KR102179694B1 - supply system using carton container - Google Patents

Abstract

The present invention provides a supply system using a carton container to improve the suction efficiency of a conveyed article. The supply system using a carton container comprises: a carton container including a carton box wherein a side thereof enclosing the outer edge is extended to form an accommodation space therein and an upper portion thereof is opened, a base plate arranged in the carton box, an outer liner vertically opened therethrough, wherein the lower edge thereof is fixed on the outside of the upper surface of the base plate to be extended upward, and an inner liner arranged in the outer liner, wherein a conveyed article including a high-purity resin is stored therein, a lower portion thereof is fixed at the center of the upper surface of the base plate to be extended upward, and an upper portion thereof is opened; and a suction supply device including a suction body provided on an upper portion of the inner liner and arranged and fixed on the outer surface thereof to enclose the opened upper portion of the inner liner, a suction pipe arranged in the suction body and selectively lowered into the inner liner to vacuum-suction the conveyed article, and a lifting suction means to selectively lift and control the suction pipe to promote the vacuum suction of the conveyed article.

Description

Supply system using carton container {supply system using carton container}

The present invention relates to a supply system using a carton container, and more particularly, to a supply system using a carton container to improve the suction efficiency of the conveyed material.

In general, carton containers are used to package high-tech materials such as high-purity resin chips and high-functional engineering plastics. Such a carton container is easily transported by being seated on the upper part of a pallet for transport.

Here, the high-tech material must be protected from exposure to external environments such as foreign substances, moisture gas, sunlight, etc. during packaging to be maintained without modification of components, so that a quality product can be manufactured during processing.

In particular, polyolefins and polyolefin elastomers (POEs) to which metallocene catalyst technology is applied are used to manufacture solar panel films and vehicle console boxes, so that exposure to the external environment should be blocked during packaging.

This carton container was supplied to the manufacturing apparatus by vacuum suction in a state where the advanced material was stored inside and one side was connected to a suction device.

However, the conventional carton container has a problem in that the supply of the high-tech material is not smoothly performed as the protective material of the carton container that protects the high-tech material flows and is adsorbed to the inlet end of the suction device when the suction device vacuums.

In particular, in the process of vacuum suction by placing the inlet end of the suction device opposite to the advanced material stored under the protective material of the carton container, the protective material is adsorbed to the inlet end of the suction device. There was a problem that it was difficult to supply completely.

Even, as the protective material of the carton container is damaged by the vacuum suction force by the suction device, there is a serious problem that high-tech materials may be exposed to the outside.

Korean Patent Registration No. 10-0777939

In order to solve the above problems, the present invention has as a solution to provide a supply system using a carton container in which the suction efficiency of the transported material is improved.

In order to solve the above problems, the present invention provides a carton box with an open upper side having a side portion extending therein to form an accommodation space inside, a base plate disposed inside the carton box, and an upper surface of the base plate A lower rim is fixed on the outer side, an outer liner extending upward and opening through in the vertical direction, and an outer liner disposed inside the outer liner, but a transport material containing high-purity resin is stored therein, and the lower part is at the center of the upper surface of the base plate. A carton container that is fixed and extends upward and includes an inner liner having an upper opening; And a suction body provided on the upper part of the inner liner and disposed so that the open upper part of the inner liner is enclosed and fixed on the outer surface, and a suction body disposed inside the suction body and selectively lowered to the inside of the inner liner to transfer the A suction pipe provided to vacuum suction water, and a suction supply device including a lifting suction means for selectively lifting and lowering the suction pipe to promote vacuum suction of the conveyed material, wherein the suction pipe is lowered into the interior of the inner liner. In order to induce the formation of conical cross-sections in which the lower portion of the inner liner is obliquely extended to both sides in the width direction by vacuum suction when the conveyed material is vacuum sucked, the central portion of the upper surface of the base plate The base plate is attached in a point-contact state, and a plurality of attachment areas are formed on the outer side of the upper surface spaced radially outwardly from the center of the base plate, and each corner of the lower rim is attached to the base plate. It is attached to the area, and when the suction pipe vacuums the conveyed material, each edge of the outer liner attached to the attachment area is disposed to be spaced apart from the lower part of the inner liner, and the upper central part of the base plate and the attachment area are hot As they are melted and melted and then hardened, they are thermally bonded to the outer liner and the inner liner, respectively, and the inner liner has a margin portion disposed in a folded state of the inner liner so as to spread to both sides in the front and rear direction, and the inner liner A close contact fixing means interposed on the outer surface of the inner liner so as to cover closely between the opened upper inner surface of and the outer surface of the suction body, and a close contact cover by pressing and tightening between the opened upper inner surface of the outer liner and the outer surface of the suction body. It further includes an auxiliary fixing means interposed on the outer surface of the outer liner so as to be extended, extending radially outward along the circumferential direction toward the lower side so that the upper end of the suction body and the close contact fixing means and the inner liner are engaged. A supply system using a carton container characterized in that a locking part is formed. to provide.

