JPH08174688A - Resin molded form for vehicle - Google Patents

Abstract

PURPOSE: To provide a resin molded form for a vehicle which has excellent recycling properties while having predetermined product characteristics even when it becomes a wasted material or product. CONSTITUTION: A resin molded form is molded in a product shape by the steps of mixing thermoplastic resin fiber with fibrous or powderlike thermosetting resin, heating and pressuring it, wherein the resin fiber 1 is made of fiber material having a melting point higher by at least several tens of degrees than the thermosetting temperature of the thermosetting resin 2, and the form A1 is molded with the resin 2 as a binder, and the form A1 is comminuted, and the fiber 1 is used as the binder to be a remoldable state.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resin molded article for a vehicle, and more particularly to a resin molded article for a vehicle which can be economically recycled even when it is discarded.

[0002]

2. Description of the Related Art In recent years, research has been actively conducted to improve the recyclability of waste materials and waste products from the viewpoint of environmental protection, and some resin moldings that have become waste materials, such as automobile trunk trims and door trims, have been collected and some of them have been recovered. It has come to be reused. Of the resin moldings, the thermoplastic material can be reused relatively easily because the thermosetting material can be remelted. However, due to the characteristics of the product, thermosetting materials are mainly used, and thermosetting materials and thermoplastic materials are often mixed.In such resin moldings, generally collected waste materials are crushed. After mixing various binders and the like, it is heated and pressed to be molded into a predetermined product shape.

[0003]

Therefore, in a resin molded product other than a thermoplastic material, a binder or the like compatible after crushing must be mixed, and equipment equipment for uniformly mixing and dispersing is also required. The cost is high, and this is a factor that prevents reuse.

Therefore, the inventors of the present invention have made various studies on a material composition which can be reused at low cost, targeting a mixture of a thermosetting material and a thermoplastic material, among resin molded articles for vehicles. As a result, the present invention has been completed. An object of the present invention is to provide a resin molded product for a vehicle, which has a predetermined product characteristic and is excellent in recyclability even when it becomes a waste material or a waste product. Other purposes will be clarified one after another in the content described below.

[0005]

[Means for Solving the Problems] The above object is to form a product by mixing a thermoplastic resin fiber with a fibrous or powdery thermosetting resin, which is the essential part of the present invention, and heating and pressing the mixture. A resin molded body to be molded, wherein the thermoplastic resin fiber is made of a fiber material having a melting point at least several tens of degrees higher than the thermosetting temperature of the thermosetting resin, and the resin molded body is It is achieved by using a curable resin as a binder, and crushing the resin molded body to remold the thermoplastic resin fiber as a binder. In the above invention, the thermoplastic resin fibers 80 to 20
It is preferable that the thermosetting resin is in the range of 20 to 80% by weight with respect to the weight%.

[0006]

According to the present invention, when molding a resin molded body, first, a fibrous or powdery thermosetting resin acts as a binder in the first product, and a thermoplastic resin fiber is used in a product in which waste material is reused. In order to act as a binder, the selection of both materials is done by considering the relative melting temperature etc., and the melting point of the thermoplastic resin fiber is at least several tens of degrees higher than the thermosetting temperature of the thermosetting resin. It is to use the fiber material that it has. In this case, it is preferable that the melting point of the thermoplastic fiber material is relatively higher than the thermosetting temperature of the thermosetting resin, because the thermoplastic fiber material can function as a binder at the time of reuse. The combination of the specific materials is set based on the sex. Based on the moldability, the temperature difference between the two is preferably at least 30 degrees or more, more preferably 60 degrees or more, based on the test results.

The thermosetting resin is preferably a material having a relatively low thermosetting temperature. For example, a phenol resin (this molding material generally contains a filler and a lubricant in addition to the phenol resin). Generally, the thermosetting temperature or the molding temperature is 140 to 190 ° C.), the melamine resin (the thermosetting temperature or the molding temperature is 135 to 170 ° C.), the urea resin (the thermosetting temperature or the molding temperature 125.
˜155 ° C.) and the like. Examples of the thermoplastic resin fiber include a polypropylene fiber material (usually having a melting point or a molding temperature of 165 to 173 ° C.) and a polyester fiber material (a melting point or a molding temperature of 255 to 2).
60 ° C.) and the like.

As a combination example of the above-mentioned thermosetting resin and thermoplastic resin fiber, a phenol resin may be used for the thermosetting resin and a polyester fiber material may be used for the thermoplastic resin fiber as in the Examples, and the like. For example, a urea resin may be used as the thermosetting resin and a polypropylene fiber material may be used as the thermoplastic resin fiber. The point is that a specific combination will be examined from the viewpoint of product physical properties and moldability.

[0009]

EXAMPLES Hereinafter, the present invention will be described in more detail with reference to examples. 1 (a) to 1 (d) show an example of a molding process for forming a resin molded body A1 which is a molding base material for a vehicle, and FIGS.
(D) schematically shows respective molding process examples of crushing the resin molded body A1 to form the resin molded body A3.

