JP6969052B1 - Molding for side visor and side visor for automobiles with this molding - Google Patents

Abstract

PROBLEM TO BE SOLVED: To generate no contact noise when raising and lowering a window glass, to prevent the tip of a molding from being caught, and to discharge the air inside the vehicle to the outside of the vehicle when the window glass is slightly lowered while traveling, and to discharge the air from the outside of the vehicle. It provides a side visor molding that prevents air from entering and provides smooth interior ventilation. SOLUTION: A side visor molding is a window for closing a door window of an automobile side door that closes a mounting surface and a door window formed for mounting on the lower edge of the side visor along the lower edge of the side visor. A plurality of fins erected on the facing surface with a mounting portion having an facing surface facing the surface of the glass and a fin tip approaching the surface of the window glass at a distance from each other in the traveling direction of the automobile and without contact with each other. And. The mounting portion and a plurality of fins are integrally formed by a soft elastic body. Each of the plurality of fins is formed in a plate shape parallel to each other and curved. [Selection diagram] Fig. 2

Description

The present invention relates to a molding that is attached to the window frame of a side door of a cab-over type automobile or a bonnet type automobile and is attached along the lower edge of a side visor suitable for ventilation in the vehicle. The present invention also relates to an automobile side visor having this molding.

Normally, when a car is driven with the window glass closed, the air outside the car taken in from the air supply port formed on the dashboard or the like is discharged to the outside of the car through the ventilation port provided at the rear of the car.

In recent years, due to the epidemic of infectious diseases (for example, new type coronavirus pneumonia COVID-19, severe acute respiratory syndrome SARS, etc.), it is required to ventilate the inside of the vehicle more actively. It was difficult to sufficiently ventilate the inside of the car only with the ventilation port of the car.

As shown in FIG. 23, in the case of a bonnet type automobile, most of the airflow flowing on the bonnet during traveling runs straight up on the windshield and flows backward as shown by the arrow a in FIG. On the other hand, a part of the airflow flowing on the bonnet flows from both sides of the bonnet to both sides of the windshield as shown by the arrow b in FIG. 23, and is guided to both sides by the curved surfaces on both sides of the windshield. That is, it bypasses the front pillar 1 and flows to the side surface of the automobile. At this time, the negative pressure region S is formed immediately behind the front pillar 1 by the airflow b flowing on the side surface of the automobile.

In order to solve the above problems, an attempt is made to lower the window glass of the side door of the automobile a little while driving to achieve natural ventilation. However, as shown in FIG. 24, the first side visor 4a covering the front frame of the window frame 3 inclined forward along the front pillar 1 and the second side visor 4b covering the substantially horizontal upper frame of the window frame 3 When the continuous front door side visor 4 is attached to the front door 5, the first side visor 4a is placed in front of the front door 5 when the window glass 5a of the front door 5 is slightly lowered to provide natural ventilation inside the vehicle. The resistance of the airflow b is strongly received, and a negative pressure is generated on the back surface side. As a result, the air inside the vehicle c is sucked out of the vehicle through the gap of the window glass 5a. On the other hand, in the second side visor 4b, since the second side visor 4b is parallel to the air flow b, no negative pressure is generated on the back surface side of the second side visor 4b. Therefore, the airflow d outside the vehicle enters the vehicle through the gap between the windows (beyond the upper end of the window glass 5a) and swirls inside the vehicle, making it impossible to properly ventilate the air inside the vehicle.

When the rear door side visor 7 is inserted into the rear door 6 and the window glass 6a of the rear door 6 is slightly lowered to travel, the rear door 6 does not have an element that generates negative pressure unlike the front door 5. The airflow e from the outside of the vehicle invades the inside of the vehicle and swirls inside the vehicle. The degree of intrusion of the airflow e from the outside of the vehicle into the vehicle is greater than the degree of intrusion of the airflow d from the outside of the vehicle at the front door 5. As a result, the air inside the vehicle inside the rear door 6 is less ventilated than the air inside the vehicle inside the front door 5.

Therefore, even if the side visors 4 and 7 are attached to the front door 5 and the rear door 6, or not attached, the window glass is used to prevent infectious diseases or to emit smoke from smokers. If you drive with the vehicle lowered a little, there will be air intrusion from the outside of the vehicle, which will cause the air inside the vehicle to swirl, and the air inside the vehicle will not be smoothly sucked out of the vehicle, enabling efficient ventilation. There wasn't.

