KR880001139Y1 - Airtight can - Google Patents

Abstract

No content.

Description

Confidential can

1 is a front sectional view of a part of an embodiment of the present invention.

2 is an enlarged partial cross-sectional view shown in FIG.

3 is a partial cross-sectional enlarged view showing a start state of formation of a curled portion shown in FIG.

4 is a partial cross-sectional enlarged view of a state in which the cut portion is formed and the adhesion of the partition plate is finished.

5 is an enlarged partial cross-sectional view of an embodiment in which a double wall portion is formed.

6 is a cross-sectional view of an embodiment of inserting the partition plate from below after forming the above-mentioned curl part.

7 is an enlarged partial cross-sectional view of an embodiment in which the curl portion at the lower end of the double wall is bent.

8 to 10 are partially enlarged cross-sectional views showing the manufacturing process of the embodiment in which the cross section of the cut portion is covered with an intermediate partition plate.

8 shows a state in which the middle partition plate is inserted into the can body,

9 shows a state where the dial is pressed and started to be lowered.

FIG. 10 is a view showing a state in which molding is completed in a pull down shape. FIG.

* Explanation of symbols for main parts of the drawings

1: canned body 2: common punch

3: part 4: middle partition plate

a, b: constriction 4a: sheet

4b: heat sealable resin 4c: cast

5: seal die 6: heater

9: Kerrdie 10: Insulation

11: double wall part 17: upper part

18: can support pilot 19: guide shaft

20: seal die bearing spring

The present invention relates to an airtight can that simultaneously seals the cans, reinforces the cans, and processes the ends.

Conventionally, it is known to form a curled portion by rolling a bend circumference of a metal can to the outside, and it is also known to form the curled portion inside the can mouth to seal a normal outer lid. In addition, there is also known a technique for installing a transparent or light-type partition board to seal the can, but in the case of installing an intermediate partition, the structure of attaching the periphery of the partition plate to the upper surface of the can is simple. Known structures include a structure in which the peripheral edge is fixed to the upper edge curved portion of the canister, or a structure in which the lower edge of the canguring, the periphery of the intermediate partition plate, and the details of the canister top edge are simultaneously rolled together. However, the simple sticking structure has no confidence in the strength of the sticking part even if it is airtight, and the upper edge of the canister and the surface of the middle partition board are the same, and there is no room for other objects (for example, cards) on the middle partition board. There is a problem. In addition, in the structure in which the upper edge of the canister is rolled up and the peripheral edge of the interlayer plate is squeezed in the portion, it is difficult to form necessary voids between the upper edge of the canister and the intermediate plate, and the reliability of airtightness is low. There is this. In addition, the lower end of the can ring and the periphery of the interlayer plate and the edge of the can are rolled up, but there are sufficient air gaps for accommodating airtightness, strength, and other objects. There is a need for improvement in all of the above-described prior arts, such as a problem, but there is still no satisfaction.

However, the present invention rolls up the upper edge of the can inward to form a curl portion, and at the same time, winds up the periphery of the middle partition board, and also abuts the periphery of the can wall and the middle partition plate, thereby adhering and fixing each other. Will solve all of your problems.