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Through the above solution means, the present invention provides the following effects.

First, the opened upper end of the inner liner in which the transported object is stored is in close contact with the suction body of the suction supply device, encloses the inner liner, and the outer liner is arranged to double protect the transported object from external foreign matter and moisture. Water can be supplied safely.

Second, as the center of the bottom surface of the inner liner is attached and fixed to the center of the upper surface of the base plate, the lower part of the inner liner is induced to form a conical cross-sectional shape by the vacuum suction of the suction pipe, thereby blocking adsorption between the suction pipe and the inner liner. External exposure of the transported material is prevented in advance, so safety in use can be remarkably improved.

Third, as the bottom of the inner liner induces the formation of a conical cross-section by the vacuum suction input of the suction pipe provided in the suction supply device, the transported material stored inside the inner liner is automatically collected in the central part during the vacuum suction process. Since the whole can be completely supplied through the suction pipe, supply efficiency can be remarkably improved.

Fourth, when the suction pipe vacuums the transported object, each edge of the outer liner attached to the attachment area formed at multiple locations on the outer side of the upper surface of the base plate is firmly fixed, so that the lower part of the inner liner is deformed by vacuum suction. Double protection can minimize exposure to foreign substances and moisture.

Fifth, the open upper part of the inner liner is tightly covered by the adhesion fixing means, and as the lower end of the suction body to be fixed expands to the outside, the adhesion fixing means and the upper part of the inner liner are jammed to minimize separation. Pollution can be minimized even when supplied from the inside to the outside through a suction pipe.

1 is a perspective view showing a supply system using a carton container according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing the carton container in the supply system using the carton container according to an embodiment of the present invention.
3 and 4 are exemplary diagrams showing a supply system using a carton container according to an embodiment of the present invention.
5 is a cross-sectional view of an inner liner in a supply system using a carton container according to an embodiment of the present invention as viewed from the top.

Hereinafter, a carton container and a supply system using the same according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a supply system using a carton container according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a carton container in the supply system using the carton container according to an embodiment of the present invention, Figure 3 And FIG. 4 is an exemplary usage diagram showing a supply system using a carton container according to an embodiment of the present invention, and FIG. 5 is a cross-sectional view of an inner liner from a top surface in a supply system using a carton container according to an embodiment of the present invention. It is an exemplary diagram.

As shown in FIGS. 1 to 5, a supply system using a carton container according to an embodiment of the present invention includes a carton container 100 and a suction supply device 200.

Here, the carton container 100 is a device provided to store and transport a conveyed material 1 including a high purity resin, a high functional engineering plastic, and a polyolefin elastomer (POE). In addition, the suction supply device 200 is a device provided to vacuum suction the conveyed material 1 stored in the carton container 100 and convey it to the manufacturing device.

In detail, the carton container 100 includes a carton box 20, a base plate 30, an outer liner 40, and an inner liner 50.

In addition, referring to FIGS. 1 to 2, the carton container 100 may further include a pallet 10 for transport provided as a flat plate cross section having a predetermined area. In this case, the pallet 10 is made of wood, and may be provided in a grid shape in which a plurality of legs cross each other in a longitudinal direction and a transverse direction.

