MOLDING METHOD OF BLOW-MOLDING HOLLOW TANK BODY WITH BUILT-IN COMPONENT AND PRE-MOLDING TEMPLATE DEVICE

Abstract

A molding method of blow-molding a hollow tank body with a built-in component is provided. The method molds the hollow tank body by molding the sheet parisons in the half molds. After the moving cooperation of the half molds, an expanding mechanism of a pre-molding template device, the template half plates and the bases, the half molds are respectively leaned against the closed template half plates, and the sheet parisons are leaned against the half molds by blowing and/or sucking so as to be pre-molded. The tank body is molded after placing the component into it. A pre-molding template device is also provided. An expanding mechanism and the template half plates are mounted on the bases, and the bases are mounted on a rail bracket, the bases are driven by a power device to move on the rail bracket.

Description

FIELD OF THE INVENTION

The present invention relates to a molding method of blow-molding a hollow tank body, and more particularly, to a molding method of blow-molding a hollow tank body with a build-in component. The present invention also relates to a pre-molding template device used in the molding method.

BACKGROUND OF THE INVENTION

An automobile plastic fuel tank is widely approved by customers in the virtue of light weight, good safety performance, corrosion protection, impact resistance, long life service and greater design freedom. At present, HDPE6-layer co-extrusion blow molding technology with EVOH fuel barrier layer is a main technology for manufacturing the plastic fuel tank. As governments all over the world are enhancing awareness of environment protection, as prescribed in the relevant laws and regulations, automobile manufacturers are subjected to a strict request, for instance, California in US issued a regulation regarding Partial Zero Emission Vehicle (hereinafter referred to as PZEV), i.e. the fuel tank assembly has permeation amount less than 20 mg/24 H. For the plastic fuel tank manufactured in the present technology, the fuel tank assembly evaporative emission including leakage of the gasoline in the fuel tank body, welding face, assembly parts and seal components is generally 500 mg/24 H. So PZEV standard is extremely harsh for the plastic fuel tank. In order to get this target, there currently have such technologies in use, such as INSHELL mainly covering multilayer board by means of a welding face, integrating pipelines inside the fuel tank so as to reduce gasoline permeation amount of the welding face, which however largely increases equipment investigation cost due to a laser welding required; at the same time, including SIB and ICS, i.e. placing integrated component modules inside the tank body to reduce the gasoline permeation amount by using a method of “fuel tank being sleeved in fuel tank”, which results in largely increasing cost of one piece of product; also, forming even sheet partisans by a extruding process and manufacturing by using a special mould have such problems as low production efficiency, high cost of one piece of product and high cost of equipment. Therefore, there might be an oncoming problem how to improve the production efficiency and decrease HC permeation amount in the hollow tank body when cost of manufacture equipment and products is reduced.

BRIEF SUMMARY OF THE INVENTION

The present invention intends to provide a molding method of blow-molding a hollow tank body with a build-in component and a pre-molding template device for implementing the molding method, which is more convenient and has low cost and high product yield over the prior art.

To achieve this purpose, the present invention provides a molding method of blow-molding a hollow tank body with a build-in component, in which the hollow tank body is molded by molding the sheet parisons in half molds, including the steps of feeding, pre-molding, building-in component and molding.

In a feeding step, two sheet parisons with curved surface are respectively delivered in parallel into two clearances formed by the two half molds and the pre-molding template device;

• • in a pre-molding step, after the moving cooperation of the half molds, an expanding mechanism of a pre-molding template device, template half plates and bases, the half molds are respectively leaned against the closed template half plates, and the sheet parisons are leaned against the half molds by blowing and/or sucking so as to be pre-molded;
  • in a building-in component step, after opening the half molds and removing the pre-molding template device, the build-in mechanism pre-provided with the components is pushed into the middle of the two half molds by a lifting device such that the component and the inner surface of the pre-molding parison are connected; and
  • in a molding step, after removing the build-in mechanism by the lifting device, closing the half mold, the pre-molding parison with the component is molded to be a molding plastic hollow tank body.

The moving cooperation of the half molds and the pre-molding template device comprises the following steps:

• • moving and closing the two bases to close and move the template half plates respectively mounted on each of bases to the middle of the two half molds;
  • while moving and closing the two bases, moving the expanding mechanism mounted on the bases towards each other, and when tentacles of the expanding mechanism contact the edges of the sheet parisons with curved surface, the tentacles respectively clamp the edges of the two sheet parisons to strain the sheet parisons with the curved surface in an opposite direction;
  • supervising molding of the sheet parison by a pressure, temperature sensor and/or a video probe head mounted on the template half plate; and
  • connecting the components in a manner of welding or riveting.

According to another aspect of the present invention, there is provided a pre-molding template device for implementing the molding method. The pre-molding template device provides power by using a power device, including an expanding mechanism, template half plates, bases, a rail bracket and a power device, wherein the expanding mechanism and the template half plate are mounted on the base, the bases are mounted on the rail bracket, and the bases are driven by the power device to move on the rail bracket.

