KR20170139713A - Panel installing device using excavator - Google Patents

Abstract

The present invention relates to a construction panel installing device using an excavator. The construction panel installing device using the excavator is able to accurately and rapidly control a posture and a position of a panel for construction by moving and controlling the posture and the position of the panel for construction in various directions. As such, the construction panel installing device using the excavator is able to rapidly and efficiently perform installation work of the panel for construction. To achieve the purpose of the present invention, the construction panel installing device using the excavator includes an attachment to install a panel mounted on the excavator, to transport and install the panel for construction on an outer surface of a building. The attachment to install the panel comprises: a main frame installed to be separated in a push link and an arm of the excavator; a moving frame installed in the main frame having a plurality of vacuum adsorbing units capable of adsorbing the panel for construction in a vacuum; and a multidirectional moving unit moving the moving frame on the main frame in a plurality of directions to control a position and posture of the panel for the construction in the plurality of directions.

Description

[0001] PANEL INSTALLING DEVICE USING EXCAVATOR [0003]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a construction panel installation apparatus using an excavator, and more particularly to a construction panel installation apparatus using an excavator, which can adjust the position and posture of a building panel in various directions, And more particularly, to a construction panel installation apparatus using an excavator that can more efficiently and quickly install a construction panel.

As an outer wall construction method of a building, there is a curtain wall construction method.

The curtain wall method is a technique of forming an outer wall by installing a building panel having a non-bearing wall structure such as a glass plate or a metal plate in an outer space of a framed building. The curtain wall method is advantageous in that it can reduce the weight of the outer wall, .

Such a curtain wall method can be mechanized. As an example of such a mechanized construction, there is a " apparatus for attaching a curtain wall to an excavator " of Korean Patent Laid-Open Publication No. 2004-0100618.

This technique has a structure in which an attachment 1 capable of adsorbing a building panel A is provided on an arm 5 of a small excavator 3 as shown in Fig. After the construction panel A is sucked, the excavator 3 is moved to the place where the installation is desired.

The position and orientation of the building panel A adsorbed to the attachment 1 are adjusted through the movement of the arm 5 of the excavator 3 and the excavator 3, (A) is fixedly attached to the building (B), the installation of the building panel (A) is completed.

However, this conventional technique is disadvantageous in that it is very difficult to adjust the position and attitude of the building panel A because it is a structure in which the excavator 3 must be moved directly to adjust the position and the posture of the building panel A .

In addition, it is difficult to precisely adjust the position and the posture of the building panel A due to such a disadvantage, and it takes a long time to precisely match the position and the posture of the building panel A.

In view of this, a roll rotation device (not shown) is provided on the attachment 1 to roll the building panel A adsorbed on the attachment 1, It can also be adjusted.

However, the above-described method has a disadvantage in that there is a limitation in adjusting the position and attitude of the building panel A because it is a structure for adjusting the position while rolling the building panel A while rolling.

Particularly, in the installation process of the building panel A, it is necessary to adjust the position and attitude while moving the building panel A in various directions.

For example, it is necessary to adjust the position and posture while moving in the up, down, left, right, front, rear direction, pitch direction, rolling direction, yawing direction and the like.

However, there is a problem in that it is difficult to precisely control the position and attitude of the building panel A only by adjusting the rolling direction as in the conventional art.

It is pointed out that, because of such a problem, it still takes a long time to precisely match the position and attitude of the building panel (A).

In addition, since the conventional roll rotating device is of the manual type, it is very difficult to use and has a disadvantage that it is troublesome. Particularly, since the user has to manually rotate the manual knob, there is a problem that a lot of time and manpower are required, and the drawback is that the work time is delayed due to such a problem.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a construction panel installation apparatus using an excavator capable of adjusting the position and posture of a building panel while moving it in various directions.

It is another object of the present invention to provide a construction panel installation apparatus using an excavator that can adjust the position and posture of a building panel in various directions so as to adjust the position and posture of the building panel more precisely and quickly .

It is still another object of the present invention to provide a construction panel installation apparatus using an excavator that can more precisely and quickly adjust the position and posture of a building panel, .

It is another object of the present invention to provide a building panel installation apparatus using an excavator which is adjustable by moving the position and posture of the building panel in various directions, and can be automatically adjusted by a separate driving device without manual operation.

