CA2529831C - Metal container with thread - Google Patents

Abstract

A metal container with thread capable of preventing such a defect that t he strength of a lower end of a mouth part and an upper end of a shoulder part of a container main body is non-resistant to a pressing force in radial and axial direction s, and a part of the container may be collapsed or buckled during a capping operation wher e content is filled into the container and cap is fitted to the container automaticall y by a machine. The metal container is capable of maintaining a highly airtight condition by way of a curled or slightly rounded projection formed at the upper end of a mouth par t thereof which interacts with a packing laid on a ceiling surface of a cap which is screwed on.

Description

METAL CONTAINER WITH THREAD

This application is a division of Canadian Application Serial No.

2,392,234 filed November 24, 2000. The claims of the present application are directed to a metal container capable of maintaining a highly airtight condition by way of a curled or slightly rounded projection formed at the upper end of a mouth part thereof which interacts with a packing laid on a ceiling-surface of a cap which is screwed on.
However, for the purpose of understanding the invention, including all objects and features which are inextricably bound-up in one and the same inventive concept, the teachings of those features claimed in the parent Canadian Application Serial No.
2,392,234 are retained herein.

Accordingly, the retention of any such objects or features which may be more particularly related to the parent application or a separate divisional thereof should not be regarded as rendering the teachings and claiming ambiguous or inconsistent with the subject matter defined in the claims of the divisional application presented herein when seeking to interpret the scope thereof and the basis in this disclosure for the claims recited herein.

The present invention relates to a metal container with thread in which a mouth part including a threaded part and an upper end of a shoulder part have an improved strength. The present invention further relates to a metal container with thread capable of maintaining a highly airtight condition.

Conventionally, a metal container with thread, as shown in Fig. 19, is manufactured by drawing, drawing-and-ironing or impact forming from a metallic material such as aluminium. An open mouth part of such a metal container is closed airtight, as a cap is screwed on a threaded part formed in a periphery of the cylindrical mouth part. Fig. 19 is a cross sectional view of a conventional metal container with thread. Denoted at 50 is a container main body, and the container main body 50 is formed by a curled part 51, a mouth part 52 with a threaded part, a tapered shoulder part 53, a trunk part 54 and a bottom part 55, shown in this order from the top. A
female screw of a cap 56 and a male screw of the mouth part 52 are fitted with each other, whereby the mouth part 52 of the container main body 50 is sealed up. The symbol 57 denotes packing. In such a container main body 50, as shown in Fig. 20, the shoulder part 53 is formed to have a linear cross sectional shape up to its upper end 53a, and the upper end 53a of the shoulder part 53 is continuous up to a lower end 52a of the mouth part.

Meanwhile, a metal container with thread as shown in Fig. 21 is known and commercially available, where plurality of protruded parts 62 (three in Fig. 21) are formed at schematic equal intervals entirely over a shoulder part 61 of a container main body 60.

However, as shown in Fig. 20, the container main body 50 shown in Fig.
19 has a problem that the strength of the lower end 52a of the mouth part 52 and the upper end 53a (area W) of the shoulder part 53 is weak against pressure forces in a radial direction and an axial direction (pressing forces P, Q) therefore, the area W
may be collapsed or buckled during a capping operation to fill content into the container and fit a cap to the container automatically using a machine.

With respect to the container main body 60 shown in Fig. 21, a purpose of forming the plurality of protruded parts 62 entirely over the shoulder part 61 is to mainly achieve a design effect of the metal container with thread and to prevent the shoulder part 61 from getting wrinkled during a necking operation of manufacturing steps. Thus, an improvement in strength at the mouth part and the upper edge of the shoulder part is not intended here, accordingly no actual enhancement of strength is expected.

On the other hand, as shown in Fig. 22, the curled part 51 is formed at the upper end of the mouth part 52 in the conventional metal container with thread to thereby ensure a better strength, safety for a user and sealable effect. In other words, by means of an axial clamping force developed as the female screw of the cap 56 is fitted to the male screw of the mouth part 52, the packing 57 laid on an inner ceiling surface of the cap 56 abuts on a top surface of the curled part 51 formed at the upper end of the mouth part 52, whereby an opening at the mouth part 52 is sealed up. A lower end 56a of the

3 cap 56 is bent along a bead part (annular groove) 52b formed in the mouth part 52 and fitted with the upper area of the bead part to its end.