The expanding mechanism comprises tentacles and a pressure cylinder, the pressure cylinder driving the tentacles to extend-retract. The two bases are respectively mounted on the rail bracket, each base provided with one template half plate and at least two tentacles and pressure cylinders.

The pressure cylinder employs a pneumatic cylinder and a hydraulic cylinder.

The expanding mechanism of the pre-molding template device levels off the sheet parisons with curved surface and uneven sheet parisons and indirectly adjusts thickness of the sheet parisions by means of the tentacles and the pressure cylinder. Closing and opening of the base are driven by a motor or the hydraulic cylinder. The components of the build-in mechanism are preassembled by workers or machines.

The advantage of the present invention is to provide an effective molding method and device which reduces equipment investment and product cost, enhances applicability to uneven sheet parisons and increases the product yield by using the pre-molding template device, and allows the build-in component to minimize the number of openings on the tank wall and to realize lower permeability of the molded hollow tank body.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagram of the pre-molding template device and a three-dimensional structure including a mold template, lifting device and a build-in mechanism according to the embodiment of the present invention;

FIG. 2 is a front view of the pre-molding template device according to the embodiment of the present invention;

FIG. 3 is a top view of the pre-molding template device according to the embodiment of the present invention;

FIG. 4 is a diagram of feeding according to the embodiment of the present invention;

FIG. 5 is a sectional view of the pre-molding according to the embodiment of the present invention;

FIG. 6 is a sectional view of the build-in component according to the embodiment of the present invention; and

FIG. 7 is a sectional view of the molding according to the embodiment of the present invention.

Wherein, lists of designates are as follows:

1, 2	template half plates;	3, 4	half molds;
5	build-in mechanism;	6	lifting device;
7	rail bracket;	8, 9	bases;
10, 11, 12, 13	pneumatic cylinders;	14, 15, 16, 17	tentacles;
18, 19	sheet parisons;	20	component;
21, 22	pre-molding parisons

DETAILED DESCRIPTION OF THE EMBODIMENTS

Reference will now be made in detail to the specific embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

The embodiment, as shown in FIG. 1, FIG. 2, FIG. 3, FIG. 4, FIG. 5, FIG. 6 and FIG. 7, employs a molding method of blow-molding a hollow tank body with a build-in component, applied in automobile, in which the hollow tank body is molded by blow-molding the sheet parisons 18, 19 in the half molds 3, 4, including the steps of feeding, pre-molding, building-in components and molding. The hollow tank body is an automobile hollow fuel tank. The material of the parisons is selected from thermoplastic plastics. The component 20 is a device coupling to the tank body for performing a certain function.

In a feeding step, plasticized plastic cylindrical parison extruded by an ordinary mold head is cut into two independent sheet parisons 18, 19 with curved surface through a sheet molding device. The half molds 3, 4 are separated into two regions by two template half plates 1, 2 of the pre-molding template device. The two sheet parisons 18, 19 are respectively fed into the two regions in parallel.

In a pre-molding step, by moving cooperation of the half molds 3, 4, the expanding mechanism in the pre-molding template device, the template half plates 1, 2 and the bases 8, 9, wherein the two bases 8, 9 are moved and closed, and simultaneously the template half plates 1, 2 respectively mounted on each of the bases 8, 9 are driven to close and move to the middle of the two half molds 3, 4; while moving and closing the two bases 8, 9, the expanding mechanisms mounted on the bases 8, 9 are moved towards each other; when the tentacles 14, 15, 16 and 17 of the expanding mechanism contact the edges of the sheet parisons 18, 19 with curved surface, the tentacles 10, 11, 12 and 13 respectively clamp the edges of the two sheet parisons 18, 19 to strain the sheet parisons 18, 19 with the curved surface in an opposite direction so as to level off the sheet parisons 18, 19, keep a stable shape of the parisons in the pre-molding process, and ensure successful implement of the pre-molding die step to a large extent, at the same time, to reduce fins materials and the material cost of one piece of the product. The half molds 3, 4 are respectively leaned against the closed template half plates 1, 2, by blowing via a blow needle provided on the template half plates 1, 2 and by sucking through a suction hole provided on the half molds 3, 4, such that the sheet parisons 18, 19 between the two regions are respectively pasted to the half molds 3, 4 to mold the sheet parisons to be the pre-molding parisions 21, 22 of the two half-sheet hollow fuel tank.

In a building-in step, the half molds 3, 4 are opened; the two template half plates 1, 2 of the pre-molding template device are opened and removed by the bases 8, 9; the build-in mechanism 5 preassembled with the component 20 is pushed by a lifting device 6 from lower portion of the opened half molds 3, 4 into the middle of the two half molds 3, 4; the component 20 is connected with the inner surface of any one of the half-sheet hollow fuel tank pre-molding parisons 21, 22 by pressing and riveting, also connecting to the component in a welding manner, and both the two sheets are connected with the component 20.

In a molding step, after removing the build-in mechanism 5 by the lifting device 6, closing the half molds 3, 4, two hollow fuel tank pre-molding parisons 21, 22 with the component 20 are molded to be one molding hollow fuel tank.

In the molding and the pre-molding steps, supervising the pre-molding and molding process by a pressure, temperature sensor and a visual probe head mounted on the template half plates 1, 2.

