Patent Publication Number: US-2023142614-A1

Title: Vehicular molding

Description:
TECHNICAL FIELD 
     The present invention relates to a vehicular molding. Priority is claimed on Japanese Patent Application No. 2020-062500, filed Mar. 31, 2020, the content of which is incorporated herein by reference. 
     BACKGROUND ART 
     In recent years, a vehicle such as a four-wheeled vehicle is equipped with a molding such as an outside molding. An outside molding is attached to an upper edge part of a door panel and prevents foreign matter and water from entering a gap between the outside molding and a door glass of the door panel. The outside molding has a base part attached to the door panel and a plurality of lips provided to protrude from the base part to a door panel side. For example, Patent Document 1 discloses an outside molding including, as the lips, two touch lips abutting on the door glass. 
     CITATION LIST 
     Patent Document 
     
         
         [Patent Document 1] 
       
    
     Japanese Unexamined Patent Application, First Publication No. 2012-171559 
     SUMMARY OF INVENTION 
     Technical Problem 
     By the way, when the touch lip as described above is brought into contact with the door glass, the touch lip and the door glass are brought into close contact with each other, but a space is created between the touch lip and the base part. When outside air flows into the space between the touch lip and the base part when a vehicle is traveling or the like, the base part and the touch lip may vibrate due to the flow of the outside air, and an abnormal noise (so-called wind noise) may occur. 
     The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to suppress occurrence of the abnormal noise when the vehicle is traveling or the like in a vehicular molding provided with a touch lip. 
     Solution to Problem 
     The present invention adopts the following configuration as means for solving the above problems. 
     According to a first aspect of the present invention, a vehicular molding includes a base part connected to a door panel; an upper touch lip and a lower touch lip that are supported by the base part and arranged in a vertical direction, wherein the upper touch lip includes an upper root part fixed to the base part, an upper sliding part connected to a tip end of the upper root part and configured to be slid with respect to a retractable door glass, and a sealing part extending from the tip end of the upper sliding part toward the base part and having a tip end part attachable to and detachable from the base part, the lower touch lip includes a lower root part fixed to the base part, and a lower sliding part connected to a tip end of the lower root part and is slid with respect to the retractable door glass, and the tip of the upper sliding part is located outside a tip end of the lower sliding part with respect to the base part as a center in a state where the tip end of the upper sliding part is not in contact with the retractable door glass. 
     According to a second aspect of the present invention, in the first aspect, the vehicular molding further includes an upper lip provided at the base part above the upper touch lip, in which the tip end part of the sealing part is attachable to and detachable from the base part at a position below the upper lip. 
     According to a third aspect of the present invention, in the second aspect, the sealing part includes: a root extension part extending upward from the upper sliding part toward the base part, and the tip end part extending downward from a tip end of the root extension part toward the base part, and a bent part whose corner part is directed toward the upper lip is provided at a connection location between the root extension part and the tip end part. 
     According to a fourth aspect of the present invention, in the third aspect, the root extension part is set to a shape that does not contact the upper lip until the bent part abuts on the base part by rotating the upper sliding part around a connection location with the upper root part as a center. 
     Effects of Invention 
     In the present invention, the upper touch lip includes a sealing part that extends from the tip end of the upper sliding part toward the base part and has a tip end part that is attachable to and detachable from the base part. Therefore, for example, when the upper sliding part is tilted toward the base part by a reaction force from the retractable door glass, the sealing part abuts on the base part and it is possible to suppress the inflow of outside air between the upper touch lip and the base part. 
     Further, due to variations in mounting accuracy and the like, a separation distance of the retractable door glass from the vehicular molding is not constant for each vehicle. That is, positions of the vehicular molding and the retractable door glass may vary from vehicle to vehicle. Even in such a case, in the present invention, the tip end of the upper sliding part is located outside the tip end of the lower sliding part with respect to the base part as a center. Therefore, the upper touch lip provided with the sealing part can be more easily brought into contact with the retractable door glass than the lower touch lip. Therefore, even when the position of the retractable door glass is farther from the vehicular molding than a reference position, according to the vehicular molding of the present invention, the sealing part can be surely brought into contact with the base part, and it is possible to suppress the inflow of outside air between the upper touch lip and the base part. 