However, since the packing 57 and the ceiling surface of the curled part 51 are in surface contact, such a closing structure has a problem with a sealing capability if the curled part 51 has a slight dimensional error and the surface contact is accordingly weak. In short, when content develops an internal pressure, the content may leak out between the packing 57 and the ceiling surface of the curled part 51.
Particularly, as for a metal container containing a carbonated beverage such as beer and cola, it is required that the metal container is sealed up without fail again after being opened once, so that the quality and the internal pressure of the remaining contained drink are maintained, so that an insufficient sealing capability becomes a problem.

An attempt to improve a sealing capability by strongly tightening the cap 56 and increasing applied pressure between the packing 57 and the curled part 51 to one another invites the area W at the upper end of the shoulder part 53 shown in Fig. 20 to twist more, and therefore, makes it easier for the area W to be buckled. If the tightening force is reduced to prevent such buckling, leakage tends to occur.

On the other hand, in a conventional metal container, an area of the bead part 52b easily collapses when lower end 56a of the cap 56 is plastically deformed along the bead part 52b in the manner as shown in Fig. 22. Further, the cap 56 may be a screw cap with preformed thread or a roll-on type cap put on the mouth part 52 to be pressurized along the male screw of the mouth part to thereby form threads. In the latter case, a side wall of the cap 56 is pressed strongly in the radial direction toward the inside, and therefore, the threaded part may easily collapse.

In addition, where the metal container shown in Fig. 19 uses a cap such as a Pilfer Proof cap (PP cap) and a similar Alten cap (also known as a flavor cap or a high-lock cap), to be fractured as opened in order to clearly indicate to a user that the container has been unopened, the threaded part, the bead part and the like collapse more easily and the upper end of the shoulder part buckles more easily, since the strength of the cap is high.

4 The present invention was made in view of the conventional problems described above, and accordingly, a first object of the present invention is to provide a metal container with the threaded part 52 and the lower end 52a of the mouth part as well as the upper end 53a (area W) of the shoulder part 53 having an improved strength in a radial direction and an axial direction. Further, a second object of the present invention is to provide a metal container with thread capable of maintaining a highly airtight condition.

A metal container with thread according to the invention is manufactured by drawing, drawing-and-ironing or impact forming from a metallic material with container main body consisting of a mouth part including a threaded part, a tapered shoulder part, a trunk part and a bottom part and maintaining a highly airtight condition with a cap screwed on, and is characterized in that at least one or more outwardly curving smooth annular recessed parts or at least one or more inwardly curving smooth annular protruded parts are formed around an upper end of said tapered shoulder part widening in a radial direction toward below from a lower end of said mouth part.
Accordingly to a preferred embodiment, both said annular protruded parts and annular recessed parts are formed. Further, a bead part for bending a lower end of said cap for engagement may be formed in the vicinity of said lower end of said mouth part.

According to an aspect of the present invention there is provided a metal container with at least one thread made by drawing, drawing-and-ironing or impact forming from a metallic material, having a container main body consisting of a mouth part with a threaded part, a tapered shoulder part, a trunk part and a bottom part and maintaining a highly airtight condition with a cap screwed on, wherein an annular slightly rounded projection with a rounded radius of 0.2 mm to 0.8 mm is formed at an upper end of the mouth part so that when the cap is screwed on, the annular projection bites into a packing laid on an inner surface of a ceiling surface of the cap so as to realize an airtight condition.

According to another aspect of the present invention there is provided a metal container with at least one thread made by drawing, drawing-and-ironing or impact forming from a metallic material, having a container main body consisting of a mouth part with a threaded part, a tapered shoulder part, a trunk part and a bottom part and maintaining a highly airtight condition with a cap screwed on, wherein a curled part is

5 formed at an upper end of the mouth part with sectional view of a circle, and a flat surface is formed at an outer part of the curled part, whereby creating the outer part of the curled part has a sectional view of a straight line and an inner part of the curled part has a sectional view of an arc and a bent line is formed annularly between the outer part and the inner part of the curled part forms.

