KR20090091259A - Welding equipment with rotate torch - Google Patents

Abstract

A welding device is provided to weld a material consecutively while holding the center of a hole of a product or a flange in a fixed state with a centering gripper, and to reduce manufacturing cost of the product. A welding device comprises a centering gripper(150), a welding unit(200), a carbon brush(301), a torch position adjusting unit(400), and a control unit. The centering gripper holds the center of a product or a hole or a flange or a boss. The welding unit rotates a welding torch(401) with torque of a rotating motor(220). The carbon brush delivers a welding current to a rotator(306). The torch position adjusting unit controls a location of the welding torch, a rotary joint(300,350), and a slip ring(250). The control unit is connected with main components on a circuit.

Description

Welding equipment with rotate torch {welding equipment with rotate torch}

The present invention relates to a torch (TORCH) rotary welding device in detail the hole and flange or boss of the non-rotationally symmetrical product in a fixed state by welding while welding the torch continuously rotated 360 degrees along the outer peripheral surface of the flange or boss The present invention relates to a welding device for determining the center of a product by a center ring gripper that holds the center of a hole, and continuously welding by rotating a welding torch by receiving a rotational force of a rotating motor. The carbon brush that delivers the welding current required for welding to the rotator connected to the rotating conductive rod, the slip ring that transmits the control electricity to the rotating body, the hydraulic and shield gas and welding rod, the rotary joint that transmits the welding current, and the position of the welding torch It is composed of a torch position control device for adjusting and a control unit for sequentially operating and controlling the operation according to a set sequence while being connected to the main component and the circuit.

 When fixing non-rotationally symmetrical products and welding the outer circumferential surface of flanges or bosses on them, it is common to work after adjusting the centering work manually and welding them while rotating the torch by the robot. Fixing and welding while rotating the product is widely used. In case of welding using robot, continuous rotation welding is difficult and the carrying weight is too heavy for attaching the centering device. Therefore, the robot needs to be enlarged, while if the product is rotationally asymmetric, it requires much space for rotating the product. Cause.

The present invention requires electricity for the purpose of solving the above problems. gas. Oil required for welding rods and centering equipment. By rotating the electric light necessary for the control such as pneumatic, rotation and torch position control at the same time with the torch, the torch rotates continuously without disturbing various wires or pipes, and oil, pneumatic, electric, gas and welding rods are continuously It is possible to provide 360-degree rotation welding by supplying, and to solve the formation of beads in multiple layers to reduce the production cost for welding parts of asymmetric products, and to provide a torch-rotating welding device that allows work to be performed in a short time. have.

In order to solve the above problems and achieve the object, the torch rotation welding apparatus is a hole of a non-rotationally symmetric product in which the welding torch is welded while continuously rotating 360 degrees along the outer peripheral surface of the flange or boss. The center of the product by the center ring gripper for holding the center between the flange and the boss hole, and the welding device for welding continuously by rotating the torch by receiving the rotational force of the rotating motor. Carbon brush which transmits welding current required for welding to rotator connected to rotating rod, slip ring which transmits control electricity to rotating body, rotary joint which delivers hydraulic and shield gas and welding rod, and torch position to adjust position of welding torch It was solved by constructing a control unit and a controller that is connected to the main components and controls the operation sequentially according to the set sequence.

According to the present invention, the electricity required for welding. gas. By rotating the electric light necessary for the control of the welding rod and the centering device such as the rotation and the position control of the torch by rotating the welding torch simultaneously with the welding torch, the welding torch can be continuously rotated without disturbing various wires or pipes. Possible to supply pneumatic, electricity, gas and welding rod continuously, 360 degree rotation welding is possible, and the formation of beads in multiple layers is solved to automate the welding of parts of asymmetric products, and the work can be done in a short time. With this, it is possible to weld various products.

Embodiments of the present invention will be described in detail with reference to the accompanying drawings. Embodiment described below is an example as an implementation means of this invention, and this invention is applicable to what modified or changed the following embodiment in the range which does not deviate from the meaning.

Figure 1 is a front view of the torch rotary welding device of the present embodiment, Figure 2 is a perspective view of the product and flange applied to this embodiment, Figure 3 is a cross-sectional view of the rotary joint 1 of the present invention, Figure 4 is a Figure 4 is a cross-sectional view of the welding cable, Figure 6 is a front view of the clamping device of the present invention, Figure 7 is a control block diagram.

As shown in Figure 1, the rotation of the welding device 200 is made by the connection of the drive gear 201 attached to the rotary motor 220 and the driven gear 202 attached to the welding device 200. The welding device 200 includes a welding torch 401 and a clamp cylinder 210, a position adjusting device 400 of the welding torch 401, a torch position converting device 410 and a center ring gripper 150 for continuous bead formation. Consists of.

