JP5103247B2 - Molding device for stretch blow of container having mouth at upper corner - Google Patents

Description

  The present invention relates to a mold apparatus used for stretch blow molding of a container having a mouth at an upper corner.

As a means for stretch blow molding of bottles with an eccentric neck, the preform body is inclined by post-processing, the preform is held by a neck mold in a blow mold cavity, and the body is formed by a stretch rod inserted obliquely through the blow core. The part is obliquely extended to one side of the cavity.
Special table 2003-523289 gazette

  In the above-described stretch blow molding means of the prior art, an insertion hole for a stretching rod is formed in the blow core, and the insertion hole is also used as a blow air passage, so that the hole diameter of the insertion hole is larger than the shaft diameter of the stretching rod. Inevitably becomes a large diameter. For this reason, the gap that forms the air passage around the rod becomes play of the stretching rod, and the stretching rod swings sideways, which tends to cause displacement of the rod tip, and the contact with the inner bottom surface of the preform is as set. The corner portion on one side of the container may be thinned, or the lower part of the trunk may be damaged during stretching. In addition, since the extending rod is inserted through the blow core, when the inclination angle needs to be changed, it is replaced together with the blow core, and it is necessary to adjust fitting between the blow core and the neck type for each replacement.

  The present invention has been conceived in order to solve the above-described conventional problems. The purpose of the present invention is to form both the air passage and the guide hole of the extension rod in the blow core by adopting the guide bush, thereby extending the extension rod. Stretch blow mold apparatus capable of forming a container having a mouth at the upper corner in a straight state without preventing the position of the rod tip from being displaced due to lateral vibration of the preform, and without forming the preform body at an inclination. Is to provide.

The present invention according to the above object has a blow mold in which a molding surface is inclined with respect to the center line of the cavity, and a preform insertion hole is provided on the center line.
A neck mold that fits on the insertion hole, closes the blow mold, and holds the injection-molded straight preform on the center line AA of the cavity from the insertion hole;
A blow core having a cylindrical shape and a tip formed at a fitting step with the neck type,
It consists of a stretch rod inserted diagonally through the blow core,
In the blow core, an angle at which the guide hole with the long axis is in the same direction as the inclined molding surface of the cavity, and the axial line BB of the stretching rod is located at the eccentric portion of the inner bottom surface of the vertical preform in the cavity The guide bush that is obliquely mounted on the guide bush is fitted into a concentric circle with a gap as an air passage between the bush periphery and the tip, the extension rod is inserted into the guide bush, and the tip of the rod to which the pressing terminal is attached is preformed. The guide hole faces the eccentric portion of the inner bottom surface, and the inclination angle of the guide hole is set by the neck diameter and the trunk length of the preform.

  The lower surface of the pressing terminal is formed on a pressing surface corresponding to a curved surface extending between the half of the inner bottom surface and the corner portion of the preform held vertically, and an eccentric portion on the corner portion side of the upper surface is attached to the rod end. It is to become.

  In the above configuration, since the air passage is formed by fitting the guide bush with the guide rod of the extension rod obliquely installed, the diameter of the guide hole is the diameter that the extension rod slides, and there is no extra gap around the rod. Therefore, there is no rod deflection at the time of extension operation, and the pressing position of the inner bottom surface of the preform by the rod tip is always constant, so there is no interference with the trunk lower part due to lateral displacement of the rod tip. Can be stretch blow molded in a straight state without being bent in advance. Therefore, a container having a mouth at the upper corner can be stretch blow molded in the same manner as a normal container having a mouth at the center.

  The diameter of the guide bush guide hole is also smaller than when the guide hole is also used as an air passage, so the required inclination angle is set even if the guide bush has a limited cross-sectional area. In the case of molding a container that requires a change in the inclination angle, it is only necessary to replace the guide bush with a guide hole adapted to the change angle without changing the blow core. There is no need to adjust the fitting between the neck mold and the blow core.

  In the figure, reference numeral 1 denotes a pair of split molds installed on the upper surface of the machine base, and has a cavity 10 for forming a container inside. This cavity 10 is a cavity that blows and forms a container 20 in which the longitudinal cross-sectional shape shown in FIG. 4 is a quadrilateral, the four corners are inclined, and a neck part is integrally formed at one corner of the upper part. On the other hand, the upper and lower molding surfaces 10a and 10a and the both side molding surfaces 10b and 10b 'are inclined so that the upper and lower corners on the diagonal are positioned on the center line AA, and the neck mold 3 is fitted to the upper corner. A recess that closes the mold is formed.

