CN203541338U - Press system and vacuum port assembly thereof - Google Patents

Abstract

The utility model provides a press system and a vacuum port assembly thereof. The press system comprises a stamp die assembly and a transmission assembly, wherein the transmission assembly comprises a conveyor belt, a vacuum manifold coupled to the stamp die assembly and an air current generator. The conveyor belt comprises a plurality holes and is configured to receive a plurality of housing in a plane and a plurality of housing moving relative to the stamp die assembly, and the vacuum port assembly comprises at least one port member including an inlet end portion configured to movably connect the at least one port member to an installation part of the vacuum manifold and an outlet end portion configured to communicate with the air current generator to allow the port member to form flow communication between the air current generator and the vacuum manifold. The inlet end portion is configured to be perpendicular to the plane of the conveyor belt and extends outwards from vacuum manifold in such a manner that the inlet end portion substantially perpendicular to the vacuum manifold. The press system and a vacuum port assembly thereof are easily removed, and maintenance and operation adjustment are easy. When a port member with large diameter is employed, enhanced performance is ensured.

Description

Press system and vacuum ports assembly thereof

Technical field

The utility model relates generally to press system, and particularly, the utility model relates to the press system such as conversion press.The utility model also relates to the vacuum ports assembly for press system.

Background technology

Press system (for example conversion press) is for tank-making industry, for example, the end partly forming or shell are formed to (conversion and fine finishining) can end or lid as completing completely, for example be easy to the end (EOE) of opening, for food or beer/container for drink.

Conventionally, shell enters press on conveyer belt, at this place's shell, by multiple die assemblies, progressively forms.In press system, in whole loading and metal forming process, need to set up and keep the desired locations of shell, correctly to form EOE.Some press system adopts vacuum pressure to keep during these processes and maintains shell, wherein conventionally utilize multiple air stream generators (hair-dryer of for example regenerating) and pipeline and/or conduit network that vacuum pressure is provided, this pipeline and/or conduit network are connected to the vacuum manifold each die assembly via the multiple vacuum ports on the end of the side of vacuum manifold, vacuum manifold and/or from die assembly below.

For all these known vacuum ports structures, there is number of drawbacks.Except other problem, the port of die assembly below need to carry out machined to lower die shoe, to form the conduit through the one of die shoe, and has the problem that enters during maintenance period.This structure is also easy to be subject to the impact of the problem relevant to gravity, for example due to port or one die shoe conduit place or around the gathering the air stream restriction causing or stop up of chip.Port through vacuum manifold also has maintenance issues, and the air stream causing due to size restrictions limits.Namely, port sizes (for example diameter) is limited to height or the retrievable space on the side of vacuum manifold.This limitation in height makes the port (for example less entrance is tapered to larger outlet) that must use the port of small diameter or have transition structure.This may limit air stream, and adversely affects the pressure reduction ability of air stream generator.

Fig. 1 shows exemplary die assembly 2, and it comprises lower die shoe 4 and is arranged on the vacuum manifold 6 in lower die shoe 4.Die assembly 2 comprises three vacuum ports 8,10,12.The first vacuum ports 8 stretches out from lower die shoe 4, and with pipeline or passage 14(Fig. 2) fluid is communicated with, this pipeline or passage are machined to through lower die shoe 4, to be formed into the one path of vacuum manifold 6 downsides, as shown in Figure 2.Two other vacuum ports 10,12 is all substantially the same, and stretches out from the side of punch die vacuum manifold 6 in the opposite two ends of vacuum manifold 6, as shown in Figure 1.

As shown in the sectional view of Fig. 2, the internal diameter 16 of bottom vacuum ports 8 is roughly the same with the diameter 18 of integrated pipeline 14.Namely, diameter 16,18 is limited to the retrievable space for the mach integrated pipeline 14 of lower die shoe 4 conventionally.In addition, integrated pipeline 14 is arranged on the interior low spot of die shoe 4 place, makes it be easy to be subject to the aforementioned impact that enters the airflow issues relevant with gravity.

