JP2016086534A - Tubular protective member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a tubular protective member having an internal space that can be ensured reliably, even if it is bent.SOLUTION: A tubular protective member 100A for housing and protecting an elongated component, e.g., electrical wiring, is constituted by winding a strip material 200. Recesses 110A and protrusions 120A are formed alternately and repeatedly in the strip material 200 thus wound, in the longitudinal direction, and the recess 110A and protrusion 120A are formed in the opposite phase on the adjoining surfaces.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a tube-shaped protective member for protecting an elongated part such as an electric wiring or a tube.

For example, in an automobile, many electric wirings are routed. In many cases, the electrical wiring is housed in a tube-shaped protective member and routed in order to prevent damage due to wear or pinching.
Since it is difficult to protect the existing electrical wiring that has already been routed when it is in a tube shape, for example, as shown in Japanese Patent Application Laid-Open No. 11-121969, protection for winding a single strip material into a tube shape Members are often used. However, the device disclosed in Japanese Patent Application Laid-Open No. 11-121696 is very unusable because it must be wound around electric wiring. As an improvement in the usability, there is a tube-shaped protective member made of a strip-like material using a material that self-shrinks in the short direction. Since such a tube-shaped protective member naturally rounds into a tube-shaped member having a slit, electrical wiring and the like can be stored by being pushed inward from the slit of the tube-shaped protective member, so that the usability is improved.
Moreover, if the said strip | belt-shaped material is a tube-shaped protection member comprised from the thread | yarn which has electroconductivity, the function as an electromagnetic wave shielding material will also be exhibited.

Japanese Patent Laid-Open No. 11-121969

  However, the above-described tube-shaped protective member is folded in a wedge shape at the bent portion, and as a result, the internal space for storing the electrical wiring or the like may be blocked. Then, since electrical wiring etc. will protrude from a tube-shaped protection member, the function as an electromagnetic wave shielding material will be impaired. Moreover, even if it is not an electromagnetic wave shield type, the function of protecting from damage will not be able to be exhibited because an electric wiring etc. protrude.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a tubular protective member that can ensure an internal space even if it is bent.

  The tube-shaped protection member according to the present invention is a tube-shaped protection member that houses and protects an elongated part, and is configured by winding a single band-shaped material, and the wound band-shaped material has a longitudinal direction. The recessed part and convex part which are repeated along are formed.

  In addition, in a state where the belt-shaped material is wound, the peripheral surface is divided into an even number of surfaces in the longitudinal direction, and concave and convex portions are alternately formed on each surface, and the concave and convex portions are reversed on adjacent surfaces. Formed in phase.

  Further, as the strip material, a filament yarn that contracts due to an external factor wound in the short direction is used.

  Another tubular protective member according to the present invention is a tubular protective member that accommodates and protects an elongated part, and is a single tubular member that is formed with a concave portion and a convex portion that are repeated along the longitudinal direction. Has been.

  Further, the cylindrical member is formed by dividing the circumferential surface into an even number of surfaces in the longitudinal direction, alternately forming recesses and projections on each surface, and forming recesses and projections in opposite phases on adjacent surfaces. Yes.

  The tube-shaped protection member according to the present invention is a tube-shaped protection member that houses and protects an elongated part, and is configured by winding a single band-shaped material, and the wound band-shaped material has a longitudinal direction. Since the concave and convex portions that are repeated along are formed, it will bend in the concave portion when it is bent, but the concave portion located outside at the bending position protrudes outward, and the convex portion at the bending position remains almost as it is Therefore, the internal space in which the electrical wiring or the like is to be wrapped and stored is not blocked.

It is a schematic perspective view which shows the tube-shaped protection member which concerns on embodiment of this invention. It is a schematic perspective view which shows the state which expanded the strip | belt-shaped raw material which comprises the tube-shaped protection member which concerns on embodiment of this invention. It is a schematic perspective view which shows the manufacturing process of the tube-shaped protection member which concerns on embodiment of this invention. It is a schematic perspective view which shows the manufacturing process of the tube-shaped protection member which concerns on embodiment of this invention. It is a schematic perspective view which shows the manufacturing process of the tube-shaped protection member which concerns on embodiment of this invention. It is a schematic front view which shows the manufacturing process of the tube-shaped protection member which concerns on embodiment of this invention. It is a schematic perspective view which shows the manufacturing process of the tube-shaped protection member which concerns on embodiment of this invention. It is a schematic side view for demonstrating that internal space is not obstruct | occluded even if the tube-shaped protection member which concerns on embodiment of this invention bends.

