CN111094038A - Glass run - Google Patents

Abstract

A glass run (8) attached to a window frame (33), the window frame (33) having: an inner sash side wall portion (35a) that defines the inside of the fitting recess (34) in the door width direction, and an outer sash side wall portion (35b) that defines the outside of the fitting recess (34) in the door width direction and has a tip end portion folded inward in the door width direction. The glass run channel main body (50) has an inner and an outer glass run channel side wall portion (52), and the inner and outer glass run channel side wall portions (52a, 52b) are fitted to the fitting recess portion (34) in a posture facing the inner and outer sash side wall portions (35a, 35 b). In a state where the glass run is mounted, at least one lip (58) extends from an area of the outer glass run side wall portion (52b) opposite to the non-folded area (45) toward the non-folded area (45) of the inner surface of the outer sash side wall portion (52 b).

Description

Glass run

Technical Field

The present disclosure relates to a glass run mounted to a window frame fixedly provided with respect to a door of a vehicle.

Background

Patent document 1 describes a glass run (also referred to as a "glass run") that is fitted to a door sash of a door panel attached to a front door by spot welding and guides a door glass into a groove portion. The glass run has a main body portion having a substantially コ -shaped cross section and forming a groove portion for guiding a door glass that is lifted and lowered, and the main body portion is formed of an inside wall portion, an outside wall portion, and a connecting wall portion connecting the inside wall portion and the outside wall portion. An anti-slip uneven portion is formed on the vehicle outer side of the vehicle outer side wall portion. The door sash has a substantially コ -shaped cross section and is formed by an exterior side portion, an interior side portion, and a connecting portion connecting these portions. In addition, the illustrated structure is: the uneven portion is formed at an end portion on the vehicle exterior side of the vehicle exterior side wall portion, a front end portion of the end portion on the vehicle exterior side is folded toward the vehicle interior side, and the uneven portion abuts against a front end portion (folded portion) on an opening side of the end portion from the vehicle interior side in a state where the glass run is fitted to the door sash.

[ Prior art documents ]

[ patent document ]

Patent document 1 Japanese laid-open patent application No. 2013-112202

Disclosure of Invention

[ problems to be solved by the invention ]

In the above configuration, in a state where the glass run is fitted to the sash, the vehicle exterior side uneven portion (lip portion) of the vehicle exterior side wall portion abuts against the front end portion of the vehicle exterior side portion (the outside sash side wall portion) folded toward the vehicle interior side from the vehicle interior side, so that wind does not enter between the glass run and the sash, and generation of wind noise can be suppressed. However, since the concave-convex portion is formed at the opening-side front end portion of the vehicle exterior-side wall portion, when the concave-convex portion is pressed against the glass run and elastically deformed, the end portion of the exterior-side wall portion may be bent and rolled up by a reaction force generated at the concave-convex portion, which may cause a reduction in the aesthetic appearance.

Accordingly, an object of the present disclosure is to provide a glass run capable of suppressing wind noise and preventing a reduction in the aesthetic appearance.

[ means for solving the problems ]

To achieve the above object, a glass run according to the present disclosure is an elastic body attached to a window frame fixedly provided to a vehicle door, the window frame including a glass run main body and at least one lip, the window frame including: an inner sash side wall portion defining a door width direction inner side of a fitting recess that opens along a door window opening of a door of a vehicle, and an outer sash side wall portion defining a door width direction outer side of the fitting recess, a front end portion of which is folded inward in the door width direction. The glass run channel main body integrally has an inner glass run channel side wall portion and an outer glass run channel side wall portion that are opposed to each other and separated from each other, and the inner glass run channel side wall portion and the outer glass run channel side wall portion are fitted to the fitting recess portion of the sash from the door window side in a posture opposed to the inner sash side wall portion and the outer sash side wall portion. In a state where the glass run channel main body is fitted to the glass run channel-mounted state of the fitting recess, at least one of the lips extends from an area of the outer side glass run channel side wall portion, which is opposed to the non-folded area, toward the non-folded area of the inner surface of the outer side sash side wall portion, which is not folded.