Fig. 3 shows Fig. 1 with vacuum ports 10() sectional view of substantially similar vacuum ports 12.As shown in the figure, the diameter 20 of entrance end 22 is size-constrained in the height 24 of vacuum manifold 6.Therefore, need to provide the vacuum ports 12 of the taper configurations shown in having, wherein outlet end 26 is tapered to less entrance end 22, to be engaged in the retrievable restricted clearance on the side of vacuum manifold 6.

Therefore, aspect press system and vacuum ports assembly thereof, also there is improved space.

Utility model content

The utility model meets these needs and other needs, and the utility model relates to the vacuum ports assembly for press system.

According to an aspect of the present utility model, be provided for the vacuum ports assembly of press system, described press system comprises die assembly and transfer assembly, described transfer assembly comprises conveyer belt, vacuum manifold and air stream generator, described vacuum manifold is connected to described die assembly, described conveyer belt comprises multiple holes and is formed to be received multiple shells and moves described multiple shell with respect to described die assembly in a plane, described vacuum ports assembly comprises: at least one port member, described at least one port member comprises entrance end and outlet end, described entrance end has mounting portion, described mounting portion is configured to described at least one port member to be connected to removedly described vacuum manifold, described outlet end is configured to be communicated with described air stream generator fluid, so that forming fluid between described air stream generator and described vacuum manifold, described at least one port member is communicated with, wherein said entrance end is configured to generally perpendicularly from described vacuum manifold, stretch out with the described plane of described conveyer belt.

In one embodiment, described mounting portion comprises flange and retention mechanism; And wherein said retention mechanism is configured to described flange to be connected to removedly described vacuum manifold.

In one embodiment, described retention mechanism is multiple bolts; And wherein said flange is bolted described vacuum manifold.

In one embodiment, described vacuum manifold has a height; Wherein said entrance end has the first diameter; Wherein said outlet end has Second bobbin diameter; And wherein said the first diameter is substantially equal to or is greater than the described height of described vacuum manifold.

In one embodiment, described the first diameter is substantially the same with described Second bobbin diameter.

In one embodiment, described the first diameter is between 0.5 inch to 2.5 inches.

In one embodiment, described the first diameter is between 1.0 inches to 1.75 inches; And wherein said Second bobbin diameter is between 1.75 inches to 2.5 inches.

In one embodiment, described entrance end has the first longitudinal axis; Wherein said outlet end has the second longitudinal axis; And wherein said the first longitudinal axis is approximately perpendicular to described the second longitudinal axis.

In one embodiment, described at least one port member comprises at least two port members.

In one embodiment, all port members are substantially the same.

As another aspect of the present utility model, a kind of press system comprises: die assembly, transfer assembly, described transfer assembly comprises conveyer belt, vacuum manifold and air stream generator, described vacuum manifold is connected to described die assembly, and described conveyer belt comprises multiple holes and is formed to be received multiple shells and moves described multiple shell with respect to described die assembly in a plane, and vacuum ports assembly, described vacuum ports assembly comprises: at least one port member, described at least one port member comprises entrance end and outlet end, described entrance end has mounting portion, described mounting portion is connected to described vacuum manifold removedly by described at least one port member, described outlet end is communicated with described air stream generator fluid, so that forming fluid between described air stream generator and described vacuum manifold, described at least one port member is communicated with, the described plane of wherein said entrance end and described conveyer belt generally perpendicularly stretches out from described vacuum manifold.

In one embodiment, described mounting portion comprises flange and retention mechanism; And wherein said retention mechanism is connected to described vacuum manifold removedly by described flange.

In one embodiment, described retention mechanism is multiple bolts; And wherein said flange is bolted described vacuum manifold.

In one embodiment, described vacuum manifold has a height; Wherein said entrance end has the first diameter; Wherein said outlet end has Second bobbin diameter; And wherein said the first diameter is substantially equal to or is greater than the described height of described vacuum manifold.

