CN208184505U - The driving device of opening/closing body for vehicle - Google Patents

Abstract

The utility model provides the manufacturing method of the driving device of opening/closing body for vehicle and the driving device of opening/closing body for vehicle.Driving device is as the receiving component of receiving wire rod winding unit, a part of the wire guide component with wire guide slot is formed, in the outer cylinder insertion section of the end insertion for the outer cylinder for having wire rod for internal insert, it is provided with insert portion opening, is penetrated through towards the radial direction of outer cylinder；Anti-delinking part prevents outer cylinder from deviating from from insert portion opening；And through hole, it is located at the radial position opposed with anti-delinking part.In receiving component, in the receiving portion of receiving wire rod winding unit, it is formed in the receiving portion opening for forming opening in the same direction with any one of insert portion opening and through hole.In wire rod guide member, is formed in wire rod guiding groove and be continuously open with insert portion opening.Thereby, it is possible to use the mould of the opening direction relative movement along the insert portion opening direction and through hole of outer cylinder insertion section to readily produce receiving component, wire guide component, productivity is improved.

Description

The driving device of opening/closing body for vehicle

Technical field

The utility model relates to be equipped on the driving device of the open-close body of vehicle.

Background technique

In automobiles opening and closings such as the glass-frame riser for making lifting glass for vehicle window, the gate operating locks for making sliding sliding door opening and closing Mostly used in the driving device of body by operation with wire rod be inserted through tubulose outer cylinder inside, in such a way that wire rod can retreat Guide line material and the construction that open-close body (glass for vehicle window, sliding sliding door) is driven by mobile wire rod.Outer cylinder with for wound skein product Cylinder, accommodate component, the wire guide component of guiding groove with guide line material etc. for supporting to rotate by belt wheel connect.

Patent document 1: Japanese Unexamined Patent Publication 2007-315101 bulletin.

This receiving component, wire guide component have the outer cylinder insertion section of the end insertion for outer cylinder.Outer cylinder insertion section It is the concave part being inserted into the axial direction for outer cylinder, receiving component, wire rod is being drawn using the mold moved along prescribed direction When leading component and being formed, (inserted if the recessed direction of outer cylinder insertion section towards the direction different from the parting direction of the mold Enter the axis direction of the outer cylinder of outer cylinder insertion section) form, then need the other molds mobile to the recessed direction, and deposit The problem of the number of working processes when mold structure is complicated and shaped increases.

Utility model content

The utility model is generated in view of problem above, and it is an object of the present invention to provide productivity excellent opening/closing body for vehicle Driving device and its manufacturing method.

The utility model is as follows by the driving device for the opening/closing body for vehicle for driving wire rod to be opened and closed open-close body For object, have: outer cylinder, in inside, insert has wire rod；Winding unit, wound skein product；And receiving component, it will winding Component is contained in receiving portion, and outer cylinder insertion section is inserted into the end of outer cylinder.Winding unit is by with can be with towards up and down direction Rotation axis centered on the mode that rotates be supported on the receiving portion of receiving component, the end of outer cylinder with up and down direction along intersecting Direction is inserted into relative to outer cylinder insertion section.Accommodating component, cylinder insertion section is being accommodated with insert portion opening upward outside Portion has upward or the receiving portion of lower section is open.Prevent outer cylinder upward from insert portion opening moreover, outer cylinder insertion section has The anti-delinking part and the through hole opposed with anti-delinking part in lower section, outer cylinder insertion section just deviate from are configured to, and observe towards up and down direction, Anti-delinking part is located at the position being accommodated within the scope of the shape of through hole.

The utility model is also as follows by the driving device for the opening/closing body for vehicle for driving wire rod to be opened and closed open-close body For object, have: outer cylinder, in inside, insert has wire rod；Wire guide component by guiding groove guide line material, and makes outer Outer cylinder insertion section is inserted into the end of cylinder.First direction of the wire guide component in the radial direction that outer cylinder insertion section has towards outer cylinder Insert portion opening, with the insert portion opening continuously guiding groove formed be open.Also, outer cylinder insertion section includes anti-delinking part, It prevents outer cylinder from deviating from from insert portion opening to first direction；And through hole, in a second direction that is opposite the first direction Opposed with anti-delinking part, outer cylinder insertion section is configured to, and observes towards first direction, and anti-delinking part is located at the shape model for being accommodated in through hole Enclose interior position.

Preferably, the through hole for being set to outer cylinder insertion section has in a pair of of the edge part of outer cylinder radially separated, should The interval of a pair of of edge part is set smaller than the diameter of outer cylinder.

It can be set as two anti-delinking parts being arranged in the two sides of insert portion opening, in place in outer cylinder insertion section such as under type In the two sides of the bridge part in lower section (or second direction) position opposed with insert portion opening, two through holes are set.

Can be in outer cylinder insertion section, in region not Chong Die with insert portion opening and through hole, outer cylinder insertion is surrounded in setting The rib of the outer peripheral portion in portion.

The utility model also drives wire rod with winding unit rotation come the drive for the opening/closing body for vehicle for being opened and closed open-close body The manufacturing method of dynamic device is object, and the driving device of the opening/closing body for vehicle includes outer cylinder, and in inside, insert has wire rod； Winding unit, wound skein product；And receiving component, winding unit is contained in receiving portion, and outer cylinder is inserted into the end of outer cylinder Insertion section.Winding unit is supported on receiving component in the way of it can rotate centered on the rotation axis towards up and down direction Receiving portion, the end of outer cylinder on the direction intersected with up and down direction relative to outer cylinder insertion section be inserted into.The utility model Manufacturing method has upper die and lower die that are close along the vertical direction or discretely moving and formed receiving component.Outside using upper mold Cylinder insertion section forms insert portion opening upward, and being formed prevents above-mentioned outer cylinder from deviating from upwards from insert portion opening The outer surface of anti-delinking part.Using lower die, the position opposed with anti-delinking part in lower section in outer cylinder insertion section is formed towards up and down Direction observation is in the through hole for the shape being contained in anti-delinking part within the scope of shape, and forms the inner surface of anti-delinking part.In turn Using any of upper die and lower die, is formed upward in receiving portion or the receiving portion of lower opening is open.

According to above the utility model, by outer cylinder insertion section, with prevent outer cylinder from the anti-delinking part pair of opening abjection The position set is provided with through hole, and the freedom degree that thus manufactures improves, can be improved by with outer cylinder insertion section receiving component, Productivity of the wire guide component as the driving device of the opening/closing body for vehicle of constituent element.

