KR200362287Y1 - Device for laying a cable - Google Patents

Abstract

The present invention relates to a cable laying machine that can easily install a cable with a small manpower by using a device of a simple structure, a drive motor; At least one upper roller which rotates by driving of the driving motor and has an elastic body coated on the outer circumferential surface at a predetermined thickness; And at least one lower roller which is in contact with the lower surface of the upper roller and rotates in a direction opposite to the rotational direction of the upper roller and is coated with an elastic body at a predetermined thickness on an outer circumferential surface thereof.

The present invention is easy to install the cable, it does not damage the cable to be installed, it is possible to lay the cable effortlessly with little manpower, thereby reducing the workforce, labor costs and time is a very economical design. In addition, there is an advantage that can be laid a variety of cables regardless of the thickness of the cable.

Description

Cable laying machine {Device for laying a cable}

The present invention relates to a cable laying machine, and more particularly, to a cable laying machine that can easily install a cable with a small manpower by using a device of a simple structure.

In recent years, due to the increase in the number of large apartments, the length of the wires connected from the electrical room also increases, and as the power consumption increases, the thickness of the cable gradually increases. Therefore, it is very difficult to insert such cable into the tray of the common tool to be laid, and it is impossible to install a long and sluggish cable without a lot of manpower to work at the same time. Labor costs increase due to the input, the fatigue of the worker can not be solved, there is a problem that the efficiency of the work does not rise.

In addition, if the cable is pulled by using a vehicle without using manpower, the operation can be easily performed, but a lot of constraints are required as a wide space to move the vehicle, and the state of the cable can not be known, Pull cable is damaged.

Therefore, the present invention is to solve the conventional problems as described above, it is an object of the present invention to provide a cable laying machine that can be installed with less effort, labor and labor costs, as well as easier cable installation.

In addition, another object of the present invention is to provide a laying machine that can install a variety of cables regardless of the thickness of the cable.

In addition, the present invention has another object to provide a laying machine that can be laid by sliding without damaging the outer peripheral surface of the cable passed through the equipment.

1 is an overall perspective view of a cable laying machine according to the present invention

Figure 2 is a schematic diagram showing the driving relationship of the upper roller and the lower roller of the cable laying machine according to the present invention

3 is a partially cutaway perspective view illustrating a coupling relationship between a guide block and a guide groove of a cable laying machine lower roller according to the present invention;

Figure 3a is a front view of the cut part showing the coupling relationship between the guide block and the guide groove of the cable laying machine lower roller according to the present invention

3b is an operation diagram showing a lower roller operating state when the cable is introduced between the upper roller and the lower roller of the cable laying machine according to the present invention

Figure 4 is a schematic diagram showing the coupling relationship between the drive and the tension portion of the lower roller of the cable laying machine according to the present invention

Figure 4a is a schematic operation diagram showing a state in which the tension unit is operated by the lower roller descending of the cable laying machine according to the present invention

5 is a partial perspective view of the guide of the cable laying machine according to the present invention

Figure 5a is a part of the operation showing the state of rotating the guide post of the cable laying machine according to the present invention

6 is a simplified view showing a state of laying a cable using a cable laying machine according to the present invention

<Code Description of Main Parts of Drawing>

10: main body 11: guide groove

20: drive motor 21: reducer

22: drive gear 23: connecting gear

30: upper roller 31, 31a, 31b, 41, 41a, 41b: chain

32, 42: elastomer 40: lower roller

43: guide block 44, 63, 72: spring

50: control unit 60: tension unit

61: children gear 62: hinge

70: guide stand

The present invention and the drive motor to achieve the object of the present invention as described above; At least one upper roller which rotates by driving of the driving motor and has an elastic body coated on the outer circumferential surface at a predetermined thickness; And at least one lower roller which is in contact with the lower surface of the upper roller and rotates in a direction opposite to the rotational direction of the upper roller and is coated with an elastic body at a predetermined thickness on an outer circumferential surface thereof.

In addition, the present invention is characterized in that the lower roller is positioned differently up and down depending on the thickness of the cable.

In addition, the lower roller of the present invention comprises a guide block is arranged in the shaft of the lower roller, the guide block is provided to move up and down along the guide groove formed in the main body; A spring fastened to a lower portion of the guide block; And a tension unit for adjusting the tension of the chain connected to the drive motor.

In addition, the lower roller is connected by a drive gear and a chain of the drive motor; The upper roller rotates in a direction opposite to the lower roller by being connected by a connecting gear and a chain engaged with the driving gear; The tension part is freely rotated by being engaged with the chain of the lower roller, and a hinged idler gear and a spring engaged with the idler gear; the lower roller is characterized in that to maintain the tension of the chain when lowered .

