JP2014121146A - Corrugated tube - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a corrugated tube for protecting a wire harness having high molding processability even if recycled resin material is used.SOLUTION: A corrugated tube comprises material comprising recycled polypropylene material having number average molecular weight of 40,000 or less and molecular weight distribution of 8 or more.

Description

  The present invention relates to a corrugated tube, and more particularly to a corrugated tube for protecting a wire harness.

  Conventionally, a wire harness routed in an automobile or the like is often covered with a corrugated tube made of a synthetic resin in order to protect an internal electric wire from damage due to interference with a projection or the like in the routed portion. This type of corrugated tube is usually formed in a bellows shape in which large-diameter cylindrical portions and small-diameter cylindrical portions are alternately continued along the longitudinal direction. The wire harness can be accommodated inside the corrugated tube and the entire wire harness can be covered.

  For example, as disclosed in Patent Document 1, a corrugated tube is often manufactured using a resin such as polypropylene as a material, and flame retardancy or the like is imparted as necessary.

JP 2007-28889 A

  Since the corrugated tube has a bellows shape, it has a wall thickness that can sufficiently protect the wire harness from impact and a diameter that can accommodate the wire harness with a margin, so the amount of resin material used per unit length is Compared to the insulation coating of wire harnesses. This has led to an increase in the manufacturing cost of the corrugated tube. Due to the problem of depletion of petroleum resources, it is expected that securing the material itself will be difficult.

  Therefore, it is conceivable to manufacture a corrugated tube using a recycled resin produced by collecting a resin material once used instead of a highly pure resin material (virgin material) that has never been used. However, in general, recycled resin materials are manufactured using various resin processed products as raw materials, so that they are inferior in physical properties to virgin materials, and the physical properties are often not constant. In particular, when processing into a complex shape such as a corrugated tube, it is difficult to mold the recycled resin material into a desired shape due to such low physical properties and indefiniteness.

  The problem to be solved by the present invention is to provide a corrugated tube for wire harness protection having a high moldability even when a recycled resin material is used.

  In order to solve the above problems, the gist of the present invention is that the corrugated tube comprises a recycled polypropylene material having a number average molecular weight of 40000 or less and a molecular weight distribution of 8 or more.

  The corrugated tube according to the present invention comprises a recycled polypropylene material having a number average molecular weight of 40000 or less. A recycled polypropylene material having such a number average molecular weight is easily available. Generally, in the recycled polypropylene material, the number average molecular weight is smaller than that in the virgin material, but the recycled polypropylene material constituting the corrugated tube according to the present invention has a large molecular weight distribution of 8 or more. Even when the size of the corrugated tube is small, the corrugated tube can be formed with high formability as in the case of using the virgin material. Also, due to the large molecular weight distribution, the manufactured corrugated tube exhibits high impact resistance, wear resistance, and bendability.

  Since the recycled polypropylene material is less expensive than the virgin material, the production cost of the corrugated tube can be reduced by using it as the material of the corrugated tube. In addition, from the viewpoint of the problem of exhaustion of petroleum resources, it is easy to secure materials and contribute to resource saving.

It is an external appearance perspective view of an example of the corrugated tube of this invention. It is a schematic diagram which shows the average molecular weight and molecular weight distribution of a polypropylene virgin material and a recycled material.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  The corrugated tube according to the present invention is characterized by the constituent materials and can be applied to any outer shape, but an external perspective view of an example of the corrugated tube 10 of the present invention is shown. As shown in FIG.

The corrugated tube 10 has a bellows structure in which small-diameter cylindrical portions 11 and large-diameter cylindrical portions 12 are alternately repeated at a predetermined pitch. And the seam 13 which can penetrate cables is formed over the axial direction.

  A wire harness (not shown) is accommodated in the cylindrical interior 14 of the corrugated tube 10. The corrugated tube plays a role of protecting the accommodated wire harness from impact caused by collision with other parts, abrasion caused by contact with a sharp object, and the like. Moreover, by having a bellows-like structure, it can respond to various bendings, and the freedom degree of the wiring harness arrangement is guaranteed.

  The corrugated tube 10 according to the present invention is formed from a recycled polypropylene material. Recycled polypropylene material is a recycled material that has been collected from used polypropylene as a main component, recycled by melting, etc., and has never been used after synthesis (virgin material) Less expensive. By adopting such a production method, the recycled polypropylene material often contains components other than polypropylene. In this specification, “recycled polypropylene material” or “recycled material” refers to polypropylene. Recycled material that is the main component.