In addition, the carton box 20 has a side portion surrounding the outer edge extending therein to form an accommodation space 21 therein, but the upper portion is preferably opened. At this time, the carton box 20 may have a lower surface portion disposed on the upper surface of the pallet 10, and the side portion protrudes upward from an outer end of the lower surface portion to form the receiving space 21 therein.

In addition, the upper portion of the carton box 20 is preferably opened so that the base plate 30, the outer liner 40, and the inner liner 50 are accommodated in the receiving space 21.

Here, the outer surface of the carton box 20 may be formed in a cross-sectional contour having a polygonal shape. For example, the carton box 20 may be formed in an octagonal cross-sectional contour. In addition, the carton box 20 may be made of paper or synthetic resin, but is not limited thereto.

Further, referring to FIGS. 2 to 4, the base plate 30 is preferably provided as a flat plate and disposed at a position corresponding to the inner bottom surface or the inner bottom of the carton box 20.

Here, the base plate 30 may be provided as a Danpura material, but is not limited thereto. In addition, the base plate 30 may be provided with a diameter less than the diameter of the carton box 20 so as to be seated on the inner bottom surface of the carton box 20, and may have a circular cross section.

In addition, it is preferable that the central portion of the bottom surface of the inner liner 50 is attached and fixed to the central portion 31 of the upper surface of the base plate 30.

In addition, the base plate 30 has an attachment area 32, 33, 34 on the outer side of the upper surface spaced radially outward from the central portion 31 where the bottom surface of the inner liner 50 is gradually touched at a predetermined distance. It is preferable that a plurality of, 35) are formed. In this case, a case in which four attachment regions 32, 33, 34, and 35 are formed in one embodiment of the present invention is illustrated and described as an example, but is not limited thereto.

At this time, the upper central portion 31 of the base plate 30 and the attachment regions 32, 33, 34, and 35 are not formed through, but are hot-melted and melted and then cured. It is preferable to understand that (40) and the inner liner 50 are thermally bonded.

Further, referring to FIGS. 2 to 4, it is preferable that the outer liner 40 has a lower rim attached to and fixed to the outer portion of the upper surface of the base plate 30, but extends upward from the lower side and through opening in the vertical direction.

Here, the outer liner 40 may be formed of a synthetic resin material having high tensile strength, such as an optical film or vinyl, and may be formed of a transparent material. In addition, the outer liner 40 is disposed outside the inner liner 50 to surround the inner liner 50 in which the transported object 1 is stored, so as to prevent the transported object 1 from external foreign matter and moisture. It is preferable to provide double protection to prevent deterioration due to contact.

In addition, it is preferable that each corner of the outer liner 40 is attached and fixed to each of the attachment areas 32, 33, 34, and 35. For example, four regions of the lower rim of the outer liner 40 arranged opposite to the positions of the attachment regions 32, 33, 34, and 35 may be hot-melted and melted and then cured. Accordingly, it is preferable that the outer liner 40 and the outer portion of the upper surface of the base plate 30 are attached and fixed to each other.

In addition, the diameter of the outer liner 40 is preferably set to be less than the diameter of the carton box (30). In addition, it is preferable that the outer liner 40 is provided with a margin portion (not shown) disposed in a folded state of the outer liner 40 so as to expand to both sides in the front and rear direction.

On the other hand, referring to Figures 2 to 4, the inner liner 50 is disposed inside the outer liner 40, but the conveyed material 1 containing high purity resin is stored inside the inner liner 50 It is preferable that the lower portion is fixed to the upper central portion 31 of the base plate 30.

In addition, the inner liner 50 is preferably extended from the lower side to the upper side, and is stored and transported in a closed state, and the upper portion may be cut and opened when connected to the suction supply device 200.

Here, the inner liner 50 may be formed of a synthetic resin material having high tensile strength, such as an optical film or vinyl, and may be formed of a transparent material. In addition, the lower portion 52 of the inner liner 50 may be provided in a conical cross-sectional shape extending obliquely to both sides in the width direction from the lower end to the upper side. In this case, the inner liner 50 may be pultruded, and the end edge may be double-heated to be bonded.