According to a third aspect of the present invention there is provided a metal container with at least one thread made by drawing, drawing-and-ironing or impact forming from a metallic material, having a container main body consisting of a mouth part with a threaded part, a tapered shoulder part, a trunk part and a bottom part and maintaining a highly airtight condition with a cap screwed on, wherein a curled part is formed at an upper end of the mouth part with sectional view of a circle, and a flat surface is formed at an inner part of the said curled part, whereby the inner part of the said curled part has a sectional view of a straight line and an outer part of the said curled part has a sectional view of an arc and a bent line is formed annularly between the inner part and the outer part of the curled part forms.

The container main body may be formed by integral forming so that the mouth part including the threaded part, the tapered shoulder part, the trunk part and the bottom part are integral with each other, or alternatively, the mouth part including the threaded part and a tapered neck part may be formed integral with each other to thereby form an upper container body, the side wall part and the bottom part may be formed integral with each other to thereby form a lower container body, and the upper container body and the lower container body may be joined to each other.

According to a fourth aspect of the present invention there is provided a metal container with at least one thread made by drawing, drawing-and-ironing or impact forming from a metallic material, comprising a container main body consisting of a mouth part with a threaded part, a tapered shoulder part, a trunk part and a bottom part;

5a a cap screwed on the mouth part of the container main body; and a packing housed inside a ceiling surface of the cap and held between the ceiling surface of the cap and an upper end of the mouth part of the container main body; wherein a curled part is formed at the upper end of the mouth part and a flat surface part is formed in a part of the curled part, whereby an inner part of the curled part has a sectional view of a straight line and an outer part of the said curled part has a sectional view of an arc and a bent line is formed annularly between the inner part and the outer part of the curled part forms, and a side surface part of an upper end of the cap is crimped to have a stepped area so that the packing laid on the ceiling surface of the cap abuts on the flat surface part of the curled part formed at the upper end of the mouth part.

According to a fifth aspect of the present invention, there is provided a process for manufacturing a metal container with a thread having an upper container body comprising a mouth part and a shoulder part formed integrally and a lower container body comprising a trunk part and a bottom part formed integrally and a cap that maintains a highly airtight condition when screwed on, the process comprising the steps of forming a curled part at an upper end of the mouth part, inserting a core from the mouth part before forming the flat surface after forming the curled part, forming a flat surface by abutting a roll on an outer surface of the curled part.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a front cross sectional view showing a first preferred embodiment of the present invention;

Fig. 2 is a cross sectional view showing a mouth part and an upper end of a shoulder part according to the first preferred embodiment of the present invention;
Fig. 3 is an enlarged cross sectional view showing an area A according to the first preferred embodiment of the present invention;

Fig. 4 is a cross sectional view showing a mouth part and an upper end of a shoulder part according to a second preferred embodiment of the present invention;

=
5b Fig. 5 is a cross sectional view showing a mouth part and an upper end of a shoulder part according to a third preferred embodiment of the present invention;

Fig. 6 is a cross sectional view showing a mouth part and an upper end of a shoulder part according to a fourth preferred embodiment of the present invention;
Fig. 7 is an elevational view showing a crush strength test on a bead part of a metal container with thread according to the present invention;

Fig. 8 is an elevational view showing a crush strength test on a threaded part of a metal container with thread according to the present invention;

Fig. 9 is an elevational view showing a buckling strength test on a shoulder part of a metal container with thread according to the present invention;

6 Fig. 10 is an elevational view showing a metal container with thread according to the present invention forming a mouth part, a shoulder part, a side wall part and a bottom part integrally with each other;

Fig. 11 is an enlarged cross sectional view showing a mouth part having a threaded part of a metal container with thread according to a fifth preferred embodiment of the present invention;

Fig. 12 is a cross sectional view showing a condition that a cap is screwed on the mouth part of the metal container with thread according to the fifth preferred embodiment of the present invention;

Fig. 13 is a flow chart showing a method of attaching the cap to the mouth part of the metal container with thread according to the fifth preferred embodiment of the present invention;
Fig. 14 is a cross sectional view showing a condition that a cap is screwed on a mouth part of a metal container with thread according to a sixth preferred embodiment of the present invention;

