JP3722671B2 - Injection stretch blow molding equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an injection stretch blow molding apparatus, and more particularly to an injection stretch blow molding apparatus that intermittently conveys a neck mold to at least an injection molding section and a stretch blow molding section by a rotating plate.
[0002]
[Background Art and Problems to be Solved by the Invention]
An example of this type of injection stretch blow molding apparatus is shown in Japanese Patent Publication No. 5-32211.
[0003]
As shown in FIG. 4, the injection stretch blow molding apparatus is configured such that molding parts such as the injection molding part 12 and the stretch blow molding part 14 are arranged at predetermined positions on the machine base 10.
[0004]
A lower base 16 is fixed on the machine base 10, and a support plate 20 is fixed above the lower base 16 via a tie bar 18.
[0005]
Between the lower base 16 and the support plate 20, an upper base 22 and a mold clamping plate 24 are disposed along the tie bar 18 so as to be able to be raised and lowered.
[0006]
A rotating plate 26 is provided on the lower surface side of the upper base 22 so as to be intermittently rotatable.
[0007]
The rotary plate 26 is provided with a neck die 28 at a position corresponding to each molding portion, and the neck die 28 can be stopped at each molding portion position by intermittent rotation of the rotary plate 26.
[0008]
Each molding part, for example, the injection molding part 12 is provided with an injection cavity mold 30, and the stretch blow molding part 14 is provided with a blow cavity mold 32. By lowering the base 22, each neck mold 28, the injection cavity mold 30 and the blow cavity mold 32 are closed.
[0009]
Further, the mold clamping plate 24 is provided with an injection core mold 36 and a blow core mold 38 corresponding to each molding part, for example, the injection molding part 12 and the stretch blow molding part 14, and a mold clamping cylinder provided on the support plate 20. By lowering the mold clamping plate 24 at 40, the injection core mold 36 and the blow core mold 38 and each neck mold 28 can be clamped with respect to the injection cavity mold 30 and the blow cavity mold 32.
[0010]
A stretch rod raising / lowering cylinder 44 that allows the stretch rod 42 to advance and retreat is provided on the clamping plate 24 at the position of the stretch blow molding portion 14.
[0011]
However, in such an injection stretch blow molding apparatus, the clamping of the injection core mold 36, the blow core mold 38 and the neck mold 28 is performed by the mold clamping cylinder 40 provided on the support plate 20 above the mold clamping plate 24. Therefore, the clamping force of the clamping cylinder 40 must be increased, and the clamping plate 24 must be moved from below the support plate 20 to the vicinity of the injection cavity mold 30 and the blow cavity mold 32. Rather, a large movement stroke is required.
[0012]
Accordingly, the mold clamping cylinder 40 is large, the weight is increased, the length is also increased, the total height of the apparatus is increased, and the heavy object is at the highest position, so that the balance is very poor and unstable. It becomes a state.
[0013]
In addition, since the elevating cylinder 34 for raising and lowering the upper base 22 is located at substantially the center of the lower base 16, the elevating cylinder 34 becomes an obstacle, and a large blow stroke for blow mold clamping cannot be taken and maintenance work is difficult. It becomes a state.
[0014]
An object of the present invention is to provide an injection stretch blow molding apparatus in which the overall height of the apparatus is kept low, a compact, balanced and stable state is obtained, and there is no obstacle in the center of the lower base. .
[0015]
[Means for Solving the Problems]
In order to achieve the above object, an injection stretch blow molding apparatus according to the present invention has an injection molding portion and a stretch blow molding portion, and a neck mold disposed corresponding to each molding portion is intermittently provided to each molding portion. In an injection stretch blow molding apparatus having a rotating plate to convey,
Rutotomoni fixed on the machine base, a lower base forming a molding space of the respective molded part between the rotary plate,
An upper base disposed above the lower base and supporting the rotating plate;
A traction plate disposed in the machine base below the lower base,
A plurality of tie bars that pass through the lower base and connect the upper base and the traction plate;
Clamping means disposed in the machine base and driving the traction plate up and down;
An injection core mold clamping cylinder which is arranged above the upper base and raises and lowers the injection core mold;
It is characterized by having.
