KR20190063597A - Device for Cutting Acrylic plate for minimizing damage of Acrylic plate and method using the same - Google Patents

Abstract

Disclosed are a device for cutting an acrylic plate, minimizing damage to an acrylic plate generated during a process of fixing and cutting the acrylic plate, and a cutting method for an acrylic plate using the same. According to the present invention, the device for cutting an acrylic plate, minimizing the damage to the acrylic plate, includes: a mounting unit providing a cutting route of the acrylic plate mounted, wherein the acrylic plate is mounted on the mounting unit; a fixing unit installed on the upper side of the mounting unit and fixing the acrylic plate by pressing the acrylic plate mounted, by descending toward the mounting unit; a cutting unit including a cutting blade installed on one side of the fixing unit and cutting the fixed acrylic plate along the cutting route by the cutting blade when the acrylic plate is fixed; and a control unit fixing the acrylic plate when the acrylic plate is mounted and cutting the fixed acrylic plate along the cutting route when the acrylic plate is fixed. The mounting unit includes: a cutting route groove capable of cutting the fixed acrylic plate along the cutting route while the cutting blade is accommodated inside; a damage preventing member having the fixing unit on the acrylic plate mounted and the lower side of a first area pressing the acrylic plate to fix the acrylic plate, wherein the damage preventing member prevents damage to the acrylic plate by absorbing a force generated when the acrylic plate mounted initially comes into contact with the fixing unit, to the lower side; and an accommodation groove accommodating the damage preventing member. Therefore, the device for cutting an acrylic plate can minimize damage to the acrylic plate generated during a process of fixing or cutting the acrylic plate since the acrylic plate is in an available state by being cut.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an acrylic plate cutting apparatus for minimizing breakage of an acrylic plate and a method for cutting an acrylic plate using the same.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an acrylic plate cutting apparatus and an acrylic plate cutting method using the same, and more particularly, to an acrylic plate cutting apparatus capable of minimizing breakage of an acrylic plate which may occur during a process of fixing and cutting an acrylic plate, And a cutting method.

Acrylic is a kind of plastic made by coagulating acrylic acid. The acrylic plate which is solidified in a planar plate form is strong against impact and strong against alkali, and is widely used in mining panels, lighting apparatuses, Is used.

In general, an acrylic plate is manufactured in a plate form and is used after a cutting process. In a general cutting process, an acrylic plate desired to be cut is placed on a cutting device, a mounted acrylic plate is fixed, and a fixed acrylic plate is cut .

However, in the process of cutting the acrylic plate, there is a problem that the acrylic plate is fixed or the acrylic plate is cut, the acrylic plate may be damaged due to excessive physical force transmitted to the acrylic plate or due to warping and flow of the cutting edge do.

Accordingly, it is required to search for a method capable of minimizing breakage of the acrylic plate, which can occur during the process of fixing or cutting the acrylic plate.

Korean Patent No. 10-0936925 entitled " Acrylic plate cutter equipped with a phosphorus "

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a device for absorbing a physical force transmitted to an acrylic plate during a process of fixing or cutting an acrylic plate, The present invention provides an acrylic plate cutting apparatus for cutting an acrylic plate and minimizing breakage of the acrylic plate, and an acrylic plate cutting method using the same.

It is still another object of the present invention to provide an acrylic plate cutting apparatus that minimizes breakage of an acrylic plate so that a process of positioning an acrylic plate at a target position before the acrylic plate is fixed is automated and an acrylic plate cutting method using the same .

According to an aspect of the present invention, there is provided an acrylic plate cutting apparatus for minimizing breakage of an acrylic plate, comprising: a mounting part for mounting an acrylic plate, the mounting part providing a cutting path of the mounted acrylic plate; A fixing unit provided on the upper portion of the mounting portion and lowered toward the mounting portion to press and fix the mounted acrylic plate; A cutting portion provided on one side of the fixing portion, the cutting edge cutting the fixed acrylic plate along the cutting path when the acrylic plate is fixed; And a control unit for fixing the acrylic plate when the acrylic plate is mounted and for allowing the fixed acrylic plate to be cut along the cutting path when the acrylic plate is fixed, A cutting path groove for cutting the fixed acrylic plate along the cutting path; The fixing part is provided below the first area for pressing the fixed acrylic plate and the acrylic plate so that the physical force generated upon the initial contact between the fixed part and the fixed acrylic plate is absorbed to the lower side, A breakage preventing member for preventing the breakage of the acrylic plate; And a receiving groove for receiving the breakage preventing member.

