KR20090131936A - A cable puuller - Google Patents

Abstract

PURPOSE: A cable laying apparatus is provided to mechanize laying of a cable, thereby reducing manpower and working hours. CONSTITUTION: A plurality of pressure rollers(11) are arranged on an upper frame(10). The pressure rollers are rotated with the driving force of a driving motor(100). The pressure rollers are arranged in a lower frame(20). The pressure rollers reversely rotate corresponding to the pressure rollers of the upper frame. A spring(30) is mounted to form a spaced gap between the lower and upper frames. The lower frame is elevated by tension of the spring.

Description

Cable laying machine {a cable puuller}

The present invention is used for laying cables, such as electric wires or communication lines in the interior of the building, and particularly relates to a cable laying machine that can stably install the cable while preventing damage to the cable by pulling at a uniform pressure and uniform speed. .

Generally, cables installed inside the building, that is, wires or communication lines drawn out from the electrical room, are installed at a desired position through the ceiling or the floor, and conventional cables are laid at the end of each cable. The method of connecting the ropes and laying the cables by the operator pulling the ropes directly.

However, the problem with this is that not only does it take up a lot of manpower and takes a long time, but also when the cable is pulled, depending on the weight of the cable itself and the conditions of the site, and when the tension is exerted on the cable, It is difficult to uniformly install the cable in place and problems such as damage to the sheath of the cable occur.

In addition, in recent years, as the structure is enlarged, it is more difficult to install cables by manpower, and the length of cable laying by manpower is limited, and thus cable laying itself is impossible in an overly large space.

The present invention has been made in order to solve the above-mentioned conventional problems, and an object thereof is to provide a cable laying machine which can be laid quickly and stably without damaging the coating of the cable when laying the cable.

In order to achieve the above object, the present invention is provided with a plurality of pressure rollers operated by a driving motor, and the lower frame is engaged with the upper frame and the spring in a state where the upper frame and the lower frame are engaged so that the plurality of pressure rollers are arranged. The lower frame is raised and lowered according to the thickness of the cable to be inserted and mounted so that the separation interval is variable so that the cable is towed.

In addition, the upper frame is fixed to the support formed in the body frame, by adjusting the height of the upper frame is mounted on the support can adjust the inclination of the upper frame according to the conditions of the workplace, the support is made of a hinge structure the upper frame is It is to be separated from the lower frame and have a foldable structure.

As described above, the present invention saves manpower and work time by mechanizing cable laying, and even when laying cables of various thicknesses, stable laying is possible without damaging the cable, and cables are caught or malfunctioned during operation. In this case, the upper frame can be opened to facilitate maintenance of the cable laying machine.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described. In the accompanying drawings, the same reference numerals are used for the same components.

As shown in FIG. 1, the present invention includes an upper frame 10 in which a plurality of pressure rollers 11 are rotated by a driving force of the driving motor 100, and the upper frame 10 is arranged to pull the cable 200. Frame 10 is a plurality of pressure rollers 21 for reverse rotation so as to correspond to the pressure roller 11 of the upper frame 10 at the lower end of the upper frame 10 in a state fixed to the main frame 50 Arranged lower frame 20 is formed, the lower frame 20 is mounted with a spring 30 so as to have a predetermined separation space with the upper frame 10, the lower frame 20 as the spring 30 is tensioned It is made of a structure that is allowed to move up and down.

At this time, the drive motor 100 is to be controlled by the reduction device 110 and connected to each of the pressure rollers (11, 21) in a chain to interlock, drive shaft to protrude in both directions on the same axis of the drive means. (12, 22) is formed so that one side is connected to the drive shaft 22 of the pressure roller 21 of the lower frame 20, the other side is connected to the drive shaft 12 of the pressure roller 11 of the upper frame (10) The pressure rollers 11 and 21 rotate according to the operation of the driving motor 100.

In addition, in order to pull the cable 200 while being engaged with each other when the pressure rollers 11 and 21 mounted on the upper frame 10 and the lower frame 20 rotate, the spur gear only on one driving shaft ( The rotational direction is switched by the engagement of 24 so that the pressure rollers 11 and 12 are reversely rotated with each other.

On the other hand, the folding portion (30a) is formed in the spring 30 is coupled to the upper frame 10 and the lower frame 20, the drive shaft 22 of the pressure roller 21 is built bearing the main frame ( 50 is to be elevated along the guide groove 51 in the state inserted into the guide groove 51 formed in.

In addition, when the structure in which power is transmitted to the drive shaft 22 of the lower frame 20 is a plurality of drive shaft 22 has a joint structure, as shown in Figure 2 and 2A the lower frame 20 is up and down When being lifted and folded, smooth movement is possible, and at this time, the drive shaft 22 is fixed to the folding plate 23 and is configured to be foldable while protecting the chain.

In addition, the spring 30 is mounted to the front spring 31 and the rear spring 32 in front and rear of the lower frame 20, respectively, as shown in Figures 3 and 4 can adjust the tension individually. The pressurization is efficiently performed when the cable is pulled in and pulled out.

In this case, the bracket 30 is mounted on the upper frame 10 and the lower frame 20 to fix the spring 30, and the spring 30 is seated on the bracket 35 to pressurize the spring 30. .

