JP2004074169A - Screw forming device, bottle can, and bottle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reliably form all screw parts so as to have a nearly same height (depth). <P>SOLUTION: In a screw forming part 21, threads of a second stage screw forming part 21b out of first to third screw forming parts 21a-21c of a thread area are formed higher than those of the first stage screw forming part 21a and the third stage screw forming part 21c. In other words, only the threads of the second stage screw forming part 21b out of those of the first stage screw forming part 21a, the second stage screw forming part 21b, and the third stage screw forming part 21c are formed slightly higher than those of the first stage screw forming part 21a and the third stage screw forming part 21c. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a screw forming apparatus for forming a screw portion for attaching a cap to a base portion of a bottle can body, a bottle can body having the screw portion, and a cap attached to the base portion of the bottle can body. Related to bottles that have been made.
[0002]
[Prior art]
A so-called bottle can body obtained by drawing a metal can body is formed by forming a base portion at an opening of the bottle can body formed on a bottomed cylinder, and a cap is attached to an outer periphery of the base portion. Screw portion is formed.
[0003]
In order to manufacture a bottle can having such a screw portion, when a bottomed cylindrical bottle can is formed in advance, the opening of the bottle can is opened as shown in FIG. The diameter is once reduced to form the base 2, and then the diameter is increased by a predetermined distance from the opening end of the base 2 to form the enlarged diameter 2 ′ as shown in FIG. A screw portion 3 is formed at a fixed distance from the opening end by a screw forming device as shown in FIG. In this case, when the screw portion 3 is formed in the base 2, the bulging portion 4 is formed by leaving an enlarged portion where the screw portion 3 is not formed.
[0004]
Although not shown, the conventional screw forming apparatus has a bottle can body with a core abutting on the inner peripheral surface of the base portion 2 and an outer core abutting on the outer peripheral surface of the base portion 2 while sandwiching the base portion 2 therebetween. The screw portion 3 is formed on the outer periphery of the base portion 2 by rotating about the axis of the shaft 1. In this case, the number of turns of the screw portion 3 formed on the base 2 is about 1.7 turns as shown in FIG. The contents of the bottle can body 1 on which the screw portion 3 is formed are then put through various steps, and then the cap 5 shown in FIG. 10 is attached and hermetically sealed.
[0005]
[Problems to be solved by the invention]
As described above, in the conventional screw forming apparatus, the core that contacts the inner peripheral surface of the base 2 of the bottle can 1 and the outer core that contacts the outer peripheral surface of the base 2 sandwich the bottle can with each other. By rotating around the axis, the screw part 3 having 1.7 turns is formed on the base part 2 whose diameter has been increased.
[0006]
However, when the number of turns of the screw portion is about 1.7 turns, as shown in FIG. 10, a portion having two screw portions 3 on a peripheral surface of the base portion 2 and a portion having only one screw portion 3. And there was a problem with the difference in the number. That is, if the number of turns is the above, when the cap 5 is attached to the bottle can 1 and the inside of the bottle can 1 is made to have a positive pressure, a pressure for pushing up the cap 5 is applied, and the cap 5 is displaced upward. . Therefore, since the cap 5 is biased with respect to the bottle can 1, the bridge 7 provided between the scores 6 and 6 on the opening end side of the cap 5 is pulled and broken, and so-called bridge breakage occurs. There was a malfunction that occurred.
[0007]
In order to solve the above problem, as shown in FIG. 11, an attempt has been made to increase the number of turns of the screw portion 3 to 2.2 turns. When the screw part 3 having 2.2 turns is formed on the base part 2 of the bottle can body 1 in this manner, the screw part 3 is connected to the first screw 3a between the screw start part and the screw end part of the screw part 3. There will be a three-step thread region L like the second-stage screw 3b and the third-stage screw 3c.
