CN202163664U - Bottle manufacturing device and bottle - Google Patents

Abstract

The utility model discloses a bottle manufacturing device and a bottle. By the manufacturing device in the utility model, a tubular body with a bottom, which can be formed into the bottle, is at least subjected to the following procedures: the tubular body with the bottom is formed into a body part, a shoulder part and a neck pre-forming part; the neck pre-forming part is formed into a skirt part, a threaded part, a closing part and a winding part; due to the manufacturing device, before the threaded part is formed and after the conical closing part and the winding part are formed, the opening end face of the neck pre-forming part is further finished in to a shape tilted outward, so that after the wining part is formed, the angle difference between the inclined angle of the opening end face and the inclined angle of the conical closing part is in the range of 0 degrees to -20 degrees; in addition, the inclined angle of the opening end face and the inclined angle of the conical closing part both take the direction which is vertical to the axis of the tubular body with the bottom as the benchmark.

Description

The manufacturing installation of Bottle & Can and Bottle & Can

Technical field

The utility model relates to the manufacturing technology of Bottle & Can, particularly the manufacturing installation of metallic Bottle & Can and metallic Bottle & Can (this paper abbreviates " Bottle & Can " as with " metallic Bottle & Can ").

Background technology

Usually use bottle to contain liquid, especially various types of beverages at present.Bottle generally comprises Bottle & Can that is used for containing liquid and the lid that is used to seal Bottle & Can, lid can through and Bottle & Can between screw thread fit and open and close times without number, make pour out partially liq in the Bottle & Can after remaining liquid can also be sealed again.

Prior art is in order to obtain above-mentioned Bottle & Can, at first need pass through pull and stretch (Cupping), attenuate stretch, cut edge (Trimming), washing-drying, side be coated with-multi-step process such as drying, printing-recoat-bottom margin coating-drying, inside face coating-drying mold bottom the having shown in Fig. 1 a 11 and barrel-contoured wall portion 101 bottom tube-like body 100 arranged.

Then; To have bottom tube-like body 100 carry out inner surface inspection and qualified after; According to the mode shown in Fig. 1 a to Fig. 1 g (pattern, Fig. 1 e that the dash area among Fig. 1 a to Fig. 1 d and Fig. 1 f is illustrated in the 100 outside face printings of bottom tube-like body for the semi-sictional view enlarged drawing at A place among Fig. 1 d and omitted hatching, Fig. 1 g be the semi-sictional view enlarged drawing at B place among Fig. 1 f and omitted hatching); Utilize a manufacturing installation bottom tube-like body 100 to be arranged (though " the bottom tube-like body is arranged " as herein described through after each road manufacturing procedure shape or structural variation can take place all to inner surface inspection is up-to-standard; But for the ease of statement, this paper is referred to as final molding " the bottom tube-like body is arranged " and uses unified label " 100 " for " Bottle & Can " all forms shown in Fig. 1 a to Fig. 1 e before shown in Fig. 1 f and Fig. 1 g) sequentially carry out following operation:

Constriction (Necking) operation; The wall portion 101 that bottom tube-like body 100 is arranged shown in Fig. 1 a is implemented repeatedly constriction processing; Make the wall portion 101 of bottom tube-like body 100 form body portion 12 as Fig. 1 b shown in, be the shoulder 13 of taper and the bore that extends along the axis direction that bottom tube-like body 100 is arranged in advance formation portion 140 (with " the bottom tube-like body is arranged " in like manner, this paper is referred to as final molding " bore is formation portion in advance " and uses unified label " 140 " for the bore portion shown in Fig. 1 f 14 all forms before); And; After each constriction; The length and the diameter of formation portion 140 all can change in advance owing to bore; The height that causes bottom tube-like body 100 is arranged uprises, bore in advance the open end 141 of the whole circle of formation portion 140 also can produce rugged residual limit; Thereby also need excise the bore residual limit of the open end 141 of the whole circle of formation portion 140 in advance; With control the height of bottom tube-like body 100 is arranged, and, with bore in advance open end 141 finishings of the whole circle of formation portion 140 concordant, and keep level (when " level " as herein described is meant bottom tube-like body 100 or the 10 normal placements of the Bottle & Can as Fig. 1 f shown in perpendicular to the direction of axis but not be meant the absolute direction that all keeps level in the space at any time) state perpendicular to the axis direction that bottom tube-like body 100 is arranged;