In addition, further characterized in that it further comprises a length measuring unit for measuring the length of the cable is drawn between the upper and lower rollers being drawn out.

Hereinafter, with reference to the accompanying drawings the most preferred configuration of the present invention in detail as follows.

The present invention, as shown in Figure 1, largely the main body 10, the drive motor 20 provided on one side of the main body 10 and the upper roller 30 driven by the drive motor 20 and The lower roller 40, the control unit 50 for controlling the drive motor 20.

Preferably, the drive motor 20 uses a DC motor to facilitate driving even when the voltage is different depending on the site conditions. The drive motor 20 is provided with a reducer 21 and a drive gear 22. .

2 is a view illustrating a driving relationship between the drive gear 22, the upper roller 30, and the lower roller 40. The chain 41 is formed between the drive gear 22 and the upper lower roller 40. As shown in FIG. By connecting to transfer the driving force, when the plurality of the lower roller 40 is installed to connect the chain 41a, 41b between the lower roller 40 and the lower roller 40a to transfer the driving force.

In addition, a coupling gear 23 meshed with the driving gear 22 is provided on one side, and the coupling gear 23 and the upper roller 30 are connected to each other by a chain 31 to drive the driving force of the driving motor 20. To pass. Similarly, when a plurality of upper rollers 30 are installed, the driving force is transmitted by connecting the upper rollers 30 with chains 31a and 31b.

As shown in Figure 3 and 3a, the lower roller 40 is to be moved up and down, the bar is installed so that the interval between the upper roller 30 and the lower roller 40 is variable, the main body 10 A guide block 43 guided to the guide groove 11 formed in the bearing is arranged on the shaft of the lower roller 40, and the spring 44 is elastically supported on the lower portion of the guide block 43. In addition, as the lower roller 40 is lowered, in order to prevent the tension force of the chain 41 connected to the drive gear 22 from being weakened, as shown in FIG. 4, a tension portion is provided at one side of the chain 41. 60 is provided.

The tension unit 60 is coupled to the chain 41 is provided with an idle gear 61 so as to freely rotate, the idle gear 61 is coupled to one side of the main body 10 and the hinge 62, the idle gear It consists of a spring 63 supporting 61.

On the other hand, the outer circumferential surface of the upper roller 30 and the lower roller 40 is applied to the elastic body 32, 42 made of synthetic resin such as rubber material to a predetermined thickness (about 20mm).

In addition, the front side of the main body 10 is provided with a guide 70 for guiding the introduction of the cable (C) as shown in Figure 5, the guide 70 is a fixed shaft 71 and the fixed shaft A spring 72 is supported on the 71 to be freely rotatable and includes a rotating shaft 74 having a plurality of control units 73 and a coupling portion 75 to which the fixed shaft 71 and the rotating shaft 74 are coupled. .

In addition, in order to measure the length of the cable C passing through between the upper and lower rollers of the laying machine of the present invention, the length measuring unit 90 is further provided, which measures the rotation length of the chain 31. Alternatively, the encoder may be provided in the upper roller 30 to measure the number of revolutions, and the like to measure the cable lead-out length.

In addition, the control unit 50 for controlling the power and the speed and rotation direction for driving the drive motor 20 is provided separately.

Reference numeral D, which is not described above, is a winding drum in which the cable C is wound, and 80 is a roller installed on the wall of the tray in order to prevent damage to the surface of the cable C to be installed and to make sliding smooth. .

Hereinafter, the operation of the present invention configured as described above are as follows.

As shown in FIG. 6, the winding drum D on which the cable C is wound is placed on one side of the tray of the cavity to be installed, and the cable C is installed on the other side tray to be pulled out. And, although not shown in the drawing, after preparing by inserting a preliminary light rope, etc. to be laid in the usual manner, one side of the rope and bundle the cable (C) released from the winding drum (D).

And, by controlling the rotation direction and the speed of the drive motor 20 by the control of the control unit 50 of the laying machine of the present invention, the control table of the guide table 70 provided on the front side of the main body 10 ( When the rotary shaft 74 is rotated about the fixed shaft 71 so that the 73 is vertically, the fixed shaft 71 and the rotary shaft 74 are coupled by the coupling part 75 by the elasticity of the spring 72. Is fixed.

The drive motor 20 driven by the controller 50 rotates the drive gear 22, rotates the connecting gear 23 engaged with the drive gear 22, and simultaneously rotates the drive gear 22. The lower roller 40 connected by the chain 41 rotates integrally, and the other lower roller 40 positioned at a predetermined interval also rotates in the same direction by the chains 41a and 41b, and the connecting gear The upper roller 30 rotates in the opposite direction to the lower roller 40 by the chains 31, 31a and 31b connected to the upper roller 30 by the rotation of the 23.