In one embodiment, described the first diameter is substantially the same with described Second bobbin diameter.

In one embodiment, described the first diameter is between 0.5 inch to 2.5 inches.

In one embodiment, described entrance end has the first longitudinal axis; Wherein said outlet end has the second longitudinal axis; And wherein said the first longitudinal axis is approximately perpendicular to described the second longitudinal axis.

In one embodiment, described at least one port member comprises at least two port members.

In one embodiment, all port members are substantially the same.

In one embodiment, described press system is conversion press; Wherein said die assembly comprises multiple punch dies; Wherein said punch die comprises multiple die stations; Wherein said vacuum ports assembly also comprises multiple pipelines; Wherein said air stream generator is multiple hair-dryers; Each in wherein said punch die comprises multiple port members; Wherein said pipeline connects each in described port member, to be communicated with a fluid corresponding in described hair-dryer, thereby produces vacuum pressure in described vacuum manifold; Wherein said vacuum pressure remains on described shell in desired locations with respect to described conveyer belt; And wherein said conveyer belt makes described shell move with respect to described punch die, so that the can end that described die station has been formed as described shell step by step.

The utility model is provided for the improved vacuum ports assembly of press system, except other advantage, it can remove rapidly and easily, for example, for easily carrying out maintenance and operation adjusting, and can make the larger-diameter port member adopting have the performance of enhancing.

Accompanying drawing explanation

With reference to accompanying drawing, from the explanation of following preferred embodiment, can obtain complete understanding of the present utility model, wherein:

Fig. 1 be the die assembly of prior art and vacuum ports thereof etc. axonometric drawing;

Fig. 2 is the sectional view intercepting along the line 2-2 of Fig. 1;

Fig. 3 is the sectional view intercepting along the line 3-3 of Fig. 1;

Fig. 4 be according to a part for the die assembly of the utility model embodiment and vacuum ports assembly thereof etc. axonometric drawing;

Fig. 5 is the sectional view intercepting along the line 5-5 of Fig. 4;

Fig. 6 be according to a part for the die assembly of another aspect of the utility model and vacuum ports assembly thereof etc. axonometric drawing;

Fig. 7 A is according to the sectional view of the port member of another embodiment of the utility model;

Fig. 7 B is the axonometric drawing such as grade of the port member of Fig. 7 A;

Fig. 8 A is according to the sectional view of the port member of another embodiment of the utility model;

Fig. 8 B is the axonometric drawing such as grade of the port member of Fig. 8 A;

Fig. 9 is the axonometric drawing that waits for a part for the transfer assembly of press system, shows this part of die assembly and the vacuum ports assembly thereof of Fig. 6;

Fig. 9 A is the sectional view intercepting along the line 9A-9A of Fig. 9; And

Figure 10 is the plan view from above of a part for press system, shows die assembly and the vacuum ports assembly thereof of Fig. 4 and 6.

The specific embodiment

Should be appreciated that the particular element described in shown in the drawings and the following description is herein only exemplary embodiment of the present utility model, the object that it is only used to illustrate and providing as limiting examples.Therefore, the specific dimensions relevant to embodiment disclosed herein, orientation and other physical features will not be considered to limit scope of the present utility model.

The directionality wording of using herein, for example left and right, upwards, downwards, top, bottom, upper and lower and derivative, relate to the orientation of the element shown in accompanying drawing, rather than restriction claim, unless there is clear and definite expression.

As used herein, term " tank " refers to any known or suitable container, and it is configured to hold material and (is for example not limited to liquid; Food; Any other suitable material), and include but not limited to clearly beverage can, for example beer can and air hydraulic cylinder, and food pot.

As used herein, term " can end " refers to lid or closure member, and it is configured to be connected to tank, so that hermetically sealed can.

As used herein, term " can end shell " substantially exchanges and uses with term " can end "." can end shell " or simply " shell " are acted on and for example, are changed by disclosed mould (die assembly) member of expecting can end to provide.

