CN102582873A

CN102582873A - Method and device for filling containers

Info

Publication number: CN102582873A
Application number: CN2011103675664A
Authority: CN
Inventors: 西蒙·菲舍尔
Original assignee: Krones AG
Current assignee: Krones AG
Priority date: 2010-11-18
Filing date: 2011-11-18
Publication date: 2012-07-18
Anticipated expiration: 2031-11-18
Also published as: DE102010051543A1; CN102582873B; EP2455325B1; EP2455325A1

Abstract

The device (1) has a filling element (6) filling a container (10) with fluid, and a transport device (2) for transporting the container along a predetermined transport path (T). A pressurization device (4) pressurizes the container with a flowing medium i.e. nitrogen. The pressurization device is arranged in such a manner that the flowing medium from the pressurization device strikes on an inner wall or a surface of a deflecting plate before the flowing medium reaches the fluid in the container. The pressurization device comprises a nozzle and a spray head. An independent claim is also included for a method for filling containers with fluids.

Description

The Apparatus and method for of container filling

Technical field

The present invention relates to container filling equipment.For a long time, this filling apparatus of the prior art is known.Usually, along preset transportation route transfer cask (like the circular arc transportation route), and in this transportation, adopt liquid (especially beverage) container filling.It is also known that in the prior art recently, thereby introduce the multiple attribute that liquid nitrogen improves container to the plastic material container.For example, its mechanical loading ability (top loading carries, the rodability of belt conveyor system, loading and unloading etc.) therefore can improve.Displace the shelf-life that oxygen also can improve product through head room from container.Can also improve sense of touch (in other words for holding sense (the feel of the grip)) and other attributes.This equipment that is used to introduce liquid nitrogen is called " dripping the nitrogen appearance " (nitrogen dropplers), and this process is called drip (droppling).

Background technology

Be known that the method and apparatus that utilizes overvoltage Production and Packaging container among EP1 106 510 A1.In container, inject liquid nitrogen in this case.

US 6,698, are known that the equipment of reinforcing container among 467 B2.In this case, be known with container to be filled with the injection device of predetermined angle setting.

US 4,407, and 340 have described the equipment of pressurized container.Introduce the liquefied gas of predetermined amount in this case to container.

Recently, the equipment and the method that heating liquid are filled in the container also are known.As far as the pet container of these hot fillings,, also produce overvoltage nitrogen at the head room of bottle through drip (dropple) nitrogen in sealing and/or airtight forward direction container and through after sealing, nitrogen being evaporated.This overvoltage is used for remedying the volumetric shrinkage of the content of heat in cooling process, thereby bottle can not collapse and preferably comprise overvoltage, and as stated, said overvoltage especially improves the mechanical attributes and the sense of touch attribute of container.

Based on identical principle, the past has been used this hydrothermal solution supercharging in can.In existing technology, in liquid, directly introduce nitrogen with the form of single line at sizable excessive rolling, in dripping nitrogen appearance and measuring head, set up and realize said overvoltage.This method mainly is applicable to the application of having adopted cold product, and attempts in this regard and verify.

Under the situation of the content of heat, because the permeable product of nitrogen in this case, there is defective in this drip process.In case liquid nitrogen evaporates when touching hot content, and because the bubble that below liquid level, forms can be shifted content outside the container onto, liquid nitrogen can form overflow.Overflow possibly take place equally when adopting cold content, but under the situation of the content of heat, because bigger temperature difference overflow increases the weight of.This N/R effect also is confirmed in experiment.

The equipment that has nozzle in the prior art is known equally, and said nozzle has a large amount of discharge ports, is dispersed into the drop of rain shape mist (rain-like mist) form through said discharge port nitrogen.In addition, in this case, only under the fluid pressure of the nitrogen storage storage that equipment held, discharge nitrogen.Nozzle is for making complicated assemblies and having constituted considerable cost factor.In addition, experience shows that for making the abundant supercharging of different containers, a plurality of such nozzles are essential.

Moreover the spacing between drip and the sealer is the important factor in order of heat filling method especially.This is because liquid nitrogen vaporization gets comparatively fast, and the nitrogen of some (vaporized nitrogen is to atmosphere) therefore passes through this path loss to sealer.In this case, limiting factor mainly is the space around sealer.Because feed lid (cap feed) and other assemblies have taken optimal location, the measuring head that drips the nitrogen appearance can only be arranged on a distance apart from sealer.