[0008]
However, when 2.2 turns of the screw portion 3 are formed in the bottle can 1, in the thread region L having three stages, the first stage screw 3a and the third stage screw 3c of the bottle can 1 are formed at the time of molding. As a result, the second screw 3b is pulled. That is, in the conventional screw forming apparatus, when the screw part 3 of 2.2 turns is formed in the base part 2, as shown in FIG. 12, the material of the base part 2 forming the first-stage screw 3a causes the second-stage screw to be formed. 3b is pulled in the direction of the first screw 3a as shown by the arrow a, and the material forming the second screw 3b is changed by the material of the base 2 forming the third screw 3c to the arrow b. Is pulled in the direction of the third screw 3c.
[0009]
Therefore, the crest (depth) of the second-stage screw 3b becomes shallower than the set location indicated by the chain line, and is slightly recessed as shown by the solid line. As a result, the second-stage screw 3b is There was a problem that the dimensions were smaller than the third thread 3a, 3c.
If the second screw 3b is formed smaller than the first and third screws 3a and 3c in this manner, a uniform sealing force of the cap 5 cannot be obtained. In addition, when the drinking water is filled and the cap 5 is attached, there is a problem that the cap 5 shifts when the internal pressure of the drinking water increases.
[0010]
The present invention has been made in view of such circumstances, and an object of the present invention is to ensure that the screw portion is substantially along the length even if the number of turns of the screw portion is increased so that the thread region becomes three steps. Another object of the present invention is to provide a screw forming device which can be formed at the same height (depth) and does not cause the cap to be displaced from the bottle can by the pressure of the contents. An object of the present invention is to provide a bottle can and a bottle having a formed screw portion.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the present invention proposes the following means.
The invention according to claim 1 is a core having a screw forming portion for contacting an inner peripheral surface of a mouth portion of a bottle can body and providing a thread portion to be formed on the mouth portion on an outer periphery, and the mouth portion. And an outer core having a threaded portion having a shape corresponding to the threaded portion of the core on the outer periphery thereof, and the core and the outer core sandwiching the base portion while holding the shaft of the bottle can body. A screw forming device that rotates around a center and forms a thread portion having a number of turns having a three-stage thread region of a first-stage screw, a second-stage screw, and a third-stage screw on the outer peripheral surface of the base portion Wherein the screw forming portion of the core includes a second-stage screw forming portion forming a second-stage screw in the thread region of the base portion, and a first-stage screw forming portion adjacent thereto and a third-stage screw forming portion. It is characterized in that it is formed to be deeper than the depth with the screw forming part.
[0012]
ADVANTAGE OF THE INVENTION According to the screw forming apparatus which concerns on this invention, in the screw formation part provided in the core, the 2nd-stage screw formation part which forms the 2nd-stage screw in the thread region of a base part is adjacent to this. Since the thread is formed deeper than the depth of the first thread forming part and the third thread forming part, when the thread is formed on the outer peripheral surface of the base with the core and the outer core, the two steps in the thread area Even if the first thread is pulled by the first thread and the third thread, the height of the second thread can be approximately the same as the height of the first thread and the third thread. The height of the screw of each step of the threaded portion provided at the same height can be made substantially the same.
[0013]
The invention according to claim 2 is a core having a screw forming portion for contacting an inner peripheral surface of a mouth portion of a bottle can body and providing a thread portion to be formed on the mouth portion on an outer periphery, and the mouth portion. And an outer core having a threaded portion having a shape corresponding to the threaded portion of the core on the outer periphery thereof, and the core and the outer core sandwiching the base portion while holding the shaft of the bottle can body. A screw forming device that rotates around a center and forms a thread portion having a number of turns having a three-stage thread region of a first-stage screw, a second-stage screw, and a third-stage screw on the outer peripheral surface of the base portion Wherein the screw forming portion of the outer core includes a second-stage screw forming portion that forms a second-stage screw in the thread region of the base portion, and a first-stage screw forming portion adjacent thereto and a third-stage screw forming portion. It is characterized in that it is formed to be deeper than the depth with the screw forming part.
