JP5869929B2 - Rivet forming method for can lid with tab - Google Patents

Description

  The present invention relates to a method for rivet forming of a can lid with tabs of an aluminum can (hereinafter abbreviated as an aluminum can) or an iron can, and in particular, without reducing the bonding force between the panel of the can lid and the tab. The present invention relates to a rivet forming method for a can lid with a tab that can be thinned.

  As a can lid used for aluminum cans and iron cans containing various beverages, a pull tab type can lid that removes the tab from the panel (can lid body, top plate) when opening the drinking mouth, and the tab to the panel There is a canyon tab type can lid that can open the drinking mouth in the attached state. Since the tabs of the pull tab type are separated from the panel and discarded and are difficult to collect, in recent years, a steion tab type can lid has been widely used from the viewpoint of environmental problems.

  In order to connect a tab to a panel with a canon tab type can lid, a method of rivet forming by inserting a nipple portion formed on the panel into a rivet hole of the tab is generally used. Therefore, a rivet forming method for a tab lid with a tab according to such a conventional example will be described below with reference to FIG. FIGS. 5A and 5B are schematic cross-sectional views for explaining the rivet forming method for a can lid with a tab according to Conventional Example 1 in the order of steps, in which FIG. 5A is an overhanging process, FIG. c) shows a caulking process.

  In the rivet forming method of the can lid with tabs according to the prior art 1, first, in order to form the nipple portion on the panel 21 in the overhanging process, the overhang forming for forming the preliminary overhang portion 22 is performed (FIG. 5 ( a)). Next, in the drawing step, drawing processing is performed to make the overhanging portion 22 into a nipple portion 23 having a predetermined shape (see FIG. 5B). Finally, as a result of caulking the nipple portion 23 to expand the diameter, a rivet 26 having a caulking depth d and connected to the tab 24 is formed (see FIG. 5C).

  In such a rivet forming method for a can lid with a tab according to the prior art 1, when a difficult-to-form material such as a thin material having a plate thickness of 0.22 mm or less is stretched, three steps including a drawing step are required. However, in the prior art 2, an example is disclosed in which the tool shape in the overhanging process is defined so that molding can be performed without causing cracks in the two processes (see Patent Document 1).

  On the other hand, when the lower surface of the edge of the tab is separated from the panel, the adhesion between the panel and the tab is lowered, and the occurrence of the tab periphery cannot be suppressed. The tab is plastically deformed in advance so that the lower surface of the inner lance (center portion) is higher than the lower surface of the edge of the tab, and the nipple portion is inserted into the rivet hole of the plastically deformed tab to form a rivet. It has been proposed (see Patent Document 2).

  Further, in the prior art 4, in order to solve the same problem as in the prior art 3, a locking concave portion is formed in a rivet hole provided in the tab, and the locking convex formed on the rivet upper end portion in the concave portion. There has been proposed a can lid with a tab for opening a can whose portion is engaged in a biting state (see Patent Document 3).

  On the other hand, there is a strong demand for thinning the can lid material in order to reduce the manufacturing cost of the can. However, in the rivet forming method of the can lid with tabs according to the prior art 1 described with reference to FIG. 5, the base material (plate material) at the center of the nipple portion 23 is compressed in the plate thickness direction by the upper and lower molds. Thus, a mechanism is used in which the base material plastically flows radially outward to form a caulked portion of the rivet 26.

  For this reason, if the can lid made of a high-strength plate such as a 5000 series aluminum alloy is thinned to a thickness of 0.18 to 0.23 mm, the thickness of the material of the rivet 26 is also reduced, so that the plastic flow during caulking is also reduced. However, the caulking depth d cannot be secured sufficiently. Note that the quality of the caulking portion depends on other factors. Specifically, in the final caulking step, the panel base material plastically flows outward from the center of the rivet 26 as indicated by an arrow in FIG. Tend to move (run away). The movement tendency of the plate material also becomes stronger as the can lid material is made stronger and thinner as described above. For these multiple reasons, there has been a problem that the caulking depth d is reduced as a result, and the coupling force between the panel 26 and the tab 24 is reduced.

JP 2007-283364 A Japanese Patent No. 451501 JP 2006-176146 A

  Accordingly, an object of the present invention is to provide a rivet forming method for a can lid with a tab capable of increasing the strength and thickness of the can lid material and thus reducing the manufacturing cost of the can without reducing the bonding force between the panel and the tab. Is to provide.

