WO2023135761A1 - Utility pole construction system, control method, control device, and program - Google Patents

Abstract

The purpose of the present disclosure is to provide a utility pole construction system that does not require skill.　The present disclosure is a utility pole construction system comprising: a grapple-type heavy machine that grasps, and transports, and works on a utility pole; a first sensor that acquires terrain and obstacles information; and a control device that calculates a grapple-type heavy machine work route for performing desired utility pole construction, on the basis of pre-acquired terrain and obstacle information, the terrain and obstacle information acquired by the first sensor, and information relating to the grapple-type heavy machine and the utility pole, and that controls the travel of the grapple-type heavy machine on the work route.

Description

Utility pole construction system, control method, control device and program

This disclosure relates to technology for automatically performing utility pole construction using grapple-type heavy machinery.

Conventionally, utility pole construction, such as construction, relocation, and removal of utility poles, was performed by manually operating crane-type heavy machinery (see, for example, Non-Patent Document 1). Fig. 1 shows the state of conventional utility pole construction. In FIG. 1, 20 is a utility pole, 51 is a crane type heavy machine, 55 is a supervisor, 56 is an operator, and 57 is a worker.

Take the construction work of utility poles as an example. When operating the crane-type heavy machine 51, under the supervision of a supervisor 55, an operator 56 operates a lever to suspend the utility pole 20 with a string with a crane, and a worker 57 performs the vibration control while constructing. Construction work was being carried out by moving utility poles 20 to the location.

However, in utility pole construction, risk prevention and safety measures are essential. Therefore, conventionally, the crane operation by the operator 56 and the anti-vibration work by the operator 57 required skill under the supervision of the supervisor 55 who is familiar with utility pole construction.

Therefore, in order to solve the aforementioned problems, the present disclosure aims to provide a utility pole construction system, a control method, a control device, and a program that do not require skill.

In order to solve the above problems, the present disclosure automates the operation of grapple-type heavy machinery based on information on terrain and obstacles acquired by sensors and information on grapple-type heavy machinery and utility poles.

Specifically, the utility pole construction system of the present disclosure includes:
A grapple-type heavy machine that grabs and carries and works on utility poles,
a first sensor that acquires terrain and obstacle information;
The grapple-type heavy machine for performing a desired utility pole construction based on the terrain and obstacle information acquired in advance, the terrain and obstacle information acquired by the first sensor, and the information on the grapple-type heavy machine and the utility pole. a control device that calculates the work route of the grapple-type heavy machine and controls the operation of the work route of the grapple-type heavy machine;
Prepare.

Specifically, the utility pole construction system of the present disclosure includes:
further comprising a second sensor that acquires the state of the grapple-type heavy equipment;
The control device is characterized in that it controls utility pole construction of the grapple-type heavy machinery based on information on the state of the grapple-type heavy machinery acquired by the second sensor.

Specifically, the utility pole construction system of the present disclosure includes:
Further comprising a third sensor that detects a moving body,
The control device is characterized in that the operation of the heavy grapple machine is stopped based on the information on the moving body acquired by the third sensor and the information on the heavy machine grapple and the utility pole.

Specifically, the control method of the present disclosure includes:
A control method for a grapple-type heavy machine in which a control device grabs a utility pole to carry and work,
a grapple-type heavy machine for performing a desired utility pole construction based on information on the terrain and obstacles acquired in advance, information on the terrain and obstacles acquired by the second sensor, and information on the grapple-type heavy machine and the utility pole; A work route is calculated and the operation of the work route of the grapple-type heavy machine is controlled.

Specifically, the control method of the present disclosure includes:
The control device further controls the work of the grapple-type heavy machine based on the information on the state of the grapple-type heavy machine acquired by the second sensor.

Specifically, the control device of the present disclosure includes:
A control device for a grapple-type heavy machine that grabs a utility pole to carry and work,
A work of the heavy grapple machine for performing a desired utility pole construction based on the terrain and obstacles acquired in advance, the information on the terrain and obstacles acquired by the first sensor, and the information on the heavy machine and the utility pole. Calculate the route and control the operation of the work route of the grapple heavy equipment.

Specifically, the control device of the present disclosure includes:
Further, the work of the grapple-type heavy machine is controlled based on the information on the state of the grapple-type heavy machine acquired by the second sensor.

Specifically, this disclosure includes:
A program for causing a computer to function as any of the control devices described above is included.

The inventions disclosed above can be combined as much as possible.

According to the present disclosure, it is possible to eliminate the need for skill in utility pole construction.

It is a figure explaining the state of the conventional utility pole construction. It is a figure explaining the state of utility pole construction of this indication. It is a figure explaining the structure of the utility pole construction system of this disclosure.