[0014]
ADVANTAGE OF THE INVENTION According to the screw forming apparatus which concerns on this invention, in the screw formation part provided in the outer arm, the 2nd-stage screw formation part which forms the 2nd-stage screw in the thread region of a base part is adjacent to this. Since the thread is formed deeper than the depth of the first thread forming part and the third thread forming part, when the thread is formed on the outer peripheral surface of the base with the core and the outer core, the two steps in the thread area Even if the first thread is pulled by the first thread and the third thread, the height of the second thread can be approximately the same as the height of the first thread and the third thread. The height of the screw of each step of the threaded portion provided at the same height can be made substantially the same.
[0015]
The invention according to claim 3 is a core having a screw forming portion for contacting an inner peripheral surface of a mouth portion of a bottle can body and providing a thread portion to be formed on the mouth portion on an outer periphery, and the mouth portion. And an outer core having a threaded portion having a shape corresponding to the threaded portion of the core on the outer periphery thereof, and the core and the outer core sandwiching the base portion while holding the shaft of the bottle can body. A screw forming device that rotates around a center and forms a thread portion having a number of turns having a three-stage thread region of a first-stage screw, a second-stage screw, and a third-stage screw on the outer peripheral surface of the base portion Wherein the screw forming portion of the core includes a second-stage screw forming portion forming a second-stage screw in the thread region of the base portion, and a first-stage screw forming portion adjacent thereto and a third-stage screw forming portion. It is formed to be deeper than the depth with the screw forming portion, and the screw forming portion of the outer core is formed in the screw thread region of the base portion. The second stage screw forming portion for forming a stage screw, characterized in that it to be formed deeply than the depth of the first stage thread forming portion and a three-stage screw forming portions adjacent.
[0016]
ADVANTAGE OF THE INVENTION According to the screw forming apparatus which concerns on this invention, in the screw formation part provided in the core, the 2nd-stage screw formation part which forms the 2nd-stage screw in the thread region of a base part is adjacent to this. The first-stage screw forming portion and the third-stage screw forming portion are formed to be deeper than the depth of the first-stage screw forming portion, and the second-stage screw in the thread region of the base portion is formed in the screw forming portion provided on the outer arm. Since the second-stage screw forming portion is formed deeper than the depth of the first-stage screw forming portion and the third-stage screw forming portion adjacent to the second-stage screw forming portion, the outer periphery of the base portion is formed by such a core and an outer core. If the thread is formed on the surface, the height of the second screw will be higher than that of the first and third screws even if the second screw in the thread area is pulled by the first and third screws. The height of the screw of each step of the screw part provided in the base part can be made approximately the same size as the height of It may have the same height.
[0017]
The invention according to claim 4 is the number of turns in which a mouth portion is provided in the opening portion and the outer peripheral surface of the mouth portion has a three-stage thread region of a first-stage screw, a second-stage screw, and a third-stage screw. The height of the second stage screw in the thread region of the thread portion is 85 to 121% of the dimension of the first stage screw and the third stage screw adjacent thereto. It is characterized by being formed in dimensions.
[0018]
According to the bottle can body of the present invention, the height of the second-stage screw in the thread region of the thread portion is 85 to 121% of the dimension of the first-stage screw and the third-stage screw adjacent thereto. Since it is formed, it is possible to obtain a thread portion in which the threads of all the stages have substantially the same height as the height of the first stage screw and the third stage screw adjacent thereto.
[0019]
According to a fifth aspect of the present invention, there is provided the bottle can according to the fourth aspect, and a cap attached to a base of the bottle can.
ADVANTAGE OF THE INVENTION According to the bottle which concerns on this invention, when a cap is attached, the favorable bottle which does not have a possibility that a cap shift | deviates by positive pressure in a bottle can body, or a bridge breakage will generate | occur | produce is obtained.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 to 7 are views showing a screw forming apparatus according to a first embodiment of the present invention, and FIG. 1 is an explanatory view showing a state where a bottle can is positioned at a position facing the screw forming apparatus. FIG. 2 is an explanatory view showing a state in which the screw forming device forms a screw portion in a mouth portion of a bottle can body, FIG. 3 is an external view of a screw forming portion showing a core of the screw forming device, and FIG. 3 is an enlarged view of a screw forming portion of the core of FIG. 3, FIG. 5 is an explanatory view from above showing a screw portion formed on the base of the bottle can by the screw forming apparatus, and FIG. 6 is a top view of the base of the bottle can. FIG. 7 is an explanatory diagram showing a state in which a screw portion is formed. FIG. 7 is a diagram showing a relationship between the height of a second-stage screw in a thread region formed in a mouth portion of a bottle can body and the angle of the screw portion in the mouth portion. FIG.