Summary of the invention

Therefore, the object of the present invention is to provide the method for container filling, said method enables free-flowing media, the especially improvement supply of nitrogen.According to the present invention, this Apparatus and method for through the independent claims according to the present invention is achieved.

Preferred embodiment is the purport of dependent claims with development.

According to the present invention, adopt the equipment of liquid filling container to comprise the can part that at least one adopts liquid filling container.Said equipment also comprises and is used for other application apparatus (application means) of transporting the conveying arrangement of said container and other free-flowing medias are applied to be filled with the container of said liquid along preset transportation route.

According to the present invention; Said application apparatus is set like this, thereby before the said liquid that the said free-flowing media that said application apparatus discharges is provided with in arriving said container or when arriving said container, contact or guide to preset surface fully at least in part and preferably.

Preferably, said preset surface is away from said application apparatus, and in other words, said free-flowing media at first sprays, contacts then said surface from said application apparatus.

Preferably, said preset surface is the inwall of said container or is positioned at other outer surfaces of said container.Same possible is that said medium contact is positioned at the inwall of the outer surface of said container and (following) said container.

Same possible is in said application process, said surperficial the introducing in the said container (if necessary even only to be introduced) slightly.

Therefore same possible is that said nitrogen stream is injected on the additional baffle plate.This add-in card possibly heat or can not heat, also can have different shapes.Like this under the situation, therefore also said nitrogen stream is injected at least one surface (for example from the nozzle ejection and running into said filling liquid before) after the ejection.Therefore, when using additional baffle plate, same possible is that said stream sprays from nozzle below said vessel port.

Therefore propose the said application apparatus of design according to the present invention, for example, said application apparatus forms nozzle like this, thereby at first contacts said preset surface and resilience therefrom from the stream (for example nitrogen stream) of its ejection; Preferably, said preset surface is the opposed inner walls of said container, especially is the relative wall of interface (mouthpiece).When recoiling to said mouth, said free-flowing media is injected in the less drop, and described in above prior art, said less drop embodies lower product infiltration.This course of injection additionally receives the assistance on said plastic material surface, and it is hot comparing said plastic material surface with said liquid nitrogen with its boiling point.

Preferably, said equipment comprises a plurality of employing liquid, the can part of the said container of beverage filling especially.Preferably, said conveying arrangement transports said container in said pouring process.In addition, preferably, said conveying arrangement is the said container of transportation in the application process of said free-flowing media also.Said free-flowing media is preferably nitrogen.

In other preferred embodiments, said application apparatus comprises nozzle, and said free-flowing media spray from said nozzle with aiming at stream (jet alignment), said aligning stream with inclination or perpendicular to said container longitudinally mode be provided with.Preferably, said nozzle self is a bevelled.In addition; Preferably; Select said obliquity like this, thereby no matter the relative position between said container and the said nozzle how, said aligning flows or always said stream contacts the inwall of said container, and has especially avoided the said direct contact that flow to said liquid surface.Therefore possible is that when said nitrogen stream passed said mouth, in case contact first with it, said stream contacted the inner face of said mouth tangently.What therefore hinted here is that the trend of said vaporized nitrogen also causes atomizing.

Hypothesis is before, and in the mechanical loading process first of said seal process, because said inwall is exposed to the application of nitrogen, the embrittlement and the damage therefore of the over cooling of said plastic material and said mouth therefore possibly take place.For this reason, equipment well known in the prior art attempts avoiding nitrogen is applied to the said wall of said plastic material container.But, owing to integrated test finds that said inwall short burst is exposed to said application and can cause the said mouth zone of said plastic material container or the damage of screw thread.

Same possible in addition is; The tangent ground of the inside face of said relatively container and be no more than said mouthful of self border land (over the edge of the mouth) and guide said free-flowing media, thus the percdation in the said product avoided through the distribution of extensive region.Same possible in addition is that in the said application process of said free-flowing media, said plastic material container rotates around its longitudinal axis, thereby said nitrogen is applied to the big zone of said mouth.