In the above configuration, a lip is provided between the non-folded region of the inner surface of the outer sash side wall portion that is not folded and the region of the outer glass run channel side wall portion that is opposite to the non-folded region. Therefore, a reaction force is not generated at the opening-side distal end portion of the outer glass run channel side wall portion. Therefore, the front end portion of the outer glass run channel side wall on the opening side is not curled up, and the aesthetic appearance can be prevented from being lowered.

In addition, in a state where the glass run is mounted, the lip portion extends from an area opposed to the non-folded area in the outer glass run side wall portion toward the non-folded area in the outer sash side wall portion inner surface that is not folded. Therefore, even when wind enters between the window frame and the glass run, the speed of the entering wind can be reduced, and thus wind noise can be suppressed.

Further, the lip may abut against the non-folding region of the window frame in a state where the glass run channel is attached.

In the above configuration, the lip portion abuts against the non-folding region of the window frame in a state where the glass run channel is attached, and therefore air does not flow between the window frame and the glass run channel. Therefore, wind noise can be reliably prevented.

[ Effect of the invention ]

According to the present disclosure, it is possible to suppress the generation of wind noise and prevent the aesthetic appearance from being deteriorated.

Drawings

Fig. 1 is a side view of a vehicle door having a glass run according to an embodiment of the present disclosure, as viewed from the outside in the door width direction.

Fig. 2 is an exploded perspective view of the vehicle door of fig. 1.

Fig. 3 is a sectional perspective view as seen in the direction of the arrow III-III of fig. 1.

Fig. 4 is an enlarged sectional view of a main portion of fig. 3.

FIG. 5 is a cross-sectional view showing a modified example of the glass run.

Detailed Description

Embodiments of the present disclosure will be described in detail below with reference to the drawings. In the following description, the front-rear direction indicates the front-rear direction of the vehicle (the front-rear direction of the door in a door closed state in which the door is attached to the vehicle and closed), and the left-right direction indicates the left-right direction in a state in which the door is oriented forward of the vehicle. In addition, the following directions relating to the door are all directions in the door closed state, the door lateral direction is the front-rear direction, the door longitudinal direction is the up-down direction, the door width direction is the vehicle width direction, the door outer side is the vehicle width direction outer side (vehicle interior outer side), and the door inner side is the vehicle width direction inner side (vehicle interior inner side).

The vehicle of the present embodiment has left and right door openings (not shown) on the front right side and the front left side of a vehicle interior (not shown). The front side of the door 1 is rotatably supported at the front edge of the door opening via a door hinge (not shown), and the door opening is opened and closed by the door 1 tilting about the door hinge. Further, since the doors 1 of the same structure are provided on the front left side and the front right side of the vehicle compartment, the description will be made below with respect to the front left side door 1, and the description with respect to the front right side will be omitted.

As shown in fig. 1 and 2, a door 1 includes a door outer panel 2 disposed on the door outer side and a door inner panel 3 disposed on the door inner side of the door outer panel 2, and peripheral edge portions of the door outer panel 2 and the door inner panel 3 are joined to each other to form a closed space. The door 1 includes a door window portion 4, a glass run 5 disposed in an upper region between the door outer panel 2 and the door inner panel 3 (closed space), a front guide bracket 6 connecting a front lower end of the glass run 5 and the door inner panel 3, a rear guide bracket 7 connecting a rear lower end of the glass run 5 and the door inner panel 3, a door window panel 9 supported between the door outer panel 2 and the door inner panel 3 so as to be able to move up and down, and a glass run 8 serving as a weather strip for the door window panel 9. The door window portion 4 is defined by a door window opening 10 formed in an upper region of the door 1 (upper regions of the door outer panel 2 and the door inner panel 3). The door panel 9 opens the door window opening 10 by being lowered, and closes the door window opening 10 by being raised.

The door outer panel 2 stands up in the door lateral direction to form the outer surface of the door 1. The door inner panel 3 is disposed to face the door inner side of the door outer panel 2. The door outer panel 2 and the door inner panel 3 are metal plates each press-formed into a predetermined shape.