Before explaining the screw forming apparatus 10 of the embodiment shown in FIGS. 1 and 2, the bottle can 1 handled by the screw forming apparatus 10 is for putting therein contents such as carbonated drinks and fruit juice drinks. Then, after being formed into a bottomed cylindrical shape by a thin metal plate made of aluminum or an aluminum alloy, a base 2 having a smaller diameter than the can body is formed at the opening of the bottle can body 1, and thereafter, the base 2 is formed. The threaded portion 3 is formed by the threading device 10 around the periphery of the screw (see FIG. 9).
[0021]
The screw forming apparatus 10 includes a core 11 that is in contact with the inner peripheral surface of the base 2 of the bottle can 1 and an outer core 12 that is in contact with the outer peripheral surface. By rotating around the axis O of the bottle can 1 while sandwiching the base 2 with the base 12, the screw 3 is formed around the base 2.
As shown in FIGS. 1 and 2, the core 11 and the outer core 12 have screw-forming portions 21, 22 having an uneven shape for forming the screw portion 3 on the outer peripheral surface thereof, and correspond to each other in a spiral shape. The bottle cans are formed between the concave and convex shapes by being moved in the radial direction by the cam rollers C1 and C2 which are formed in the respective shapes and move in the radial direction according to the position of the second housing 42 with respect to the first housing 41. The base 2 of the body 1 can be deformed so as to form the screw 3 by sandwiching the base 2.
[0022]
The core 11 and the outer core 12 are provided inside the second housing 42. The second housing 42 is biased and held to the distal end side with respect to the first housing 41 and fixes the third housing 44. A retaining ring 47 is attached to the third housing 44 so as to be rotatable about an axis O. An elastic member 46 urged toward the distal end via a spring 45 is attached to the press ring 47. The elastic member 46 has a conical surface 46a along a tapered shoulder formed on the bottle can 1, and a cylindrical surface 46b along the can body. When pressed, it is pressed against the bottle can 1.
[0023]
In FIGS. 1 and 2, reference numeral 35 denotes a stopper member fixed to the work holding portion 30, and the pressing ring 47 abuts on the stopper member 35 to fix the third pressing member 47. The axially most advanced positions of the housing 44, the second housing 42, and the core 11 and the outer core 12 provided inside the second housing 42 with respect to the work holding portion 30 are determined.
Although not shown in detail, the work holding unit 30 includes a die ring 31 that holds the bottle can 1 by fitting the bottom of the bottle can 1, and a can body of the bottle can 1 that is expanded by air. And a ring-shaped hollow elastic member 32 for tightening and holding a chuck function.
[0024]
As shown in FIG. 1, the screw forming device 10 first moves the bottle can 1 whose bottom is held by the die ring 31 of the work holding unit 30 to the opposing position as shown in FIG. By the advance of 30, the cylindrical surface 46b is fitted into the can body from the shoulder of the bottle can 1, and then the work holding part 30 advances further, the holding ring 47 abuts against the stopper member 35, and the second housing 42 and The advance of the third housing 44 is stopped, and the work holding unit 30 further advances, so that the axial distance between the first housing 41 and the second housing 42 is reduced.
[0025]
At this time, as the first housing 41 advances to a predetermined position as shown in FIG. 2, the first housing 41 moves with respect to the second housing 42, and the cam rollers C1 and C2 move on the slopes 41a and 41b of the first housing. Along, the core 11 moves along with it and comes into contact with the inner peripheral surface of the base 2 of the bottle can 1, and the outer core 12 moves and comes into contact with the outer peripheral surface of the base 2. Thereby, the base 2 is sandwiched between the core 11 and the outer core 12, and in this state, the entire device 10 further rotates around the axis O, so that the screw 3 is formed in the base 2. ing.