It is another object of the present invention to provide a construction panel that can automatically adjust the position and posture of a building panel through a separate driving device without manual operation, thereby reducing manpower and time required for installation work of the building panel, And an object of the present invention is to provide a construction panel installation apparatus using an excavator which can remarkably improve the convenience of work and the working time.

In order to achieve the above object, there is provided an apparatus for installing a building panel using an excavator, comprising: a panel mounting attachment mounted on an excavator so as to be able to be installed on an outer surface of a building; The attachment for panel installation comprises: a main frame detachably installed on the arm of the excavator and the push link; A movable frame installed on the main frame, the movable frame having a plurality of vacuum adsorption units capable of vacuum-adsorbing the building panel; And a multi-direction moving means for moving the movable frame in a plurality of directions with respect to the main frame so that the position and posture of the building panel can be adjusted in a plurality of directions.

Preferably, the multi-directional movement means is connected to the main frame in a state supporting the movable frame, and moves the movable frame in the upward and downward directions with respect to the main frame while being operated by an applied control signal An upper and lower motion linear motion guide; Wherein the linear motion guide and the movable frame are connected to the main frame in a state of supporting the up and down motion linear motion guides, A left and right motion linear motion guide for moving the linear motion guide; Right motion linear motion guide, the upper and lower motion linear motion guides, and the movable frame, while being operated by an applied control signal, A rolling motion rotating motor for moving the main frame in a rolling direction; And a control unit connected to the main frame in a state of supporting the rolling motion rotating motor, wherein the rolling motion rotating motor, the left and right motion linear motion guides, the upper and lower motion linear motion guides, And a yawing motion rotating motor for moving the movable frame in a yawing direction with respect to the main frame.

The main frame moves forward and backward as the boom cylinder and the arm cylinder of the excavator are operated to adjust the position of the building panel adsorbed on the movable frame in forward and backward directions; The arm cylinder is operated to move the push link, and the construction panel adsorbed on the movable frame is adjusted in the pitch direction while moving up and down about the connection shaft with the arm.

Further, the multi-directional motion means and the vacuum suction unit of the panel mounting attachment are electrically connected to the excavator and controlled by an operating device installed in the cab of the excavator.

And a remote control terminal for inputting control values of the boom cylinder and the arm cylinder of the excavator, the multi-directional motion means of the panel mounting attachment and the vacuum adsorption unit at a remote site; A control unit mounted on the excavator and receiving a control value wirelessly transmitted from the remote control terminal and applying the control value to the excavator, wherein the boom cylinder and the arm cylinder of the excavator, and the multi- And an internal wireless communication module that enables the wireless communication module to be controlled according to a control value transmitted from the remote control terminal.

According to the construction panel installing apparatus using the excavator according to the present invention, since the multi-directional moving means is provided on the attachment and the position and posture of the building panel are adjusted through the structure, the position and the posture of the building panel are moved in various directions There is a controllable effect.

In addition, since the structure and the position of the building panel are adjusted by moving the building panel in various directions, the position and the posture of the building panel can be adjusted more precisely and quickly.

In addition, since the position and posture of the building panel can be adjusted more precisely and quickly, the installation work of the building panel can be performed more efficiently and quickly.

In addition, since the structure and position of the building panel are controlled through the multi-directional motion means, the position and posture of the building panel can be accurately controlled without manual operation.

In addition, since the position and attitude of the building panel can be precisely adjusted without manual operation, it is possible to reduce manpower and time required for the installation work of the building panel, thereby remarkably improving the convenience of the work and the work time have.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a construction and an operation example of a construction panel installation apparatus using a conventional excavator,
2 is a view showing the construction of a construction panel installation apparatus using an excavator according to the present invention,
3 is a side view showing in detail the multi-directional moving means constituting the building panel installation device of the present invention,
4 is a sectional view taken along the line IV-IV in Fig. 3,
5 is an operational view showing an operation example of a building panel installation apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a construction panel installation apparatus using an excavator according to the present invention will be described in detail with reference to the accompanying drawings.

2 and 3, a building panel installation apparatus using an excavator according to the present invention includes a panel mounting attachment 10 installed on an arm 5 of an excavator 3. [

The attachment 10 for a panel mounting (hereinafter abbreviated as "attachment") includes a main frame 12, a movable frame 14 provided on the main frame 12, And a vacuum adsorption unit (16).

