor shaft, 28...Rotor, 29...
...Stator, 31...Stator cylinder, 32...
Frame side plate, 33... Frame side plate, 34...
End cover, 35... End cover, 36...
Suction casing, 37...protective cover.

Claims (1)

[Scope of utility model registration request] A mold for an underwater motor that is installed by inserting the integrally molded mounting flange of synthetic resin or rubber, etc. of the cable joint, screwing the mounting bolt into the cable seat, compressing the mounting flange and press-fitting it to the cable seat, and sealing it. For cables, a mounting flange that has one end in contact with the cable seat and the other end in contact with the reinforcing plate or the seat side of the bolt head of the mounting bolt through the hole through which the mounting flange or reinforcing plate and the mounting bolt of the mounting flange should be inserted. Insert a tubular distance piece that is shorter than the thickness of the mounting flange or the sum of the thickness of the mounting flange and the thickness of the reinforcing plate by the tightening margin of the mounting flange,
A molded cable for an underwater motor, characterized in that a mounting bolt is screwed into a cable seat through a bolt hole in a reinforcing plate and a distance piece or a distance piece.