In order to achieve the above object, the means employed by the rivet forming method for a tab with a tab according to claim 1 of the present invention is to form a nipple portion on the panel of the can lid, and use this nipple portion as an inner lance of the tab. In a rivet forming method of a tab lid with a tab, which is inserted into the formed rivet hole, and the nipple portion is rivet formed to connect the tab to the panel, a side wall of the nipple portion is formed when the nipple portion is formed. After forming the nipple step portion, the nipple portion is inserted into a rivet hole formed in the inner lance of the tab, and the nipple portion is caulked from the state where the nipple step portion exists to rivet-mold. Is.

  The means adopted by the rivet forming method for a can lid with tabs according to claim 2 of the present invention is the method for rivet forming a can lid with tabs according to claim 1, wherein the formation of the nipple portion is a panel of the can lid. A squeezing step for forming the squeezing part and a squeezing process for narrowing the squeezing part. The nipple step portion is formed.

According to the rivet forming method for a can lid with a tab according to claim 1 of the present invention, a nipple portion is formed on the panel of the can lid, and the nipple portion is formed in a rivet hole formed in an inner lance (center portion) of the tab. In the rivet forming method of a tab lid with a tab, in which the nipple portion is inserted and rivet formed to connect the tab to the panel, the nipple step portion is formed on the side wall of the nipple portion when the nipple portion is formed. Then, the nipple portion is inserted into a rivet hole formed in the inner lance of the tab, and the nipple portion is caulked from the state where the nipple step portion is present, so that rivet molding is performed. Since the base material on the side wall of the nipple part is prevented from escaping from the center of the rivet due to plastic flow, a deep caulking depth is secured.

  As a result, it is possible to increase the strength and thickness of the can lid material and thus reduce the manufacturing cost of the can without reducing the bonding force between the panel and the tab. Furthermore, during the caulking process, the base material on the side wall of the nipple part is prevented from escaping due to the plastic flow from the center of the rivet part to the outside due to the presence of the step part of the nipple. In addition, the flatness of the panel is improved, the rigidity of the lid is increased, and the opening of the score portion (groove portion) provided on the lid is improved.

  Moreover, according to the rivet forming method of the can lid with tabs according to claim 2 of the present invention, the formation of the nipple portion includes an overhanging step of forming an overhang portion on the panel of the can lid and the overhang portion. The nipple step portion is formed on the side wall of the nipple portion using a drawing die and a drawing punch each provided with a step in the drawing step. The formation of the nipple step portion of the nipple portion can be simultaneously formed by a single drawing process.

BRIEF DESCRIPTION OF THE DRAWINGS It is typical sectional drawing for demonstrating the rivet molding method of the can lid with a tab which concerns on embodiment of this invention to process order, Comprising: FIG. (A) is an overhang | projection process, FIG. c) shows a caulking process. FIG. 1 (a) is a plan view of the can lid with tabs manufactured by the rivet forming method shown in FIG. 1, and FIG. 2 (b) is a cross-sectional view taken along line BB of FIG. It is an analysis figure which shows a mode that a rivet is formed in the A section equivalent of FIG.1 (c) with progress of a crimping process in the Example of this invention. It is a figure which concerns on the Example of this invention, and compares and shows the crimping depth d of the tab in a comparative example and an Example. It is typical sectional drawing for demonstrating the rivet molding method of the can lid | cover with a tab concerning the prior art example 1 in order of a process, A figure (a) is an overhanging process, A figure (b) is a drawing process, A figure (c) is The caulking process is shown. FIG. 6 is a schematic cross-sectional view for explaining a state in which the panel base material moves by plastic flow in the caulking step of FIG. 5.

  First, a rivet forming method for a can lid with a tab according to an embodiment of the present invention will be described below with reference to the accompanying FIGS. 1A and 1B are schematic cross-sectional views for explaining a rivet forming method for a can lid with a tab according to an embodiment of the present invention in the order of steps, in which FIG. 1A is an overhanging step, and FIG. FIG. 7C shows the caulking process. FIG. 2 relates to a can lid with a tab manufactured by the rivet forming method shown in FIG. 1, wherein FIG. 2 (a) is a plan view thereof, and FIG. 2 (b) is a cross-sectional view taken along the line BB in FIG. .