In other preferred embodiments, with fixed form said application apparatus is set with respect to the said transportation route of said container.Preferably, especially in power event, said application apparatus moves with respect to said application apparatus with fixed form setting and said container.

In other preferred embodiments, said application apparatus is set like this, thereby is injected on the contrary in the said container with the sense of motion of said free-flowing media.In other words, the motion of said stream comprises at least one component that extends with the reverse movement of said container.Like this, when said stream contacts the inwall of said container, realize big momentum and therefore obtain better jeting effect.

In other preferred embodiments, same possible be to be injected in the said container perpendicular to the sense of motion of said free-flowing media.In this case, the angle of the injection and the sense of motion of said container is between 30 ° and 150 °, preferably between 45 ° and 135 °, preferably between 60 ° and 120 °, more preferably between 70 ° and 110 °, more preferably between 80 ° and 100 ° and more preferably be approximately 90 °.Generally speaking, before getting into said liquid, if said free-flowing media still contacts at least one other surface, said relatively container mouth is introduced said free-flowing media from the direction of arbitrary needs to said container be possible.

In other preferred embodiments, through increasing the amount of said injection pressure control nitrogen that introduce or to be introduced.After said relative mouth wall resilience; Reduce the incidence rate of said (nitrogen) stream through said central components (central component); Therefore compare with vertical (in other words, at the longitudinal extension of said container) stream, said stream contacts with the vertical speed contact that roughly reduces and with the form of single drop.It has been found that said vertical speed is now no longer greater than the speed in above-mentioned soft metering (Softdose) system, in other words, the nitrogen of not following the overvoltage ejection only obtains quickening in it drops into the process of the can liquid level in the said container now.Under the situation of vertical current, the increase of injection pressure will increase the product infiltration haply.

Same possible is that " set angle " or " incident angle " of said free-flowing media are adjustable in addition.Can regulate this angle according to the shape and the machine output selectivity ground of said mouth.Said output is high more, and promptly said container is fast more through said nozzle setting, and said set angle can be big more.If said nozzle setting towards or the direction of said relatively transportation route tilt, this is especially real.

If present wide mouth (for example 38mm neck/outspoken footpath), consider that from how much it is possible setting bigger set angle.Under the situation in neck/outspoken footpath of 28mm, said set angle should less (in other words more precipitous).

Preferably, select said angle like this, thus said stream can be not contacted dark (directly getting into said filling liquid) with contact excessive (too far) (untapped nitrogen spills said bottle) in the above.

According to the present invention; It is possible (especially adopting perpendicular to said transporting direction or the installation site on said transporting direction) equally that the setting of said application apparatus is placed measuring head near said sealer haply, thereby the transportation route to sealer that said container covers behind injection nitrogen is very short.This has reduced introduces the loss that evaporation caused in medium to the atmosphere.In other words, if no longer maybe drip the time, because limited installing space adopts the conventional upright position of said application apparatus still can introduce nitrogen here.

In other preferred embodiments, said can part is the said liquid under the can heated condition in said container.Therefore " hot filling " method is described, in said method in said container the can heating liquid, still use liquid nitrogen then to said head room.

The invention still further relates to the method that adopts liquid filling container, wherein in first method step, adopt the said container of filling liquid, in second method step, other free-flowing medias be applied to be filled with the said container of said liquid through application apparatus.According to the present invention, before said free-flowing media arrival was arranged on the said liquid in the said container, it at first contacted preset surface.Possible in this case is, with the inwall of said media applications in the inwall of said container, especially said container mouth, thereby arrives the head room (part that does not promptly especially also have at least in part, evaporation) of said liquid or said container therefrom.

Also propose according to said method, said free-flowing media at first is selectively used for preset surface (inwall of especially said container), thereby arrives said filling liquid therefrom.

In other preferred embodiments, said liquid is introduced in the said container with heated condition.According to the present invention, this method is particularly suitable for the introducing of said free-flowing media described herein.

In other method for optimizing, in the process that adopts filling liquid and/or in the process of using free-flowing media, move said container.But said can part is crossed part and moved with said container to be filled is possible.

Preferably, said free-flowing media comprises nitrogen, liquid nitrogen especially.

In other method for optimizing, with bevelled or perpendicular to said container longitudinally mode in said container, introduce said free-flowing media.