  The tubular protective member 100A according to the embodiment of the present invention is a tubular protective member that houses and protects an elongated part, and is configured by winding a single strip-shaped material 200, and wound. The belt-shaped material 200 is formed with concave portions 110A and convex portions 120A that are repeated along the longitudinal direction.

As shown in FIG. 2, the belt-like material 200 is a belt-like mesh-like material. For example, the warp yarn is a non-shrinkable yarn and the weft yarn is a filament yarn that shrinks due to an external factor. Accordingly, the belt-shaped material 200 is rolled into a double winding by the shape retention force of the weft and becomes a tubular protective member 100A.
In the description of the present specification, the longitudinal direction of the strip-shaped material 200 is the vertical direction, and the short direction is the horizontal direction. Accordingly, the warp yarns constituting the belt-shaped material 200 are along the longitudinal direction, and the weft yarns are along the short direction.

As shown in FIG. 1, the tubular protective member 100 </ b> A is formed in a substantially rectangular tube shape whose peripheral surface is divided into four surfaces 130, 131, 132, and 133. On each surface 130, 131, 132, 133, concave portions 110A and convex portions 120A are alternately formed.
Moreover, in the adjacent surfaces, that is, the surfaces 130 and 131, the surfaces 131 and 132, the surfaces 132 and 133, and the surfaces 133 and 130, the concave portions 110A and the convex portions 120A are formed in opposite phases.
Therefore, as shown in FIG. 2, when the tubular protective member 100A is expanded and returned to the strip-shaped material 200, the eight lines L1 to L1 are alternately repeated in the longitudinal direction with the concave-shaped concave portions 110A and the convex portions 120A. You can see that L8 is shaped.

Such concave portions 110A and convex portions 120A are formed as follows.
First, a flat belt-shaped material 200 in which the concave portion 110A and the convex portion 120A are not formed is prepared. As the weft yarn of the belt-shaped material 200, one that self-shrinks when heated, that is, a filament yarn that shrinks due to an external factor is used.

As shown in FIG. 3, the flat belt-like member 200 is heated on a heating device 300 in which a plurality of bar heaters 310 are installed in parallel. Then, as shown in FIG. 4, the weft yarn contracts, so that the belt-shaped material 200 is rolled into a double winding as shown in FIG. 5 to become a cylindrical shape.
At the time when the strip-shaped material 200 is rounded, the portion with which the rod-shaped heater 310 is in contact is recessed inward by being heated, as shown in FIG. This recessed portion becomes a recess 110A. And since the part located between the rod-shaped heater 310 and the rod-shaped heater 310 does not dent, it becomes the convex part 120A. Thus, the concave portions 110A and the convex portions 120A are alternately formed on the surface 130.
Note that the heating temperature, the heating time, and the like by the rod heater 310 are appropriately determined depending on the specification of the yarn or the like constituting the belt-shaped material 200.

Next, the band-shaped material 200 in which the concave portions 110A and the convex portions 120A are formed is placed on the rod-shaped heater 310 of the heating device 300 with the surface 130 on which the concave portions 110A and the convex portions 120A are formed facing upward. Then, as shown in FIG. 6C, a recess 110A is newly formed on the surface 132 at a position facing the recess 110A already formed on the surface 130.
Therefore, when the concave surface 110A is formed on one surface of the opposing surfaces 130 and 132, that is, the surfaces that are not adjacent to each other, the concave portion 110A is formed at the same position on the other surface, and the convex surface is protruded on one surface. If the portion 120A is formed, the convex portion 120A is also formed at the same place on the other surface.

Next, as shown in FIG. 7, the strip-shaped material 200 in which the concave portions 110 </ b> A and the convex portions 120 </ b> A are alternately formed on the two opposed surfaces 130 and 132 is placed on the rod-shaped heater 310 of the heating apparatus 300. At that time, the surface 131 on which the concave portion 110 </ b> A and the convex portion 120 </ b> A are not yet formed is placed on the rod-shaped heater 310. In addition, the belt-shaped material 200 is placed so that the rod-shaped heater 310 is in contact with the corresponding portion between the concave portion 110A and the convex portion 120A already formed on the surfaces 130 and 132. This process is performed on the two faces 131 and 133 facing each other.
Thereby, as shown in FIG. 1, the tubular protective member 100A in which the concave portions 110A and the convex portions 120A are formed in opposite phases on the adjacent surfaces is completed.

In the above-described embodiment, the weft yarn of the belt-like material 200 is a self-shrinking yarn that shrinks when heated, that is, a filament yarn that shrinks due to an external factor, but self-shrinks regardless of heating. Needless to say, the type may be used.
In this case, the strip-shaped material 200 that has already been rounded into a cylindrical shape is placed on the rod-shaped heater 310 of the heating device 300.