     As described above, according to the present invention, it is possible to suppress the inflow of outside air between the upper touch lip and the base part, and to suppress occurrence of an abnormal noise when the vehicle is traveling or the like in the vehicular molding provided with the touch lip. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         FIG.  1    is a front view showing a front door of a vehicle in which an outside molding is installed according to an embodiment of the present invention. 
         FIG.  2    is a cross-sectional view showing the outside molding according to the embodiment of the present invention, and is a cross-sectional view taken along a line A-A of  FIG.  1   . 
         FIG.  3    is a cross-sectional view of the outside molding according to the embodiment of the present invention, which shows a state in which a door glass is disposed at a reference position. 
         FIG.  4    is a cross-sectional view of the outside molding according to the embodiment of the present invention, which shows a state in which the door glass is disposed at a position slightly farther from the outside molding than the reference position. 
         FIG.  5    is a cross-sectional view of the outside molding according to the embodiment of the present invention, which shows a state in which the door glass is disposed at a position slightly closer to the outside molding than the reference position. 
     
    
    
     DESCRIPTION OF EMBODIMENTS 
     Hereinafter, an embodiment of a vehicular molding according to the present invention will be described with reference to the drawings. 
       FIG.  1    is a front view showing a front door  10  of a vehicle in which an outside molding  1  (i.e., vehicular molding) of the present embodiment is installed. As shown in  FIG.  1   , the front door  10  of the vehicle includes a door panel  11 , a window frame  12 , a door glass  13  (i.e., retractable door glass), and the outside molding  1 . The door panel  11  is a strength member formed of a steel sheet, and has, for example, a door outer panel which is an exterior panel and a door inner panel disposed inside the door outer panel. The window frame  12  is a frame body provided on an upper part of the door panel  11 . The door glass  13  is disposed in an area surrounded by the window frame  12 , and is raised and lowered by a lifting mechanism (that is not shown). 
     The outside molding  1  of the present embodiment is a long component extending in a front-rear direction of the vehicle (i.e., horizontal direction in  FIG.  1   ) and fixed to and upper end of the door panel  11 , and is disposed to fill a gap between the door panel  11  and the door glass  13 . 
       FIG.  2    is a cross-sectional view taken along a line A-A of  FIG.  1   . As shown in  FIG.  2   , the door panel  11  to which the outside molding  1  of the present embodiment is attached has an upper end part which is folded back from an outside toward an inside of the vehicle. Hereinafter, the part which is folded back of the door panel  11  is referred to as a folded part  11   a . The door panel  11  has a shape in which the folded part  11   a  is provided from one end to the other end in the front-rear direction of the vehicle. 
     As shown in  FIG.  2   , the outside molding  1  of the present embodiment includes a base part  2 , an upper touch lip  3 , a lower touch lip  4 , a decorative lip  5  (i.e., upper lip), a cushioning lip  6 , and an upper tilt-preventing part  7 , a lower tilt-preventing part  8 . An end part of the base part  2  is, for example, an open end and is equipped with an end cap. 
     The base part  2  is a strength member for ensuring a rigidity of the outside molding  1  of the present embodiment and is formed of, for example, a hard resin. The base part  2  is disposed along an extending direction of the outside molding  1 . As shown in  FIG.  2   , the base part  2  is formed by integrating an exterior wall part  2   a , an upper wall part  2   b , an intermediate wall part  2   c , and a lower wall part  2   d . Further, the base part  2  has an inverted U-shape as a whole in a cross-sectional shape by disposing the upper wall part  2   b , the intermediate wall part  2   c , and the lower wall part  2   d  to face the exterior wall part  2   a . That is, since the upper wall part  2   b , the intermediate wall part  2   c , and the lower wall part  2   d  are disposed to face the exterior wall part  2   a , the entire base part  2  is formed to have an inverted U-shaped cross section. 
     The exterior wall part  2   a  is a portion disposed toward the outside of the vehicle when the outside molding  1  is mounted on the door panel  11 . An upper end of the exterior wall part  2   a  is curved and connected to an upper end of the upper wall part  2   b . Further, the exterior wall part  2   a  has a lower end protrusion part  2   a   1  protruding from an inner wall surface of a lower end part toward an inside (i.e., upper wall part  2   b , etc.) of the base part  2 . An outer surface of the exterior wall part  2   a  is a design surface that can be visually recognized from the outside. A surface treatment may be performed on the outer surface of the exterior wall part  2   a  in order to improve a weather resistance and a design property. 