Detailed description of the invention

Fig. 1 is the main view for having used the glass-frame riser of the utility model.

Fig. 2 is the rearview of glass-frame riser.

Fig. 3 is the side view of glass-frame riser.

Fig. 4 is to show guidance belt wheel and with the perspective view near wheel carrier bracker.

Fig. 5 is to show guidance belt wheel and with the top view near wheel carrier bracker.

Fig. 6 is the perspective view with wheel carrier bracker.

Fig. 7 is the top view with wheel carrier bracker.

Fig. 8 is the section with wheel carrier bracker for showing the VIII-VIII wire rod along Fig. 7 and the office for forming the mold with wheel carrier bracker The cross-sectional view in portion.

Fig. 9 is the perspective view of cylinder shell.

Figure 10 is the top view of cylinder shell.

Figure 11 is cuing open for the part for the mold for showing the section of the cylinder shell of the XI-XI wire rod along Figure 10 and forming cylinder shell View.

Figure 12 is the top view of wire guide component.

Figure 13 is the figure of the XIII arrow observation wire rod guide member along Figure 12.

Figure 14 is the figure of the XIV arrow observation wire rod guide member along Figure 12.

Figure 15 is the figure of the XV arrow observation wire rod guide member along Figure 12.

Figure 16 is the cross-sectional view of the wire guide component of the XVI-XVI wire rod along Figure 15.

Figure 17 is section and the formation wire guide component for showing the wire guide component of the XVII-XVII wire rod along Figure 16 Mold part cross-sectional view.

Figure 18 be along Fig. 7 XVIII-XVIII wire rod show in outer cylinder insertion section with recess portion type belt wheel The cross-sectional view of bracket.

Specific embodiment

In the following, the driving device of the opening/closing body for vehicle as the utility model, illustrate for being open to the window for making car door The embodiment that the glass-frame riser that the glass for vehicle window (open-close body) of opening and closing is driven uses.Fig. 1 is to glass liter shown in Fig. 3 Drop device 10 is installed in the door skin (illustration omitted) of vehicle, goes up and down glass for vehicle window (illustration omitted).Fig. 3 is shown with arrow Glass-frame riser 10 is installed on to the direction in the vehicle outside and interior side in the state of the car door of vehicle.Glass-frame riser 10 has There is elongate members i.e. guide rail 11, guide rail 11 is fixed on car door by the bracket 12,13 that different location is arranged in the long side direction Panel (inner panel).Under the stationary state, guide rail 11 is matched in a manner of making its longitudinal direction be approximately towards the short transverse of vehicle If.

The slide 14 (glass carrier) of bearing glass for vehicle window is supported to move along the longitudinal direction of guide rail 11.In cunning Seat 14 is connected with the respective one end of a pair of of wire rod 15,16 (Fig. 2).As shown in Figure 4 and Figure 5, in the longitudinal direction of guide rail 11 Adjacent one end is fixed with band wheel carrier bracker (receiving component) 30, and guidance belt wheel (winding unit) 17 is by by band on band wheel carrier bracker 30 Wheel support shaft 19 supports to rotate.Fig. 6 and Fig. 7 shows the belt wheel support shaft 19 for becoming the rotation center of guidance belt wheel 17 Axis 19x.The up and down direction with wheel carrier bracker 30 will be set as along the direction of axis 19x.Wire rod 15 from slide 14 along guide rail 11 to One extreme direction of the guide rail 11 extends, and the wire guide slot on outer peripheral surface by being formed in guidance belt wheel 17 supports.With wire rod 15 Advance and retreat correspondingly, guidance belt wheel 17 rotated centered on axis 19x.The other end in the longitudinal direction of guide rail 11 is attached It closely is provided with wire guide component 18, wire rod 16 extends along guide rail 11 from slide 14 to the other end of the guide rail 11, and by wire rod Guide member 18 guides.Wire guide component 18 is fixed relative to guide rail 11, and wire rod 16 is supported to can be along being formed in wire rod The wire guide slot 90 (Figure 14, Figure 16) of guide member 18 is retreated.

In the outer cylinder 21 that the wire rod 15 drawn from guidance belt wheel 17 is inserted through tubulose, it is wound in the cylinder being connect with outer cylinder 21 The rolling tube (winding unit) 23 being arranged in shell (receiving component) 20, the wire rod 16 drawn from wire guide component 18 are inserted It (is wound in the outer cylinder 22 of tubulose, being wound in the rolling tube being arranged in the cylinder shell (receiving component) 20 connecting with outer cylinder 22 Component) 23.The outer shape of rolling tube 23, the shape on the outer peripheral surface of rolling tube 23 are conceptually illustrated in Figure 10 with double dot dash line At the helicla flute having for the winding of wire rod 15,16.One end of outer cylinder 21 is connect with wheel carrier bracker 30, and the other end and cylinder shell 20 connect It connects, wire rod 15 can slide in the outer cylinder 21 for being prescribed end positions.One end of outer cylinder 22 and wire guide component 18 connect It connects, the other end is connect with cylinder shell 20, and wire rod 16 can slide in the outer cylinder 22 for being prescribed end positions.By outer cylinder 21 In with the end for connecting side with wheel carrier bracker 30 be set as track side end 21a, by outer cylinder 22 with wire guide component 18 The end of the side of connection is set as track side end 22a.In addition, by the end of the side being connect with 20 side of cylinder shell in outer cylinder 21 Portion is set as a side end 21b, and the end of the side connecting with 20 side of cylinder shell in outer cylinder 22 is set as a side end 22b.

Cylinder shell 20 is fixed on door skin (inner panel).Rolling tube 23 is due to the driving force of the motor 25a of motor unit 25 Rotation.When 23 positive and negative rotation of rolling tube, the winding amount that one of wire rod 15,16 is wound to the helicla flute of rolling tube 23 increases Greatly, another one is extracted out from the helicla flute of rolling tube 23, the edge due to relationship of the traction of a pair of wire rod 15,16 and relaxation of slide 14 Guide rail 11 is mobile.Glass for vehicle window is correspondingly gone up and down with the movement of slide 14.

In the following, being illustrated to the band wheel carrier bracker 30, cylinder shell 20 and the wire guide component 18 that are connect with outer cylinder 21,22. As shown in Figures 4 to 7, band wheel carrier bracker 30 has belt wheel receiving portion 31 (receiving portion) and outer cylinder insertion section 32.Belt wheel receiving portion 31 The space impaled by bottom 33 and the cylindric wall 34 formed on its periphery is formed, the opposite side opening of bottom 33 is made For receiving portion opening 31a.It is formed with round hole 35 in bottom 33, belt wheel support shaft 19 passes through round hole 35 to belt wheel receiving portion Prominent in 31, guidance belt wheel 17 is supported in belt wheel receiving portion 31 in a manner of it can rotate by belt wheel support shaft 19.