As used herein, term " mould ", " die assembly " and " tool assembly " are used interchangeably, refer to any known or suitable instrument or parts, and this instrument or parts are used for forming (such as but not limited to stretching) according to shell of the present utility model.

As used herein, term " retention mechanism " refers to any suitable connection or strainer, include but not limited to clearly the combination of rivet, pin, bar, fixture and clamping device, screw, bolt (such as but not limited to cup square neck bolt), screw bolt and nut (such as but not limited to lock nut and wing nut), and the combination of bolt, packing ring and nut.

As used herein, two or more parts " connection " statement together should refer to parts and directly link together or link together by one or more intermediate members.

As used herein, term " quantity " should refer to one or be greater than one integer (multiple).

Fig. 4 shows the vacuum ports assembly 202 for press system, and this press system is for partly illustrating in Fig. 9 and 10 such as but not limited to conversion press 100().In the example of Fig. 4, according to non-limiting example of the present utility model, vacuum ports assembly 202 is depicted as for die assembly 200.Also as shown in the figure, vacuum manifold 206 is connected to lower die shoe 204.

The vacuum ports assembly 202 of Fig. 4 comprises two the port members 208,210 that are connected to removedly vacuum manifold 206.Should be appreciated that port member 208,210 can make (such as but not limited to steel or aluminium) by any known or suitable material that is enough to bear operating condition.In addition, in scope of the present utility model, vacuum ports assembly 202 is included as the port member 208,210 of any suitable quantity of multiple not isostructure (not shown).It is also understood that port member 208,210 can be substantially the same, or they can be different when adopting a more than port member 208,210.As will be discussed, except other advantage, by adopting this removable vacuum ports member 208,210, can improve vacuum pressure levels, and can reduce maintenance time.

Therefore, be to be understood that, except other advantage, vacuum ports assembly 202(disclosed in the utility model also can be referring to Fig. 6,9 and 10 vacuum ports assembly 302) reduced volume flow restriction, improve vacuum pressure levels, and increased shell (for example shell 104 shown in cross section shown in Figure 9 and Fig. 9 A; Also can referring in Figure 10 with dotted line show shell 104) on confining force.

Fig. 5 is sectional view exemplary, nonrestrictive port member 210, and this port member comprises entrance end 216 and outlet end 218.Outlet end 218 is configured to be connected to suitable pipeline 600(and partly with dotted line, shows), be for example not limited to flexible pipe.Pipeline 600 is connected to air stream generator 108 then, 110(illustrates in simplified form in Figure 10), make in operation, port member 210 is at air stream generator 108,110(Figure 10) and vacuum manifold 206 between form fluid and be communicated with.

The entrance end 216 of port member 210 has the first longitudinal axis 220, and outlet end 218 has the second longitudinal axis 222, and this second longitudinal axis 222 is with respect to the first longitudinal axis 220 angulations 224.The first longitudinal axis 220 can be approximately perpendicular to the second longitudinal axis 222, but should be appreciated that the specific size of angle 224 is not meant to be restriction of the present utility model aspect.In addition, conveyer belt (referring to the conveyer belt 232,332 in Figure 10 for example) is configured to around die assembly 200(Fig. 4 and 10), and the entrance end 216 of port member 210 is configured to and conveyer belt 232,332(Figure 10) plane (referring to the plane 350 in for example Fig. 9 and 10) generally perpendicularly from vacuum manifold 206, stretch out.Therefore, the size (for example diameter) of the entrance end 216 of the size of vacuum manifold 206 or 226 pairs of port members 210 of height is no longer construed as limiting.Therefore, larger pipeline (in Fig. 5 partly with dotted line show) can be from air stream generator 108,110(Figure 10) be advantageously connected to port member 210.

