KR101290979B1 - Extruder using roving type reinforced fiber - Google Patents

Abstract

The present invention is an extruder for extruding the extruded material injected into the barrel,

A reinforcing fiber supply unit disposed at one side of the barrel to directly inject a reinforcing fiber in a roving form to the barrel side, a cutting unit disposed at an end side of the barrel to cut the discharged extruded material and reinforcing fiber, and the cutting unit A mixer unit disposed at a discharge side to mix the cut extruded material and reinforcing fibers,

The cutting portion may be a geared cutter for cutting the extruded material and the reinforcing fiber by the teeth of the gears in contact with each other, or a ratchet type cutter for cutting the extruded material and the reinforcing fibers by the teeth of the ratchets in contact with each other, or rotating It relates to an extruder using a roving reinforcing fiber, characterized in that it is one of the radial blade cutter to cut the extruded material and the reinforcing fiber by the cutting surface of the radial blade.

By using the extruder of the present invention, it is possible to use a reinforcing fiber of the roving type while using an existing extruder, thereby improving the strength of the composite material and reducing the cost.

Cutout, Static Mixer, Roving, Continuous Reinforcement Fiber

Description

Extruder using roving type reinforced fiber}

1 is a conceptual view showing a conventional extruder,

2 is a conceptual diagram showing an extruder of the present invention,

3 is a perspective view showing a reinforcing fiber supply unit of the present invention,

4a to 4c are perspective views showing the cutting portion of the present invention,

5A to 5C are a perspective view and a conceptual view showing the mixer unit and its principle of the present invention.

<Explanation of symbols for the main parts of the drawings>

110: extruder 111: barrel

112: rotating shaft 113: screw

114: hopper 115: reinforcing fiber supply unit

120: cutting portion 121: gear type cutter

122: ratchet cutter 123: radial blade cutter

130: mixer 131: housing

132: holder 133: element

The present invention relates to an extruder that can reduce the cost and improve the strength of the composite material by using the existing extruder by using a cutting unit and a mixer unit by using a conventional extruder and roving type reinforcing fibers,

More specifically, in the extruder for extruding the extruded material injected into the barrel, the reinforcing fiber supply unit disposed on one side of the barrel for feeding the reinforcing fibers of the roving form to the barrel side, and disposed on the end side of the barrel and the discharge It relates to an extruder comprising a cutting unit for cutting the extruded material and reinforcing fibers to be formed, and a mixer unit disposed on the discharge side of the cutting unit to mix the cut extruded material and reinforcing fibers.

Generally, an extruder refers to a device for extruding an extruded material to form a product, and is classified into a screw extruder using a screw and a non-screw extruder without a screw.

The non-screw extruder includes an elastic melt extruder, a hydro-dynamic extruder, a ram type continuous extruder, or a gear extruder.

The elastic melt extruder is an extruder of the extrusion method using the normal stress effect of the viscoelastic material, the hydro-dynamic extruder is an extruder using a fluid principle of the thrust shaft of the kingsbury or Michell type, the ram type The continuous extruder is an extruder made of a set of devices using two rams in combination with two rams and barrels in parallel with the ram type pre-plasticizing extruder facing each other.

In addition, the gear type extruder uses the principle of the oil pump gear pump as it is extruder, this is an extruder system in which the three helical gears interlocked with each other is arranged vertically so that the extruded material is supplied from above and sent down.

The screw type extruder using the screw has an advantage in the delivery stability of the extruded material, the residence time, etc., compared to the non-screw type extruder as described above. Recently, the screw type extruder is used.

This screw type extruder is described with reference to FIG.

The screw extruder is rotated by mounting a screw 13 on the rotating shaft 12 for extruding the extruded material. The rotary shaft 12 is rotated by a drive means such as a motor (M) or the like. On the other hand, the screw 13 is accommodated by a barrel 11 surrounding the outside, wherein the barrel 11 is equipped with a variety of hoppers 14, 15, the extrusion material or reinforcing fibers are introduced.

On the other hand, the reinforcing fibers are generally used strand fibers (cut) cut to a certain length is extruded by the extruder is divided into chips (P) form. After re-melting using an injection machine and injected into a mold to produce a product.

In the conventional injection molding machine, strand fibers cut to a constant length are used as described above. However, when the strand fibers are used, there is a limitation in improving the strength of the extrudate. Recently, continuous reinforcing fibers of a roving type are used. do.