  The recycled polypropylene material constituting the corrugated tube 10 has a number average molecular weight (Mn) of 40000 or more and a molecular weight distribution represented by Mw / Mn of 8 or more. Here, Mw is a weight average molecular weight.

  Since a resin product is usually manufactured through molding under heating, the polymer is thermally deteriorated in the process. Therefore, the recycled polypropylene material has a lower molecular weight than the virgin material. The number average molecular weight of the polypropylene virgin material is typically about 60000. On the other hand, a readily available polypropylene recycled material has a number average molecular weight of 40000 or less.

  The recycled material is inferior in various physical properties as compared with the virgin material. In addition, the physical property is low. In view of the function of the corrugated tube that protects the wire harness from impact, etc., unlike the insulation coating that directly contacts the conductor, it is not strictly required to satisfy the specified physical properties, Permissible. Therefore, in the manufacture of the corrugated tube, there is room for using the recycled polypropylene material, but it is required to have a moldability sufficient to perform the forming as the corrugated tube. Therefore, in the corrugated tube according to the present invention, the moldability is ensured by defining the molecular weight distribution.

  The relationship between the number average molecular weight and molecular weight distribution and molding processability will be described with reference to the schematic diagram showing the molecular weight distribution of the recycled material and the virgin material shown in FIG. FIG. 2 shows the molecular weight on the horizontal axis and the number of molecules on the vertical axis.

  The molecular weight distribution of the polypropylene virgin material is represented as D1 in FIG. Here, the number average molecular weight of the virgin material is Mn1. As described above, Mn1 is typically about 60000. Further, the virgin material has a relatively narrow molecular weight distribution Mw / Mn, and a typical value is about 5.5. The width of the distribution function such as D1, D2, and D3 in FIG. 2 is not the molecular weight distribution Mw / Mn itself, but has a positive correlation with the molecular weight distribution Mw / Mn. That is, the larger the molecular weight distribution Mw / Mn, the greater the width of the distribution curve in the figure.

  As described above, the number average molecular weight Mn2 of the recycled material is lower than that of the virgin material. In the present invention, Mn2 is 40000 or less. FIG. 2 shows two distribution functions D2 and D3 having the same average molecular weight and different molecular weight distributions. The molecular weight distribution of D2 is larger than the molecular weight distribution of the virgin material (D1). On the other hand, the molecular weight distribution of D3 is comparable to the molecular weight distribution of the virgin material (D1).

  A corrugated tube is conventionally produced by extrusion blow molding, but the workability in extrusion blow molding improves as the number average molecular weight increases. In the process of extrusion blow molding in which a corrugated tube is produced using a general virgin material as a raw material, various processing conditions are optimized so that the workability of a polypropylene material having a number average molecular weight of about Mn1 is high. The region of molecular weight with the best moldability is shown as Mb in the figure.

  When the recycled material having a number average molecular weight lower than that of the virgin material has a small molecular weight distribution as in D3, the molecules distributed in the region Mb do not exist or are very few. That is, all or most of the molecules do not have the optimum molecular weight for processing, and this recycled material has only low moldability. If sufficient moldability is not obtained, the shape composed of the small diameter cylindrical portion 11 and the large diameter cylindrical portion 12 of the corrugated tube 1 cannot be formed accurately, the shape becomes irregular, and the thickness cannot be made constant. Or a hole occurs.

  On the other hand, when the recycled material has a large molecular weight distribution like D2, the bottom region on the high molecular weight side of the distribution function overlaps the region Mb. That is, even if the number average molecular weight is lower than that of the virgin material, a significant part of all the molecules exists in a molecular weight region that can be optimally molded under the molding conditions set for the virgin material. By including a significant amount of molecules having a molecular weight in this region in the recycled material, the recycled material has high moldability. This makes it possible to manufacture a corrugated tube from a recycled material with high molding processability even if the equipment and processing conditions that have been used for manufacturing a corrugated tube from a virgin material are applied as they are.

  Specifically, when the average molecular weight of the recycled polypropylene material is 40000 or less, if the molecular weight distribution is 8 or more, sufficient moldability can be ensured. The manufactured corrugated tube preferably has high impact resistance and wear resistance in order to protect the wire harness from impact and abrasion, and polypropylene molecules having a large molecular weight contribute to the improvement of these properties. Even if the average molecular weight of the recycled polypropylene material is 40000 or less, if the molecular weight distribution is 8 or more, the high impact resistance and wear resistance required for the corrugated tube are easily achieved.

