JP2010000686A - Mandrel line for manufacturing hose and its manufacturing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mandrel line for manufacturing a hose capable of efficiently extracting the mandrel line from a hose body particularly after manufacturing the hose, and its manufacturing method. <P>SOLUTION: The mandrel line 1 for manufacturing the hose includes the core wire 2 and a resin coating 3 coating the outer periphery of the core wire 2, and has a discontinuous recessed part formed at the surface of the resin coating 3. In the mandrel line 1 for manufacturing the hose, the depth of the recessed part of the resin coating 3 is 60-150 μm, the resin coating 3 is fluorine resin, and the core wire 2 is a twisted wire formed of hard stainless steel. In the method for manufacturing the mandrel line for the hose, the mandrel line 1 is formed by coating the outer periphery of the core wire 2 with the resin coating 3, and continuously, the mandrel 1 is made to pass through at least a pair of rolls 14 having an abrading agent of #240-#600 specified in JIS R6001 on the surface after holding the mandrel line 1 in the vicinity of the melting temperature of the resin coating 3. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a mandrel wire for manufacturing a hose such as a pressure hose used for, for example, a construction machine or an automobile part, and a method for manufacturing the same. In particular, the mandrel wire is efficiently removed from the hose body after the hose is manufactured. It relates to what made it possible to extract.

  Conventionally, mandrel wires have been used when manufacturing pressure hoses used for construction machines, automobile parts, and the like. A specific manufacturing method is as follows. First, a hose inner layer material is extruded on the surface of a mandrel wire, a reinforcing layer is formed by braiding fibers and metal wires on the inner layer material, and an outer layer material is laminated on the outer periphery of the reinforcing layer to form a hose. . After that, by sealing the front end side of the hose, by introducing high-pressure water from the rear end side of the hose into the contact surface between the mandrel wire and the hose and releasing the contact state between the mandrel wire surface and the inner wall surface of the hose, The mandrel wire is extruded by the pressure of the high pressure water.

  In order to efficiently extract the mandrel wire from the hose, so that the so-called extractability is good, the surface of the mandrel wire is coated with a lubricant or a release agent, and various surface treatments are performed on the surface of the mandrel wire. Yes. For example, Patent Document 1 discloses that the surface of a mandrel wire is processed into a parallel or spiral shape in the longitudinal direction with a polishing cloth or the like to make the surface rough, and the surface roughness is 1 to 60 μm. . Patent Document 2 describes that a mandrel is passed through a grooving die, a spiral or knitted groove is continuously provided along the longitudinal direction, and the depth of the groove is 10 to 200 μm. Yes.

Japanese Patent No. 2671047: Yokohama Rubber JP-A-9-1560: Yokohama Rubber

  Here, the grooves of the mandrel wires according to Patent Document 1 and Patent Document 2 are continuous as described above. With such a continuous groove, even if a lubricant or a mold release agent is applied to the surface of the mandrel wire, the lubricant or the mold release agent is not held on the surface of the mandrel wire, and sufficient pulling out property is obtained. I couldn't. Further, even when high-pressure water was applied, water was transmitted only through the groove portion, and it was not sufficient to release the close contact between the mandrel wire and the inner surface of the hose at the non-groove portion.

  The present invention has been made to solve such problems of the prior art, and the object of the present invention is to make it possible to efficiently extract the mandrel wire from the hose body, particularly after the manufacture of the hose. An object of the present invention is to provide a mandrel wire for manufacturing and a manufacturing method thereof.

In order to achieve the above object, a mandrel wire for manufacturing a hose according to claim 1 of the present invention comprises a core wire and a resin coating coated on the outer periphery of the core wire, and the surface of the resin coating is discontinuous. The present invention is characterized in that a concave portion is provided.
The mandrel wire for manufacturing a hose according to claim 2 is characterized in that the concave portion of the resin coating has a depth of 60 μm to 150 μm.
The mandrel wire for manufacturing a hose according to claim 3 is characterized in that the resin coating is a fluororesin.
A mandrel wire for producing a hose according to claim 4 is characterized in that the resin coating is a tetrafluoroethylene-6fluoropropylene copolymer.
The mandrel wire for manufacturing a hose according to claim 5 is characterized in that the core wire is a stranded wire of a hard stainless steel wire.
According to a sixth aspect of the present invention, there is provided a method for manufacturing a mandrel wire for manufacturing a hose, wherein a mandrel wire is coated on the outer periphery of a core wire to hold the mandrel wire near the melting temperature of the resin coating, The mandrel wire is passed between at least a pair of rolls provided with # 240 to # 600 abrasives according to JIS R6001 on the surface.