In addition, the pressurizing rollers 11 and 21 of the upper frame 10 and the lower frame 20 are in close contact with the auxiliary springs 33 so that the pressing force is further improved.

In addition, in the state of being mounted to the body frame 50 at the bottom of the lower frame 20, the auxiliary support 34 to support the lower frame 20 is to be formed to further reinforce the pressing force.

On the other hand, the upper frame 10 is mounted to the support 40 of the body frame 50, as shown in Figure 5 and 6 and the support 40 is a plurality of mounting holes 41 is formed in the upper frame By adjusting the height of the mounting (10) it is possible to adjust the inclination of the upper frame (10) can be used to adjust according to the site conditions or circumstances.

At this time, when the lower end of the support 40 is fixed to the rotation holder 52 of the main frame 50 so that the upper frame 10 has an inclined surface, the upper frame 10 and the support can be rotated by a predetermined angle. 40 is easy to mount.

In addition, in order to adjust the mounting height of the upper frame 10, the support 40 is divided into a fixing table 40a and a reference table 40b so as to have a double padding structure to adjust the mounting height. do.

In addition, the support 40 is made of a hinge 42 structure, as shown in Figure 7, the upper frame 10 is to be folded to one side when the cable 200 is caught or abnormal operation occurs during operation The upper frame 10 is folded to facilitate maintenance such as pulling out the inner cable 200.

At this time, to fold the upper frame 10 is to dismantle the spring 30 holding the upper frame 10 and the lower frame 20, the upper frame 10 and the lower frame 20 For easy separation, the hinge means of the folding portion 30a of the spring 30 can be easily fitted and dismantled.

Meanwhile, the guide roller 60 is formed in front of the upper frame 10 and the lower frame 20 so that the cable 200 introduced from the upper or lower portion can be stably introduced.

In addition, the withdrawal roller 61 is formed at the rear end, and when the cable 200 is towed to operate in a state in which a part of the cable is wound around the withdrawal roller 61, the force to be pulled is increased, and the heavy cable or the long distance is increased. The cable in the can be towed easily.

1 is a perspective view of the present invention

Figure 2 is a side view showing the operating structure of the present invention

FIG. 2A is a partially enlarged view showing the operating structure of FIG. 2

Figure 3 is a perspective view of the front spring mounted state of the present invention

Figure 4 is a perspective view of the rear spring mounted state of the present invention

5 is a perspective view of the upper frame of the present invention mounted on the support

6 is a schematic view of a state in which the height of the upper frame of the present invention is adjusted

7 is a front view of a state in which the upper frame of the present invention is folded

8 is another side perspective view of the present invention

9A-9D are schematic diagrams illustrating steps in which a cable is towed

<Description of the symbols for the main parts of the drawings>

10: upper frame 11: pressure roller

12: drive shaft

20: lower frame 21: pressure roller

22: drive shaft 23: folding plate

30: spring 31: front spring

32: rear spring 33: auxiliary spring

34: support base 35: bracket

40: support 41: mounting hole

50: main frame 51: guide groove

52: rotation holder

60: guide roller 61: draw roller

100: drive motor 110: reduction gear

200: cable

Claims (8)

The upper frame 10 in which a plurality of pressure rollers 11 are rotated by the driving force of the driving motor 100, and the upper frame 10 is fixed to the main frame 50 of the upper frame 10. At the lower end, a lower frame 20 having a plurality of pressure rollers 21 arranged in reverse rotation to correspond to the pressure roller 11 of the upper frame 10 is formed, and the lower frame 20 is formed of the upper frame ( 10) and the cable laying machine is mounted with a spring (30) to have a predetermined separation space to have a structure in which the lower frame (20) is raised and lowered as the spring (30) is tensioned. The method of claim 1, wherein the folded portion (30a) is formed in the spring 30 is coupled to the upper frame 10 and the lower frame 20, the lower frame 20 is the drive shaft 22 of the pressure roller 21 Cable laying machine, characterized in that the bearing is built up to rise and fall along the guide groove (51) formed in the body frame (50) According to claim 1 or claim 2, The spring 30 is the front spring 31 and the rear spring 32 is mounted to the front and rear of the lower frame respectively, so that the tension can be adjusted to effectively press the cable Cable laying machine, characterized in that made. The cable laying machine according to claim 3, wherein the auxiliary spring is mounted at the center of the lower frame. The cable laying machine according to claim 4, wherein an auxiliary support (34) is formed at a lower end of the lower frame (20). According to claim 1 or 2, wherein the upper frame 10 is mounted to the support 40 of the body frame 50, the support 40 is a plurality of mounting holes 41 are formed in the upper frame 10 Cable laying machine, characterized in that to adjust the inclination of the upper frame (10) by adjusting the height is mounted. The cable laying machine according to claim 6, wherein the support (40) has a hinge (42) structure so that the upper frame (10) can be folded. 2. The cable according to claim 1, wherein the guide roller 60 is formed in front of the upper frame 10 and the lower frame 20, and the drawing roller 61 is formed at the rear end to facilitate the withdrawal of the cable. Laying machine.

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