Method of manufacturing vessels of bottle type from polymer material

专利摘要:
A method of preparing a blow molded plastic container having a thickened bottom structure from a plastic preform. The plastic preform and resultant container have a neck portion defining an opening, a tubular body portion depending therefrom and an integral bottom structure depending from the tubular body portion. A stretch rod is seated inside the preform. The stretch rod stretches the poitions of the preform adjacent the bottom thereof by means of a controlled stroke, in an amount less than the amount of stretching of the tubular body portion, to impart to the container bottom structure and adjacent body portions continous variations of wall thickness the thick parts thereof on average being thicker than the average wall thickness of the container body.
公开号:SU1709898A3
申请号:SU894613249
申请日:1989-01-10
公开日:1992-01-30
发明作者:Страссхеймер Герберт
申请人:Пластикон Пейтентс С.А. (Фирма)；
IPC主号:

专利说明:

The invention relates to the manufacture of polymeric material containers, in particular bottles for pressurized liquids such as carbonated beverages, etc.
The containers can be made from casting billets, followed by their blow-molding in a form appropriate to the container configuration. The purpose of the invention is to improve the quality of the container by producing thickened walls in the bottom part of the container.
FIG. 1 shows a blank of the invention, a section; FIG. 2 shows a section A-A in FIG. 1; in FIG. 3, a blank to be stretched and blown to obtain a container (bottle), a partial section view,
made through a mold to blow the preform; 4 shows a container made in accordance with FIG. 3, a general view; in Fig. 5, section B-B in Fig. 4, and the corresponding section shown in Fig. 2, shown in dotted line, is naive to it; on figb - bottom and adjacent parts of the tubular body of the container shown in figure 4, a partial section; Fig. 7 shows a stepped rod for pulling a blank (Fig. 3), a partial section; Fig. 8 shows a pull rod, a partial section; figure 9 - rod, option, partial section.
The preform 1 of polymeric material is made by injection molding of synthetic resin, which can be
It is oriented along two axes, for example, from polyethylene terephthalate. In the workpiece 1, the upper section 2 forms a neck with an opening 3, and the neck 2 can be provided with an external thread, which serves to install the cover on the finished plastic container obtained by blowing. The preform 1 has a tubular section 4 forming the body and a section 5 forming the bottom of the container. The workpiece 1 is made of variable thickness and has an outer 6 and an inner 7 side of the wall. The inner side 7 of the wall of the tubular section 4 of the body in the transition zone to the bottom part 5 is provided with a protrusion forming a thickened part 8, which in section has a plurality of flat faces 9. converging at the intersection points 9a (see Fig. 2. where the preferred hexagonal configuration ). Three or more of these planar faces may be the base, although a hexagonal configuration is preferred. The bottom part 5 is preferably provided with an axially inwardly tapered part 10. Although a flat-bottomed structure can be used,
Blank 1, shown in Figures 1 and 2, is a preferred embodiment of the invention. The advantages of the invention can be provided without the protrusion 8. forming the thickened part of the workpiece, and without a hexagonal configuration.
The billet having this structure is exposed to a temperature at which it is possible to carry out brimenting during the casting process, which is carried out by heating a preheated billet or molding a hot billet together with the blow molding operation and appropriately controlling its temperature. Then the heated billet is placed in a blower mold 11 having the configuration of the container obtained (see fmg.Z). A stepped rod 12 is placed inside the preform for axial exhaust. contact with the bottom section 5 and with the help of it carry out axial stretching, and then supply compressed air, inflating the preform before contact with form 11, causing its biaxial orientation and at the same time receiving capacity 13 (see Fig.4) .
Thus, the container 13 is molded from a cast billet and has a neck 14 with a hole 15, a bottom part 16 and a tubular part 17 of the body connecting the neck 14 and the bottom part 16. The neck 14 has an external thread 18. Serving for attaching the cap to the container , as well as to the workpiece. At the bottom 16
preferably, there is an inner, axially inward conical portion 19.
Container 13 has an internal 20 and
outer 21 side of the wall. The inner side 20 of the wall of the tubular part 17 of the housing, adjacent to the bottom part 16 and passing into the bottom part, is provided with circumferentially protruding radially continuous irregularities 22 in thickness shown in Fig. 5. These bulges in the wall are progressive or gradual and do not have sharp edges. 22 irregularities in thickness
The 5 walls extending above the bottom 16 and the conical 19 parts serve to reinforce it.
In Fig. 5, thick lines show gradual or increasing irregularities 22 along the wall thickness, which characterize the lower part of the container and its bottom part. The inside of the cross section in FIG. 5 is superimposed by the dotted line of the enlarged cross section of the blank 2. In which it is seen that the contact points of the flat inner edges of the blank form thinner sections of the wall section and the flat edges gradually form thickened parts.
.b is a partial
