KR20090098264A - Mobile robot for a inner working of a steel pipe - Google Patents

Abstract

A mobile robot for inside work of steel pipes is provided to increase the contact force of a caterpillar by varying the width and inclination angle of the caterpillar according to the inner size of a steel pipe. A mobile robot for inside work of steel pipes comprises a caterpillar(20) activated by hydraulic pressure, a first hydro servo cylinder(70), and a second hydro servo cylinder(80). The caterpillar is moved in the width direction by the first hydro servo cylinder. The second hydro servo cylinder is connected to the caterpillar via a link and inclined at about 45 degrees.

Description

Mobile robot for internal work of steel pipes {MOBILE ROBOT FOR A INNER WORKING OF A STEEL PIPE}

The present invention relates to a mobile robot for working inside a steel pipe, and more particularly to a mobile robot for working inside a steel pipe in which the angle of the caterpillar is changed to be suitable for the inclination of the inside of the steel pipe so as to remove foreign matters inside the steel pipe and to perform an optimal coating work. will be.

Conventionally, the scale and rust formed in the pipe are removed by using high pressure air and silica sand, and then a non-toxic special two-component epoxy resin is applied to form a constant coating film inside the pipe, and the steel pipe and water are blocked by the coating film to corrode the pipe. And prevented the generation of scale. This method was developed in Japan about 18 years ago and was designated as No. 976 in the Japanese Ministry of Construction.

In addition, water sprayed with high pressure is sprayed backward with a special nozzle to propel the nozzle, and this nozzle pushes into the sewer, draws sediment such as sand and gravel to the manhole, and inhales the sediment using a high-pressure vacuum suction car. Jet cleaning suction dredging, which is a transportation method by air, and the latest electronic equipment ultra high pressure water sprayer have a vacuum suction method that can suck the sediment quickly and quickly by discharging 25 liters of water at a very high pressure using a plunger pump.

However, the conventional large-diameter steel pipe work is mostly done by manual, the working environment is poor and there is a risk to the safety of the operator as well as the time and preparation time of the removal of scale and rust.

The present invention was developed to solve the above-mentioned conventional problems, and to provide a mobile robot for working inside the steel pipe to shorten the scale and rust removal work time inside the steel pipe and to improve the coating quality by automating the epoxy coating work.

The present invention is to hydraulically drive the caterpillar of the working mobile robot, each of the caterpillar is moved to the first hydraulic servo cylinder in the left and right width direction,

The second hydraulic servo cylinder is connected to the caterpillar by a link and inclined upward at an angle of 45 degrees so that the width and the inclination angle of the caterpillar are changed according to the internal size of the steel pipe, thereby making the caterpillar traction force large.

The mobile robot for internal work of the steel pipe of the present invention has an effect of increasing the traction force of the caterpillar by changing the width and the inclination angle of the caterpillar according to the internal size of the steel pipe into which the mobile robot is introduced.

Hereinafter, an embodiment of a mobile robot for working inside a steel pipe of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is a mobile robot for working inside the steel pipe is caterpillar hydraulically driven,

Each caterpillar is moved to the hydraulic servo first cylinder in the left and right width direction,

The hydraulic servo second cylinder is connected to the caterpillar by a link frame, and the caterpillar is inclined upwardly at an angle of 45 degrees.

Caterpillar is characterized in that the width of the caterpillar and the angle of inclination of the caterpillar is changed according to the internal size of the steel pipe, so that the traction force of the caterpillar is made large.

Caterpillar of the present invention is a hydraulic robot is driven by a mobile robot for work inside the steel pipe is installed on both sides of the hydraulic bogie 10, the caterpillar 20, the automatic control device for adjusting the mobile robot in the rear of the hydraulic bogie 10 ) Is installed and the paint drive device 41 is installed at the front to drive the detachable painting equipment 40. Between the painting drive device 41 and the automatic control device 30, a hydraulic unit 50 for supplying hydraulic oil to the hydraulic trolley 10 and an automatic horizontal holding device 60 for centering the hydraulic trolley 10 are installed. .

The caterpillar 20 is installed in the link frame 90 so that forward rotation or reverse rotation is performed by a servo hydraulic motor (not shown). The link frame 90 has a lower pin 91 installed inside the front and rear lower parts coupled with the hydraulic servo first cylinder 70, and an upper pin 92 installed inside the upper and rear upper parts of the link frame 90. It is connected to the hydraulic servo second cylinder (80).

The mobile robot for working inside the steel pipe of the present invention can automatically rotate from side to side by adjusting the amount of hydraulic pressure having a predetermined pressure in the hydraulic unit 50 by adding or subtracting the rotation of the left and right caterpillars 20 inside the curved steel pipe. A hydraulic servo flow control valve (not shown) is installed.