The applicant can quickly exhaust the air inside the vehicle from the through hole to efficiently ventilate the inside of the vehicle with almost no wind noise, and the air inside the vehicle discharged from the through hole to the outside of the vehicle can be discharged again. We have proposed a side visor for automobiles that prevents the vehicle from entering the vehicle (see Patent Document 1 (Claim 1, Claim 3, Paragraph [0011], FIGS. 1 to 6)). As shown in FIGS. 19 and 20 attached, the side visor 111 shown in Patent Document 1 is attached to the side door 113, and is composed of a first side visor 121, a second side visor 122, and a third side visor 123. A door window 113b partitioned by a window frame 113a is formed on the upper portion of the side door 113, and the door window 113b is opened and closed by raising and lowering the window glass 113c. The side visor 111 is attached to the front frame portion 113d, the upper frame portion 113e, and the rear frame portion 113f of the window frame 113a by the double-sided adhesive tape 114 shown in FIG.

The first side visor 121 is configured to cover the door window 113b from the front portion to the upper portion, bulge outward in the vehicle width direction, and open the lower surface. The second side visor 122 is outside the window glass 113c that covers the upper part of the door window 113b below the first side visor 121 and closes the door window 113b openly, and is from the lower edge end of the first side visor 121. It is located inward in the vehicle width direction and gradually approaches the window glass 113c from the rear end to the front end, and the lower edge end portion is provided close to the outer surface of the window glass 113c. The third side visor 123 is an upper portion of the door window 113b by integrally connecting a portion of the lower edge end portion of the first side visor 121 located at the upper portion of the door window 113b and the upper edge end portion of the second side visor 122. It covers between the first and second side visors 121 and 122 and is curved so as to project upward, extends diagonally upward from the front end to the rear end, and extends diagonally upward from the upper edge end of the second side visor 122 in the vehicle width direction. 1 The side visor 121 is provided so as to extend diagonally upward toward the lower edge end portion. A single or a plurality of through holes 123a, 123b are provided in the front portion of the third side visor 123.

As shown in FIG. 20 attached to the side visor 111 shown in Patent Document 1, a rubber molding 116 is attached by an adhesive along the lower edge portion of the second side visor 122, and the tip of the molding 116 is a window. It is configured to be closer to the outer surface of the glass 113c. Specifically, as shown in FIGS. 21 and 22 attached, the molding 116 has a strip-shaped blade 116a and a strip-shaped blade surface on one side edge of the strip-shaped blade 116a in the longitudinal direction over almost the entire length of the side edge. A band-shaped contact piece 116b for contacting the end surface of the lower edge end portion 122a of the second side visor 122 is integrally formed. Then, after filling the surface of the band-shaped contact piece 116b on the lower edge end side of the second side visor 122 with an adhesive (not shown), the band-shaped contact piece 116b is brought into contact with the lower edge end 122a of the second side visor 122 and adhered to the band-shaped contact piece 116b. The molding 116 was attached by curing the agent. In this molding 116, as shown in FIG. 20, the tip of the band-shaped blade 116a is configured to approach the outer surface of the window glass 113c with a slight gap.

On the other hand, when traveling with the window glass lowered a little, by suppressing the entrainment of wind around the upper frame part of the window frame, it is stable in the car from the air supply port formed on the dashboard etc. toward the gap of the window. Disclosed is an inside visor for automobiles, which creates an air flow and allows good natural ventilation in the vehicle (see, for example, Patent Document 2 (claims 1 to 3, paragraphs [0007], FIG. 8). ).

The inside visor for automobiles shown in Patent Document 2 is attached to the inner surface of the vehicle rather than the window glass of the window frame, and has a stop-wearing ear portion facing the inner surface of the upper frame portion and the rear frame portion of the window frame, and the stop. It includes a bent plate portion that is bent outward from the worn ear portion, and a hanging plate portion that is continuously provided along the inner surface of the window glass from the outer end of the bent plate portion. The lower edge of the hanging plate portion is arranged close to the inner surface of the window glass, and the lower edge of the hanging plate portion is provided with a sealing material that is in sliding contact with the inner surface of the window glass.

