KR20140079568A - Traction track tention adjusting device of cable routing caterpillar - Google Patents

Abstract

Provided is a device for adjusting traction track tension of a cable installation caterpillar, capable of smoothly giving proper tension to traction tracks in order to improve holding power of a cable, improve a traction capability, reduce a traction defective, and improve a work production speed in the cable installation. The device for adjusting traction track tension of a cable installation caterpillar according to an embodiment of the present invention comprises: a lower frame; a pair of cable lead-in support rollers which are rotatably installed in parallel in one side end of the lower frame in a certain height and support lead-in of a cable; a pair of cable withdrawal support rollers which are installed in parallel in the other end of the lower frame and support withdrawal of the cable withdrawn from traction tracks; a pair of traction tracks which are installed in the upper part of the lower frame and are arranged between the cable lead-in support rollers and the cable withdrawal support rollers to be rotatably driven; a driving sprocket wheel to rotatably drive the traction tracks; a driven sprocket wheel to support the rotation drive of the traction tracks; a driven sprocket wheel support bracket which is mounted on a track support rack mounted on the upper surface of the lower frame and supports the rotation of the driven sprocket wheel; and a tension generating means to generate power of pushing the driven sprocket wheel support bracket in the length direction of the track support rack so that the tension can be loaded in the traction tracks.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a traction control device for a cable installation caterpillar,

[0001] The present invention relates to a cable track caterpillar track apparatus and, more particularly, to a cable track caterpillar traction track tension control apparatus capable of easily controlling the tension of a traction track by constructing an external tension control means, .

In order to newly install or replace power lines, communication lines, etc., it is necessary to install cables in pipelines such as underground power lines and communication lines. Generally, when cable is installed, the installation speed and allowable tension are given as standard.

Conventionally, a cable wound around a cable drum is pulled by a person under a manhole by using a manhole, and then the cable is laid through the bottom roller installed in the channel to the other manhole. However, in this case, there is a problem that it is difficult to satisfy the cable laying pavement standard suggested by the client, because the cable is directly pulled by the person.

Cable installation equipment of Korean Registration No. 10-1076946 has been proposed as a background of the present invention for solving the installation work by manual operation of such cables. This is a line drum in which a line connected to a cable is wound; A torque sensor provided on one side of a rotary shaft of the line drum to measure a rotation torque; A circular pedestal supporting the line drum; An extension extending outwardly from the circular pedestal by a width of a manhole; And an insertion portion protruding to a lower portion of the extended portion and inserted and fixed in the manhole.

However, in the background art, the cable can be installed while confirming the tension of the cable, and the cable can be installed through the winding of the wire drum, so that there is a problem that the tension is increased depending on the pulling force, and there is a fear of damaging or damaging the cable.

For this purpose, the Korean Registered Utility Model No. 20-0443420 is designed to carry out the cable laying work through the chain loop method. In this case, a tension adjusting screw is installed to maintain a constant tension in the chain loop. However, the tension adjusting screw is screwed directly to the rotary support shaft of the idler roller sprocket, so that a shearing force is generated in the tension adjusting screw and the rotary support shaft due to the application of the tension of the chain loop, thereby limiting the application of the tension. This results in a restriction requirement on the installation capacity.

Korean Patent Registration No. 10-1205921 Korean Registration No. 20-0446355

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide an apparatus and a method for manufacturing a cable which can appropriately apply a tensile force to a traction track and increase a gripping force of a cable, The present invention provides a traction track tensioning device for a cable installation caterpillar.

It is another object of the present invention to provide a traction track tensioning device for a cable-installed caterpillar in which an operator can easily adjust the tension of a traction track while improving the pulling ability of the cable.

A cable traction caterpillar traction track tensioning device, according to a preferred embodiment of the present invention,

A lower frame;

A cable pulling support roller installed at one side of the lower frame so as to be rotatable in a pair at a predetermined height so as to support the pulling of the cable;

A support roller for supporting a cable, which is disposed in parallel with the other end of the lower frame to support the discharge of the cable discharged from the traction track;

A pull trajectory disposed above the lower frame and rotatably driven by being disposed in a pair between a cable pulling support roller and a cable pulling support roller;

A drive sprocket wheel for rotationally driving the traction trajectory;

A driven sprocket wheel for supporting a rotary drive of a traction track;

A driven sprocket wheel support bracket mounted on a track support mounted on an upper surface of the lower frame to support rotation of the driven sprocket wheel;

And a tension generating means for generating a force for pushing the driven sprocket wheel support bracket in the longitudinal direction of the track support so that tension is applied to the traction trajectory.