The pressure of the hydraulic servo regulator is measured by a pressure gauge installed on the hydraulic servo motor.

The mobile robot for working inside the steel pipe of the present invention inputs the tested mapping data into a microprocessor (not shown) of the hydraulic servo controller 30, and measures the speed required for the horizontal maintenance and operation of the mobile robot and inputs the same to the microprocessor. At the same time, the robot can be moved inside the steel pipe at the desired speed and painting can be performed automatically.

In addition, the mobile robot for working inside the steel pipe of the present invention may be equipped with a blasting apparatus (not shown) in place of the detachable coating equipment 40 to remove scale or foreign substances in the steel pipe. In addition, a camera device such as a CCTV and a wireless receiver that can receive a remote wireless signal is installed can be done unattended.

The mobile robot for working inside the steel pipe of the present invention configured as described above is capable of painting work to a desired thickness on the inner surface of the steel pipe after removing foreign substances or scales in the steel pipe, and when the mobile robot is turned on, the caterpillar 20 is driven to rotate. As the coating equipment driving device 41 of the front is moved to move inside the epoxy sprayed from the painting equipment 40 is made to paint the inner surface of the steel pipe.

 When painting is performed, the hydraulic servo valve control device is controlled by the hydraulic servo controller 30 so that the hydraulic servo first cylinder 70 is operated so that the link frame 90 connected to the hydraulic servo first cylinder 70 is hydraulically operated. It is moved in the width direction from the trolley 10 can be variably adjusted according to the width of the steel pipe.

Similarly, when the hydraulic servo valve adjusting device is controlled by the hydraulic servo controller 30 to operate the hydraulic servo second cylinder 80, the upper pin 92 of the link frame 90 connected to the hydraulic servo second cylinder 80. It can be pulled toward the hydraulic bogie 10 and be bent at an angle of 45 degrees. This allows the mobile robot for working inside the steel pipe of the present invention to move inside the narrow steel pipe.

The hydraulic servo controller 30 operates the hydraulic servo flow control valve in accordance with a signal from the tilt measuring system when the mobile robot for working inside the steel pipe of the present invention moves, and the hydraulic motor is operated by the operation of the hydraulic servo flow control valve, thereby providing a caterpillar ( As well as the movement speed of 20), the hydraulic trolley 10 is always automatically leveled by the automatic horizontal holding device 60.

1 is a side view showing the overall structure of a mobile robot for working inside the steel pipe of an embodiment of the device of the present invention.

2A is a schematic front view showing the structure of FIG. 1;

2B is a schematic perspective view of FIG. 2A.

Figure 3a is a schematic front view showing that the caterpillar width of the mobile robot of Figure 1 spread in the width direction to fit within the steel pipe.

3B is a schematic perspective view of FIG. 3A.

Figure 4a is a schematic front view showing that the caterpillar of the mobile robot of Figure 1 bent at an angle of 45 degrees.

4B is a schematic perspective view of FIG. 4A.

Figure 5 is a schematic bottom view showing the overall structure of the mobile robot for working inside the steel pipe of Figure 1;

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

10: hydraulic bogie 20: caterpillar

30: hydraulic servo controller 40: painting equipment

41: painting equipment drive device 50: hydraulic unit

60: automatic leveling device 70: hydraulic servo first cylinder

80: hydraulic servo second cylinder 90: link frame

91: lower pin 92: upper pin

Claims (4)

In the mobile robot for working inside the steel pipe is caterpillar hydraulically driven, The caterpillar is moved in the left and right width directions, respectively, by the hydraulic servo first cylinder, A mobile robot for working inside a steel pipe, wherein the hydraulic servo second cylinder is connected to the caterpillar by a link to be inclined upward. The method according to claim 1, Caterpillar inclined by the hydraulic servo second cylinder is a mobile robot for working inside the steel pipe, characterized in that can be inclined at an angle of 45 degrees. The method according to claim 1, Caterpillar is a mobile robot for working inside the steel pipe, characterized in that the contact area between the caterpillar and the inner surface of the steel pipe is increased by the movement or inclination in the width direction according to the inner surface of the steel pipe. The method according to claim 1, The caterpillar is installed in the link frame so as to be driven by the servo hydraulic motor, and the link frame is coupled to the first hydraulic servo cylinder by the pins at the lower inside of the front and rear, and the second hydraulic servo at the upper inside of the front and rear of the link frame. Mobile robot for working inside the steel pipe, characterized in that the cylinder is coupled.

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