  In the mandrel wire according to the present invention, since a discontinuous recess is formed on the surface of the resin coating constituting the mandrel wire, a lubricant and a release agent are held in the recess, thereby obtaining sufficient pullability. be able to. In addition, when high-pressure water is applied, the water does not pass through only a specific groove, but it passes through the entire circumference of the hose, so the adhesion between the mandrel wire and the inner surface of the hose is reliably released. can do.

  Hereinafter, an embodiment of the present invention will be described with reference to FIGS. As described above, the mandrel wire 1 according to the present invention has a configuration in which the outer periphery of the tensile strength wire 2 is coated with the resin coating 3.

  The core wire 2 is for preventing the mandrel wire 1 from being stretched or disconnected when the mandrel wire 1 is pulled out from the hose. Examples of the constituent material of the core wire 2 include those generally used as tensile strength wires such as metal wires such as various stainless steel wires and fiber wires such as glass fibers and Kevlar fibers. Among these, the hard stainless steel wire is particularly preferable because it can prevent the mandrel wire 1 from being stretched or disconnected. Moreover, the core wire 2 may be a single wire of the above-described constituent material, or may be a stranded wire obtained by twisting a plurality of wires. Among these, a twisted wire is preferable because irregularities are formed on the surface thereof, and the resin coating 3 is caught by the irregularities, so that the resin coating 3 can be prevented from coming off from the core wire 2. In the present embodiment, a core wire 2 is formed by twisting seven strands of 0.13 mm hard stainless steel wires and further twisting them.

  The outer periphery of the core wire 2 is coated with a resin coating 3 by a known molding method such as extrusion molding to form a mandrel wire 1. In the present embodiment, the resin coating 3 is coated on the outer periphery of the core wire 2 by the extruder 11. As the constituent material of the resin coating 3, various resin materials can be used. In order to improve the hose pullability, a resin having good surface slipperiness is preferably used. In addition, since the inner layer material of the hose is extruded at a high temperature on the surface of the mandrel wire 1 and a cooling cycle is applied so as to be cooled thereafter, a resin having excellent heat resistance is preferably used. From this point of view, the constituent material of the resin coating 3 includes polyvinylidene fluoride, tetrafluoroethylene-6 fluoropropylene copolymer, ethylene-4 fluoroethylene copolymer, ethylene-chlorotrifluoroethylene copolymer. A fluororesin such as a coalescence or perfluoroalkoxy fluororesin is preferably used. Among these, tetrafluoroethylene-6fluoropropylene copolymer is particularly preferably used because it has durability that can withstand repeated use. In the present embodiment, a tetrafluoroethylene-6fluoropropylene copolymer was extrusion coated with a thickness of 1.0 mm to obtain a resin coating 3.

  After the resin coating 3 is coated, the mandrel wire 1 is once cooled in the cooling bath 12. At this time, a conventionally known lubricant or release agent may be applied to the surface of the mandrel wire 1. Thereafter, the mandrel wire 1 is heated again by the heating furnace 13 to around the melting temperature (280 ° C.) of the resin coating 3. And it supplies continuously between a pair of rolls 14a and 14b, and also supplies between a pair of rolls 14c and 14d. The rolls (14a to 14d) are configured to freely rotate in accordance with the flow of the mandrel wire 1, and the rolls 14a and 14b and the rolls 14c and 14d are rotated by 90 ° around the longitudinal direction of the mandrel wire 1. It has become a positional relationship. Further, a polishing cloth is affixed to a contact surface of the roll (14a to 14d) with the mandrel wire, and a polishing agent of # 240 according to JIS R6001 is used for the polishing cloth. By passing between the rotating rolls in this way, discontinuous recesses are formed on the surface of the resin coating 2 of the mandrel wire 1. At this time, it is preferable to use a roll (14a to 14d) having a polishing agent of about # 240 to # 600. Moreover, although the depth of a recessed part can be set by setting suitably the kind of abrasive | polishing agent of a roll (14a-14d) and the pressure which applies a roll (14a-14d) to the mandrel wire 1, the depth of a recessed part can be set. Is preferably 60 μm to 150 μm. If the depth of the recess is less than 60 μm, the lubricant and mold release agent held in the recess will be insufficient. Moreover, when the depth of a recessed part exceeds 150 micrometers, a recessed part will appear in the inner wall face of a hose. In the present embodiment, the pressures of the rolls 14a and 14b and the rolls 14c and 14d are set to 10 MPa, and the depth of the recesses is set to 100 μm by # 240 the abrasive as described above. The depth of the recess is measured by a surface roughness meter (conforming to JIS B 0601).

  In the above, the mandrel wire 1 is once cooled after coating with the resin coating 3 and then heated again. However, if it can be passed between the rolls (14a to 14d) at an appropriate temperature, a cooling process is performed. Can be omitted. However, once the mandrel wire 1 is not cooled, the entire resin coating 3 is in a molten state, and therefore the shape of the resin coating 3 may collapse depending on the pressure of the roll when passing between the rolls. On the other hand, when the mandrel wire 1 is once cooled and then heated again, only the surface of the resin coating 3 is in a high temperature state while the vicinity of the center of the mandrel wire 1 is cooled. Therefore, it is preferable because the shape of the mandrel wire 1 does not collapse even if the pressure of the roll is strong.

