JP6611561B2 - Blow molding method - Google Patents

Description

The present invention relates to a blow molding method in which a blow molded product in which a built-in component is attached is molded from a parison using a blow molding die.

Conventionally, as a structure of a hollow blow-molded product, for example, a fuel tank for an automobile or the like, a metal one has been used. However, in recent years, the weight of a vehicle is reduced, rust is not generated, and a desired shape is used. For example, a hollow thermoplastic synthetic resin has come to be used because of its easy molding.

In the production of a hollow product made of a thermoplastic synthetic resin, a blow molding method has been often used because of the ease of molding a hollow body. In the blow molding method, a parison of a molten thermoplastic synthetic resin member is formed into a cylindrical shape and extruded from above, and the parison is sandwiched between molds and air is blown into the parison to produce a hollow body.

On the other hand, in the blow molding method, it is sometimes required to provide a blow molded product, for example, a built-in component such as a valve or a baffle plate for suppressing fuel flow noise inside the fuel tank.
Therefore, when the built-in component is provided inside the blow molded product, a manufacturing apparatus as shown in FIG. 14 is used (for example, see Patent Documents 1 and 2). The built-in component 110 is held in the cavity of the blow molding die 120 by the built-in component holding rod 141, the parison 8 is lowered, and then the built-in component 110 is sandwiched by the slide core 126, and the blow molding die 120 is held. Is closed, and the parison 8 is sandwiched between pinch plates 135 to form a blow molded product.

However, in this case, when the built-in component 110 becomes large, the built-in component 210 is held in the parison 8 when the built-in component 210 held by the built-in component holding rod 241 is molded by the blow mold 220 as shown in FIG. The built-in component 210 is held by the holding rod 241, the built-in component holding rod 241 is slid, the built-in component 210 is inserted, and then the built-in component 210 is sandwiched by the slide core 226.

In addition, when the blow molded product is enlarged or when a plurality of built-in parts are attached, the parison 8 is divided into two pieces as shown in FIGS. There is one in which the parison 8 is held in an opposing portion of the cavity 322 (see, for example, Patent Document 3).

In this case, the built-in component 310 is attached to the blow molding core mold 330 and the blow molding core mold 330 is inserted between the two parisons 8. Then, after the parison 8 is brought into close contact with the cavity 322 of the blow molding split mold 321, the slide cylinder 331 to which the built-in component 310 is attached is slid to attach the built-in component 310 to the surface of the parison 8.
However, in this case, since a plurality of slide cylinders 331 are attached to the blow molding core mold 330, the structure of the blow molding core mold 330 is complicated, and the process of controlling the slide cylinder 331 is also complicated. .

Japanese Patent Laid-Open No. 9-174670 JP-A-8-72129 Japanese Patent No. 5026515

  Therefore, the present invention provides a blow molded product having a built-in component in which a built-in component can be easily attached to a parison and the structure of the blow molding core mold is simple. It is an object to provide a blow molding method.

The present invention of claim 1 for solving the above-mentioned problem is a blow molding method for molding a blow molded product in which a built-in component is attached from a parison using a blow molding die.
The blow mold is divided into two parts by a parting line, a pressure mold that presses the parison against the blow mold when the blow mold is opened, and a blow mold Having a blow mold core mold located between the blow mold split molds when the mold split mold is opened,
The compressed air mold and the blow mold core mold are formed separately, and the compressed air mold is formed by two molds so as to face the blow molded split mold,
The blow molding split mold has a cavity that forms a blow molded product on the opening and closing surface.
Open the blow mold at the parting line, move the parisons to the open blow mold split cavities on both sides, and insert two compressed air molds between the two parisons. Hold the upper end of the pressure air mold with the pressure air mold holding member, hold the lower end with the pressure air mold reinforcing block,
After pressing two parisons against the outer peripheral surface of the cavity of the blow molding split mold facing each other with two pressure molds, the parison is sucked or pressed into the cavities of the two blow molding split molds. Shaping the parison,
Take out two compressed air molds from between the blow mold split molds closely attached to the parison, and insert a blow molded core mold with built-in parts between the blow mold split molds, And after taking out the mold block for pressure air from between the blow mold split mold,
Move the blow molding split mold in the direction of the blow molding core mold, press the built-in parts attached to the blow molding core mold against the surface of the parison that is in close contact with the cavity of the blow molding split mold, and build in the parison A blow molding method of a blow molded product having a built-in component, wherein the component is welded and the built-in component is attached to the inside of the blow molded product.