Preferably, application apparatus is provided with the inclination mode, and still, same possible is that it is a bevelled in said application process thereby said container is set temporarily.Preferably, select said obliquity like this, thereby always be applied to the inwall of inwall, especially said mouth at free-flowing media described in the whole application process.But, also injector head can be provided, said free-flowing media sprays from said injector head, also crosses entire periphery (periphery) like this, thus it at first contacts the inwall of said container or said mouth.

In other method for optimizing, said application takes place with the form of discrete doses (discrete dose).This periodically uses the control setup control by the processes sensor signal, and whether said sensor signal is positioned at the optimum position of application by detection receptacle sensor generates.Therefore, only in said container, introduce said free-flowing media,, do not waste free-flowing media owing to be close to said container injection.

Description of drawings

Other advantages and embodiment will appear from accompanying drawing.In the accompanying drawing:

Fig. 1 a is the structural representation of container filling system;

Fig. 1 b is other structural representations of container filling system;

Fig. 2 a, 2b are two width of cloth scheme drawings according to the equipment of prior art;

Fig. 3 is for setting forth scheme drawing of the present invention; And

Fig. 4 is for setting forth other scheme drawings of the present invention;

Fig. 5 is the scheme drawing according to other embodiment of equipment of the present invention; And

Fig. 6 a, 6b are the scheme drawing according to other embodiment of equipment of the present invention.

List of reference numerals

1 equipment

2 conveying arrangements

4 application apparatus

5 liquid

6 can parts

7 free-flowing medias

9 nozzles

10 containers

The 10a inwall

12 charging gears

14 nitrogen stream

16 preset surfaces, baffle plate

The surface of 16a baffle plate

17 remove device

18 injector heads

20 sealing arrangements

30 flushers

32 partition walls

34 bottles inlet

36 feed star gears

38 feed star gears

44 discharging star gears

46 transmit star gear

52 feeding devices

54 pick up and place wheel

58 discharging star gears

62 load-transfer devices

The a angle

L is vertical

T transportation route, transporting direction

The v1 speed component

S aims at stream

The punching press of AN bottle

S/V flushing and/or biasing

The quick can of SF

LF is can at a slow speed

B/E fixes and pressure release

The reduction of AB container

The specific embodiment

Fig. 1 a is the rough scheme drawing of container filling equipment 1.Feeding device 12 through transportation star wheel shape formula is supplied empty receptacle to container filling equipment 1.This equipment 1 comprises a large amount of can parts 6, and said in this case can part is arranged on the conveying arrangement 2, and wherein, conveying arrangement in this case forms the rotary supporting thing.In the transportation of transportation route T, adopt liquid, the single container 10 of beverage filling (only schematic diagram one of them) especially.In the end of transportation route T, the application apparatus 4 that free-flowing media (being nitrogen in this case) is applied to container is provided in its motion process.Possible is, application apparatus sprays nitrogen consistently, also is possible but provide control setup, and said control setup only just discharges application when container is positioned at the application apparatus scope.

Sealing arrangement 20 is with equipment 1 direct connection and seal the container filling of having used nitrogen.Preferably, this closing appliance is set directly near (the direct vicinity) of equipment 1, thereby in case has used nitrogen closed container immediately basically.

Substitutingly with preferably, equipment 1 is filled with the container of liquid to transportation star gear transmission, said transportation star gear is transportation route and it of part then transmits the container of can to sealing arrangement.Then, application apparatus 4 can be arranged on the transportation star gear.According to the sense of motion of container on transportation route, be arranged on the upper reaches that and then application apparatus that transports on the star gear preferably is arranged on sealing arrangement.

Fig. 1 b is other scheme drawings according to system of the present invention.At first supply bottles to flusher 30 through 34 and one sections (one-part) star gears 36 of bottle inlet and feed star gear 38.The door of label 28 expressions promotion entering system.From flusher 30, remove container through discharging star gear 44.The optional partition walls of label 32 expressions, it is especially favourable that said partition walls is used in sterilization.