[0016]
According to the present invention, the upper base and the traction plate are connected by the plurality of tie bars that penetrate the lower base, and the traction plate is driven up and down by the mold clamping means disposed in the machine base, thereby providing a large mold clamping means. Without placing the device above the machine base, the overall height of the device can be kept low to achieve a stable and balanced state.
[0017]
In addition, the mold clamping means is in a state of pulling the traction plate in the machine base, and only the upper base is raised and lowered by pulling the traction plate, and there is no fixed support plate above the upper base. A compact state can be achieved. In particular, by having an injection core mold clamping cylinder, the mold clamping means in the machine base can be used as a mold clamping means exclusively for the neck mold, and the functions of the mold clamping means and the injection core mold clamping cylinder are distributed. Compactness can be achieved.
[0018]
Further, since the upper base supporting the rotating plate is moved up and down by the clamping means disposed in the machine base, there is no one that moves the upper base up and down on the lower base. A sufficient blow stroke for clamping the mold can be secured, and maintenance work on the lower base can be easily performed without any obstacles.
[0019]
In the present invention, a cylinder fixing plate for attaching said injection core mold clamping cylinder above the upper base is provided,
The cylinder fixing plate, the upper base, and the traction plate may be fixed to the tie bar so that they can be moved up and down integrally.
[0020]
With such a configuration, even when the cylinder fixing plate for attaching the injection core mold clamping cylinder is provided above the upper base, the cylinder fixing plate moves up and down integrally with the upper base. Is kept constant, the stroke of the injection core mold clamping cylinder is minimized, and the injection core mold clamping cylinder can be reduced in size.
[0022]
In the present invention, the mold clamping means may be disposed at a position below the injection molding part.
[0023]
By adopting such a configuration, it is possible to generate a large clamping force at an injection molding part position that requires a clamping force compared to other molding parts such as a stretch blow molding part. It can be used effectively with minimal force.
[0024]
In this case, it is preferable that an auxiliary clamping cylinder that drives the traction plate to move up and down is disposed below the stretch blow molding portion in the machine base.
[0025]
By setting it as such a structure, the reaction force at the time of the blow molding which concerns on the neck type | mold and blow core type | mold in a stretch blow molding part can be received with sufficient balance.
[0026]
In the present invention, it is preferable that synchronizing means for synchronizing the clamping means and the auxiliary clamping cylinder is provided in the machine base.
[0027]
With such a configuration, even if there are a mold clamping unit and an auxiliary mold clamping cylinder for moving the traction plate, the synchronization unit can smoothly ascend while the traction plate and the upper base are kept horizontal. .
[0028]
In the present invention, it is preferable that a stopper for restricting a lower limit position of the upper base when the upper base is lowered is provided on the blow molding portion side.
[0029]
With such a configuration, even when the blow mold is open, the lower limit position can be reliably regulated by the stopper when the upper base is lowered, and reliable positioning can be performed.
[0030]
Further, another injection stretch blow molding apparatus of the present invention has an injection molding section and a stretch blow molding section, and rotates the neck mold disposed corresponding to each molding section intermittently to each molding section. In an injection stretch blow molding apparatus having a plate,
Rutotomoni fixed on the machine base, a lower base forming a molding space of the respective molded part between the rotary plate,
An upper base disposed above the lower base and supporting the rotating plate;
A traction plate disposed in the machine base below the lower base,
A plurality of tie bars that pass through the lower base and connect the upper base and the traction plate;
Clamping means disposed in the machine base and driving the traction plate up and down;
An injection core mold clamping cylinder which is arranged above the upper base and raises and lowers the injection core mold;
Have
The mold clamping means is:
A clamping cylinder that is disposed at a position below the injection molding part in the machine base and drives the traction plate to move up and down;
An auxiliary clamping cylinder disposed at a position below the stretch blow molding portion in the machine base and driving the traction plate up and down;
Synchronization means disposed in the machine base so that the clamping cylinder and the auxiliary clamping cylinder can be synchronized,
The synchronization means includes two racks that are respectively suspended from the injection molding portion and the stretch blow molding portion of the lower base,
Two pinions fixed to a rotating shaft disposed between the injection molding part and the stretch blow molding part of the traction plate, and meshing with the racks;
It is characterized by having.