0 is an enlarged cross-section of the bottom part 16 and the adjacent tubular part 17 of the container 13. Where the thickened wall is clearly visible.
Figure 5 shows the preferred option, where the inner side of the wall of the tubular part of the body of the workpiece. adjacent to the bottom part of the workpiece and passing to the bottom part, has a hexagonal configuration, and the outer side of the wall is round. Also outside
The container wall 0 is characterized by a circular configuration in the tubular part of the body adjacent to the bottom part, and the corresponding inner side of the container is characterized by the presence of these irregularities in
5 wall thickness. However, other variations may be used.
The bottom part 16 of the container and the adjacent tubular part 17 are characterized by a substantial thickening and intensification by fire to the rest of the container. This is an advantage of the capacitance made in accordance with the invention, since this part of the capacitance is subjected to significant voltages.
5 As shown in FIG. 7, stepped
the rod 12 is inserted into the workpiece 1 so. so that it is in a state of substantial contact with the bottom part 5 of the workpiece and the adjacent thickened part 8. In a snapshot way, the rod is pulled out of the gutting 1 before blowing with frictional contact between the rod and the thickened part 8. Therefore, the rod draws the bottom part 5 and the adjacent tubular thickened section 8 of the workpiece 1 with a controlled stroke of the rod 12 by an amount smaller than the magnitude of the extrusion of the remaining volume of the tubular part 4 of the body, in order to give part of the container and the adjacent parts of the body continuous varying thickness, on average, greater than the thickness of the container body. To ensure frictional contact between the rod and the workpiece, the rod is first fed forward, thereby increasing the internal volume of the workpiece, creating a vacuum in it, as a result of which external atmospheric pressure presses the workpiece to the rod, which creates a substantial frictional contact preventing continuous stretching of parts of the workpiece under the action of these forces, while other parts, such as tubulars, continue to stretch. The control of setting the length of the workpiece, which should no longer be stretched, can be accomplished by supplying a pressure close to atmospheric to the inside of the workpiece at a given point in time to shift the atmospheric pressure. The pressure used to blow the vessel to its final shape ranges from about five to thirty times relative to atmospheric, and it is served only when the preform is significantly stretched.
In accordance with the example shown in FIG. 8, in the thickened part 8 of the workpiece there is a protrusion 23 upon transition to the tubular part 4 of the body. The stepped rod 24 is placed in contact with the reinforced part 8 of the workpiece and the bottom part 5, as shown in Fig. 7, however, the rod 24 has a corresponding part 25, spaced from the thickened part 8, at a distance corresponding to the controlled working stroke. Thus, the bottom part 5 of the workpiece and the thickened part 8 are stretched to a predetermined distance by the rod 24, corresponding to the movement of the part 25 of the rod 24, until it contacts the protrusion 23 (Fig. 8}. This keeps the pulling rod 24 from passing into the thickened the wall portion 8 when the draw rod continues to pull the tubular body portion 4. In this way, the workpiece elongation is ensured, similarly to the example shown in Fig. 7.
In accordance with the example shown. 9, part 25 of the rod 26 is in contact with the protrusion 23, and the bottom part 27 of the rod 26 is spaced from the bottom part 5 of the workpiece to a distance corresponding to the controlled working stroke. Thus, part 5 of the preform is drawn out after contact with the bottom part 27 of the rod, which results in the creation of a substantially thickened bottom part of the preform. The adjacent part of the hull is also substantially thickened.
B according to the examples in FIGS. 7-9, the bottom part of the workpiece is flat and the bottom of the rod is curved (concave). In fact, both of these bottom parts (the rod and the workpiece) can be curved (see Fig. 3).
Thus, the presence of a controlled working stroke in this method of manufacturing the container significantly enhances the final formation of the bottom of the container and the adjacent part of the tubular body. Compressed air for inflating the preform may be supplied from a separate unit (not shown) through a pulling rod in a known manner.
At the same time, the described reinforcement of the vessel wall can be applied in the areas of the vessel, which, due to the need for resistance to operating conditions, for example with respect to shocks, are kept (not deformed or destroyed) due to mechanical properties obtained only by the corresponding biaxial orientation. Such container areas are bottom edges, which are subject to sharp shocks whenever the filled container falls. In a container made in accordance with this method, a substantial biaxial orientation can take place far beyond the central bottom area, which allows the bottle, the base of which is wide enough for stability, while the exposed base edge is substantially oriented. Known reinforcements, such as ribbed structures, are oriented essentially only along the edges, which leads to cracks perpendicular to them when struck, so they cannot pass beyond a relatively short distance from the center, which makes the container unstable at the filling line and using.

