JP2008118773A - Protector structure and manufacturing method for protector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a protector structure which can attain man-hour reduction to improve work efficiency and is advantageous in cost, and a manufacturing method for the protector. <P>SOLUTION: In a protector structure, a protector is fitted to the outside of a wire harness 30 having a plurality of electric wires 31. The manufacturing method for the protector comprises inserting the electric wires 31 inside of a protector base material cylindrically formed of a thermoplastic resin, and heating the bent positions 14, 15 of the protector base material to bend and form the heated bent positions 14, 15. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a protector assembled on the outside of a wire harness having a plurality of electric wires, and more particularly to a protector structure having a bent portion according to wiring and a method of manufacturing the protector.

  As an example of the protector structure, as shown in FIG. 7, the bottom walls 53, 54 of the two storage chambers 51, 52 are foldably connected by a bent portion 55, and a lid portion is connected to the two storage chambers 51, 52. A protector 50 having a curved lid portion 59 that is bent along a wire harness 58 between the lid portions 56 and 57 is known (see, for example, Patent Document 1).

JP 2003-134634 A

  However, since the protector 50 disclosed in Patent Document 1 is molded in a predetermined shape in advance, a large number of man-hours are required for component management. Further, since the mold can be complicated on the molding surface because of its complicated shape, it requires a large capital investment, which is disadvantageous in terms of cost, and after the wire harness 58 is accommodated, the lid portions 56 and 57. Since it must be fixed with a lock etc., workability | operativity is not favorable.

  The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide a protector structure and a protector manufacturing method that can reduce man-hours, are advantageous in cost, and can improve workability. There is to do.

  1) The protector structure which concerns on this invention is a protector structure assembled | attached to the outer side of an electric wire, Comprising: After the said electric wire is penetrated inside the protector base material formed in the cylindrical shape with resin, this protector structure according to wiring The bent position of the protector base material is heated, and the heated bent position is bent and formed.

  According to the invention described in 1) above, since the protector is formed by bending the protector base material through which the electric wire is inserted, it is necessary to form the protector in a predetermined shape as in the conventional case. Since there is no need for a lot of man-hours for parts management. Moreover, since it is a bending molding, it is not necessary to use a complicated mold, which is advantageous in terms of cost. And since a lock | rock etc. are not required, workability | operativity can be made favorable.

  2) Moreover, the manufacturing method of the protector which concerns on this invention is a manufacturing method of the protector assembled | attached to the outer side of an electric wire, Comprising: The process of inserting the said electric wire inside the protector base material formed in the cylinder shape with resin, The method includes a step of heating a bent position of the protector base material according to wiring, and a step of bending the heated bent position.

  According to the invention described in 2) above, the step of heating the bending position of the protector base material according to the routing and the step of bending the heated bending position can be performed with equipment equivalent to the conventional one. Therefore, it can be advantageously manufactured in terms of cost without requiring new capital investment.

  3) Further, the protector structure according to the present invention is a protector structure assembled to the outside of the electric wire, and at least in a bent position after the electric wire is inserted inside the protector base material formed into a cylindrical shape by the resin. The protector base material mixed with a heat source that generates heat upon irradiation with light is irradiated with light so that the bent position is bent.

  According to the invention described in 3) above, the protector is provided with the bent position of the protector base material in which a heat source that generates heat upon irradiation with light is mixed in at least the bent position of the protector base material through which the electric wire is inserted. Since the resin material is irradiated with light (for example, infrared light), the bent position is bent and formed, so that it is not necessary to mold into a predetermined shape in advance as in the conventional case. Does not require man-hours. Further, there is no need to use a complicated mold, which is advantageous in terms of cost. And since a lock | rock etc. are not required, workability | operativity can be made favorable.

  4) Moreover, the manufacturing method of the protector which concerns on this invention includes the process of inserting the said electric wire inside the protector base material formed in the cylindrical shape with resin, and the heat generating source which generates heat by light irradiation at least at the bending position Including a step of irradiating the resin material at the bent position of the protector base material mixed with light and a step of bending the bent position.

