前苏联专利SU1491328A3 Cap end of metal can

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专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
A method of making a metal can end with a tear-open plastics closure, for a can intended to be resistant to leakage when subject to internal pressures, such as arise from carbonation of a beverage or thermal processing, wherein the undersurface of the can end is provided with a plastics coating (14). and the can end is pierced to form an aperture (15) with a peripheral downturned flange (16) at an angle of 80° to 120° to the plane of the can end and having a flat end. A one-piece ring pull closure is injection moulded on to the can end (10) from a plastics material resistant to softening at up to at least 65°C, without additional heating of the metal, so as to fill the aperture (15), bond with the coating (14), and enclose the flange (16), with a residual thickness below the flange of 0.08 to 0.5 mm. The thickness of the plastics material of the closure is such that it can be sheared against the flange when the ring pull (26) is pulled manually. The residual thickness of the plastics material may be varied around the aperture to increase resistance of the closure to creep, and the aperture may be pear-shaped or may be circular with a separate vent hole.
公开号:SU1491328A3
申请号:SU864028181
申请日:1986-09-19
公开日:1989-06-30
发明作者:Фрэнк Болл Мартин；Филип Пейвли Эндрю；Стэнли Тейлор Джозеф
申请人:Метал Бокс Плс (Фирма)；
IPC主号:

专利说明:

Yu
.IT
2 3 5 Figure 2

O4
314
The invention relates to containers, namely to the ends of metal cans intended for the storage of carbonated beverages. The highlander of the can, having an opening, provides a small leakage of the contents during storage or heat treatment.
The purpose of the invention is to improve the tightness by providing the ability to resist leakage when exposed to internal pressure.
Performing a plastic cover, placed under the flat end surface of a flange bent inward, 0.08 - 0.5 mm thick, will provide resistance to distortion of the cover's shape resulting from fluidity at a temperature not less.
FIG. 1 shows the end of a metal can, cross section; in fig. 2 - the same, with a hole and a flange of the hole; in fig. 3 - the same, top view; in fig. 4 - process of injection casting of the lid on the butt end; in fig. 5 - butt end of a can with crack, noiTepe4Hoe section; in fig. 6 - 8 — hole flange, embodiments (cross section); Fig.9 the end of the banks, top view; 10 and 11 are the same, with the lid open; in fig. 12 - the same, under the action of internal pressure on the end of the can; in fig. 13 — butt end with two holes; in fig. 14 - the same, with Krschka molded at the end; in fig. 15
the same cross section; in fig. 16 the same, with open Krshka; in fig. 17 butt end, embodiment; in fig. 18 - the same, with a molded plastic cover; in fig. 19 is a section A-A in FIG. 18; in fig. 20 — butt end, embodiment; in fig. 21 the same, with molded plastic coy; in fig. 22 is a section BB in FIG. 21; in fig. 23 can end, embodiment (cross section); in fig. 24 - the same general view; in fig. 25 is the same, top view of FIG. 24; in fig. 26 is a sectional view BB in FIG. 25; in fig. 27 — end of can, variant of implementation (general view); in fig. 28 - the same, butt with molded krppka partial section; in fig. 29- butt end (option of FIG. 17), general view; in fig. 30 - the same, with the cast cover, partial section.
The end of a metal can contains a central panel 1, made
there is a hole 2 surrounded by a flange 3 directed by B iyrpb, passing along the periphery of the hole directed from the central panel; n1 at an angle of 80-120 to njTOCKOCTH of the central panel and having a flat face surface 4, while the bottom side of the metal can is located on the bottom of plastic 5, in the hole of the central panel there is an injection molded solid krysha 6 with an annular handle 7 made of plastic, which is a polymer similar to the polymer of the plastic of the coating, which has a resistance s softening at temperatures up to 65 C, wherein the hole is filled with plastic cover and is surrounded by it on both sides of the can end, wherein the plastic lid for binding to plastic coating completely encircling rim 8 bent inward flange. The thickness of the plastic cover under the flat end surface bend. the inside of the flange is 0.08–0.5 mm to provide resistance to shape distortion resulting from fluidity at a temperature of at least 35 ° C, but can be cut near the flat end surface of the flange when the pull handle is manually applied .
20 25 30 h5
five
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five
The thickness of the plastic cap under the flat end surface of the flange may be the same along the entire periphery of the hole.
The cover can be molded from nylon.
Hole 2 may have a pear-shaped shape (FIG. 17) with different radii of curvature, and the thickness of the plastic is greatest under that part of the flange that surrounds the end with the largest radius of curvature (FIG. 19).
At the end, an additional vent hole 9 can be made, smaller than the main one, the thickness of the plastic under the flange around the pouring hole varies and is the largest under that part of the flange around the pouring hole that is further away from the vent hole.
Krshka can be cast from polypropylene.
The thickness of the plastic may vary continuously or abruptly.
51
The toren can have an outwardly widened edge 10, made with a bent peripheral edge to form a seam with the side wall of the can, and the plastic cap is injection molded at the end of the can so that the plastic plastic is not more than the thickness of the peripheral curl at the end of the can so that do not hinder stacking of conjugated lopnoB cans.
The thickness of the flap gtod with the flat end surface of the flange can be O, 1 3 - 0.4 mm.
The flange of the diversion 2 or each flange can be used}, OTO1 is inward up to a distance of 0.73 mm or 0.123-2.5 mm below the plane (5 sides of the can end.
The plastic of the lid may be injection-molded 1 so that it extends laterally from the flange or from each flange below the surface of the can end to a distance of 0.125 - 7.5 mm or at. 1.25 mm,
The plastic of the lid may be injection molded so that the ring handle fits to the upper surface of the can end and has a thickness of 0.25 to 4.3 mm.
In fig. 4 schematically shows the process of injection molding a claw.
A central panel 1 with an opening 2 is placed between the steel upper matrix 11, having a cavity 12, and the steel lower matrix 13. The molten plastic is injected across the whole 12 and forms a crack 6. When punching holes in the panel 1, burrs 14 are formed on the edges of the flange 3 (see Fig. 6-8).
The flange 3 can be directed at an angle of 90 to the plane of the panel 1 (Fig. 6), at an angle of 80 (Fig. 7), at an angle of 120 ° (Fig. 8).
To remove the cover (see Figures 10 and 11, raise the handle 7 to push out the cover 6, the latter separating from the border 8 along the flange along line 15. Cutting continues along the sides of the hole 2 until the cover is completely not separated.
When the can is subjected to pressure from the inside, for example, when it is filled with carbon dioxide drinks, panel 1 swells up (see Fig. 12). This causes the occurrence of stresses that tend to tear off the window.
3
five
0 5
0
Q
five
five
five
186.
Item 8 is from the flange 3, but does not affect the tightness, since the material of the cover, such as nylon, provides sufficient resistance to creep and bending of the cover.
In the case of two holes 11 (see Figs. 13-16), the opening of the Can begins from the left side (Fig. 16). First, the main opening opens, and then the ventilation-nose opening 9. The use of two openings makes it possible to use openings of a smaller diameter and a smaller radius rounded, as a result of which 10 the creep of the material is reduced.
In the case of a pear-shaped hole (Fig. 17-19), the drain hole has a larger radius than the vent, the thickness of the plastic is greatest at this drain end, which increases the creep resistance of the material, so that a material with less creep resistance can be used.

