KR200245308Y1 - pulling machine - Google Patents

Abstract

The present invention relates to a device for supplying a thick and heavy sheathed cable as long as the operator wants, and more specifically, as a pulling machine applied to insert the cable required for the manufacture of large vessels into the hollow pipe, The present invention for driving the motor 200 is installed on one end of the frame 100; A spotter member 300 which is installed on both sides of the frame 100 and is installed at both ends and is supported by a bearing member 355 in a horizontal direction; A holder 400 installed horizontally on the top of the spotter member 300 in parallel with the rotation shaft 350 and supported and rotated by a holder guide 410; The cable 90 is coupled to the rotating shaft 350 formed on the spotter member 300 and is connected to and rotated by the driving motor 200 and the winding electric mechanism, and is disposed between the holder 400 and the holder 400. An elastic rotary body 500 for feeding the cable in the forward and reverse directions; A guide member 600 which prevents the cable 90 to be fed from escaping to the outside of the frame 100 and guides the supply of the cable; The present invention relates to a pulling machine that enables this and improves work efficiency.

Description

Pulling Machine

The present invention relates to a device for supplying a cable, and more particularly, to a pulling machine that can be inserted into the pipe for ship cables that are thick or heavy and difficult to move smoothly by manpower.

In the case of large ships, various cables are used. In consideration of damage and appearance caused by salt, the cables are installed in the piping.

In penetrating a heavy cable in a pipe and projecting it outward by a proper length, generally, the wire is tied to an end of the cable, and then the wire is first penetrated into the pipe and the operator pulls the wire so that the cable is installed in the pipe. I did.

According to the method as described above has a problem that a number of personnel is required and the length of the cable protruding from the pipe end is not easy to adjust.

As a device for supplying a cable, a ship drying cable supply device of Patent Publication No. 2000-0059336 has been devised. Hereinafter, a ship building cable supply device according to the prior art will be described in detail.

1 is a partially cutaway perspective view showing the structure of the main portion cable storage portion in the prior art.

The ship construction cable supply apparatus according to the prior art relates to a ship construction cable supply apparatus that can efficiently install a cable necessary for the operation and control of the welding robot in the construction of a vessel having a double bottom, to the work site, A cable storage unit for storing a predetermined length of the cable 26 therein and being suspended on a crane installed on a work site and transported to a desired place, and temporarily suspended on a double bottom structure of the hull and withdrawn from the cable storage unit. It consists of a cable suspension frame that is multiplied and folded in order to support the cable to be connected to the welding robot.

In the ship construction cable supply apparatus according to the prior art is that the cable 26 is drawn out or wound out through the reel motor 25 in the cable storage, the drawn cable 26 is supported by the cable suspension frame By laying up to the position where the welding robot is placed, the operator can eliminate the inconvenience of laying the cable to the work site and prevent the mess of the site.

However, the above-described ship drying cable supply device is a device for supplying a thin cable for supplying power so that the welding robot can work as described above, and in the structure thereof, the bar storage unit and the cable suspension frame have a large volume. There is a problem that is large and not easy to move. On the other hand, there is a problem that the prior art is not suitable for forcibly transporting a heavy and thick cable and may damage the surface of the coated cable, which may cause a safety accident.

Therefore, the present invention devised to solve the above problems is to provide a pulling machine that is easy to move and can be used regardless of the thickness of the cable.

And another object is to provide a pulling machine capable of forward and reverse rotation so that one worker can adjust the amount of cable transport.

1-A partially cutaway perspective view showing the structure of a main portion cable storage portion in the prior art.

Figure 2-schematic perspective view of a pulling machine according to an embodiment of the present invention.

3-a right side view in FIG.

4A-A (A-A) line cross-sectional schematic diagram in FIG.

5-an exemplary view of the use of a pulling machine according to an embodiment of the present invention.