The resin molding A1 is press-molded into a product shape by the following material constitution and molding conditions. The thermoplastic resin fiber 1 is a polyester fiber,
The melting point or molding temperature is 255 to 260 ° C. The thermosetting resin powder 2 is a phenol resin,
The thermosetting or molding temperature is 140 to 190 ° C.

The thermoplastic resin fiber 1 is shown in FIG.
As shown in (a), the basis weight is about 700 g / m ² and a blank size corresponding to the product is formed, and the thermosetting resin powder 2 is mixed therein so as to be uniform. Further, the weight ratio of the thermoplastic resin fiber 1 and the thermosetting resin powder 2 is arbitrarily adjusted.
20 to 80% by weight of thermosetting resin 2 to 20% by weight
It should be in the range of. From the results of various tests, in any case, if the content is 20% by weight or less, the function as a binder is lost and the shape retention and the strength are not sufficiently satisfied. In particular, the thermosetting resin 2 is 20% by weight. It is based on the fact that the rigidity or strength of the resin molding A1 becomes unstable in the following cases.

This molding material 3 is press-molded using a molding die 4 as shown in FIG. 1 (b). The molding die 4 is composed of an upper mold 4a and a lower mold 4b as in the conventional case, and has a heater (not shown) built therein so that each molding surface can be heated up to about 300 degrees. Molding die 4 like this
The molding material 3 is heated at a molding temperature setting of about 210 degrees
When pressure molding is performed, a resin molded body A1 as a molding base material is obtained as shown in FIGS. 1 (c) and 1 (d). This resin molding A1
Is the same as the conventional one in that the thermosetting resin powder 2 acts as a binder, but the original fiber form of the thermoplastic resin fiber 1 is almost left, and the appearance peculiar to the fiber is exhibited.
Although thermosetting resin powder 2 is used in this embodiment, thermosetting resin fibers may be used instead of powder. In the case of this fiber, it goes without saying that the thermoplastic resin fiber 1 is entangled by needling to form a molding material.

Next, the resin molding A1 is crushed by a crusher, and the crushed material A2 is crushed by the molding die 5 into a resin molding A3.
To be reshaped. The molding die 5 is an upper die 5a and a lower die 5b.
And has an auxiliary metal plate 6 arranged on the molding surface of the lower mold 5b. Each of the upper mold 5a and the lower mold 5b can heat each molding surface up to about 300 degrees by a built-in heater (not shown). Further, the auxiliary metal plate 6 forms a molding surface corresponding to the lower mold 5b, and the peripheral wall 6a has a container-like appearance.

The crushed material A2 is uniformly charged into the auxiliary metal plate 6 by a predetermined amount as shown in FIG. 2 (a), and is placed in the lower mold 5b through the auxiliary metal plate 6. It In this arrangement state, the auxiliary metal plate 6 is fixed to the lower mold 5b by an appropriate mounting means. The molding die 5 is preheated at a molding temperature setting of about 270 degrees, and the upper and lower dies 5a and 5b are clamped as shown in FIG. Then, the crushed product A2 is heated and pressed with the auxiliary metal plate 6 interposed, and is molded into a resin molded product A3 which is a remolding base material as shown in FIGS. The resin molded body A3 is strongly integrated with the melted thermoplastic resin fiber 1 as a binder, and has a high density and a different appearance from the resin molded body A1. In the heating / pressurizing molding of the crushed material A2, it is preferable to apply a release agent or the like to each molding surface of the upper mold 5a and the auxiliary metal plate 6.

In the above embodiments, the resin moldings A1 and A3
However, the present invention is not limited to such molding dies 4 and 5.

[0016]

As described above, in the resin molded article for a vehicle of the present invention, when it is reused as a waste material,
Since waste material can be crushed and then immediately heated and pressed, there is no need to add a new binder to the crushed material and uniformly disperse it, which makes recycling economical and contributes to environmental conservation. it can.

[Brief description of drawings]

FIG. 1 is a schematic view showing an example of a molding process of a resin molded body shown as an example of the present invention.

FIG. 2 is a schematic diagram showing an example of a molding process in which the resin molded body is crushed and reused.

[Explanation of symbols]

 1 Thermoplastic resin fiber 2 Thermosetting resin powder A1 Resin molding A3 Recycled resin molding

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Claims (2)

[Claims] 1. A resin molded product obtained by mixing a thermoplastic resin fiber with a fibrous or powdery curable resin and heating and pressurizing it to form a product, wherein the thermoplastic resin fiber is the thermosetting resin. Of a fiber material having a melting point at least several tens of degrees higher than the thermosetting temperature, the resin molded body is molded using the thermosetting resin as a binder, and the resin molded body is crushed to obtain the heat treatment. A resin molded article for a vehicle, which can be remolded using a plastic resin fiber as a binder. 2. The thermoplastic resin fiber 80 to 20% by weight
On the other hand, the resin molding for a vehicle according to claim 1, wherein the thermosetting resin is 20 to 80% by weight.