Label 46 expressions are to the transmission star gear of feeding device 12 transferring cases, i.e. filling machine (filler) feed star gear.After pouring process, to removing device 17 or filling machine discharging star gear transferring case.Application apparatus 4 also is arranged in the zone of this filling machine discharging star gear.Through other feeding devices 52 and " picking up and place wheel (pick and place wheel) " 54 to sealer 20 supply container sealing members (seal).Remove the osed top container through discharging star gear 58, said discharging star gear also can form and put down wheel (put-down wheel) and load-transfer device 62.

In exemplary pouring process; Acronym AN representes the container punching press (pressing) of relative can part; Acronym S/V representes the flushing and/or the biasing of container, and acronym SF representes quick pouring process, and acronym LF representes pouring process at a slow speed; Acronym B/E representes the fixing and pressure release of container, and acronym AB representes the reduction of container.Preferably, adopt distillment (still), be unsaturated liquid filling container 10, wherein, omit the can step of above-mentioned punching press, biasing and pressure release at least.

Therefore preferably, application apparatus 4 can be arranged on the conveying arrangement 17 and before sealer 20, more preferably it is positioned as close to sealer 20.Single conveying arrangement can comprise the clamping element that clamps single container.

Equipment 1 also can comprise and is used for hot liquid to be filled, the container of beverage especially.

Fig. 2 a and 2b are the scheme drawings that nitrogen is applied to two kinds of possibility methods of container 10, and these methods are known from prior art.In the distortion that Fig. 2 a shows, extend to form nitrogen stream 14 at vertical L of container, and said nitrogen stream directly is applied to nitrogen the liquid 5 of internal tank.But, have the risk of nitrogen when adopting this method with permeation liquid.

In the embodiment that Fig. 2 b shows, with the form of rain shape mist nitrogen is applied to liquid, thereby does not infiltrate through the risk of liquid 5.But, the equipment relative complex that shows among Fig. 2 b.

Fig. 3 shows according to equipment of the present invention, that be used for liquid dielectric is applied to container 10.Also form nitrogen stream 14 in this case, but it tilts with angle a with respect to vertical L of container.This angle is preferably between 20 ° and 90 °, more preferably between 30 ° and 70 ° and more preferably between 40 ° and 70 °.This angle depends on the shape of container mouth, promptly especially the diameter of mouth and the height.Because this obliquity, free-flowing media 7 (being nitrogen in this case) is direct contact liquid 5 but the inwall 10a of contacting container 10 at first not.Like this, nitrogen jet to this inwall 10a, is only then arrived liquid 5.Label T refers to the transporting direction of container.But for example, transporting direction also possibly extend perpendicular to the plane of figure.What can see is; Nitrogen stream 14 extends (still with transporting direction on the contrary; Perpendicular to transporting direction or along the process of transporting direction also is possible), nitrogen is with speed component v1 contact wall 10a, and the transporting direction of said speed component and container is opposite with the travelling speed of container.Like this, can increase the velocity of impact of the relative wall 10a of nitrogen.

But in application process, it also is possible in the container mouth that the nozzle setting projects to.

The additional detail of the equipment that shows in Fig. 4 displayed map 3.Here show other positions of nitrogen stream 14, container is arranged on another position under a certain momentum more accurately.Select the obliquity of nitrogen stream 14 like this, thereby even the position that dotted line is represented in Fig. 4, flow still the inwall 10a rather than the liquid of contacting container.In this case, in lower slightly at, it also is possible that nitrogen injects directly to liquid 5 (undesirably) conversely.Application apparatus comprises at least one nozzle 9.

In this case, label 20 expression sealing arrangements.Also appreciable is adopt the obliquity that shows among Fig. 3 and 4 can obtain extra installing space, so sealer 20 close application apparatus 4 to be provided with.

Fig. 5 shows other embodiment according to equipment 1 of the present invention.In this embodiment, equipment does not comprise angled nozzle, but the substitute is injector head 18 be arranged on jetting system 15 than low side.The stream S of free-flowing media from this injector head 18 mainly in radial direction ejection, so its wall 10a of contacting container 10 at first.In this case, free-flowing media (being nitrogen) is from injector head 18 ejection and to cross entire periphery be possible, but only to withdraw from a radial direction also be possible for it.Same possible be because the flowing through of free-flowing media, thereby form like this injector head 18 it around vertical L rotation, thereby form injector head 18 so also in this way to wall of container 10a peripheral applications nitrogen.Also possible is, is not accurately at the radial spray nitrogen that shows, the substitute is for example downward-sloping slightly or is inclined upwardly slightly.If it is downward-sloping spraying, so also possible is, it is above and so need not reduce that injector head always is arranged on the mouth of container 10.

