Pressurised metal container preform and a method of making same

Description

[0001] The present invention relates to a pressurised metal container preform, to a pressurised metal container and to a method for making such pressurised metal container and its related preform.

[0002] Pressurised metal containers are used for containing various types of products. Such products may be beverages, whipped cream, shaving cream, hair dressing lacquer, aerosols, fragrances and perfumes. The intended use determines generally the pressure in the pressurised container. Such pressure may be constantly present as from closing by the filler up to the end of the use of the container by the end user. The use or the opening of the container may be such that the content is released constantly and/or stepwise via a valve. The pressure may only be temporarily present in the container, such as the result of a heating procedure to which the container is subjected. For instance, for pasteurising or sterilising the content, after such heating procedure the pressure generally returns approximately to the initial filling pressure or below.

[0003] For beverage containers and containers for food or hygienic products the internal pressure is generally around 8bars. For pressurised aerosol containers the pressure is generally in the range of around 10bar to around 30bar (or even higher).

[0004] For all the mentioned types of container it is an essential requirement that the container, the closed container, and the container during use maintains its container integrity and in particular its desired shape. Thus, the container preform and the container should be form stable during their life time. This implies in view of the intended use that the container preform and the container should have a particular wall thickness. A thickness that will guarantee the shape stability of the empty preform during its making process, transport, handling, filling and closing the containerwith the closure. In relation to the filled container, it is required that the container is not only substantially from stable during handling and transport, but in particular after last use by the end user and during intended use of the container content.

[0005] The shape stability is directly related to the thickness of the container body wall. This container body wall is the wall upstanding from the bottom. The strength of in particular the container body is depended on the metal of which the container has been made. Although stiffening or strengthening structure may contribute the strength of the container. Practically, the pressurised container may be made from steel or aluminum. The choice of either metallic material may be depended on the intended use and internal pressures to be withstood, but also on the ultimate shape of the container and of container structures such an end curl, a necked portion, and stiffening structures. Another aspect is the price of the metal from which the container is made. That aerosol container may be made of aluminum or steel.

[0006] Accordingly, for a particular purpose a steel container is thinner than an aluminum container. This means that for such steel container less steel in volume is required for making the container than when such container would have been made of aluminum. However, steel and aluminum differ in other properties such as toughness and formability. This means that for particular containers and container bodies the metal to be used is either steel or aluminum. But by using particular alloys and tempers of steel and aluminum there is sometimes in overlap in properties making both metals interchangeable.

[0007] Finally, the choice of metal for the container or container body is dictated by the content of the container. Thus, for particular products only steel of aluminum containers or bodies may be used. Depilatory creams, hair mousse, and body sprays will be preferably packed into aluminum containers.

[0008] The containers of the invention relate to containers comprising a container body and bottom which are unitary. They form a so called mono-block. Such containers are made by drawing and ironing. Thereto, a disc or blank is cut from a sheet of metal having a particular thickness or gauge. The disc is then transferred into an apparatus comprising a punch forcing the disc through a drawing die to make a cup. Then, the produced cup is usually transferred to another apparatus to redraw and iron the cup in one operation. The redraw of the cup will result in a reduction in diameter and the ironing process will result in a thinning and elongation of the wall ultimately forming the container body wall. The bottom of the monoblock may be subjected to a forming operation, such as providing the bottom with a concave shape. Such a drawing and ironing process is for instance described in US 3,820,368 A and in US5,394,727.

[0009] The drawing and ironing process (such as the DWI process) has as an effect that the bottom has substantially the same thickness or gauge as the original disc, blank or sheet of metal. The ratio of the thickness of the wall of the container body wall over the thickness or gauge of the sheet of metal is called the ironing ratio

[0010] This ironing ratio is in essential equal to the extent of which the original sheet of metal after forming the initial cup has been radially decreased in diameter and longitudinally elongated. In other words, the ironing ratio is an indication of the amount of metal material of the metal sheet (or metal stock) is required for making the container body by drawing and ironing. The higher the ironing ratio the less material is required for making the container body for a specific container height.