Wherein the mounting portion is received in the receiving groove and is provided on one side of the breakage preventing member so as to move from the position where the breakage prevention member contacts the cut path groove to the lower side of the first region, A pressing member; And a breakage preventing member which is housed in the receiving groove and is connected to the other side of the breakage preventing member and releases the pressing by the pressing member, The breakage preventing member returned to a position in contact with the cut path groove moves the cutting blade along the cutting path and cuts the fixed acrylic plate The bending or flow of the cutting edge is minimized during the cutting process of the acrylic plate to prevent breakage of the fixed acrylic plate and precise cutting of the fixed acrylic plate.

When the acrylic plate is mounted, the mounting plate is brought into close contact with the mounting plate. When the driving force is transmitted in a state in which the mounting plate is in close contact with the mounting plate, A position adjusting member rotated according to the transmitted driving force to adjust a position of the closely adhered acrylic plate; And the second elastic member is provided on the lower side of the position adjusting member and when the position adjusting member is in close contact with the acrylic plate, the position adjusting member is pressed from the lower side toward the adhered acrylic plate, A second elastic member for increasing the frictional force of the second region to which the acrylic plate adheres; As shown in FIG.

Further, an acrylic plate cutting apparatus for minimizing breakage of an acrylic plate according to an embodiment of the present invention is provided inside the second elastic member, and when a load of the mounted acrylic plate is transmitted to the position adjusting member, A first sensing member for sensing a load transferred to the adjustment member and sensing that the acrylic plate is mounted, and a second sensing member provided inside the first elastic member, wherein when the breakage prevention member is moved to the lower side of the first region, And a second sensing member for sensing an electrical connection and sensing that the breakage preventing member has moved to a lower side of the first region.

According to another aspect of the present invention, there is provided an acrylic plate cutting apparatus for minimizing breakage of an acrylic plate, wherein when the mounting of the acrylic plate is detected by the sensing unit, image information including the acrylic plate is collected on the acrylic plate, Wherein the control unit determines the position of the stationary acrylic plate using the collected image information and controls the position adjustment unit The member can be operated.

In addition, the first sensing member may be provided at an upper end, and when a load of the stuck acrylic plate is applied to the position adjusting member and the position adjusting member is moved downward, a load of the position adjusting member moved in the downward direction And the first sensing member can sense that the acrylic plate is mounted when the sensing button is pressed.

And the second sensing member includes a sensing terminal having one side connected to the other side of the breakage preventing member; And a terminal accommodating socket provided on the other side of the sensing terminal and adapted to receive and contact the sensing terminal when the breakage preventing member is positioned below the first area, When the terminal accommodating socket is brought into contact with the terminal accommodating socket, it is possible to detect that the breakage preventing member is located below the first region.

According to another aspect of the present invention, there is provided an acrylic plate cutting method for minimizing breakage of an acrylic plate, the method comprising: mounting an acrylic plate on a mounting portion provided with a cut path groove to provide a cutting path of the acrylic plate; Wherein one side of the breakage preventing member for preventing the breakage of the acrylic plate is pressed by the pressing member to move the breakage preventing member to a lower side of the first region when the acrylic plate is mounted; Wherein when the position of the breakage preventing member is moved, a fixing portion provided on the upper side of the fixing portion descends toward the fixing portion, and a first region of the mounted acrylic plate is pressed to fix the fixed acrylic plate; When the acrylic plate is fixed, pressurization by the pressing member is released, and the breakage preventing member is returned to a position in contact with the cutting path groove by the elasticity of the first elastic member connected to the other side; And cutting the fixed acrylic plate by a cutting edge moved along the cutting path while being accommodated in the cutting path groove when the breakage preventing member is returned.

Thus, the acrylic plate can be cut to be in a usable state, and the breakage of the acrylic plate, which may occur during the process of fixing or cutting the acrylic plate, can be minimized.