<Description of Major Symbols Used in Drawings>

90: cable 100: frame

200: drive motor 300: spotter member

350: rotating shaft 355: bearing member

400: Holder 410: Holder Guide

415: guide groove 420: shaft

450: lower holder 455: auxiliary member

500: elastic rotating body 600: guide member

The present invention for achieving the above object, the drive motor is installed on one end of the frame; and the spotter member is formed on both sides end upright on the frame and the rotating shaft is supported by the bearing member in the horizontal direction; A holder installed horizontally on the top of the spotter member in parallel with the rotation shaft and supported and rotated by a holder guide; An elastic rotator coupled to a rotational shaft formed on the spotter member and supporting the cable rotated and connected by the driving motor and the reel-winding transmission mechanism and feeding the cable in the forward and reverse directions while supporting the cable placed between the holder; And a guide member for preventing the cable from being fed out of the outside of the frame and guiding the supply of the cable. The present invention relates to a pulling machine having a technical point of supplying the cable in a forward and reverse direction.

Pulling machine according to the present invention has the advantage that it can be manufactured in a small, easy to move, and can also work in high places such as large ships.

In addition, there is also an advantage that the work can be expanded while appropriately adjusted according to the simple structure and the thickness of the cable can be extended.

Hereinafter, with reference to the accompanying drawings will be described in more detail for the pulling machine according to the present invention.

Figure 2 shows a schematic perspective view of a pulling machine according to an embodiment of the present invention, Figure 3 shows a right side view thereof.

As shown, the pulling machine according to the present invention is composed of a drive motor 200, the spotter member 300, the holder 400, the elastic rotating body 500 and the guide member 600 on the frame 100 It is done. The elastic rotating body 500 is coupled to the rotary shaft 350 formed in the spotter member 300 and the rotary shaft 350 is connected to the drive motor 200 and the winding power transmission mechanism to be rotatable. . On the other hand, the upper portion of the spotter member 300 is spaced apart from the elastic rotating body 500, the holder 400 is attached and the holder 400 is configured to be moved up and down.

In addition, the cable 90 is inserted in a direction perpendicular to the rotation axis 350 in the space between the upper portion of the elastic rotating body 500 and the holder 400 to move along the direction in which the elastic rotating body 500 is rotated. . Both sides of the elastic rotating body 500 is provided with a guide member 600 for limiting the left and right displacement of the cable 90 and the smooth feeding is performed, the cable 90 on the upper side of the drive motor 200 It is preferable to install the lower holder 450 to prevent the up and down flow.

The operation of the pulling machine according to the present invention is also preferably attached to a controller that can adjust the rotation and the direction of rotation of the drive motor so that one person can operate.

The overall configuration and operation of the pooling machine according to the present invention has been described above, and then, each element will be described in more detail.

The drive motor 200 is installed at one end of the frame 100, and in one embodiment of the present invention is configured to rotate the elastic rotating body 500 by the rotational force of the drive motor 200 is composed of a belt and a pulley. do. The drive motor 200 is preferably to enable the reverse rotation by the operation switch (not shown), and also to be automatically turned on and off by the speed adjustment and the input time.

Next, a pair of spotter members 300 are installed at a distance spaced apart from the driving motor 200, and a holder 400 is formed at the top of the spotter member 300 and a lower side of the holder 400. The rotating shaft 350 is supported by the bearing member 355 is installed. A driven pulley 360 is coupled to one end of the rotating shaft 350, that is, a side to which the driving pulley 205 is attached to the driving shaft of the driving motor 200, and the driving pulley 205 by the belt 207. It is fastened so that the rotational force of the drive motor 200 is transmitted.

Next, the elastic rotating body 500 provided in the rotating shaft 350 will be described. FIG. 4 is a cross-sectional view taken along the line AA of FIG.

2 to 4, the elastic rotating body is coupled to the rotating body and in one embodiment of the present invention is using a rubber tire. As shown in FIG. 4, the cable 90 is inserted between the holder 400 and the elastic rotating body 500 and the elastic rotating body 500 maintains elasticity so that the cable 90 is inserted. By being concave and deformed by being partially wrapped around the outer surface of the cable 90, the contact area becomes wider, thereby feeding.

In one embodiment of the present invention as the elastic rotating body 500 is a rubber tire is applied, the rubber tire is made of a structure that can inject and extract air to be properly adjusted according to the thickness of the cable (90) do. An air spring may be used as the elastic rotating body 500.