As the welding device 200 rotates, the welding torch 401, the clamp cylinder 210, and the continuous bead formation 411 rotate so that the welding current and the shield gas, the hydraulic piping, the power required for position control, and the position sensor ( 412) The power source should be connected while rotating. In addition, the rotary shaft 230 is provided for the rotation of the welding device 200, the rotary shaft 230 is a hollow shaft is configured to pass through the hydraulic pipe and the wire. However, since the centering gripper 150 should be centered while compressing the asymmetric product 112 and the flange or boss 110, the centering gripper 150 does not rotate like the welding device 200.

As shown in Figure 5, the welding cable 101 supplies the current, shield gas, and welding rod required for welding. In order to connect them to the rotating welding apparatus 200, the welding cable 101 is cut and then an electric wire is supplied. The 102 is separated and connected to the carbon brush 301 described later.

In Fig. 3, the conductive rod 303 is covered with an insulator 305 with the center of the rotational one axis 302 of the rotary one joint 300 as the hollow shaft, and is pressed together to be coupled to one end of the conductive rod 303. A cylindrical rotator 306 was installed to be connected to the carbon brush 301 so that the welding current was conducted so that the welding current was drawn into the conductive rod 303. In addition, the shield gas is configured to be connected to the welding cable 101 using the conductive rod 303 as the hollow shaft, and installed to flow through the hollow shaft of the conductive rod 303. The welding rod is inserted into the hollow shaft of the conductive rod 303. The passage 104 was inserted to install a welding rod. At this time, since the rotary one shaft 302 of the rotary one joint 303 rotates together with the welding device 200, the other end of the conductive rod 303 is connected and fixed by connecting a welding cable 101 with a welding torch 401. By doing so, it was possible to continuously supply current, shield gas, and welding rod required for welding.

As shown in Figure 4, the hydraulic piping is connected to the fixed one shaft 304 of the rotary one joint 300 in the unmarked hydraulic unit and rotates together with the welding device 200 while passing through the rotating one shaft 302, the clamp Since the hydraulic pipe of the cylinder 210 rotates together with the rotary 1 shaft 302 of the rotary 1 joint 300, the hydraulic pipe of the center ring gripper 150 can be fixed to each other, but the hydraulic pipe 1 of the rotary 1 joint 300 rotates 1. Unlike the rotation of the shaft 302 it must be fixed so that a direct connection is not possible. Accordingly, the rotary two-axis 351 of the rotary two joint 350 and the rotary one-axis 302 of the rotary one joint 300 are connected, and the fixed two-axis 353 of the rotary two joint 350 is a sliding shaft 154. The hydraulic pipe is connected to the hydraulic cylinder 151 of the centering gripper along the hollow of the sliding shaft 154.

In Figure 1, the power supply of the continuous bead forming motor 411, the positioning sensor 412, which requires a control power supply must also rotate simultaneously with the welding apparatus 200, so that the space between the lower part of the rotary joint 1 and the rotary shaft 230 is The slip ring 250 was installed to rotate. In addition, the position adjusting device 400 of the welding torch 401 is adjustable in the thickness direction and the left and right adjusting device 413 that can adjust the position according to the size of the outer diameter of the flange or boss 110 relative to the center of the rotation axis. The upper and lower control unit 414 is attached to allow the change, and the position of the welding torch 401 is rotated by the continuous bead generating motor 411 to generate the continuous multilayer bead, and the rotational force is added to the gear and link structure. After the welding torch 401 is rotated 360 degrees to control the position of the welding torch 401 to move a predetermined distance so that the rotation of the welding torch 401 can work continuously without stopping.

As shown in FIG. 6, the hole 113 of the asymmetric product 112 and the hole of the flange or boss 110 are formed at the distal end of the clamp cylinder 210 that compresses the flange or the boss 110 while rotating together with the welding device 200. A centering gripper 150 for centering the 113 is attached to a sliding device 153, which allows the centering gripper 150 to move up and down by a required amount. The centering gripper 150 is a multidirectional gripper jaw (as shown in Patent Application No. 0122585). 152 is arranged to move at the same time and the hydraulic cylinder 151 is applied to the operating source to be the center of the flange or boss 110 of the heavy.

On the other hand, the center ring gripper 150 is pressed by the clamp cylinder 210 so as not to rotate like the welding torch 401 attached to the welding device 200, the pressing pressure is the flange or boss 110 during welding It prevents deformation by generating resistance to thermal deformation of, thus eliminating the welding process performed during normal welding to enable continuous welding. In addition, the sliding device 153 is attached to the slide shaft 154 to accommodate the linear movement of the clamp cylinder 210 and the rotational movement of the welding device 200 rotates. The slide shaft 154 is composed of a hollow shaft so that the hydraulic pipe that is the operating source of the centering gripper 150 passes.

As shown in FIG. 8, each of the motors 508-1 to 508-n represents a rotary motor 220 for rotating the welding device 200 and a continuous bead generating motor 411 for adjusting the position of the welding torch 401. Each motor 508-1 to 508-n is driven by a corresponding motor controller 590-1509-n. In this control block, the CPU 501 controls the various motors 508-1 to 508-n, respectively, or controls the external storage device 505 and the display unit 504 according to the input of the display unit 504.