By the way, in the case of using the continuous reinforcing fibers of the roving type, in the case of the conventional injection machine should be provided with a means for cutting the continuous reinforcing fibers therein, for this reason there was a problem that the cost increases.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide an extruder capable of using a continuous reinforcing fiber in the form of roving while using a conventional extruder.

The above object is an extruder for extruding the extruded material injected into the barrel,
A reinforcing fiber supply unit disposed at one side of the barrel to directly inject a reinforcing fiber in a roving form to the barrel side, a cutting unit disposed at an end side of the barrel to cut the discharged extruded material and reinforcing fiber, and the cutting unit A mixer unit disposed at a discharge side to mix the cut extruded material and reinforcing fibers,
The cutting portion may be a geared cutter for cutting the extruded material and the reinforcing fiber by the teeth of the gears in contact with each other, or a ratchet type cutter for cutting the extruded material and the reinforcing fibers by the teeth of the ratchets in contact with each other, or rotating It can be achieved by an extruder using a roving reinforcing fiber, characterized in that it is one of the radial blade cutter to cut the extruded material and the reinforcing fiber by the cutting surface of the radial blade.

The present invention relates to an extruder that can use a continuous reinforcing fiber in the form of roving while using a conventional extruder as described above will be described based on the following examples and the accompanying drawings.

As shown in FIG. 2, the extruder 110 of the present embodiment targets a conventional screw extruder, and the present invention is not limited to the screw extruder, and the present invention is not limited to the screw extruder. Belonging to the category of is obvious.

The screw extruder 110, the screw 113 is rotated by the rotating shaft 112 in the barrel 111, the rotating shaft 112 is driven by a drive means such as a motor (M).

On the other hand, the hopper 114 is installed on one side of the barrel 111 to insert the extruded material, and the above configuration is the same as the conventional one.

However, in the present invention, the reinforcing fiber supply unit 115 for supplying the continuous reinforcing fibers in the roving form is installed. The continuous reinforcing fibers in the roving form mainly refer to filaments spun from the bushing gathered in hundreds to thousands of strands into one filament. As shown in FIG. 3, the reinforcing fiber supply unit 115 of the present invention uses a continuous reinforcing fiber 115b wound on a cylindrical main body 115a, wherein the continuous reinforcing fiber 112b is released. The barrel 111 is added directly to improve the strength of the extruded material.

In other words, in the conventional case, but using a reinforcing fiber cut to a certain length, in order to improve the strength, the length of the fiber should be sufficiently long, for this purpose is to use a continuous reinforcing fiber of the roving type as the present invention.

Meanwhile, the cutting unit 120 for cutting the mixture of the continuous reinforcing fibers and the extruded material will be described with reference to FIG. 2 described above.

As the cutting unit 120 is to cut the continuous reinforcing fiber as described above, there is a problem in that the cost of the extruder has to be expensive because it must have a configuration that can be cut inside the extruder, but the cutting unit of the present invention ( By using the 120) it is possible to use the continuous reinforcing fibers while using a conventional extruder to reduce the cost.

As such, the cutting part 120 of the present invention falls within the scope of the present invention as long as it cuts the continuous reinforcing fiber. Hereinafter, various types of cutting parts 120 will be described with reference to FIGS. 4A to 4C.

First, the gear cutter 121 will be described with reference to FIG. 4A.

The gear cutter 121 is configured to cut the continuous reinforcing fiber by the teeth 121a of the gears in contact with each other.

That is, the continuous reinforcing fibers are mixed with the extruded material and extruded, wherein the continuous reinforcing fibers are cut at the ends 121a of the mutually contacting gears.

This is similar to the case of the ratchet cutter 122 described later. That is, the teeth 122a of the two rackets are arranged to be in contact with each other as shown in FIG. 4b and the continuous reinforcing fibers are cut at the teeth 122a of the ratchet being in contact with each other.

In addition, the cutting unit 120 may use a radial blade-type cutter 123, as shown in Figure 4c.

That is, after the shape of the cutting surface has the shape of the radial blade, the blade 123a is rotated to cut the continuous reinforcing fiber.

Each cutter explained above can cut | disconnect the continuous reinforcement fiber mixed with the said extrusion material.