The skirt section molding procedure; To the bore that bottom tube-like body 100 is arranged shown in Fig. 1 b in advance the lower sides of formation portion 140 mold the skirt section 15 shown in Fig. 1 c; And open end 141 finishing of the whole circle of formation portion 140 is concordant and keep aforesaid horizontality in advance with bore;

The thread forming operation; To the bore that bottom tube-like body 100 is arranged shown in Fig. 1 c in advance the middle part sidewall that is positioned at 15 tops, skirt section of formation portion 140 mold the threaded portion 16 shown in Fig. 1 d; And; Referring to Fig. 1 e, open end 141 finishing of the whole circle of formation portion 140 is concordant and keep aforesaid horizontality in advance with bore;

The end face operation of curling; The bore that bottom tube-like body 100 is arranged that will be shown in Fig. 1 d and Fig. 1 e in advance the upper portion side wall that is positioned at 16 tops, threaded portion of formation portion 140 contract earlier the closing in portion 17 that forms taper and then outwards cans be the curled portion 18 shown in Fig. 1 f and Fig. 1 g; Make bore in advance formation portion 140 be that final molding is the bore portion 14 with skirt section 15, threaded portion 16, closing in portion 17 and curled portion 18 shown in Fig. 1 f and Fig. 1 g; Correspondingly, have bottom tube-like body 100 also final molding be Bottle & Can 10 shown in Fig. 1 f and Fig. 1 g.Through the end face operation of curling, the open end 141 that keeps horizontality originally along with curled portion 18 can be after curling 11 towards the bottom, and be partial to the outer tilt of Bottle & Can 10 slightly.

After the Bottle & Can 10 that obtains shown in Fig. 1 f and Fig. 1 g, also need clean and be used to check whether Bottle & Can 10 exists the optical tests of perforation or defectives such as be full of cracks, and then the each several part of Bottle & Can 10 is carried out Integrated Checkout.Integrated Checkout mainly is to utilize image testing device to check whether the each several part of Bottle & Can 10 exists dirt and damage, has only the up-to-standard Bottle & Can 10 of Integrated Checkout can be identified as finished product.

Wherein, when curled portion 18 is checked, can there be following problem:

As shown in Figure 2; Image testing device 20 is arranged at the outside of Bottle & Can 10, and whether the top 18a and the side 18b that take curled portion 18 to oblique upper slightly on perpendicular to the direction of the axis of Bottle & Can 10 defectives (light path of the dotted line presentation video testing fixture 20 among Fig. 2) such as crackle appear.Because the each several part surface of Bottle & Can 10 all had been coated with coated film before curling; If thereby defectives such as crackle appear in top 18a and side 18b; Then defect part can produce higher brightness than the part that is coated with coated film, thereby image testing device 20 can the part that brightness is higher be regarded as defective, also Bottle & Can to be detected 10 regarded as defect ware.

Yet; Because open end 141 is partial to the outer tilt of Bottle & Can 10 after curling slightly along with curled portion 18; Just slightly towards the light path of image testing device 20, thereby when Integrated Checkout, image testing device 20 photographs open end 141 easily; Even and if because open end 141 is coated with coated film and also can be excised through finishing repeatedly, thereby open end 141 also can produce higher brightness than the part that is coated with coated film.Thus, as long as image testing device 20 photographs open end 141, promptly can the open end 141 that produce higher brightness be regarded as defective, also should think to be detected by mistake to be defect ware for the Bottle & Can 10 of finished product.

Above-mentionedly should think it is that the situation of defect ware occurs by mistake in order to reduce for the Bottle & Can 10 of finished product; The position that prior art has to abandon 18a and side 18b at the top applies coated film; So that top 18a and side 18b can have higher brightness, dwindle luminance difference with open end 141.But so handle; Still can not effectively reduce the above-mentioned probability of occurrence that should think the situation that is defect ware for the Bottle & Can 10 of finished product by mistake; And, also can influence the correct identification of the defective of top 18a and side 18b and make top 18a and side 18b can't receive the protection of coated film.

The utility model content

Based on above-mentioned discovery, the utility model provides a kind of manufacturing installation and a kind of Bottle & Can of Bottle & Can.