In the upper region of the door outer panel 2 and the door inner panel 3, a sash portion 11 integrally formed of an upper sash portion 12, a front sash portion 13, and a rear sash portion 14 is provided. The upper sash portion 12 extends in the door lateral direction along the upper edge portion of the door window opening 10, and the lower edge of the upper sash portion 12 defines the upper side of the door window opening 10. The front sash portion 13 extends in the door longitudinal direction (obliquely upward and rearward) along the front end edge portion of the door window opening 10, and the rear end edge of the front sash portion 13 defines the front of the door window opening 10. The rear window frame portion 14 extends in the door longitudinal direction along the rear end edge portion of the door window opening 10, and the front end edge of the rear window frame portion 14 defines the rear of the door window opening 10. The lower region (door window opening lower region 15) of the door 1 below the door window opening 10 has an upper end edge defining the lower portion of the door window opening 10. A front end edge portion (front end edge portions of the door outer panel 2 and the door inner panel 3) 16 of the door 1 extends continuously downward in the door longitudinal direction from a lower end of the front window frame portion 13. The front end edge portion 16 and the front edge portion of the door opening are connected via a door hinge. A door mirror attachment portion 17 is provided in front of the front window frame portion 13 of the door outer panel 2. A mirror base 19 for supporting a mirror body 18 is attached to the outer surface of the door mirror mounting portion 17 on the door outer side.

As shown in fig. 1 to 4, the glass run 5 is disposed between an upper region of the door outer panel 2 and an upper region of the door inner panel 3 (a closed space), and integrally includes an upper run 20, a front guide 21 extending downward from a front end edge of the upper run 20, and a rear run 22 extending downward from a rear end edge of the upper run 20. The glass run 5 is a member having a cross-sectional shape of コ extending along the door window opening 10 in a state of opening to the door window portion 4 side. The glass run 5 is provided with a side plate portion 23. The side plate portion 23 includes a door inner side plate portion 23a provided on the door inner side and a door outer side plate portion 23b provided on the door outer side. The door inner side panel portion 23a and the door outer side panel portion 23b are separated in the door width direction and extend along the door window opening 10.

The upper channel portion 20 is disposed between the door outer panel 2 and the door inner panel 3 of the upper window frame portion 12, and extends in the door lateral direction along the upper end edge portion of the door window opening 10. The upper sash portion 30 having a closed cross section is configured by joining the lower end edge of the door outer panel 2 of the upper sash portion 12 to the door outer side panel portion 23b of the upper channel portion 20, and joining the lower end edge of the door inner panel 3 of the upper sash portion 12 to the door inner side panel portion 23a of the upper channel portion 20.

The front guide groove portion 21 is disposed between the door outer panel 2 and the door inner panel 3 of the front window frame portion 13, and extends in the vertical direction along the front end edge portion of the door window opening 10 while being bent from the front end edge of the upper guide groove portion 20. The front window frame portion 31 having a closed cross section is configured by joining the lower end edge of the door outer panel 2 of the front window frame portion 13 and the door outer side panel portion 23b of the front guide groove portion 21, and joining the lower end edge of the door inner panel 3 of the front window frame portion 13 and the door inner side panel portion 23a of the front guide groove portion 21. The lower portion of the front guide groove portion 21 constitutes a front lower guide groove portion 24. The lower end portion of the front lower guide groove portion 24 is disposed at the front upper end portion of the door window opening lower region 15 of the door inner panel 3. A front fitting recess extension 26 of the front lower guide groove portion 24, which extends downward from a lower end edge of a fitting recess 34 described later, is integrally formed in the front lower guide groove portion 24.

The rear channel portion 22 is disposed between the door outer panel 2 and the door inner panel 3 of the rear window frame portion 14, and is bent from the rear end portion of the upper channel portion 20 and extends in the vertical direction along the rear end edge portion of the door window opening 10. The lower end edge of the door outer panel 2 of the rear window frame portion 14 and the door outer side panel portion 23b of the rear channel portion 22 are joined together, and the lower end edge of the door inner panel 3 of the rear window frame portion 14 and the door inner side panel portion 23a of the rear channel portion 22 are joined together, whereby the rear window frame portion 32 having a closed cross section is configured. The lower portion of the rear channel portion 22 constitutes a rear lower channel portion 25. The lower end portion of the rear lower guide groove portion 25 is disposed at the rear upper end portion of the door window opening lower region 15 of the door inner panel 3. A rear fitting recess extension 27 extending downward from a lower end edge of a fitting recess 34, which will be described later, of the rear lower guide groove portion 25 is integrally formed in the rear lower guide groove portion 25.

