PLASTIC GUARDRAIL

Abstract

This invention relates to a plastic guardrail, extruded into a structure having multiple layers and ribs between the layers using a thermoplastic resin, and configured such that an outer layer using a material having high strength to increase impact resistance, and an inner layer and the ribs using a material having lower strength than that of at least the outer layer to increase an internal cushioning effect are integrated with each other through a double extrusion process. The guardrail of the invention can exhibit both impact resistance and a cushioning function.

Claims

1. A plastic guardrail, extruded into a structure having multiple layers and ribs between the layers using a thermoplastic resin, and configured such that an outer layer, using a material having high strength to increase impact resistance, and an inner layer and the ribs, using a material having lower strength than that of at least the outer layer to increase an internal cushioning effect, are integrated with each other through a double extrusion process, wherein the ribs are formed in a round shape or an arc shape, the outer layer is formed using an engineering resin selected from among PA, PC, POM (polyacetyl), PBT (polybutylene terephthalate), MPPO (modified polyphenylene oxide), and PET, and the inner layer is formed using a general-purpose resin selected from among PE, PP, PVC, PS, ABS, AS (acrylonitrile styrene copolymer), and MBS (methacrylate resin).

2. The plastic guardrail of claim 1, wherein an air layer between the outer layer and the inner layer or in the inner layer is provided in a continuous oval shape.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0015] FIG. is a perspective view of a guardrail according to the present invention;

[0016] FIG. 2 is an enlarged cross-sectional view showing part A of FIG. 1; and

[0017] FIG. 3 shows the status of use of FIG. 1

DESCRIPTION OF REFERENCE NUMERALS IN THE DRAWINGS

[0018]

TABLE-US-00001 10: guardrail 14: fixing hole 15: fixing bolt 16: rib 17: air layer 18: outer layer 19: inner layer

Best Mode

[0019] The features and effects of a plastic guardrail according to the present invention, whether mentioned or not, will become more apparent through the description of embodiments with reference to the appended drawings. Throughout the drawings, the reference numeral 10 designates a guardrail according to the present invention. With reference to FIG. 1, the guardrail 10 according to the present invention is a plate that has a continuous waveform in a longitudinal direction and extends long in a width direction, and the end of which is connected to an additional guardrail 10.

[0020] For such connection, fastening holes 11 that are formed in ends of two guardrails 10 facing each other, bolts 12 respectively passing through the fastening holes 11, and washer members 13 into which two bolts 12 are fitted on the rear surfaces of the guardrails 10 so that the two guardrails 10 are connected, are provided. Here, the plate shape and connection structure of the guardrails 10 are not particularly limited in the present invention.

[0021] Throughout the drawings, the reference numerals 14 and 15 are a fixing hole and a fixing bolt, respectively, which are used to mount the guardrail 10 of the present invention to a rail post on a side of a road.

[0022] With reference to FIG. 2, the guardrail 10 of the present invention is formed in a multilayer structure, the layers of which are connected through a plurality of ribs 16 formed at interlaminar air layers. Here, the ribs 16 are formed in a round shape or an arc shape, and the interlaminar air layers 17 formed between the outer layer 18 and the inner layer 19 or in the inner layer 19 are provided in the form of a continuous oval shape 17.

[0023] In the present invention, the guardrail 10 is extruded into a structure having multiple layers and ribs 16 between the layers using a thermoplastic plastic resin. Here, the outer layer 18, using a material having high strength in order to enhance impact resistance, and the inner layer 19 and the ribs 16, using a material having lower strength than that of at least the outer layer 18 in order to enhance an internal cushioning effect, are integrated with each other using a double extraction process.

[0024] Useful as the material of the outer layer 18, an engineering resin known to have strength to the extent that it is used for interior and exterior parts of vehicles may be selected from among PA, PC, POM (polyacetyl), PBT (polybutylene terephthalate), MPPO (modified polyphenylene oxide), and PET. The material of the inner layer 19 may include any general-purpose resin selected from among PE, PP, PVC, PS, ABS, AS (acrylonitrile styrene copolymer), and MBS (methacrylate resin).

[0025] Preferably, the material of the outer layer 18 is a PC resin having the highest impact strength among thermoplastic and engineering resins, and the material of the inner layer 19 is a PVC resin, which is the most useful general-purpose resin.

[0026] In the present invention, the double extrusion process is a typical extraction process using a molding machine so as to form a plate through double extrusion performed in a manner in which a material extruded from the head of a first extruder is formed into an inner resin product, and a material extruded from the head of a second extruder is formed into an outer resin product, thereby producing a plate-type guardrail 10 having the outer layer 18, the inner layer 19 and the ribs 16 formed using different materials.

[0027] In this structure, the impact strength of the guardrail 10 is ensured by the outer layer 18 made of the above material. The cushioning effect of the guardrail 10 is ensured and enhanced by means not only of the ribs 16 and the inner layer 19 using the above material but also of the plate waveform and the air layers 17. As the ribs 16 are formed in a round shape or an arc shape, impacts may be elastically absorbed well in comparison to simple straight-shaped ribs.

[0028] With reference to FIG. 3, the guardrail 10 of the present invention is mounted by bringing the waveform portions thereof into contact with posts P on a side of a road and then fitting fixing bolts 15 into fixing holes 14. As illustrated in FIG. 1, individual guardrails 10 may be connected and extended in a width direction by means of the bolts 12 and washer members 13.

[0029] As described hereinbefore, the guardrail 10 of the present invention is formed in a multilayer structure using a plastic material, in which a material having high strength is used for the outer layer 18 and a material having relatively low strength is used for the inside thereof. Therefore, the guardrail 10 of the invention is capable of exhibiting both impact resistance and a cushioning function. Also, the interlaminar air layers 17 are responsible for a cushioning function.

[0030] Meanwhile, the ribs 16 in a round shape or an arc shape play a role in elastically absorbing and relieving impacts. Therefore, the guardrail 10 of the invention is effective at ensuring both impact resistance and a cushioning function.