[0011] Presently, there is an increased tendency in using less metal for making a container or container preform. Because this will reduce costs for making the container and will also reduce the amount of metal to be recycled. Still such reduction in metal use may not negatively affect the properties of the container preform and container in their making, transport, filling, handling and use.

[0012] Generally it is considered that the ironing ratio for steel and aluminum drawn and ironed containers could not be higher than about maximally 50 to 60%. However, extensive and long lasting research by the inventors has resulted in experimental evidence that steel and aluminum with a respective metal gauge may be subjected to a drawing and ironing process such that the container and container preform can be made from steel or aluminum with a gauge at a higher ironing ratio.

[0013] Accordingly, the present invention relates to a pressurised metal container preform, such as for an aerosol container or beverage container, comprising a container body unitary with a bottom, which container preform has been made by drawing ironing, wherein the ironing ratio is in the range of about 64% to about 77%, and wherein the thickness of the bottom made of steel is in the range of about 0.45 mm to about 0.70mm.

[0014] Thus, the invention is based on the insight that steel container be drawn and ironed at an ironing ratio when starting with steel having a gauge of 0.45 mm to 0.70mm. As discussed, such gauge is substantially identical to the bottom of the container or container as the bottom is generally not affected by the drawing and ironing procedure. Due to the increase of the ironing ratio the amount of steel is reduced for making a container and container having substantially the same properties as a container or container preform made at a lower ironing ratio.

[0015] Although the ironing ratio may be selected at any ratio within the range of 64% to 77%, such as 65%, 66%, 67%, 68%, 69%, 70%, 71%, 72%, 73%, 74%, 75% 76% and 77%, it is preferred that such selection is within a range of such ironing ratio values. Practically, it was experimentally determined that practical results could be obtained when the ironing ratio is in the range of about 66% to 70%. Such ratio provides container preforms and containers having optimal or even best properties.

[0016] For steel container preforms and containers, the optimal results are obtained when preferably the thickness of the bottom made of steel is in the range of about 0.45 mm to about 0.60mm. Better results are obtained when more preferably the thickness of the steel bottom is in the range of about 0.45mm to about 0.55mm.

[0017] Although steel of any type may be used, it turned out that desired and good results may be obtained when preferably the steel is a temper from the range TS200 to TS550, preferably the range from TS210 to TS350. For particular, uses it may be desired that the container body is provided with a necked portion. The inventors have found that the preform (and container) may be provided when desired with a necked body portion. Such necking of the container body free end may be done with traditional operations using a series of necking dies. It has in this respect been established by the inventors that although drawn and ironed with the higher ironing ratio of the invention, the preform container still be necked substantially without problems such as kinking, cracking and jamming in the necking dies. For instance, 16 to 20 necking steps would be required to neck a 45mm diameter to 25,4mm and 32 to 40 necking steps to reduce a 65mm diameter to 25.4mm.. At this point it is noted that the reduction is the number of necking dies to be used in the necking operation may also be acquired at an ironing ratio which is lower than the ironing ratio of the present invention and still obtain an aluminum or steel container preform or container with good properties (although not with the benefit of using less aluminum or steel).

[0018] Another aspect of the invention relates to a pressurised container comprising preform according to the invention as described herein and a closure connected to the container body. The closure may be of any type as is required for the intended use of the container. For a container for beverages it may be a closure provided with a pull tab, an easy opening panel, or a twisted cap. For an aerosol container the closure may be a clamped on closure provided with a valve to be actuated for releasing the content. For a correct connection to the open end of the container body, the closure may be connected by adhesive or solder, or by a mechanical connection such as by snapping and/or seaming, clamping and screwing. Dependent on the type of closure the container may be filled before application of the closure or via the closure. For a proper connection it may be desired to trim the open end of the container body using a known trimming operation and/or to provide the open end with an inwardly or outwardly directed curl. Such additional operations may be applied irrespective whether the container body is provided before or thereafter with a necked wall portion.