The end portion of the sash portion (the upper sash portion 12, the front sash portion 13, and the rear sash portion 14)11 on the door outer panel 2 at the door window portion 4 and the door outer side plate portion 23b of the glass run channel 5 are welded in a state where the door inner surface of the door outer panel 2 at the door window portion 4 end of the sash portion 11 and the door outer surface of the door outer side plate portion 23b of the glass run channel 5 are in contact with each other, and the front end edge of the door outer panel 2 of the sash portion 11 is folded inward of the door so as to sandwich the front end portion of the door outer side plate portion 23b of the glass run channel 5 and joined. The end of the sash portion 11 at the door window portion 4 of the door inner panel 3 and the door inner side panel portion 23a of the glass run channel 5 are welded and joined in a state where the door outer side surface of the sash portion 11 at the end of the door inner panel 3 at the door window portion 4 and the door inner side surface of the door inner side panel portion 23a of the glass run channel 5 are in contact with each other.

A fitting recess 34 is provided on the door window portion 4 side of a sash portion (sash) 33 constituted by the upper sash portion 30, the front sash portion 31, and the rear sash portion 32. The fitting recess 34 extends along the door window opening 10 in a state of opening to the door window portion 4 side, and is formed in a cross-sectional shape of "コ". The engaging plate portion 35 is provided in the fitting recess portion 34, and a fitting projection 53 of the glass run 8 described later is fitted from the door window portion 4 side. The engagement plate portion 35 includes a door inner engagement plate portion (inner sash side wall portion) 35a provided on the door inner side and a door outer engagement plate portion (outer sash side wall portion) 35b provided on the door outer side, and defines the fitting recess 34 opening toward the door window portion 4 side.

The door inner engagement plate portion 35a is constituted by the door inner side plate portion 23a of the glass run 5 disposed on the door outer side and the door window portion 4 side end portion of the sash portion 11 of the door inner panel 3 disposed on the door inner side. The door inner engagement plate portion 35a is provided with a door inner sash inner surface 36a on the door outer side, and a door inner sash end surface 37a on the front end edge portion on the door window portion 4 side. In a state where the glass run 8 is mounted on the window frame portion 33, a lip engagement projection 38 that engages with a door inner side drop prevention lip 56a of the glass run 8 described later is provided on the door inner sash inner surface 36 a.

The door outer engaging plate portion 35b is constituted by the door outer side plate portion 23b of the glass run 5 disposed on the door inner side, and the door window portion 4 side end portion of the sash portion 11 of the door outer panel 2 disposed on the door outer side. The door outer engaging plate portion 35b is provided with a door outer sash inner surface 36b on the door inner side, and a door outer sash end surface 37b on the front end edge portion on the door window portion 4 side. The door outer sash inner surface 36b has a folded region 44 formed by the front end edge of the sash portion 11 of the folded door outer panel 2 and a non-folded region 45 formed by the door outer side panel portion 23b of the glass run 5. The door outer sash inner surface 36b is constituted by the door outer side plate portion 23b and the door window 4 side end portion of the sash 11 of the door outer panel 2.

The door inner sash inner side surface 36a and the door outer sash inner side surface 36b face each other, and the door inner sash end surface 37a and the door outer sash end surface 37b extend in directions away from each other. The window frame portion 33 is formed of the door outer panel 2, the door inner panel 3, and the glass run 5, but is not limited thereto, and may be formed of, for example, 1 panel.