In addition, it is preferable that the central portion of the bottom surface of the inner liner 50 is attached and fixed in point contact with the central portion 31 of the upper surface of the base plate 30. Through this, the suction pipe 202 of the suction supply device 200, which will be described later, is lowered into the interior of the inner liner 50, so that the conveyed material 1 is vacuum suctioned by vacuum suction. The formation of a conical cross-section in which the lower portion 52 is obliquely extended to both sides in the width direction as it goes upward from the lower portion may be induced to expand.

In this case, an arrangement angle between the lower portion 52 of the inner liner 50 and the base plate 30, which is inclinedly extended and induces formation into a conical cross section, may be set to be greater than or equal to a preset angle. In addition, when the suction pipe 202 vacuums the conveyed material 1, each edge of the outer liner 50 attached to the attachment areas 32, 33, 34, 35 is It may be disposed spaced apart from the lower portion 52.

In addition, it is preferable that the central portion 53 of the inner liner 50 is formed continuously with the lower portion 52 and the upper portion 54 and extends to a predetermined length in the vertical direction forming a right angle to the base plate 30. In this case, the diameter of the central portion 53 of the inner liner 50 is preferably set to be less than or equal to the diameter of the outer liner 40.

In addition, the upper portion 54 of the inner liner 50 is tapered inward in the width direction toward the upper side, and the upper portion 55 connected to the upper portion 54 is the suction body of the suction supply device 200 to be described later. It is preferable to extend in the vertical direction corresponding to the diameter of 201).

In this case, the width of the upper end portion 55 of the inner liner 50 is preferably set to be less than the width of the central portion 53 of the inner liner 50. In addition, the upper end 55 of the inner liner 50 is preferably in close contact with the suction body 201 of the suction supply device 200.

In addition, referring to FIG. 5, it is preferable that the inner liner 50 is provided with a clearance portion 56 disposed in a folded state in the inner liner 50 so as to expand to both sides in the front-rear direction. Through this, the outer liner 40 and the inner liner 50 are arranged in a folded state in each inner side and provided with an allowance portion so that they can be spread to both sides in the front and rear direction, so that when not in use, the inner liner ( 50) It is possible to maximize the storage capacity of the transported material (1) stored inside, so that the usability can be improved.

Meanwhile, the suction supply device 200 is a device provided to vacuum suction the conveyed material 1 stored in the carton container 100 and convey it to a manufacturing device.

Here, referring to FIGS. 2 to 4, the suction supply device 200 is provided to include the suction body 201, the suction pipe 202 and the lifting suction means 203.

In detail, it is preferable that the suction body 201 is provided on the opened upper portion of the inner liner 50 and disposed so that the open upper portion of the inner liner 50 is wrapped on the outer surface and fixed.

Here, an extension engaging portion 201a extending radially outwardly along a circumferential direction may be formed at a lower end of the suction body 201. Accordingly, when the open upper part of the inner liner 50 is wrapped around the outer surface of the suction body 201 and fixed by the close contact fixing means 60 to be described later, the close contact is fixed by the expansion locking part 201a. The means and the opened upper portion of the inner liner are caught, so that the flow to the lower side can be minimized. Of course, in some cases, at least one recessed groove formed radially inward along the circumferential direction so that the close contact fixing means 60 and the auxiliary fixing means 61 to be described later are interposed on the outer surface of the suction body 201 (not shown) Poetry) may be formed. In this case, when a plurality of recessed grooves (not shown) are formed, they may be spaced apart from each other in the vertical direction.

At this time, the supply system using the carton container pressurizes and tightens between the opened upper inner surface of the inner liner 50 and the outer surface of the suction body 201 so as to cover the inner liner 50 in close contact. It is preferable to further include a close contact fixing means (60).

In addition, the supply system using the carton container is provided on the outer surface of the outer liner 40 to cover tightly by pressing and tightening between the opened upper inner surface of the outer liner 40 and the outer surface of the suction body 201. It may further include auxiliary fixing means (61).