Further, the acrylic plate can be accurately and easily positioned at the target position, so that the incidence of defects in the cutting process can be minimized and the production amount can be increased.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of an acrylic plate cutting apparatus for minimizing breakage of an acrylic plate according to an embodiment of the present invention;
FIG. 2 is a block diagram for explaining a configuration of an acrylic plate cutting apparatus for minimizing breakage of an acrylic plate according to an embodiment of the present invention. FIG.
FIG. 3 is a view illustrating a principle of minimizing breakage in the process of fixing an acrylic plate according to an embodiment of the present invention.
4 is a view for explaining the principle of minimizing breakage in the process of cutting an acrylic plate according to an embodiment of the present invention,
5 is a view for explaining the mounting portion of the acrylic plate cutting apparatus in order to minimize breakage of the acrylic plate according to an embodiment of the present invention in more detail;
FIG. 6 is a view for explaining the mounting part and the sensing part of the acrylic plate cutting device in order to minimize breakage of the acrylic plate according to an embodiment of the present invention;
FIG. 7 is a view for explaining the sensing unit of the acrylic plate cutting apparatus in order to minimize breakage of the acrylic plate according to an embodiment of the present invention;
FIG. 8 is a flow chart for explaining an acrylic plate cutting method for minimizing breakage of an acrylic plate according to an embodiment of the present invention;
FIG. 9 is a view for explaining a control part of an acrylic plate cutting apparatus for minimizing breakage of an acrylic plate according to an embodiment of the present invention in more detail;
10 is a flowchart illustrating a method of cutting an acrylic plate according to an exemplary embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. The embodiments described below are provided by way of example so that those skilled in the art will be able to fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals refer to like elements throughout the specification.

FIG. 1 is a schematic view of an acrylic plate cutting apparatus (hereinafter referred to as an 'acrylic plate cutting apparatus') for minimizing breakage of an acrylic plate according to an embodiment of the present invention. FIG. Fig. 2 is a block diagram for explaining a configuration of an acrylic plate cutting apparatus according to an example.

Hereinafter, an acrylic plate cutting apparatus according to the present embodiment will be described with reference to FIGS. 1 and 2. FIG.

The acrylic plate cutting apparatus according to the present embodiment is provided to absorb the physical force transmitted to the acrylic plate during the process of fixing or cutting the acrylic plate so as to cut the acrylic plate and minimize the damage of the acrylic plate.

In addition, the present acrylic plate cutting apparatus is provided to automate the process of placing the acrylic plate at the target position G before the acrylic plate is fixed.

The acrylic plate cutting apparatus includes a mounting part 100, a fixing part 200, a cutting part 300, a sensing part 400, a control part 500, an image collecting part 600 and a monitoring part 700, . ≪ / RTI >

The mounting portion 100 is implemented as a table type such as a mounting table and is provided for mounting an acrylic plate on an upper end thereof. The mounting portion 100 provides a cutting path to the mounted acrylic plate B1, To be moved to the target position G, and to prevent the mounted acrylic plate B1 from being broken during the fixing and cutting, and a more detailed description of the mounting portion 100 will be given with reference to FIGS. 3 to 6 Will be described later.

The fixing part 200 is provided for fixing the acrylic plate B1 which is placed on the mounting part and is provided on the upper side of the mounting part 100. The mounting part 100 is lowered toward the mounting part 100, So that the plate B1 is pressed so that the acrylic plate B1 fixed to the mounting portion is fixed.

The cutting portion 300 is provided for cutting the fixed acrylic plate B2. For this purpose, a cutting edge 310 provided at one side of the fixing portion 200 is provided. When the acrylic plate is fixed, (B2) are cut along the cutting path.

The sensing unit 400 is configured to detect whether the acrylic plate is mounted on the mounting unit 100 and the first area A1 to be pressed by the pressing unit to fix the acrylic plate B1 on which the breakage preventing member 120 is mounted, And a further detailed description of the mounting part 100 will be given later with reference to FIGS.