The front-channel bracket 6 is a plate body extending in the door vertical direction, integrally includes a front lower-channel coupling portion 40 and a front door built-in fixing portion 41, and is disposed on the door outer side (in the closed space) of the front upper end portion of the door window opening lower region 15 of the door inner panel 3. The front door inner fixing portion 41 is fixed in a state of being in surface contact with the outer surface of the door outer side of the front upper end portion of the door window opening lower region 15 of the door inner panel 3. The lower end portion of the front lower guide groove portion 24 is fixed to the door outer surface of the front lower guide groove coupling portion 40.

The rear-channel bracket 7 is a plate body extending in the door vertical direction, and integrally includes a rear-lower-channel coupling portion 42 and a rear-door-interior fixing portion 43, and is disposed on the outer surface of the door outer side (in the closed space) at the rear upper end portion of the door window opening lower region 15 of the door inner panel 3. The rear door interior fixing portion 43 is fixed in surface contact with the outer surface of the door outer side of the rear upper end portion of the door window opening lower region 15 of the door inner panel 3. The lower end portion of the rear lower guide groove portion 25 is fixed to the outer surface of the door outer side of the rear lower guide groove coupling portion 42.

That is, in the glass run 5, the lower end portion of the front lower guide groove portion 24 of the glass run 5 is fixed to the door outer surface of the front upper end portion of the door window opening lower region 15 of the door inner panel 3 via the front-run bracket 6, and the lower end portion of the rear lower guide groove portion 25 of the glass run 5 is fixed to the door outer surface of the rear upper end portion of the door window opening lower region 15 of the door inner panel 3 via the rear-run bracket 7.

As shown in fig. 3 and 4, the glass run 8 has a glass run main body 50 and a lip 51. The glass run channel main body 50 is provided with a glass run channel side wall portion 52 having a cross-sectional shape of "コ" extending in the longitudinal direction. The glass run side wall portion 52 includes a door inner side glass run side wall portion (inner side glass run side wall portion) 52a and a door outer side glass run side wall portion (outer side glass run side wall portion) 52 b. The door inner side glass run channel side wall portion 52a and the door outer side glass run channel side wall portion 52b are opposed to and separated from each other. A glass inlet recess 54 that extends in the longitudinal direction and into which an end edge portion of the door panel 9 enters is provided on the door window portion 4 side of the glass run channel body 50. A fitting projection 53 is provided on the window frame portion 33 side of the glass run channel main body 50. The fitting protrusion 53 has a cross-sectional protrusion shape extending in the longitudinal direction, and is fitted into the fitting recess 34 of the window frame portion 33. The door inner glass run channel side wall portion 52a and the door outer glass run channel side wall portion 52b are fitted to the fitting recess 34 from the door window portion 4 side by the fitting projection 53 in a posture in which the door inner sash inner surface 36a and the door outer sash inner surface 36b face each other, and the glass run channel body 50 is attached to the window frame portion 33.

The lip portion 51 is provided on each of the door outer side glass run channel side wall portion 52b and the door inner side glass run channel side wall portion 52a, and integrally includes a door window lip portion 55, a drop preventing lip portion 56, an engaging lip portion 57, and a wind noise preventing lip portion 58 (lip portion).

The window lip 55 includes a door inner window lip 55a extending from the inside of the door inner side of the glass entry recess 54 toward the door window panel 9, and a door outer window lip 55b extending from the inside of the door outer side of the glass entry recess 54 toward the door window panel 9. The door inner door window lip 55a and the door outer door window lip 55b are in close contact with the end edge portion of the door window panel 9 that enters the glass entrance recess 54.

The anti-drop lip portion 56 includes a door inner anti-drop lip portion 56a extending from the window frame portion 33 side of the door inner side surface of the door inner glass run side wall portion 52a toward the door inner side, and a door outer anti-drop lip portion 56b extending from the window frame portion 33 side of the door outer side surface of the door outer glass run side wall portion 52b toward the door outer side. The door inside anti-drop lip 56a engages with the lip engaging projection 38 in a state where the glass run is attached, and the door outside anti-drop lip 56b engages with the front end edge 2a of the sash portion 11 of the door outer panel 2 in a state where the glass run is attached.