Outer cylinder insertion section 32 intersects (substantially just from the wall 34 of belt wheel receiving portion 31 towards side, i.e. to axis 19x Hand over) direction it is prominent.The track side end 21a of outer cylinder 21 is inserted into outer cylinder insertion section 32, Fig. 7 shows track side Portion 21a is inserted into axis 32x relative to the direction of insertion that outer cylinder insertion section 32 is inserted into.It will claim along the direction of insertion axis 32x For the axis direction of outer cylinder insertion section 32, the convolution direction centered on being inserted into axis 32x is known as to the week of outer cylinder insertion section 32 To.It is not parallel to be inserted into the axis 32x and axis 19x of belt wheel support shaft 19, as depicted in figs. 1 and 2, in the complete of glass-frame riser 10 At under state, outer cylinder insertion section 32 is prominent from belt wheel receiving portion 31 to the direction of cylinder shell 20.In the inside of outer cylinder insertion section 32 It is formed with the insert slot 36 penetrated through in the axial direction.Insert slot 36 includes narrow slot portion 36a, connects from the inner peripheral surface of wall 34 Logical one end is formed to the midway in the axial direction of outer cylinder insertion section 32；Piping support groove portion 36b connects with narrow slot portion 36a Continuous to be formed, internal diameter is greater than narrow slot portion 36a；And the importing groove portion 36c of funnel-form inner surface, internal diameter is with from piping support groove portion The tip side of 36b towards outer cylinder insertion section 32 is advanced and is slowly increased.The internal diameter of narrow slot portion 36a is set so as to for wire rod 15 Slideably insert and size that outer cylinder 21 can not be inserted into.Piping support groove portion 36b has can be for the internal diameter of insertion outer cylinder 21. As shown in fig. 6, the step part on the boundary of narrow slot portion 36a and piping support groove portion 36b is formed with insertion limitation face 37.Outer cylinder 21 Track side end 21a by along insertion axis 32x from import the side groove portion 36c be inserted in piping support groove portion 36b, pass through rail side The end face of end 21a is abutted with insertion limitation face 37, and limit track side end 21a be further inserted into it is (Fig. 4, shown in fig. 5 State).

As shown in Figure 6 to 8, outer cylinder insertion section 32 is provided with the direction towards the axis 19x along belt wheel support shaft 19 Slot 36 is inserted in direction perforation in (radial direction for being inserted in the track side end 21a of the outer cylinder 21 of outer cylinder insertion section 32) The opening (insert portion opening) 38 of inside and outside slit-shaped.Slave narrow slot portion of the opening 38 on the axis direction of outer cylinder insertion section 32 36a is formed to piping support groove portion 36b, in range corresponding with piping support groove portion 36b, is provided with across 38 opposed status of opening In a pair of of anti-delinking part 39 of the two sides in circumferential direction.As shown in figure 8, the width of opening 38 is less than the diameter of outer cylinder 21, by outer cylinder 21 track side end 21a is inserted into the state of piping support groove portion 36b, limits outer cylinder 21 from opening 38 by a pair of of anti-delinking part 39 Abjection (top into Fig. 8 is mobile).The diameter of wire rod 15 is less than the width of opening 38, and wire rod 15 can be opposite by opening 38 It is detached from being inserted into insert slot 36.

As shown in Figure 6 and Figure 8, a pair of of through hole 40 is formed further in outer cylinder insertion section 32.Through hole 40 is in outer cylinder Position corresponding with a pair of of anti-delinking part 39 is formed on the axis direction of insertion section 32, in the axis 19x along belt wheel support shaft 19 Direction (radial direction for being inserted into the track side end 21a of the outer cylinder 21 in outer cylinder insertion section 32) on towards 38 opposite with opening Direction (lower section in Fig. 8) perforation.In other words, it is set as inserting slot 36 opening 38 sides (upside of Fig. 8) will be formed with In the case where top surface side, a pair of of perforation of through hole 40 is inserted the wall portion of the bottom surface side of slot 36 and is formed.A pair of of through hole 40 it Between circumferential direction on position be formed with bridge part 41.Axis direction of the bridge part 41 along outer cylinder insertion section 32 extends, and insertion is limited Face 37 processed is connected with groove portion 36c is imported.As shown in figure 8, bridge part 41 is located in the direction of the axis 19x along belt wheel support shaft 19 It goes up and is located at the position opposed with a pair of of anti-delinking part 39 with 38 opposed positions of opening, a pair of of through hole 40.It is observed along axis 19x When each through hole 40, the projected area of each through hole 40 is set equal under the relationship opposed on the direction axis 19x The projected area of anti-delinking part 39 or above, if from 40 side of through hole to from 39 side of anti-delinking part (i.e. from Fig. 7 opposite side) Outer cylinder insertion section 32 is then accommodated in the positional relationship within the scope of the shape of each through hole 40 in corresponding anti-delinking part 39.

Outer surface protrusion in outer cylinder insertion section 32 is formed with ribs 42.On the axis direction of outer cylinder insertion section 32 It is provided with a pair of of the ribs 42 different across 40 position of through hole, each ribs 42 is other than the formation part of opening 38 Region be formed as the shape for surrounding outer cylinder insertion section 32 in the circumferential.By ribs 42, the rigidity of outer cylinder insertion section 32 is mentioned It is high.

When assembling glass-frame riser 10, opening 38 will be passed through from the track side end 21a wire rod 15 outstanding of outer cylinder 21 It is inserted in the insert slot 36 of outer cylinder insertion section 32, and track side end 21a is inserted into axis 32x from the edge groove portion 36c is imported It is inserted into insert slot 36.The end face of track side end 21a is abutted with insertion limitation face 37, and determines outer cylinder 21 in insertion axis Position on the direction 32x.Import groove portion 36c be formed in funnel-form inner surface, thus be easy implement track side end 21a to insert The insertion of through slot 36.Wire rod 15 is directed in belt wheel receiving portion 31 from insert slot 36, and is supported (winding) in guidance belt wheel Wire guide slot on 17 outer peripheral surface.In this way, the track side end 21a of outer cylinder 21 is assembled in the outer cylinder with wheel carrier bracker 30 (under Fig. 1 to Fig. 5), wire rod 15 can retreat the state of insertion section 32 relative to outer cylinder 21, guide belt wheel 17 with wire rod 15 It retreats and rotates.