  According to the invention described in 4) above, light (for example, infrared light) is irradiated to the resin material at the bent position of the protector base material in which a heat source that generates heat upon irradiation with light is mixed at least at the bent position. And the step of bending the bending position, the resin material can be bent only at the required position, so that the resin material can be used without waste and high-efficiency manufacturing can be performed. be able to.

  According to the protector structure and the protector manufacturing method of the present invention, it solves the problems that parts management requires a large number of man-hours, requires a large amount of capital investment, is disadvantageous in terms of cost, and has poor workability. Thus, the man-hours can be reduced, the cost is advantageous, and the workability can be improved.

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

(First embodiment)
1 to 4 show a first embodiment of a protector structure and a method of manufacturing a protector according to the present invention, and FIG. 1 is an external perspective view of the protector using the protector structure according to the first embodiment of the present invention. 2 is an external perspective view of a process of inserting a wire in the protector manufacturing method, FIG. 3 is an external perspective view of a heating process in the protector manufacturing method, and FIG. 4 is an external perspective view of a bending process in the protector manufacturing method. .

  As shown in FIG. 1, a protector 10 using the protector structure according to the first embodiment of the present invention is formed by bending a thermoplastic resin after heating so that one end side cylindrical portion 11, a central side cylindrical portion 12, and the like. The end side cylinder part 13, the 1st bending part 14, and the 2nd bending part 15 are continuously formed in the cylinder shape, and the electric wire 31 of the wire harness 30 is inserted inside these. Here, the thermoplastic resin means that each part of the chain polymer molecule starts to move to some extent by heat energy and becomes fluid with each other, and softening occurs. Is a polymer material that loses its fluidity and solidifies.

  The first bent portion 14 is disposed between the one end side cylindrical portion 11 and the central side cylindrical portion 12 that are horizontally disposed, and the central side cylindrical portion 12 is obliquely upward from the end portion of the one end side cylindrical portion 11. It is bent toward

  The second bent portion 15 is disposed between the end portion of the central side cylinder portion 12 and the other end side cylinder portion 13 that are bent obliquely upward by the first bent portion 14, and the other end side cylinder. The portion 13 is bent horizontally from the end of the central cylinder portion 12.

  Next, a method for manufacturing the protector 10 will be described with reference to FIGS.

  As shown in FIG. 2, a protector base material 16 made using a thermoplastic resin is prepared in the step of inserting the electric wire in the manufacturing method of the protector 10. The protector base material 16 has a rectangular cylindrical shape and is linearly formed. And the electric wire 31 is penetrated in the electric wire accommodating part 17 currently formed inside the protector base material 16. FIG. The protector base material 16 has a first bent portion 14 set near one end and a second bent portion 15 set near the other end in accordance with the routing.

  As shown in FIG. 3, in the heating process of the manufacturing method of the protector 10, the 1st bending part 14 and the 2nd bending part 15 of the protector base material 16 are heated. For the heating, a heating device 18 which is an annular heater is used. The heating device 18 is electrically connected to a heating control circuit (not shown) and is mechanically coupled to the slide moving means. Therefore, the heating device 18 is externally attached to the protector base material 16 and then moved by the slide moving means. The first bent portion 14 and the second bent portion 15 are moved, and the first bent portion 14 and the second bent portion 15 are heated by a control signal given from the heating control circuit at each position. The first bent portion 14 and the second bent portion 15 begin to soften by heating. The heating device 18 may use a fluid instead of the electrical means as described above.