Even if the tubular protective member 100A configured as described above is folded because the concave portion 110A and the convex portion 120A are repeated, as shown in FIG. 8, the concave portion located inside the folded direction. Bend at 110A. Then, the concave portion 110A located outside at the bent position protrudes outward, and the convex portion 120A at the bent position is maintained almost as it is, so that the internal space in which the electric wiring or the like is enclosed and stored is closed. There is nothing. For this reason, electrical wiring or the like does not protrude from the tubular protective member 100A.
Therefore, the function as an electromagnetic wave shielding material is not impaired as long as the tubular protective member 100A uses the belt-shaped material 200 made of conductive yarn.

  In addition, since the strip-shaped material 200 is rounded into a tube shape, the tube-shaped protection member 100A can be securely wrapped even if it is an existing electric wiring or the like. In addition, the tubular protective member 100A does not block the internal space even if it is bent, so it can be used even with existing electrical wiring and the like that are arranged in a winding manner.

  In addition, although the tubular protective member 100A according to the above-described embodiment is formed in a substantially rectangular tube shape, other shapes such as a substantially triangular tube shape, a substantially pentagonal shape, and a substantially hexagonal tube shape are possible as long as the tube shape is tubular. Needless to say, it may be in a shape.

  Further, in the tubular protective member 100A according to the above-described embodiment, the band-shaped material 200 is rounded into a cylindrical shape by being wound in a double winding, but may be a single winding or a triple winding or more. . However, it is considered that the double winding is the most desirable from the viewpoints of protection of the electric wiring and the like housed in the internal space, ease of bending of the tubular protective member 100A, cost, and the like.

  In the above description, when the strip-shaped material 200 is heated by the rod-shaped heater 310, nothing is interposed in the inner space of the round strip-shaped material 200. However, a rod-shaped heater is also provided in a portion corresponding to the inner space. The inner space may be surely formed in the tubular protective member 100A. In this case, the bar heater positioned in the portion corresponding to the internal space is arranged orthogonal to the above-described plurality of bar heaters 310.

The tubular protective member 100A according to the above-described embodiment is formed by rounding the strip-shaped material 200 into a cylindrical shape, but the present invention is not limited to this.
For example, you may make it form the recessed part and convex part which are repeated along a longitudinal direction with respect to the one cylindrical member made into the cylinder shape from the beginning.
This cylindrical member divides the circumferential surface into an even number of surfaces in the longitudinal direction, alternately forming recesses and projections on each surface, and forming the recesses and projections in opposite phases on adjacent surfaces, It is equivalent to what was mentioned above.

In addition, in the case of a tube-shaped protective member made of this cylindrical member, if a single slit is formed in advance along the longitudinal direction, electrical wiring and the like can be accommodated from this slit, so it is already arranged. It is also possible to deal with electrical wiring and the like.
Further, if a material having an electromagnetic wave shielding performance is used as the material constituting the tubular protective member made of the cylindrical member, it is possible to provide the electromagnetic wave shielding performance.

  Furthermore, although the electrical wiring is taken as an example of the elongated part housed in the tubular protective member 100A, it may be an elongated part other than the electrical wiring, for example, a pipe that circulates fluid such as operation oil. Needless to say.

100A Tubular protective member 110A Concave portion 120A Convex portion 200 Strip material

Claims (7)

  In a tube-shaped protective member that houses and protects an elongated part, it is configured by winding a single strip-shaped material, and the wound strip-shaped material is formed with concave and convex portions that are repeated along the longitudinal direction. A tubular protective member characterized by comprising:   The belt-shaped material is wound, and the circumferential surface is divided into an even number of surfaces in the longitudinal direction, and concave and convex portions are alternately formed on each surface, and the concave and convex portions are reversed in phase on adjacent surfaces. The tubular protective member according to claim 1, wherein the tubular protective member is formed.   The tube-shaped protective member according to claim 1 or 2, wherein a filament yarn that contracts due to an external factor wound in the short-side direction is used as the band-shaped material.   The tubular protective member according to any one of claims 1 to 3, comprising a conductive material as a constituent element.   A tubular protective member for storing and protecting elongate parts, wherein the tubular protective member is a single cylindrical member, and is formed with concave and convex portions that are repeated along the longitudinal direction.   The said cylindrical member divides | segments a surrounding surface into an even-numbered surface in a longitudinal direction, forms a recessed part and a convex part alternately in each surface, and forms a recessed part and a convex part in an antiphase on an adjacent surface. The tubular protective member according to claim 5.   7. The tubular protective member according to claim 5, wherein the tubular protective member comprises a conductive material as a constituent element.

Images