Hereinafter, embodiments of the present disclosure will be described in detail with reference to the drawings. Note that the present disclosure is not limited to the embodiments shown below. These implementation examples are merely illustrative, and the present disclosure can be implemented in various modified and improved forms based on the knowledge of those skilled in the art. In addition, in this specification and the drawings, constituent elements having the same reference numerals are the same as each other.

(Embodiment 1)
FIG. 2 shows the state of utility pole construction according to the present disclosure, and FIG. 3 shows the configuration of the utility pole construction system according to the present disclosure. 2 and 3, 10 is a grapple type heavy machine, 11 is a first sensor, 12 is a second sensor, 13 is a third sensor, 15 is a controller, and 20 is a utility pole.

The utility pole construction system of the present disclosure includes a grapple-type heavy machine 10 that grabs and carries and works on a utility pole 20, a first sensor 11 that acquires information on terrain and obstacles, information on terrain and obstacles that has been acquired in advance, and The work route of the heavy grapple machine 10 for performing the desired utility pole work is calculated based on the information on the topography and obstacles acquired by the sensor 11 of No. 1 and the information on the heavy machine 10 and the utility pole 20, and the grapple machine 10 and a control device that controls the operation of the work path.

The grapple-type heavy machine 10 grabs the utility pole 20 with a grapple to carry and work. The control device 15 acquires information on terrain and obstacles in advance. The first sensor 11 detects terrain and obstacles in real time using a camera, millimeter wave radar, infrared sensor, or the like, and outputs information about the detected terrain and obstacles to the control device 15 . The control device 15 removes noise from the terrain and obstacle information acquired by the first sensor 11 . This is to prevent determination that an obstacle exists in a place where there is no obstacle. Further, since the information on terrain and obstacles in a range greatly exceeding the work route of the grapple-type heavy machine 10 is unnecessary, unnecessary information on terrain and obstacles may be deleted.

The control device 15 converts the terrain and obstacle information into processable data. The control device 15 detects the current position of the grapple heavy machine 10 by comparing the terrain and obstacle information acquired in advance with the terrain and obstacle information acquired by the first sensor 11 . The position of the grapple-type heavy machine 10 may be detected using GPS.

The control device 15 acquires information on the grapple heavy machinery 10 and the utility pole 20 in advance. The control device 15 controls the grapple-type heavy machine based on the terrain and obstacle information acquired in advance, the terrain and obstacle information acquired by the first sensor 11, and the information on the grapple-type heavy machine 10 and the utility pole 20 acquired in advance. 10 calculates the work route for performing the desired utility pole construction. The information on the grapple-type heavy machine 10 includes the position and size of the grapple-type heavy machine 10, the grapple's movable radius, and the like. The information about the utility pole 20 includes the dimensions of the utility pole 20 and the like. The control device 15 avoids obstacles while maintaining a safe range necessary for the grapple-type heavy machine 10 to grab and carry the utility pole 20, and establishes a work route that allows movement from the current position to the desired place for construction of the utility pole. calculate. A path running algorithm, an inverse kinematics algorithm, or the like can be applied to calculate the work path.

When the grapple-type heavy machine 10 transports the utility pole 20, the control device 15 determines that there is a change between the terrain and obstacle information acquired in advance and the terrain and obstacle information acquired by the first sensor 11. In this case, the terrain and obstacle information acquired by the first sensor 11 may be used to correct the terrain and obstacle information acquired in advance.

The control device 15 refers to the information about the grapple-type heavy machine 10 and the utility pole 20, calculates the work route required to safely transport the utility pole 20 while avoiding obstacles on the terrain as angle data, and then calculates the calculated angle. The operation of the grapple-type heavy machine 10 is controlled based on the data. The control device 15 controls the operation of the grapple-type heavy machine 10 so as not to deviate from the calculated work route to the target location while comparing the information on the terrain and obstacles detected by the first sensor 11 with the calculated work route. do. When the grapple-type heavy machine 10 moves to the target location, the control device 15 stops the grapple-type heavy machine 10 .

In the utility pole construction system of the present disclosure, it is possible to eliminate the need for skill for the grapple-type heavy machine 10 to transport the utility pole.

In the description so far, an example in which the grapple-type heavy machine 10 carries a utility pole has been explained. will move without In these cases, the control device 15 does not need information about the utility pole.

(Embodiment 2)
The utility pole construction system of the present disclosure will be described with reference to FIGS. 2 and 3. FIG. The utility pole construction system of the present disclosure further includes a second sensor 12 that acquires the state of the heavy grapple machine 10, and the control device 15 controls the state of the heavy machine 10 based on the information on the state of the heavy grapple machine 10 acquired by the second sensor 12. to control the utility pole construction of the grapple-type heavy machine.

The second sensor 12 acquires information necessary for the grapple-type heavy machinery 10 to work, such as the direction in which the grapple-type heavy machinery 10 is facing, the angle of the grapple, and the gripping force. The second sensor may be of multiple types.