  The rivet forming method for a can lid with a tab according to an embodiment of the present invention is such that a rivet 6 is formed on a panel (can lid top plate) 1 with a tab 4 in a can lid 10 of a can with a tab of a steion tab method. It relates to the mounting method. And, as shown in FIG. 1, the rivet forming method for the can lid 10 with tabs is such that a nipple portion 3 is formed in the panel 1 and this nipple portion 3 is inserted into a rivet hole 5 a formed in the inner lance 5 of the tab 4. Then, the nipple portion 3 is rivet-formed and the tab 4 is connected to the panel 1.

  The panel 1 and the tab 4 are made of an aluminum alloy (hereinafter abbreviated as an aluminum alloy). Among these, the panel 1 is constituted by an aluminum thin plate (hereinafter abbreviated as an aluminum thin plate), and generally varies depending on the size of the can lid, but generally has a thickness of 0.23 to 0.5 mm, preferably 0. A range of 23 to 0.33 mm is used. The tab 4 has a thickness of 0.30 to 0.40 mm. As the aluminum thin plate, all aluminum thin plates used for easy-open type can lids can be applied. For example, 5000 series aluminum containing a small amount of metal for alloying aluminum with other materials, especially magnesium, manganese, etc. Alloy plates are preferred.

  As shown in FIG. 1, the rivet forming method for a can lid with tabs according to the embodiment of the present invention includes an overhanging process (see FIG. (A)), a drawing process (see FIG. (B)), and a caulking process (see FIG. c)), and when forming the nipple part 3, the nipple step part 3b is formed on the side wall 3a of the nipple part 3, and the nipple part 3 is crimped to form the rivet 6. is there.

  That is, first, in the projecting step, the panel 1 is placed on the panel support 13 and the panel 2 is pressed and gripped by the projecting die 12, and the projecting punch 11 is moved upward from the lower side of FIG. To form the overhang portion 2. Next, in the squeezing step, the nipple part 3 is formed on the projecting part 2 of the panel 1 using the squeezing die 15 provided with the step 15a and the squeezing punch 14 provided with the step 14a. A nipple step portion 3 b is formed on the side wall 3 a of the portion 3.

  The shape of the nipple portion 3 after the drawing step is a shape necessary for securely caulking the tab 1 in the subsequent caulking step and performing rivet forming, and is therefore almost defined by the shape of the tab 1 to be used. Less change in shape than process. The rivet molding is a molding method for fixing the tab 4 to the panel 1 by crushing the nipple portion 3 and expanding the nipple portion 3 beyond the diameter of the rivet hole 5 a formed in the inner lance 5 of the tab 4. Therefore, in order to obtain a sufficient diameter for the rivet 6 after caulking, the shape of the nipple portion 3 after the drawing step is preferably a columnar shape.

  Then, since the nipple step portion 3b is formed on the side wall 3a of the nipple portion 3 by using the drawing die 15 and the drawing punch 14 in which the steps 15a and 14a are respectively provided, the narrowing of the overhang portion 2 and the nipple step portion are formed. The formation of 3b can be simultaneously formed in a single drawing step.

  At that time, it is preferable that the corners and corners R in the longitudinal section of the drawing punch 14 and the drawing die 15 are small, and a drawing height h sufficient to fix the tab 4 to the panel 1 is also required. That is, when forming the drawing process in one step, very strict overhang forming is performed. Therefore, the nipple portion 3 is formed by carrying out the drawing process as a preliminary molding and then performing the drawing process to prevent cracks due to abrupt molding. The drawing process is not necessarily completed in one process, and the drawing process may be performed in several processes according to the shape of the rivet 6, the characteristics of the material forming the panel 1, and the plate thickness.

  In the final caulking step, the nipple portion 3 of the panel 1 is placed on the rivet pin 16 having a convex longitudinal section, and the nipple portion 3 is inserted into the rivet hole 5a formed in the inner lance 5 of the tab 4. After the insertion, as a result of caulking the nipple portion 3 with the rivet punch 17 to expand the diameter, the drawing depth d is formed, the rivet 6 is formed, and the tab 4 is connected to the panel 1. At that time, the presence of the nipple step portion 3b prevents the material of the side wall 3a of the nipple portion 3 from plastically flowing away from the center of the rivet 6 in the radially outward direction, so that a deep caulking depth d is secured. .