Japanese Unexamined Patent Publication No. 2011-189831 Japanese Unexamined Patent Publication No. 2001-328427

The side visor 111 shown in Patent Document 1 includes a plurality of through holes 123a and 123b provided in the front portion of the third side visor 123, and a molding 116 having a band-shaped blade 116a whose tip approaches the outer surface of the window glass 113c. This has the effect of preventing the airflow outside the vehicle from entering the vehicle to some extent, but the tip of the strip-shaped blade 116a of the molding 116 does not touch the outer surface of the window glass 113c, and the tip is on the outer surface of the window glass 113c. On the other hand, since it only extends linearly and almost straight in the traveling direction of the automobile, when the window glass 113c is slightly lowered and traveled, the gap between the tip of the band-shaped blade 116a of the molding 116 and the outer surface of the window glass 113c. Therefore, as shown by the arrows m and n, the airflow outside the vehicle still invades the inside of the vehicle, the air inside the vehicle swirls, the air inside the vehicle is not smoothly sucked out of the vehicle, and efficient ventilation cannot be performed. rice field.

In order to solve this problem, the configuration of the side visor is changed so that the tip of the band-shaped blade 116a of the molding 116 comes into contact with the outer surface of the window glass 113c, and the hanging plate portion of the inside visor shown in Patent Document 2 is provided. When the tip of the sealing material is slidably contacted with the inner surface of the window glass like the sealing material provided on the lower edge, a contact noise may be generated when the window glass is raised or lowered, or the tip of the band-shaped blade or the sealing material of the molding may be generated. Was caught in the window glass, so there was still a problem to be solved.

An object of the present invention is to provide a molding for a side visor that discharges the air inside the vehicle to the outside of the vehicle when the window glass is slightly lowered during traveling, prevents the intrusion of air from the outside of the vehicle, and provides smooth ventilation inside the vehicle. There is something in it. Another object of the present invention is that by providing this molding, no contact noise is generated when the window glass is raised and lowered, the tip of the molding is not likely to be caught, and the window glass is slightly lowered during traveling. The purpose of the present invention is to provide an automobile side visor that exhausts the air inside the vehicle to the outside of the vehicle, prevents the intrusion of air from the outside of the vehicle, and provides smooth ventilation inside the vehicle.

A first aspect of the present invention is, as shown in FIGS. 1 to 18, side visors 11, 12, 31, 32 along the lower edge portions 11d, 12d, 31d, 32d of the side visors 11, 12, 31, 32. On the surface of the window glass 14c, 15c that closes the mounting surfaces 21a, 41a formed for mounting on the lower edge ends 11d, 12d, 31d, 32d and the door windows 14b, 15b of the side doors 14, 15 of the automobile 13. The mounting portions 21, 41 having facing surfaces 21b, 21h, 41b and the fin tips 22a, 42a are spaced apart from each other in the traveling direction of the automobile 13 and approach the surfaces of the windowpanes 14c, 15c in a non-contact manner. A plurality of fins 22 and 42 erected on the facing surfaces 21b, 21h and 41b are provided, and the mounting portions 21 and 41 and the plurality of fins 22 and 42 are integrally formed by a soft elastic body, and the plurality of fins 22 are integrally formed. , 42 are characterized in that they are formed in a plate shape that is parallel to each other and curved.

A second aspect of the present invention is an invention based on the first aspect, wherein the side visors 11 and 12 are attached to the outer upper portion of the door windows 14b and 15b as shown in FIGS. 1 to 13. Each of the plurality of fins 22, 22, ... Is a side visor molding 20 in which the fin upper end portion 22b is located in front of the fin lower end portion 22c and is formed in a curved concave plate shape.

A third aspect of the present invention is an invention based on the first aspect, wherein the side visors 31 and 32 are attached to the inner upper portions of the door windows 14b and 15b as shown in FIGS. 14 to 18. Each of the plurality of fins 42, 42, ... Is a side visor molding 40 in which the fin upper end portion 42b is located behind the fin lower end portion 42c and is formed in a curved convex plate shape.

The fourth aspect of the present invention is an invention based on any one of the first to third aspects, and as shown in FIGS. 1 to 3, 6 and 8 to 18, the mounting portion 21 , 41 are strip-shaped short pieces 21c, 41c formed so as to be in contact with the end face over almost the entire length of the end faces of the lower edge ends 11d, 12d, 31d, 32d of the side visors 11, 12, 31, 32, and the side visor. One surface is formed on the side surface of the lower edge portions 11d, 12d, 31d, 32d of 11, 12, 31, 32 so as to be abuttable over almost the entire length of the side surface, and forms an L-shaped cross section together with the strip-shaped short pieces 21c, 41c. The side visor moldings 20 and 40 are provided with strip-shaped long pieces 21d and 41d.