     The upper wall part  2   b  is a portion extending downward from the upper end of the exterior wall part  2   a . The upper wall part  2   b  has a vertical dimension of about half of a vertical dimension of the exterior wall part  2   a , and has an outer surface (i.e., a surface on an upper touch lip  3  side) which is a substantially vertical surface. That is, the vertical dimension of the upper wall part  2   b  is about half of the vertical dimension of the exterior wall part  2   a , and the outside surface (i.e., the surface on the upper touch lip  3  side) of the upper wall part  2   b  is a surface extending along a substantially vertical direction. The outside surface of the upper wall part  2   b  is a sealing surface  2   b   1  to which a sealing part  3   c , which is described below, of the upper touch lip  3  is contactable. 
     The intermediate wall part  2   c  is a portion where an upper end thereof is connected to a lower end of the upper wall part  2   b  and a lower end thereof is an upper end of the lower wall part  2   d . That is, the intermediate wall part  2   c  is a portion disposed between the upper wall part  2   b  and the lower wall part  2   d , and connecting the upper wall part  2   b  and the lower wall part  2   d . As shown in  FIG.  2   , the intermediate wall part  2   c  is disposed in an inclined manner to be displaced toward the door glass  13  side (i.e., a direction away from the exterior wall part  2   a ) as the intermediate wall part  2   c  extends downward. An outside surface of the intermediate wall part  2   c  (i.e., a surface on the upper touch lip  3  side) is an inclined surface  2   c   1  that is displaced toward the door glass  13  side as the inclined surface extends from the upper wall part  2   b  side toward the lower wall part  2   d  side. A root part  3   a  (i.e., an upper root part) of the upper touch lip  3 , which will be described below, is fixed to the inclined surface  2   c   1 . A vertical dimension of the intermediate wall part  2   c  is set smaller than the vertical dimension of the upper wall part  2   b , and the lower end of the intermediate wall part  2   c  is located above a lower end of the exterior wall part  2   a . That is, the vertical dimension of the intermediate wall part  2   c  is set smaller than the vertical dimension of the upper wall part  2   b , and the lower end of the intermediate wall part  2   c  is located above the lower end of the exterior wall part  2   a.    
     The lower wall part  2   d  is a portion extending downward from the lower end of the intermediate wall part  2   c . A vertical dimension of the lower wall part  2   d  is substantially equal to the vertical dimension of the upper wall part  2   b , and a lower end of the lower wall part  2   d  is located below the lower end of the exterior wall part  2   a . Further, an outside surface of the lower wall part  2   d  (i.e., a surface on a lower touch lip  4  side) is a substantially vertical surface. That is, the vertical dimension of the intermediate wall part  2   c  is substantially equal to the vertical dimension of the upper wall part  2   b , and the outer surface of the lower wall part  2   d  (i.e., the surface on the lower touch lip  4  side) is a surface extending along a substantially vertical direction. The outside surface of the lower wall part  2   d  is a contact surface  2   d 1 to which a root part  4   a  (i.e., a lower root part), which is described below, of the lower touch lip  4  is fixed and with which a reaction force adjustment protrusion part  4   c , which is described below, of the lower touch lip  4  is brought into contact. 
     In the present embodiment, as shown in  FIG.  2   , the lower wall part  2   d  is disposed closer to the door glass  13  side (i.e., a side where the upper touch lip  3  and the lower touch lip  4  are disposed) than the upper wall part  2   b . As a result, the contact surface  2   d 1 of the lower wall part  2   d  is disposed closer to the door glass  13  side than the sealing surface  2   b   1  of the upper wall part  2   b.    
     Further, as shown in  FIG.  2   , the lower wall part  2   d  has a retaining part  2   d   2  protruding from an inner wall surface of a lower end part toward the inside (i.e., exterior wall part  2   a ) of the base part  2 . The retaining part  2   d 2 is a protrusion part for preventing the outside molding  1  from being not easily detached from the door panel  11  when the tip end  11   b  of the door panel  11  facing downward due to the curved door panel  11  is brought into contact with the retaining part  2   d   2  from above. 