  As shown in FIG. 2, a can lid 10 manufactured by a rivet forming method for a can lid with tabs according to an embodiment of the present invention includes an opening piece 19 surrounded by a circular panel 1 and a groove-shaped main score 18. And an auxiliary score 18a formed in a groove shape along the inner side of the main score 18, and a rivet that is arranged so that its tip 4a overlaps the panel center CP side of the opening piece 19 and is integrally formed with the panel 1 6 and a tab 4 fixed to the panel center CP.

  The tab 4 has an inner lance 5 at the center, and is fixed to the rivet 6 through a rivet hole 5 a formed in the inner lance 5. Then, when the rear end 4b of the tab 4 is raised, the front end 4a of the tab 4 presses the opening piece 19 surrounded by the main score 18, the main score 18 is cut by this pressing operation, and the drinking mouth is opened. The

  On the rear end 4b side of the tab 4, there is provided a finger hole 4c for inserting a finger or the like to cause the rear end 4b during the opening operation. In addition, a semicircular arc space 20 is formed on the tab 4 on the side opposite to the opening piece 19 with respect to the rivet 6. Of the tab 4 including the inner lance 5, portions other than the space 20 and the finger holes 4c are integrally formed so as to be continuous.

  As shown in FIG. 2 (b), the inner lance 5 is formed in a flat plate shape, and tab edges 4d formed so as to curl inward are provided on both sides of the inner lance 5 through the space portion 20. Yes. The tab 4 and the panel 1 are fixed by sandwiching the inner lance 5 having the rivet hole 5a between the rivets 6 formed at the center of the upper surface of the panel 1.

  The can lid 1 manufactured by the rivet forming method for a can lid with tabs according to the embodiment of the present invention has a rivet 6 because the base material of the side wall 3a of the nipple portion 3 is present in the nipple step portion 3b in the caulking step. Is prevented from escaping due to plastic flow from the center to the outer diameter direction, so that the caulking depth d is increased and the connection between the panel 1 and the tab 4 is strengthened, and the panel 1 of the can lid is not easily left over. Further, the flatness of the panel 1 is improved and a high rigidity is obtained. In addition, the main score 18 provided in the panel 1 with good openability can be obtained.

  Next, an analysis was conducted to manufacture a can lid with a tab according to the rivet forming method according to the above embodiment, using a cold rolled sheet of JIS 5182, which is a 5000 series aluminum alloy having the following material characteristics, as a material for the can lid and tab. This embodiment will be described below with reference to FIGS. FIG. 3 relates to an embodiment of the present invention, and FIG. 4 is an analysis diagram showing how a rivet is formed in the portion A of FIG. 1 (c) as the caulking process proceeds, and FIG. 4 relates to the embodiment of the present invention. It is a figure which compares and shows the crimping depth d of the tab in an example and an Example.

<Material properties>
・ Tensile strength: 60 MPa
-Yield strength: 300 MPa
・ Elongation: 10%

  In this analysis, the mold, punch, support, and tab were treated as rigid bodies, and the friction coefficient between these rigid bodies and the panel was assumed to be 0.15. The analysis was performed with the panel 1 material thickness = 0.230 mm and the tab 4 material thickness = 0.35 mm, and the caulking depth d of the obtained tab 4 was used as an index of molding quality. ABAQUAS Standard (manufactured by SIMULIA) was used as the analysis software.

  First, in the examples, following the analysis of the processing corresponding to the overhanging step and the drawing step according to the rivet forming method according to the above embodiment, analysis in the caulking step was performed to obtain the following analysis results. That is, the nipple portion 3 of the panel 1 placed on the rivet pin 16 is inserted into the rivet hole 5a formed in the inner lance 5 of the tab 4, and the nipple punch 3 is pressed down to start pressing the nipple portion 3. (See FIG. 3A). At this time, the nipple step portion 3b formed on the side wall 3a of the nipple portion 3 coincides with the corner portion in the longitudinal section of the rivet pin 16 as shown in FIG. 3A, or is positioned slightly above the corner portion. It is preferable to arrange in such a manner that the caulking depth d is increased.