Fig. 15 is a cross sectional view showing a condition that a cap is screwed on a mouth part of a metal container with thread according to a seventh preferred embodiment of the present invention;

Fig. 16 is a cross sectional view showing a condition that a cap is screwed on a mouth part of a metal container with thread according to an eighth preferred embodiment of the present invention;

Fig. 17 is a elevational view showing manufacturing of the metal container with thread according to the fifth preferred embodiment shown in Fig.
10;

Fig. 18 is a partial cross sectional elevational view showing a metal container with thread according to other embodiment of the present invention which is obtained by bonding an upper container body to a lower container body;

Fig. 19 is a cross sectional view showing an example of a conventional metal container with thread;

Fig. 20 is a cross sectional view showing a mouth part and an upper end

7 of a shoulder part of the metal container with thread which is shown in Fig.
19;
Fig. 21 is a elevational view showing other example of a conventional metal container with thread;

Fig. 22 is an enlarged cross sectional view showing a condition that a cap is screwed on a mouth part of a conventional metal container with thread.
DESCRIPTION OF THE PREFERRED EMBODIMENT

Figs. 1 through 3 show a metal container with thread according to a first preferred embodiment of the present invention. A container main body 1 of this container with thread is basically approximately the same as the conventional one, and as shown in Fig. 1, comprises a cylindrical mouth part 2, a tapered shoulder part 3 downwardly contiguous from a lower end 2a of the mouth part 2, a trunk part 11 contiguous from a lower end of the shoulder part, and a bottom part 12 closing a lower end of the trunk part 11. As clearly shown in Fig. 2, a characteristic is that an inwardly curving smooth annular recessed part 4 is formed in an area around an upper end 3a of the shoulder part 3 (area A) and below this an outwardly curving smooth annular protruded part 5 is formed contiguously. A lower portion of the protruded part 5 is linearly continuous, like conventional ones. A portion in the vicinity of an upper end of the mouth part has a slightly smaller diameter, and a curled part 13 curled up outwardly is formed at this upper end. Fig. 3 is a cross sectional view further enlarging the area A according to the first preferred embodiment.

The container main body 1 is obtained by drawing, drawing-and-ironing or impact forming a metallic material, such as aluminium for instance, into a cylindrical shape with bottom, thereafter forming the shoulder part and the mouth part by shoulder-drawing, a bead part 2b by rolling, then a threaded part, and further the curled part 13 at the upper end of the mouth part by curling part.
In this embodiment, an upper portion of the container main body 1 including the mouth part 2 with the shoulder part 3 and a lower portion including the bottom part 12 are formed integral with each other.

8 The diameter of the mouth part 2 is approximately 35 to 40 mm, for instance, preferably about 37.8 mm, while the diameter of the trunk part 11 is approximately 60 to 70 mm, preferably about 66.0 to 66.4 mm. The thickness of a material plate is approximately 0.2 to 0.3 mm, for example, preferably about 0.21 to 0.25 mm. The plate thickness of the mouth part 2 after forming is approximately 0.3 to 0.4 mm, preferably about 0.31 to 0.35 mm. The angle of the shoulder part 3 is approximately 25 to 30 degrees with respect to a perpendicular line. The plate thickness of the shoulder part 3 is around 0.30 to 0.34 mm in the vicinity of the upper end 3a. Meanwhile, the plate thickness of the trunk part 11 is about 0.11 to 0.15 mm, for instance. The plate thickness of the curled part 13 is approximately 0.33 to 0.37 mm.

As shown in Fig. 2, a corrugated male screw 14 is formed by rolling and otherwise at the mouth part 2. The thread diameter of the male screw 14 is about 36.9 to 37.5 mm. A skirt part 16 with somewhat larger diameter is formed in a lower part of the mouth part 2, and the bead part 2b is formed below continuously. The bead part 2b is an annular groove and almost trapezoidal in cross section. The skirt part 16 and an upper wall 17a of the bead part 2b are, as described later, for caulking a lower end of a cap to be fractured to open, such as a Pilfer Proof cap and an Alten cap (See Fig. 13).