[0019] Finally, if desired or required the inner surface of the container preform or container may be provided with a coating the product or use so desires. Examples of such inner coatings are lacquers, and plastic neutralising layers.

[0020] A further aspect of the invention relates to a method of making a container preform for a pressurised metal container, such as an aerosol container or beverage container, having a container comprising a container body unitary with a bottom, comprising the steps of:

i. forming a cup from a steel sheet, wherein the thickness of the sheet is in the range of 0.45 mm to 0.70mm when made of steel; and

ii. drawing and ironing the wall of the cup with an ironing ratio in the range of about 64% to 77%.

[0021] In such method it is preferred as indicated hereinbefore that preferably the ironing ratio is in the range of about 66% to about 70%.

[0022] It is preferred that the cup thickness is in the range of about 0.45 mm to about 0.60mm, more preferably in the range of about 0.45mm to about 0.55mm.

[0023] Similarly, when desired for a particular use of the container the optional additional step of necking the container body is included.

[0024] Mentioned and other features of the container, container preform and their method of making according to the invention will be further illustrated by several embodiments which are given for information purposes only and are not intended to limit the invention to any extent. In relation to these embodiments reference will be made to the annexed figures of which:

figure 1 shows schematically the process of making a container preform and a container which do not form part of the invention;

figures 2-4 show in cross section embodiments of a container according to the invention.

[0025] Figure 1A shows a disc 1 made of aluminum. The gauge of the disc is about 0.65mm. The disc 1 is than drawn to a cup 2 as shown in figure 1B. The drawing process used may suitable drawing (and ironing process) such as described in US5,394,727, although the described reverse drawing is not necessarily used. Particularly suitable drawing and ironing processes are those that are essentially designed for drawing and ironing steel to monoblocks.

[0026] The aluminum cup or monoblock 2 is then subjected ironing using one or more ironing rings for producing the container preform 3 having a diameter of about 40mm, (figure 1C). The preform 3 has a bottom 4 which has substantially same thickness as the gauge of the disc 1, that is for example about 0.65mm. The ironing ratio is for this example about 68%. This means that the thickness of the container body wall 5 is about 0.208mm [].

[0027] The preform 3 is subsequently provided at the container body open end 7 with a outwardly directed curl 6 (figure 1D to be redesigned outwardly). On this curl 6 is mounted a closure 8 clamped snappingly with a groove 9 on the curl 6. The container 10 can be used for containing a product with a pressure of about 17bar. The closure may be pinched for releasing the content.

[0028] Figure 2 shows a container 11 according to a preferred aspect the invention. The container 11 comprises a container body 12 unitary with a bottom 13. The bottom has a thickness of about 0.60mm corresponding substantially to the gauge of the steel disc from which the container body 12 has been made by drawing and ironing with a ironing ratio of about 70%. The container body 12 has a container body wall thickness of about 0.18mm.
The container body is provided with a necked portion 14. The necked portion 14 has been formed by necking using for instance 16 necking dies The container body has a diameter of about 45mm and a necked and curled opening of about 25mm. The necked portion 14 is provided with a screw path structure 15 onto which is screwed a screw cap 16. The internal pressure of the beverage filled container 11 is about 1.7bar.

[0029] Figure 3 shows an aerosol container 17 according to a preferred aspect the invention. The aerosol container 17 comprises a container body 18 unitary with a concave bottom 19. The thickness of the bottom is about 0.60mm and has been formed by drawing and ironing to an ironing ratio of about 70%. The container body has a container body wall thickness of about 0.18mm. The container body has a necked portion 20 having an outwardly curled curl 21. On the curl 21 is mounted a closure 22 provided with a valve 23. The diameter of the container body 18 is about 45mm and the diameter of the necked portion is about 20mm. The internal pressure of the contained aerosol is about 18bar.