The manufacturing installation of a kind of Bottle & Can that the utility model provides, it is equiped with at least implements the following instrument of processing to the bottom tube-like body that has that may be molded to said Bottle & Can:

Be used to make have a bottom said to have that bottom tube-like is body formed to go out body portion, the shoulder that is taper and bore some machining tools of formation portion in advance;

Be used to make said bore in advance formation portion mold some machining tools of skirt section, threaded portion, closing in portion and curled portion;

The principal character of this manufacturing installation is: also comprising can be after molding said threaded portion; Mold before said taper closing in portion and the curled portion; With said bore in advance the open end of formation portion be trimmed to the end face dressing tool of outward-dipping shape; So that the angle of inclination of the said open end of said open end after said curled portion moulding has 0 °～-20 ° differential seat angle (angle of inclination of the angle of inclination of said open end and said taper closing in portion is all so that the direction of the axis of bottom tube-like body is arranged is benchmark perpendicular to said) with respect to the angle of inclination of said taper closing in portion; So that the employed image testing device of Integrated Checkout is difficult for photographing open end; Thereby, can effectively reduce the probability of occurrence of thinking the situation that is defect ware owing to photographing open end and with the Bottle & Can of finished product by mistake.And then; Because image testing device is difficult for photographing open end; Thereby just need not also that inside face applies coated film on the top of curled portion, thereby can guarantee when Integrated Checkout the correct identification of the defective of the top inside face of curled portion and guarantee that the top inside face of curled portion can receive the protection of coated film for the luminance difference between the top inside face that dwindles open end and curled portion.

Correspondingly; A kind of Bottle & Can that the utility model provides; This Bottle & Can be processed by above-mentioned manufacturing installation, thereby when this Bottle & Can carried out Integrated Checkout, can effectively reduce owing to photograph open end the probability of occurrence of the Bottle & Can of finished product being thought by mistake the situation that is defect ware.And the top inside face of curled portion still can be coated with coated film, to guarantee when the Integrated Checkout the correct identification of the defective of the top inside face of curled portion and to guarantee that the top inside face of curled portion can receive the protection of coated film.

Preferably, with respect to perpendicular to the said horizontal direction that the axis of bottom tube-like body is arranged, the bevelled angle of said taper closing in portion is got 33 °～55 °.

Description of drawings

Fig. 1 a to Fig. 1 g is for having according to prior art that bottom tube-like is body formed to be the form scheme drawing in the process of Bottle & Can.

The scheme drawing of Fig. 2 during for the curled portion of Bottle & Can of inspection shown in Fig. 1 g.

Fig. 3 a and Fig. 3 b are according to the form scheme drawing that the bottom tube-like body is arranged after thread forming in the manufacturing process of the Bottle & Can of the utility model and the finishing.

Fig. 4 a and Fig. 4 b are the form scheme drawing of the Bottle & Can after curling according to the end face in the manufacturing process of the Bottle & Can of the utility model.

The scheme drawing of Fig. 5 during for the curled portion of inspection Bottle & Can as shown in Figure 4.

Fig. 6 a to Fig. 6 c is the rough schematic view according to the manufacturing installation of the Bottle & Can of the utility model.

Fig. 7 is the rough schematic view of a kind of dressing tool in the manufacturing installation shown in Fig. 6 a to Fig. 6 c.

Nomenclature:

10,30: Bottle & Can

100,300: the bottom tube-like body is arranged

101: wall portion

11,31: the bottom

12,32: body portion

13,33: shoulder

14,34: bore portion

140,340: bore is formation portion in advance

141,341: bore is the open end of formation portion in advance

15,35: the skirt section

16,36: the threaded portion

17,37: closing in portion

18,38: curled portion

18a, 38a: top

18b, 38b: side

20: image testing device

6: manufacturing installation

61: the workpiece maintaining part

611: the disk of workpiece maintaining part

612: the base wad of workpiece maintaining part

613: the inlet of workpiece maintaining part

614: the outlet of workpiece maintaining part

62: the instrument maintaining part

621: the disk of instrument maintaining part

622: the machining tool of instrument maintaining part

63: the support portion

64: drive division

70: dressing tool

71: tool body

72: drive element

73: shape holding part

74: cut edge

T: the axis of manufacturing installation

α 1: the angle of inclination of open end before the operation of curling

α 2: the angle of inclination of open end after the operation of curling

θ: the angle of inclination of the conical surface of closing in portion

The specific embodiment

For the purpose, technical scheme and the advantage that make the utility model is clearer, below with reference to the accompanying drawing embodiment that develops simultaneously, to the utility model further explain.

