KR102617979B1 - Operating method of packaging box processing system - Google Patents

Abstract

The present invention provides a method of operating a packaging box processing system. The method of operating the packaging box processing system includes the steps of inserting an object into the body of the processing device; And a processing unit linked to the body, processing the object mounted on the body, wherein the processing unit processes the object through a driving unit provided on the body and a reciprocating movement in the drive. Comprising a processing unit, the processing unit includes a bending body that presses the object for a folding operation of the object, and a cutting body that cuts the object in order to set the standard of the object, and the processing unit includes the driving unit. is provided in a plurality of dual types and performs processing on the object.

Description

{OPERATING METHOD OF PACKAGING BOX PROCESSING SYSTEM}

The present invention relates to a method of operating a packaging box processing system.

Packaging boxes require processing into various specifications depending on the intended purpose. For example, processing for cutting the target part and bending the folded part according to the standard is performed. For this processing, processing equipment is provided at the site. Such processing equipment needs to improve workability through efficient processing. In addition, such processing equipment occupies a certain amount of space at the processing site, so efficient setup is required. In addition, optimized storage and processing of the packaging box itself are also complexly required.
[Prior art]
Korean Patent No. 10-2444422 (announced on September 21, 2022)

The problem that the present invention aims to solve is to promote rapid and stable processing of packaging boxes.

In addition, quality control of packaging boxes is possible through effective monitoring of processing equipment for processing packaging boxes.

In addition, while operating a large number of packaging box processing equipment, it is possible to change the position to a suitable location for monitoring, thereby enabling an optimized setup between packaging boxes, packaging box processing equipment, and monitoring means.

In addition, in the processing of packaging boxes, the object, packaging boxes, can be stored and provided in a state optimized for processing in response to various factors.

In particular, it is intended to suppress and eliminate requirements that can act as negative factors on packaging boxes, such as moisture caused by climatic factors.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

A method of operating a packaging box processing system according to an aspect of the present invention for achieving the above task includes the steps of inserting an object into the body of the processing device; And a processing unit linked to the body, processing the object mounted on the body, wherein the processing unit processes the object through a driving unit provided on the body and a reciprocating movement in the drive. Comprising a processing unit, the processing unit includes a bending body that presses the object for a folding operation of the object, and a cutting body that cuts the object in order to set the standard of the object, and the processing unit includes the driving unit. is provided in a plurality of dual types and performs processing on the object.

According to the present invention as described above, one or more of the following effects are achieved.

The present invention can promote rapid and stable processing of packaging boxes.

In addition, quality control of packaging boxes is possible through effective monitoring of processing equipment for processing packaging boxes.

In addition, while operating a large number of packaging box processing equipment, the position can be varied to suit monitoring, allowing for an optimized setup between packaging boxes, packaging box processing equipment, and monitoring means.

In addition, in the processing of packaging boxes, the packaging boxes as objects can be stored and provided in a state optimized for processing in response to various factors.

In particular, it is possible to suppress and eliminate requirements that may act as negative factors on packaging boxes, such as moisture due to climatic factors.

Figure 1 is a diagram showing a packaging box processing system according to an embodiment of the present invention.
FIG. 2 is a diagram showing the configuration according to FIG. 1.
Figure 3 is a diagram showing a method of operating a packaging box processing system according to another embodiment of the present invention.
Figure 4 is a diagram showing the operating state according to Figure 3.
Figures 5 and 6 are diagrams showing the configuration according to Figure 3.
Figure 7 is a diagram sequentially showing a method of operating a packaging box processing system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms. The present embodiments are merely intended to ensure that the disclosure of the present invention is complete and to provide common knowledge in the technical field to which the present invention pertains. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Referring to FIGS. 1 and 2, the packaging box processing system according to an embodiment of the present invention includes a packaging box processing device (hereinafter referred to as “apparatus 100”). The device 100 includes a body 110 and a processing unit 120.

In addition, the processing unit 120 includes a driving unit 121 and a processing unit 122. The processing unit 122 includes a bending body 1221 and a cutting body 1222. The object 1 is inserted into the body 110 of the device 100.

The processing unit 120 of the device 100 is linked to the body 110. The processing unit 120 processes the object 1 mounted on the body 110. The driving unit 121 of the processing unit 120 is provided in the body 110 and provides driving force. The processing unit 122 of the processing unit 120 processes the object 1 through reciprocating movement in the driving unit 121.