     The upper touch lip  3 , the lower touch lip  4 , the decorative lip  5 , the cushioning lip  6 , the upper tilt-preventing part  7  and the lower tilt-preventing part  8  are fixed to the base part  2 , and are, for example, formed of soft resins. Of these, the upper touch lip  3  and the lower touch lip  4  are slidably abutted on a surface of the door glass  13 . 
       FIG.  2    shows a state in which the door glass  13  is fully opened and the door glass  13  is not abutted on the upper touch lip  3  and the lower touch lip  4 . That is, in  FIG.  2   , the upper touch lip  3  and the lower touch lip  4  are in a state of not receiving a pressing force from the door glass  13 . The posture of the upper touch lip  3  and the lower touch lip  4  shown in  FIG.  2    is referred to as a reference posture. 
     Meanwhile, as the door glass  13  approaches a closed state from the fully opened state, the door glass  13  approaches the upper touch lip  3  and the lower touch lip  4 , and the pressing force received by the upper touch lip  3  and the lower touch lip  4  from the door glass  13  gradually increases. Further, the upper touch lip  3  and the lower touch lip  4  are tilted toward the base part  2  side as the door glass  13  approaches the closed state. The posture of the upper touch lip  3  and the lower touch lip  4  when the door glass  13  is fully closed is referred to as a closed posture. 
     The upper touch lip  3  is a portion which is tilted between the reference posture and the closed posture in accordance with the door glass  13  being opened and closed. The upper touch lip  3  has the root part  3   a  (i.e., an upper root part), a sliding part  3   b  (i.e., an upper sliding part), and a sealing part  3   c . The root part  3   a  is a portion of the upper touch lip  3  which is directly fixed to the base part  2 . In the present embodiment, the root part  3   a  of the upper touch lip  3  is fixedly formed on the inclined surface  2   c   1  of the intermediate wall part  2   c  of the base part  2 . As shown in  FIG.  2   , the root part  3   a  extends in a horizontal direction from the inclined surface  2   c   1  and the sliding part  3   b  is connected to the tip end thereof. In a longitudinal cross-section shown in  FIG.  2   , an upper surface and a lower surface of the root part  3   a  are parallel to each other for a certain distance from the inclined surface  2   c   1  toward the tip end to which the sliding part  3   b  is connected. That is, the upper surface and the lower surface of the root part  3   a  are formed in parallel with each other for a certain distance in a direction from the inclined surface  2   c   1  toward the tip end of the root part  3   a  to which the sliding part  3   b  is connected. Thereafter, a surface of the sliding part  3   b  is connected to the upper surface of the root part  3   a  so as to be bent upward, and the lower surface of the root part  3   a  is connected to a surface of the sliding part  3   b  so as to be curved upward. That is, in the present embodiment, the root part  3   a  does not have a constricted portion formed such that both the upper surface and the lower surface are close to each other in a portion until the root part  3   a  is connected to the sliding part  3   b . That is, the root part  3   a  does not have the constricted portion formed such that both the upper surface and the lower surface are close to each other in the portion from the inclined surface  2   c   1  to the tip end connected to the sliding part  3   b . According to the root part  3   a , a portion where a thickness dimension is locally reduced is not provided. That is, the root part  3   a  is not provided with the portion where the thickness dimension is locally reduced. Therefore, it is possible to prevent a tilting center when the sliding part  3   b  is pressed by the door glass  13  and tilted, from concentrating on any one location. Therefore, it is possible to prevent only one location from being locally fatigued at a connection portion between the root part  3   a  and the sliding part  3   b.    
     As shown in  FIG.  2   , the sliding part  3   b  is a portion extending obliquely upward, which is a side opposite to the base part  2 , from the root part  3   a  and is directly abutted on the door glass  13 . The sliding part  3   b  slides with respect to the surface of the door glass  13  when the door glass  13  is raised and lowered. Further, the sliding part  3   b  has a shape in which a thickness dimension is most expanded at a central part, and the root part  3   a  side and the tip end side to which the sealing part  3   c  is connected have thickness dimensions smaller than that of the central part in a direction from the root part  3   a  toward the tip end. That is, in the central part of the sliding part  3   b  located at a center between a base end and a tip end, the thickness dimension of the sliding part  3   b  is the largest, and in the base end, a portion near the base end, the tip end, and a portion near the tip end of the sliding part  3   b , the thickness dimension of the sliding part  3   b  is smaller than that of the central part. Although not shown in  FIG.  2   , a low friction layer that reduces the sliding resistance with the door glass  13  may be formed on the surface of the sliding part  3   b.    