According to the first aspect of the present invention, in the blow molding method in which a blow molded product in which a built-in component is attached is molded from a parison using a blow mold, the blow mold is divided into two parts by a parting line. The blow molding split mold formed by dividing, the pressure mold for pressing the parison against the blow molding split mold when the blow molding split mold is opened, and the blow molding split mold when the blow molding split mold is opened It has a blow molding core mold located between them. For this reason, the parison is shaped with the cavity for the blow molding split mold with the pressure mold, the built-in parts are attached to the blow molding core mold, and the blow molding core mold is placed between the two parisons. Insert and install built-in components in the parison.
Since the blow molding split mold is formed with a cavity for forming a blow molded product on the opening / closing surface, the blow molding can be blow molded into a parison having a built-in component.

The compressed air mold and the blow molding core mold are formed separately, and the compressed air mold is formed of two molds so as to face the blow molded split mold. For this reason, the parison is clamped by pressing the two parisons against the blow molding split molds on both sides by the two pneumatic molds by the pneumatic mold holding member and the pneumatic mold reinforcing block. The two parisons can continue to be sandwiched against the reaction force of the high-pressure air for pressing the mold into the cavity of the blow molding split mold, and can be shaped simultaneously.
The blow molding dies were opened at the parting line, and the parisons were moved to the open blow molding split mold cavities on both sides, and two compressed air molds were inserted between the two parisons. Therefore, the airtightly held on the outer circumferential surface of the two blow molding mold part with two pressure mold having a simple structure parison can be shaped.
In order to hold the upper end of the two compressed air molds with the compressed air mold holding member and the lower end with the compressed air mold reinforcing block, the compressed air molds on both sides strongly press around the parisons on both sides. Thus, the parison can be hermetically attached to the cavity of the blow molding split mold with a pressure mold. In addition, since the compressed air mold is strongly held by the compressed air mold holding member and the compressed air mold reinforcing block, the compressed air mold does not move away from the parison due to the reaction force of the high pressure air. It can prevent leakage.

After pressing the blow molding split molds the outer peripheral surface of the cavity opposite the two parison by two pressure dies, by sucking or pressing a parison into two cavities of the blow molding mold parts in cavity A parison was shaped. Therefore, the parison can be shaped by being sucked or pressed into the cavity of the blow molding split mold before blow molding.

Two pressure air molds are taken out from between the blow molding split molds in close contact with the parison, and a blow molding core mold with a built-in component is inserted between the blow molding split molds. For this reason, it is not necessary to insert a built-in component into the inside of the cylindrical parison, and the built-in component can be placed between the blow molding split mold by being attached to the blow molding core mold without contacting the parison.

After taking out the pressure mold holding member and the pressure mold reinforcement block from between the blow molding split molds, move the blow molding split mold in the direction of the blow molding core mold to the blow mold split mold cavity. The built-in component attached to the blow molding core mold is pressed against the surface of the closely attached parison, the built-in component is welded to the parison, and the built-in component is mounted inside the blow molded product. For this reason, the built-in parts can be attached to the parison only by attaching to the blow molding core mold, without the need to provide a cylinder or the like, and without having to slide, and by moving the blow molding split mold. And the structure of the blow-molded core mold can be simplified.

According to the second aspect of the present invention, the compressed air mold is pressed against the parison located on the outer peripheral surface of the cavity of the blow molding split mold, and the parison is sandwiched between the compressed air mold and the blow molding split mold. This is a blow molding method of a blow molded product in which a pressurized gas is introduced between a metal mold and a parison and the parison is pressed into a cavity of a blow molding split mold.

In the present invention of claim 2, the compressed air mold is pressed against the parison located on the outer peripheral surface of the cavity of the blow molding split mold, and the parison is sandwiched between the compressed air mold and the blow molding split mold. A pressurized gas was introduced between the mold and the parison to press the parison into the cavity of the blow mold split mold. For this reason, by introducing the pressurized gas between the pressure air mold and the parison, the parison can be brought into close contact with the cavity surface, and the parison can be reliably shaped along the cavity surface.