  Since the recycled polypropylene material is less expensive than the virgin material, if the corrugated tube is manufactured using the recycled polypropylene material, the manufacturing cost can be reduced. According to a specific calculation, the cost can be reduced by about 15%.

  When manufacturing a corrugated tube from a polypropylene virgin material, general parameters that are used as a guide for selecting a material from the viewpoint of moldability are a melt flow rate and a melt tension. For pure substances, these parameters have a strong correlation with molecular weight. However, in recycled materials, the history of recycled materials used as raw materials and the composition of ingredients such as additives are diverse, so there are factors other than molecular weight that determine the melt flow rate and melt tension. The correlation between the rate and melt tension and the molecular weight is low, and it is not a good index for determining the moldability. For this reason, in the present invention, the average molecular weight and molecular weight distribution are defined as parameters for measuring the moldability, not the melt flow rate or the melt tension.

  The corrugate according to the present invention may be any one as long as it contains the recycled polypropylene material as described above, may consist of the recycled polypropylene material described above, or contains other components. May be. Examples of other components include polypropylene virgin materials and resins other than polypropylene. Moreover, various additives, such as a pigment for coloring, a viscosity modifier, anti-aging agent, an inorganic filler, a storage stabilizer, a dispersing agent, can be illustrated.

  Examples of the present invention and comparative examples are shown below. In addition, this invention is not limited by these Examples.

<Corrugated tube creation>
Corrugated tubes according to Examples and Comparative Examples were prepared by extrusion blow molding using five types of recycled polypropylene materials. The five types of recycled polypropylene materials (recycled materials 1 to 3) have different molecular weight structures due to different recycling materials and recycling methods used as raw materials.

  Here, as the design values of the molded corrugate, the outer diameter of the large diameter cylindrical portion 12 was 21 mm, the inner diameter of the small diameter cylindrical portion 11 was 16 mm, and the wall thickness of the small diameter cylindrical portion 11 was 0.27 mm. The molding conditions were an extrusion temperature of 220 ° C., a blower pressure of 0.01 to 0.03 MPa, and a linear velocity of 4 to 6 m / min.

<Evaluation of number average molecular weight and molecular weight distribution>
About the recycled materials 1-5, the number average molecular weight Mn and molecular weight distribution Mw / Mn were measured using high temperature GPC (gel permeation chromatography), respectively.

<Evaluation of molding processability>
About the result obtained by extrusion blow molding, whether the shape as a corrugated tube was able to be formed was confirmed by visual observation and the measurement of the dimension of each part. At this time, the overall shape is not distorted, the shape of the peak portion of the bellows structure (large diameter cylindrical portion) and the shape of the valley portion (small diameter cylindrical portion) satisfy the design value, or the wall thickness is constant. Whether or not a corrugated tube can be formed was determined by paying attention to whether or not a hole was formed. When all these conditions were satisfied, it was determined that the corrugated tube shape was formed, and the moldability was evaluated as “◯”. On the other hand, when one of the above conditions was not satisfied, it was determined that the shape of the corrugated tube could not be formed, and the molding processability was set to “x”.

<Results and discussion>
Table 1 shows the measurement results of the number average molecular weight Mn and the molecular weight distribution Mw / Mn and the determination results of molding processability for each of the examples and comparative examples.

  The recycled polypropylene materials used in Examples 1 to 3 and Comparative Examples 1 and 2 all have a number average molecular weight Mn of 40000 or less. However, the molecular weight distribution Mw / Mn is 8 or more in Examples 1 to 3, whereas it is less than 8 in Comparative Examples 1 and 2.

  Due to such a difference in molecular weight distribution Mw / Mn, there is a difference in molding processability of the recycled material. In other words, in Examples 1 to 3, the recycled material had high moldability and the corrugated tube could be molded, whereas in Comparative Examples 1 and 2, the recycled material had low moldability and the corrugated tube. The tube shape could not be formed.

  Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention.

Claims (1)

  A corrugated tube for protecting a wire harness comprising a recycled polypropylene material having a number average molecular weight of 40000 or less and a molecular weight distribution of 8 or more.

Images