Fig. 6 a is the scheme drawing of other preferred embodiments of application apparatus 4.In this case, the nitrogen of outgoing stream 14 at first arrives surface 16 or baffle plate 16, and gets into container 10 therefrom.In this embodiment, stream therefore from following contact baffle plate, and tilt to therefrom the container 10.In this case, with the set angle a of the vertical L of container greater than 90 °.

As stated, can heat this baffle plate 16, thereby the improvement that prevents delustring (frosting) and realization liquid nitrogen is sprayed through the heating arrangement (not shown).Fig. 6 b shows two possible embodiment on above-mentioned baffle plate or surface.Stream 14 can contact crooked or angled surperficial 16a.In addition, opposite among baffle plate 16 and Fig. 6 b, for bevelled also is possible, thus improve spring-back effect.

In addition, same possible is that nitrogen at first contacts the surface of container seal to be supplied, and gets into container then therefrom.Then, in this mode, it is possible before container closure, measuring nitrogen immediately.

Liquid nitrogen is applied successively to container, promptly in application process, measures the valve (not shown) and open all the time.In this case, through the flow velocity of control of control setup (not shown) and adjusting nitrogen, for example according to system outlet.Substitutingly with preferably, same possible be to provide and periodically use and it is controlled by suitable control setup also.For example, sensor (not shown) detection receptacle is positioned at the optimum position of application, and the signal that sensor generates handled by control setup, allows to be positioned at the application of the container of optimum position there.

Contriver's reservation claims that disclosed all characteristics of present specification are necessary rights to the present invention, and in scope compared with prior art, they have novelty with combining individually or.

Claims

1. adopt the equipment (1) of liquid filling container (10); Comprise at least one can part (6) that adopts the said container of said filling liquid (10), comprise along preset path (T) and transport the conveying arrangement (2) of said container and comprise the application apparatus (4) that other free-flowing medias is applied to be filled with the container (10) of said liquid; It is characterized in that; Said application apparatus (4) is set like this, thereby before the said liquid of said free-flowing media during arriving said container (10) of said application apparatus (4) ejection, at first contacts preset surface (10a, 16).

2. equipment according to claim 1 (1) is characterized in that, said preset surface (10a, 16) is for the inwall of said container (10) or be positioned at the outer surface (16) of said container (10).

3. equipment according to claim 1 (1); It is characterized in that; Said application apparatus (4) comprises nozzle (9,18); Said free-flowing media spray from said nozzle with aiming at stream (S), said aligning flow with bevelled or perpendicular to said container (10) longitudinally mode be provided with.

4. according to the described equipment of at least one claim (1) in the aforementioned claim, it is characterized in that, said application apparatus (4) with respect to said transportation route (T) with the fixed form setting.

5. according to the described equipment of at least one claim (1) in the aforementioned claim, it is characterized in that, said application apparatus (4) is set like this, thereby said free-flowing media and its sense of motion are injected said container (10) on the contrary.

6. according to the described equipment of at least one claim (1) in the aforementioned claim, it is characterized in that the said liquid of said can part (6) can heated condition in said container.

7. adopt the method for liquid filling container (10), may further comprise the steps:

Adopt the said container of said filling liquid (10) and

Other free-flowing medias are applied to be filled with the said container (10) of said liquid through application apparatus (4);

It is characterized in that said free-flowing media is at first contact preset surperficial (10a, 16) before it arrives the said liquid that is arranged in the said container (10).

8. method according to claim 7 is characterized in that, in said container (10), introduces the said liquid of heated condition.

9. according to the described method of at least one claim in the aforementioned claim, it is characterized in that, in said pouring process and/or in the process of using said free-flowing media, move said container (10).

10. according to the described method of at least one claim in the aforementioned claim, it is characterized in that said free-flowing media comprises nitrogen.

11. according to the described method of at least one claim in the aforementioned claim, it is characterized in that, in said container (10), introduce said free-flowing media with the mode of relative its fore-and-aft tilt.