In other words, in the example of Fig. 5, vacuum manifold 206 has height 226, and the diameter 228 of entrance end 216 equals the height 226 of vacuum manifold 206 substantially.But also, in scope of the present utility model, the diameter 228 of entrance end 216 is even greater than the height 226 of vacuum manifold 206.Shown in and in described non-limiting example, the diameter 230 of outlet end 218 is substantially the same with the diameter 228 of entrance end 216.But, in scope of the present utility model, the diameter 230 of outlet end 218 different from the diameter 228 of entrance end 216 (diameter 230 of for example outlet end 218 is greater than the diameter 228 of entrance end 216).In a non-limiting example, the diameter 228 of entrance end 216 and the diameter 230 of outlet end 218 are preferably between 0.5 to 2.5 inch, also more preferably between 1 inch to 2 inches.In the non-limitative example of Fig. 5, two diameters 228,230 are about 1.4 inches.

Fig. 6 shows according to of the present utility model for press system 100(Figure 10) another die assembly 300 and vacuum ports assembly 302.Similar with above-mentioned die assembly 200, vacuum manifold 306 is connected to die shoe 304.Vacuum ports assembly 302 comprises three port members 308,310,312.For example, but in scope of the present utility model, vacuum ports assembly 302 comprises the port member (308,310,312) of any suitable optional quantity and/or structure (not shown).

In order easily to illustrate and disclosed saving, a port member 308,310,312 will be only discussed in more detail.Particularly, as shown in the decomposition part of Fig. 6, port member 308 comprises entrance end 320 and outlet end 322.Entrance end 320 has mounting portion 324, and this mounting portion is connected to vacuum manifold 306 removedly by port member 308.Port member 308 can connect by any known or suitable mechanism in this area.This is also applicable to according to all port members 208,210,308,310,312,400,500 of the present utility model.For example be not limited to, the punch die mounting portion 324 in Fig. 6 comprises flange 326 and retention mechanism 328.Retention mechanism 328 connects (for example fastening) to vacuum manifold 306 removedly by flange 326.Retention mechanism 328 in Fig. 6 shows two for multiple bolt 330(), for flange 326 is bolted to vacuum manifold 306.Like this, port member 308 can for example, remove fast and easily by taking (unclamping) retention mechanism 328 apart, then cleans, and connects and get back to vacuum manifold 306, or whole replacing.For example,, during operation, from press system 100(Fig. 9 and 10) chip, for example aluminium powder, lubricant and/or coating, can be collected in port member 308,310,312.Need not dismantle die assembly 300, vacuum manifold 306 and relevant parts (not shown) completely, port member 308,310,312 can remove and clean rapidly and easily, or is replaced by the port member of other identical or different type and/or structure (not shown).This has reduced downtime significantly, and saves significantly cost.

Fig. 7 A and 7B show optional non-limiting example of the present utility model.As shown in the figure, example port member 400 has entrance end 402 and outlet end 404.The diameter 406 of entrance end 402 is preferably about 1.6 inches in a non-limiting example, and the diameter 408 of outlet end 404 is preferably about 1.9 inches in a non-limiting example.But in scope of the present utility model, entrance end 402 and outlet end 404 have any known or suitable optional diameter.

Fig. 8 A and 8B represent the optional port member 500 according to another non-limiting example of the utility model.This example port member 500 has flange 502 and is directly implemented into the outlet end 504 in flange 502.This has reduced extraly air stream generator 108,110(and with the form of simplifying, has illustrated in Figure 10) and vacuum manifold 506 between volumes of air flow restriction, then improved vacuum pressure levels and improved confining force.In vacuum manifold 506, have opening 508, air is advanced through this opening.The diameter 510 of opening 508 is preferably about 1.75 inches in a non-limiting example, but in the situation that not departing from scope of the present utility model, can be any known or suitable optional size.The diameter 512 of outlet end 504 is preferably about 1.9 inches in a non-limiting example, but can have equally any known or suitable optional size.

