The present invention relates to a method and apparatus for forming a steel container, to such steel container and a steel container preform therefore and further to a container provided at its open end with a dispensing unit or closure.
These containers may be used as pressure container for instance for dispensing aerosols, foodstuff such as dressings, sweet smelling gas mixtures and the like. The pressure in such a pressure container may range from 1-30 bar, in particular 10-20 bar. Such pressure containers are normally made from aluminum.
Presently, there is a tendency for using steel instead of aluminum. The production of containers made of steel is problematic. For reasons that the container is to made starting from a steel cup or steel plate. The steel cup is to be formed in a container preform and provided with a curl and optionally a necked free end into which the curl is formed. Onto this curl a closure or dispensing unit is to clenched. All these manipulations starting from steel plate or a steel cup require that the metal is suitable for being subjected to forming operations resulting in a thinning of the wall of the steel cup and further radial expansion and reduction of diameter during the curling and/or necking operations.
The present invention has for its object to provide a method for forming a steel container, such as a pressure container, which container complies with the requirements for the container and container preform in relation to formation at low variations in dimensions, failure of steel material or forming tools, and finally to the requirement that the steel containers should be produced at a reasonable speed such as 500-2000 steel containers per minute.
According to a first aspect of the present invention is provided a method for forming a steel container, such as a pressure container, having a curled open end, comprising the steps of:
i) providing a steel cup;
ii) deep drawing the steel cup into a drawn container preform;
iii) thin drawing the body of the drawn container preform; and
iv) curling an open end of the drawn container preform by forming a precurl and by curling the precurl into an elongated curl.
The method according to the invention comprises two critical forming operations being deep drawing and subsequently thin drawing. In the deep drawing operation the container preform is formed at an increasing cup height, a decreasing cup diameter, and decreasing body thickness. The container preform formed after deep drawing is not suitable for a subsequent curling operation during which the open end of the drawn container is curled. The steel material fails due to the formation of cracks and irregular curls with a high variation in curl dimensions. However, if the deep drawn container preform is first thin drawn prior to curling then the above described curling problems are overcome. The invention is based on the insight that after deep drawing the body of the drawn container preform is not of the same material thickness over the height of the drawn container perform body. Starting from the bottom of the drawn container preform the thickness of the body wall increases towards the open end. If by thin drawing the wall thickness of the body in at least the open end (which will be subject to the curling operation) is reduced and provided with a substantially constant wall thickness then curling of this thin drawn open end results in curls of good quality.
According to preferred embodiment the steel cup used in the deep drawing operation is formed from steel plate preferably by (deep) drawing.
This deep drawing operation is preferably carried out in several deep drawing steps. During these deep drawing steps the diameter of the body wall is gradually decreased whereas at the same time the height of the cup is gradually increased. The body of the cup may have the same or a slightly reduced thickness relative to the original steel plate out of which the steel cup is formed. Depending on the dimensions of the drawn container preform the number of deep drawing steps is about 2-6 deep drawing steps such as 3 deep drawing steps.
Generally, a container is provided with a concave bottom which increases the strength of the container particularly at (higher) pressures which may result in the use of containers having a thinner bottom (thus starting from a thinner steel plate). The concave bottom may be formed in the container preform during or after the deep drawing operation. The drawn container preform has an irregular free edge which may interfere with subsequent forming operations. This irregular free end is preferably removed by trimming and more preferably by punch trimming.
The drawn container preform having being subjected by deep drawing and thin drawing of the body could now be made subject of the curling operation during which first a precurl is formed and subsequently the precurl is formed into an elongated curl. The curl should have substantial constant dimensions for reasons that on to this curl the closure or dispensing unit is to be clinched during which a gastight closure is to be formed.
According to a preferred embodiment a free end zone of the drawn container preform is necked such that the subsequently formed curl resides within an imaginary envelope of the container body. In other words the outer diameter of the curl is smaller than the diameter of the body of the container according to the invention. The free end zone is thereto subjected to a necking operation preferably in the form of several necking steps which may amount in total 2 to 10 necking steps, such as 3-7 necking steps, such as 5 or 6 necking steps. The necking whereby the diameter is reduced requires an inward movement of end zone material. In order to control as much as possible this inward movement of the end zone during its necking it is preferred that at least one necking step comprises a mandril necking step. During mandril necking the portion of the end zone under necking operation makes contact with the mandril and supported on the inserted mandril is pushed or drawn through a necking ring. This results in a more reliable necking operation and in a necked portion of lower variation in diameter and thickness and a low number of failures. When the necked free end is to be trimmed classical rotating trim means may be used. However, it is preferred to trim by pinch trimming by the use of an adapted or additional pinch trim mandril.
According to a preferred embodiment the steel used for forming the steel container is coated at at least one side with a coating. Such coating may be a coating avoiding corrosion of the steel or improves its quality, reduces friction or provides good aesthetic appearance. An example of such a coating is PET. The steel may be coated at one side or at both sides and if coated at both sides the coating may have a different thicknesses. The inside of the container may have a thicker coating than the coating on the outside. The coating may have a thickness of 10-100 micrometer, such as 15-40 micrometer, in particular 20-30 micrometer. For example the thickness of the coating at the inner side of the container may be 30 micrometer and at the outside 20 micrometer.