The main frame 12 is provided to the arm 5 and the push link 7 of the excavator 3 and serves to fix the attachment 10 to the arm 5 of the excavator 3. [

The main frame 12 moves in the forward and backward directions as the boom 9 and the arm 5 of the excavator 3 are moved. And the position of the building panel (A) adsorbed to the attachment (10) in the forward and backward directions (F).

The main frame 12 moves upward and downward about the connecting shaft 12a with the arm 5 by moving the push link 7 through the arm cylinder 5a of the excavator 3, The main frame 12 moving in this manner positions the attachment 10 and the building panel A adsorbed by the attachment 10 in the pitch direction P.

The movable frame 14 moves in the up and down directions H, left and right directions L, the rolling directions R and the yaw direction Y with respect to the main frame 12, (16).

The vacuum adsorption units 16 are installed on the front surface of the movable frame 14 and serve to vacuum adsorb the building panel A while forming vacuum pressure by the vacuum pump 16a and the vacuum tank 16b .

Thus, it is possible to carry the adsorbed building panel A to the mounting position. Since the structure of the vacuum adsorption plate 16 is well known in the art, a detailed description thereof will be omitted.

3 and 4, the panel mounting apparatus according to the present invention includes a multi-direction moving means 20 for moving the movable frame 14 in multiple directions with respect to the main frame 12 .

The multidirectional motion means 20 is configured to move the movable frame 14 upward and downward H, left and right L, rolling direction R, and yaw direction Y with respect to the main frame 12, An up and down motion linear motion guide 22 and an up and down motion linear motion guide 22 connected to the main frame 12 in a state in which the movable frame 14 is supported, And a left and right motion linear motion guide 24 connected to the main frame 12 in a state in which the left and right motion linear motion guides 24 are supported.

The up and down motion linear motion guides 22 are arranged along the up and down directions. When the power is applied, the movable frame 14 supported in the front part is moved in the upward and downward directions H.

Therefore, the building panel A adsorbed to the vacuum adsorption plate 16 of the movable frame 14 is moved in the upward and downward directions H. This makes it possible to adjust the position and posture of the building panel A in the upward and downward directions (H).

The linear motion guide 24 is disposed along the left and right directions. When the power source is applied, the linear motion guide 22 and the movable frame 14, which are supported on the front portion, , And the rightward direction (L).

Therefore, the building panel A adsorbed to the vacuum adsorption plate 16 of the movable frame 14 is moved in the left and right directions L. Thereby, the position and the posture of the building panel A can be adjusted to the left and right directions L.

3 and 4, the multi-directional motion means 20 includes a rolling motion rotary motor 25 (not shown) connected to the main frame 12 in a state of supporting the left and right motion linear motion guides 24, And a yawing motion rotation motor 27 connected to the main frame 12 in a state of supporting the rolling motion rotation motor 25. [

The rolling motion rotary motor 25 is installed horizontally on the central axis line of the movable frame 14 and the left and right motion linear motion guides 24 are supported on the rotary shaft 25a.

When the power is applied, the rolling and rotating motor 25 rotates the left and right motion linear motion guides 24 supported on the rotating shaft 25a in the rolling direction R. [

The movable linear motion guide 22 supported by the left and right motion linear motion guides 24 and the movable frame 14 supported thereon and the vacuum suction plate 16 of the movable frame 14 And moves the adsorbed building panel A in the rolling direction R. This makes it possible to adjust the position and posture of the building panel A in the rolling direction R. [

The yawing motion rotary motor 27 is installed perpendicularly to the center axis of the movable frame 14 and a rolling motion rotary motor 25 is supported on the rotary shaft 27a. When the electric power is applied, the yawing motion rotary motor 27 rotates the rolling motion rotary motor 25 supported by the rotary shaft 27a in the yaw direction Y.

Therefore, the left and right motion linear motion guides 24 supported by the rolling and rotating motor 25, the upper and lower motion linear motion guides 22 supported thereon, the movable frame 14, and the movable frame 14 The construction panel A adsorbed on the vacuum adsorption panel 16 of the vacuum cleaner 16 is moved in the rolling direction R. This makes it possible to adjust the position and posture of the building panel A in the yaw direction Y. [

With the multi-directional motion means 20 having such a configuration, the movable frame 14 can be moved in multiple directions, particularly in the up and down directions H, left and right directions L, The construction panel A adsorbed to the movable frame 14 is moved upwardly and downwardly (H), leftwardly and rightwardly (L), in the rolling direction (R), and in the yaw direction (Y) Y).