     The tip end  3   d  of the sliding part  3   b  is a portion of the upper touch lip  3  located closest to the door glass  13  side. A tip end  4   d  of a sliding part  4   b , which is described below, of the lower touch lip  4  is a portion of the lower touch lip  4  located closest to the door glass  13  side. As shown in  FIG.  2   , in the reference posture, the tip end  3   d  of the sliding part  3   b  of the upper touch lip  3  is disposed outside the tip end  4   d  of the sliding part  4   b  of the lower touch lip  4  with respect to the base part  2  as a center. That is, as shown in  FIG.  2   , when viewed from the base part  2  side, the upper touch lip  3  protrudes farther than the lower touch lip  4  by a distance D. As described above, in the outside molding  1  of the present embodiment, the upper touch lip  3  provided with the sealing part  3   c  is provided to protrude toward the door glass  13  side with respect to the lower touch lip  4  without the sealing part. 
     The sealing part  3   c  is a portion extending from the tip end of the sliding part  3   b  toward the base part  2 . As shown in  FIG.  2   , in the reference posture, the sealing part  3   c  has a root extension part  3   e  that extends upward from the sliding part  3   b  toward the base part  2  and a tip end part  3   f  that extends downward from a tip end of the root extension part  3   e  toward the base part  2 . At a connection location between the root extension part  3   e  and the tip end part  3   f , a bent part  3   g  whose corner part is directed toward the decorative lip  5  is provided. That is, the sealing part  3   c  is bent such that an intermediate portion protrudes toward the decorative lip  5 . That is, the intermediate portion of the sealing part  3   c  forms the bent part  3   g  that bends to form the corner part that protrudes toward the decorative lip  5 . The root extension part  3   e  is set to a shape that does not come into contact with the decorative lip  5  until the bent part  3   g  abuts on the base part  2  by rotating the sliding part  3   b  around a connection location with the root part  3   a  as a center. That is, the root extension part  3   e  does not come into contact with the decorative lip  5  before the bent part  3   g  comes into contact with the base part  2 . That is, in the present embodiment, the upper touch lip  3  provided with the sealing part  3   c  has a substantially V-shape that gradually separates from the base part  2  as the upper touch lip  3  extends from the root part  3   a  toward the tip end of the sliding part  3   b , and returns to (i.e., approaches) the base part  2  side as the upper touch lip  3  extends from the tip end of the sliding part  3   b  toward the tip end of the sealing part  3   c.    
     The root extension part  3   e  of the sealing part  3   c  has a shape that extends upward from the sliding part  3   b  toward the base part  2 . The root extension part  3   e  of the sealing part  3   c  does not come into contact with the decorative lip  5 , but narrows a space between the decorative lip  5  and the root extension part  3   e  from the reference posture toward the closed posture. The tip end part  3   f  is a portion that can be detached from or attached to the base part  2 . The tip end part  3   f  is bent with respect to the root extension part  3   e  so as to approach a state parallel to the sealing surface  2   b   1  of the base part  2 . The tip end part  3   f  is brought into surface contact with the sealing surface  2   b   1  when the upper touch lip  3  is in the closed posture by the sliding part  3   b  being strongly pressed by the door glass  13 . In this way, the tip end part  3   f  of the sealing part  3   c  comes into contact with the sealing surface  2   b   1  of the base part  2 , so that a gap between the upper touch lip  3  and the base part  2  is sealed. As a result, it is possible to suppress the entry of water or outside air between the upper touch lip  3  and the base part  2 . 
     The lower touch lip  4  is disposed below the upper touch lip  3  as shown in  FIG.  2   . That is, the upper touch lip  3  and the lower touch lip  4  are arranged in a vertical direction. Similar to the upper touch lip  3 , the lower touch lip  4  is a portion that is tilted between the reference posture and the closed posture in accordance with the door glass  13  being opened and closed. The lower touch lip  4  includes a root part  4   a  (i.e., a lower root part), a sliding part  4   b  (i.e., a lower sliding part), and a reaction force adjustment protrusion part  4   c.    