During the deep drawing, thin drawing, necking and curling operations the strengths with which the coating is coated on and adhered to the steel may be insufficient for being subjected to these operations or would result in a rough outer surface. In order to overcome these drawbacks, it is preferred to subject the coating to a heating operation such as a heating at 100-400° C., preferably 150-350° C., such as 200-300° C. These temperatures to be applied are to be determined by routine experimentation in relation to the material of the coating and its thickness. For PET a heat treatment at 280° C. is sufficient for improve the adherence to the steel surface. Heating is preferably carried out by induction heating which allows a local heating of in particular the part of the container which is to be subjected to necking and curling. This preferred heating treatment comprises induction heating. Induction heating has another important advantage being that there is no need for making contact in between a heating element and the preform to be heated. If needed an adapted heating operation may be applied to the coated concave bottom.
Another aspect of the invention relates to an apparatus for forming a steel container. This apparatus according to the invention comprises:
i) an unit for deep drawing a steel cup into a drawn container preform;
ii) an unit for thin drawing the body of the drawn container preform; and
iii) an unit for curling an open end of the drawn container preform, which curling unit comprises a precurl forming sub unit and an elongated curl forming sub unit.
The apparatus preferably comprises an unit for forming a steel cup when the steel cup is to be made from steel plate.
In relation to the deep drawing apparatus to be carried out the apparatus comprises a deep drawing unit which has several deep drawing subunits in order to carry out the subsequent deep drawing steps. The number of deep drawing subunits amounts preferably from 2 to 6, such as 3 deep drawing subunits.
According to a preferred embodiment the apparatus comprises an unit for forming a concave bottom in the drawn container preform.
If the container preform is to be trimmed at its free end then the apparatus according to the invention preferably comprises a trimming unit.
If the steel container according to the invention is to be provided with a necked end zone then the apparatus according to the invention comprises a necking unit for necking a free end zone of the drawn container preform, preferably comprising several necking sub units, such as 2-10 necking sub units. In order to carry out the necking unit by mandril necking then the apparatus comprises a mandril necking (sub) unit. As discussed above, a (pinch) trimming unit may be used for trimming the necked free end.
For a preferred heating of the free end zone to be necked of the steel container preform, the apparatus is provided with a heating unit which is preferably an induction heating unit.
Finally, the invention relates to the steel container and steel sure container preform which are formed or formable in the above described method according to the invention and/or in the above described apparatus according to the invention. The container preform and container according to the invention are characterised in that they have been made from steel, preferably coated at one or both sides with a protective or aesthetic coating. The bottom of the container preform and container is thicker than the wall thickness of the body, whereas the body of both the steel container and its preform are substantially constant particularly in the free end zone up to the curl or if available the necked portion. In the necked free end the thickness increases slightly with about 4% for each necking operation step. The curl of the container and container preform of the present invention is characterised by the precurl which is enclosed by an elongated curl and lies against the body or necked body outer wall. If the container or container preform has been subjected to the heating operation and was coated with a protective coating such as PET, then the heated part of the body will have a glossy appearance whereas the other part towards the bottom of the container or container preform is non-glossy.
Mentioned and other characteristics and features of the method and apparatus for forming a steel container and of the steel container and its preform will be further elucidated in the following description of several embodiments, which description is given for illustrative purposes and is not intended to limit the method, the apparatus, the container and preform according to the invention to any extent. In the description reference will be made to the drawings in which
According to another embodiment the free end zone is necked forming the necked portion 17 which is subsequently provided with a precurl 18 and an elongated curl 19 thereby forming the container 1.
As noted here in before the preform obtained in the third deep drawing operation as discussed in
As shown in
Progressively, the diameter of the necked free end zone may be reduced stepwise from about a diameter of 20 mm to a diameter of about 15 mm. These step wise reductions or necking operations may be carried out in 2-10 steps, in this case in 6 steps. Each necking step requires adapted tools for the clamp, the necking ring and the mandril.
The necked preform 59 is subsequently subjected to a cutting operation in which using a rotating cutting device 60 the free end is trimmed resulting in a sharp edge 61 in the necked portion 62 of the preform 63 (see
The
In
The end zone 67 of the preform 64 is placed on a support 68 and brought into contact with a curling tool 69 which is rotably supported in bearings 70 in a holder 71.
As shown in
As shown in
A preform 89 mounted on a punch 90 is passed following the arrow 91 through the thin drawing tools 92 and 93. During passage the body 94 of the preform 89 is thin drawn.
The preform also passes through the stripper rings 95 and 96.
As shown in
The punch 90 moves further following the arrow 99 until the bottom part 100 of the preform 89 contacts a tool 101 for forming the concave bottom form (see
The left cross sectional part of
During the subsequent relative movement in between the support 109, the necking ring 110 and the mandril 111 (see also
As shown in greater detail in
Thus, according to this embodiment the trimming of the preform and the final necking operation could be carried out in one and the same unit and during one and the same operation.
According to the various embodiments is produced a steel container having a curled open end which fulfils the objectives in relation to dimension stability, ease of production and of sufficient strength that a tight closure can be formed by clinching a closure or a dispensing unit. Furthermore, the steel may be coated at one or both sides in order to provide the steel with improved properties such as corrosion properties or other aesthetic properties. Still, a steel sheet laminate coated at one or both sides may be used and these coatings are still present in the steel container produced.
Furthermore, it is noted that the various operations used in the method of forming the steel container according to the invention and the various units used in the apparatus for forming a steel container according to the invention may be implemented in one and the same apparatus in which the preforms are circulated through the various units for being subjected to the various operations. On the other hand the same steel container may be produced using various apparatuses for carrying out the operations as defined in the claims of the present patent.
Number | Date | Country | Kind |
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06076483.4 | Jul 2006 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/006358 | 7/16/2007 | WO | 00 | 11/23/2009 |