The manufacturing process of the Bottle & Can that the utility model adopted; Still comprise conventional constriction operation and finishing afterwards, skirt section molding procedure and finishing afterwards thereof, thread forming operation and the end face operation of curling, but after the thread forming operation, the end face finishing mode of curling before the operation slightly improves.

At first; Referring to Fig. 3 a and Fig. 3 b (pattern, Fig. 3 b that the dash area among Fig. 3 a is illustrated in the 300 outside face printings of bottom tube-like body are the semi-sictional view enlarged drawing at C place among Fig. 3 a and have omitted hatching); What have bottom 31 and wall portion (not shown among Fig. 3 a and Fig. 3 b) has bottom tube-like body 300 through after constriction operation and finishing afterwards, skirt section molding procedure and finishing afterwards thereof and the thread forming operation; Further mold body portion 32, be the shoulder 33 of taper and the bore that extends along the axis direction that bottom tube-like body 300 is arranged formation portion 340 in advance in wall portion, bore formation portion 340 in advance molds skirt section 35 and threaded portion 36 again.But; With bore in advance the open end 341 of the whole circle of formation portion 340 be trimmed to when concordant; Be not that open end 341 is trimmed to the horizontal surface shape perpendicular to the axis that bottom tube-like body 300 is arranged; But with bore in advance the open end 341 of the whole circle of formation portion 340 be trimmed to the bore outside bevelled shape of formation portion 340 in advance, that is, open end 341 conical surface and the conical surface in the form of a ring of the whole circle of formation portion 340 is outside in advance to make bore.At this moment, compare horizontal direction perpendicular to the axis that bottom tube-like body 300 is arranged, bore in advance the open end 341 of the whole circle of formation portion 340 be trimmed to bore in advance the outside bevelled angle of formation portion 340 be α 1.

Then; The bore that bottom tube-like body 300 is arranged that will be shown in Fig. 3 a and Fig. 3 b in advance the upper portion side wall that is arranged in 36 tops, threaded portion of formation portion 340 contract earlier form the closing in portion 37 of taper, more outwards cans for as Fig. 4 a and Fig. 4 b (pattern, Fig. 4 b that the dash area of Fig. 4 a is illustrated in the 300 outside face printings of bottom tube-like body are the semi-sictional view enlarged drawing at Fig. 4 a D place and have omitted hatching) shown in curled portion 38; Make bore in advance formation portion 340 final molding be bore portion 34 with skirt section 35, threaded portion 36, closing in portion 37 and curled portion 38; Correspondingly, have bottom tube-like body 300 also final molding be Bottle & Can 30 shown in Fig. 4 a and Fig. 4 b.

Through the curling operation of end face; Originally compare horizontal direction perpendicular to the axis that bottom tube-like body 300 is arranged be angle [alpha] 1 to bore in advance the outside bevelled open end 341 of formation portion 340 can curl along with curled portion 38, the open end 341 after curling is compared the angle of inclination that has α 2 perpendicular to the horizontal direction of the axis of Bottle & Can 30.

Tilt angle alpha 2 has-0 °～-20 ° differential seat angle than the conical surface of closing in portion 37 with respect to the tilt angle theta perpendicular to the horizontal direction of the axis of Bottle & Can 30, that is, this differential seat angle can be expressed as-20 °≤α 2-θ≤-0 °.Thereby, can make the open end 341 after curling be more prone to the conical surface, rather than be more prone to be partial to the outer tilt of Bottle & Can 30 towards (or being more prone to parallel) closing in portion 37.

If α 2-is θ≤and-20 °, then make the open end 341 after curling still can as prior art, be more prone to be partial to the outer tilt of Bottle & Can 30 easily, thereby cause image testing device 20 to photograph open end 341 easily; What other needed supplemental instruction is, if when implementing aforesaid finishing, with bore in advance the open end 341 of the whole circle of formation portion 340 be trimmed to the bore inboard bevelled shape of formation portion 340 in advance, then must cause α 2-θ≤-20 °;

And if-0 °≤α 2-θ; The tilt angle alpha 1 that then when finishing, need cut out is excessive; Formation portion 340 is thin excessively in the wall thickness at open end 341 places in advance thereby cause bore, and then formation portion 340 is broken in open end 341 places in advance when curling, to be prone to cause bore.