Through this, when the opened upper part of the inner liner 50 is fixed to the suction body 201 and the conveyed material 1 stored in the inner liner 50 is vacuum suctioned through the suction pipe 202 Each of the upper portions of the inner liner 50 and the outer liner 40 may be double-closely covered and fixed to the suction body 201 by the close contact fixing means 60 and the auxiliary fixing means 61. . Therefore, since the conveyed material 1 is double-blocked from the outside during the supply process, contamination of the conveyed material 1 due to external exposure and foreign matter inflow can be minimized.

In addition, it is preferable that the suction pipe 202 is disposed inside the suction body 201 and is selectively lowered into the inner liner 50 so as to vacuum suction the conveyed material 1. At this time, it is preferable that the diameter of the suction pipe 202 is set to be less than the diameter of the suction body 201.

Moreover, it is preferable that the elevating suction means is provided to selectively elevate the suction pipe 202. Here, the lifting suction means may include a driving motor for selectively lifting and lowering the suction pipe 202 and a suction motor driven to vacuum suction the conveyed material 1.

Here, the lifting suction means is in a process in which the suction pipe 202 descends when the conveyed material 1 is vacuum sucked to promote vacuum suction of the conveyed material 1, and the suction tube 202 is within a preset range. It can be controlled so that the vertical reciprocating lifting and descending are repeated. Through this, the suction pipe 202 is repeatedly raised and lowered within a preset range, and as the transported object 1 is vacuum sucked, the vacuum suction efficiency will be further improved than the case of vacuum suctioning the transported object 1 in a stopped state. I can.

Meanwhile, an example of use of a supply system using a carton container according to an embodiment of the present invention will be described with reference to FIGS. 3 to 4.

First, referring to FIG. 3, the opened upper part of the inner liner 50 is fixed to the outer surface of the suction body 201 by the close contact fixing means 60, and the inside of the inner liner 50 and the suction pipe 202 is communicated with each other.

At this time, the transport material 1 is stored inside the inner liner 50, and the lower portion 52 of the inner liner 50 is formed of the base plate 30 by the weight of the transport material 1 It can adhere to the top surface.

Subsequently, the suction pipe 202 may be lowered while vacuum suctioning the conveyed material 1 stored in the inner liner 50.

And, referring to Figure 4, the suction pipe 202 is further lowered to the inside of the lower portion 52 side of the inner liner 50, the vacuum generated in the suction pipe 202 when the conveyed object 1 is vacuum sucked. Due to the suction force, the lower portion 52 of the inner liner 50 may be formed into a conical cross-section inclined toward both sides in the width direction from the lower end to the upper side.

Here, as the central portion of the bottom surface of the inner liner 50 is attached and fixed in point contact with the central portion 31 of the upper surface of the base plate 30, the outer portion of the lower portion 52 of the inner liner 50 moves upward. The lower portion 52 of the inner liner 50 may be formed in a conical cross-sectional shape and a'V'-shaped cross-sectional shape.

Accordingly, since adsorption between the suction pipe 202 and the inner liner 50 is blocked, external exposure of the transported material due to tearing is prevented in advance, so that safety in use can be significantly improved.

Moreover, since the lower portion 52 of the inner liner 50 is formed in a conical cross-sectional shape by the vacuum suction input of the suction pipe 22 provided in the suction supply device 200, the inner liner during the vacuum suction process (50) Since the conveyed material (1) stored inside is automatically collected in the central part, the entire conveyed material (1) can be completely supplied to the suction pipe 22, unlike the prior art in which the conveyed material remains inside the storage material. The supply efficiency of the conveyed material 1 to the suction pipe 22 can be significantly improved.

At the same time, when the suction pipe 202 vacuums the conveyed material 1, a plurality of attachment regions are formed on the outer side of the upper surface spaced radially outward from the central part 31 on the base plate 30 at a predetermined interval. Each corner of the outer liner 50 attached to (32, 33, 34, 35) may be fixed. Accordingly, even when the lower portion of the inner liner 50 induces the formation of a conical cross-section by vacuum suction, the transported material 1 can be double-protected to minimize exposure to foreign matter and moisture.