As shown in Fig. 3, a lower wall 17b of the bead part 2b is smoothly curved to be contiguous to the lower end 2a of the cylindrical mouth part, and the annular recessed part 4 is downwardly contiguous from the upper end 3a of the contiguous shoulder part to the lower end 2a. The recessed part 4, in its cross section, preferably has a radius of curvature R of about 0.5 to 5 mm, and more preferably, approximately 2 to 4 mm. The angle of inclination (i.e., the degree of curve) e of a common tangent line K of the recessed part 4 and the protruded part 5 is preferably about 35 to 60 degrees, and more preferably, approximately 40 to 50 degrees.
Fig. 4 shows a metal container with thread according to a second preferred embodiment of the present invention. The container main body 1 of

9 this metal container is characterized in that one inwardly curving smooth recessed part 6 is formed in a portion around the upper end 3a of the shoulder part (area B). The protruded part 5 of Fig. 3 is not formed. The lower wall 17b of the bead part 2b is contiguous to the upper end of the shoulder part 3 while remaining inclined, and the recessed part 6 is formed somewhat below this. The recessed part 6 preferably has approximately the same radius of curvature, width and depth as the recessed part 4 according to the first preferred embodiment shown in Fig 3.

Fig. 5 shows a metal container with thread according to a third preferred embodiment of the present invention. The container main body 1 of this metal container is characterized in that one outwardly curving smooth protruded part is formed in a portion around the upper end 3a of the shoulder part 3 (area C) continuous to the lower end 2a of the mouth part. No recessed part is formed.
The protruded part 7 preferably has approximately the same cross sectional shape and angle of gradient (i.e., the degree of cuive) as the protruded part according to the first preferred embodiment.

Fig. 6 shows a metal container with thread according to a fourth preferred embodiment of the present invention. The container main body 1 of this metal container is characterized in that an inwardly curving smooth recessed part 8 is formed in a portion around the upper end 3a of the shoulder part 3 (area D) continuing to the lower end 2a of the mouth part, and continuously an outwardly cuiving smooth protruded part 9 is formed, and further continuously an inwardly curving smooth recessed part 10 is formed. In other words, the two recessed parts 8 and 10 and one protruded part 9 are formed alternately in the area D. As another preferred embodiment, two recessed parts and two protruded parts may be formed alternately (not shown).

Next, an effect of the metal containers with thread above is described.
In the metal containers with thread according to the first to the fourth preferred embodiments, since the areas A, B, C and D are each bent to form the recessed parts and/or the protruded parts, the strength against pressing forces P and Q

respectively in a radial direction and an axial direction improves. The radius of curvature R and the angle of inclination 8 of the recessed parts and/or the protruded parts may be larger than the ranges described above. In the case that these values are larger, however, the strength against the pressing force P in the 5 radial direction is stronger, while the strength against the pressing force Q in the axial direction is weaker. Hence, to improve in strength against both the pressing forces P and Q, the recessed parts described above preferably have the radius of cuivature R of about 0.5 to 5 mm and the angle of 6 of about 35 to degrees.

10 [Embodiment]

The following describes test results comparing the strength of the mouth part and the upper end of the shoulder part between the metal container with thread compizsing the recessed part 4 and the protruded part 5 (Embodiment) according to the first preferred embodiment of the present invention and a conventional metal container with thread not comprising a recessed part or a protruded part (Comparison). Fig. 7 shows a test for measuring a crush condition of the bead part 2b of the mouth part 2 when pressurized with a pressing force Fl from above, Fig 8 shows a test for measuiing a crush condition of the threaded part when pressurized the mouth part 2 from above with a pressing force F2, and Fig. 9 shows a test for measuring a buckling strength when pressurized the upper end of the mouth 2 from above in the axial direction with a pressing force F3.

[Test Condition]

The outer diameter of the container: 66 mmo. The height of the container: 166 mm. The outer diameter of the mouth part: 37.8mmo. The thickness of the threaded part and the bead part: 0.32 mm. The thickness of the lower end of the shoulder part: 0.2 mm. The thickness of the trunk of the container: 0.15 mm. The test results are as shown in Table 1.
[Table 1]

The number of testing n = 2

11 Crush Strength of Crush Strength of Buckling Strength of Bead Part (N) Threaded Part (N) Shoulder Part (N) Comparison 113 137 1451 Embodiment 167 142 1657 From the test results above, it is found that with respect to the metal containers with thread according to the present invention, the crush strength of the bead part improves 47.8 %, the crush strength of the threaded part improves 3.6 % and the buckling strength of the shoulder part improves 14.2 %.