权利要求:
Claims (15)
[1]
1. The end of a metal can, including a central panel, a hole filled in it, surrounded by an inwardly directed flange, passing along the periphery of the hole, directed from the central panel at an angle of 80-120 to the plane of the central panel and having a flat face surface, with the lower side the end of a metal can has a plastic coating; in the hole of the central panel there is an injection molded lid with a ring handle, made of plastic, which is a polymeric A polymer similar to the plastic of the coating, which has a resistance to softening at a temperature of up to 65 ° C, the opening is filled with the plastic of the lid and surrounded on both sides of the can end, while the plastic of the lid is connected to the plastic of the coating, completely surrounding the flange bent inward, characterized in that, in order to increase the tightness by providing the ability to resist leakage when exposed to internal pressure, the plastic thickness of the cover under the flat end surface of the flange bent inward lies in the range e
0.08–0.5 mm to provide resistance to shape distortion resulting from fluidity at a temperature of at least 35 ° C, but can be cut near the flat end surface of the flange when the pull handle is manually indicated by the ring handle.
[2]
2. The end according to p. 1, differing from that with the fact that the thickness of the plastic under the flat end surface of the flange is the same throughout the periphery of the hole.
[3]
3. The end according to p. 2, of which the cover is molded of nylon.
[4]
4. The end of claim 1, distinguishing between 10 and 1040, the hole has a pear-shaped shape with different radii of curvature, and the thickness of the plastic is greatest under that part of the flange that surrounds the end with the greatest radius of curvature.
[5]
5. That of claim 1, characterized in that an additional vent hole is made at the end, the thickness of the plastic under the flange around the casting hole is smaller than the main thickness and is the largest under that part of the flange that is further away from vent hole.
[6]
6. The finder on PP. 4 or 5, about the fact that the cover is molded from polypropylene.
[7]
7. The finder on PP. 4-6, which means that the thickness of the plastic varies continuously.
[8]
8. The finder on PP. 4-6, which is different from the fact that the thickness of the plastic varies in steps.
[9]
9. The endman under item 1, characterized in that the end face has a race
ten
15
20
25
thirty
35
40
an outwardly extending edge, made with a bent circumferential edge to form a seam with the side wall of the can, the plastic cap being injection molded on the end of the can so that the thickness of the plastic is not more than the thickness of the peripheral curl on the end of the can so as not to hinder stacking female ends of cans.
[10]
10. The butt on PP. 1-9, which is due to the fact that the thickness of the cover under the flat end surface of the flange is made in the range of 0.15-0.4 mm.
[11]
11. The end of claim 1-10, which differs from the fact that the flange or each flange is bent inward by a distance of 0.125-2.5 mm below the plane of the can end.
[12]
12. The end according to claim 11, which differs from the fact that the flange or each flange is bent inwards to a distance of 0.75 mm below the plane of the can end.
[13]
13. The finder on the PP. 11 and 12, that is, that the plastic of the plastic is injection molded so that it extends laterally from the flange or from each flange below the surface of the can end to a distance of 0.125 - 7.5 mm.
[14]
14.Torets on PP. 9-13, characterized in that the plastic of the cover is molded so that it extends laterally from the flange or from each flange over a distance of 1.25 mm.
[15]
15. The finder on PP. 10-34, characterized in that the Krysch plastic is injection molded so that the ring handle fits on the upper surface of the can end and is 0.25 - 4.3 mm thick.
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Fig.I
FIG. 12
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FIG. 15
needles
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FIG. sixteen
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. 25
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FIG. 27
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FIG. 29

类似技术:

公开号 | 公开日 | 专利标题

SU1491328A3|1989-06-30|Cap end of metal can

SU1500149A3|1989-08-07|Lid for metal canister

US4533063A|1985-08-06|Container lid having an opening device

US4184604A|1980-01-22|Drinking lid

US3753512A|1973-08-21|Container and closure

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US3991904A|1976-11-16|Hinged closures

US4407423A|1983-10-04|Detachable resealable closure

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US5074428A|1991-12-24|Synthetic resin for blow-molded synthetic resin barrels

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US3557998A|1971-01-26|Wide mouth container and closure having integral opening means

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US4230659A|1980-10-28|Method for forming a rupturable area in a container

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US4047634A|1977-09-13|Lid having a separable panel

US3650432A|1972-03-21|Re-usable seal for tab opening cans

US3235121A|1966-02-15|Container closure structure

US4033275A|1977-07-05|Method of forming an opening tab in sheet metal container end closures