Here, the bent body 1221 of the processing unit 122 presses the object 1 to fold the object 1. The cutting body 1222 of the processing unit 122 cuts the object 1 to set the standard of the object 1.

Referring to Figures 3 and 4, the device 100 according to another embodiment of the present invention is based on the above-described configuration, but includes a panel body 310, a first mounting body 140, a second mounting body 150, and It further includes a third holding body 160.

In addition, the processing unit 122 is provided as a plurality of dual types in the driving unit 121 and performs processing on the object 1. The first holding body 140 is provided on the upper part of the panel body 310 to be able to slide left and right.

The second holding body 150 is provided on the upper part of the panel body 310 to be able to slide left and right. The third mounting body 160 is provided to be positioned between the first mounting body 140 and the second mounting body 150 in the panel body 310.

In addition, the first processing device 101 corresponding to one of the processing devices 100 is mounted on the first mounting body 140. In addition, the first mounting body 140 is provided with a first forward and backward moving body 145 that moves the first processing device 101 forward and backward.

The second processing device 102, which is another one of the processing devices 100, is mounted on the second mounting body 150. The second mounting body 150 is provided with a second forward and backward moving body 155 that moves the second processing device 102 forward and backward. The third mounting body 160 is located in a preset first position area.

In addition, the third holding body 160 is provided with a first monitoring unit 165 for monitoring the processing of the object 1 by the first processing device 101.

The third holding body 160 is located in a preset second position area and is provided with a second monitoring unit 170 for photographing and monitoring the processing of the object 1 by the second processing device 102. do.

In addition, the first forward and backward moving body 145 performs a first position movement operation to move the first processing device 101 so that it is positioned within the first position area. When the first forward and backward moving body 145 is located at the upper part of the first processing device 101, it is fixed by pressing the outer circumference of the first processing device 101 with a plurality of first fixtures on the upper part, and 1 Prevents movement of the first processing device 101 due to position movement.

The second forward and backward moving body 155 performs a second position movement operation to move the second processing device 102 so that it is positioned within the second position area. When the second processing device 102 is located at the top, the second forward and backward moving body 155 presses and fixes the outer circumference of the second processing device 102 with a plurality of second fixtures at the top, and the second processing device 102 is positioned at the top. 2 Prevents movement of the second processing device 102 due to position movement.

The third mounting body 160 is connected to the first mounting body 140 through a first connecting portion 161, and is connected to the second mounting body 150 through a second connecting portion 162. The third mounting body 160 pulls or pushes the first mounting body 140 and the second mounting body 150 to the left and right using the first connecting portion 161 and the second connecting portion 162, The first mounting body 140 and the second mounting body 150 are positioned within the first positioning area and the second positioning area, respectively.

Here, the panel body 310 is provided with a first projecting body 315 that appears in the first gap space between the first mounting body and the third mounting body 160. The panel body 310 is provided with a second projecting body 320 that appears in the second gap space between the second mounting body and the third mounting body 160.

The panel body 310 limits the proximity of the first mounting body 140 and the third mounting body 160 by the first projecting body 315. The first projecting body 315 and the second projecting body 320 are made of a material with lower rigidity than the first mounting body 140 to the third mounting body 160.

Referring to FIGS. 5 and 6, the system includes a storage structure for optimizing the condition of the object 1 before it is input into the processing device 100.

The storage structure includes a first driving unit 410 to a fourth driving unit 440, a first wall panel 450 to a fourth wall panel 480, an emergency drive body 510, and a first connection bridge 511. It includes the third to fourth connection bridges 514.

In addition, the first driving unit 410 is located on one side. The second driving unit 420 is positioned adjacent to the first driving unit 410. The third driving unit 430 is located on one side.

The fourth driving unit 440 is positioned adjacent to the third driving unit 430. The first wall panel 450 is provided to be slidable between the first driving unit 410 and the second driving unit 420.

In addition, the third wall panel 470 is provided to be slidable between the first drive unit 410 and the third drive unit 430. The fourth wall panel 480 is provided to be slidable between the third drive unit 430 and the fourth drive unit 440.

The fourth wall panel 480 is provided to be slidable between the second driving unit 420 and the fourth driving unit 440. The first wall panel 450 to the fourth wall panel 480 form an internal space (S), and the object (1) is loaded and stored in the internal space (S).