Fig. 9 shows endless conveyor belt 332, and this conveyer belt is formed between a pair of rotary drum 334,336 around die assembly 300.Shell 104(figure 9 illustrates two shells 104; Also can be referring to shell 104 shown in broken lines in the shell 104 in Fig. 9 A and Figure 10) be arranged in conveyer belt 332 regularly in isolated hole 338, and by conveyer belt 332, being transported to press system 100(partly illustrates) interior die station 340, at this place, die assembly 300(partly illustrates) progressively formation (for example conversion) shell 104.

Figure 10 shows the major part of aforementioned press system 100, comprises vacuum ports assembly 202 and die assembly 200, and vacuum ports assembly 302 and die assembly 300.In the example of Figure 10, system 100 comprises transfer assembly 102, this transfer assembly has two conveyer belts 232,332, conveyer belt has hole 238,338, shell 104 and shown in broken lines in the drawings with respect to die assembly 200,300 mobile shell 104(is received in this hole in plane 350), thus shell is formed, as mentioned above.Transfer assembly 102 also comprises that air stream generator 108,110(illustrate in simplified form), this air stream generator illustrates in simplified form by pipeline 112,114(; Also can be referring to pipeline 600, in Fig. 5 with dotted portion illustrate) fluid is communicated with and is connected to corresponding port member 208,210,308,310,312 (schematically illustrated in Figure 10).In example shown and described herein, press system 100 is four outlet conversion press 100, but be to be understood that, in the situation that not departing from scope of the present utility model, the utility model can be for the press system of any known or suitable optional type and/or structure (such as but not limited to shell press; Except shown in four outlet systems 100 conversion press) (not shown).

The die assembly 200,300 of press system 100 comprises that a pair of punch die 205,305(partly illustrate for the purpose of illustrating easily), this comprises that to punch die multiple die stations 240,340(partly illustrate for the purpose of illustrating easily) and multiple port member 208,210,308,310,312.In addition, the vacuum ports assembly 202,302 of exemplary press system 100 is connected to air stream generator by pipeline 112,114, to produce the vacuum pressure of expecting in vacuum manifold 206,306, this air stream generator shown in and in described example, be regeneration hair-dryer 108,110.As mentioned above, when shell 104 moves through die station 240,340, vacuum pressure maintenance shell 104 is the precalculated position in expecting with respect to conveyer belt 232,332, and this die station progressively forms shell 104 the can end (not shown) that (for example conversion) has been.

Therefore, the utility model is provided for the improved vacuum ports assembly 202,302 of press system 100, except other advantage, it can remove rapidly and easily, for example, for easily carrying out maintenance and operation adjusting, and can make the larger-diameter port member adopting there is the performance of enhancing.

For the purpose of illustrating and describing, provide the above-mentioned specific embodiment of the present utility model.Be not used for exhaustive the utility model or the utility model is restricted to disclosed precise forms, in the above teachings, can carry out other modification and change.The selection of embodiment and description are in order to explain best principle of the present utility model and practical application thereof, make thus those skilled in the art can utilize best various embodiment and the various modification that is suitable for the special-purpose that can expect of the present utility model.Appended claim is configured to comprise other optional embodiment of the present utility model, except prior art restriction.

Claims (20)

1. the vacuum ports assembly for press system, described press system comprises die assembly and transfer assembly, described transfer assembly comprises conveyer belt, vacuum manifold and air stream generator, described vacuum manifold is connected to described die assembly, described conveyer belt comprises multiple holes and is formed to be received multiple shells and moves described multiple shell with respect to described die assembly in a plane, described vacuum ports assembly comprises:

At least one port member, described at least one port member comprises entrance end and outlet end, described entrance end has mounting portion, described mounting portion is configured to described at least one port member to be connected to removedly described vacuum manifold, described outlet end is configured to be communicated with described air stream generator fluid, so that forming fluid between described air stream generator and described vacuum manifold, described at least one port member is communicated with

Wherein said entrance end is configured to generally perpendicularly from described vacuum manifold, stretch out with the described plane of described conveyer belt.