A sliding fixing groove for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket is formed on the upper end side of the track support, and a tension generating bolt is screwed to the lower portion of the driven sprocket wheel support bracket by the tension generating means, And the tip of the tension generating bolt is brought into contact with the longitudinal end surface of the track support.

In addition, a sliding fixing groove for providing a fixed position and a sliding surface of the driven sprocket wheel support bracket is formed on the upper end side of the race support, and a hydraulic jack is provided between the driven sprocket wheel support bracket and the end of the track support by the tension generating means .

In addition, a sliding fixing groove for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket is formed on the upper end side of the track support, and a screw jack is provided between the driven sprocket wheel support bracket and the end of the track support .

In addition, a sliding fixing groove, which provides a fixing position and a sliding surface of the driven sprocket wheel support bracket, is formed on the upper end side of the track support, and a tension spring is provided between the driven sprocket wheel support bracket and the end of the track support .

Further, the compression spring is characterized in that a spring support bolt, which is screwed to the track supporter through a driven sprocket wheel support bracket, is positioned.

Further, the driven sprocket wheel support bracket is screwed to the sliding fixing groove, so that the movement of the driven sprocket wheel support bracket is restricted by the guide bolt inserted into the slot of the driven sprocket wheel support bracket.

Further, the driven sprocket wheel support bracket is screwed to the sliding fixing groove, so that the movement of the driven sprocket wheel support bracket is restricted by the guide bolt inserted into the slot of the driven sprocket wheel support bracket.

Further, the driven sprocket wheel support bracket is screwed to the sliding fixing groove, so that the movement of the driven sprocket wheel support bracket is restricted by the guide bolt inserted into the slot of the driven sprocket wheel support bracket.

Further, the driven sprocket wheel support bracket is screwed to the sliding fixing groove, so that the movement of the driven sprocket wheel support bracket is restricted by the guide bolt inserted into the slot of the driven sprocket wheel support bracket.

Further, the driven sprocket wheel support bracket is screwed to the sliding fixing groove, so that the movement of the driven sprocket wheel support bracket is restricted by the guide bolt inserted into the slot of the driven sprocket wheel support bracket.

The tension generating means includes two pairs of upper and lower folding links each of which is hingedly connected to a support shaft of the driven sprocket wheel and the track support, and arranged in a rhombus shape; Two pairs of upper and lower pivot nuts pivotally connected to the hinge connection of the lower folding link; And a feed screw that is screwed to the upper and lower pivot nuts in opposite directions to feed the support shaft of the driven sprocket wheel along the rotation direction.

Further, a lock nut is further provided on the conveying screw to prevent unscrewing of the conveying screw when the tension of the traction trajectory is exerted.

Further, the screw jack is further provided with a lock nut, so that tension pulling of the traction trajectory is suppressed.

In addition, a sliding fixing groove for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket is formed on the upper end side of the track support, and a tension generating bolt is screwed to the track support side by the tension generating means, Is mounted so as to be in contact with the rear surface of the driven sprocket wheel support bracket.

Further, the driven sprocket wheel support bracket is screwed to the sliding fixing groove, so that the movement of the driven sprocket wheel support bracket is restricted by the guide bolt inserted into the slot of the driven sprocket wheel support bracket.

Further, the tension generating bolt is screwed to the side block of the track support.

Further, the sliding fixing groove has a rectangular shape for suppressing rotation of the driven sprocket wheel support bracket.

Further, the driven sprocket wheel support bracket includes upper and lower horizontal plates for supporting the supporting shafts of the driven sprue wheel; A vertical plate connected perpendicularly to the upper and lower horizontal plates; And a sliding plate which is connected to a lower side rear surface of the vertical plate and is slidably disposed on both end side sliding fixing grooves of the track support.

Further, the vertical plate is characterized in that a screw hole for screwing the tension generating bolt is formed at a lower position than the sliding plate.