The fifth aspect of the present invention is the invention based on the fourth aspect, and as shown in FIGS. 1, 2, 6, 6, 8 to 10, and 12 to 18, the strip-shaped long piece 21d, The other surface of the 41d opposite to the one surface is the facing surfaces 21b and 41b, and the side visor moldings 20 and 40 have a plurality of fins 22.42 erected on the facing surfaces 21b and 41b.

The sixth aspect of the present invention is an invention based on any one of the first to third aspects, and as shown in FIG. 11, the mounting portion 21 is formed so as to extend downward from the tip thereof. This is a side visor molding 20 having a strip-shaped extension portion 21g and having a plurality of fins 22 erected on facing surfaces 21h facing the surfaces of the windowpanes 14c and 15c of the strip-shaped extension portion 21g.

The seventh aspect of the present invention is an invention based on any one of the first to sixth aspects, FIGS. 1, FIG. 2, FIGS. 4 to 8, FIG. 14, FIG. 15, FIG. 17, FIG. As shown in 18, the side visor moldings 20, 40, in which the mounting portions 21, 41 are fixed to the lower edge portions 11d, 12d, 31d, 32d of the side visors 11, 12, 31, 32 via double-sided tape or an adhesive. Is.

The eighth aspect of the present invention is an invention based on any one of the first to seventh aspects, and as shown in FIGS. 1, 2, 14, and 15, the mounting portions 21, 41. Front end holes 21e and 41e and rear end holes 21f and 41f are formed at the front end and the rear end, respectively, and pins 23 and 43 are inserted into the front end holes 21e and 41e and the rear end holes 21f and 41f via the pins 23 and 43. The moldings 20.40 for side visors are configured such that the molding 20.40 is attached to the lower edge portions 11d, 12d, 31d, 32d of the side visors 11, 12, 31, 32.

A ninth aspect of the present invention is, as shown in FIGS. 1 to 13, the outside visors 11 and 12 for automobiles configured to cover the outer upper portions of the door windows 14b and 15b of the side doors 14 and 15 of the automobile 13. The side visor molding 20 from any of the first, second, fourth, and eighth viewpoints is attached to the lower edge ends 11d and 12d of the side visors 11 and 12 via the mounting portion 21 of the molding 20. It is characterized by being installed.

A tenth aspect of the present invention is, as shown in FIGS. 14 to 18, the inside visors 31 and 32 for automobiles configured to cover the inner upper portions of the door windows 14b and 15b of the side doors 14 and 15 of the automobile 13. The side visor molding 40 from any of the first, third, and ninth viewpoints is attached to the lower edge ends 31d, 32d of the side visors 31, 32 via the mounting portion 41 of the molding 40. It is characterized by that.

In the side visor molding 20.40 according to the first aspect of the present invention, as shown in FIGS. 1 to 4, 6 and 8 to 18, the side visors 11, 12, 31 and 32 are the side doors 14 of the automobile 13. , 15, and a plurality of fins on the facing surfaces 21b, 21h, 41b of the mounting portions 21, 41 mounted on the lower edge ends 11d, 12d, 31d, 32d of the side visors 11, 12, 31, 32. 22 and 42 are erected at intervals from each other, and the fin tips 22a and 42a approach the surfaces of the windowpanes 14c and 15c in a non-contact manner, and the plurality of fins 22 and 42 are parallel to each other. Since the door windows 14b and 15b are closed and the windowpanes 14c and 15c are formed in a curved plate shape, the upper edges of the windowpanes overlap with the plurality of fins 22 and 42, or the plurality of fins 22. When the vehicle 13 is driven in a state of being lowered to a position higher than, 42, a plurality of fins 22 and 42 guide the air sucked from the inside of the vehicle (hereinafter referred to as “inside air”) to the outside of the vehicle, and guide the inside air to the outside of the vehicle. Change to air (hereinafter referred to as outside air). Further, the outside air flowing along the outer surfaces of the side doors 14 and 15 is prevented from entering the vehicle by the plurality of fins 22 and 42.

As a result, the natural ventilation inside the vehicle can be smoothly performed. Further, since the fin tips 22a and 42a approach the surfaces of the windowpanes 14c and 15c in a non-contact manner, no contact noise is generated when the windowpanes are raised and lowered, and there is no possibility of being caught. Further, since the mounting portions 21 and 41 and the plurality of fins 22 and 42 are integrally formed of the soft resin, the moldings 20 and 40 become robust and foreign matter is caught between the fin tips 22a and 42a and the window glass surface. Even if the fins 22 and 42 are elastically deformed even if the fingers are pinched, the moldings 20 and 40 and the fingers are not damaged.