It is the formed products being made of materials such as synthetic resin with wheel carrier bracker 30, uses 45 He of mold shown in Fig. 8 (upper mold) Mold (lower die) 46 shapes.Fig. 8 shows the mould structure of the part with the formation outer cylinder insertion section 32 in wheel carrier bracker 30.Mold 45 Mutual interval can be changed on the direction along the axis 19x of belt wheel support shaft 19 with mold 46, can be approached to mutual The position that limitation face 47,48 abuts.Furthermore, it is possible to using any one of mold 45 and mold 46 be set as capable of moving Dynamic model simultaneously will be in the mode for the cover half that another one is set as not moving and the mode for the dynamic model for being set to move by the two Some mode.Belt wheel receiving portion 31 with wheel carrier bracker 30 is open on the direction along the axis 19x of belt wheel support shaft 19 Recess portion, therefore can be by 46 shape of mold 45 and mold relatively moved in the direction of axis 19x (up and down direction of Fig. 8) At.The receiving portion opening 31a of belt wheel receiving portion 31 is formed by the protruding portion (illustration omitted) for being set to mold 45.

Identical as belt wheel receiving portion 31, outer cylinder insertion section 32 also can only be formed by mold 45 and mold 46.As shown in figure 8, Mold 45 and mold 46 have mutually opposed recess portion 49,50.Mold 45 has from the bottom of recess portion 49 protrusion 51 outstanding, mould Tool 46 has from the bottom of recess portion 50 protrusion 52 outstanding.Protrusion 52 is in have from the recessed medial concavity to prescribed depth in top 53 pronged shape can be inserted into medial concavity 53 for protrusion 51.The overhang of protrusion 51 is less than the depth of medial concavity 53 Degree, in the case where protrusion 51 to be inserted into most deep state (state that limitation face 47,48 abuts), on the top and centre of protrusion 51 Gap is formed between the bottom of recess portion 53.When band wheel carrier bracker 30 is formed, if making mold 45 and mold 46 close to extremely limit Face 47 processed is abutted with limitation face 48, then is inserted by the outer cylinder that the inner surface of recess portion 49 and recess portion 50 is formed including ribs 42 Enter the external surface shape in portion 32.In addition, protrusion 51 is inserted into medial concavity 53 by the way that mold 45 and mold 46 are close, by protrusion 51 form the inner space of piping support groove portion 36b with the combination of protrusion 52.When forming the insert slot 36, formed out by protrusion 51 Mouth 38, forms a pair of of through hole 40 by the protrusion 52 of pronged shape.In addition, being formed about one by the top of the protrusion 52 of pronged shape To the inner surface of anti-delinking part 39, a pair of of anti-delinking part 39 is formed by region opposed near the top of each protrusion 52 in recess portion 49 Outer surface.In the state that limitation face 47 is abutted with limitation face 48, between the top of protrusion 51 and the bottom of medial concavity 53 There are gaps, form bridge part 41 by the gap.

In this way, by by the direction along axis 19x with the through hole 40 opposed with the adjacent anti-delinking part 39 of opening 38 It is set to outer cylinder insertion section 32, without using the other molds moved along the insertion direction axis 32x, uses mold 45 and mold 46 The outer cylinder insertion section 32 that can be formed including the insert slot 36 extended along the insertion direction axis 32x is whole.Thus, it is possible to letters Change the mold structure for making to shape with wheel carrier bracker 30, raising includes the production with the glass-frame riser 10 including wheel carrier bracker 30 Rate.

As shown in Figure 9 and Figure 10, cylinder shell 20 has cylinder receiving portion (receiving portion) 60 and a pair of of outer cylinder insertion section 61,62. The space that the formation of cylinder receiving portion 60 is impaled by bottom 63 and the cylindric wall 64 formed on its periphery, opposite the one of bottom 63 Side opening, as receiving portion opening 60a.Cylindric cylinder support shaft 65 is prominent from bottom 63, and rolling tube 23 is by cylinder support shaft 65 are supported in a receiving portion 60 in a manner of it can rotate.Fig. 9 and Figure 10 shows the rotation center as rolling tube 23 Cylinder support shaft 65 axis 65x.The up and down direction of cylinder shell 20 will be set as along the direction of axis 65x.In cylinder shell 20, with cylinder Receiving portion 60 be connected to wire rod insert road 60b and wire rod insert road 60c towards mutually different direction (glass-frame riser 10 The direction with wheel carrier bracker 30 and wire guide component 18 under completion status) it is formed, it is arranged on the top of wire rod insert road 60b There is outer cylinder insertion section 61, the top of wire rod insert road 60c is provided with outer cylinder insertion section 62.

It is prominent that outer cylinder insertion section 61 and outer cylinder insertion section 62 are respectively facing the direction for intersecting (substantially orthogonal) with axis 65x. It is inserted into the cylinder side end 21b of outer cylinder 21 in outer cylinder insertion section 61, outer cylinder 22 is inserted into outer cylinder insertion section 62 Cylinder side end 22b.Figure 10 shows the direction of insertion that a side end 21b is inserted into relative to outer cylinder insertion section 61 and is inserted into axis 61x Axis 62x is inserted into the cylinder side end 22b direction of insertion being inserted into relative to outer cylinder insertion section 62.It will be along insertion axis 61x's Direction is known as the axis direction of outer cylinder insertion section 61, and the axis side of outer cylinder insertion section 62 will be known as along the direction of insertion axis 62x To, the convolution direction centered on being inserted into axis 61x is known as to the circumferential direction of outer cylinder insertion section 61, it will be to be inserted into during axis 62x is The convolution direction of the heart is known as the circumferential direction of outer cylinder insertion section 62.

Outer cylinder insertion section 61 and outer cylinder insertion section 62 have and illustrate before with the outer cylinder insertion section 32 in wheel carrier bracker 30 Identical structure.Here, it is illustrated with outer cylinder insertion section 62 for representative, but outer cylinder insertion section 61 is also configured to be inserted into outer cylinder Portion 62 is identical, marks identical appended drawing reference to the part having in outer cylinder insertion section 61 and outer cylinder insertion section 62 in the figure.