The engagement lip 57 has a door inside engagement lip 57a and a door outside engagement lip 57 b. The door inner engagement lip 57a extends inward from the front end edge portion of the door inner glass run channel side wall portion 52a on the door window portion 4 side, and faces the door inner sash end surface 37a in the glass run channel-mounted state. The door outer engagement lip 57b extends outward from the front end edge portion of the door outer glass run channel side wall portion 52b on the door window portion 4 side, and faces the door outer sash end surface 37b in the glass run channel attached state. The door inner engaging lip portion 57a and the door outer engaging lip portion 57b extend in directions away from each other from the respective front end edge portions of the door inner glass run channel side wall portion 52a and the door outer glass run channel side wall portion 52b on the door window portion 4 side. The door inside engagement lip 57a and the door outside engagement lip 57b face the door inside sash end surface 37a and the door outside sash end surface 37 b. An outer wall portion 59 extending from the door inner end portion to the sash portion 33 side is provided on the door inner side of the door inner engagement lip 57 a. A groove-shaped recess 60 that opens toward the window frame portion 33 is formed between the door inner side glass run channel side wall portion 52a and the outer wall portion 59 of the glass run channel main body 50. In the state where the glass run is mounted, the door inner engaging plate portion 35a is engaged with the groove-like recess 60 from the sash portion 33 side. The groove depth of the groove-like recess 60 is substantially the same as the projection height of the door inner engaging plate portion 35 a.

Two wind-proof lip portions 58 are provided on the outer glass run channel side wall portion 52b, and in a state where the glass run channel is attached, the wind-proof lip portions 58 extend from a region of the outer glass run channel side wall portion 52b that faces the non-folded region 45 toward the non-folded region 45 that is not folded in the inner surface of the door outer engagement plate portion 35 b. The front end portions of the two wind-proof lips 58 abut the non-folded region 45. The heights of the two wind-proof lips 58 are set to be the same.

In the state where the glass run is attached, the fitting protrusion 53 linearly extends along the fitting recess 34, the door inner side glass run channel side wall portion 52a and the door outer side glass run channel side wall portion 52b partition the glass entry recess 54, the door inner side engagement lip 57a is pressed by the door inner side sash end surface 37a and elastically deformed, and the door outer side engagement lip 57b is pressed by the door outer side sash end surface 37b and elastically deformed. The door outer side engagement lip 57b is continuous with the vehicle interior outer side surface of the side plate portion on the vehicle interior outer side in the state where the glass run is attached.

In the glass run 8 configured as described above, the wind noise-proof lip 58 is provided between the non-folded region 45 of the inner surface of the door outer side engagement plate portion 35b that is not folded and the region of the door outer side glass run side wall portion 52b that faces the non-folded region 45. Therefore, no reaction force is generated at the opening-side distal end portion of the door outer-side glass-run-groove side wall portion 52 b. Therefore, the front end portion of the door outer glass run channel side wall portion 52b on the opening side does not curl up, and the aesthetic appearance can be prevented from being lowered.

In the state where the glass run is attached, the wind-proof lip 58 extends from the region of the door outer side glass run side wall portion 52b that faces the non-folded region 45 toward the non-folded region 45 of the inner surface of the door outer side engagement plate portion 35b that is not folded. Therefore, even when wind enters between the window frame portion 33 and the glass run 8, the flow of the wind entering through the lip portion 58 is disturbed, and the flow velocity of the entering wind can be reduced, so wind noise can be suppressed.

In the state where the glass run channel is attached, the lip portion for wind noise prevention 58 abuts on the non-folding region 45 of the window frame portion 33, so that air does not flow between the window frame portion 33 and the glass run channel 8. Therefore, wind noise can be reliably prevented.

In the present embodiment, two wind-proof lip portions 58 are provided on the door outer side glass run channel side wall portion 52b, but the present invention is not limited to this, and at least one lip portion may be provided, and for example, as shown in fig. 5, three wind-proof lip portions 66 may be provided on the door outer side glass run channel side wall portion 52 b.

In the present embodiment, the configuration in which the distal end portion of the wind noise prevention lip 58 abuts against the outer non-folded region 45 is exemplified, but the present invention is not limited to this, and for example, as shown in fig. 5, the distal end portion of the wind noise prevention lip 66 may not abut against the non-folded region 65.