In the side visor molding 20 according to the second aspect of the present invention, when the side visors 11 and 12 are outside visors, each of the plurality of fins 22, 22, ... By forming it in the shape of a concave plate that is positioned and curved, the effect of guiding the suctioned inside air to the outside of the vehicle by the plurality of fins 22, 22, ... It is possible to enhance the effect of invasion into.

In the side visor molding 40 according to the third aspect of the present invention, when the side visors 31, 32 are inside visors, each of the plurality of fins 42, 42, ... By forming it in the shape of a convex plate that is positioned and curved, the effect of guiding the suctioned inside air to the outside of the vehicle by the plurality of fins 42, 42, ... It is possible to enhance the effect of invasion into.

In the side visor moldings 20 and 40 according to the fourth aspect of the present invention, since the mounting portions 21 and 41 include strip-shaped short pieces 21c and 41c and strip-shaped long pieces 21d and 41d having an L-shaped cross section together with the strip-shaped short pieces. The moldings 20, 40 can be more robustly attached to the lower edge ends 11d, 12d, 31d, 32d of the side visors 11, 12, 31, 32.

In the side visor moldings 20 and 40 according to the fifth aspect of the present invention, the other surfaces of the strip-shaped elongated pieces 21d and 41d on the opposite side to the one surface are facing surfaces 21b and 41b, and a plurality of fins are formed on the facing surfaces 21b and 41b. Since 22 and 42 are erected, compact moldings 20 and 40 can be realized.

In the side visor molding 20 according to the sixth aspect of the present invention, a plurality of fins 22 are formed on the facing surfaces 21h facing the surfaces of the windowpanes 14c and 15c of the strip-shaped extension portion 21g formed so as to extend downward from the tip of the mounting portion 21. Even if the gap between the lower edge ends 11d and 12d of the side visors 11 and 12 and the surface of the window glass 14c and 15c is wide, the band-shaped extension portion 21g fills the gap and a plurality of fins 22 are erected. The fin tip 22a of the above can be brought close to the surfaces of the windowpanes 14c and 15c.

In the side visor moldings 20, 40 according to the seventh aspect of the present invention, the mounting portions 21, 41 are attached to the side visors 11, 12, 31, 32 at the lower edge ends 11d, 12d, 31d, using double-sided tape or an adhesive. Since the moldings 20 and 40 are fixed to 32d, the moldings 20 and 40 can be easily attached to the lower edge ends 11d, 12d, 31d and 32d of the side visor.

In the side visor moldings 20 and 40 according to the eighth aspect of the present invention, the pins 23 and 43 are inserted into the front end holes 21e and 41e and the rear end holes 21f and 41f at the front and rear ends of the mounting portions 21 and 41, respectively. Since the moldings 20 and 40 are attached to the side visor lower edge ends 11d, 12d, 31d and 32d according to the 23 and 43, the moldings 20 and 40 can be firmly attached to the side visor lower edge ends 11d, 12d, 31d and 32d. ..

When the side visors 11 and 12 based on the ninth aspect of the present invention are outside visors whose lower edge ends 11d and 12d extend near the outer surface of the windowpanes 14c and 15c, the first, second, fourth to fourth sides are visors. Since the side visor molding 20 from any of the viewpoints of 8 is attached to the side visor lower edge ends 11d and 12d, the action of the plurality of fins 22 enables smooth natural ventilation in the vehicle.

The first, third to eighth viewpoints when the side visors 31 and 32 based on the tenth aspect of the present invention are inside visors whose lower edge portions 31d and 32d extend near the inner surface of the windowpanes 14c and 15c. Since the side visor molding 40 from any of the above viewpoints is attached to the side visor lower edge ends 31d and 32d, the action of the plurality of fins 42 enables smooth natural ventilation inside the vehicle.