[0026]
In this case, the screw portion 3 formed on the base portion 2 of the bottle can 1 is formed to have 2.2 turns as shown in FIG. 11 in this example. As shown in FIG. 11, the screw portion 3 has a thread region L including three stages of a first-stage screw 3a, a second-stage screw 3b, and a third-stage screw 3c on the outer peripheral surface of the base 2. Become.
[0027]
In order to form the screw portion 3 on the outer periphery of the core 11, an uneven screw forming portion 21 is provided as shown in FIG. 3, and the screw forming portion 21 has a thread region L of the screw portion 3. And a thread region L1 corresponding to
In this embodiment, as shown in FIG. 4, among the first to third thread forming portions 21 a to 21 c of the thread region L <b> 1 in the screw forming portion 21, the thread of the second thread forming portion 21 b is formed. Are formed higher (deeper) than the threads of the first-stage screw forming portion 21a and the third-stage screw forming portion 21c.
[0029]
That is, in the screw forming portion 21 of the core 11, a first-stage screw forming portion 21a for forming the first-stage screw 3a of the screw portion 3 provided in the base 2 and a second-stage screw 3b of the screw portion 3 are formed. Of the second-stage screw forming portion 21b and the third-stage screw forming portion 21c of forming the third-stage screw 3c of the screw portion 3, only the threads of the second-stage screw forming portion 21b are: It is formed slightly higher than the first-stage screw forming portion 21a and the third-stage screw forming portion 21c.
[0030]
In this case, as shown in FIG. 5, the thread region L1 in the core 11 has an angle of −10 ° from the screw start portion 3A of the screw portion 3 in the direction opposite to the forming direction of the screw portion 3, and From there, it corresponds to a range of an angle of 40 ° to the screw end direction, and thus corresponds to a range of an angle of 350 to 400 ° from the screw start part 3A of the screw part 3 formed in the base part 2. .
The second-stage screw forming portion 21b in the thread region L1 is formed higher than the first-stage screw forming portion 21a and the third-stage screw forming portion 21c within the above-mentioned angle range.
In FIG. 5, reference numeral 2a denotes the inner peripheral wall of the base 2 of the bottle can 1.
[0031]
Since the screw forming apparatus 10 of this embodiment is configured as described above, in order to provide the screw portion 3 in the bottle can 1, as shown in FIG. When the bottle can 1 whose bottom is held by the work holding portion 30 is positioned at an opposing position, the cylindrical surface 46b is fitted into the can body from the shoulder of the bottle can 1 by the advance of the work holding portion 30. Then, the work holding portion 30 further advances, the holding ring 47 abuts on the stopper member 35, the advance of the second housing 42 and the third housing 44 is stopped, and the work holding portion 30 further advances to the first position. The axial distance between the housing 41 and the second housing 42 is reduced.
[0032]
At this time, as the first housing 41 advances to a predetermined position as shown in FIG. 2, the first housing 41 moves with respect to the second housing 42, and the cam rollers C1 and C2 move to the slopes 41a of the first housing, 41b, the core 11 moves along with the inner peripheral part of the base 2 of the bottle can and comes into contact therewith, and the outer core 12 moves and contacts the outer peripheral of the base 2 The screw part 3 as shown in FIG. 11 is formed on the base part 2 by sandwiching the base part 2 between the core 11 and the outer core 12 and further rotating the entire device around the axis O in this state. It becomes.
[0033]
In this case, when the screw part 3 of 2.2 turns is formed along the outer peripheral surface of the base part 2 by the rotation of the core 11 and the outer part 12, in the base part 2, the first-stage screw 3 a of the screw part 3 is formed. The third-stage screw 3c pulls the second-stage screw 3b therebetween in the directions a and b as shown by the solid line from the chain line in FIG. May be done.