  In this way, the mandrel wire according to the present invention can be obtained. For example, the mandrel wire is used for manufacturing a hose as follows. First, a hose inner layer material made of ethylene propylene rubber is extruded to a thickness of 2.0 mm on the surface of a mandrel wire, and a reinforcing layer is formed by braiding a stainless steel wire having a diameter of 0.18 mm on the inner layer material. An outer layer material made of ethylene propylene rubber is laminated with a thickness of 1.5 mm on the outer periphery of the reinforcing layer to form a hose. Thereafter, the front end side of the hose is sealed, and high-pressure water at a pressure of 5 MPa is introduced from the rear end side of the hose into the contact surface between the mandrel wire and the hose to release the contact state between the mandrel wire surface and the hose inner wall surface. As a result, the mandrel wire is extruded by the pressure of the high-pressure water.

  At this time, the time until the mandrel wire was extracted from the hose was measured, and the extractability was evaluated. Moreover, the hose inner surface was visually observed and the smoothness of the hose inner surface was confirmed. The smoothness was defined as “good” when the hose inner surface was completely smooth, “good” when the hose inner surface was slightly rough, and “impossible” when the hose inner surface had an obvious convex portion. These evaluation results are shown in Table 1 as Embodiment 1.

  Moreover, what changed the abrasive | polishing agent kind and roll pressure of a roll suitably were set as Embodiment 2-5, and the extraction property evaluation and the smoothness of the hose inner surface were confirmed. It shows in Table 1 together with the conditions which changed these evaluation results. In addition, a configuration in which no roll is used and no concave portion is formed on the resin-coated surface is referred to as comparative embodiment 1, and a configuration in which rotation of the roll is fixed and a continuous groove is provided on the resin-coated surface is referred to as comparative embodiment 2. The evaluation of the pullability and the smoothness of the hose inner surface were confirmed. These evaluation results are shown together in Table 1.

  As shown in Table 1, the mandrel wire according to the embodiment of the present invention could be extracted from the hose in a short time, and the inner surface of the hose could be smooth. On the other hand, the mandrel wire according to Comparative Example 2 requires a long time to be extracted from the hose, and in particular, Comparative Example 1 cannot be extracted from the hose and is insufficient for practical use. It was.

  Further, comparing Embodiments 1 and 2 with Embodiment 4, Embodiment 4 in which the depth of the recess is shallower than the preferred range was a practically sufficient range, but the time until it was extracted from the hose It was a little longer. Further, when the first and third embodiments are compared with the fifth embodiment, the fifth embodiment in which the depth of the concave portion is deeper than the preferred range is a practically sufficient range, but a slight convexity is formed on the inner surface of the hose. Department was seen.

  As described above in detail, according to the mandrel wire of the present invention, the mandrel wire can be efficiently extracted from the hose body after the hose is manufactured. Such a mandrel wire can be suitably used for manufacturing, for example, a pressure hose used for construction machinery, automobile parts, and the like, a hose for conveying water at a high pressure, and the like.

It is a figure which shows embodiment of this invention, and is a side view which notches the structure of a mandrel line | wire and shows it partially. It is a figure which shows embodiment of this invention, and is a schematic side view which shows the structure of a mandrel wire manufacturing apparatus. It is a figure which shows embodiment of this invention, and is a schematic plan view which shows the structure of a mandrel wire manufacturing apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Mandrel wire 2 Core wire 3 Resin coating 11 Extruder 12 Cooling tank 13 Heating furnace 14a-d Roll

Claims (6)

In a mandrel wire for manufacturing a hose comprising a core wire and a resin coating coated on the outer periphery of the core wire,
A mandrel wire for producing a hose, wherein a discontinuous recess is provided on the surface of the resin coating. The mandrel wire for producing a hose according to claim 1, wherein the depth of the concave portion of the resin coating is 60 µm to 150 µm. The mandrel wire for manufacturing a hose according to claim 1 or 2, wherein the resin coating is a fluororesin. The mandrel wire for producing a hose according to claim 3, wherein the resin coating is a tetrafluoroethylene-6fluoropropylene copolymer. The mandrel wire for manufacturing a hose according to claim 1, wherein the core wire is a stranded wire of a hard stainless steel wire. After coating the outer periphery of the core wire with a resin coating to make a mandrel wire, and holding the mandrel wire near the melting temperature of the resin coating, continuously, at least the surface provided with # 240- # 600 abrasive according to JIS R6001 A method for producing a mandrel wire for producing a hose that allows the mandrel wire to pass between a pair of rolls.

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