According to the third aspect of the present invention, the compressed air mold is pressed against the parison located on the outer peripheral surface of the blow molding split mold cavity, and the parison is sandwiched between the compressed air mold and the blow molded split mold. A blow molded product that has air vent holes in the mold split mold cavity, sucks the parison from the blow mold split mold cavity, sucks the parison from the blow mold split mold cavity, and shapes the parison in the cavity. This is a blow molding method.

According to the third aspect of the present invention, the compressed air mold is pressed against the parison located on the outer peripheral surface of the blow molding split mold cavity, and the parison is sandwiched between the compressed air mold and the blow molded split mold. An air vent hole was provided in the cavity of the molding split mold, and the parison was shaped by sucking the parison from the air vent hole of the blow mold split mold cavity. For this reason, a parison can be attracted | sucked from the cavity of a blow molding split mold, and a parison can be closely_contact | adhered to a cavity, and a parison can be shape | molded reliably along a cavity.

According to a fourth aspect of the present invention, the compressed air mold is formed by two molds so as to face the blow molding split mold, and the two compressed air molds are blow molded by the compressed air mold holding member. This is a blow molding method of a blow molded product having a built-in component held so as to face the split mold.

In the present invention of claim 4, the pressure mold is formed by two molds so as to face the blow molding split mold, and the two pressure molds are blow molded by a pressure mold holding member. It was held so as to face the split mold. For this reason, it is possible to form two parisons simultaneously by pressing the two parisons against the blow mold split mold with the two pressure molds, and pressurize the parison with the pressure mold holding member. Even if the gas is blown, it is possible to prevent the compressed air mold from leaving the parison.

According to the present invention of claim 5, the parison that is in close contact with the cavity of the blow molding split mold presses the built-in part attached to the blow molding core mold, and the built-in part is welded to the parison, and the built-in part is blow molded. The blow molding core mold is taken out from between the blow molding split molds, and the blow molding method is a blow molding method of a blow molded product having a built-in part that is blow molded by closing the blow molding split mold.

In the present invention of claim 5, the parison that is in close contact with the cavity of the blow molding split mold presses the built-in part attached to the blow molding core mold, and the built-in part is welded to the parison, and the built-in part is blow molded. Then, the blow molding core mold is taken out from between the blow molding split molds, and the blow molding split mold is closed to perform blow molding. For this reason, the blow molding split mold can be moved in the direction of the blow molding core mold, and the built-in parts can be attached to the parison, and the large-sized built-in parts can be easily installed in the parison. After being attached to the parison, the blow molded article can be blow molded.

After the parison is pressed against the outer surface of the blow mold split mold cavity with a pressure mold, the parison is sucked or pressed into the cavities of the two blow mold split molds to form the parison in the cavity. Prior to molding, the parison can be shaped by suction or pressing into the cavity of the blow mold split mold.

Move the blow molding split mold in the direction of the blow molding core mold, press the built-in parts attached to the blow molding core mold against the surface of the parison that is in close contact with the cavity of the blow molding split mold, and build in the parison Since the parts are welded and the built-in parts are mounted inside the blow-molded product, the built-in parts are simply mounted on the blow mold core mold, and the built-in parts are mounted on the parison by moving the blow molding split mold. The structure of the blow-molded core mold can be simplified