  As shown in FIG. 4, in the bending process of the manufacturing method of the protector 10, the 1st bending part 14 and the 2nd bending part 15 of the protector base material 16 are bend-molded. For bending, a fixed side jig 19 and a movable side jig 20 are used. The fixed-side jig 19 grips one end side of the protector base material 16, the movable-side jig 20 grips the central portion of the protector base material 16, and the movable-side jig 20 is against the fixed-side jig 19. It is raised upward in a circular orbit. As a result, the protector base material 16 has the one end side cylindrical portion 11 formed on one end side, and the other end side is bent upward and obliquely upward via the first bent portion 14 at the end portion of the one end side cylindrical portion 11. Further, the protector 10 shown in FIG. 1 is formed.

  Then, the fixed side jig 19 grips the central portion of the protector base material 16 that is bent obliquely upward, and the movable side jig 20 grips the other end side of the protector base material 16 to move the protector base material 16. The side jig 20 is lowered with a circular path downward with respect to the fixed side jig 19. Thereby, the other end side cylinder part 13 is formed in the other end side, and the protector base material 16 is bend | folded and formed toward the diagonally downward direction via the 2nd bending part 15 in the edge part of this other end side cylinder part 13. FIG. A central cylinder portion 12 is formed.

  Thus, the protector 10 is easily manufactured in a three-dimensional shape from the state in which the electric wire 31 is inserted only by being bent after heating.

  As described above, according to the protector structure of the present embodiment, the protector 10 is formed by bending the first bent portion 14 and the second bent portion 15 of the protector base material 16 through which the electric wire 31 is inserted. In addition, unlike the conventional one, it is not necessary to form in a predetermined shape in advance, so that a lot of man-hours are not required for component management. Further, there is no need to use a complicated mold, which is advantageous in terms of cost. And since a lock | rock etc. are not required, workability | operativity can be made favorable.

  Moreover, according to the manufacturing method of the protector 10 of this embodiment, the heating process which heats the 1st bending part 14 and the 2nd bending part 15 of the protector base material 16 according to routing, and the heated 1st bending Since the bending step of bending the portion 14 and the second bent portion 15 can be performed with the same equipment as the conventional one, it is advantageous to manufacture in terms of cost without requiring a new equipment investment. Can do.

(Second Embodiment)
Next, with reference to FIG.5 and FIG.6, 2nd Embodiment of the protector structure of this invention and the manufacturing method of a protector is described. FIG. 5 is an external perspective view of a process of inserting a wire in a protector manufacturing method according to the second embodiment of the present invention, and FIG. 6 is an external perspective view of a heating process of the protector manufacturing method. Note that, in the following second embodiment, components that are the same as those in the above-described first embodiment, functionally similar components, and the like are simplified by adding the same reference signs or equivalent signs in the drawings, or Omitted.

  As shown in FIG. 5, in the step of inserting the electric wire of the manufacturing method of the protector 10 according to the second embodiment of the present invention, the first bent portion 14 and the second bent portion 15 of the protector base material 16 are previously light ( For example, the resin material 40 is mixed with a heat source such as carbon that generates heat upon irradiation with infrared light. An electric wire 31 is inserted into the protector base material 16.

  As shown in FIG. 6, in the heating process of the manufacturing method of the protector 10, the light 43 from the laser irradiation port 42 is applied to the first bent portion 14 and the second bent portion 15 of the protector base material 16 molded with the resin material 40. (For example, infrared light) is irradiated. The laser irradiation port 42 is electrically connected to a laser generating unit (not shown) and is moved in the cylindrical direction of the protector base material 16 by an irradiation port moving unit (not shown). The light 43 is irradiated, and the resin material 40 starts to melt. The irradiation of the light 43 is for a short time, for example, about several seconds to several tens of seconds.

  In the manufacturing method of the protector 10 of this embodiment, since the subsequent bending process is performed in the same manner as in the first embodiment, the description thereof is omitted, but the resin forming the first bent portion 14 and the second bent portion 15 is used. The first bent portion 14 and the second bent portion 15 are softened by the heat generation of the material 40, and are bent and formed, so that the one end side cylinder portion 11, the center side cylinder portion 12, and the other end side cylinder portion 13 shown in FIG. Is formed. Alternatively, the entire protector base material 16 may be formed of the resin material 40 so that only the first bent portion 14 and the second bent portion 15 that need to be bent are irradiated with the light 43.