     The root part  4   a  is a portion of the lower touch lip  4  which is directly fixed to the base part  2 . In the present embodiment, the root part  4   a  of the lower touch lip  4  is fixedly formed on the contact surface  2   d 1 of the lower wall part  2   d  of the base part  2 . As shown in  FIG.  2   , the root part  4   a  extends in a horizontal direction from the contact surface  2   d 1 and the sliding part  4   b  is connected to the tip end thereof. In a longitudinal cross-section shown in  FIG.  2   , an upper surface and a lower surface of the root part  4   a  are parallel to each other for a certain distance from the contact surface  2   d 1 toward the tip end to which the sliding part  4   b  is connected. That is, the upper surface and the lower surface of the root part  4   a  are formed in parallel to each other for a certain distance from the contact surface  2   d 1 toward the tip end to which the sliding part  4   b  is connected. Thereafter, a surface of the sliding part  4   b  is connected to the upper surface of the root part  4   a  so as to be bent upward, and the lower surface of the root part  4   a  is connected to a surface of the sliding part  4   b  so as to be curved upward. That is, in the present embodiment, the root part  4   a  does not have a constricted portion formed such that both the upper surface and the lower surface are close to each other in a portion until the root part  4   a  is connected to the sliding part  4   b . That is, the root part  4   a  does not have the constricted portion formed such that both the upper surface and the lower surface are close to each other between the base end and the tip end. According to the root part  4   a , a portion where a thickness dimension is locally reduced is not provided. That is, the root part  4   a  is not provided with the portion where the thickness dimension is locally reduced. Therefore, it is possible to prevent a tilting center when the sliding part  4   b  is pressed by the door glass  13  and tilted, from concentrating on any one location. Therefore, it is possible to prevent only one location from being locally fatigued at a connection portion between the root part  4   a  and the sliding part  4   b . Further, a change rate of a reaction force acting on the door glass  13  from the lower touch lip  4  caused by raising and lowering the door glass  13  can be moderated. Therefore, a sliding resistance when the door glass  13  is raised and lowered is unlikely to change, so that it is possible to prevent a lifting speed of the door glass  13  from changing suddenly. 
     As shown in  FIG.  2   , the sliding part  4   b  is a portion extending obliquely upward, which is a side opposite to the base part  2 , from the root part  4   a  and is directly abutted on the door glass  13 . The sliding part  4   b  slides with respect to the surface of the door glass  13  when the door glass  13  is raised and lowered. Further, the sliding part  4   b  has a shape in which a thickness dimension is most expanded at a central part, and the root part  4   a  side and the tip end side have thickness dimensions smaller than that of the central part in a direction from the root part  4   a  toward the tip end. That is, in the central part of the sliding part  4   b  located at a center between a base end and a tip end, the thickness dimension of the sliding part  4   b  is the largest, and in the base end, a portion near the base end, the tip end, and a portion near the tip end of the sliding part  4   b , the thickness dimension of the sliding part  4   b  is smaller than that of the central part. Although not shown in  FIG.  2   , a low friction layer that reduces the sliding resistance with the door glass  13  may be formed on the surface of the sliding part  4   b.    
     As shown in  FIG.  2   , the reaction force adjustment protrusion part  4   c  is a protrusion part provided to protrude from the surface of the sliding part  4   b  on the base part  2  side in a direction coming close to the base part  2 . The reaction force adjustment protrusion part  4   c  is formed such that a root thereof spreads in a fillet shape and is connected to the sliding part  4   b , and further, the reaction force adjustment protrusion  4   c  is curved toward a tip end thereof so as to be directed in the same direction as a direction in which the tip end of the sliding part  4   b  is directed. The reaction force adjustment protrusion part  4   c  increases the reaction force acting on the door glass  13  from the lower touch lip  4  by abutting on the base part  2 . 
     The decorative lip  5  is provided to protrude from a connection part between the exterior wall part  2   a  and the upper wall part  2   b  of the base part  2  toward the upper touch lip  3  side. The decorative lip  5  is provided on the base part  2  above the upper touch lip  3  and hides a space between the upper touch lip  3  and the base part  2 . Further, in the present embodiment, as shown in  FIG.  2   , a length dimension of the decorative lip  5  from the base part  2  is set (or formed) such that the decorative lip  5  overlaps the tip end part  3   f  of the sealing part  3   c  of the upper touch lip  3  in the reference posture when viewed from above. According to the decorative lip  5 , it is possible to suppress the entry of foreign matter and water between the base part  2  and the upper touch lip  3  in the reference posture. 