Here, the storage structure performs processing preparation prior to the processing of the object (1) by setting temperature conditions based on heating or cooling for the object (1) located in the internal space (S).

The storage structure has a first mode in which the storage quantity of the object 1 is increased through step-by-step expansion of the internal space S, and the reduced internal space through step-by-step reduction of the internal space S. It is possible to operate in a second mode in which the temperature condition setting of the object 1 according to S) is accelerated.

In addition, the first wall panel 450 is provided with a plurality of first heating modules 451, the second wall panel is provided with a plurality of second heating modules 461, and the third wall panel 470 is provided with a plurality of first cooling modules 471, and the fourth wall panel 480 is provided with a plurality of second cooling modules 481.

The storage structure can operate in the first to fourth reduction modes. In the first reduction mode, the first wall panel 450 moves toward the internal space (S), thereby reducing the internal space (S).

Here, in the second reduction mode, after the first reduction mode, the second wall panel moves toward the internal space (S), thereby reducing the internal space (S). In the third reduction mode, after the second reduction mode, the third wall panel 470 moves toward the internal space (S), thereby reducing the internal space (S).

In the fourth reduction mode, after the third reduction mode, the fourth wall panel 480 moves toward the internal space (S), thereby reducing the internal space (S). The first heating module 451, the second heating module 461, the first cooling module 471, and the second cooling module 481 are operated in at least one of the first reduced mode to the fourth reduced mode. It operates in one mode.

In addition, the emergency drive body 510 is located in the internal space (S) and provides driving force in an emergency. The first connection bridge 511 is connected to the emergency drive body 510 and the first wall panel 450.

The second connection bridge is connected between the emergency drive body 510 and the second wall panel 460. The third connection bridge is connected to the emergency drive body 510 and the third wall panel 470.

The fourth connection bridge 514 is connected to the emergency drive body 510 and the fourth wall panel 480. The first connection bridge 511 to the fourth connection bridge 514 performs a variable appearance/disappearance operation corresponding to the first reduction mode to the fourth reduction mode.

The first connection bridge 511 to the fourth connection bridge 514 can operate when an abnormality occurs in any one of the first reduction mode to the fourth reduction mode and the operation is stopped. .

For example, an outward forward movement from the emergency drive body 510 is performed to release the first reduction mode to the fourth reduction mode and return the first wall panel 450 to the fourth wall panel 480 to its original state. An operation of forcibly pushing out the first wall panel 450 to the fourth wall panel 480 is performed.

Referring to FIG. 7, in the packaging box processing system operation method (s100) according to an embodiment of the present invention, the object (1) is stored in a storage structure to optimize its condition before being input into the processing device (100) (S110). . In addition, the object 1 is introduced into the body 110 of the processing device 100 (S120).

In addition, the processing unit 120 linked to the body 110 processes the object 1 mounted on the body 110 (S130). The processing unit 120 includes a driving unit 121 provided on the body 110, and a processing unit 122 that processes the object 1 through reciprocating movement in the driving.

The processing unit 122 includes a bending body 1221 that presses the object 1 for the folding operation of the object 1, and a bending body 1221 that presses the object 1 to set the standard of the object 1. It includes a cutting body 1222 for cutting. The processing unit 122 is provided in a plurality of dual types in the driving unit 121 and performs processing on the object 1.

The driving method of the physical components described above involves forward and backward movement and rotational movement based on motors, actuators, etc., and the shape and size of each component can be selected and provided in various ways depending on the installation site and the materials to be implemented. . The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached patent claims.

110: body
120: processing unit
121: driving unit
122: processing unit
1221: bending body
1222: Cutting font

Claims (5)