The insert slot 66 penetrated through in the axial direction is formed in the inside of outer cylinder insertion section 62, insert slot 66 includes narrow slot Portion 66a is connected to wire rod insert road 60c (inserting road 60b in outer cylinder insertion section 61 for wire rod)；Piping support groove portion 66b, It is formed continuously with narrow slot portion 66a；And the importing groove portion 66c of funnel-form inner surface, internal diameter is with far from piping support groove portion 66b And slowly increase.As shown in figure 9, the step part on the boundary of narrow slot portion 66a and piping support groove portion 66b is formed with insertion limitation Face 67 is limited from the end face for importing the cylinder side end 22b that the side groove portion 66c is inserted in the outer cylinder 22 in piping support groove portion 66b with insertion Face 67 processed abuts, and determines the insertion position that outer cylinder 22 is inserted into outer cylinder insertion section 62.

(the outer of outer cylinder insertion section 62 is inserted into towards the direction of the axis 65x along cylinder support shaft 65 in outer cylinder insertion section 62 Cylinder 22 cylinder side end 22b radial direction) in a direction be provided with perforation insert slot 66 inside and outside slit-shaped opening (insert Enter portion's opening) 68.68 slave narrow slot portion 66a in outer cylinder insertion section 62 of opening is formed to piping support groove portion 66b, with piping support slot In portion 36b corresponding range, it is provided with a pair of of the anti-delinking part 69 being located at across 68 opposed positions of opening.As shown in figure 11, exist In the state of the cylinder side end 22b for inserting outer cylinder 22 in piping support groove portion 66b, outer cylinder 22 is limited from opening by a pair of of anti-delinking part 69 68 abjection of mouth (top into Figure 11 is mobile).The diameter of wire rod 16 is less than the width of opening 68, and wire rod 16 can pass through opening 68 are detached from relative to insertion in insert slot 66.

In outer cylinder insertion section 62, the position opposed with a pair of of anti-delinking part 69 on the direction along the axis 65x of cylinder support shaft 65 It sets, a pair of of through hole 70 of formation, on the position in circumferential direction between a pair of of through hole 70, is formed with connection insertion limitation face The bridge part 71 of 67 and importing groove portion 66c.Each through hole 70 is formed through in the direction along axis 65x and opening 68 opposite one The wall portion of side, bridge part 71 are located on the direction along axis 65x and 68 opposed positions of opening.Each along axis 65x observation When through hole 70, the projected area of each through hole 70 is set equal under relationship opposed on the direction axis 69x The projected area of anti-delinking part 69 or above, if from 70 side of through hole towards 69 side of anti-delinking part (i.e. from Figure 10 opposite side) Outer cylinder insertion section 62 is observed, then is accommodated in the positional relationship within the scope of the shape of each through hole 70 in corresponding anti-delinking part 69.

In the outer surface of outer cylinder insertion section 62, in the axial direction across the positional relationship of through hole 70, prominent formation There is a pair of of ribs 72.Each ribs 72 in addition to opening 68 form part other than region, in surrounding outer cylinder in the circumferential The shape of insertion section 62.

When assembling glass-frame riser 10, will be inserted from the cylinder side end 22b wire rod 16 outstanding of outer cylinder 22 by opening 68 Enter in the insert slot 66 of outer cylinder insertion section 62, and cylinder side end 22b is inserted into from the edge groove portion 66c insertion axis 62x is imported In in insert slot 36.The end face of cylinder side end 22b abuts with insertion limitation face 67 and determines outer cylinder 22 in the insertion axis side 62x Upward position.Wire rod 16 is inserted road 60c by wire rod from insert slot 66 and is directed into a receiving portion 60, and rolling tube is wound in Helicla flute on 23 outer peripheral surface.In this way, being assembled in the outer cylinder insertion section of cylinder shell 20 in the cylinder side end 22b by outer cylinder 22 62 state (under Fig. 1 to Fig. 3), wire rod 16 can retreat relative to outer cylinder 22, the winding amount that wire rod 16 is wound to helicla flute with The rotation of rolling tube 23 correspondingly changes.Installation and line of the outer cylinder 21 (cylinder side end 21b) relative to outer cylinder insertion section 61 Material 15 is similarly implemented relative to the winding of rolling tube 23.

Motor unit 25 is installed in cylinder shell 20.As shown in Figure 1 to Figure 3, motor unit 25 has motor 25a, gear-box 25b and cover 25c.Subtract what is transmitted while the rotation for the output shaft for making motor 25a is slowed down built in gear-box 25b Fast gear train, the chimeric axis (illustration omitted) that the rotary driving force of motor 25a is transmitted via reducing gear train are prominent from cover 25c Out.Opening portion of the cover 25c covering from the receiving portion of cylinder shell 20 opening 60a to this section of section of opening 68, from cover 25c Chimeric axis outstanding is chimeric with rolling tube 23 (Figure 10) in cylinder receiving portion 60, and the driving force of motor 25a, which can be transmitted to, batches Cylinder 23.

Cylinder shell 20 is the formed products being made of materials such as synthetic resin, uses mold shown in Figure 11 (upper mold) 75 and mould Have (lower die) 76 to shape.Between mold 75 and mold 76 can change mutually on the direction along the axis 65x of cylinder support shaft 65 Every mutual limitation face 77,78 can be close to the position to abutting.It can use any one of mold 75 and mold 76 It is set as the dynamic model that can be moved and is set to move by the mode for the cover half that another one is set as not moving and by the two Some mode in the mode of dynamic dynamic model.The cylinder receiving portion 60 of cylinder shell 20 is in the side of the axis 65x along cylinder support shaft 65 Open recess portion upwards, therefore can be by the mold 75 relatively moved in the direction of axis 65x (up and down direction of Figure 11) With the formation of mold 76.The receiving portion opening 60a of cylinder receiving portion 60 is formed by the protruding portion (illustration omitted) for being set to mold 75.

Identical as cylinder receiving portion 60, outer cylinder insertion section 62 also can only be formed by mold 75 and mold 76.As shown in figure 11, mould Tool 75 and mold 76 have mutually opposed recess portion 79,80, and mold 75 has from the bottom of recess portion 79 protrusion 81 outstanding, mold 76 have the protrusion 82 and the recessed medial concavity 83 between protrusion 82 from the bottom of recess portion 80 pronged shape outstanding.Protrusion 81 It is inserted into medial concavity 83, the overhang of protrusion 81 is less than the depth of medial concavity 83.When being shaped to cylinder shell 20, if Make mold 75 and mold 76 close to abutting to limitation face 77 with limitation face 78, is then formed by the inner surface of recess portion 79 and recess portion 80 The external surface shape of outer cylinder insertion section 62 including ribs 72.In addition, passing through close, the protrusion of mold 75 and mold 76 81 are inserted in medial concavity 83, and the inner space of piping support groove portion 66b is formed by the combination of protrusion 81 and protrusion 82.At this point, Opening 68 is formed by protrusion 81, a pair of of through hole 70 is formed by the protrusion 82 of pronged shape.In addition, by the protrusion 82 of pronged shape Top is formed about the inner surface of a pair of of anti-delinking part 69, by the region shape opposed near the top of each protrusion 82 in recess portion 79 The outer surface of anti-delinking part 69 in a pair.In the state that limitation face 77 and limitation face 78 abut, on the top and centre of protrusion 81 There is gap between the bottom of recess portion 83, forms bridge part 71 by the gap.Figure 11 shows the forming of outer cylinder insertion section 62, outer cylinder Insertion section 61 is also formed by identical mould structure (i.e. mold 75 and mold 76).