When the grapple-type heavy machine 10 moves to the intended location for constructing, relocating, or removing the utility pole, the control device 15 causes the grapple-type heavy machine 10 to use the grapple based on the information acquired by the second sensor, thereby removing the utility pole. Carry out construction, relocation, and removal of utility poles. The control device 15 controls the grapple operation of the grapple-type heavy machine 10 while referring to the terrain around the target location. An inverse kinematics algorithm can be applied to manipulate the grapple. Based on information from an angle sensor, a force sensor, and a torque sensor as second sensors attached to the grapple, the control device 15 controls the rotation, bending and stretching of the grapple. After the utility pole construction is completed, the control device 15 may move the grapple-type heavy machine 10 to a parking place.

In the power pole construction system of the present disclosure, it is possible to eliminate the need for skill for the grapple-type heavy machine 10 to perform power pole construction.

(Embodiment 3)
The utility pole construction system of the present disclosure will be described with reference to FIGS. 2 and 3. FIG. The utility pole construction system of the present disclosure further includes a third sensor 13 that detects a moving object, and the control device 15 detects information on the moving object acquired by the third sensor 13 and information on the heavy grapple machine 10 and the utility pole 20. and the operation of the grapple-type heavy machine 10 is stopped.

Mobile objects include people, animals, and vehicles. A third sensor 13 detects the size, position, speed, etc. of the moving object. A third sensor 13 is a camera, a millimeter wave radar, an infrared sensor, or the like. The first sensor may also be used. The information of the grapple-type heavy machine 10 includes the size of the grapple-type heavy machine 10, the movable radius of the grapple, and the like. The information about the utility pole 20 includes the dimensions of the utility pole 20 and the like.

When the third sensor detects that a moving object exists within the grapple movable range of the grapple-type heavy machinery 10, the control device 15 stops the transportation and work operations of the grapple-type heavy machinery 10. The control device 15 predicts the movement of the moving object, and even when it determines that the moving object moves within the movable range of the grapple of the heavy machinery 10 within a predetermined period of time, the control device 15 performs the transportation and work operations of the heavy machinery 10. You can stop it.

In the utility pole construction system of the present disclosure, the grapple-type heavy machine 10 can safely perform utility pole construction.

As described above, according to the present disclosure, it is possible to eliminate the need for skill in utility pole construction.

The control device of the present disclosure can also be realized by a computer and a program, and the program can be recorded on a recording medium or provided through a network.

This disclosure can be applied to the communications industry.

10 Grapple heavy machine 11 First sensor 12 Second sensor 13 Third sensor 15 Control device 20 Utility pole 55 Supervisor 56 Operator 57 Worker

Claims (8)

1. A grapple-type heavy machine that grabs and carries and works on utility poles,
   a first sensor that acquires terrain and obstacle information;
   The grapple-type heavy machine for performing a desired utility pole construction based on the terrain and obstacle information acquired in advance, the terrain and obstacle information acquired by the first sensor, and the information on the grapple-type heavy machine and the utility pole. a control device that calculates the work route of the grapple-type heavy machine and controls the operation of the work route of the grapple-type heavy machine;
   A utility pole construction system.
2. further comprising a second sensor that acquires the state of the grapple-type heavy equipment;
   2. The utility pole construction system according to claim 1, wherein the control device controls utility pole construction by the grapple-type heavy machine based on the information on the state of the grapple-type heavy machine acquired by the second sensor.
3. Further comprising a third sensor that detects a moving body,
   3. The control device stops the operation of the heavy grapple machine based on the information about the moving body acquired by a third sensor and the information about the heavy machine grapple and the utility pole. The utility pole construction system described in .
4. A control method for a grapple-type heavy machine that grabs a utility pole to carry and work, comprising:
   The control device performs the desired utility pole construction based on the information on the terrain and obstacles acquired in advance, the information on the terrain and obstacles acquired by the second sensor, and the information on the grapple heavy machine and the utility pole. A control method for calculating a work path of a grapple-type heavy machine and controlling operation of the work path of the grapple-type heavy machine.
5. The control method according to claim 4, wherein the control device further controls the work of the grapple-type heavy machine based on the information on the state of the grapple-type heavy machine acquired by the second sensor.
6. A control device for a grapple-type heavy machine that grabs a utility pole to carry and work,
   A work of the heavy grapple machine for performing a desired utility pole construction based on the terrain and obstacles acquired in advance, the information on the terrain and obstacles acquired by the first sensor, and the information on the heavy machine and the utility pole. A control device that calculates a route and controls operation of the work route of the grapple-type heavy machine.
7. The control device according to claim 6, further comprising controlling the work of the grapple-type heavy machine based on the information on the state of the grapple-type heavy machine acquired by the second sensor.
8. A program for causing a computer to function as the control device according to claim 6 or 7.

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