It is a main part perspective view which shows the situation which the molding is attached to the outside visor of 1st Embodiment of this invention. FIG. 3 is a perspective view of a main part showing a state in which the molding shown in FIG. 1 is attached to the outside visor and an air flow. FIG. 3A is a schematic view of a main part of a bonnet type automobile with an outside visor attached, as viewed from the outside of the vehicle. FIG. 3B is a sectional view taken along line EE of FIG. 3A. FIG. 3 is a schematic view of a main part of the left side surface of the bonnet type automobile of FIG. 3A as viewed from the inside of the automobile. 3A is a cross-sectional view taken along the line AA of FIG. 3A. FIG. 3 is a cross-sectional view taken along the line BB of FIG. 3A. FIG. 3 is a sectional view taken along line CC of FIG. 3A. FIG. 3 is a sectional view taken along line DD of FIG. 3A. 6 is an enlarged cross-sectional view of a mounting portion of the molding of each X portion of FIGS. 6 and 8. It is a cross-sectional view which expanded the mounting location of another molding. It is a cross-sectional view which expanded the mounting place of another molding. It is a main part perspective view which shows the situation which attaches the molding to the outside visor of 1st Embodiment of this invention by another method. FIG. 3 is a perspective view of a main part showing a state in which the molding shown in FIG. 12 is attached to the outside visor by another method. It is a main part perspective view which shows the situation which the molding is attached to the inside visor of the 2nd Embodiment of this invention. FIG. 3 is a perspective view of a main part showing a state in which the molding shown in FIG. 14 is attached to the inside visor and an air flow. FIG. 16A is a schematic view of a main part of the left side surface of a bonnet type automobile to which an inside visor is attached as viewed from the outside of the automobile. 16 (b) is a sectional view taken along line OH of FIG. 16 (a). 16 is a cross-sectional view taken along the line FF of FIG. 16A. 16 is a cross-sectional view taken along the line GG of FIG. 16A. It is a side view of the main part of the side door of a truck (cab-over type automobile) to which a conventional outside visor is attached. FIG. 19 is a cross-sectional view taken along the line ZZ of FIG. It is a main part perspective view which shows the situation of attaching a molding to the outside visor shown in FIG. FIG. 3 is a perspective view of a main part showing a situation in which the molding shown in FIG. 21 is attached to the outside visor. It is a schematic plan view of a bonnet type automobile without a conventional side visor. It is a perspective view of the main part of a bonnet type automobile equipped with a conventional side visor.

Next, a mode for carrying out the present invention will be described with reference to the drawings. First, the first embodiment regarding the outside visor will be described, and then the second embodiment regarding the inside visor will be described.

<First Embodiment>
[1st and 2nd outside visors]
As shown in FIGS. 3 and 4, the first outside visor 11 and the second outside visor 12 of the first embodiment are attached to the front side door 14 and the rear side door 15 of the bonnet type automobile 13, respectively. Since the front side door 14 and the rear side door 15 of the automobile 13 are symmetrical, the first outside visor 11 and the second outside visor 12 attached thereto are also symmetrical. Therefore, the first outside visor 11 and the second outside visor 12 attached to the front side door 14 and the rear side door 15 on the left side in the vehicle traveling direction will be described on behalf of the front side door and the rear side door on the right side in the vehicle traveling direction (not shown). The description of the first outside visor and the second outside visor attached to the doors will be omitted.

[1st outside visor]
First, the first outside visor 11 attached to the front side door 14 will be described. As shown in FIGS. 3 to 6, a door window 14b partitioned by a window frame 14a is formed on the upper portion of the front side door 14, and the door window 14b is opened and closed by moving the window glass 14c up and down. The window frame 14a has a front frame portion 14d that is inclined rearward, an upper frame portion 14e that extends in the traveling direction of the automobile 13, and a rear frame portion 14f that stands up substantially vertically on the rear side of the front side door 14. Further, the door window 14b is closed by the window glass 14c when the window glass 14c rises, and the door window 14b is opened by lowering the window glass 14c.

The first outside visor 11 is attached to the front frame portion 14d, the upper frame portion 14e, and the rear frame portion 14f of the window frame 14a by double-sided tape 16 (FIGS. 4, 5, 6), and the front portion of the door window 14b and the first outside visor 11. It is configured to cover the upper part from the outside (FIGS. 3 and 4). The first outside visor 11 has a front visor 11a that covers the front portion of the door window 14b and a rear visor 11b that covers the upper part of the door window 14b (FIGS. 3 and 4). The front visor 11a and the rear visor 11b are integrally formed by injection molding of clear plastic, translucent plastic or opaque plastic.