According to the present invention, in flange or boss welding of a non-rotationally symmetric type product, it is invented to remove the waste of personnel, time, etc. due to the manual centering, welding, and welding work processes and to perform work in a short time, thereby improving productivity. It is predictable to bring effect.

The control technology that enables multi-layer welding of asymmetric rotating products can be used to simplify the structure of the facility and reduce the amount of facility production by being used in the future production of the facility.

1 is a front view of a torch rotary welding device according to an embodiment of the present invention

2 is a perspective view of the product and the flange applied to the embodiment of the present invention

3 is a cross-sectional view of the rotary joint 1 of the present invention

4 is a connection diagram of two rotary joints of the present invention

5th welding cable profile

6 is a front view of the clamping device of the present invention

7 is a control block diagram of the present invention

100; Articulation frame 101; Welding cable

102; Wire 103; Shield Gas Pathway

104; Electrode passage 105; Welding

110; Boss / flange 111; Outer circumference

112; Asymmetric product 113; Hole

150; Center ring gripper 151; Hydraulic cylinder

152; Multi-directional gripper jaw 153; Sliding device

154; Sliding shaft 200; Welding equipment

201; Drive gear 202; Driven gear

210; Clamp cylinder 220; Rotary motor

230; Axis of rotation 250; Slip ring

300; Rotary Joint 1 301; Carbon brush

302; 1 axis of rotation 303; Challenge

304; Fixed single axis 305; Insulator

306; Rotator 350; Rotary Joint

351; 2 axis of rotation 352; Fixed 2-axis

400; Torch positioning device 401; Welding torch

410; Torch position changing device 411; Continuous Bead Forming Motor

412; Positioning sensor 413; Left and right adjuster

414; Up and down adjustment device 500; Control block diagram

Claims (6)

The hole 113 and the flange or boss 110 of the non-rotationally symmetric product 112 in a state where the welding torch 401 is welded while continuously rotating 360 degrees along the outer circumferential surface 111 of the flange or boss 110. Centering gripper 150 to hold the center between the holes 113; Welding device 200 for rotating the welding torch 401 by receiving the rotational force of the rotary motor 220; A carbon brush 301 which transmits a welding current to the rotator 306 connected to the conductive rod 303 that rotates the welding current; Slip ring 250 for transmitting the control electricity to the rotating body, hydraulic and shield gas and welding rod, torch position for adjusting the position of the rotary joint (300, 350), the welding torch 401 to transmit the welding current to the welding torch (401) Regulator 400; And a control unit 500 for controlling and sequentially operating and controlling the operation according to the set sequence while being connected to the main components in a circuit. According to claim 1, while connecting the hydraulic pipe to the fixed one shaft 304 and connecting the pipe of the operating source to the rotating one shaft 302 to rotate the operating device, the rotating one shaft 302 is a hollow shaft welding An insulator 305 is provided between the conductive rod 303 for transmitting current and the rotating shaft 302 and the conductive rod 303, and the rotor 306 for transmitting a welding current to one end of the conductive rod 303. And a conductive cable 303 as a hollow shaft to allow the shield gas and the welding rod passage 104 to pass therein so that the welding cable 101 with the welding torch 401 is attached to the other end thereof. . Rotary 1 joint (300), characterized in that the welding rod is continuously supplied while rotating According to claim 1, a plurality of pipes are installed on the rotary shaft 1 (302) of the rotary joint 1 (300) is a series of pipes are attached to the welding device 200 is connected to the rotating clamp cylinder 210 and a series of After the pipe is connected with the rotary two shaft 351 of the rotary two joint 350, the fixed two shaft 353 of the rotary two joint 350 is fixed to the sliding shaft 154, and the hydraulic pipe of the sliding shaft 154 Torch rotary welding device, characterized in that the hydraulic pressure is supplied to the rotary actuator and the fixed actuator at the same time by connecting to the hydraulic cylinder 151 of the centering gripper 150 in a fixed state along the hollow. The slip ring 250 is installed in the space between the rotary joint 1 and the lower part of the rotary joint 230 to supply the power of the continuous bead-forming motor 411 and the positioning sensor 412 that require the control power. Torch rotary welding device, characterized in that to rotate as the welding device (200). According to claim 1, the position adjusting device 400 of the welding torch 401 and the left and right adjusting device 413 and the thickness that can adjust the position according to the size of the outer diameter of the flange or boss 110 relative to the center of the rotation axis The up and down adjustment device 414, which is adjustable in the direction, can be attached and changed, and the position of the welding torch 401 is rotated by the continuous bead generating motor 411 to generate a continuous multilayer bead, and the rotational force is transmitted to the gear and the link. By adding a structure, the welding torch 401 rotates 360 degrees, and then the position of the welding torch 401 can be moved to a predetermined distance so that the rotation of the welding torch 401 can be continuously performed. Torch rotary welding device characterized in that. According to claim 1, the center ring gripper 150 is pressed by the clamp cylinder 210 so as not to rotate, such as the welding torch 401 attached to the welding device 200 to the heat deformation of the flange or boss 110 during welding. Torch rotary welding device, characterized in that to prevent deformation.

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