     The cushioning lip  6  is a lip formed to protrude downward from the lower end of the exterior wall part  2   a  of the base part  2  and elastically deforms by abutting on the door panel  11 . The cushioning lip  6  prevents rainwater or the like from entering between the door panel  11  and the outside molding  1  of the present embodiment, and absorbs variations during mounting. 
     The upper tilt-preventing part  7  is a portion provided to protrude from the inner wall surface of the exterior wall part  2   a  toward the door panel  11 . The lower tilt-preventing part  8  is disposed below the upper tilt-preventing part  7 , and is formed to protrude from a tip end of the lower end protrusion part  2   a   1  of the exterior wall part  2   a . The upper tilt-preventing part  7  and the lower tilt-preventing part  8  hold the posture of the outside molding  1  with respect to the door panel  11  by abutting on the door panel  11 . 
     In the outside molding  1  of the present embodiment, when the door glass  13  is closed from an opened state, the upper touch lip  3  and the lower touch lip  4  are tilted from the reference posture to the closed posture. In the reference posture, the sealing part  3   c  of the upper touch lip  3  is separated from the sealing surface  2   b   1 . When the door glass  13  is raised, the door glass  13  comes into contact with the sliding part  3   b  of the upper touch lip  3  and the sliding part  4   b  of the lower touch lip  4 . Since the door glass  13  approaches the base part  2  by being raised, the sliding part  3   b  is tilted to approach the base part  2 , and the tip end part  3   f  of the sealing part  3   c  comes into contact with the sealing surface  2   b   1 . 
     The outside molding  1  of the present embodiment as described above includes the base part  2  connected to the door panel  11  and the upper touch lip  3  and the lower touch lip  4  supported by the base part  2  and arranged in a vertical direction. Further, the upper touch lip  3  has the root part  3   a  fixed to the base part  2 , the sliding part  3   b  that is connected to the tip end of the root part  3   a  and is slid with respect to the door glass  13 , and the sealing part  3   c  that extends from the tip end of the sliding part  3   b  toward the base part  2  and has the tip end part  3   f  that can be attached to and detached from the base part  2 . Further, the lower touch lip  4  has the root part  4   a  fixed to the base part  2  and the sliding part  4   b  that is connected to the tip end of the root part  4   a  and is slid with respect to the door glass  13 . Further, the tip end  3   d  of the sliding part  3   b  is located outside the tip end  4   d  of the sliding part  4   b  with respect to the base part  2  as a center in a state where the tip end  3   d  is not in contact with the door glass  13 . 
     In the outside molding  1  of the present embodiment, the upper touch lip  3  includes the sealing part  3   c  extending from the tip end of the sliding part  3   b  toward the base part  2 , and having the tip end part  3   f  that can be attached to and detached from the base part  2 . Therefore, for example, when the sliding part  3   b  is tilted toward the base part  2  by the reaction force from the door glass  13 , the sealing part  3   c  comes into contact with the base part  2 . Thus, it is possible to suppress the inflow of outside air between the upper touch lip  3  and the base part  2 . 
     Further, due to variations in mounting accuracy and the like, the separation distance of the door glass  13  from the outside molding  1  is not constant for each vehicle. That is, the positions of the outside molding  1  and the door glass  13  may vary from vehicle to vehicle.  FIG.  3    is a schematic cross-sectional view when the door glass  13  is disposed at the designed reference position. Further,  FIG.  4    is a schematic cross-sectional view when the door glass  13  is disposed at a position slightly farther from the outside molding  1  than the reference position. Further,  FIG.  5    is a schematic cross-sectional view when the door glass  13  is disposed at a position slightly closer to the outside molding  1  than the reference position. In the outside molding  1  of the present embodiment, the tip end of the sliding part  3   b  is located outside the tip end of the sliding part  4   b  with respect to the base part  2  as a center. Therefore, the upper touch lip  3  provided with the sealing part  3   c  can be more easily brought into contact with the door glass  13  than the lower touch lip  4 . Therefore, as shown in  FIGS.  3  to  5   , even when the position of the door glass  13  is displaced with respect to the outside molding  1  from the reference position, the sealing part  3   c  can be surely abutted on the base part  2 . Thus, it is possible to suppress the inflow of outside air between the upper touch lip  3  and the base part  2 . 