Therefore, the position and posture of the building panel A can be adjusted while moving in various directions. Thereby, the position and posture of the building panel A can be adjusted more precisely and quickly. As a result, the installation work of the building panel A can be performed more efficiently and more quickly.

The linear motion guide 22, the left and right motion linear motion guides 24, the rolling and rotating motor 25 and the yawing and rotating motor 27 of the multi- Is electrically connected to an electronic control unit (ECU) (not shown) of the excavator 3, and each device of the multi-directional motion means 20 connected thereto is controlled by an electronic control unit.

Each device of the multi-directional exercise device 20 controlled by the electronic control device is controlled by an operation device, for example, a joystick (not shown) provided in the cab of the excavator 3. [

Here, the vacuum suction plate 16 of the movable frame 14 can also be controlled by an operating device provided in the cab.

Referring again to FIG. 2, the panel installation apparatus of the present invention further includes an internal wireless communication module 30 electrically connected to the excavator 3.

The internal wireless communication module 30 is mounted on an excavator 3 and has a wireless communication unit 32 and is electrically connected to the electronic control unit of the excavator 3. [ In particular, it is connected to an OBD-II (On-Board Diagnostics-II) connector of an excavator and is configured to be electrically connected to an electronic control device of the excavator 3. [

The OBD-II is a kind of passageway which can arbitrarily control various devices of the excavator 3 by checking various control information of the excavator 3 and by using it, it is possible to control the excavator 3 or to control the excavator 3 3) can be provided. Particularly, through the OBD-II, a "control value signal" can be applied to the excavator 3 and the excavator 3 can be controlled through the applied "control value signal".

The internal wireless communication module 30 having such a configuration is configured such that when a specific " control value " of the excavator 3 and the attachment 10 is wirelessly transmitted from the remote control terminal 40 to be described later, Control value " of the arm cylinder 5a of the attachment 10 and the upper and lower motion linear motion guides 22 of the multi-directional motion means 20 installed in the attachment 10, Control value " of the rotary motion motor 24, the rolling motion rotary motor 25, the yawing motion rotary motor 27 and the suction unit 16 is wirelessly transmitted, , And to apply the received " control value signal " to the electronic control unit of the excavator 3. [

Therefore, the excavator 3 and the attachment 10 can be arbitrarily controlled in accordance with the " control value " wirelessly transmitted from the remote control terminal 40. [

Particularly, the boom cylinder 9a of the excavator 3, the arm cylinder 5a, the upper and lower motion linear motion guides 22 of the attachment 10, the left and right motion linear motion guides 24, Control value " radiated from the remote control terminal 40. The control unit 40 controls the rotation speed of the rotation motor 25, the yawing rotation motor 27, and the suction unit 16. [

Therefore, it is possible to control the hydraulic cylinders 5a, 9a and the attachment 10 of the excavator 3 through the remote control terminal 40. [ This makes it possible to remotely control the position and posture of the building panel A adsorbed to the attachment 10 via the remote control terminal 40. [

On the other hand, the internal wireless communication module 30 is an independent component, and can be individually purchased by the user and mounted on the vehicle.

Also, the internal wireless communication module 30 preferably wirelessly communicates with the remote control terminal 40 through an RF (Radio Frequency) communication method.

In some cases, the internal wireless communication module 30 can wirelessly communicate with the remote control terminal 40 through a communication method such as Wi-Fi, Bluetooth, and the like.

Referring again to FIG. 2, the panel installation apparatus of the present invention further includes a remote control terminal 40.

The remote control terminal 40 is equipped with a wireless communication unit (not shown) for wireless communication with the internal wireless communication module 30. The remote control terminal 40 includes a terminal main body 40a, Selection buttons 42, 44, and 46, and an operation device 48. [

The control device selection buttons 42, 44 and 46 are used to select the device to be controlled and include a hydraulic cylinder control button 42 for selecting the control of the boom cylinder 9a and the arm cylinder 5a, Direction movement means manipulation button 44 for selecting the manipulation of the multidirectional motion means 20 of the attachment 10 and an adsorption half adjustment button 46 for selecting the adjustment of the vacuum absorption plate 16 of the attachment 10 .

The manipulator 48 is constituted by a joystick lever and is configured to input a " control value " for the selected device when any one of the control device selection buttons 42, 44 and 46 is selected do.

Specifically, when the user pushes in the front, rear, left, or right direction, presses and pulls in the up and down directions, and rotates, the "control value" corresponding to the operation direction is input.