  According to the protector structure of the present embodiment, the protector 10 includes the resin material 40 in which at least the first bent portion 14 and the second bent portion 15 of the protector base material 16 through which the electric wire 31 is inserted are mixed with a heat generation source. The first bent portion 14 and the second bent portion 15 can be bent and formed by irradiating the first bent portion 14 and the second bent portion 15 with light 43. As a result, unlike the conventional one, it is not necessary to form in a predetermined shape in advance, so that many man-hours are not required for component management. Moreover, since it is a bending molding, it is not necessary to use a complicated mold, which is advantageous in terms of cost. And since a lock | rock etc. are not required, workability | operativity can be made favorable.

  Further, according to the manufacturing method of the protector 10 of the present embodiment, at least the first bent portion 14 and the second bent portion 15 of the protector base material 16 are molded with the resin material 40 mixed with a heat source, and the protector base material 16 is formed. A step of inserting an electric wire into the material 16, a heating step of irradiating the first bent portion 14 and the second bent portion 15 with light 43, and a bending for bending the first bent portion 14 and the second bent portion 15. By performing the steps, the resin material 40 can be molded and bent only at a required position, so that the resin material 40 can be used without waste and highly efficient production can be performed.

  In addition, this invention is not limited to embodiment mentioned above, A deformation | transformation, improvement, etc. are possible suitably. In addition, the material, shape, dimension, numerical value, form, number, arrangement location, and the like of each component in the above-described embodiment are arbitrary and are not limited as long as the present invention can be achieved.

  For example, the position of the bent portion is merely an example, and in addition to the illustrated bending in the vertical direction, the bending in the horizontal direction is easy, and the three-dimensional routing can be easily handled.

  In addition, instead of the two illustrated wires, even if a plurality of wires such as three or four are used, a portion necessary for wiring can be bent.

  Further, the protector type may be any of the extraction integrated type, the main body cover separation type, and the hinge cover type.

It is an appearance perspective view of a protector using a protector structure concerning a 1st embodiment of the present invention. It is an external appearance perspective view of the process of inserting the electric wire in the manufacturing method of a protector. It is an external appearance perspective view of the heating process in the manufacturing method of a protector. It is an external appearance perspective view of the bending process in the manufacturing method of a protector. It is an external appearance perspective view of the process of inserting the electric wire of the manufacturing method of the protector concerning a 2nd embodiment of the present invention. It is an external appearance perspective view of the heating process of the manufacturing method of a protector. It is a general-view figure of the conventional protector structure.

Explanation of symbols

10 Protector 14 1st bending part (bending position)
15 2nd bending part (bending position)
16 Protector base material 31 Electric wire 40 Resin material

Claims (4)

A protector structure assembled to the outside of the electric wire,
After the electric wire is inserted inside the protector base material formed into a cylindrical shape by resin, the bent position of the protector base material is heated according to the wiring, and the heated bent position is bent and formed. A protector structure characterized by that. A manufacturing method of a protector assembled on the outside of an electric wire,
A step of inserting the electric wire into the inside of the protector base material formed into a cylindrical shape with resin;
Heating the bent position of the protector base material according to the routing;
A step of bending the heated bending position;
The manufacturing method of the protector characterized by including. A protector structure assembled to the outside of the electric wire,
A resin at the bent position of the protector base material in which a heat source that generates heat upon irradiation with light is mixed at least in a bent position after the wire is inserted inside the protector base material formed into a cylindrical shape by resin. A protector structure, wherein a material is irradiated with light and the bent position is bent. A step of inserting the electric wire into the inside of the protector base material formed into a cylindrical shape with resin;
Irradiating light to the resin material at the bent position of the protector base material mixed with a heat source that generates heat upon irradiation with light at least at the bent position;
A step of bending the bending position;
The manufacturing method of the protector characterized by including.

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