     As described above, according to the outside molding  1  of the present embodiment, it is possible to suppress the inflow of outside air between the upper touch lip  3  and the base part  2 . Thus, it is possible to suppress the occurrence of the abnormal noise when the vehicle is traveling or the like in the outside molding  1  provided with the touch lip. 
     Further, in the outside molding  1  of the present embodiment, the decorative lip  5  provided on the base part  2  above the upper touch lip  3  is further provided, and the tip end part  3   f  of the sealing part  3   c  can be attached to and detached from the base part  2  at a position below the decorative lip  5 . Therefore, the decorative lip  5  can cover a contact location between the sealing part  3   c  and the base part  2  from above. Thus, it is possible to prevent the sealing part  3   c  from being separated from the base part  2  due to wind pressure or foreign matter. 
     Further, in the outside molding  1  of the present embodiment, the sealing part  3   c  has the root extension part  3   e  that extends upward from the sliding part  3   b  toward the base part  2  and the tip end part  3   f  that extends downward from the tip end of the root extension part  3   e  toward the base part  2 . The bent part  3   g  whose corner part is directed toward the decorative lip  5  is provided at a connection location between the root extension part  3   e  and the tip end part  3   f . Therefore, the gap between the decorative lip  5  and the sealing part  3   c  can be narrowed by the bent part  3   g . As a result, it is possible to suppress the inflow of outside air between the decorative lip  5  and the sealing part  3   c.    
     Further, in the outside molding  1  of the present embodiment, the root extension part  3   e  is set (or formed) to have a shape that does not come into contact with the decorative lip  5  until the bent part  3   g  abuts on the base part  2  by rotating the sliding part  3   b  around the connection location with the root part  3   a  as a center. Therefore, it is possible to prevent the reaction force received by the upper touch lip  3  from the door glass  13  from unintentionally fluctuating when the root extension part  3   e  comes into contact with the decorative lip  5 . 
     Although the preferred embodiment of the present invention has been described above with reference to the accompanying drawings, the present invention is not limited to the above-described embodiment. The various shapes, combinations and the like of the constituent members shown in the above-described embodiment are examples, and can be variously changed based on design requirements and the like without departing from the spirit of the present invention. 
     For example, in the above embodiment, a configuration in which the base part  2  is formed of the hard resin has been described. However, the present invention is not limited to this configuration. For example, it is also possible to adopt, as the base part  2 , a configuration which includes a metal core material or a configuration which use a member in which the metal core material and the hard resin are joined. 
     Further, in the above embodiment, an example of applying the present invention to the outside molding has been described. However, the present invention is not limited to this configuration. For example, the present invention can be applied to other vehicular moldings. 
     INDUSTRIAL APPLICABILITY 
     According to the present invention, it is possible to suppress the inflow of outside air between the upper touch lip and the base part, and to suppress the occurrence of an abnormal noise when the vehicle is traveling or the like in the vehicular molding provided with the touch lip. 
     REFERENCE SIGNS LIST 
     
         
         
           
               1  Outside molding (i.e., vehicular molding) 
               2  Base part 
               2   a  Exterior wall part 
               2   a   1  Lower end protrusion part 
               2   b  Upper wall part 
               2   b   1  Sealing surface 
               2   c  Intermediate wall part 
               2   c   1  Inclined surface 
               2   d  Lower wall part 
               2   d   1  Contact surface 
               2   d   2  Stop part 
               3  Upper touch lip 
               3   a  Root part (i.e., upper root part) 
               3   b  Sliding part (i.e., upper sliding part) 
               3   c  Sealing part 
               3   d : Tip end 
               3   e  Root extension part 
               3   f  Tip end part 
               3   g  Bent part 
               4  Lower touch lip 
               4   a  Root part (i.e., lower root part) 
               4   b  Sliding part (i.e., lower sliding part) 
               4   c  Reaction force adjustment protrusion part 
               4   d  Tip end 
               5  Decorative lip (i.e., upper lip) 
               11  Door panel 
               13  Door glass