[0031]
According to the present invention, by driving the traction plate by the clamping cylinder disposed below the injection molding part in the machine base, the overall height of the apparatus can be reduced without arranging the clamping cylinder above the machine base. This makes it possible to achieve a compact, balanced and stable device.
[0032]
In addition, there is no obstruction at the center of the lower base, the blow type opening / closing stroke can be made sufficiently large, and maintenance work can be facilitated.
[0033]
Further, the driving force of the clamping cylinder can be effectively used for an injection molding part that requires a large clamping force.
[0034]
Furthermore, by placing an auxiliary clamping cylinder that drives the traction plate up and down at a position below the stretch blow molding section in the machine base, the upper base can be lifted and lowered in a balanced manner between the injection molding section side and the stretch blow molding section side. Can do.
[0035]
In addition, two racks suspended from the lower base and two pinions fixed to a rotary shaft disposed between the injection molding portion and the stretch blow molding portion of the traction plate are used as synchronizing means of the two mold clamping cylinders. Thus, with a simple configuration, the upper base can move while maintaining parallel to the lower base.
[0036]
In particular, when the mold is closed, it is important to keep the upper base parallel.
[0037]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described in detail with reference to the drawings.
[0038]
1-3 is a figure which shows the injection stretch blow molding apparatus which concerns on one embodiment of this invention.
[0039]
2 and 3, the injection stretch blow molding apparatus 50 includes a machine base 52, a lower base 54, an upper base 56, a traction plate 58, and a cylinder fixing plate 60. 56, the traction plate 58, and the cylinder fixing plate 60 are connected and fixed by a plurality of, for example, four tie bars 62 (see FIG. 1) penetrating the lower base 54.
[0040]
The machine base 52 has a box shape with an internal cavity, and has an injection device 64 attached to one side of the upper surface thereof.
[0041]
The lower base 54 is fixed to the upper surface of the other side of the machine base 52.
[0042]
The upper base 56 is disposed above the lower base 54 with a predetermined distance from the lower base 54, and rotatably supports the rotating plate 66 on the lower surface side.
[0043]
Further, the upper base 56 is connected and fixed to a midway position between the two tie bars 62 on the injection device 64 side and the upper ends of the two tie bars 62 on the opposite side to the injection device 64.
[0044]
The space between the lower base 54 and the rotating plate 66 is used as a molding space. As shown in FIG. 1, an injection molding part 68 is provided on the injection device 64 side, and a stretch blow molding part 70 and an injection molding part are provided at the opposite positions. 66 and the stretch blow molding part 70 are provided at a position that intersects by 90 degrees with a temperature control part 72 and an extraction part 74.
[0045]
In the injection molding part 68, as shown in FIG. 2, an injection cavity mold 78 is mounted on the lower base 54 via a hot runner 76 that is in nozzle touch with the injection device 64.
[0046]
In the stretch blow molding section 70, as shown in FIG. 2, a blow cavity mold 84 composed of a split mold that can be clamped by a blow mold clamping mechanism 82 including a blow mold clamping cylinder 80 is provided on the lower base 54. It has been.
[0047]
In the temperature adjustment unit 72, as shown in FIG. 3, a temperature adjustment pot 86 is fixed on the lower base 54.
[0048]
In the take-out portion 74, as shown in FIG. 3, a shooter 88 for taking out a molded product is mounted on the lower base 54. (Omitted in FIG. 2)
In addition, a plurality of, for example, two neck molds 90 are arranged on the lower surface of the rotating plate 66 corresponding to the positions of the injection molding part 68, the temperature control part 72, the stretch blow molding part 70, and the take-out part 74, respectively. Has been.
[0049]
The neck mold 90 is constituted by a split mold, and each of these split molds is attached to a neck type support plate 92 made of a divided plate, and the neck mold 90 can be opened and closed by opening and closing the neck type support plate 92.
