KR200404396Y1 - Application cable path for robot - Google Patents

Abstract

The present invention relates to a cable handling structure of an articulated robot, and its purpose is to integrate and integrate cable wiring such as welding power and cooling water, which is required when the articulated robot is used as a welding means, in a confined space so that welding can be performed in a narrow space It is an object of the present invention to provide a cable handling structure for an articulated robot that makes it possible and does not interfere with other device structures separately installed therein.

The present invention for achieving the above object is a base arm, a lower arm, an upper arm, a cable that is connected to the welding means by installing a welding means at the end of the upper arm when using a joint articulated robot for welding In the wiring structure, the box-shaped case portion provided along the lower periphery of the base arm and provided with a controller on one side, and the cable is installed on both sides of the inside of the case portion, the cable introduced through the controller Cable fixing member which is fitted inside and moved to correspond to the rotation of the base arm to protect the cable, and the cable extending to the upper part of the case through the cable protective member and connected to the welding part, and fixed to the articulated robot What is configured to include, as the technical gist.

Description

Application cable path for robot

The present invention relates to a cable handling structure of an articulated robot, and more particularly, a box-shaped case part is installed at a lower part of the articulated robot, and is guided by a cable protection material inside the case part to correspond to the rotation of the articulated robot. It is to provide a cable handling structure of the articulated robot to be moved.

 In general, industrial robots are industrial machines that are applied to the assembly, mounting and welding of parts, or difficult tasks that adversely affect the human body. There are vertical articulated, horizontal articulated, and rectangular coordinate robots.

Such robots conventionally have a plurality of arms that are rotated or traversed at a predetermined angle on the upper side of the base to be rotated, and the base and each of the arms drive various driving means or have been pre-programmed. A plurality of cables are connected to control various control devices according to a program. The cables are wired on one side of the base or exposed to the outside.

However, the cable handling structure of the conventional robot not only restricts the work area by interfering with various devices that are rotated and transported, but also increases the volume and the number of parts when it is provided with means for separately handling the cable. There are various problems inherent, such as a malfunction and the like when the cable is worn by the devices that are raised and rotated and transported.

In addition, in the case of using the robot for welding work, as shown in FIG. 1, a support structure 50 such as a mount or a circular chain assist device is installed separately from the articulated robot 10 for wiring the cables 32 such as welding power and cooling water. As the wiring process is performed, the installation space of the articulated robot 10 by the separate supporting structure 50 is insufficient, and the cable 32 causes interference with various devices, thereby restricting the work area and increasing the cost. have.

The present invention is created in order to solve the conventional problems as described above, in the case of using the articulated robot as a welding means, the cable wiring such as welding power and cooling water required in the articulated robot is integrated and integrated, so that welding work can be performed in a narrow space. It is an object of the present invention to provide a cable handling structure for an articulated robot that makes it possible and does not interfere with other device structures separately installed therein.

The present invention for achieving the above object is coupled to the base through a rotating shaft provided in the lower base arm is operated to be rotatable, the lower arm is connected to the upper portion of the base arm and operated by a cylinder, the lower arm is connected When using an articulated robot configured for welding including an upper arm which is connected to the upper arm and the base arm and the upper arm tilts or lifts the upper part of the robot for welding, the welding means is installed at the end of the upper arm and the welding is performed. In the wiring structure of the cable connected to the means, it is provided along the lower periphery of the base arm and provided with a box-shaped case portion having a controller on one side so that the cable is retracted, and installed on both sides of the inside of the case portion, The cable inserted through is fitted inside and moved to correspond to the rotation of the base arm. Cable protection material for protecting the cable and the cable extending through the cable protection material to the upper portion of the case connected to the welding portion is connected to the joint fixing the robot to fix the joint.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a side view showing the articulated robot and wiring structure used for welding of the present invention, Figure 3 is a front view showing the articulated robot and wiring structure used for welding of the present invention, Figure 4 is a box type of the present invention A front view showing the wiring structure inside the case part,

The articulated robot 10 of the present invention is coupled to the base arm 11 rotatably coupled to the base portion 20 through a rotating shaft 11a provided at the bottom, and connected to an upper portion of the base arm 11. A lower arm 12 which is operated by a cylinder 12a, an upper arm 13 connected to the lower arm 12 to which work means such as welding means are installed, and the base arm 11 and the upper arm. It is configured to include a link 14 to connect the 13 to tilt or lift the upper portion of the articulated robot 10 forward. When the articulated robot 10 is used for welding, a water cable 32a and a power cable 32b are installed at the end of the upper arm 13 to supply water and power necessary for the welding. The water cable 32a and the power cable 32b are connected to each other, and the water cable along the circumference of the rotating shaft 11a below the base arm 11 to prevent twisting or interference due to the rotation of the articulated robot 10. 32a, a case-shaped case portion 30 for receiving a portion of the power cable 32b is provided, and further extends through the case portion 30 to be connected to the welding means by means of a water cable 32a and a power cable ( 32b) is provided with a cable fixing part outside the articulated robot 10 so that the articulated robot 10 is not twisted according to the up and down movement.