The elastic rotating body 500 applied to the present invention is capable of continuous feeding by friction with the cable 90, the internal pressure of the rubber tire can be adjusted according to the thickness of the cable 90, and also The position of the holder 400 that presses the cable 90 at the top is also appropriately adjusted to generate a suitable pressing force.

The guide member 600 is installed around the four corners of the rubber tire, and serves to guide the inflow and outflow of the cable 90. The guide member 600 is a cylindrical member, the bearing is inserted so as to be rotatable, and when the cable 90 is moved in contact with the guide member 600, the guide member 600 is rotated and the cable 90 to the outside ) Will not be released.

Next, the holder 400 will be described.

The holder 400 is formed in the same direction as the rotating shaft 350 on the upper portion of the spotter member 300 to be rotated, and is configured to adjust the vertical position to maintain an appropriate interval with the elastic rotating body 500. In an embodiment of the present invention, as the holder 400, two cylindrical roller bodies are formed on the elastic rotating body 500, and the holder 400 is inserted into the shaft 420 and the shaft 420. Both ends of the) is installed in the holder guide 410 attached to the upper end of the spotter member (300).

The holder guide 410 is formed with guide grooves 415 for receiving both ends of the shaft 420, and the position of the holder 400 along the guide grooves 415 is adjustable up and down. . In order to fix the holder 400 at a predetermined position, a male screw thread is formed at an end of the shaft 420 and tightened with a nut to fix the holder.

In addition, the lower holder 450 is preferably installed on the side from which the cable 90 is discharged separately from the holder 400. The lower holder 450 is guided to prevent the slack of the discharged cable 90 and to be supplied close to the ground to enable a stable supply. On the other hand, the lower holder 450 is fixed by the holder guide 410 and the frame 100 and the auxiliary member 455. The lower holder 450 is also bolted with the auxiliary member 455 to be able to move up and down as necessary.

5 is a view illustrating an actual use example of a pulling machine according to an embodiment of the present invention. When the cable 90 is to be installed in a predetermined pipe 700, and the end of the cable 90 is pushed toward the inlet side of the pulling machine, the cable 90 is formed of the elastic rotating body 500 and the holder 400. It is moved in the rotational direction of the motor by the friction by the pressing force. If the end of the cable (90) coming out of the pulling machine to the inlet of the pipe 700 is to continuously rotate the elastic rotating body 500, the cable (90) in the pipe 700 Move along and exit to the other exit

On the other hand, the rotation adjustment of the drive motor 200 is to be driven as the operator turns on the operation switch (not shown) and the operation switch (not shown) by connecting the wiring extending from the pulling machine pipe The amount of movement of the cable 90 can be checked accurately at the exit side of the cable. The drive motor 200 is capable of forward and reverse rotation, so that the amount of the cable 90 protrudes from the outlet of the pipe can be adjusted by changing the rotation direction of the drive motor 200 as necessary.

The present invention by the configuration as described above has the effect that can be easily installed as long as the desired length of the cable to install the cable in the pipe is not easy to work heavy and manpower.

In addition, there is an effect that by providing a simple structure and small size can be convenient for the operation in the interior, such as the manufacture of a vessel that is easy to move and difficult to work.

Claims (3)

A drive motor 200 installed at one end of the frame 100; A spotter member 300 which is installed on both sides of the frame 100 and is installed at both ends and is supported by a bearing member 355 in a horizontal direction; A holder 400 installed horizontally on the top of the spotter member 300 in parallel with the rotation shaft 350 and supported and rotated by a holder guide 410; The cable 90 is coupled to the rotating shaft 350 formed on the spotter member 300 and is connected to and rotated by the driving motor 200 and the winding electric mechanism, and is disposed between the holder 400 and the holder 400. An elastic rotary body 500 for feeding the cable in the forward and reverse directions; And a guide member 600 which prevents the cable 90 to be fed from escaping to the outside of the frame 100 and guides the supply of the cable. machine. The method of claim 1, wherein the elastic rotating body 500, Pulling machine characterized in that the rubber tire to supply air to adjust the internal pressure. The method of claim 1 or 2, wherein the holder 400, Pulling machine, characterized in that the vertical position can be adjusted according to the thickness of the cable (90).