The front visor 11a of the first outside visor 11 is formed so as to bulge outward in the vehicle width direction and the lower edge end portion 11c thereof is opened from the surface of the window glass 14c (FIG. 3 (b). FIG. 5). Further, the rear visor 11b of the first outside visor 11 is outside the window glass 14c that closes the door window 14b, and its lower edge end portion 11d extends near the surface of the window glass 14c and the window glass 14c. It is formed in a shape corresponding to the upper edge portion (FIGS. 3 (a), 3 (b), 6). In the first embodiment, since the upper end edge of the window glass 14c is horizontal, the lower edge end portion 11d is also formed horizontally.

[Molding attached to the lower edge of the rear visor]
As shown in FIG. 6, a molding 20 is attached to the lower edge end portion 11d of the visor 11b behind the first outside visor 11 along the lower edge end portion 11d. As shown in FIGS. 1 and 2, in the molding 20, the mounting portion 21 and the plurality of fins 22, 22, ... Are integrally formed of a soft elastic body made of soft rubber, soft resin, or the like. In this first embodiment, the molding 20 is a molded body of a polyester elastomer resin.

8
[Mounting part of molding]
The mounting portion 21 of the molding 20 closes the mounting surface 21a formed for mounting on the lower edge end portion 11d of the visor and the door window 14b over almost the entire length in the longitudinal direction of the lower edge end portion 11d of the rear visor 11b. It has a facing surface 21b facing the surface of the window glass 14c.

In this first embodiment, as shown in FIGS. 1 and 2, the mounting portion 21 is formed so as to be able to abut on the end face of the lower edge end portion 11d of the rear visor 11b over substantially the entire length of the end face. A strip-shaped short piece 21c and a strip-shaped long piece 21d having an L-shaped cross section together with the strip-shaped short piece 21c, one surface of which is formed so as to be in contact with the side surface of the lower edge end portion 11d of the rear visor 11b over almost the entire length of the side surface. To prepare for. The surface that can come into contact with the end surface and the side surface of the lower edge end portion 11d is the mounting surface 21a. The thickness of each of the strip-shaped short pieces 21c and the strip-shaped long pieces 21a is preferably in the range of 1.5 mm to 3.0 mm.

A circular hole-shaped front end hole 21e and an oval hole-shaped rear end hole 21f are formed at the front end and the rear end of the strip-shaped elongated piece 21d of the mounting portion 21, respectively. On the other hand, at the front end and the rear end of the lower edge end portion 11d of the rear visor 11b, a circular hole-shaped pin insertion hole 11e and an oval hole-shaped pin insertion hole 11f corresponding to the front end hole 21e and the rear end hole 21f. Is provided.

A pin 23 made of an elastic body can be inserted into the front end hole 21e and the pin insertion hole 11e, and a pin 24 having the same configuration as the pin 23 can be inserted into the rear end hole 21f and the pin insertion hole 11f. As a representative of the pin 23, a ring-shaped bulging portion 23a having a diameter larger than that of the front end hole 21e and the pin insertion hole 11e is integrally formed with the pin 23 around the body portion of the pin 23. The bulging portion 23a is provided at a position separated from the pin head 23b by the total thickness of the thickness of the lower edge end portion 11d and the thickness of the strip-shaped elongated piece 21d, and the pin insertion hole 11e and the front end hole 21e are provided. It has elasticity that can be reduced to the hole diameter of.

[Multiple fins of molding]
As shown in FIGS. 1, 2, 6, and 9, the plurality of fins 22, 22, ... Of the molding 20 are spaced from each other in the traveling direction of the automobile on the facing surface 21b of the mounting portion 21, and the fin tips thereof. 22a stands close to the surface of the window glass 14c in a non-contact manner. As shown in FIG. 9, the distance p1 between the fin tip 22a and the surface of the window glass 14c is preferably in the range of _{1 mm to 3 mm.} If it is less than this lower limit, there is a risk that the fin tip 22a may come into contact with the window glass 14c and make an abnormal noise due to the runout of the window glass 14c when the window glass 14c is raised and lowered. May invade.