[0030] Finally, figure 4 shows a container 24 not forming part of the invention made of aluminum. The container 24 comprises a container body 25 having a shape slightly diverging from a bottom 26. The bottom 26 has a thickness of about 0.59mm. The container body is formed by drawing and ironing at an ironing ratio of about 64%. The container body wall thickness is about 0.212mm. After ironing the container body may have subjected to a forming process with any kind of expansion method: hydraulic, pneumatic, mechanical. The container body 25 is provided with in inwardly curled part 27 onto which is snapped a closure 28 provided with valve to be opened by pressing. The gaseous aerosol product has a pressure of about 12bar.

Claims

1. Pressurised metal container preform, such as for an aerosol container or beverage container, comprising a container body unitary with a bottom, which container has been made by drawing and ironing, wherein the ironing ratio is in the range of about 64% to about 77%, characterised in that the thickness of the bottom made of steel is in the range of about 0.45mem to about 0.70mm.

2. Preform according to claim 1, wherein the ironing ratio is in the range of about 66% to about 70%.

3. Preform according to claim 1 or 2, wherein the thickness of the bottom made of steel is in the range of about 0.45mm to about 0.60mm, preferably in the range of about 0.45mm to about 0.55mm.

4. Preform according to any of the claims 1-3, wherein the steel is a temper from the range TS200 to TS550, preferably the range from TS210 to TS350.

5. Preform according to any of the claims 1-4, wherein the steel is tin coated.

6. Preform according to any of the claims 1-5, wherein the container body is provided with a necked body portion.

7. Pressurised container comprising a container preform according to any of the claims 1-6, and a closure connected to the container body, and preferably the closure is a twisted cap or a clamped closure.

8. Method of making a container preform for a pressurised metal container, such as an aerosol container or beverage container, having a container comprising a container body unitary with a bottom, characterised by the steps of:

i. forming a cup from a steel sheet, wherein the thickness of the sheet is in in the range of about 0.45mm to about 0.70mm and

ii. drawing and ironing the wall of the cup with an ironing ratio in the range of about 64% to about 77%.

9. Method as claimed in claim 8, wherein the ironing ratio is in the range of about 66% to about 70%.

10. Method as claimed in claim 9, wherein the cup thickness is in the range of about 0.45mm to about 0.60mm, preferably in the range of about 0.45mm to about 0.55mm.

11. Method as claimed in any of the claims 8-10, comprising the step of necking the container body.

Ansprüche

1. Metaldruckbehältnis-Vorform, wie zum Beispiel für ein Aerosolbehältnis oder Getränkebehältnis, die einen Behältniskörper einheitlich mit einem Boden umfasst, wobei das Behältnis durch Ziehen und Glättung hergestellt wurde, wobei das Glättungsverhältnis in der Größenordnung von ungefähr 64% bis ungefähr 77% ist, dadurch gekennzeichnet, dass die Dicke des aus Stahl gefertigten Bodens in der Größenordnung von ungefähr 0.45mm bis ungefähr 0.70mm ist.

2. Vorform nach Anspruch 1, wobei das Glättungsverhältnis in der Größenordung von ungefähr 66% bis ungefähr 70% ist.

3. Vorform nach Anspruch 1 oder 2, wobei die Dicke des aus Stahl gefertigten Bodens in der Größenordnung von ungefähr 0.45mm bis ungefähr 0.60mm ist, bevorzugt in der Größenordnung von ungefähr 0.45mm bis ungefähr 0.55mm.

4. Vorform nach einem der Ansprüche 1-3, wobei der Stahl einen Härtegrad der Größenordnung TS200 bis TS550 hat, bevorzugt der Größenordnung von TS210 bis TS350.

5. Vorform nach einem der Ansprüche 1-4, wobei der Stahl verzinnt ist.

6. Vorform nach einem der Ansprüche 1-5, wobei der Behältniskörper mit einem halsartigen Körperabschnitt ausgestattet ist.

7. Druckbehältnis, das eine Behältnis-Vorform nach einem der Ansprüche 1-6 umfasst, und einen Verschluss, der mit dem Behältniskörper verbunden ist, und bevorzugt ist der Verschluss eine verdrehte Krone oder ein eingespannter Verschluss.