According to the traction track tensioning device of the cable installed caterpillar of the present invention, the driven sprocket wheel support bracket is installed in the sliding fixing groove of the track support, and tension of the traction track is controlled by various types of tension generating means. Therefore, appropriate tension can be applied to the traction trajectory without damaging the tension adjusting bolt, and the gripping force of the cable is increased to improve the traction ability. Therefore, it is possible to reduce the occurrence of traction failure and to increase the work production speed when the cable is installed. In addition, the tension adjusting means can be configured externally so that the worker can easily adjust the tension of the traction trajectory, and at the same time, the pulling ability of the cable can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a general constructional view of a cable laying caterpillar according to the invention; Fig.
Fig. 2 is a view showing only a traction track tension adjusting device portion of a cable installed caterpillar in Fig. 1. Fig.
3 is an exploded view of the driven sprocket wheel assembly of Fig.
Fig. 4 is an assembled view of the driven sprocket wheel assembly of Fig. 1; Fig.
5 is a side view of a traction track tensioning device.
Figures 6 to 8 illustrate various modifications of the traction track tensioning device of the cable installed caterpillar of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

The apparatus is provided with a lower frame 12 which is placed on the floor of the work place as shown in Fig. The lower frame 12 is made to have a structural rigidity for mounting various components thereon.

A pair of support rollers 14 and 14 installed at one side of the lower frame 12 so as to be rotatable in a pair at a predetermined height so as to support the pulling of the cable 1 are provided. At this time, the cable pulling support rollers 14 and 14 are installed so as to be vertically movable and fixed with screws so that the distance between the support rollers 14 and 14 and the installation height can be adjusted.

And support rollers 16 and 16 for supporting the discharge of the cable 1 discharged by the traction track 18 are provided in parallel at the other ends of the lower frame 12. The cable discharge support rollers 16 and 16 are provided so as to be vertically movable and fixed with screws so as to adjust their spacing and installation height.

As shown in FIG. 2, a pair of traction trajectories 18, 18 are disposed between the support rollers 14, 14 and the cable discharge support rollers 16, 16, which are located above the lower frame 12, 18 are installed. The traction tracks 18 and 18 are constituted by a traction chain 181 and a plurality of rubber plates 182 connected to the traction chain 181.

The traction trajectory 18 is connected to the drive sprocket wheel 20 and the driven sprocket wheel 22. The drive sprocket wheel 20 is rotationally driven by the drive motor M through the power transmission device.

And a driven sprocket wheel support bracket 24 mounted on a raceway support 26 provided on the upper surface of the lower frame 12 to support the rotation of the driven sprocket wheel 22. [ At this time, a tension generating means is provided for generating a force for pushing the driven sprocket wheel support bracket 24 in the longitudinal direction of the track support 26 so that tension is applied to the traction trajectories 18, 18.

As shown in FIG. 5, a sliding fixing groove 261 for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket 24 is formed on the upper end surface of the track support 26.

2 to 5, a tension generating bolt 30 is screwed to a lower portion of the furnace driven sprocket wheel support bracket 24 so that the tip of the tension generating bolt 30 is engaged with the length of the track support 26 Side end face of the first housing. Therefore, when the tension generating bolt 30 is rotated so as to be transferred to the track support 26, the driven sprocket wheel support bracket 24 relatively moves in the direction indicated by the arrow R in FIG. 5, .

As another modified example, the tension generating means may be constituted by installing a hydraulic jack 50 between the section of the driven sprocket wheel support bracket 24 and the raceway support 26 as shown in Fig. 6 (A). At this time, the hydraulic jack 50 is a method of forcibly pushing the operation end by hydraulic pressure by operating a manual handle (not shown) to apply a tension to the rubber track 18 connected to the driven sprocket wheel support bracket 24.

As another modified example, the tension generating means is provided with a screw jack 51 between the ends of the driven sprocket wheel support bracket 24 and the raceway support 26 as shown in FIG. 6 (B). The screw jack (51) is a method of applying tension to the rubber track (18) connected to the driven sprocket wheel support bracket (24) by elongation of the thread engagement when one end is rotated. At this time, the extended portion can be continuously maintained by the lock nut 51a screwed to the male screw.

As another modified example, the tension generating means may be provided with a compression spring 52 between the ends of the driven sprocket wheel support bracket 24 and the raceway support 26 as shown in Fig. 7 (A). At this time, it is preferable that the compression spring 52 is installed with a spring support bolt 521 screwed to the track supporter 26 by inserting the driven sprocket wheel support bracket 24.

Here, the driven sprocket wheel support bracket 24 is screwed into the sliding fixing groove 261 to restrict the movement of the driven sprocket wheel support bracket 24 by the guide bolt 40 inserted into the slot 24a of the driven sprocket wheel support bracket 24. Further, the guide bolt 40 prevents the driven sprocket wheel support bracket 24 from separating from the sliding fixing groove 261.