As a method of operating a packaging box processing system,
Injecting an object into the body of the processing device; and
A processing unit linked to the body includes processing the object mounted on the body,
The processing unit includes a driving unit provided on the body and a processing unit that processes the object through reciprocating movement in the driving,
The processing unit includes a bending body that presses the object in order to fold the object, and a cutting body that cuts the object in order to set the standard of the object,
The processing unit is provided with a plurality of dual types in the driving unit and performs processing on the object,
The packaging system is,
A panel body on which the body is mounted, a first mounting body provided on an upper part of the panel body to be able to slide left and right, a second mounting body provided on an upper part of the panel body so as to be able to slide left and right, and the panel body It further includes a third mounting body, which is provided to be positioned between the first mounting body and the second mounting body,
The first mounting body holds a first processing device, which is a processing device corresponding to the processing device, and is provided with a first forward and backward moving body for moving the first processing device back and forth,
The second mounting body holds a second processing device corresponding to a processing device different from the processing device, and is provided with a second forward and backward moving body that moves the second processing device back and forth,
The third mounting body is,
A first monitoring unit located in a preset first position area and configured to photograph and monitor processing of the object by the first processing device;
It is located in a preset second location area and is provided with a second monitoring unit to photograph and monitor processing of the object by the second processing device,
The first forward and backward moving body,
A first position movement operation is performed to move the first processing device so that it is located within the first position area, and when the first processing device is located at the top, the first processing device is connected to a plurality of first fixtures at the top. Pressing and fixing the outer circumferential portion of and preventing movement of the first processing device due to the first position movement,
The third mounting body is,
It is connected to the first mounting body through a first connection part, and is connected to the second mounting body through a second connection part,
Pulling or pushing the first mounting body and the second mounting body to the left and right using the first connecting portion and the second connecting portion,
The first mounting body and the second mounting body are positioned within the first positioning area and the second positioning area, respectively,
The panel body is,
A first projecting body is provided that appears in the first gap space between the first mounting body and the third mounting body,
A second projecting body is provided that appears in a second gap space between the second mounting body and the third mounting body,
Limiting the proximity of the first mounting body and the third mounting body by the first appearing body,
The first protruding body and the second protruding body are made of a material with lower rigidity than the first to third protruding bodies,
It further includes the step of storing the object in a storage structure to optimize its condition before it is input into the processing device,
The storage structure is,
A first driving unit on one side, a second driving unit adjacent to the first driving unit,
A third driving unit on one side, a fourth driving unit adjacent to the third driving unit,
A first wall panel slidably provided between the first drive unit and the second drive unit,
A fourth wall panel slidably provided between the third drive unit and the fourth drive unit,
A third wall panel slidably provided between the first drive unit and the third drive unit,
It includes a fourth wall panel that is slidably provided between the second drive unit and the fourth drive unit,
The first to fourth wall panels form an internal space, and the object is loaded and stored in the internal space,
The storage structure is,
By setting temperature conditions based on heating or cooling for the object located in the internal space, processing preparation prior to the processing of the object is performed.
A first mode in which the storage quantity of the object is increased through step-by-step expansion of the internal space,
Through step-by-step reduction of the internal space, it is possible to operate in a second mode in which the setting of the temperature condition of the object according to the reduced internal space is accelerated,
The first wall panel is provided with a plurality of first heating modules, and the second wall panel is provided with a plurality of second heating modules,
The third wall panel is provided with a plurality of first cooling modules, and the fourth wall panel is provided with a plurality of second cooling modules,
The storage structure is,
A first reduction mode in which the first wall panel moves toward the interior space to reduce the interior space,
After the first reduction mode, a second reduction mode in which the second wall panel moves toward the interior space to reduce the interior space,
After the second reduction mode, a third reduction mode in which the third wall panel moves toward the interior space to reduce the interior space,
After the third reduction mode, the fourth wall panel moves toward the interior space, and a fourth reduction mode is operated to reduce the interior space,
The first heating module, the second heating module, the first cooling module, and the second cooling module are operated in at least one mode among the first reduced mode to the fourth reduced mode,
An emergency drive body located in the interior space and providing driving force in an emergency, a first connection bridge connected between the emergency drive body and the first wall channel, and a second connection bridge connected between the emergency drive body and the second wall channel. It further includes a connection bridge, a third connection bridge connected between the emergency drive body and the third wall channel, and a fourth connection bridge connected between the emergency drive body and the fourth wall channel,
The first to fourth connection bridges perform a variable appearance/disappearance operation in response to the first reduction mode to the fourth reduction mode,
The first to fourth connection bridges are,
If an error occurs in any one of the first to fourth reduced modes and the operation is stopped,
The first to fourth reduction modes are released, and a forward motion is performed from the emergency drive body to the outside to return the first to fourth wall panels to their original state, thereby reducing the first to fourth wall panels. A method of operating a packaging box processing system that forcibly pushes out the fourth wall panel. delete delete delete delete