Meanwhile, a mixer unit 130 is provided to more completely mix the cut continuous reinforcing fiber and the extruded material.

The mixer unit 130 belongs to the scope of the present invention as long as the extruding material and the cut continuous reinforcing fiber are mixed, and an embodiment thereof will be described with reference to FIGS. 5A to 5.

The mixer unit 130 of the present embodiment is a static mixer in which the static mixer divides the flow of the mixture of the cut reinforcing fibers and the extruded material into a plurality and simultaneously mixes the divided plurality of flows.

In this case, the dividing and mixing are made by an element called the element 133. In this case, the element 133 is called a static mixer as described above because the element 133 is a composition for mixing the mixture in a fixed state. will be.

The mixer 130 of the present invention is composed of the element 133 as described above and the housing 131 for fixing the element 133. In this case, the cylindrical holder 132 may be installed in the housing 131, and then the element 133 may be installed in the holder 132.

Hereinafter, the principle of the static mixer will be described with reference to FIGS. 5B and 5C.

As shown in FIG. 5B, the element 133 includes two first elements 133a and a second element 133b having the same shape.

The first element 133a is formed such that the plate is twisted by twisting one side of the plate. In FIG. 5B, the element 133 is illustrated in a case where the plate body is twisted 180 degrees to clearly illustrate the principle of the static mixer of the present invention.

By the above-described shape, the mixture flow of the extruded material and the cut continuous reinforcing fiber is bisected. That is, in FIG. 5B, the flow I is divided into two flows, namely, I-1 and I-2 while passing through the first element 133a, and the second element 133b is disposed on the side of the first element 133a. do.

The second element 133b has the same shape as the first element 133a but is rotated 90 degrees. In other words, if both sides of the first element 133a are vertical, both sides of the second element 133b are disposed in a horizontal state.

The second elements 133b divide the flows I-1 and I-2 into two I-1a and I-2a, respectively. In other words, the first one flow I is divided into four flows by two elements.

The first element 133a and the second element 133b are arranged in plural to alternate with each other to divide the flow of the mixture into plural.

Meanwhile, the plurality of divided flows are mixed by the element 133.

In FIG. 5C, one fluid passing through the surface of the element 133 flows from the center to the outside while flowing from the outside to the center and repeats the flow. Thus, the plurality of divided flows are mixed with each other as the flow continues to the center and the outside.

The reinforcing fibers and the extruded material cut to the predetermined length by the mixer 130 as described above are uniformly mixed, and the mixed reinforcing fibers and the extruded material are discharged through the extrusion die 140.

As described above, in the case of the conventional extruder, when the continuous reinforcing fiber of the roving type has to be provided with a separate cutting means inside the extruder, there is a problem in that the cost increases.

In the case of the present invention, by using the cutting unit and the mixer unit in the existing extruder can use the continuous reinforcing fiber of the roving form while using the existing extruder as it is, it is possible to improve the strength of the extrudate and reduce the cost. .

Claims (5)

An extruder for extruding the extruded material introduced into the barrel, A reinforcing fiber supply unit disposed on one side of the barrel to directly input the roving type continuous reinforcing fiber to the barrel side; and A cutting part disposed at the discharge side of the barrel to cut the discharged extruded material and continuous reinforcing fibers; It is disposed on the discharge side of the cutting portion; a mixer unit for mixing the cut extruded material and reinforcing fibers; The cutting portion may be a geared cutter for cutting the extruded material and the reinforcing fiber by the teeth of the gears in contact with each other, or a ratchet type cutter for cutting the extruded material and the reinforcing fibers by the teeth of the ratchets in contact with each other, or rotating One of the radial blade cutters for cutting the extruded material and the reinforcing fibers by the cutting plane of the radial blades, The mixer unit forms one side of the plate body so that the plate body is twisted by a gap, thereby dividing the flow of the extruded material and the reinforcing fiber mixture into two parts, and is disposed on one side of the first element and is the same as the first element. A second element which is shaped and rotated by 90 degrees to divide the bisected mixture flow into quadrants, while the first element and the second element are arranged to be alternately arranged, and the mixture flow is divided into a plurality of pieces. An extruder using a roving type reinforcing fiber, characterized in that a static mixer comprising an element for mixing with each other, and a housing for fixing the element. delete delete delete delete

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