The control unit 500 is provided for controlling the mounting unit 100, the fixing unit 200, the cutting unit 300, the image collecting unit 600 and the monitoring unit 700. The control unit 500 includes a sensing unit The controller controls the mounting unit 100 so that the mounted acrylic plate B1 is positioned at the predetermined target position G and controls the fixing unit 200 to control the position of the acrylic plate B1, The plate is fixed and the cutting portion 300 is controlled so that the fixed acrylic plate B2 is cut along the cutting path. In addition, a more detailed description of the control portion 500 will be given with reference to FIGS. 9 to 10 Will be described later.

Here, the predetermined target position G is a position set such that a line required for cutting an acrylic plate overlaps with a cutting path of the mounting portion 100. [

The image collecting unit 600 collects an image of the acrylic plate mounted on the upper side, and refers to an image collecting apparatus such as a camera.

Specifically, the image collecting unit 600 may be disposed in the fixing unit 200 or may be installed in a separate support (not shown) to collect image information including the mounted acrylic plate B1 from the upper side have.

When the image capturing unit 600 is provided, the control unit 500 may control the image capturing unit 600 to capture images when the acrylic plate is mounted.

When a plurality of image collecting units 600 are provided, each image collecting unit 600 collects images from different angles and transmits them to the controller 500. The controller 500 converts the received image information into one And the distorted area is corrected in the process of combining the image information into one image information so that the combined image information can be the image information of the viewpoint of the viewed acrylic plate B1 from above.

The monitoring unit 700 may be provided to allow the administrator to visually check whether the acrylic plate is positioned at the target position G by displaying the collected image information.

Specifically, the monitoring unit 700 displays the image information at the time when the acrylic plate is viewed from above, and displays the predetermined target position G and the cutting path together, so that the manager can confirm that the acrylic plate is positioned at the target position G It is easy to judge whether or not it has been performed.

For example, the monitoring unit 700 may be provided with a stop button and a playback button (not shown) for temporarily stopping the automatic operation by the control unit 500, (Not shown), if the manager judges that the acrylic plate is not located at the target position G of the acrylic plate, the automatic operation is temporarily stopped to reposition the acrylic plate and the acrylic plate is moved to the target position G, The automatic operation can be performed again.

FIG. 3 is a view for explaining the principle of minimizing breakage in the process of fixing an acrylic plate according to an embodiment of the present invention, and FIG. 4 is a view illustrating a process of cutting an acrylic plate according to an embodiment of the present invention In order to explain the principle of minimizing the breakage of the substrate.

Hereinafter, with reference to FIGS. 3 to 4, a description will be made of a principle of preventing the mounting portion 100 and the acrylic plate from being damaged in accordance with an embodiment of the present invention.

As described above, the mounting portion 100 is implemented as a table type such as a cradle, and is provided for mounting an acrylic plate at an upper end. The mounting portion 100 provides a cutting path to the mounted acrylic plate B1, B1 to be moved to the predetermined target position G and to prevent the mounted acrylic plate B1 from being broken during the fixing and cutting.

To this end, the mounting portion 100 may include a cutting path groove 110, a breakage preventing member 120, a receiving groove 130, a pressing member 140, and a first elastic member 150.

The cutting path groove 110 is provided to provide a cutting path and to enable the cutting of the fixed acrylic plate B2 along the cutting path provided with the cutting edge 310 housed therein.

The breakage preventive member 120 is lowered to fix the acrylic plate B1 on which the fixing portion 200 is mounted so that the physical force generated in the first region A1 is absorbed downward during the initial contact with the acrylic plate, So that breakage of the plate is minimized.

Specifically, the breakage preventing member 120 is made of a material such as rubber or polyurethane that absorbs the impact, and may be provided to have a surface at the same position as the surface of the mount 100, Or may be provided with a surface at a higher or lower position than the surface of the mount 100.

For example, when the breakage prevention member 120 is made of a highly elastic material such as rubber, the breakage prevention member 120 is provided to have a surface at a higher position than the surface of the mount 100, The breakage preventing member 120 may be configured such that the surface of the breakage preventing member 120 is lowered due to the pressing of the fixing unit 200, So that the permanent force by the fixing part 200 can be dispersed.

For example, when the breakage preventing member 120 is provided to have a lower surface than the surface of the mount 100, a non-contact surface is formed on the lower surface in a state where the mounted acrylic plate B1 is stationary Thus, the physical force generated during the process of fixing the acrylic plate by the fixing portion 200 can be dispersed by the non-contact surface.