The blow molding device used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, showing a state where the blow molding mold is opened and two parisons are in the blow molding mold. It is sectional drawing. The blow molding device used in an embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, in a state where a blow molding die is opened and a compressed air mold is inserted between two parisons FIG. The blow molding apparatus used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, and the pressure mold of the blow molding core mold presses the parison against the mold surface of the blow molding split mold. It is sectional drawing which shows a state. The blow molding apparatus used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, and the pressure mold of the blow molding core mold presses the parison against the mold surface of the blow molding split mold. FIG. 5 is a cross-sectional view showing a state in which the parison is sucked and pressed against the cavity surface of the blow molding split mold. The blow molding apparatus used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, and the pressure mold of the blow molding core mold presses the parison against the mold surface of the blow molding split mold. FIG. 6 is a cross-sectional view showing a state in which a parison is sucked and pressed against a cavity surface of a blow molding split mold, and a blow molding core mold is inserted between the pressure molds. The blow molding apparatus used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, wherein the parison is sucked and pressed into the cavity of the blow molding split mold, and the pressure mold is blow molding split mold It is sectional drawing which shows the state from which it took out from between, and the blow molding core metal mold | die which attached the internal component was inserted between blow molding split molds. The blow molding apparatus used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, and a parison is attached and the blow molding split mold is slid so as to be close to the blow molding core mold, It is sectional drawing which shows the state which pressed the internal component attached to the blow molding core metal mold | die to a parison. The blow molding apparatus used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, and cools the parison in a state in which the built-in component attached to the blow molding core mold is pressed against the parison. It is sectional drawing which shows a state. It is sectional drawing of the process in which the blow molding apparatus used by embodiment of this invention manufactures a blow molded product, and is a sectional view which shows the state which attached the internal component to the parison and opened the blow molding split mold. The blow molding apparatus used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, in which a built-in part is attached to a parison, a blow mold split mold is opened, and a blow mold is blown from between blow mold split molds. It is sectional drawing which shows the state which moved the shaping | molding core metal mold | die. The blow molding device used in the embodiment of the present invention is a cross-sectional view of a process for producing a blow molded product, in which a blow molding split mold is closed, two parisons are fused, and blow molding is performed. It is sectional drawing shown. It is sectional drawing of the process in which the blow molding apparatus used by embodiment of this invention manufactures a blow molded product, and is a sectional view which shows the state which opens a blow molding split mold and takes out a blow molded product. It is a fuel tank perspective view shape | molded by embodiment of this invention. It is a perspective view of the apparatus with which the slide core and drive control pin of the conventional blow molding apparatus manufacture a blow molded product. It is sectional drawing of the process of manufacturing the blow molded product of the other conventional blow molding apparatus, and is sectional drawing which shows the state which the parison entered in the blow molding die. It is sectional drawing of the process of manufacturing the blow molded product of the other conventional blow molding apparatus, and is sectional drawing which shows the state in which the blow molding core metal mold | die which attached the internal component between two parisons entered. It is sectional drawing of the process of manufacturing the blow molded product of the other conventional blow molding apparatus, a blow molding core metal mold | die enters between two parisons, and the built-in component of a blow molding core metal mold is slid. It is sectional drawing which shows the state pressed against a parison.

With respect to the blow molding method of the blow molded product in which the built-in component 10 is mounted inside the embodiment of the present invention, a blow molding method for manufacturing a fuel tank 1 for an automobile which is a blow molded product will be described as an example with reference to FIGS. Based on The present invention will be described by taking a method of molding the fuel tank 1 having the built-in component 10 as an example, but it can also be used for blow molding methods of other blow molded products having the built-in component 10.

FIG. 13 is a perspective view of the fuel tank 1 manufactured by the blow molding method according to the embodiment of the present invention.
In the embodiment of the present invention, as shown in FIG. 13, the fuel tank 1 manufactured by the blow molding apparatus has a pump unit mounting hole 4 for taking a fuel pump (not shown) and the like into and out of the fuel tank 1. Is formed on the upper surface. A fuel injection hole 5 for injecting fuel from an inlet pipe (not shown) is formed on the side surface or the upper surface of the fuel tank 1.

An outer peripheral rib 2 is formed around the entire circumference of the fuel tank 1, and mounting holes 3 are formed at predetermined locations such as corner portions of the outer peripheral rib 2. The fuel tank 1 is attached to the vehicle body by bolting 3 and the vehicle body.
Furthermore, on the upper surface of the fuel tank 1, there are formed attachment holes 6 at various places for connecting a hose or the like for collecting the internal fuel vapor.

The fuel tank 1 molded in the present embodiment is manufactured by a blow molding manufacturing apparatus to be described later. The outer wall of the fuel tank 1 is formed by blow molding, and the outer wall is formed by one layer or multiple layers. In the case of multiple layers, for example, a skin layer, an external body layer, an external adhesive layer, a barrier layer, an internal adhesive layer, and an internal body layer are formed in order from the outside.