8. Verfahren zur Herstellung einer Behältnis-Vorform für ein Metaldruckbehältnis, wie zum Beispiel ein Aerosolbehältnis oder ein Getränkebehältnis, wobei das Behältnis einen Behältniskörper einheitlich mit einem Boden umfasst, gekennzeichnet durch folgende Schritte:

i. Ausbilden eines Bechers aus einem Stahlbogen, wobei die Dicke des Bogens in der Größenordnung von ungefähr 0.45mm bis ungefähr 0.70mm ist und

ii. Ziehen und Glättung der Wand des Bechers mit einem Glättungsverhältnis in der Größenordnung von ungefähr 64% bis ungefähr 77%.

9. Verfahren nach Anspruch 8, wobei das Glättungsverhältnis in der Größenordnung von ungefähr 66% bis ungefähr 70% ist.

10. Verfahren nach Anspruch 9, wobei die Becherdicke in der Größenordnung von ungefähr 0.45mm bis ungefähr 0.60mm ist, bevorzugt in der Größenordnung von ungefähr 0.45mm bis ungefähr 0.55mm.

11. Verfahren nach einem der Ansprüche 8-10, welches den Schritt des Ausbildens eines Halses am Behältniskörper umfasst.

Revendications

1. Préforme de récipient métallique pressurisé, comme pour un récipient d'aérosol ou un récipient de boisson, comprenant un corps de récipient unitaire avec un fond, lequel récipient à été réalisé par emboutissage et étirage, dans laquelle le rapport d'étirage est de l'ordre d'environ 64 % à environ 77 %, caractérisé en ce que l'épaisseur du fond réalisé à partir d'acier est de l'ordre d'environ 0,45 mm à environ 0,70 mm.

2. Préforme selon la revendication 1, dans lequel le rapport d'étirage est de l'ordre d'environ 66 % à environ 70 %.

3. Préforme selon la revendication 1 ou 2, dans laquelle l'épaisseur du fond réalisé à partir d'acier est de l'ordre d'environ 0,45 mm à environ 0,60 mm, de préférence de l'ordre d'environ 0,45 mm à environ 0,55 mm.

4. Préforme selon l'une quelconque des revendications 1 à 3, dans laquelle l'acier est un revenu dans la plage de TS200 à TS550, de préférence dans la plage de TS210 à TS350.

5. Préforme selon l'une quelconque des revendications 1 à 4, dans laquelle l'acier est plaqué avec de l'étain.

6. Préforme selon l'une quelconque des revendications 1 à 5, dans laquelle le corps de récipient est prévu avec une partie de corps à goulot.

7. Récipient pressurisé comprenant une préforme de récipient selon l'une quelconque des revendications 1 à 6, et une fermeture raccordée au corps de récipient, et de préférence la fermeture est un capuchon à vis ou une fermeture à serrage.

8. Procédé pour fabriquer une préforme de récipient pour un récipient métallique pressurisé, tel qu'un récipient d'aérosol ou un récipient de boisson, ayant un récipient comprenant un corps de récipient unitaire avec un fond, caractérisé par les étapes consistant à :

i. former une coupelle à partir d'un tôle d'acier, dans lequel l'épaisseur de la tôle est de l'ordre d'environ 0,45 mm à environ 0,70 mm, et

ii. emboutir et étirer la paroi de la coupelle avec un rapport d'étirage de l'ordre d'environ 64 % à environ 77 %.

9. Procédé selon la revendication 8, dans lequel le rapport d'étirage est de l'ordre d'environ 66 % à environ 70 %.

10. Procédé selon la revendication 9, dans lequel l'épaisseur de coupelle est de l'ordre d'environ 0,45 mm à environ 0,60 mm, de préférence de l'ordre d'environ 0,45 mm à environ 0,55 mm.

11. Procédé selon l'une quelconque des revendications 8 à 10, comprenant l'étape consistant à réaliser un goulot avec le corps de récipient.

Drawing