The receiving groove 130 may receive the breakage preventing member 120 and may have a predetermined length orthogonal to the cutting path groove 110.

The pressing member 140 pressurizes the breakage preventing member 120 so that the position of the breakage preventing member 120 comes into contact with the cutting path groove 110 from the position Is provided at one side of the breakage prevention member 120 so as to be movable in the direction in which the breakage prevention member 120 is located in order to move to the lower side of the first area A1 as shown in FIG. And can be provided to press the breakage preventing member 120.

When the pressing member 140 is released from the pressing force by the breakage preventing member 120 of the first elastic member 150, the breakage preventing member 120, which is released from the pressing force by the pressing member 140, And may be provided in the form of a resilient spring that is received in the receiving groove 130 and connected to the other side of the breakage prevention member 120 to return to a position in contact with the breakage prevention member 120. [

4 (b), when the breakage preventing member 120 is returned to a position where it contacts the cut path groove 110 by the first elastic member 150, The cutting edge 310 moves along the cutting path and minimizes the bending of the cutting edge 310 or the outflow of the path during the cutting of the fixed acrylic plate B2 so that the fixed acrylic plate B2 is cut It is possible to minimize the damage to the process and to perform the cutting with precision.

FIG. 5 is a view for explaining the mounting part 100 of the acrylic plate cutting apparatus according to the embodiment of the present invention in more detail. FIG. 6 is a perspective view of the mounting part of the acrylic plate cutting apparatus according to the embodiment of the present invention. FIG. 7 is a view for explaining the sensing unit 400 of the acrylic plate cutting apparatus according to an embodiment of the present invention in more detail. FIG. Fig.

Hereinafter, the mounting unit 100 and the sensing unit 400 according to the present embodiment will be described with reference to FIGS.

As described above, the mounting portion 100 is provided to move the mounted acrylic plate B1 to a predetermined target position G. To this end, the mounting portion 100 includes a cutting path groove 110, The position adjusting member 160, the second elastic member 170, the first shaft rotating roller (not shown) in addition to the preventing member 120, the receiving groove 130, the pressing member 140 and the first elastic member 150, , A first driving motor (not shown), a second shaft rotating roller (not shown), and a second driving motor (not shown).

In order to adjust the position of the acrylic plate, the position adjusting member 160 is partially exposed on the upper surface of the mounting portion 100 on which the acrylic plate is mounted, and the unexposed portion is drawn into the mounting portion 100 But may be formed in a rotatable sphere shape.

The second elastic member 170 is provided under the position adjusting member 160 to increase the frictional force of the second region A2 in which the position adjusting member 160 is in tight contact with the acrylic plate, As shown in FIG.

The first shaft roller (not shown) is provided to rotate the position adjusting member 160 in the first axial direction, and the first shaft roller (not shown) The position adjusting member 160 can be rotated in a direction opposite to the direction in which the first shaft rotating roller (not shown) rotates.

The first driving motor (not shown) generates a driving force and transmits a driving force to the first shaft rotating roller (not shown) to rotate the first shaft rotating roller (not shown).

A second shaft roller (not shown) is provided to rotate the position adjusting member 160 in a second axial direction orthogonal to the first axial direction, and a second axial roller (not shown) The position adjusting member 160 can be rotated in a direction opposite to the direction in which the second shaft rotating roller (not shown) rotates.

The second driving motor (not shown) generates a driving force and transmits a driving force to the second shaft rotating roller (not shown) to rotate the second shaft rotating roller (not shown).

Here, the surface of the first axis rotating roller (not shown) and the surface of the second axis rotating roller (not shown) may be provided like a spring, so that the surface frictional force may be increased.

For example, when the acrylic plate is mounted on the upper portion of the mounting portion 100 provided with the position adjusting member 160, a portion of the position adjustment member 160 that is in close contact with the acrylic plate B1, The second area A2 is generated and the position adjusting member 160 is moved to the inside of the mounting part 100 by the load of the mounted acrylic plate B1 and by the elasticity of the second elastic member provided at the lower side, The frictional force generated in the second area A2 can be increased by being pressed toward the acrylic plate B1.