The other side of the rope is introduced between the control table 73 of the guide table 70 of the laying machine of the present invention thus prepared. Then, the rope is pulled out to the other side of the main body 10 while being in close contact with the sliding by the elastic body 32, 42 of the upper roller 30 and the lower roller 40, all the ropes to the other side of the main body 10 After being drawn out, the cable C tied with the rope also starts to be drawn out integrally. The cable (C) drawn out as described above is slid by the roller (80) pre-installed on the wall of the tray at the curved portion of the tray, and of course, the cable (C) surface is not damaged, and the sliding is easily performed.

Therefore, if the controller 50 is controlled to adjust the drawing speed of the cable C, and the cable C is drawn out in the reverse direction, the rotation of the driving motor 20 may be rotated in the reverse direction.

At this time, when the thickness of the cable (C) is rather thick, as shown in Figure 3b, the guide block 43 of the lower roller 40 is guided to the guide groove 11 of the main body 10 to move downward It is spaced apart from the upper roller 30, when the withdrawal of the cable (C) is completed, or the thickness of the cable (C) becomes thin, the elasticity of the spring 44 fastened to the lower portion of the guide block 43 By the lower roller 40 is moved to the upper side again, the spacing with the upper roller 30 is narrowed.

On the other hand, if the lower roller 40 is lowered while being spaced apart from the upper roller 30 as described above, the tension of the chain 41 connected to the drive gear 22 is weakened and loosened. However, if the chain 41 is loosened in this way, as shown in FIG. 4A, the idle gear 61 of the tension unit 60 pushes the hinge 62 on the axis by the tension of the spring 63 and causes the chain to be loosened. 41 is also pushed together to keep the tension of the chain 41 tight. In addition, when the lower roller 40 is raised again, the chain 41 is also pulled while pushing the idle gear 61 of the tension unit 60, which is pushed outward with respect to the hinge 62 to lower the roller ( It will not interfere with the operation of 40).

At this time, by measuring the length of the cable (C) to be drawn out as described above by the length measuring unit 90 provided separately, it is possible to grasp the current withdrawal length as a numerical value, and when the withdrawal is completed as necessary, the work is finished .

When the work is finished, the rotation shaft 74 of the guide stand 70 is pushed toward the spring 72 to release the engagement portion 75 and then rotated about the fixed shaft 71 to control the control stand 73. ) To the bottom to prevent damage during movement of the equipment. Of course, when the cable C is to be laid, when the rotary shaft 74 of the guide 70 is rotated, the coupling portion 75 is coupled by the elastic force of the spring 72.

In the installation of the cable (C) by using the laying machine of the present invention as described above, if you want to install over a rather long area, install a plurality of laying machines in the middle, so that the cable (C) passes through each of the laying machine By doing so, the efficiency of the work can be improved.

What has been described above is merely an example of the present invention, the present invention is not limited to the above-described embodiment, without departing from the gist of the present invention claimed in the following utility model registration claims Anyone with ordinary knowledge in the field of the invention will have the technical idea of the present invention to the extent that various modifications can be made.

As described above, the present invention is not only easy to install the cable, but also does not damage the cable to be installed, it is possible to install the cable with little effort without effort, thereby reducing the workforce, labor costs and time is very economical It is devised. In addition, there is an advantage that can be laid a variety of cables regardless of the thickness of the cable.

Claims (5)

A drive motor; At least one upper roller which rotates by driving of the driving motor and has an elastic body coated on the outer circumferential surface at a predetermined thickness; And at least one lower roller which is in contact with a lower surface of the upper roller and rotates in a direction opposite to the rotational direction of the upper roller, and has an elastic body coated on the outer circumferential surface at a predetermined thickness. The method of claim 1, The lower roller is a cable laying machine, characterized in that the position is variable up, down according to the thickness of the cable. The method of claim 1, wherein the lower roller A guide block arranged on a shaft of the lower roller and provided to move up and down along a guide groove formed in the main body; A spring fastened to a lower portion of the guide block; Cable tensioner further comprises a; tension portion for adjusting the tension of the chain connected to the drive motor. The method of claim 3, wherein The lower roller is connected by a drive gear of the drive motor and a chain; The upper roller rotates in a direction opposite to the lower roller by being connected by a connecting gear and a chain engaged with the driving gear; The tension unit is freely rotated by being engaged with the chain of the lower roller, the hinged idle gear and the spring engaged with the idle gear; consisting of a cable installation, characterized in that to maintain the tension of the chain when the lower roller is lowered group. The method of claim 4, wherein Cable laying machine, characterized in that further comprising a length measuring unit for measuring the length of the cable is drawn between the upper and lower rollers being drawn out.