Hereinafter, the present invention will be described with reference to the embodiments shown in FIGS. 1 and 2. The peripheral portion of the interlaminar partition plate 4 is squeezed by the end face portion 3a of the keel portion 3, which has curved the can circumference of the can body 1 inward, and the inner wall of the can body. (b) is thermally welded. The interlayer partition plate 4 is formed by laminating a thermally adhesive resin 4b (for example, polyethylene or ionomer) on both upper and lower surfaces of the thin plate 4a serving as a wick. . As the thin plate, for example, aluminum foil or a synthetic resin sheet (resin having a higher melting temperature than the heat-adhesive resin) is used. In order to obtain the airtight can of the above embodiment, the upper periphery of the rapid can body 1 is rolled inward by the punch punch 2 to form the keel portion 3 and at the same time the periphery 4c of the intermediate partition plate 4. ) Is brought into contact with the outer wall of the curl portion. In this case, a die 5 having a curved surface 5a having the same shape as the outer wall of the keel portion 3 is disposed below the outer wall of the keel portion 3 so as to face the die punch 2 and the seal die ( Inside the 5), the heater 6 is embedded. Therefore, as shown in FIG. 3, when the peripheral lower wall of the intermediate partition plate 4 is supported by the seal die 5, and the curl punch 2 is lowered in the direction of the arrow 7, the cross punch arc shape of the curl punch 2 is obtained. The upper edge portion 1a of the can is rolled inward by the groove portion to form the curl portion 3. In this case, the lower wall of the collar part 3 makes the partition plate abut on the upper surface and is rolled in the direction of the arrow 7 (second degree) while pressing slightly, so that the edge 3a (can) of the collar part 3 (can A part of the peripheral agent 4c of the intermediate partition board is squeezed by the upper edge portion 1a of the sphere and the inner wall of the can sphere. In addition, since the commercial punch 2 and the seal die 5 are heated by the heater 6 to a required temperature (temperature at which the adhesive on the separator can be melted), the heat-welding resins 4a and 4b are heated. It melts and heat-welds together the outer wall of a collar part, the inner wall of a can opening, and a partition board. In the figure, 10 is a heat insulating material.

In addition, the adhesion is also considered to be pressure bonding with a synthetic resin adhesive in addition to the thermal welding by a synthetic resin capable of thermal welding. Next, the present invention will be described with reference to the embodiment of FIG.

In the above embodiment, the cans are formed in the cans, and the lower periphery is attached to the periphery 4c of the intermediate partition plate 4, but the embodiment of FIG. The double wall 11 is formed, and the peripheral edge of the middle partition plate 4 is attached to the outer wall of the lower bottom portion 3 of the double wall, and the lower peripheral edge is attached to the inner wall of the can. Therefore, it is possible to control the depth between the middle partition plate 4 and the upper edge of the can mouth according to the length of the double wall portion.

The interlayer plate 4 is inserted into the canister 1 before forming the portion 3 or the double wall portion 11, and the formation of the portion 3 or the double wall portion 11 is performed. In addition, although the peripheral edge 4c of the middle partition plate is brought into contact with each other by heat welding, and the other way is attached, the insertion time of the partition plate is not necessarily limited to the above method. For example, after forming the curl portion 3 or the double wall portion 11, the plate-shaped intermediate partition board 4, which is curved upwardly, has an arrow 7 from the lower side of the can body. It is also possible to insert together (FIG. 6), and to adhere the peripheral edge 4c of the partition plate 4 to the lower wall of the keel portion 3 and the inner wall of the can opening by pressing the circumferential edge 4c. In this case, the upper mold presses the lower portion of the keel portion 3 or the double wall portion to the inner wall side of the can body as shown by the arrow 13 in the seventh way, and presses the lower end portion of the double wall portion as necessary. It can be bent and the intermediate partition board can also be narrowed by the bent part 14 and the can body inner wall (FIG. 7).

In each of the above embodiments, since the upper shaft of the intermediate partition plate 4 is bonded to the lower wall of the keel portion 3, and the lower side of the intermediate partition plate 4 is bonded to the inner wall of the can mouth, more reliable airtightness can be obtained. In addition, it is also included in the technical scope of the present invention that the intermediate partition plate 4 is bonded to either the lower wall of the keel portion 3 or the inner wall of the can mouth.

Next, the embodiments of FIGS. 8 to 10 cover the periphery of the interlaminar plate with the curl part, and at the same time, the end surface of the curl part is wrapped with the interlamellar plate to further improve the reliability and airtightness of the tension between the interlaminar plate. will be.

That is, the edge of the can opening of the can body 1 is curved inward to form a double wall portion 11 of a predetermined depth, and the lower end of the double wall portion 11 has a periphery of the intermediate partition board 4 that seals off the can opening. The curled portion 3 is formed by being rolled up with 4c. The end portion 3a of the collar portion 3 is wrapped by the peripheral bent portion 4d of the intermediate partition plate 4 while the peripheral portion 4c of the intermediate partition plate 4 is the curl portion 3. ) Is squeezed between the inner wall of the double wall portion 11, the abdominal outer wall of the keel portion 3 and the inner wall of the can body 1, and the constriction portions (c), (d) and the intermediate portion. The contact part of the peripheral part 4c and the collar part 3 of a partition board is heat-welded.