At this time, the second elastic member 170 can absorb the physical force generated on the acrylic plate when the acrylic plate is mounted, and the position adjusting member 160 is made of a material having high elasticity such as rubber, It is possible to absorb the physical force of the time.

When a plurality of the position adjusting members 160 are provided, the plurality of position adjusting members 160 may be individually rotated to position the mounted acrylic plate B1 Can be adjusted.

5, when the stationary acrylic plate B1 is moved to the predetermined target position G, the corner portion of the target position G among the corner portions of the acrylic plate, The position adjusting members 160-1 and 160-3 located on the farther side of the target position G are rotated so that the distance between the corner portion of each acrylic plate and the corner portion of the target position G becomes the same, All the position adjusting members 160-1, 160-2, 160-3, and 160-4 located on the lower side of the acrylic plate may be rotated to position the mounted acrylic plate B1 at the target position G. [

As described above, the sensing unit 400 includes a sensing unit 400 that senses whether or not the acrylic plate is mounted on the mounting unit 100, and a first region that is pressed by the pressing unit for fixing the acrylic plate on which the breakage- For example, the first sensing member 410 and the second sensing member 420. The first sensing member 410 and the second sensing member 420 are disposed on the lower side of the first sensing member A1.

The first sensing member 410 is provided so as to be received in the second elastic member 170 to sense whether the acrylic plate is stuck or not so that the load of the stuck acrylic plate B1 is transmitted to the position adjusting member 160 The user can sense the load transferred to the position adjusting member 160 and sense that the acrylic plate is mounted.

6, the first sensing member 410 is provided with a button-shaped sensing button 411 at its upper end so that the load of the mounted acrylic plate B1 is transmitted to the position adjusting member 160, The sensing button 411 is pressed by the load of the position adjusting member 160 moved in the inward direction of the mounting portion, The control unit 500 senses that the acrylic plate is mounted on the mounting part 100 and generates a first sensing signal and transmits the first sensing signal to the controller 500. [

The second sensing member 420 is provided inside the first elastic member 150 to sense whether the breakage prevention member 120 has moved to the lower side of the first region A1 and the breakage prevention member 120 When it is moved to the lower side of the first area A1, it can sense whether the breakage preventing member 120 has moved to the lower side of the first area A1 by sensing electrical connection by the contact.

7, the second sensing member 420 is provided on the other side of the sensing terminal 421 and the sensing terminal 421, one side of which is connected to the other side of the breakage preventing member 120, A terminal accommodating socket 422 is provided to receive and contact the sensing terminal 421 when the member 120 is positioned below the first region A1 so that the breakage preventing member 120 is disposed in the first region A1 When the sensing terminal 421 and the terminal accommodating socket 422 are brought into contact with each other, the breakage prevention member 120 is positioned below the first region A1 and the second sensing signal is generated To the control unit 500.

FIG. 8 is a flow chart for schematically explaining an acrylic plate cutting method (hereinafter referred to as an 'acrylic plate cutting method') that minimizes breakage of an acrylic plate according to an embodiment of the present invention.

Hereinafter, an acrylic plate cutting method will be schematically described with reference to FIG.

First, the acrylic plate requiring cutting is mounted on the mounting portion 100 (S910). When the acrylic plate is mounted, the fixing portion 200 is lowered to fix the acrylic plate (S920).

When the acrylic plate is fixed, the acrylic plate is cut by the cutting portion 300 (S930), and the process is completed.

FIG. 9 is a diagram for explaining the control unit 500 of the acrylic plate cutting apparatus according to an embodiment of the present invention in more detail. FIG. 10 is a detailed view of the method of cutting an acrylic plate according to an embodiment of the present invention. And FIG.

Hereinafter, the acrylic plate cutting method and the control unit 500 will be described in more detail with reference to FIGS.

First, the acrylic plate is mounted on the mounting portion 100 where the cutting path groove 110 is provided so as to provide a cutting path of the acrylic plate (S1010).

When the acrylic plate is mounted on the mounting portion 100, the first sensing member 410 may sense whether the acrylic plate is mounted on the mounting portion 100 (S1020).