In this way, by by the direction along axis 65x with the through hole 70 opposed with the adjacent anti-delinking part 69 of opening 68 It is set to outer cylinder insertion section 61,62, without using the other molds moved along the insertion direction axis 61x, 62x, uses mold 75 With mold 76 can be formed the outer cylinder insertion section 61 including the insert slot 66 extended along the insertion direction axis 61x it is whole and Outer cylinder insertion section 62 including the insert slot 66 extended along the insertion direction axis 62x is whole.Thereby, it is possible to simplify for pair The mold structure that cylinder shell 20 is formed improves the productivity of the glass-frame riser 10 including cylinder shell 20.

As shown in Figure 12 to Figure 16, wire guide component 18 includes the wire guide slot (guiding groove) 90 of arc-shaped, right The wire rod 16 stretched out from the track side end 22a of outer cylinder 22 is supported；It, can be for being inserted into rail side with outer cylinder insertion section 91 End 22a.Wire guide slot 90, which has, (is approximately towards opening for lower section in the completion status of glass-frame riser 10 under Fig. 1 to Fig. 3) Mouth 92.

The outer cylinder insertion section 91 of wire guide component 18 have with the outer cylinder insertion section 32 in wheel carrier bracker 30, cylinder shell 20 In the similar structure in outer cylinder insertion section 61 and outer cylinder insertion section 62.Specifically, being formed in outer cylinder insertion section 91 along track The direction of insertion of side end 22a is to be inserted into the insert slot 93 of axis 91x (Figure 12) perforation, and insert slot 93 and wire guide slot 90 connect It is logical.Insert slot 93 includes piping support groove portion 93a, can be inserted into for the track side end 22a of outer cylinder 22；With importing groove portion 93b, internal diameter slowly increase with advancing far from piping support groove portion 93a to the tip side of outer cylinder insertion section 91.Draw in wire rod The step part on the boundary of guide groove 90 and piping support groove portion 93a is formed with insertion limitation face 94 (Figure 16).The rail side of outer cylinder 22 End 22a is supported in groove portion 93a along insertion axis 91x from groove portion 93b side insertion tube is imported, the end face of track side end 22a It is abutted with insertion limitation face 94, thus limits track side end 22a and be further inserted into (Fig. 1 to state shown in Fig. 3).

It is formed in outer cylinder insertion section 91 in the entirety on from piping support groove portion 93a to the axis direction for importing groove portion 93b There is the opening of the slit-shaped of radial direction (first direction in the radial direction) perforation along outer cylinder 22 (track side end 22a) (to open insertion section Mouthful) 95.Opening 95 is connected to the opening 92 of wire guide slot 90.In range corresponding with piping support groove portion 93a, it is provided with position In a pair of of anti-delinking part 96 across the opposed position in the two sides of opening 95 in the circumferential.As shown in figure 17, be open 95 width it is small It is anti-by a pair in the state that the track side end 22a of outer cylinder 22 is inserted in piping support groove portion 93a in the diameter of outer cylinder 22 De- portion 96 limits outer cylinder 22 from the abjection of opening 95 (lower section into Figure 17 is mobile).The diameter of wire rod 16 is less than opening 95, opening 92 width, wire rod 16 can pass through opening 95 and opening 92 and be detached from relative to insertion in insert slot 93 and wire guide slot 90.

In outer cylinder insertion section 91, (outer cylinder 22 of outer cylinder insertion section 91 is inserted in the radial direction orthogonal with insertion axis 91x The radial direction of track side end 22a) on form a pair of of through hole 97 (Figure 15, Figure 17) on the position opposed with a pair of of anti-delinking part 96, At the position in circumferential direction between a pair of of through hole 97, it is formed with connection insertion limitation face 94 and imports the bridge joint of groove portion 93b Portion 98.Each through hole 97 is formed through in the wall portion radially with 95 opposite side of opening (in the second direction in radial direction Wall portion), bridge part 98 be located at radially with opening 95 opposed positions.Each perforation from the radial direction of outer cylinder insertion section 91 The projected area of through hole 97 when hole 97 is set to and the projection of the anti-delinking part 96 under relationship opposed radially Area equation or above, as shown in figure 15, if from 97 side of through hole towards outer cylinder insertion section 91 from 96 side of anti-delinking part, Positional relationship within the scope of the shape that corresponding anti-delinking part 96 is accommodated in each through hole 97.

Outer cylinder insertion section 91 outer surface in the axial direction different location protrusion be formed with a pair of of ribs 99.Respectively Ribs 99 is in surround outer cylinder insertion section 91 in the circumferential in the region other than the formation part of opening 95, through hole 97 Shape.

When assembling glass-frame riser 10, opening 92 will be passed through from the track side end 22a wire rod 16 outstanding of outer cylinder 22 It is inserted in wire guide slot 90 and the insert slot 93 of outer cylinder insertion section 91 with opening 95, and by track side end 22a from leading Enter groove portion 93b to be inserted in insert slot 93 along insertion axis 91x.The end face of track side end 22a is abutted with insertion limitation face 94, Determine position of the outer cylinder 22 on the insertion direction axis 91x.As shown in Fig. 2, being drawn by wire rod is supported in a manner of it can retreat The wire rod 16 of guide groove 90 is connect along 11 wiring of guide rail, and with slide 14.

Wire guide component 18 is the formed products being made of materials such as synthetic resin, uses 100 He of mold shown in Figure 17 Mold 101 shapes.Mold 100 and mold 101 can change phase in the up and down direction in Figure 12, Figure 13, Figure 16 and Figure 17 Mutual interval, can be using being set as the dynamic model that can be moved for any one of mold 100 and mold 101 and by another one Some mode being set as in the mode for the cover half not moved and the mode for the dynamic model for being set to move by the two.