  When the rivet punch 17 is gradually reduced, the top of the nipple portion 3 is deformed downward. At this time, the base material of the nipple step portion 3b is reduced in the direction of the arrow from the rivet center toward the outside by the reduction of the rivet punch 17. It plastically flows (see FIG. 3B). When the rivet punch 17 is further reduced, the nipple portion 3 is sandwiched between the rivet pins 16 and approaches a smooth surface (see FIG. 3C). Furthermore, as the rivet punch 17 is reduced, the nipple portion 3 gradually thins, the base material of the nipple portion 3 moves in the radially outward direction, and the caulking depth d gradually develops, A rivet 6 is formed on the panel 1 (see FIG. 3D).

  Further, when the rivet 6 is further thinned to a thickness of 0.10 mm by further reducing the rivet 6, the rivet 6 base material corresponding to the rivet 6 moves further in the radial direction, and the rivet 6 having a sufficiently developed caulking depth d is obtained. Then, the tab 4 and the panel 1 are connected (see FIG. 3E). The caulking depth d at this time was 0.23 mm.

  On the other hand, in the comparative example, according to the described rivet forming method according to the related art, except that the tab lid can be manufactured without providing the nipple step portion 3b on the side wall 3a of the nipple portion 3 in the drawing step, it is completely the same as the above embodiment. Analysis was performed under the same conditions. As a result, the caulking depth d was 0.15 mm.

  That is, in the embodiment, since the nipple step portion 3b is provided on the side wall 3a of the nipple portion 3 in the squeezing step, the base material of the side wall 3a of the nipple portion 3 is out of the center of the rivet 6 due to the presence of the nipple step portion 3b. As shown in FIG. 4, the caulking depth d is 1.53 times deeper than that of the comparative example.

  As described above, according to the rivet forming method for a can lid with tabs according to the present invention, due to the presence of the nipple step portion, the base material on the side wall of the nipple portion plastically flows away from the center of the rivet and escapes. Therefore, a deep caulking depth is secured. Therefore, it is possible to increase the strength and thickness of the can lid material and thus reduce the manufacturing cost of the can without reducing the bonding force between the panel and the tab.

  In addition, the rivet molding method for the can lid with a tab according to the present invention may be any can as long as it has a canister tab type open can structure such as a positive pressure can such as a beer can or a negative pressure can such as a coffee can. It can also be applied to can manufacturing. In addition, the can material can be made of aluminum cans, iron cans, iron-aluminum composite cans with an aluminum lid attached to the iron can, etc., as long as the can lid material and tab material use an aluminum alloy. it can. At this time, as is well known, 5000 series aluminum alloys such as JIS 5052, 5251, 5021, 5042, 5082, 5182 can be applied to the can lid material and the tab material according to the use of the can. Moreover, 3000 series aluminum alloys, such as 3004 and 3104, are applicable to a can body.

  According to the present invention, there is provided a rivet forming method for a can lid with a tab which can increase the strength and thickness of the can lid material and thereby reduce the manufacturing cost of the can without reducing the bonding force between the panel and the tab. it can. Accordingly, the present invention can be applied to rivet molding of aluminum alloy tab-attached can lids for various cans aimed at increasing the strength and thinning of the can lid material.

CP: Panel center,
d: caulking depth,
h: Aperture height,
1: Panel, 2: Overhang,
3: Nipple part, 3a: Side wall, 3b: Nipple step part,
4: Tab, 4a: Front end, 4b: Rear end,
4c: finger hole, 4d: tab edge,
5: Inner lance, 5a: Rivet hole,
6: Rivet,
10: Can lid (with tab), 11: Overhang punch, 12: Overhang mold,
13: Panel support part,
14: Drawing punch, 14a: Step,
15: Aperture die, 15a: Step,
16: Rivet pin, 17: Rivet punch,
18: main score, 18a: auxiliary score,
19: Opening piece, 20: Space

Claims (2)

A tab with a tab that forms a nipple portion on a panel of a can lid, inserts the nipple portion into a rivet hole formed in an inner lance of a tab, rivets the nipple portion, and connects the tab to the panel. In the rivet forming method of
When forming the nipple portion, after forming a nipple step portion on the side wall of the nipple portion, the nipple portion is inserted into a rivet hole formed in the inner lance of the tab, and the nipple step portion is present. A rivet forming method for a can lid with a tab, wherein the nipple portion is caulked and rivet formed.   The formation of the nipple portion includes an overhanging step for forming an overhanging portion on the panel of the can lid and a drawing step for narrowing down the overhanging portion. 2. The method of forming a rivet for a can lid with a tab according to claim 1, wherein the nipple step portion is formed on a side wall of the nipple portion using a squeezing punch.