In addition, as the opened upper portion of the inner liner 50 is closely covered by the close contact fixing means 60 and the lower end of the fixed suction body 201 expands to the outside, the close contact fixing means and the upper portion of the inner liner Since separation is minimized by being caught, contamination can be minimized even when the conveyed material 1 is supplied from the inside of the inner liner 50 to the outside through the suction pipe 202.

Therefore, the opened upper end 55 of the inner liner 50 in which the conveyed material 1 is stored is in close contact with the suction body 201 of the suction supply device 200 and surrounds the inner liner 50 Since the outer liner 40 is disposed to double protect the conveyed material 1 from external foreign matter and moisture, the conveyed material 1 can be safely supplied even when vacuum is sucked.

At this time, the terms such as "include", "comprise" or "have" described above mean that the corresponding component may be present unless otherwise stated, excluding other components. It should not be construed as being able to include other components. All terms, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art, unless otherwise defined. Terms generally used, such as terms defined in the dictionary, should be interpreted as being consistent with the meaning of the context of the related technology, and are not interpreted as ideal or excessively formal meanings unless explicitly defined in the present invention.

As described above, the present invention is not limited to each of the above-described embodiments, and it is possible to be modified and implemented by those of ordinary skill in the art without departing from the scope claimed in the claims of the present invention. And, these modifications are within the scope of the present invention.

10: pallet 20: carton box
30: base plate 40: outer liner
50: outer liner 100: carton container
200: suction supply device 201: suction body
202: suction pipe

Claims (5)

The side portion surrounding the outer periphery is extended to form a receiving space therein, the upper portion of the carton box is opened, the base plate disposed inside the carton box, and the lower rim is fixed to the outer portion of the upper surface of the base plate to extend upward. An outer liner that is opened vertically and is disposed inside the outer liner, and a transport material containing high-purity resin is stored therein, and the lower part is fixed to the center of the upper surface of the base plate to extend upward and the upper part is opened. A carton container including a liner; And
A suction body provided on the upper part of the inner liner and disposed so as to wrap the open upper part of the inner liner on the outer surface and fixed, and a suction body disposed inside the suction body and selectively descending into the inner liner A suction pipe provided to vacuum suction, and a suction supply device comprising a lifting suction means for selectively lifting and lowering the suction pipe to promote vacuum suction of the conveyed material,
When the suction pipe is lowered into the interior of the inner liner and the conveyed material is vacuum suctioned, the lower part of the inner liner is inclined toward both sides in the width direction by a vacuum suction input to induce the formation of a conical cross section in which the lower part of the inner liner is inclined toward both sides in the width direction The central portion of the bottom of the base plate is attached in point contact with the central portion of the upper surface of the base plate,
The base plate has a plurality of attachment areas formed on the outer side of the upper surface spaced radially outwardly from the center at a predetermined distance, and each edge of the lower rim of the outer liner is attached to each of the attachment areas, and the suction pipe When the transported material is vacuum sucked, each edge of the outer liner attached to the attachment area is spaced apart from the lower portion of the inner liner, and the center of the upper surface of the base plate and the attachment area are hot-melted, melted, and then cured. The liner and the inner liner are thermally bonded, respectively,
The inner liner is provided with an allowance portion disposed in a folded state of the inner liner so as to expand to both sides in the front and rear direction,
Close contact fixing means interposed on the outer surface of the inner liner so as to cover closely between the opened upper inner surface of the inner liner and the outer surface of the suction body, and pressure-tighten between the opened upper inner surface of the outer liner and the outer surface of the suction body Further comprising an auxiliary fixing means interposed on the outer surface of the outer liner so as to cover in close contact,
A supply system using a carton container, characterized in that an extension engaging portion extending radially outward along a circumferential direction is formed at a lower end of the suction body so that the close contact fixing means and the upper portion of the inner liner are engaged. delete delete delete delete

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