[0050]
The rotating plate 66 can be rotated intermittently by 90 degrees by an electric motor 94 provided on the upper base 56, and the neck mold 90 includes an injection molding part 68, a temperature control part 72, a stretch blow molding part 70, and an extraction part 74. It can be conveyed sequentially.
[0051]
Although the rotation stop position of the rotary plate 66 is positioned by the positioning mechanism 96, only the positioning means of the servo motor may be used.
[0052]
Further, on the upper base 54, a temperature control core lifting cylinder 98 that moves up and down a temperature control core (not shown) at a position corresponding to the temperature control section 72, and a blow core type lift cylinder that lifts and lowers the blow core mold 100 at a position corresponding to the stretch blow molding section 70. An extension rod raising / lowering cylinder 106 for raising and lowering 102 and the extension rod 104, an eject cam raising / lowering cylinder 110 for raising / lowering an ejection cam 108 for opening the neck type support plate 92 at a position corresponding to the take-out portion 74 are provided.
[0053]
The cylinder fixing plate 60 is fixed to the upper ends of two tie bars 62 positioned on the injection molding portion 68 side above the upper base 56, and the injection core mold 112 is interposed between the cylinder fixing plate 60 and the upper base 56. The injection core mold clamping plate 114 to which is attached is attached along the two tie bars 62 so as to be movable up and down.
[0054]
An injection core mold clamping cylinder 116 is mounted on the cylinder fixing plate 60, and the tip of the piston 118 of the injection core mold clamping cylinder 116 is connected to the injection core mold clamping plate 114.
[0055]
The traction plate 58 is connected and fixed to the lower ends of the four tie bars 62 in the machine base 52.
[0056]
A neck mold clamping cylinder 120 as a mold clamping means is attached to the traction plate 58 at a position below the injection molding portion 68, and the piston 122 of the neck mold clamping cylinder 120 is connected to the lower surface of the lower base 54. Yes.
[0057]
Therefore, as shown in FIG. 3, when the neck mold clamping cylinder 120 is driven in a state where the traction plate 58 is raised, the tie bar 62 is pulled down as the traction plate 58 is lowered, and is connected to the tie bar 62. As shown in FIG. 2, the fixed upper base 56 is lowered by the stroke L <b> 1, and the neck mold 90 attached to the rotating plate 66 is lowered. The neck mold 90 is clamped.
[0058]
On the stretch blow molding unit 70 side, the lower surface of the upper base 56 abuts against a stopper 138 provided on the upper part of the blow mold clamping mechanism 82 and is positioned at the lower limit position of the upper base 56.
[0059]
Further, in the temperature control section 72 and the stretch blow molding section 70, the blow cavity mold 84 is clamped by the temperature control pot 86 and the blow mold clamping mechanism 82 with respect to the neck mold 90.
[0060]
When the upper base 56 is lowered, the cylinder fixing plate 60 fixed to the upper ends of the two tie bars 62 on the injection molding portion 68 side is also lowered by the same stroke L1 as the upper base 56 at the same time.
[0061]
In this state, the injection molding unit 68 lowers the injection core mold clamping plate 114 by the stroke L2 by driving the injection core mold clamping cylinder 116, thereby clamping the injection core mold 112 and the neck mold 90, The preform 124 is injection-molded by injecting molten resin into the injection cavity mold 78 from the injection device 64.
[0062]
In this case, since the injection core mold clamping cylinder 116 is integrally lowered as the upper base 56 is lowered, the distance from the upper base 56 is always kept constant.
[0063]
Therefore, the lowering stroke L2 of the injection core mold clamping cylinder 116 is the minimum stroke from the position where the injection core mold 112 is retracted from the rotary plate 66 to the mold clamping position. Therefore, the length of the injection core mold clamping cylinder 116 is increased. Can be shortened.
[0064]
In addition, since the injection core mold clamping cylinder 116 only needs to have a clamping force sufficient to clamp the injection core mold 112, the injection core mold clamping cylinder 116 can be made relatively small.
[0065]
Therefore, the overall height of the injection stretch blow molding apparatus 50 can be kept low, and the weight on the upper side can be reduced to improve the balance and achieve a stable state.