As described above, the present invention has an effect to improve the strength in an area around the mouth part of the metal container with thread, and particularly in an area from the lower end of the threaded part to the upper end of the shoulder part.

Next, a second aspect of the present invention is described with reference to the associated drawings. Figs. 10 to 12 show a fifth preferred embodiment of the present invention, and a cap 18 to cover the mouth part 2 is illustrated in an upper portion of the container main body 1 therein. The cap 18 has a cylindrical shape with bottom, and a female screw 19 to engage with the threaded part of the mouth part 2 is formed in a peripheral wall. The cap 18 is a so-called Pilfer Proof cap. Other caps to be broken as opened, such as an Alten cap, may be used instead.

A characteristic of the fifth preferred embodiment is that an annular projection 13a is formed at the upper end of the mouth part 2 of the container main body 1 as shown in Figs. 11 and 12. Other configurations are substantially the same as those shown in Fig. 1, and therefore, the same portions is denoted at the same reference symbols and is not described. In order to form the projection 13a at the outer upper end of the mouth part 2, first, the curled part 13 in circular-shaped cross section is formed by a normal method, such as press work using a curling die, at the upper end of the mouth part 2, a core 22 is inserted inside the container main body 1 as shown in Fig. 17, and then an outer circumferential surface of the curled part 13 is crushed with a roll 23 abutting on

12 the curled part 13 from the outward side to thereby form a flat surface part 13b on the cylindrical surface approximately in parallel to the central axis of the container main body 1. As a result, as shown in Fig. 11, the projection 13a is created at an intersection of an inner circumferential surface 13c and the flat surface part 13b of the curled part 13 as it originally has a circular shape in cross section, i.e., along a bent line outside the upper end. The projection 13a is loosely cuived (over about 0.2 to 0.8 mm).

In order to attach the cap 18 of the Pilfer Proof type to the container main body 1 manufactured in this manner, first, as denoted at a capping step S 1 shown in Fig. 13, the cap 18 is screwed on the mouth part 2 of the container main body 1.

In this condition, the upper end at the outer periphery of the cap 18 is cylindrical without any stepped area created. Meanwhile, the lower end remains directly downward. Further, in this condition, there is a gap between the flat surface part 13b of the curled part 13 and the inner circumferential surface of the cap 18, and an outer circumferential part 24a of packing 24 fit inside a ceiling surface of the cap 18 expands sidewise. This however realizes a high sealable effect, since the projection 13a bites into the packing 24.

Following this, as denoted at a caulking step S2 shown in Fig. 13, an upper end 18a at the outer periphery of the cap 18 is pressurized inwardly in the radial direction, to thereby form an annular stepped part. This makes the outer circumferential part 24a of packing 24 bent downward and held between the flat surface part 13b and an inner surface of the annular stepped part. This further enhances the sealable effect. Further, a lower end 18b of the cap is bent inwardly and pressed against the upper wall 17a of the bead part 2b. The cap 18 is consequently fit so as not to be removed unless broken.

According to a sixth preferred embodiment shown in Fig. 14, a curled part 15 is applied crushing so as to be inclined at a certain angle with respect to the central axis of the container main body 1, and a flat surface part 15b is accordingly created. At an intersection of the flat surface part 15b and the curled part 15, approximately right above the curled part 15, a projection 15a is

13 formed. The projection 15a is loosely curved (with a radius of about 0.2 to 0.8 mm).

According to a seventh preferred embodiment shown in Fig. 15, after forming a flat surface part 25b with a cylindrical surface at an outer periphery of the curled part 25 to be approximately parallel to the central axis of the container main body 1, a flat surface part 25c inclined at a certain angle is further formed on the flat surface part 25b. Due to this, a projection 25a is created at an intersection of the flat surface part 25c and the curled part 25, approximately right above the curled part 25. The projection 25a is loosely curved (with a radius of about 0.2 to 0.8 mm). The inclined flat surface part 25c described above has a three-dimensional conical shape in reality.