As another modified example, the tension generating means may be constituted by two pairs of loops, each of which is hingedly connected to the support shaft 23 of the driven sprocket wheel 22 and the track support 26, Upper and lower pivot nuts 63a and 63b pivotally connected to hinge joints of the upper and lower folding links 61a and 61b and 62a and 62b and two pairs of upper and lower folding links 61a and 61b and 62a and 62b, And a feed screw 64 screwed to the upper and lower pivot nuts 63a and 63b in opposite directions to feed the support shaft 23 of the driven sprocket wheel 22 along the rotation direction have.

The tension can be applied to the rubber track 18 connected to the driven sprocket wheel 22 by changing the position of the support shaft 23 at the end of the track support 26 in accordance with the direction of operation of the feed screw 64. [ At this time, a lock nut 65 may be further provided on the conveying screw 64 to prevent the conveying screw 64 from loosening when the traction track 18 exerts tension.

8, a tension generating bolt 30 is screwed to the track support 26 side, and the tip of the tension generating bolt 30 is fixed to the back surface of the driven sprocket wheel support bracket 24 And can be installed so as to be in contact with each other. At this time, the driven sprocket wheel support bracket 24 is screwed to the sliding fixing groove 261 so that the movement of the driven sprocket wheel support bracket 24 is limited by the guide bolt 40 inserted into the slot 24a of the driven sprocket wheel support bracket 24 . At this time, the tension generating bolt (30) can be screwed to the side block (263) of the track support (26).

The sliding fixing groove 261 preferably has a rectangular shape for suppressing the rotation of the driven sprocket wheel support bracket 24.

One form of the driven sprocket wheel support bracket 24 includes upper and lower horizontal plates 241 and 242 supporting the support axles of the driven spruech wheel and upper and lower horizontal plates 241 and 242 connected to the upper and lower horizontal plates 241 and 242, And a sliding plate 244 which is connected to the lower side rear surface of the vertical plate 243 and is slidably disposed on both end side sliding fixing grooves 261 of the track support 26. [ The vertical plate 243 is formed with a screw hole 243a through which the tension generating bolt 30 is screwed at a position lower than the sliding plate 244. [

As described above, according to the present invention, tensile force is generated in the rubber track 18 through various tension generating means to increase the gripping force of the cable, thereby enhancing the feeding ability of the cable 1. [ In addition, the tension adjusting means can be configured externally, so that the operator can easily adjust the tension of the traction trajectory.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

12: Lower frame
14: Support roller for cable entry
16: Support roller for cable discharge
18: Rubber track
20: Drive sprocket wheel
22: Passive sprocket wheel
24: Passive sprocket wheel support bracket
26: Orbit support
261: Sliding fixing groove
40: Guide bolt
50: Hydraulic Jack
51: Screw jack
52: Compression spring

Claims (20)