[0066]
Further, the neck mold clamping cylinder 120 only needs to have a clamping force sufficient to match the clamping force of the neck mold 90, and can be made relatively small.
[0067]
Moreover, since the neck mold clamping cylinder 120 is disposed below the injection molding portion 68, the mold clamping force can be effectively utilized even if the neck mold clamping cylinder 120 is relatively small. Can do.
[0068]
At the same time as the molding operation of the injection molding unit 68, the temperature control unit 72 inserts a temperature control core (not shown) into the temperature control pot 86 by the temperature control core lifting cylinder 98 to control the temperature of the preform 124. I do.
[0069]
In the stretch blow molding section 70, the blow core mold 100 is lowered by the blow core mold lifting cylinder 102, the blow core mold 100 is clamped with respect to the neck mold 90, and the stretch rod 104 is lowered by the stretch rod lifting cylinder 106. A preform 124 temperature-controlled by supplying blow air into the blow cavity mold 84 is biaxially stretched and blown to form a bottle 126.
[0070]
Further, in the take-out portion 74, the eject cam elevating cylinder 110 lowers the eject cam 108 to open the neck mold 90 through the neck mold support plate 92, the bottle 126 is dropped, and the shooter 88 removes the bottle 126 from the apparatus. It is trying to discharge.
[0071]
Next, after completion of each molding step, the blow cavity mold 84 is opened by the blow mold clamping mechanism 82, the upper base 56 is raised by the neck mold clamping cylinder 120, and the injection core mold clamping cylinder 116 and the temperature control core are moved up and down. The injection core mold 112, the temperature control core, the blow core mold 100, the stretching rod 104, and the eject cam 108 are retracted from the position of the rotary plate 66 by the cylinder 98, the blow core type lifting cylinder 102, the stretching rod lifting cylinder 106, and the eject cam lifting cylinder 110. Then, the rotating plate 66 can be rotated.
[0072]
In this state, the rotary plate 66 can be intermittently rotated by the electric motor 94 to sequentially perform molding in each molding part.
[0073]
Further, an auxiliary mold clamping cylinder 128 is provided at a position below the stretch blow molding portion 70 of the traction plate 58, and the tip of a piston (not shown) of the auxiliary mold clamping cylinder 128 is connected to the lower base 54 to perform injection molding. The raising and lowering of the upper base 56 on the part 68 side and the stretch blow molding part 70 side is balanced so that the raising and lowering can be performed smoothly.
[0074]
Further, a synchronizing means 130 for synchronizing the neck mold clamping cylinder 120 and the auxiliary mold clamping cylinder 128 is disposed in the machine base 52.
[0075]
The synchronizing means 130 includes two racks 132 that are respectively suspended from the lower base 54 on the injection molding portion 68 side and the stretch blow molding portion 70 side, and the injection molding portion 68 and the stretch blow molding portion of the traction plate 58. The rotary shaft 134 is disposed between the two rotary shafts 70 and two pinions 136 that are fixed to the rotary shaft 134 and mesh with the racks 132.
[0076]
By adopting such a configuration for the synchronization means 130, the mold clamping cylinders 120 and 128 can be reliably synchronized with a simple mechanism, and can be smoothly raised and lowered while keeping the upper base 56 horizontal.
[0077]
The injection molding part 68 is also provided with a stopper rod 140 for assisting in restricting the lowering limit of the upper base 56.
[0078]
The present invention is not limited to the above-described embodiment, and can be modified into various forms within the scope of the gist of the present invention.
[0079]
For example, in the above-described embodiment, four molding processing units, an injection molding unit, a temperature control unit, a stretch blow molding unit, and a take-out unit, are provided, and the rotating plate is intermittently rotated 90 degrees to convey the molded product. However, the present invention is not limited to this example, and the molding processing unit may include at least an injection molding unit and a stretch blow molding unit, and the stretched blow molding unit may take out a molded product. It is also possible to dispose the rotating plate intermittently by 180 degrees by disposing the stretch blow molding part at the opposing position.
[0080]
It is also possible to dispose the injection molding part, the stretch blow molding part, etc. in three places and intermittently rotate 120 degrees. In that case, it is good also as three tie bars.