KR840002179Y1|1984-10-23|Container cap of easilz open-able closure

JP4095169B2|2008-06-04|Can lid without score

同族专利:

公开号 | 公开日

US4813837A|1989-03-21|

AU6257786A|1987-03-26|

GB8523263D0|1985-10-23|

BR8604497A|1987-05-19|

GB2180520A|1987-04-01|

TR22950A|1988-12-09|

CN1007232B|1990-03-21|

EP0215671B1|1990-04-25|

IN167884B|1991-01-05|

MY100035A|1989-06-29|

NO863726D0|1986-09-18|

AU585644B2|1989-06-22|

GB2180520B|1989-08-31|

US4893725A|1990-01-16|

JPS6278050A|1987-04-10|

EP0215671A3|1988-05-18|

ZA866897B|1987-06-24|

ES2000902A6|1988-03-16|

EP0215671A2|1987-03-25|

GB8622261D0|1986-10-22|

GR862395B|1987-01-20|

DE3670618D1|1990-05-31|

NO863726L|1987-03-23|

CN86107457A|1987-06-17|

NZ217628A|1988-02-29|

JPH0329671B2|1991-04-24|

AT52235T|1990-05-15|

CA1266838A|1990-03-20|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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GB8404320D0|1984-02-18|1984-03-21|Metal Box Plc|Closure for container|

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US5108003A|1991-06-10|1992-04-28|Granofsky Barry P|Cover for beverage can|

US5253779A|1992-01-03|1993-10-19|Lee Gul N|Beverage container having a self-contained pop-up straw assembly|

FR2706866B1|1993-06-22|1995-09-15|Geiger Sarl|

GB9510515D0|1995-05-24|1995-07-19|Metal Box Plc|Containers|

IT1287126B1|1996-10-31|1998-08-04|Tetra Laval Holdings & Finance|PROCEDURE AND MOLD TOOLS FOR INJECTION MOLDING OF A PART OF PLASTIC MATERIAL IN A PACKAGING SHEET MATERIAL|

US6399170B1|1997-12-24|2002-06-04|Owens-Illinois Closure Inc.|Plastic closure with compression molded barrier liner|

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US6102243A|1998-08-26|2000-08-15|Crown Cork & Seal Technologies Corporation|Can end having a strengthened side wall and apparatus and method of making same|

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US6499622B1|1999-12-08|2002-12-31|Metal Container Corporation, Inc.|Can lid closure and method of joining a can lid closure to a can body|

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US7506779B2|2005-07-01|2009-03-24|Ball Corporation|Method and apparatus for forming a reinforcing bead in a container end closure|

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US20090180999A1|2008-01-11|2009-07-16|U.S. Nutraceuticals, Llc D/B/A Valensa International|Method of preventing, controlling and ameliorating urinary tract infections using cranberry derivative and d-mannose composition|

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WO2015134913A1|2014-03-07|2015-09-11|Ball Corporation|End closure with large opening ring pull tab|

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CN106180464A|2016-07-28|2016-12-07|苏州华源包装股份有限公司|The technique that a kind of whole raw material punching press carries out filling out lid|

CN106077350A|2016-07-29|2016-11-09|苏州华源包装股份有限公司|A kind of technique of compound disk in inner cap|

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CN106077352A|2016-07-29|2016-11-09|苏州华源包装股份有限公司|A kind of structure filling in disk in inner cap|

CN106077349A|2016-07-29|2016-11-09|苏州华源包装股份有限公司|A kind of structure of compound disk in inner cap|

US10894630B2|2017-08-30|2021-01-19|Stolle Machinery Company, Llc|Pressure can end compatible with standard can seamer|

US10518926B2|2017-08-30|2019-12-31|Stolle Machinery Company, Llc|Reverse pressure can end|

US10947002B2|2017-08-30|2021-03-16|Stolle Machinery Company, Llc|Reverse pressure can end|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

GB858523263A|GB8523263D0|1985-09-20|1985-09-20|Making metal can ends|

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