  The neck mold 3 is a pair of lower and opener plates attached to the lower surface of the opening portion of the transfer plate 5 that is movably attached to the lower side of the base 4 that can be raised and lowered. It has a known structure consisting of a split mold, holds the neck of a preform 2 preformed by injection molding, and holds the preform 2 vertically. A blow core 6 is inserted into the neck mold 3 from above the base 4 through an opening 4a formed in a portion of the base 4 on the blow mold and an opening 5a of the transfer plate 5 overlapped with the opening.

  The blow core 6 has a cylindrical shape and a tip portion formed at a fitting step portion with the neck mold 3 so that the tip can be hermetically fitted into the neck of the preform 2. Inside, a long shaft guide bush 7 is provided with an air passage 8 between the bushing and the tip from the opening at the upper end to the inside of the tip, and a flange around the rear end is fitted to the step portion of the guide bush 7. It is fitted so far as to be installed concentrically.

  In the guide bush 7, the guide hole 11 of the extending rod 9 is in the same direction as the inclined molding surface 11 b of the cavity 10, and the axis 2 of the extending rod is perpendicular to the preform 2 in the cavity. It is drilled obliquely at an angle located at an eccentric portion of the inner bottom surface, and a gasket 12 is attached to the inner periphery of the tip opening. The extension rod 9 is inserted into the guide bush 7 from the upper side of the guide bush 7 to the guide hole 11 through the gasket 12 until the tip protrudes from the blow core 6.

  The inclination angle of the stretching rod 9 is determined by the inclination angle of the guide hole 11 set by the neck diameter and the trunk length of the preform 2, and the guide bush 7 is changed when the inclination angle needs to be changed. It is only necessary to replace the guide bush with the guide hole 11 adapted to the angle.

  The guide hole 11 may have a diameter that allows the extending rod 9 to slide, so that the guide hole 11 has a smaller diameter than the air passage around the rod, and the area occupied by the hole diameter in the plane cross-sectional area of the guide bush 7 is also reduced. Therefore, there is no extra space around the rod that causes rod deflection during the extension operation, and the pressing position of the inner bottom surface of the preform by the rod tip is always constant. As a result, breakage during stretching, which tends to occur due to interference with the body due to lateral displacement of the rod tip, is prevented.

  The extending rod 9 is provided with a terminal 13 that presses the inner bottom surface of the preform 2 at the tip of the rod, and the pressing terminal 13 is inserted into the guide bush 7 and then screwed onto the rod end. Yes. An engaging element 14 having a curved upper surface is integrally formed at the rear end of the rod.

  The pressing terminal 13 has a circular planar shape and a lower surface formed on the pressing surface, and the pressing surface is formed in a curved surface corresponding to a curved surface extending between the half portion and the corner portion of the inner bottom surface of the preform held vertically. It is. The upper surface is a flat surface, and an eccentric part on the corner portion side of the upper surface is attached to the tip of the rod so that the pressing terminal 13 presses the half of the inner bottom surface of the preform 6.

  The blow core 6 and the guide bush 7 are connected to a rear end portion of the guide bush 7 on a lower holding plate 16 of a known stretching drive mechanism 15 (for example, see Japanese Patent Application Laid-Open No. 2004-262052) standing on the upper surface of the base 4. The periphery is attached by being held by a holder 17 having an air inflow hole 8a. The extending rod 9 is attached to the upper rod attaching plate 18 by fitting the rear end engaging member 14 to the fitting member 19 on the lower side of the attaching plate so as to be slidable laterally. As a result, the extending rod 9 moves together with the rod mounting plate 18 and extends from the front end of the blow core 6 at the rear end when lowered, and the fitting 14 is pulled by the fitting member 19 at the time of ascent, so To return to.

  In the above configuration, when the neck mold 3 holding the preform 2 vertically by the transfer plate 5 moves to the center of the opened blow mold 1 and stops, the base 4 is lowered together with the transfer plate 5 to blow the blow mold. The mold 1 and the neck mold 3 on the lower surface of the transfer plate are closed.

  After closing the mold, the lower holding plate 9 and the upper rod mounting plate 18 of the extension drive mechanism 15 are lowered together, and the blow core 6 inserted obliquely through the extension rod 9 is moved from the openings 4a and 5a to the neck mold 3. Inserted, the tip end fits airtightly with the step in the neck mold. The tip of the core is inserted into the neck opening of the preform 2 and hermetically seals the opening.

  Simultaneously with the airtight seal in the neck mold by the blow core 6, the end portion of the extending rod 9 projecting obliquely from the front end of the blow core 6 is slanted with respect to the straight preform 2 by the guide hole 11 and the end of the rod end. The pressing terminal 13 is inserted until it reaches the eccentric portion of the inner bottom surface of the preform 2.