[0081]
Furthermore, each mold clamping mechanism is not limited to a cylinder and a piston, and various mechanisms such as a toggle mechanism may be used.
[Brief description of the drawings]
FIG. 1 is a plan view showing an injection stretch blow molding apparatus according to an embodiment of the present invention.
FIG. 2 is a front view showing a part of the injection stretch blow molding apparatus of FIG.
FIG. 3 is a cross-sectional view taken along line III-III in FIG.
FIG. 4 is a cross-sectional view showing a conventional injection stretch blow molding apparatus.
[Explanation of symbols]
50 Injection Stretch Blow Molding Device 52 Machine Base 54 Lower Base 56 Upper Base 58 Traction Plate 60 Cylinder Fixing Plate 62 Tie Bar 66 Rotating Plate 68 Injection Molding Unit 70 Stretch Blow Molding Unit 82 Blow Clamping Mechanism 90 Neck Die 112 Injection Core Die 114 Injection Core mold clamping plate 116 Injection core mold clamping cylinder 120 Neck mold clamping cylinder 128 Auxiliary mold clamping cylinder 130 Synchronizing means 132 Rack 134 Rotating shaft 136 Pinion 138 Stopper

Claims (7)

In an injection stretch blow molding device having an injection molding part and a stretch blow molding part, and having a rotating plate that intermittently conveys a neck mold arranged corresponding to each molding part to each molding part,
Rutotomoni fixed on the machine base, a lower base forming a molding space of the respective molded part between the rotary plate,
An upper base disposed above the lower base and supporting the rotating plate;
A traction plate disposed in the machine base below the lower base,
A plurality of tie bars that pass through the lower base and connect the upper base and the traction plate;
Clamping means disposed in the machine base and driving the traction plate up and down;
An injection core mold clamping cylinder which is arranged above the upper base and raises and lowers the injection core mold;
An injection stretch blow molding apparatus comprising: In claim 1,
The attachment of the injection core mold clamping cylinder cylinder fixing plate is disposed above the upper base,
An injection stretch blow molding apparatus, wherein the cylinder fixing plate, the upper base, and the traction plate are fixed to the tie bar and can be moved up and down integrally. In claim 1 or 2,
2. The injection stretch blow molding apparatus, wherein the mold clamping means is disposed at a position below the injection molding portion. In claim 3,
An injection stretch blow molding apparatus, wherein an auxiliary clamping cylinder that drives the traction plate to move up and down is disposed at a position below the stretch blow molding portion in the machine base. In claim 4,
An injection stretch blow molding apparatus, wherein synchronization means for synchronizing the mold clamping means and the auxiliary mold clamping cylinder is disposed in the machine base. In any one of Claims 1-5,
A stopper for restricting a lower limit position of the upper base when the upper base is lowered is provided on the blow molding portion side. In an injection stretch blow molding device having an injection molding part and a stretch blow molding part, and having a rotating plate that intermittently conveys a neck mold arranged corresponding to each molding part to each molding part,
Rutotomoni fixed on the machine base, a lower base forming a molding space of the respective molded part between the rotary plate,
An upper base disposed above the lower base and supporting the rotating plate;
A traction plate disposed in the machine base below the lower base,
A plurality of tie bars that pass through the lower base and connect the upper base and the traction plate;
Clamping means disposed in the machine base and driving the traction plate up and down;
An injection core mold clamping cylinder which is arranged above the upper base and raises and lowers the injection core mold;
Have
The mold clamping means is:
A clamping cylinder that is disposed at a position below the injection molding part in the machine base and drives the traction plate to move up and down;
An auxiliary clamping cylinder disposed at a position below the stretch blow molding portion in the machine base and driving the traction plate up and down;
Synchronization means disposed in the machine base so that the clamping cylinder and the auxiliary clamping cylinder can be synchronized,
The synchronization means includes two racks that are respectively suspended from the injection molding portion and the stretch blow molding portion of the lower base,
Two pinions fixed to a rotating shaft disposed between the injection molding part and the stretch blow molding part of the traction plate, and meshing with the racks;
An injection stretch blow molding apparatus comprising:

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