For carrying out the molding method of blow-molding the hollow tank body with the build-in component, in this embodiment, there is provided a pre-molding template device comprising an expanding mechanism, template half plates 1, 2, bases 8,9, a rail bracket 7 and a power device, wherein the expanding mechanism and the template half plates 1, 2 are mounted on the bases 8, 9; the bases 8, 9 are mounted on the rail brackets; the bases 8, 9 are driven by a motor in the power device to move on the rail bracket 7; and the power device also can provide power by using the hydraulic cylinder.

The expanding mechanism comprises tentacles 14, 15, 16, 17 and pneumatic cylinders 10, 11, 12, 13, the pneumatic cylinders 10, 11, 12, 13 driving the tentacles 14, 15, 16, 17 to extend-refract and clamp. The two bases 8, 9 are respectively mounted on the rail bracket 7, each of the bases 8, 9 being provided with one template half plate 1, 2 and two tentacles 14, 15, 16, 17 and pneumatic cylinders 10, 11, 12, 13. The tentacles 14, 15, 16, 17 mounted on different bases 8, 9 and the pneumatic cylinders 10, 11, 12, 13 are correspondingly interposed to perform the function of contacting and straining the sheet parisons 18, 19. Two groups or more tentacles 14, 15, 16, 17 and the pneumatic cylinders 10, 11, 12, 13 are provided in the expanding mechanism to strain the sheet parisons 18, 19; and extend-retract of the tentacles 14, 15, 16, 17 can be achieved by a hydraulic fuel tank.

In this embodiment, the blow-molding hollow tank body with the build-in component can be molded by using the pre-molding template device. This method is simple and efficiently reduces the cost of purchasing planar sheet parison equipments and cost of one piece of the product, efficiently reduces the permeation amount of the product due to the build-in component 20 structure and efficiently increases the product yield by the expanding mechanism and a supervise equipment.

The present invention is not limited to the step of moving cooperation of the half molds 3, 4 and the pre-molding template device in the embodiments as above mentioned, and the other steps of enabling producing cooperation falls within the present invention.

Claims

1. A molding method of blow-molding a hollow tank body with a build-in component, in which the hollow tank body is molded by molding sheet parisons in half molds, including steps of feeding, pre-molding, building-in a component, and molding, characterized in that: in a feeding step, respectively delivering the two sheet parisons with curved surface to two clearances formed by the two half molds and a pre-molding template device in parallel;in a pre-molding step, after moving cooperation of the half molds, an expanding mechanism of the pre-molding template device, template half plates and bases, the half molds are respectively leaned against the closed template half plates, and the sheet parisons are leaned against the half molds by blowing and/or sucking so as to be pre-molded;in a building-in component step, opening the half molds, removing the pre-molding template device, the build-in mechanism preassembled with a component is pushed into the middle of the two half molds by a lifting device, and the component connecting with pre-molding parisons;in a molding step, after removing a build-in mechanism by the lifting device, closing a half molds, the pre-molding parisions with the component is molded to be molded plastic hollow tank body.

2. The molding method of blow-molding a hollow tank body with a build-in component according to claim 1, characterized in that: the moving cooperation of the half molds and the pre-molding template device comprises the following steps: moving and closing the two bases to allow the template half plates respectively mounted on each base to be closed and moved to the middle of the two half molds;while moving and closing the two bases, moving the expanding mechanism mounted on the bases towards each other; when tentacles of the expanding mechanism contact the edges of the sheet parisions with the curved surface, the tentacles respectively clamp the edges of the two sheet parisons to strain the sheet parisons with the curved surface in an opposite direction.

3. The molding method of blow-molding a hollow tank body with a build-in component according to claim 2, characterized in that: supervising molding of the sheet parisons by a pressure, temperature sensor and/or video probe head mounted on the template half plates.

4. The molding method of blow-molding a hollow tank body with a build-in component according to claim 1, characterized in that: the component and the pre-molding parisons in a welding or riveting manner.

5. A pre-molding template device for implementing the molding method of blow-molding a hollow tank body with a build-in component according to claim 1, which provides power by a power device, characterized in that: further comprising an expanding mechanism, template half plates, bases and a rail bracket, in which the expanding mechanism and the template half plates are mounted on the bases; the bases are mounted on the rail bracket, and the bases are driven by the power device to move on the rail bracket.

6. The pre-molding template device according to claim 5, characterized in that: the expanding mechanism comprises tentacles and a pressure cylinder, in which the pressure cylinder drives the tentacles to extend-retract; the two bases are respectively mounted on the rail bracket, and each of the bases being provided with one template half plates and at least one tentacles and the pressure cylinder.

7. The pre-molding template device according to claim 6, characterized in that: the pressure cylinder employs a pneumatic cylinder or a hydraulic cylinder.

8. The molding method of blow-molding a hollow tank body with a build-in component according to claim 2, characterized in that: the component and the pre-molding parisons in a welding or riveting manner.

9. The molding method of blow-molding a hollow tank body with a build-in component according to claim 3, characterized in that: the component and the pre-molding parisons in a welding or riveting manner.