权利要求:
Claims (5)
[1]
1. A method of manufacturing a container such as a bottle of polymer material by blown from a cast billet in the PRPRMYNNPY plinth wall, having an upper section, forming a neck with an opening, a tubular section forming the body part of the container, and a section forming the bottom part of the container, including placement blanks for blowing, inserting a stepped rod into the blanks for stretching, axial stretching of the blanks with a rod and blowing the blanks up to the contact with the form, characterized in that, in order to improve the quality of the container by producing thickened walls in the bottom part of the tank, axial elongation of the bottom part of the workpiece is carried out by an amount cast from the amount of elongation 15 of the tubular section of the body to give at least the bottom part continuous variations in wall thickness, and the average value of the greatest wall thickness in the bottom part there is more than the thickness of the wall of the body part, by means of a controlled working stroke of the stepped rod, drawing a part of the tubular section adjacent to the bottom part by an amount less than rank stretching tubular portion 25 of the body portion.
[2]
2. The method according to claim 1, characterized in that a blank is used having a thickened wall in the transition zone of the body portion to the bottom part with the formation of a 30 protrusion on the inner side of the blank, and
the rod is contacted with a controlled working stroke of the rod to hold the rod from passing into the bottom part when passing into the tubular body part of the workpiece.
[3]
3. The method according to claim 2. characterized in that the rod is inserted into the workpiece, placing the upper stage at a distance from the workpiece protrusion corresponding to the controlled working stroke, and pulling out the bottom part and the adjacent body part during the working stroke of the rod by moving the rod until it touches top tread ledge.
[4]
4. Method according to Claim 2, characterized in that the rod is introduced into the workpiece by placing the upper stage in contact with the protrusion of the workpiece, and the lower stage is placed at a distance from the bottom part of the workpiece corresponding to the controlled working stroke. carried out after contacting it with the rod.
[5]
5. Method according to item 2. characterized in that the frictional contacting of the rod with the thickened part of the workpiece is carried out at the start of blowing to ensure that in the bottom part in the zone adjacent to the body part the greatest wall thickness is greater than the wall thickness of the body part.
Phi.1
FIG. 2
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类似技术:

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SU1709898A3|1992-01-30|Method of manufacturing vessels of bottle type from polymer material

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同族专利:

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公开号 | 公开日

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EP0324102A2|1989-07-19|

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US4880593A|1989-11-14|

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JPH0236922A|1990-02-06|

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EP0324102A3|1989-08-23|

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JPH0624759B2|1994-04-06|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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US07/142,004|US4880593A|1988-01-11|1988-01-11|Method for preparing blow molded plastic container|

---