The rear side of the case part 30 is provided with a controller 33 for introducing the water cable (32a) and the power cable (32b), and the water cable (32a) introduced through the controller 33 on both sides of the interior space; A cable protection material 31 is provided, which is fitted by separating and connecting the power cables 32b, respectively.

The cable protection member 31 is configured to apply a guide spring or a flexible tube and move correspondingly according to the rotational motion of the base arm 11, such that the water cable 32a and the power cable 32b fitted therein are articulated. It prevents twisting by the rotation of the robot 10 or causing interference with the rotating shaft 11a of the base arm 11.

The cable fixing part is installed in the lower portion of the base arm 11, the first fixing portion 40 for fixing the water cable 32a and the power cable 32b extending through the upper portion of the case portion 30, and the base A second fixing part 41 installed at an upper part of the arm 11 and fixed to the water cable 32a and the power cable 32b extending from the first fixing part 40 and the lower arm 12. It is composed of a third fixing portion 42 for fixing the water cable (32a) and the power cable (32b) extending through the second fixing portion (41).

The first fixing part 40 is composed of a cable clamp 40a to which the water cable 32a extending from the case part 30 is fitted and fixed, and a manifold 40b to which the power cable 32b is fitted. The second fixing part 41 includes a clamp shaft 41a extending from one side of the base arm 11 to one side, a plate 41b installed at an end of the clamp shaft 41a, and the plate ( And a clamp 41c fixed to the power cable 32b and the water cable 32b, and the third fixing portion 42 is a plate on the cylinder 12a for operating the lower arm 12. 42b is fixed and is fixed to this plate 42b, and consists of a clamp 42c which fixes the water cable 32a and the power cable 32b.

The cable is completely fixed to the first fixing part 40 and the third fixing part 42, and the clamp is freely rotated in the second fixing part 41 so that the movement of the cable according to the operation of the robot is naturally maintained. Be sure to

At this time, the water cable 32a and the power cable 32b are tensioned during the up and down operation of the articulated robot 10, and thus have a predetermined play to prevent the cable from being broken or the articulated robot from operating. It is fixed to have.

As the cable 32 is connected as described above, when the articulated robot 10 is rotated in one direction on the base part 20, the cable located on the opposite side of the rotation direction in the case part 30 is pulled along the rotation direction. When the articulated robot 10 is rotated in the other direction, the cable 32 on the opposite side of the rotation direction is guided to the cable protection material 31 and pulled along the rotation direction. .

In this way, the cable 32 such as the water cable 32a and the power cable 32b is guided by the cable protection material 31 in the case part 30 while corresponding to the rotational direction of the articulated robot 10. Since the cable 32 is moved, the cable 32 is protected and no interference with other structures around it occurs.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The effect of the present invention, which can be expected by the configuration and action as described above, is to store and protect a part of the cable, such as the welding power supply and cooling water required for welding and to the case part of the articulated robot, the rest of the cable to the articulated robot It is possible to weld in a narrow space without interference with other structures by integrating it with a clamp, so the space utilization is very excellent, and cost can be saved by not installing a separate structure around the articulated robot to fix the cable. It is a very useful design.

1 is an exemplary view showing the wiring structure of a conventional articulated robot used for welding;

Figure 2 is a side view showing a multi-joint robot and wiring structure used for welding of the present invention,

3 is a front view showing a multi-joint robot and wiring structure used for welding of the present invention,

Figure 4 is a front view showing the wiring structure inside the box-shaped case portion of the present invention,

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

(10): articulated robot (11): base arm

(11a): axis of rotation (12): lower arm

(12a): Cylinder 13: Upper Arm

14: link 20: base portion

(30): Case portion 31: Cable protection material

(32): cable (32a): water cable

(32b): power cable (33): controller

(40): 1st fixing part (40a): cable clamp

40b: Manifold 41: Second Government

(41a): clamp shaft (41b) (42b): plate

(41c) (42c): clamp 42: third fixing part

50: support structure

Claims (2)

A base arm coupled to the base and rotatably coupled to the base through a rotating shaft provided at a lower portion, a lower arm connected to an upper portion of the base arm and operated by a cylinder, an upper arm connected to the lower arm, and the base arm and upper In the case of using a jointed-arm robot including a link connecting the arm to tilt or lift the upper part of the robot for welding, a welding means is installed at the end of the upper arm and a wiring structure of the cable connected to the welding means is used. In A box-shaped case portion installed along a rotation axis of the base arm and provided with a controller at one side thereof so that cables can be inserted therein; Installed on both sides of the case, the cable introduced through the controller is inserted into the cable protection material for protecting the cable is moved to correspond to the rotation of the base arm, The cable processing structure of the multi-joint robot, characterized in that it comprises a cable fixing for extending to the upper portion of the case through the cable protective material connected to the welding portion to secure to the articulated robot. The method of claim 1, The cable fixing part has a first fixing part which is installed at the lower part of the base arm and fixes the cable extending from the case part, and a second fixing part which is installed at the upper part of the base arm and fixed to the first fixing part and extending the cable. Cable handling structure of the articulated robot, characterized in that consisting of a fixing part, a third fixing part for fixing the water hose and the power cable extending through the second fixing part installed in the lower arm