Inside the fuel tank 1, for example, a pillar for reinforcing the fuel tank 1, a partition plate for preventing the generation of undulation noise, a fuel pump, A box or the like for mounting a canister or the like is attached as the built-in component 10.
The built-in component 10 can be formed of a fuel-resistant thermoplastic synthetic resin such as polyacetal or high-density polyethylene (HDPE). As a result, the strength of the fuel tank 1 can be improved, and even if the fuel tank 1 is attached to the inside of the fuel tank 1, the rigidity does not decrease due to swelling by the fuel oil or the like.

Regarding the blow molding method according to the embodiment of the present invention, a method for molding the fuel tank 1 by blow molding will be described with reference to FIGS.
The blow molding apparatus used in the embodiment of the present invention includes a die core (not shown) for extruding the parison 8, a parison holding member 50 for holding the parison 8, and a blow mold for molding a blow molded product. 20.

The parison 8 extruded from the die core is cut into two pieces in the vertical direction, and the cut parison 8 is moved to the blow molding die 20 with the tip held by the parison holding member 50.
In addition, the parison 8 can be separately extruded into a sheet shape without being cut into two sheets and moved to the blow mold 20.

As shown in FIG. 1, the blow molding die 20 has a blow molding split mold 21 that is divided into two parts by a parting line, and forms a fuel tank 1 that is a blow molded product on the open / close surface. A cavity 22 of the blow molding split mold 21 is formed. Further, as will be described later, there are provided a pressure mold 40 and a blow molding core mold 30 that move between the blow molding split molds 21 when the blow molding split mold 21 is opened.

As shown in FIG. 2, the compressed air mold 40 is formed by two molds so as to face the two blow molding split molds 21. The two compressed air molds 40 are held so that the upper ends thereof are fixed to each other by a compressed air mold holding member 42. The lower end is held by a pressure air mold reinforcing block 43.

Thereby, as will be described later, the two parisons 8 are pressed against the blow mold split molds 21 on both sides by the two pressure molds 40 by the pressure mold holding member 42 and the pressure mold reinforcement block 43. Then, while holding the parison 8, the two parisons 8 are continuously held against the reaction force of the high pressure air for pressing the parison 8 against the cavity 22 of the blow molding split mold 21. Can be shaped.

The two pressure air molds 40 can be formed in a plate shape as shown in FIG. If the periphery of the parison 8 can be pressed to the vicinity of the outer periphery of the cavity 22 of the blow mold 21, it can have other shapes instead of a plate shape. Further, the central portion of the pressure-air mold 40 facing the parison 8 can be provided with a recess so that the parison 8 does not contact.

As shown in FIG. 5, the blow-molded core mold 30 has a core mold part holding portion 31 that attaches the built-in part 10 to both sides facing the blow-molded split mold 21. The blow-molded core mold 30 can be provided with a plurality of core mold part holding portions 31 for attaching the built-in parts 10 to the respective surfaces on both sides. In this case, a plurality of built-in components 10 can be mounted simultaneously, and even in the case of a large built-in component 10, a plurality of mounting portions are provided on the built-in component 10, and each of the plurality of mounting portions is a plurality of core mold components. By being held by the holding portion 31, it can be easily mounted in the parison 8.

Next, based on FIGS. 1-12, the blow molding method of the blow molded product which has the built-in component 10 which is embodiment of this invention is demonstrated.
As shown in FIG. 1, the two parisons 8 extruded from the die core moved to the blow molding die 20 have left and right blow molding split molds 21 formed by dividing the blow molding die 20 along parting lines. Are located opposite to the cavities 22 of the left and right blow mold split molds 21 respectively. The parison 8 is held by holding the upper and lower portions between the parison holding members 50.

Next, as shown in FIG. 2, a compressed air mold 40 is inserted between the two parisons 8. The compressed air mold 40 can slide on a slide rail (not shown) attached to the blow molding machine. As shown in FIG. 2, the compressed air mold 40 is formed of two plate-shaped molds so as to face the cavity 22 of the blow molding split mold 21.

The two compressed air molds 40 are held at the upper ends by the compressed air mold holding members 42 so as to face the blow molding split mold 21, and the lower ends are held by the compressed air mold reinforcing blocks. The surfaces of the two pressure air molds 40 facing the cavity 22 of the blow molding split mold 21 form a pressure air mold parison side surface 41. The parison 8 is positioned between the side surface of the pressure mold die parison and the cavity 22 of the blow mold 21.