2. vacuum ports assembly according to claim 1, wherein said mounting portion comprises flange and retention mechanism; And wherein said retention mechanism is configured to described flange to be connected to removedly described vacuum manifold.

3. vacuum ports assembly according to claim 2, wherein said retention mechanism is multiple bolts; And wherein said flange is bolted described vacuum manifold.

4. vacuum ports assembly according to claim 1, wherein said vacuum manifold has a height; Wherein said entrance end has the first diameter; Wherein said outlet end has Second bobbin diameter; And wherein said the first diameter is equal to or greater than the described height of described vacuum manifold.

5. vacuum ports assembly according to claim 4, wherein said the first diameter is identical with described Second bobbin diameter.

6. vacuum ports assembly according to claim 4, wherein said the first diameter is between 0.5 inch to 2.5 inches.

7. vacuum ports assembly according to claim 6, wherein said the first diameter is between 1.0 inches to 1.75 inches; And wherein said Second bobbin diameter is between 1.75 inches to 2.5 inches.

8. vacuum ports assembly according to claim 1, wherein said entrance end has the first longitudinal axis; Wherein said outlet end has the second longitudinal axis; And wherein said the first longitudinal axis is approximately perpendicular to described the second longitudinal axis.

9. vacuum ports assembly according to claim 1, wherein said vacuum ports assembly comprises at least two port members.

10. vacuum ports assembly according to claim 9, wherein all port members are identical.

11. 1 kinds of press system, it comprises:

Die assembly;

Transfer assembly, described transfer assembly comprises conveyer belt, vacuum manifold and air stream generator, described vacuum manifold is connected to described die assembly, and described conveyer belt comprises multiple holes and is formed to be received multiple shells and moves described multiple shell with respect to described die assembly in a plane; And

Vacuum ports assembly, described vacuum ports assembly comprises:

At least one port member, described at least one port member comprises entrance end and outlet end, described entrance end has mounting portion, described mounting portion is connected to described vacuum manifold removedly by described at least one port member, described outlet end is communicated with described air stream generator fluid, so that forming fluid between described air stream generator and described vacuum manifold, described at least one port member is communicated with

The described plane of wherein said entrance end and described conveyer belt generally perpendicularly stretches out from described vacuum manifold.

12. press system according to claim 11, wherein said mounting portion comprises flange and retention mechanism; And wherein said retention mechanism is connected to described vacuum manifold removedly by described flange.

13. press system according to claim 12, wherein said retention mechanism is multiple bolts; And wherein said flange is bolted described vacuum manifold.

14. press system according to claim 11, wherein said vacuum manifold has a height; Wherein said entrance end has the first diameter; Wherein said outlet end has Second bobbin diameter; And wherein said the first diameter is equal to or greater than the described height of described vacuum manifold.

15. press system according to claim 14, wherein said the first diameter is identical with described Second bobbin diameter.

16. press system according to claim 14, wherein said the first diameter is between 0.5 inch to 2.5 inches.

17. press system according to claim 11, wherein said entrance end has the first longitudinal axis; Wherein said outlet end has the second longitudinal axis; And wherein said the first longitudinal axis is approximately perpendicular to described the second longitudinal axis.

18. press system according to claim 11, wherein said vacuum ports assembly comprises at least two port members.

19. press system according to claim 18, wherein all port members are identical.

20. press system according to claim 11, wherein said press system is conversion press; Wherein said die assembly comprises multiple punch dies; Wherein said punch die comprises multiple die stations; Wherein said vacuum ports assembly also comprises multiple pipelines; Wherein said air stream generator is multiple hair-dryers; Each in wherein said punch die comprises multiple port members; Wherein said pipeline connects each in described port member, to be communicated with a fluid corresponding in described hair-dryer, thereby produces vacuum pressure in described vacuum manifold; Wherein said vacuum pressure remains on described shell in desired locations with respect to described conveyer belt; And wherein said conveyer belt makes described shell move with respect to described punch die, so that the can end that described die station has been formed as described shell step by step.

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