JPS608035A - Extrusion molding of deformed and expanded product - Google Patents

Abstract

PURPOSE:To mold a deformed and expanded product having a spiral projection with a great freedom of shape and size and also with good dimensional accuracy by a method in which an object extruded is molded by rotation of a sizer with a suction mechanism provided at an interval from a die. CONSTITUTION:The compound of a thermoplastic resin (e.g., polystyrene) and a blowing agent (e.g., azodicarbonamide) is charged into the hopper of an extruder 1 and extruded from a die 2. The molten resin so extruded is molded by a sizer 3 set at an interval of 10-30mm. preferably, and a deformed and expanded product 5 of an expansion ratio of 0.05-5, e.g., a cylinder or round bar whose periphery is provided with a spiral projection, is obtained through a cooling water tank 4 by a takeout device 6. Suction holes 9 are provided in the sizer 3 and the degree of vacuum is controlled to 0.05-0.5Torr. The sizer 3 is turned by a drive motor 8.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for forming a foamed profile extrusion molded product having a spiral protrusion on the outer periphery of a cylinder or round bar and having an expansion ratio of 0.05 to 5 times.

The purpose of the present invention is to obtain various foamed profile extrusion molded products having a spiral protrusion on the outer periphery of a round bar or cylinder with a circular cross section.Specific applications of this molded product include furniture, etc. Examples include feet for transporting powder, screws for transporting powder, rotating brush stands for vacuum cleaner inlets, supports for cables, static mixers for transporting liquids, spacers for optical fibers, etc.

The outline of the present invention will be explained below with reference to the drawings. In the side view (partial view) of Fig. 1, a compound containing a thermoplastic resin and a blowing agent is introduced into the hopper of an extruder 1 and extruded through a die 2. put out.

The extruded molten resin is shaped by sizers 3 arranged at predetermined intervals, passes through a cooling water tank 4, and a suitably foamed irregularly shaped article 5 is taken off by a take-up machine 6.

The sizer 4 is rotated by a drive motor 8 through a chain 7. Note that the helical angle of the protrusion of the molded product can be arbitrarily changed by changing the extrusion speed and the rotation speed of the sizer.

The thermoplastic resin in the present invention includes polyethylene,
Polypropylene, polystyrene, polyvinyl chloride, AB
Examples of resins that can be continuously extruded using an extruder include SlAs, polycarbonate, and nylon.
Either a solid foaming agent or a gas foaming agent can be used, and the foaming ratio is 0.05 to 5 times, preferably 0.1 to 3 times, and 0.0
If it is less than 5 times, it will be difficult to shape it, and if it is more than 5 times, the strength of the molded product will decrease, causing a practical problem. Note that the expansion ratio here is the value obtained by subtracting 1 (times) from the quotient (times) obtained by dividing the density in an unfoamed state by the density after foaming.

A spiral protrusion is provided on the outer periphery of a cylinder or round bar by rotating a die and a sizer while extruding a molten foamable thermoplastic resin.

The ratio between the extrusion speed and the rotational speed of the sizer can be arbitrarily and continuously changed depending on the required pitch of the helical part.

The distance between the die and the sizer varies depending on the molding speed and expansion ratio, but is at least 5 mm to maximum 50 mm, preferably 10 mm to 30 mm. If the distance between the die and the sizer is less than 5mm, the molten resin coming out of the die will not be sufficiently expanded by the foaming agent, and if the distance exceeds 50mm, the extrudate will be in a slow foaming state and the extrudate will not flow smoothly into the sizer. Difficult to enter.

Further, the sizer needs to be equipped with a suction mechanism, and by providing suction holes 9 as shown in FIG. 1, shaping becomes sufficient and a smooth surface can be obtained. The number of suction holes may be about 6 to 8 in the circumferential direction when the inner diameter of the sizer body is 20 mm, and the degree of vacuum is preferably 0.05 to 0.5 Torr, 0.05
If it is less than Torr, the effect is insufficient, and if o and iI are too high, the take-up resistance becomes excessive.