Next, as shown in FIG. 3, the blow molding split mold 21 moves in the direction of the arrow in FIG. 3, and the periphery of the compressed air mold parison side surface 41 of the compressed air mold 40 presses the parison 8. The parison 8 is brought into close contact with the outer peripheral surface of the cavity 22 of the blow molding split mold 21. At this time, since the compressed air molds 40 on both sides are held by the compressed air mold holding member 42 and the compressed air mold reinforcing block 43, the compressed air molds 40 on both sides surround the parisons 8 on both sides. By pressing strongly, the parison 8 can be hermetically attached to the cavity 22 of the blow molding split mold 21 with the pressure mold 40.

Next, as shown in FIG. 4, the air provided in the cavity 22 of the blow molding split mold 21 while the parison 8 is pressed against the blow molding split mold 21 by the pressure pneumatic mold parison side surface 41 of the pneumatic mold 40. As shown by the arrow in FIG. 4, air is sucked from the hole and the parison 8 is sucked into the surface of the cavity 22 to shape the parison 8 on the surface of the cavity 22.

At the same time, as shown by the arrow in FIG. 4, high-pressure air can be ejected from the compressed air mold parison side surface 41 of the compressed air mold 40 to further press the parison 8 into the cavity 22. Since the compressed air mold 40 is strongly held by the compressed air mold holding member 42 and the compressed air mold reinforcing block 43, the compressed air mold 40 does not leave the parison 8 due to the reaction force of the high pressure air. High pressure air can be prevented from leaking.
The parison 8 may be sucked into the surface of the cavity 22 and shaped, and the parison 8 may be pressed and shaped with high-pressure air, but if the shape of the parison 8 is sufficient Or just one.

While the parison 8 is pressed against the blow molding split mold 21 by the pressure mold 40 and the parison 8 is shaped by suction and pressure, the blow mold core mold 30 is compressed as shown in FIG. The blow molding core mold 30 with the built-in component 10 attached is inserted between the metal molds 40. For this reason, it is not necessary to insert the built-in component 10 inside the cylindrical parison 8, and the built-in component 10 is placed between the blow molding split molds 21 without contacting the built-in component 10 with the two parisons 8. Can do. The blow molding core mold 30 can be inserted even after suction and compressed air are finished.

After that, as shown in FIG. 6, the blow molding split mold 21 is opened, and the compressed air mold 40 is moved from between the blow molding split molds 21. Then, the built-in component 10 attached to the blow-molded core die 30 can face the shaped parison 8. When the built-in components 10 are respectively attached to the parisons 8 formed on the blow molding split molds 21 on both sides, the built-in components 10 can be attached to both sides of the blow molding core mold 30. The built-in component 10 is attached to a core mold component holding portion 31 provided in the blow molding core mold 30.

Next, as shown in FIG. 7, the blow molding split molds 21 on both sides are moved in the direction of the blow molding core mold 30 (the direction of the arrow in FIG. 7), and the cavity 22 of the blow molding split mold 21 is moved. The built-in component 10 attached to the core mold component holding portion 31 of the blow molding split mold 21 is pressed against the surface of the closely attached parison 8.

The built-in component 10 can be welded to the surface of the parison 8 in a molten state, and the built-in component 10 can be attached inside the blow molded product. For this reason, the built-in component 10 is only attached to the core mold component holding part 31 of the blow molding core mold 30, and there is no need to provide a cylinder or the like for pressing the built-in component 10 against the parison 8. The structure of the mold 30 can be simplified.

Next, as shown in FIG. 8, cooling air was blown from the blow-molded core mold 30 toward the parison 8 in the direction of the arrow in FIG. 8, closely contacted with the cavity 22, and the internal component 10 was attached. The parison 8 is cooled to fix the shape of the parison 8 and fix the built-in component 10 to the parison 8. Cooling air is rapidly cooled using minus 40 degrees.
Next, as shown in FIG. 9, the blow molding split mold 21 is opened, and the blow molding core mold 30 is moved between the blow molding split molds 21. At this time, a built-in component 10 is attached to the inner surface of the parison 8.