In the present embodiment, the height of the two wind noise prevention lips 58 is set to be the same, but the present invention is not limited thereto. For example, as shown in fig. 5, the heights of the three wind-proof lips 66 may be set individually.

In the present embodiment, the outer wall portion 59 is provided on the door inner side of the door inner side engagement lip 57a so as to extend from the door inner side end portion to the sash portion 33 side. For example, as shown in fig. 5, a door inner sash end surface 62a extending toward the door inner side is provided at a front end edge portion of the door inner engaging plate portion 61a on the door window portion 4 side, and a door inner engaging lip portion 64a extends toward the door inner side from each front end edge portion on the door window portion 4 side with respect to the door inner glass run channel side wall portion 63 a.

While the embodiments of the present disclosure have been described above, the present disclosure is not limited to the descriptions and drawings constituting a part of the disclosure of the embodiments. That is, it is necessary to add other embodiments, examples, application techniques, and the like, which are obtained based on the embodiments by a person skilled in the art, and the like, to the scope of the present disclosure.

The present application is based on the japanese patent application filed on 09/06/2017 (japanese application 2017-171570), the content of which is incorporated herein by reference.

[ Industrial Applicability ]

The glass run according to the present disclosure can be widely used in a door of a vehicle.

[ description of reference numerals ]

1 vehicle door

2 vehicle door outer plate

3 vehicle door inner plate

4 vehicle door and window part

5 glass run channel

8 glass chute

9 vehicle door and window plate

10 door and window opening

11 window frame part

12 upper sash part

13 front sash part

14 rear window frame part

20 upper guide groove part

21 front guide groove part

22 rear channel part

23 side plate part

23a door inside side panel

23b door outer side panel

30 upper window frame part

31 front sash part

32 rear window frame part

33 Window frame part (Window frame)

34 fitting recess

35a, 61a vehicle door inside engaging plate part (inside sash side wall part)

35b vehicle door outside engaging plate part (outside sash side wall part)

36a inner side surface of inner side window frame of vehicle door

36b inner side surface of outer sash of vehicle door

37a, 62a door inner side sash end face

37b door outer sash end face

38 lip snap tabs

44 fold region

45. 65 non-folded region

50 glass run channel body

51 lip

52 glass run side wall portion

52a, 63a vehicle door inner glass run side wall portion (inner glass run side wall portion)

52b vehicle door outside glass run side wall portion (outside glass run side wall portion)

53 fitting protrusion

54 glass entering recess

Lip for 55 door and window

Lip for 55a door inner side door window

Lip for 55b door outer side door window

56 anti-drop lip

56a lip for preventing the inner side of a vehicle door from falling off

56b door outside anti-drop lip

57 snap-fit lip

57a, 64a door inside engagement lip

57b outside door engaging lip

58. 66 lip part for preventing wind noise (lip part)

59 outer wall part

60 groove-like recess

Claims (2)

1. A glass run channel which is an elastic body mounted on a sash fixedly provided with respect to the door, the sash having an inner sash side wall portion and an outer sash side wall portion, wherein the inner sash side wall portion defines a door width direction inner side of a fitting recess that opens along a door window opening of a door of a vehicle, the outer sash side wall portion defines a door width direction outer side of the fitting recess, and a front end portion thereof is folded toward the door width direction inner side; the glass run is characterized by comprising:

a glass run channel main body integrally including an inner glass run channel side wall portion and an outer glass run channel side wall portion that are opposed to each other and separated from each other, the inner glass run channel side wall portion and the outer glass run channel side wall portion being fitted to the fitting recess portion of the sash from the door window side in a posture opposed to the inner sash side wall portion and the outer sash side wall portion; and

at least one lip portion extending from an area of the outer-side glass run channel side wall portion, which is opposed to the non-folded area, toward the non-folded area of the inner surface of the outer-side sash side wall portion, in a state where the glass run channel main body is fitted to the glass run channel mounted in the fitting recess.

2. A glass run according to claim 1,

the at least one lip abuts the non-folded region of the window frame in a state where the glass run channel is installed.

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