For example, as shown in Figs. 2 to 5, when the manipulator 48 is pushed in the forward and backward directions while the hydraulic cylinder manipulation button 42 is selected, the boom cylinder 9a is extended and contracted And the actuator 48 is pushed in the left and right directions to allow the arm cylinder 5a to be extended and contracted.

Therefore, it is possible to adjust the position of the building panel A, which is attracted to the attachment 10, in the forward and backward directions F and the pitch direction P, respectively.

When the manipulator 48 is pushed in the forward and backward directions while the multi-directional motion control button 44 is selected, the upper and lower motion linear motion guides 22 can be moved upward and downward The left and right motion linear motion guides 24 can be moved in the left and right directions by operating the operation device 48 by pushing it in left and right directions.

When the operator 48 is pushed or pulled upward or downward, the rolling and rotating motor 25 can be rotated in the left and right directions, and the head of the controller 48 can be rotated in the left and right directions When rotated, the yawing motion rotary motor 27 is allowed to perform forward and reverse motion.

Therefore, it is possible to adjust the position of the building panel A adsorbed to the attachment 10 in the upward, downward direction H, leftward, rightward L, rolling direction R and yaw direction Y .

When the operation unit 48 is pushed in the forward direction while the suction half-adjustment button 46 is selected, the vacuum adsorption unit 16 can adsorb the building panel A while forming the vacuum pressure, When the manipulating device 48 is pushed in the backward direction, the vacuum pressure of the adsorption plate 16 is extinguished and the adsorbed building panel A can be released.

Therefore, it can be used when transporting the building panel A and when the installation of the building panel A is completed.

The remote control terminal 40 is capable of wireless communication with the internal wireless communication module 30 of the excavator 3 through wireless communication means, that is, RF, Wi-Fi, Bluetooth, Quot; control value " input from the manipulator 48 to the internal wireless communication module 30 of the excavator 3. The " control value "

According to the panel mounting apparatus of the present invention having such a configuration, since the multi-directional moving means 20 is provided to the attachment 10 and the position and posture of the building panel A are adjusted through the multi-directional moving means 20, (A) position and posture can be adjusted while moving in various directions.

Further, since the structure and the position of the building panel A are controlled by moving the building panel A in various directions, the position and the posture of the building panel A can be adjusted more precisely and quickly.

In addition, since the position and posture of the building panel A can be adjusted more precisely and quickly, the installation work of the building panel A can be performed more efficiently and quickly.

Further, since the structure and position of the building panel A are controlled through the multi-directional motion means 20, the position and posture of the building panel A can be accurately controlled without manual operation.

In addition, since the position and the posture of the building panel A can be accurately adjusted without manual operation, the manpower and time required for the installation work of the building panel A can be reduced, Can be improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

3: Excavator 5: Arm
5a: arm cylinder 7: push link
9: Boom 9a: Boom cylinder
10: Attachment for panel installation 12: Main frame
14: movable frame 16: vacuum adsorption panel
20: Multidirectional exercise means
22: Up and down movement Linear Motion Guide
24: Left and right motion Linear motion guide 25: Rolling motion Motor (Motor)
27: Yawing motion rotation motor 30: Internal wireless communication module (Module)
32: wireless communication unit 40: remote control terminal
40a:
42: Hydraulic cylinder control button (Button)
44: Multi-directional exercise device control button 46:
48: Actuator F: forward and backward
P: Pitch direction H: Up and down direction
L: Left and right direction R: Rolling direction
Y: Direction of yoying

Claims (8)