If the mounting of the acrylic plate is not detected, the process is terminated until the acrylic plate is again mounted (S1020-N)

The first sensing member 410 generates a first sensing signal and sends the first sensing signal to the control unit 500. When the control unit 500 senses the mounting of the acrylic plate by the first sensing member 410, When the first sensing signal is received, the controller 700 may control the monitoring unit 700 to collect image information including the acrylic plate B1 mounted on the upper side of the acrylic plate.

When the image information is collected, the control unit 500 causes the target image position G to be matched with the acquired image information, compares the matched target position G with the position of the mounted acrylic plate B1, If it is determined that the mounted acrylic plate B1 is not positioned at the predetermined target position G (S1030-N), it is determined whether the position of the acrylic plate B1 is positioned at the target position G The member 160 may be controlled so that the mounted acrylic plate B1 is positioned at the predetermined target position G (S1040).

9, the control unit 500 divides the collected image information into a plurality of areas, identifies an area not occupied by the acrylic plate among the areas located within the predetermined target position G, It is possible to calculate the position and the number of the area to be adjusted so that the position of the mounted acrylic plate B1 is adjusted so that the mounted acrylic plate B1 is positioned at the predetermined target position G. [

When the controller 500 determines that the mounted acrylic plate B1 is positioned at the predetermined target position G in step S1030-Y, the control unit 500 controls the pressing member 140 so that the pressing member 140 is moved to the break- 120 may be pressed so that the breakage preventing member 120 is positioned below the first area A1 (S1050).

When the breakage preventing member 120 is pressed by the pressing member 140, the second sensing member 420 may sense whether the breakage preventing member 120 is positioned below the first region A1 (S1060) .

The control unit 500 controls the pressing member 140 so that the pressing member 140 is moved to the position where the breakage preventing member 120 is located below the first area A1 The breakage preventing member 120 can be moved to the lower side of the first area A1 again by pressing the first breaker 120 again.

Specifically, if the second sensing signal is not received within a predetermined time after the breakage preventing member 120 is pressed by controlling the pressing member 140, the control unit 500 controls the pressing member 140 so that the pressing force of the pressing member 140 is released And the pressing member 140 can again press the breakage preventing member 120. [

If it is detected that the breakage preventing member 120 is positioned below the first area A1 in step S1060-Y, the control unit 500 controls the fixing unit 200 to descend, The acrylic plate positioned at the target position G may be fixed by the first and second elastic members 200 and 200 (S1070).

When the acrylic plate is fixed, the control unit 500 releases the pressing force by the pressing member 140 so that the breakage preventing member 120 is positioned at a position where the breakage preventing member 120 contacts the cutting path groove 110 by the elasticity of the first elastic member 150 (S1080).

When the breakage preventing member 120 is returned to a position where it contacts the cutting path groove 110, the fixed acrylic plate B2 is cut along the cutting path by the cutting edge 310 (S1090) And is terminated.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100: mounting part 110: cutting path groove
120: breakage preventing member 130: receiving groove
140: pressing member 150: first elastic member
160: position adjusting member 170: second elastic member
200: Fixing portion 300: Cutting portion
310: cutting edge 400: sensing part
410: first sensing member 411: sensing button
420: second sensing member 421: sensing terminal
422: terminal accommodating socket 500:
600: image collecting unit 700:
B1: Mounted acrylic plate B2: Fixed acrylic plate
A1: first region A2: second region
G: Target position

Claims (8)