A lower frame 12;
A pair of support rollers 14 and 14 installed at one side of the lower frame 12 so as to be rotatable parallel to each other at a predetermined height so as to support the pulling of the cable 1;
A pair of supporting rollers 16 and 16 for supporting the discharge of the cable 1 discharged from the traction track 18 in a pair in parallel at the other end of the lower frame 12;
Traction trajectories (18, 18) located above the lower frame (12) and arranged in pairs between the cable pulling support rollers (14, 14) and the cable pulling support rollers (16, 16)
A drive sprocket wheel (20) for rotationally driving the traction trajectory (18);
A driven sprocket wheel (22) for supporting the rotational drive of the traction track (18);
A driven sprocket wheel support bracket (24) mounted on a track support (26) mounted on the upper surface of the lower frame to support the rotation of the driven sprocket wheel (22);
And a tension generating means for generating a force for pushing the driven sprocket wheel support bracket (24) in the longitudinal direction of the track support (26) so that tension is applied to the traction trajectories (18, 18) Track tensioning device. The method according to claim 1,
A sliding fixing groove 261 for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket 24 is formed on the upper end side of the race support bracket 26, Wherein a tension generating bolt (30) is screwed to a lower portion of the cable support cage (30) so that a tip end of the tension generating bolt (30) is in contact with a longitudinal side end surface of the track support base (26) . The method according to claim 1,
A sliding fixing groove 261 for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket 24 is formed on the upper end side of the track support 26 and the driven sprocket wheel support bracket 24 Characterized in that a hydraulic jack (50) is provided between the ends of the track support (26). The method according to claim 1,
A sliding fixing groove 261 for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket 24 is formed on the upper end side of the track support 26 and the driven sprocket wheel support bracket 24 Characterized in that a screw jack (51) is provided between the ends of the track support (26). The method according to claim 1,
A sliding fixing groove 261 for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket 24 is formed on the upper end side of the track support 26 and the driven sprocket wheel support bracket 24 Characterized in that a compression spring (52) is installed between the ends of the track support (26). 6. The method of claim 5,
Wherein the compression spring (52) is provided with a spring support bolt (521) screwed to the track support (26) by inserting a driven sprocket wheel support bracket (24). 3. The method of claim 2,
The driven sprocket wheel support bracket 24 is screwed to the sliding fixing groove 261 so that the movement of the driven sprocket wheel support bracket 24 is restricted by the guide bolt 40 inserted into the slot 24a of the driven sprocket wheel support bracket 24 Cable traction crawler track traction tensioning device. The method of claim 3,
The driven sprocket wheel support bracket 24 is screwed to the sliding fixing groove 261 so that the movement of the driven sprocket wheel support bracket 24 is restricted by the guide bolt 40 inserted into the slot 24a of the driven sprocket wheel support bracket 24 Cable traction crawler track traction tensioning device. 5. The method of claim 4,
The driven sprocket wheel support bracket 24 is screwed to the sliding fixing groove 261 so that the movement of the driven sprocket wheel support bracket 24 is restricted by the guide bolt 40 inserted into the slot 24a of the driven sprocket wheel support bracket 24 Cable traction crawler track traction tensioning device. 6. The method of claim 5,
The driven sprocket wheel support bracket 24 is screwed to the sliding fixing groove 261 so that the movement of the driven sprocket wheel support bracket 24 is restricted by the guide bolt 40 inserted into the slot 24a of the driven sprocket wheel support bracket 24 Cable traction crawler track traction tensioning device. The method according to claim 6,
The driven sprocket wheel support bracket 24 is screwed to the sliding fixing groove 261 so that the movement of the driven sprocket wheel support bracket 24 is restricted by the guide bolt 40 inserted into the slot 24a of the driven sprocket wheel support bracket 24 Cable traction crawler track traction tensioning device. The method according to claim 1,
The tension generating means,
Two pairs of upper and lower folding links 61a, 61b (62a, 62b), each of which is hingedly connected at one end to the support shaft 23 of the driven sprocket wheel 22 and the track support 26;
Upper and lower pivot nuts 63a and 63b pivotally connected to hinge joints of two pairs of upper and lower folding links 61a and 61b (62a and 62b);
Further comprising a feed screw (64) screwed to the upper and lower pivot nuts (63a, 63b) in opposite directions to feed the support shaft (23) of the driven sprocket wheel (22) Traction track tensioning device of caterpillar caterpillar. 13. The method of claim 12,
Characterized in that a locking nut (65) is additionally provided on the conveying screw (64) to prevent unwinding of the conveying screw (64) when the traction trajectory (18) exerts tension. 5. The method of claim 4,
Characterized in that the screw jack (51) is further provided with a locking nut (51a) so that tensioning of the traction trajectory (18) is suppressed. The method according to claim 1,
A sliding fixing groove 261 for providing a fixing position and a sliding surface of the driven sprocket wheel support bracket 24 is formed on the upper end side of the track support 26 and tension is generated on the side of the track support 26 by the tension generating means Wherein the bolt (30) is screwed and the tip of the tension generating bolt (30) is in contact with the back surface of the driven sprocket wheel support bracket (24). 16. The method of claim 15,
The driven sprocket wheel support bracket 24 is screwed to the sliding fixing groove 261 so that the movement of the driven sprocket wheel support bracket 24 is limited by the guide bolt 40 inserted into the slot 24a of the driven sprocket wheel support bracket 24 Cable traction crawler track traction tensioning device. 16. The method of claim 15,
Characterized in that the tensioning bolts (30) are screwed to the side blocks (263) of the track support (26). 3. The method of claim 2,
Wherein the sliding fixing groove (261) has a rectangular shape for suppressing rotation of the driven sprocket wheel support bracket (24). The method according to claim 1,
The driven sprocket wheel support bracket (24)
Upper and lower horizontal plates (241, 242) for supporting the support shaft (23) of the driven spratsk wheel (23);
A vertical plate 243 connected to the upper and lower horizontal plates 241 and 242 in a direction perpendicular to the upper and lower horizontal plates 241 and 242;
And a sliding plate (244) connected to the lower side rear surface of the vertical plate (243) and slidably disposed at both end side sliding fixing grooves (261) of the track support (26) Tensioning device. 20. The method of claim 19,
Wherein the vertical plate (243) is provided with a screw hole (243a) in which a tension generating bolt (30) is screwed at a position lower than the sliding plate (244).

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