[0034]
However, as described above, in the screw forming portion 21 provided on the outer periphery of the core 11 of the screw forming device 10, in the range of the thread region L1 having three steps, as shown in FIG. Since the height of the forming portion 21b is formed to be slightly higher than the height of the first-stage screw forming portion 21a and the third-stage screw forming portion 21c, the first-stage screw 3a and the first-stage screw 3a of the screw portion 3 are formed when the screw portion 3 is formed. Even if the material of the base portion 2 forming the third-stage screw 3c pulls the material forming the second-stage screw 3b mutually, as a result, the material of the second-stage screw 3b formed in the base portion 2 is reduced. The height of the screw can be formed to be substantially the same as the height of the other screws, that is, the first screw 3a and the third screw 3c.
[0035]
Accordingly, by increasing the height of only the second-stage screw forming portion 21b of the core 11, all the screw portions 3 formed on the bottle can 1 can have substantially the same height and depth. As shown in FIG. 10, when the cap 5 is attached to the base 2 of the bottle can 1, not only can the cap 5 be prevented from being displaced by the pressure of the contents, but also the bridge of the cap 5 can be broken. It does not occur.
[0036]
Moreover, when the depth of the screw portion 3 formed in the base 2 is set to, for example, 0.7 mm, the second-step screw forming portion 21b of the screw forming portion 21 of the core 11 The angle from the screw start part 3A to the direction opposite to the direction of the screw part is -10 °, and the angle is 40 ° along the direction of the screw part. This corresponds to an angle range of 350 to 400 °.
[0037]
Incidentally, when the height of the second stage screw 3b in the thread region L of the screw portion 3 formed in the base 2 was measured, as shown in FIG. 0.7 mm), it is slightly larger in a mountain shape. The error in this case was a small value of 0.01 to 0.05 mm in the range of 350 ° to 400 °, and it was confirmed that the cap 5 did not shift.
However, according to this embodiment, an example in which the second-stage screw 3b of the screw portion 3 is formed slightly larger than the first-stage screw 3a and the third-stage screw 3c by the second-stage screw forming portion 21b of the core 11 is described. Although shown, it is sufficient if the size is such as to prevent cap displacement and breakage of the bridge of the cap. Therefore, the height is 0.60 to 085 mm with respect to the set height (0.7 mm), that is, 85 to 121%. , And more preferably in the range of 0.65 to 0.75 mm.
[0038]
When the screw part 3 is formed on the base part 2 of the bottle can body 1 by the screw forming apparatus 10, the first to third screws 3a to 3c surely form the screw part 3 having substantially the same depth. As a result, a bottle can 1 having a good screw portion 3 is obtained.
[0039]
Furthermore, if the cap 5 is attached to such a bottle can 1, even if the cap 5 is filled with high-pressure contents, there is no risk of the cap 5 being displaced, and a reliable bottle can be reliably obtained. Can be.
[0040]
FIG. 8 shows a screw forming apparatus according to a second embodiment of the present invention.
In the above-described embodiment, an example is shown in which the second-stage screw forming portion 21b of the screw forming portion 21 of the core 11 is enlarged, but in this embodiment, the first to third steps of the screw forming portion 21 of the core 11 are illustrated. In addition to the external thread forming portions 21a to 21c being formed at the same depth as they are, the screw forming portion 22 having the first to third-stage screw forming portions 22a to 22c provided on the outer peripheral surface of the outer arm 12, It is characterized in that the depth of the first-stage screw forming portion 22b is larger than that of the first-stage screw forming portion 22a and the third-stage screw forming portion 22c.
In this case, the height of the second-stage screw forming portion 22b corresponds to the size of the second-stage screw forming portion 21b of the core 11.
[0041]
Therefore, according to this embodiment, the height of the second-stage screw forming portion 22b of the outer arm 22 is formed larger than the heights of the other screw forming portions 22a and 22c. When formed, the same operation and effect as those of the above-described embodiment can be obtained.