The opening 92 of the wire guide slot 90 of wire guide component 18, the opening 95 of outer cylinder insertion section 91 and through hole 97 Both facing to the relative movement direction of mold 100 and mold 101 opening, there is no need to use the insertion axis along outer cylinder insertion section 91 The mobile other molds in the direction 91x, mold 100 and mold 101, which is used only, to be formed.As shown in figure 17, mold 100 and mould Tool 101 has mutually opposed recess portion 102,103, and mold 100 has from the bottom of recess portion 102 protrusion 104 outstanding, mold 101 have the protrusion 105 and the recessed medial concavity 106 between protrusion 105 from the bottom of recess portion 103 pronged shape outstanding.It is prominent It plays 104 to be inserted into medial concavity 106, the overhang of protrusion 104 is less than the depth of medial concavity 106.To wire guide When component 18 shapes, if making mold 100 and mold 101 close to until mutual limitation face (illustration omitted) abuts, by recess portion 102 and the inner surface of recess portion 103 form the external surface shape of outer cylinder insertion section 91 including ribs 99.In addition, protrusion 104 are inserted in medial concavity 106, and the inner space of piping support groove portion 93a is formed by the combination of protrusion 104 and protrusion 105.This When, opening 95 is formed by protrusion 104, a pair of of through hole 97 is formed by the protrusion 105 of pronged shape.In addition, by the protrusion of pronged shape 105 top is formed about the inner surface of a pair of of anti-delinking part 96, by opposed near the top of each protrusion 105 in recess portion 102 Region form the outer surface of a pair of of anti-delinking part 96.In the state of making mold 100 and mold 101 is closest, in protrusion 104 There is gap between top and the bottom of medial concavity 106, forms bridge part 98 by the gap.

In this way, by will outer cylinder 22 (track side end 22a) radially be located at with opening 95 adjacent anti-delinking parts The through hole 97 of 96 opposed positions is set to outer cylinder insertion section 91, other without using moving along the insertion direction axis 91x Mold can be formed outer including the insert slot 93 extended along the insertion direction axis 91x using mold 100 and mold 101 Cylinder insertion section 91 is whole.Thus, it is possible to simplify the mold structure for wire guide component 18 to be formed, provide including line The productivity of glass-frame riser 10 including material guide member 18.

As shown in figure 18, recess portion can be formed in the outer cylinder insertion section 32 (piping support groove portion 36b) with wheel carrier bracker 30 43.Recess portion 43 is located at the boundary part in insertion limitation face 37 and bridge part 41, is the inner peripheral surface locality for making piping support groove portion 36b The shape of ground recess is gently bent the inner peripheral surface in connection insertion limitation face 37 and piping support groove portion 36b.If by outer cylinder 21 Track side end 21a be inserted in outer cylinder insertion section 32 in the state of, wire rod 15 is drawn by rolling tube 23, then from outer cylinder 21 Relative to band wheel carrier bracker 30, apply the load that the end face of track side end 21a is pressed on to insertion limitation face 37.At this point, can Answering to the boundary part in insertion limitation face 37 and bridge part 41 (inner peripheral surface of piping support groove portion 36b) is mitigated by recess portion 43 Power prevents breakage.

Furthermore it is possible in the outer cylinder insertion section 61 of cylinder shell 20, the inside of outer cylinder insertion section 62, formed with shown in Figure 18 The identical recess portion of recess portion 43.The recess portion is located at the boundary part in insertion limitation face 67 and bridge part 71, is to make piping support groove portion 66b The shape that is locally recessed of inner peripheral surface.When with the traction of wire rod 15 correspondingly, it is opposite from the cylinder side end 21b of outer cylinder 21 Be applied with load in insertion limitation face 67, or with the traction of wire rod 16 correspondingly, it is opposite from the cylinder side end 22b of outer cylinder 22 When insertion limitation face 67 is applied with load, it can be mitigated by recess portion to insertion limitation face 67 and (the piping support groove portion of bridge part 71 The inner peripheral surface of 66b) boundary part stress, prevent breakage.

Furthermore it is possible to be formed and recess portion 43 shown in Figure 18 in the inside of the outer cylinder insertion section 91 of wire rod guide member 18 Identical recess portion.The recess portion is located at the boundary part in insertion limitation face 94 and bridge part 98, is to make that piping support groove portion 93a's is interior The shape that circumferential surface is locally recessed.When with the traction of wire rod 16 correspondingly, from the track side end 22a of outer cylinder 22 relative to When insertion limitation face 94 is applied with load, it can be mitigated by recess portion to insertion limitation face 94 and (the piping support groove portion 93a of bridge part 98 Inner peripheral surface) boundary part stress, prevent breakage.

More than, the utility model is illustrated based on illustrated embodiment, but the utility model is not limited to the reality of diagram Mode is applied, without departing from the main idea of utility model, just can be carried out improvement, change.Such as in the shown embodiment, in outer cylinder Insertion section 32 be formed be located at across opening 38 position a pair of of anti-delinking part 39 and with 39 opposed pairs of a pair of anti-delinking part Through hole 40, outer cylinder insertion section 61,62 be respectively formed be located at across opening 68 position a pair of of anti-delinking part 69 and with this A pair of of 69 opposed pairs through hole 70 of anti-delinking part is respectively formed in outer cylinder insertion section 91 and is located at across the position of opening 95 A pair of of anti-delinking part 96 and with the 96 opposed pairs through hole 97 of a pair of anti-delinking part, but can also change the opening in circumferential direction, anti- The forming position of de- portion and through hole, is respectively set as one for anti-delinking part, through hole.Accordingly, can also make wire guide portion Part 18, cylinder shell 20, with wheel carrier bracker 30 shape mold detail shape be different from illustrated embodiment.

Illustrated embodiment be used to drive the glass-frame riser 10 of the glass for vehicle window as open-close body in vehicle, but only To implement the on-off action to driving body by wire rod, the utility model can be also used to make sliding sliding door other than glass-frame riser Opening/closing door of vehicle mechanism of opening and closing etc..

Receiving portion opening 60a and outer cylinder insertion section in the cylinder shell 20 of illustrated embodiment, in cylinder receiving portion 60 61, the opening 68 in 62 is formed to the same direction and is open, but also receiving portion can be made to be open 60a on the direction along axis 65x It is formed and is open to mutual opposite direction with opening 68.Similarly, in the band wheel carrier bracker 30 of illustrated embodiment, belt wheel receiving portion Receiving portion opening 31a in 31 and the opening 38 in outer cylinder insertion section 32 are formed to the same direction to be open, but also can be along axis The direction receiving portion the Shang Shi opening 31a and opening 38 of line 19x is formed to mutual opposite direction to be open.It is identical as illustrated embodiment Ground is also able to use two molds relatively moved on the direction along axis 65x, axis 19x and is formed in these variations Cylinder shell 20, band wheel carrier bracker 30.