The effects of the present invention will be described below.

When molding an irregularly shaped product with a spiral protrusion on the outer periphery of a round bar or cylinder, if the length of the molded product is relatively short, it is possible to mold it by injection molding, but this method In this case, a complicated split mold must be used, which increases the total cost of the mold, and lines of the split parts of the mold appear on the molded product, which is unfavorable in terms of appearance. Furthermore, as the cross-sectional area of the molded product becomes larger, molding takes longer and molding costs become higher. Furthermore, when molding a long product with a length exceeding 1 m, injection molding is difficult.

When making a molded product with a spiral protrusion by extrusion molding, there is a method in which the die and sizer are fixed and the molded product is taken while rotating, but the mechanism of the taking-off machine becomes complicated and expensive. Also, it may be more expensive to create a mechanism that independently operates the rotation speed and take-up speed. On the other hand, if the sizer is rotated and a normal take-up machine is used as in the present invention, there is a greater degree of freedom regarding the shape of the molded product, and the manufacturing cost of the machine is also lower.

In the present invention, the irregular shaped product having the spiral protrusion is also a foam molded product, but by providing a gap between the die and the sizer, the molten resin containing the foaming agent extruded from the die can be foamed under atmospheric pressure. Since this starts, it is possible to adjust the foaming ratio, foaming cells, and surface condition by appropriately adjusting the distance between the die and the sizer. In addition, it is possible to obtain a better surface condition and to increase the molding speed than when molding is performed by bringing the die and sizer into close contact with each other.

Further, the cross-sectional shape of the spiral protrusion can be appropriately selected, including the width and height, such as a square, a triangle, or a semicircle.

As described above, according to the present invention, a foamed irregularly shaped article having a spiral protrusion can be made with a large degree of freedom in shape and size.
It can be molded at low cost with good dimensional accuracy.

The present invention will be explained in more detail by showing examples below.

Example melt flow rate 4.5. ! Tri-blend 100 parts by weight of 7/10 mm polystyrene, 0.7 parts by weight of the blowing agent ADOA (azodicarbonamide), and 1 part by weight of the blowing agent zinc oxide, and use a single-screw extruder with a barrel diameter of 40 mm to produce an inner diameter of 6 mm. A round bar was melt-extruded from a die having an orifice profile at an extrusion speed of 300 mm/1 mm and a take-up speed of 100 mm/7 mm, and then shaped using a rotary sizer.

The distance between the die and the sizer was set to 50 mm, and the sizer was 300++ m long, with no taper inside, and 8 suction holes with a diameter of 1 mm were bored in one row in the circumferential direction at 30 mm land positions, including the deepest part of the concave groove. The temperature was 0.1 Torr. The sizer was rotated twice per minute to gradually shape the extrudate into a round bar with a body diameter of 20 mm, two strips of triangular cross section, a base of 6 mm, and a height of 5 mm, with a spiral protrusion of 5001 m in diameter. A foamed profile extrusion molded product with a good expansion ratio of 2 times was obtained.

[Brief explanation of the drawing]

FIG. 1 is a side view (partial view) showing an outline of the present invention. 1 Extruder, 2 Die, 3 Sizer, 4... Cooling water tank, 5 Foamed irregular shaped product, 6... Taking machine, 7
Chain, 8... Drive motor, 9... Suction hole. Patent applicant Showa Denko Co., Ltd. Representative Patent attorney Sei Kikuchi - Figure 1

Claims (1)

[Claims] When molding a foamed profile extrusion molded product having a spiral protrusion on the outer periphery of a cylinder or round bar with a foaming ratio of 005 to 5 times, the extrudate is rotated by a sizer equipped with a suction mechanism installed at a distance from the die. A foaming profile extrusion method characterized by shaping.