[0042]
In the illustrated embodiment, an example in which the depth of the second-stage screw forming portion 21b of the thread forming portion 21 of the core 11 and the depth of the second-stage screw forming portion 22b of the screw forming portion 22 of the outer core 12 are respectively increased. Although shown, for example, a similar effect can be obtained even if both of the second-stage screw forming portions 21b and 22b are simultaneously made larger than the other ones (21a, 21c and 22a, 22c).
Further, in the illustrated embodiment, the screw forming apparatus 10 has formed the screw part 3 of 2.2 turns on the base part 2 of the bottle can body 1. However, when the number of turns is further increased, for example, 2.5 times The present invention can be applied to a case where the number of turns is equal to the number of turns, and is not limited to the illustrated embodiment.
[0043]
【The invention's effect】
As described above, according to the first aspect of the present invention, in the screw forming portion provided in the core, the second-stage screw forming portion for forming the second-stage screw in the thread region of the base portion is provided. Since it was formed deeper than the depth of the first-stage screw forming portion and the third-stage screw forming portion adjacent thereto, when a thread portion was formed on the outer peripheral surface of the base portion with the core and the outer core, the screw portion was provided on the base portion. As a result, the heights of the screws in the respective steps of the screw portion can be made substantially the same. As a result, it is possible to form a good screw portion without displacement of the applied cap or breakage of the bridge. The effect is obtained.
[0044]
According to the invention according to claim 2, in the screw forming portion provided on the outer core, the second-stage screw forming portion for forming the second-stage screw in the thread region of the mouthpiece portion is a single-step adjacent to the second-stage screw forming portion. Since the thread was formed deeper than the depth of the eye screw forming part and the third thread forming part, when the screw part was formed on the outer peripheral surface of the base part with the core and the outer core, each of the screw parts provided in the base part was formed. As a result, the height of the screw of the step can be made substantially the same. As a result, it is possible to obtain an effect that a good screw portion can be formed without displacement of the attached cap or breakage of the bridge.
[0045]
According to the invention according to claim 3, when the core portion and the outer core form a screw portion on the outer peripheral surface of the base portion, the second-stage screw in the thread region is pulled by the first-stage screw and the third-stage screw. Even if it is, the height of the second-stage screw is configured to be approximately the same as the height of the first-stage screw and the third-stage screw. As a result that the heights of the screws of the step can be made substantially the same, an effect that a more reliable screw portion can be reliably formed can be obtained.
[0046]
According to the invention according to claim 4, the height of the second-stage screw in the thread region of the thread portion is formed to be 85 to 121% of the size of the first-stage screw and the third-stage screw adjacent thereto. Therefore, there is an effect that a thread portion in which the threads of all the steps have an equal height can be obtained.
[0047]
According to the fifth aspect of the present invention, when the cap is attached, there is an effect that a good bottle can be obtained without the possibility of the cap being displaced by positive pressure in the bottle can body or the occurrence of bridge breakage.
[Brief description of the drawings]
FIG. 1 is a view showing a screw forming apparatus according to a first embodiment of the present invention, and is an explanatory view showing a state where a bottle can is positioned at a position facing the screw forming apparatus.
FIG. 2 is an explanatory view showing a state in which a screw forming device forms a screw portion on a mouth portion of a bottle can body.
FIG. 3 is an external view of a screw forming section showing a core of the screw forming apparatus.
FIG. 4 is an enlarged view of a thread forming portion of the core of FIG. 3;
FIG. 5 is an explanatory diagram viewed from above showing a screw portion formed on the mouth portion of the bottle can body by the molding apparatus.
FIG. 6 is an explanatory view showing a state in which a screw portion is formed in a base portion of the bottle can body.
FIG. 7 is an explanatory diagram showing a relationship between a height (correction height) of a second-stage screw in a thread region formed in a mouth portion of a bottle can body and an angle of the screw portion in the mouth portion.
FIG. 8 is a view showing a screw forming apparatus according to a second embodiment of the present invention, and is an explanatory view of a main part showing a screw forming portion provided on an outer core.
FIG. 9 is an explanatory view showing a process until a thread portion is formed on the bottle can body.