Shown in as described in detail above, the utility model is the receiving component for accommodating wire rod winding unit, has wire guide slot Wire guide component part, the outer cylinder for inside inserted with wire rod end be inserted into outer cylinder insertion section, have: insertion Portion's opening is penetrated through towards the radial direction of outer cylinder；Anti-delinking part prevents outer cylinder from deviating from from insert portion opening；And through hole, position In the position opposed with anti-delinking part.Receiving component, receiving wire rod winding unit receiving portion, formed to insert portion opening With through hole any one of identical direction form the receiving portion opening of opening.In wire rod guide member, in wire guide Slot formation is continuously open with insert portion opening.Thereby, it is possible to use along the insert portion opening direction of outer cylinder insertion section and perforation The mold of the opening direction relative movement in hole readily produces receiving component, wire guide component, can be improved and has receiving portion Part, wire guide component opening/closing body for vehicle driving device productivity.

Description of symbols

10 ... glass-frame risers；11 ... guide rails；12,13 ... brackets；14 ... slides；15,16 ... wire rods；17 ... guidance belt wheels (winding unit)；18 ... wire guide components；19 ... belt wheel support shafts；The axis of 19x ... belt wheel support shaft；20 ... cylinder shells (receiving component)；21,22 ... outer cylinders；21a, 22a ... track side end；21b, 22b ... cylinder side end；23 ... rolling tubes (winding Component)；25 ... motor units；30 ... band wheel carrier brackers (receiving component)；31 ... belt wheel receiving portions (receiving portion)；31a ... receiving Portion's opening；32,61,62,91 ... outer cylinder insertion section；32x, 61x, 62x, 91x ... are inserted into axis；33,63 ... bottoms；34,64… Wall；35 ... round holes；36,66,93 ... insert slot；36a, 66a ... narrow slot portion；36b, 66b, 93a ... piping support groove portion；36c, 66c, 93b ... import groove portion；37,67,94 ... insertion limitation face；38,68,95 ... opening (insert portion opening)；39,69,96… Anti-delinking part；40,70,97 ... through hole；41,71,98 ... bridge part；42,72,99 ... ribs；45,75 ... molds (upper mold)； 46,76 ... molds (lower die)；47,48,77,78 ... limitation face；49,50,79,80,102,103 ... recess portion；51,52,81,82, 104,105 ... protrusions；53,83,106 ... medial concavity；60 ... cylinder receiving portions (receiving portion)；The receiving portion 60a ... opening；60b, 60c ... wire rod inserts road；61,62 ... outer cylinder insertion sections；65 ... cylinder support shafts；The axis of 65x ... cylinder support shaft；66 ... inserts Hole；75,76 ... molds；77,78 ... limitation faces；79,80 ... recess portions；81,82 ... protrusions；83 ... medial concavities；90 ... wire rods draw Guide groove (guiding groove)；92 ... openings；100 ... molds；101 ... molds.

Claims (8)

1. a kind of driving device of opening/closing body for vehicle, by driving wire rod to be opened and closed open-close body, which is characterized in that have:

Outer cylinder, in inside, insert has the wire rod；

Winding unit winds the wire rod；And

Component is accommodated, is had in the way of capable of being rotated centered on the rotation axis towards up and down direction by the winding unit It accommodates the receiving portion of the winding unit and supplies the end of the outer cylinder along the outer of the direction insertion intersected with the up and down direction Cylinder insertion section,

The outer cylinder insertion section has insert portion opening upward, and the receiving portion has towards the either above or below Receiving portion opening,

The outer cylinder insertion section have prevent the outer cylinder from deviating from from anti-delinking part from the insert portion opening to the top and The lower section through hole opposed with the anti-delinking part is observed towards the up and down direction, and the anti-delinking part, which is located at, is accommodated in institute State the position within the scope of the shape of through hole.

2. the driving device of opening/closing body for vehicle according to claim 1, which is characterized in that

The through hole has in a pair of of the edge part of the outer cylinder radially separated, and the interval of a pair of edge part is less than institute State the diameter of outer cylinder.

3. the driving device of opening/closing body for vehicle according to claim 1, which is characterized in that

The outer cylinder insertion section in the two sides of insert portion opening tool there are two the anti-delinking part, be located at the lower section with There are two the through holes for the two sides tool of the bridge part of the opposed position of the insert portion opening.

4. the driving device of opening/closing body for vehicle according to claim 1, which is characterized in that

With the insert portion opening and the nonoverlapping region of the through hole, there is the peripheral part for surrounding the outer cylinder insertion section The rib divided.

5. a kind of driving device of opening/closing body for vehicle, by driving wire rod to be opened and closed open-close body, which is characterized in that have:

Outer cylinder, in inside, insert has the wire rod；And

Wire guide component has the guiding groove for guiding the wire rod and the end of the outer cylinder is supplied to be inserted into the axial direction Outer cylinder insertion section,

It opens the insertion section of first direction of the wire guide component in the radial direction that outer cylinder insertion section has towards the outer cylinder Mouthful, it is continuously formed and is open in the guiding groove with the insert portion opening,

The outer cylinder insertion section includes anti-delinking part, prevents the outer cylinder de- from the insert portion opening to the first direction Out；And through hole, it is opposed with the anti-delinking part in a second direction opposite to the first direction, towards the first party To observation, the anti-delinking part is located at the position being accommodated within the scope of the shape of the through hole.

6. the driving device of opening/closing body for vehicle according to claim 5, which is characterized in that

The through hole has in a pair of of the edge part of the outer cylinder radially separated, and the interval of a pair of edge part is less than institute State the diameter of outer cylinder.

7. the driving device of opening/closing body for vehicle according to claim 5, which is characterized in that

In the two sides of insert portion opening tool, there are two the anti-delinking parts for the outer cylinder insertion section, are being located in the second party There are two the through holes for the two sides tool of the bridge part of the position opposed with the insert portion opening upwards.

8. the driving device of opening/closing body for vehicle according to claim 5, which is characterized in that

With the insert portion opening and the nonoverlapping region of the through hole, there is the peripheral part for surrounding the outer cylinder insertion section The rib divided.