In the practical application; The conical surface of closing in portion 37 is preferably got 33 °～55 ° with respect to the tilt angle theta perpendicular to the horizontal direction of the axis of Bottle & Can 30; The value of tilt angle alpha 2 then confirms that according to above-mentioned-0 °～-20 ° differential seat angle the value of tilt angle alpha 1 then can combine the value of tilt angle alpha 2 and the amount of crimp of curled portion 38 to confirm.

When Integrated Checkout curled portion 38, referring to Fig. 5 (light path of the dotted line presentation video testing fixture 20 among Fig. 5):

Image testing device 20 is arranged at the outside of Bottle & Can 30, and whether the top 38a and the side 38b that take curled portion 38 to oblique upper slightly on perpendicular to the direction of the axis of Bottle & Can 30 defectives such as crackle appear.At this moment, because the existence of above-mentioned-0 °～-20 ° differential seat angle, thereby open end 341 is more prone to the conical surface towards (or being more prone to parallel) closing in portion 37 after curling, just the light path of image testing device 20 dorsad;

Correspondingly; The open end 341 that produces same high brightness with defective such as crackle also just is difficult for being photographed by image testing device 20; Thereby; Image testing device 20 taken hi-lites are that the probability of open end 341 also just reduces greatly, and then, also should think it is the probability of defect ware by mistake for the Bottle & Can 30 of finished product owing to photograph open end 341 with regard to having reduced.

And; Because open end 341 is difficult for being photographed by image testing device 20; Thereby 38a and side 38b do not apply coated film at the top with regard to need not for the luminance difference that dwindles top 38a and side 38b and open end 341 yet; Thereby avoid the luminance difference of defectives such as crackle and top 38a and side 38b to dwindle, guarantee when Integrated Checkout the correct identification of the defective of top 38a and side 38b and guarantee top 38a and side 38b can receive the protection of coated film.

In order to realize above-mentioned technological process, the utility model correspondingly provides a kind of manufacturing installation of Bottle & Can 30.

Referring to Fig. 6 a to Fig. 6 c (Fig. 6 b be Fig. 6 a E to view, Fig. 6 c for the F of Fig. 6 a to view), above-mentioned manufacturing installation 6 generally includes workpiece maintaining part 61 and instrument maintaining part 62.Workpiece maintaining part 61 and instrument maintaining part 62 can be rotated and can support and driven by drive division 64 along axis T supported 63 on the ground that moves forward and backward relatively around axis T relatively.

Workpiece maintaining part 61 has a disk 611; This disk 611 is equiped with some base wads 612 (only show the part in all base wads 612 among Fig. 6 a and Fig. 6 b and omitted remainder) of annular arrangement towards the one side of instrument maintaining part 62, and what each base wad 612 clamping may be molded to Bottle & Can 30 has a bottom tube-like body 300 (not shown among Fig. 6 a, Fig. 6 b in be shown circular dashed line);

Instrument maintaining part 62 has another disk 621; This disk 621 is equiped with some machining tools 622 (only show the part in all machining tools 622 among Fig. 6 a and Fig. 6 c and omitted remainder) of annular arrangement towards the one side of workpiece maintaining part 61, some machining tools 622 with have the opening of bottom tube-like body 300 to be provided with in opposite directions, and can make the each several part of bottom tube-like body 300 be shaped to the appropriate section shape of Bottle & Can 30 successively according to the order of annular arrangement.

Adding man-hour, drive division 64 drives between workpiece maintaining parts 61 and the instrument maintaining part 62 around axis T and rotates relatively rhythmically and stop, and makes between base wad 612 and the machining tool 622 synchronously to misplace.In the base wad 612 that has bottom tube-like body 300 to be positioned over to rotate to inlet 613 places and stop, and rotate to the position of each machining tool 622 of follow-up correspondence successively and stop with this base wad 612.The cooresponding machining tool 622 in each position that base wad 612 stops can be realized the corresponding operation that bottom tube-like body 300 is arranged that base wad 612 is kept.By that analogy, when base wad 612 rotation and stop at outlet 614 places, the having bottom tube-like body 300 to accomplish all process steps and be shaped to Bottle & Can 30 of its maintenance.