A panel installation apparatus for a building using an excavator including an attachment (10) for panel mounting mounted on an excavator (3) so that the construction panel (A) can be carried on the outer surface of the building (B)
The panel mounting attachment (10)
A main frame 12 detachably installed on the arm 5 of the excavator 3 and the push link 7;
A movable frame (14) having a plurality of vacuum adsorption panels (16) capable of vacuum adsorption of the building panel (A) and installed in the main frame (12);
(20) for moving the movable frame (14) in a plurality of directions with respect to the main frame (12) so that the position and orientation of the building panel (A) can be adjusted in a plurality of directions Wherein the excavator is mounted on the building panel. The method according to claim 1,
The multi-directional movement means (20)
The movable frame 14 is connected to the main frame 12 in a state of supporting the movable frame 14 so that the movable frame 14 is moved in the upward and downward directions H An upper / lower motion linear motion guide 22 for moving the upper / lower motion linear motion guide 22;
The linear motion guide 22 is connected to the main frame 12 while supporting the upper and lower linear motion guides 22. The upper and lower linear motion guides 22 and the movable frames 22, A left and right motion linear motion guide 24 for moving the left and right motion guides 14 in the left and right directions L relative to the main frame 12;
Right motion linear motion guide 24 and the upper and lower linear motion guides 24 are connected to the main frame 12 while being operated by an applied control signal, A rolling motion rotating motor 25 for moving the motion linear motion guide 22 and the movable frame 14 in the rolling direction R with respect to the main frame 12;
The linear motor 25 is connected to the main frame 12 in a state of supporting the rolling motion rotary motor 25 and is driven by a control signal applied to the rolling motion rotary motor 25 and the left and right motion linear motion guides 24 And a yawing motion rotation motor 27 for moving the upper and lower motion linear motion guides 22 and the movable frame 14 in the yawing direction Y with respect to the main frame 12 Wherein the excavator is mounted on the building panel. 3. The method of claim 2,
The main frame (12)
The boom cylinder 9a and the arm cylinder 5a of the excavator 3 are moved in the forward and backward directions and the building panel A adsorbed to the movable frame 14 is moved forward and backward (F);
The arm cylinder 5a is operated to move the push link 7 to move up and down about the connecting shaft 12a with the arm 5, Wherein the position of the building panel (A) is adjusted in the pitch direction (P). The method of claim 3,
The multidirectional moving means 20 and the vacuum suction unit 16 of the panel mounting attachment 10 are electrically connected to the excavator 3 and controlled by an operating device installed in the cab of the excavator 3 Wherein the excavator is mounted on the building panel. 5. The method of claim 4,
It is possible to input control values of the boom cylinder 9a and the arm cylinder 5a of the excavator 3 and the multi-directional motion means 20 of the attachment panel 10 and the vacuum adsorption panel 16 at a remote site A remote control terminal (40);
The control value wirelessly transmitted from the remote control terminal 40 is received in the excavator 3 and applied to the excavator 3 so that the boom cylinder 9a of the excavator 3 and the arm cylinder 5a And an internal wireless communication module (not shown) for allowing the multi-directional motion means 20 and the vacuum suction unit 16 of the panel mounting attachment 10 to be controlled according to the control value sent from the remote control terminal 40 30) for mounting the building panel (1). 5. The method of claim 4,
The remote control terminal (40)
A hydraulic cylinder manipulation button 42 for selecting the manipulation of the boom cylinder 9a and the arm cylinder 5a of the excavator 3;
A multi-directional motion means manipulation button 44 for selecting the multi-directional motion means 20 manipulation of the panel attachment attachment 10;
An adsorption counter adjustment button 46 for selecting the adjustment of the vacuum adsorption counter 16 of the panel mounting attachment 10;
When one of the hydraulic cylinder control button 42, the multi-directional motion control button 44, and the adsorption counter adjustment button 46 is selected, a control value for the selected device can be directly input And an operation unit (48) installed on the side of the excavator. The method according to claim 6,
The manipulator 48 is a joystick lever;
The joystick lever
When the user pushes the hydraulic cylinder control button 42 in the forward and backward directions while the hydraulic cylinder control button 42 is selected, the boom cylinder 9a can be extended and contracted, Allowing the cylinder 5a to stretch and contract;
When the user manipulates the front and rear linear motion guides 22 in the forward and backward directions while the multi-directional motion control button 44 is selected, the upper and lower motion linear motion guides 22 can move upward and downward, Right direction, the left and right motion linear motion guides 24 can be moved in the left and right directions, and when the rolling and rotating motor 25 is pushed or pulled upward or downward, And when the head unit is rotated in the left and right directions, the yawing motion rotating motor 27 can be rotated in the forward and reverse directions;
When the user pushes in the forward direction in the state that the adsorption counter adjustment button 46 is selected, the vacuum adsorption panel 16 can adsorb the building panel A while forming the vacuum pressure, Wherein when the pushing operation is performed, the vacuum pressure of the adsorption unit (16) is extinguished and the adsorbed building panel (A) can be released. 8. The method according to any one of claims 5 to 7,
The remote control terminal (40) and the internal wireless communication module (30)
Wherein the wireless communication unit is wirelessly connected to each other through a communication method of RF (Radio Frequency), Wi-Fi, and Bluetooth.

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