In order to obtain the airtight tube shown in the above embodiment, the auxiliary collar 15 which inclines upwardly inwardly is formed at the upper edge of the can body 1, and the cross section is The annular pan 16, which has a shape and is formed with the upper edge portion of the peripheral wall inclined outward, sandwiches the formed intermediate partition plate 4 inside the upper portion of the can body 1 (Fig. 8). Next, as shown in FIG. 9, the auxiliary collar 15 is pushed down by the dial die 9 while supporting the interlayer partition plate 4 with the seal die 6 inserted in the can body 1, and the auxiliary collar ( 15) and the annular shell 16 of the middle partition plate are rolled up in a tubular shape while being stacked to form a curl portion 3.

Subsequently, when the lowering upper die 17 shown at 10 degrees is lowered instead of the dial die 9, the double wall portion 11 and the peripheral bent portion 4d are automatically formed.

In the figure, reference numeral 18 denotes a can support pilot, 19 a guide shaft, 20 a seal die, and 5 a support spring.

The interlayer partition plate 4 is a heat-adhesive resin 4d (for example, polyethylene or the like) on both upper and lower surfaces of a thin plate 4a (for example, aluminum foil or a synthetic resin having a higher melting temperature than the zero-adhesive resin) to be used as a wick. Ionomi) is laminated to the can body (1) by heating the cut section (3) with heaters (6), (6) built in the seal die (2) and the cut-out mold (17) The part which abuts on the partition board 4 is heat-welded.

According to the above embodiment, the interlayer partition board 4 is laminated on the thin plates 4a with the heat-adhesive resin 4d on both the upper and lower surfaces, but only the one of the upper and lower surfaces may be laminated, or only the heat-adhesive resin may be formed. It may be. Further, according to the above embodiment, since both the upper and lower surfaces of the intermediate partition plate 4 and the abutting portion of the can body 1 are thermally welded, higher tension and airtightness can be obtained. When only one side of the upper surface or the lower surface of the pack 4 is formed, only the part where the heat welding property abuts with resin is welded. In addition, although the double wall part 11 of predetermined depth was formed in the said Example, the double wall part 11 does not necessarily need to be formed. It is also possible to seal not only the can mouth but also the bottom of the can.

According to the above embodiment, the periphery of the interlaminar plate overlaps with the cut portion of the can body and is rolled together so that the intermedium plate is between the abdomen of the keel portion and the inside of the can body, and the tip of the keel portion and the inner wall of the keel portion. At the same time, the end surface of the kerel is enclosed by the end edge of the middle partition board, and the peripheral edge of the middle partition board is fixed to the can body so that the airtightness is ensured by the middle partition board. In addition, there is an effect that can reinforce the cans.

In addition, the circumference of the canal part and the partition plate is brought into contact with each other, while the circumference of the partition plate is squeezed by the end of the canal and the inner wall of the can, and the abutment and the constriction are fixed to each other, thereby ensuring the airtightness of the partition plate. In addition, there is an effect that can reinforce the can opening, and there is an effect that can be formed to the required depth between the upper surface of the partition plate and the upper edge of the can opening without using the can ring.

Claims (5)

In the hermetic can, the upper edge of the can is rolled inward to form a curl portion 3, and the can opening is sealed by an intermediate partition plate 4 composed of a flexible thin plate. ) Is an airtight can whose air periphery is fixed between the outer wall of the cut portion and the inner wall of the can body (1) and adhesively fixed to the inner and outer walls. The contact position of the periphery (4c) of the intermediate partition plate (4) is abutting part of the collet (3) and the intermediate partition plate (4) and abutment portion of the can body inner wall and the intermediate partition plate (4). Both cans or an airtight can characterized by the above-mentioned. The hermetic can according to claim 1, wherein the adhesion is performed by thermal welding or adhesive. An airtight can according to claim 1, characterized in that the peripheral edge (4c) of the interstitial wave (4) is brought into contact with the inside of the keel portion (3) along the inner wall of the can body (1). The hermetic can according to claim 1, wherein the end face of the curl portion (3) is wrapped by an intermediate partition plate (4).