To the manufacturing procedure like the described Bottle & Can 30 of preamble, the machining tool 622 of the annular arrangement that the disk 621 of instrument maintaining part 62 is installed should comprise at least:

Conventional be used to make the bottom tube-like body 300 that has to form like Fig. 3 a and the shown body of 3b portion 32, the shoulder 33 that is taper and the bore some corresponding machining tool of formation portion 340 in advance in wall portion with bottom 31 and wall portion;

Conventional be used to make bore in advance formation portion 340 mold the some corresponding machining tool in the skirt section 35 shown in Fig. 3 a and 3b;

Conventional be used to make bore in advance formation portion 340 mold the some corresponding machining tool of threaded portion 36;

Conventional be used to make bore in advance formation portion 340 mold some machining tools of taper closing in portion 37 and curled portion 38;

And, can be before molding taper closing in portion 37 and curled portion 38, the finishing bore is several dressing tools of the open end 341 of formation portion 340 in advance, and all dressing tools are installed in the relevant position between aforementioned each machining tool interspersedly.

In all dressing tools, a dressing tool 70 as shown in Figure 7 is arranged, this dressing tool 70 comprises a tool body 71.The end of tool body 71 is installed in the one side towards workpiece maintaining part 61 of the disk 621 of instrument maintaining part 62 through a drive element 72; Its installation position be positioned at conventional being used to make bore in advance formation portion 340 mold after the arrangement position of some corresponding machining tools of threaded portion 36, conventional being used to make bore in advance formation portion 340 mold before the arrangement position of some machining tools of closing in portion 37 and curled portion 38.The cut edge 74 that the front end of tool body 71 is equiped with a shape holding part 73 and is positioned at shape holding part 73 outsides.

But the cut edge 74 of the front end of drive element 72 driven tool main bodys 71 and tool body 71 installing and shape holding part 73 are towards there being bottom tube-like body 300 to move; Make the cut edge 74 cutting bores open end 341 of formation portion 340 in advance; And, make bore that shape holding part 73 stretches to bottom tube-like body 300 in advance in the formation portion 340, prevent bore in advance formation portion 340 owing to receive the force of cut distortion.Because cut edge 74 is bevelled shape to the inside and the bevelled angle compared perpendicular to the horizontal direction of the axis that bottom tube-like body 300 is arranged is α 1.

Therefore, the open end 341 that forms the whole circle of portion 340 in advance by the bore after the cut edge 74 cutting finishing can have to bore and forms the outside bevelled shape of portion 340 in advance and the bevelled angle compared perpendicular to the horizontal direction of the axis that bottom tube-like body 300 is arranged is α 1.

After the finishing through dressing tool 70 as shown in Figure 7; Again by the routine after its arrangement position be used to make bore form some machining tools processing that portion 340 molds taper closing in portion 37 and curled portion 38 in advance, can make to mold aforesaid tilt angle theta that aforesaid tilt angle alpha 2 that the open end 341 after closing in portion 37 and the curled portion 38 had had with respect to closing in portion 37 and have 0 °～-20 ° differential seat angle.

The preferred embodiment that the above is merely the utility model is not the protection domain that is used to limit the utility model.All within the spirit and principle of the utility model, any modification of being done, be equal to replacement and improvement etc., all should be included within the protection domain of the utility model.

Claims (3)

1. the manufacturing installation of a Bottle & Can, it is equiped with at least implements the following instrument of processing to the bottom tube-like body that has that may be molded to said Bottle & Can:

Be used to make have a bottom said to have that bottom tube-like is body formed to go out body portion, the shoulder that is taper and bore some machining tools of formation portion in advance;

Be used to make said bore in advance formation portion mold some machining tools of skirt section, threaded portion, closing in portion and curled portion;

It is characterized in that: also comprising can be after molding said threaded portion; Mold before said taper closing in portion and the curled portion; With said bore in advance the open end of formation portion be trimmed to the end face dressing tool of outward-dipping shape; So that the angle of inclination of the said open end of said open end after said curled portion moulding has 0 °～-20 ° differential seat angle with respect to the angle of inclination of said taper closing in portion, the angle of inclination of the angle of inclination of said open end and said taper closing in portion is all so that the direction of the axis of bottom tube-like body is arranged is benchmark perpendicular to said.

2. manufacturing installation as claimed in claim 1 is characterized in that, with respect to perpendicular to the said horizontal direction that the axis of bottom tube-like body is arranged, the bevelled angle of said taper closing in portion is got 33 °～55 °.

3. Bottle & Can, it is processed by manufacturing installation according to claim 1 or claim 2.

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