  When the fitting of the neck mold 3 and the blow core 6 and the insertion of the extending rod 9 into the preform are completed, the upper rod mounting plate 18 descends and presses and pushes down the rear end of the extending rod 9. Thereby, the front-end | tip part of the extending | stretching rod 9 is extended diagonally from the blow core 6 to the cavity bottom face. Since the rear end of the rod slides sideways in accordance with the change in the height position of the rear end of the rod accompanying this extension, even if the extension rod 9 is inclined, it is smoothly extended by the pressing force of the rod mounting plate 18, The bottom surface of the preform 2 is pressed by the pressing terminal 13 at an eccentric position.

  Air is blown from the blow core 6 into the preform at the same time as or slightly after the extension operation. Blow air is pressed into the preform from the air opening 8a of the holder 17 through the air passage 8 formed between the blow core 6 and the guide bush 7, and the preform body is formed on both the upper and lower sides and the left and right sides. The surfaces 10a, 10a, 10b, and 10b 'expand from the top. At this time, the blow air flows out as a gas leak from the guide hole 11 because the guide hole 11 formed in the guide bush 7 and the air passage 8 are blocked by the gasket 12 provided in the front end opening of the guide hole 11. Never do.

  Further, the pressing terminal 13 is formed on the pressing surface corresponding to the curved surface extending from the half portion of the preform inner bottom surface to the corner portion, with the eccentric portion attached to the rod tip and provided on the extending rod 9. For this reason, as shown by the chain line in FIG. 3, the preform 2 is pulled in the tilting direction of the stretching rod 9 and the body portion is stretched obliquely.

  By this stretching, the body portion of the preform 2 together with the bottom portion is shifted toward the molding surface 10b ′ farther from the cavity center line AA by the inclination angle of the stretching rod 9, and the cavity center line A The difference in distance from the molding surface 10b on the opposite side from -A is reduced, and the difference in the allowance for expansion of the body due to air blow is also reduced. For this reason, the uneven thickness of the body part and the corner part due to the difference in distance from the cavity center line A-A is reduced.

  As a result, the stretch blow molding of the container 20 in which the neck portion of the preform 2 remains in the upper corner portion and becomes the mouth portion 20 'is straightened while the preform 2 is held vertically as in the case of a normal container. Therefore, there is no need to form the body of the preform in an inclined manner or bend it by secondary processing before molding as in the past, and the molding process can be simplified.

It is a longitudinal cross-sectional view at the time of mold opening of the mold apparatus for stretch blow molding concerning this invention. It is a longitudinal section similarly at the time of mold closing. It is the longitudinal cross-sectional view at the time of stretch blow molding similarly. It is a front view of the container which has a mouth part in the upper corner part shape | molded with the mold apparatus for stretch blow molding concerning this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Blow mold 2 Preform 3 Neck type 4 Base 5 Transfer plate 6 Blow core 7 Guide bush 8 Air passage 8a Air inlet 9 Stretching rod 10 Cavity 10a, 10b Molding surface 11 Guide hole 12 Gasket 13 Press terminal 14 Engagement 20 Container 20 'mouth

Claims (3)

A blow mold in which a molding surface is inclined with respect to the center line of the cavity, and a preform insertion hole is provided on the center line;
A neck mold that fits on the insertion hole, closes the blow mold, and holds the injection-molded straight preform on the center line AA of the cavity from the insertion hole;
A blow core having a cylindrical shape and a tip formed at a fitting step with the neck type,
It consists of a stretch rod inserted diagonally through the blow core,
In the blow core, an angle at which the guide hole with the long axis is in the same direction as the inclined molding surface of the cavity, and the axial line BB of the stretching rod is located at the eccentric portion of the inner bottom surface of the vertical preform in the cavity The guide bush that is obliquely mounted on the guide bush is fitted into a concentric circle with a gap as an air passage between the bush periphery and the tip, the extension rod is inserted into the guide bush, and the tip of the rod to which the pressing terminal is attached is preformed. A mold apparatus for stretch blow molding of a container having a mouth portion at an upper corner portion, facing an eccentric portion of an inner bottom surface.   2. The mold apparatus for stretch blow molding of a container having a mouth portion at an upper corner portion according to claim 1, wherein the inclination angle of the guide hole is set by a neck diameter and a body length of the preform.   The lower surface of the pressing terminal is formed on a pressing surface corresponding to a curved surface extending between the half of the inner bottom surface and the corner portion of the preform held vertically, and an eccentric portion on the corner portion side of the upper surface is attached to the rod tip. 2. A mold apparatus for stretch blow molding of a container having a mouth at the upper corner of claim 1.

Images