Further, according to an eighth preferred embodiment shown in Fig. 16, crushing applied to a curled part 35 is executed on the opposite side of the first preferred embodiment, namely, the inward side of the container main body 1, so that a flat suid'ace part 35b is formed on the inward side of the curled part 35.
Hence, a projection 35a is created at an inward upper end. The projection 35a is loosely curved (with a radius of about 0.2 to 0.8 mm).

In any one of the preferred embodiments described above, the container main body 1 is formed as integrated one unit. However, the present invention is not limited to this. The container main body can be created by joining two or more components. The container main body 1 of the metal container with thread shown in Fig. 18 is manufactured as separate units, an upper container body la compzzsing the mouth part 2 and the shoulder part 3 formed integral with each other and a lower container body lb comprising the trunk part 11 and the bottom part 12 formed integral with each other. A cylindrical joint part 3b for capping an upper end of the trunk part 11 extends at the lower end of the shoulder part 3. After forming the respective components, the joint part 3b is put on the upper end of the trunk part 11 and adhered with an adhesive or the like, whereby the container main body 1 is manufactured as one integrated unit.

As for the upper container body la, typically, after forming the upper container

14 body la into an upside-down cylindrical shape with bottom, the shoulder part 3 and the mouth part 2 are drawn, the upper end of the mouth part is then punched through to create an opening, and the bead part, the threaded part and the curled part 13 are thereafter formed in a manner similar to the above described. Hence, the mouth part 2 is relatively thick and has a high strength.
Forming of the annular projection at the upper end of the curled part 13 and a method of the forming, etc. are the same as in the preferred embodiments described above.

Next, an effect of the seal structure above is described. In the metal containers with thread described above, since the curled parts 13, 15, 25 and are created and processed to form the respective flat surface parts 13b, 15b, 25b, 25c and 35b as well as the projections 13a, 15a, 25a and 35a at the intersections of the curled parts and the flat surface parts, when the cap 18 is screwed on the threaded part of the mouth part 2 of the container main body 1, the projections 13a, 15a, 25a and 35a bite and fit into the packing 24 laid inside the ceiling surface of the cap 18. As a result, the opening of the mouth part 2 of the container main body 1 is sealed up without fail. In other words, at the positions where the projections 13a, 15a, 25a and 35a bite into the packing 24, the projections 13a, 15a, 25a, 35a reliably seive as annular seal points. As the cap 18 is screwed and clamps, the mouth part 2 of the container main body 1 is sealed up tightly. Hence, even if content is a beverage with an internal pressure, such as beer and cola, etc. it is possible to maintain the quality and the internal pressure of the leftover.

As described above, the present invention has an effect to prevent leakage of content at the mouth part and maintain the quality and the internal pressure of a leftover beverage without fail. In addition, since a highly airtight condition is ensured, the cap need not be tightened too strong during a capping operation, so that it is possible to prevent the shoulder part and the like of the container main body from buckling and deformation.

Claims (4)

THE EMBODIMENTS OF THE PRESENT INVENTION IN WHICH AN
EXCLUSIVE PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS
FOLLOWS:

1. A process for manufacturing a metal container with a thread having an upper container body comprising a mouth part and a shoulder part formed integrally and a lower container body comprising a trunk part and a bottom part formed integrally and a cap that maintains a highly airtight condition when screwed on, the process comprising the steps of:

forming a curled part at an upper end of the mouth part, inserting a core from the mouth part before forming the flat surface after forming the curled part, forming a flat surface by abutting a roll on an outer surface of the curled part.

2. A process for manufacturing a metal container according to claim 1, further comprising the steps of:

sinking a projection, which is formed on an intersection of the flat surface with curled surface of the curled part, into a packing laid on a ceiling surface of the cap, and crimping a side surface part of an upper end of the cap to have a stepped area so that a packing laid on a ceiling surface of the cap abuts on the flat surface of the curled part.

3. A process for manufacturing a metal container according to claim 1 or 2, wherein the upper container body and the lower container body are integrally formed.

4. A metal container when made according to the process as defined in any one of claims 1 to 3.