Next, as shown in FIG. 10, the blow molding core mold 30 is taken out between the blow molding split molds 21.
After the blow molding core mold 30 has moved, the flange portion connected as the fuel tank 1, which is the periphery of the parison 8 held in the cavity 22 of the blow molding split mold 21, is heated.

Next, as shown in FIG. 11, the blow molding split mold 21 is closed, and the parison 8 held in the cavity 22 of the blow molding split mold 21 is united. Since the periphery of the formed parison 8 is heated, the peripheries of the parison 8 are fused together to form the fuel tank 1 that is a blow molded product having the built-in component 10 inside.

Next, as shown in FIG. 12, the blow molding split mold 21 is opened, and the fuel tank 1 in which the two parisons 8 formed by the cavity 22 of the blow molding split mold 21 are combined is held by the parison holding member 50. Hold and take out.
An excess portion of the fused portion of the flange portion of the fuel tank 1 is cut away to form the outer peripheral rib 2, and the fuel tank 1 to which the built-in component 10 is attached is obtained.

DESCRIPTION OF SYMBOLS 1 Fuel tank 8 Parison 10 Built-in component 20 Blow molding die 21 Blow molding split mold 22 Cavity 30 Core mold component holding part 31 Blow molding core die 40 Mold for pressure air pressure 42 Mold holding member for pressure pressure 43 Pressure air Mold reinforcement block

Claims (5)

In a blow molding method for molding a blow molded product in which a built-in component is attached from a parison using a blow molding die,
The blow mold is divided into two parts by a parting line, and a pneumatic mold for pressing the parison against the blow mold when the blow mold is opened. A blow molding core mold located between the mold and the blow molding split mold when the blow molding split mold is opened;
The compressed air mold and the blow molding core mold are formed separately, and the compressed air mold is formed of two molds so as to face the blow molded split mold,
The blow molding split mold is formed with a cavity for forming the blow molded product on the open / close surface,
The blow mold is opened at the parting line, the parisons are moved to the opened blow mold split cavities on both sides, and the two pressure molds are used between the two parisons. And holding the upper ends of the two compressed air molds with a compressed air mold holding member, holding the lower ends with a compressed air mold reinforcing block,
After the two parisons are pressed against the outer peripheral surface of the cavity of the blow molding split mold facing the two pressure molds, the parison is sucked or pressed into the two blow molding split mold cavities. And shaping the parison in the cavity,
Taking out the two air pressure molds from between the blow molding split molds closely attached to the parison, and inserting the blow molding core mold with the built-in components attached between the blow molding split molds , After removing the pressure mold holding member and the pressure mold reinforcing block from between the blow mold split mold,
The blow molded split mold is moved in the direction of the blow mold core, and the built-in component attached to the blow mold core mold is attached to the surface of the parison that is in close contact with the cavity of the blow mold split mold. A blow molding method for a blow-molded product having a built-in component, wherein the built-in component is attached to the inside of the blow-molded product by pressing and welding the built-in component to the parison. The compressed air mold is pressed against the parison located on the outer peripheral surface of the blow molding split mold cavity, and the parison is sandwiched between the compressed air mold and the blow molded split mold. The blow molding method for a blow molded product having a built-in component according to claim 1, wherein a pressurized gas is introduced between the mold and the parison so that the parison is pressed into a cavity of the blow molding split mold. The pressure molding die is pressed against the parison located on the outer peripheral surface of the blow molding split mold cavity, and the parison is sandwiched between the pressure molding die and the blow molding split mold, and the blow molding is performed. The built-in component according to claim 1, wherein an air vent hole is provided in the cavity of the split mold, the parison is sucked from the air vent hole of the blow mold split mold cavity, and the parison is shaped by the cavity. A blow molding method for a blow molded product. The pressure mold is formed by two molds so as to face the blow mold split mold, and the two pressure molds are opposed to the blow mold split mold by a pressure mold holding member. The blow molding method of the blow molded product which has the built-in component as described in any one of Claims 1 thru | or 3 hold | maintained. The parison in close contact with the cavity of the blow molding split mold presses the built-in part attached to the blow molding core mold, welds the built-in part to the parison, and converts the built-in part into the blow-molded product. The blow-molded core mold is taken out from between the blow-molded split molds after being attached to the inside of the mold, and the blow-molded split mold is closed and blow-molded. A blow molding method of a blow molded product having a built-in part.

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