A mounting part for mounting the acrylic plate, the mounting part providing a cutting path of the mounted acrylic plate;
A fixing unit provided on the upper portion of the mounting portion and lowered toward the mounting portion to press and fix the mounted acrylic plate;
A cutting portion provided on one side of the fixing portion, the cutting edge cutting the fixed acrylic plate along the cutting path when the acrylic plate is fixed; And
And a controller for causing the acrylic plate to be fixed when the acrylic plate is mounted and cutting the fixed acrylic plate along the cutting path when the acrylic plate is fixed,
The mounting portion may include:
A cutting path groove that allows the fixed acrylic plate to be cut along the cutting path while the cutting edge is housed therein;
The fixing portion is provided on the lower side of the first region to press the fixedly mounted acrylic plate so that the physical force generated upon initial contact between the fixed portion and the mounted acrylic plate is absorbed downward, A breakage preventing member for preventing the breakage of the vehicle; And
And an accommodating groove for accommodating the breakage preventing member. The acrylic plate cutting apparatus minimizes breakage of the acrylic plate. The method according to claim 1,
The mounting portion may include:
A pressing member which is accommodated in the receiving groove and provided on one side of the breakage preventing member so as to move the breakage preventing member from a position where the breakage preventing member contacts the cut path groove to a lower side of the first region; And
The breakage preventing member is accommodated in the receiving groove and connected to the other side of the breakage preventing member so that when the pressurization by the pressing member is released, To return to the first elastic member,
The breakage preventing member returned to a position in contact with the cutting path groove,
The cutting edge is moved along the cutting path, and when the fixed acrylic plate is cut, warping or flow of the cutting edge is minimized in the cutting process of the acrylic plate, thereby preventing damage to the fixed acrylic plate And the cutting of the fixed acrylic plate is performed precisely. 3. The method of claim 2,
The mounting portion may include:
Wherein when the acrylic plate is mounted, the mounted acrylic plate is brought into close contact with the acrylic plate, and when the driving force is transmitted in a state in which the acrylic plate is in close contact with the acrylic plate, A position adjusting member which rotates according to the position of the contact member and adjusts the position of the contacted acrylic plate; And
Wherein the position adjusting member is provided at a lower side of the position adjusting member and when the position adjusting member is in close contact with the acrylic plate, the position adjusting member is pressed from the lower side toward the adhered acrylic plate, A second elastic member for increasing the frictional force of the second region; Further comprising: an acrylic plate cutting device for cutting the acrylic plate; The method of claim 3,
A first sensing member provided inside the second elastic member and sensing a load transmitted to the position adjusting member when a load of the mounted acrylic plate is transmitted to the position adjusting member to sense the mounting of the acrylic plate, And a second elastic member provided inside the first elastic member and detecting the electrical connection by the contact when the breakage prevention member is moved to the lower side of the first region to detect that the breakage prevention member is moved to the lower side of the first region And a sensing unit having a first sensing member and a second sensing member. The acrylic plate cutting apparatus minimizes breakage of the acrylic plate. 5. The method of claim 4,
And an image collecting unit for collecting image information including the acrylic plate on the upper side of the acrylic plate when the sensing unit detects the mounting of the acrylic plate,
Wherein,
Determining the position of the stationary acrylic plate using the collected image information, and causing the position adjusting member to operate until the stationary acrylic plate is positioned at a predetermined target position. Minimized acrylic plate cutting device. 5. The method of claim 4,
Wherein the first sensing member comprises:
And a sensing button which is provided at an upper end and is pressed by a load of the position adjusting member moved downward when a load of the mounted acrylic plate is applied to the position adjusting member and the position adjusting member is moved downward, Including,
Wherein the first sensing member comprises:
Wherein when the sensing button is pressed, the acrylic plate is detected as being stuck, and the breakage of the acrylic plate is minimized. 5. The method of claim 4,
Wherein the second sensing member comprises:
A sensing terminal having one side connected to the other side of the breakage prevention member; And
And a terminal accommodating socket provided on the other side of the sensing terminal to receive and contact the sensing terminal when the breakage preventing member is positioned below the first region,
Wherein the first sensing member comprises:
Wherein when the detection terminal is in contact with the terminal accommodating socket, the breakage preventing member is detected as being located below the first region. Placing an acrylic plate on a mounting portion provided with a cut path groove so as to provide a cutting path of the acrylic plate;
Wherein one side of the breakage preventing member for preventing the breakage of the acrylic plate is pressed by the pressing member to move the breakage preventing member to a lower side of the first region when the acrylic plate is mounted;
Wherein when the position of the breakage preventing member is moved, a fixing portion provided on the upper side of the fixing portion descends toward the fixing portion, and a first region of the mounted acrylic plate is pressed to fix the fixed acrylic plate;
When the acrylic plate is fixed, pressurization by the pressing member is released, and the breakage preventing member is returned to a position in contact with the cutting path groove by the elasticity of the first elastic member connected to the other side; And
And cutting the fixed acrylic plate by a cutting edge moved along the cutting path while being accommodated in the cutting path groove when the breakage preventing member is returned. To a minimum.

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