THIS INVENTION relates to compression moulding apparatus and to a compression moulding method.
The general background to compression moulding is described in the specification of my earlier PCT application PCT/ZA2004/00082 (published as WO 2005/009716). Various forms of compression moulding are disclosed in U.S. Pat. Nos. 4,913,871, 4,649,013, 5,776,381, 4,595,550 and 5,204,127 as well as in UK Specification 2 480 667, French Specification 2480667 and Japanese patent publication 20022047016.
The apparatus of WO 2005/009716 is able to handle most forms of molten synthetic plastics materials and produce articles such as bottle caps.
A particularly difficult plastics material to handle is PET. This is now widely used to manufacture bottles by blowing preforms. Such preforms are injection moulded as PET can be handled successfully in an injection moulding machine.
In compression moulding a charge of molten plastics material is cut-off a supply and dropped as a bead into a female mould. PET is a viscous liquid once molten and has a tendency to form strings when manipulated in molten form. In compression moulding these strings drape themselves over the female mould. This problem prevents PET being used on a commercial scale in compression moulding.
The present invention is an improvement on the invention of WO 2005/009716 and its main object is to provide compression moulding apparatus and a compression moulding method which will handle PET so that products such as PET preforms can be manufactured by compression moulding.
According to the present invention there is provided compression moulding apparatus which comprises a female mould with a vertical passageway therethrough, a male mould which is above the female mould, means for displacing the male mould and female mould into contact to close the upper end of said passageway and partially to define a mould cavity within the female mould, a plunger, means for displacing the plunger and female mould relatively to one another so that the plunger enters the lower end of said passageway, the upper end of the plunger being in the form of a well for receiving a charge of synthetic plastics material before the plunger enters said passageway, and means for feeding a charge of synthetic plastics material to said well.
Said well in one form is constituted by a depression in the top surface of said plunger. In another form said plunger comprises a shaft and a ring, the radially inner surface of the ring and the top surface of the shaft constituting said well whilst the ring protrudes upwardly above the top surface of said shaft.
Means are preferably provided for displacing said male mould up and down with respect to the female mould and for displacing said plunger up and down with respect to the female mould.
According to another aspect of the present invention there is provided a compression moulding method which comprises bringing a male mould member and female mould member into contact whereby the male mould member closes the upper end of a passageway extending through the female mould member, surfaces of the contacting mould members constituting part of the bounding wall of a mould cavity, feeding a charge of synthetic plastics material onto the top surface of a plunger, inserting the plunger into the lower end of said passageway thereby to place said charge of synthetic plastics material in said passageway, displacement of said plunger and the female mould relatively to one another continuing until the upper surface of the plunger reaches a position in which it constitutes the remaining part of the bounding wall of the mould cavity.
In the preferred form of the method the male mould member moves downwardly towards said female mould member to close said upper end of said passageway, and the plunger moves upwardly towards said female mould member to insert said charge of plastics material into the passageway.
According to a further aspect of the present invention there is provided a method of producing a bottle the wall of which comprises more than one layer of synthetic plastics material, the method comprising moulding a first preform which is open at one end and closed at the other, moulding a second preform which is open at one end and closed at the other, the external dimensions of the second preform being compatible with the internal dimensions of the first preform, inserting the second preform into the first preform and blowing the preforms to form the bottle.
The first preform can have a radially outwardly protruding flange adjacent the open end thereof. In another form the internal dimension of the first preform can be greater adjacent its open end than elsewhere whereby there is an annular gap between the first and second preforms adjacent the open end of the first preform.
To enable a cap to be fitted the second preform can have threading on the external surface thereof adjacent said open end and an encircling cap retaining bead positioned between the threading and the remainder of the preform.
Two second preforms can be inserted into the first preform whereby the bottle blown has an internal partition.
The invention also provides a blown bottle having a multi-layer wall when produced by the above method.
For a better understanding of the present invention, and to show how the same may be carried into effect, reference will now be made, by way of example, to the accompanying drawings in which:
Referring firstly to
The female moulds 18 are open both at their upper ends and at their lower ends so that there is, at the stage in the moulding procedure Illustrated in
Each male mould 20 has mould cavity closing surfaces 24 and each female mould 18 has surfaces 26 which co-operate with the surfaces 24. Once these surfaces are in contact the male and female mould members do not move again with respect to one another until the moulding procedure Is complete and the mould is to be opened.
The apparatus further includes a plurality of plungers 28. Each plunger 28 comprises a shaft 30 and a ring 32. Cams, not shown, are provided for reciprocating the plungers 28 vertically with respect to the female moulds 18. The ring 32 can slide, with respect to the shaft 30, from the uppermost position shown in
The sequence of moulding operations will now be described in detail.
In
In
The shaft 30 is then cammed down to its lowermost position and the ring 32 is cammed to the position in which it protrudes upwardly from the shaft 30 to form the well 34.
The charge 38 of synthetic plastics material is then fed into the well 34.
As the moulds move from the position of
The preform is preferably of the material which is referred to as PET.
A second preform is shown at 52 in
Once the two preforms are nested as shown in
A closure cap 60 is shown in chain dotted lines in
The preform 74 of
During blowing, the radially outer part of the flange 76 is turned upwardly so that the flange 76 takes on the same shape as the flange 56 of
By the way of example, moulding of the preform 74 is illustrated in
The upper end of the shaft 30 has a hemispherical depression 78 in it. This moulds the end wall 80 of the preform 74 and, when completely filled, provides sufficient material to mould the preform. The depression 78 thus acts as a measuring vessel.
Turning finally to
A cap, not shown, screwed onto the threading 86, carries a seal which isolates the compartments from one another. Removal of the cap enables the two compartments to be emptied.
It is also possible for the cap to be such that access can be had to a selected one of the compartments to enable the product in that compartment to be used. For example, the threading 86 can be omitted and the cap can be a “snap-on” cap. Such a cap can be retained by an additional encircling bead and is able to rotate on the bottle but not to unscrew. The cap can have a dispensing opening in it which can be aligned with the selected compartment.
Number | Date | Country | Kind |
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2006/1106 | Feb 2006 | ZA | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB07/00294 | 2/8/2007 | WO | 00 | 8/8/2008 |