FIG. 10 is an explanatory view of attaching a cap to a bottle can having a screw portion.
FIG. 11 is an explanatory view when a three-stage screw portion is provided on a bottle can body.
FIG. 12 is an explanatory view of a main part showing a problem when a three-stage screw portion is formed on a bottle can body by a conventional screw forming apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Bottle can body 2 Base part 3 Screw part 3a First-stage screw 3b Second-stage screw 3c Third-stage screw 10 Screw forming device 11 Core 12 Outer core 21 Core screw forming part 22 Outer screw forming part 21b Medium Second-stage screw forming section 22b in outer thread forming section Second-stage screw forming section in outer screw forming section

Claims (5)

A core having a screw forming portion for providing a screw portion to be formed on the base portion on the outer periphery, abutting against the inner peripheral surface of the base portion of the bottle can body, and abutting on the outer peripheral surface of the base portion, and An outer core having a screw forming portion having a shape corresponding to the screw forming portion of the core on the outer periphery,
The core and the outer core are rotated around the axis of the bottle body while sandwiching the base, and the outer peripheral surface of the base is formed of a first-stage screw, a second-stage screw, and a third-stage screw. A screw forming apparatus for forming a thread portion having a number of turns having a thread region comprising:
The screw forming portion of the core includes a second-stage screw forming portion that forms a second-stage screw in the thread region of the base portion, and a first-stage screw forming portion and a third-stage screw forming portion adjacent thereto. A screw forming apparatus characterized in that the screw forming apparatus is formed so as to be deeper than the depth of the screw. A core having a screw forming portion for providing a screw portion to be formed on the base portion on the outer periphery, abutting against the inner peripheral surface of the base portion of the bottle can body, and abutting on the outer peripheral surface of the base portion, and An outer core having a screw forming portion having a shape corresponding to the screw forming portion of the core on the outer periphery,
The core and the outer core are rotated around the axis of the bottle body while sandwiching the base, and the outer peripheral surface of the base is formed of a first-stage screw, a second-stage screw, and a third-stage screw. A screw forming apparatus for forming a thread portion having a number of turns having a thread region comprising:
The screw forming portion of the outer core includes a second-stage screw forming portion that forms a second-stage screw in the thread region of the base portion, and a first-stage screw forming portion and a third-stage screw forming portion adjacent thereto. A screw forming apparatus characterized in that the screw forming apparatus is formed so as to be deeper than the depth of the screw. A core having a screw forming portion for providing a screw portion to be formed on the base portion on the outer periphery, abutting against the inner peripheral surface of the base portion of the bottle can body, and abutting on the outer peripheral surface of the base portion, and An outer core having a screw forming portion having a shape corresponding to the screw forming portion of the core on the outer periphery,
The core and the outer core are rotated around the axis of the bottle body while sandwiching the base, and the outer peripheral surface of the base is formed of a first-stage screw, a second-stage screw, and a third-stage screw. A screw forming apparatus for forming a thread portion having a number of turns having a thread region comprising:
The screw forming portion of the core includes a second-stage screw forming portion that forms a second-stage screw in the thread region of the base portion, and a first-stage screw forming portion and a third-stage screw forming portion adjacent thereto. Formed deeper than the depth of
The screw forming portion of the outer core includes a second-stage screw forming portion that forms a second-stage screw in the thread region of the base portion, and a first-stage screw forming portion and a third-stage screw forming portion adjacent thereto. A screw forming apparatus characterized in that the screw forming apparatus is formed so as to be deeper than the depth of the screw. A mouth part is provided in the opening, and a screw part having a number of turns having a thread region consisting of three steps of a first-stage screw, a second-stage screw, and a third-stage screw is provided on the outer peripheral surface of the mouth portion. In the bottle can body,
The height of the second stage screw in the thread region of the thread portion is formed to be 85 to 121% of the dimension of the first stage screw and the third stage screw adjacent thereto. Can body. A bottle comprising: the bottle can according to claim 4; and a cap attached to a base of the bottle can.

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