As shown in FIG. 1, each of the plurality of fins 22, 22, ... Is formed in a plate shape parallel to each other and curved. In this first embodiment, each of the plurality of fins 22, 22, ... Is formed in an intaglio shape in which the fin upper end portion 22b is located in front of the fin lower end portion 22c and is curved. The upper surface of the fin upper end portion 22b coincides with the upper end surface of the strip-shaped long piece 21d, and the lower surface of the fin lower end portion 22c coincides with the lower end surface of the strip-shaped long piece 21d. _{The height h 1} of the strip-shaped long piece 21d is preferably in the range of 5 mm to 15 mm, the width w ₁ of the fin 22 is preferably in the range _{of 3 mm to 25 mm, and the thickness t 1} of the fin 22 is 0.5 mm. It is preferably in the range of ~ 1.5 mm. Further, the distance d ₁ of the plurality of fins 22 is preferably in the range of 5 mm to 15 mm, and the inclination angle θ _{1 of the} fins is preferably in the range of 30 degrees to 45 degrees. When the height h ₁ , the width w ₁ , the thickness t ₁ , the interval d _1, and the inclination angle θ ₁ are set within the above ranges, the effect of preventing the introduction of outside air into the vehicle by the molding 20 described later is further enhanced, which is preferable. _{However, the above ranges of the height h 1} of the strip-shaped strip, the width w ₁ , the fin thickness t ₁ , the fin spacing d _1, and the fin inclination angle θ ₁ of the first embodiment are preferable ranges. Therefore, the present invention is not limited to the above range.

[How to attach to the lower edge of the visor behind the molding]
A method of attaching the molding 20 thus configured to the lower edge end portion 11d of the rear visor 11b will be described. After providing a double-sided tape (not shown) on the mounting surface 21a or applying an adhesive, the pin 23 is inserted into the pin insertion hole 11e and the front end hole 21e, and the pin 24 is inserted into the pin insertion hole 11f and the rear end hole 21f. Thereby, the molding 20 is attached to the lower edge end portion 11d of the rear visor 11b. Specifically, the inserted pin 23 is projected from the front end hole 21e, and the protruding portion of the pin 23 is sandwiched between tools such as pliers and pliers and pulled strongly. Then, the diameter of the bulging portion 23a of the pin 23 is reduced, and when it appears from the hole edge of the front end hole 21e, it is restored to the diameter of the bulging portion 23a before the diameter reduction by the elastic force. Since the bulging portion 23a is located at a position separated from the pin head 23b by the total thickness of the thickness of the lower edge end portion 11d of the rear visor 11b and the thickness of the strip-shaped long piece 21d, the bulging portion 23a is located. Appears from the hole edge of the front end hole 21e, the mounting portion 21 is brought into close contact with the lower edge end portion 11d by the pin 23, the bulging portion 23a is locked to the front end hole 21e, and the pin 23 comes out of the front end hole 21e. It disappears. The protruding portion of the pin 23 is cut. The pin 24 is also inserted into the pin insertion hole 11f and the front end hole 21f by the same method as the pin 23 (FIGS. 1 and 2). It should be noted that the molding 20 can be attached to the lower edge end portion 11d of the rear visor 11b by using double-sided tape or an adhesive without using the pins 23 and 24.

FIG. 12 is a perspective view of a main part showing a situation in which the molding is attached to the outside visor according to the first embodiment of the present invention by another method, and FIG. 13 is a perspective view of the main part showing a situation in which the molding is attached by the other method. It is a figure. In this mounting method, a plurality of pins 25 made of elastic bodies are erected on the strip-shaped long piece 21d of the mounting portion 21 of the molding 20 at intervals in the longitudinal direction of the mounting portion 21. On the other hand, in the lower edge end portion 11d of the rear visor 11b, the same number of circular hole-shaped pin insertion holes 11g as the plurality of pins 25 are bored in the longitudinal direction of the visor so as to face the tip portion 25a of the pins 25. ing. A ring-shaped bulging portion 25b having a diameter larger than that of the pin insertion hole 11g is integrally formed with the pin 25 around the body portion of each pin 25. The bulging portion 25b is provided at a position separated from the pin base by the thickness of the lower edge end portion 11d, and has elasticity that can be reduced to the diameter of the pin insertion hole 11g.

By inserting the tip portion 25a of the pin 25 into the pin insertion hole 11g, the molding 20 is attached to the lower edge end portion 11d of the rear visor 11b. Specifically, the tip portion 25a of the inserted pin 25 is projected from the pin insertion hole 11g, and the tip portion 25a of the protruding pin 25 is sandwiched between tools such as pliers and pliers and pulled strongly. Then, the diameter of the bulging portion 25b of the pin 25 is reduced, and when it appears from the hole edge of the pin insertion hole 11g, it is restored to the diameter of the bulging portion 25b before the diameter reduction by the elastic force. Since the bulging portion 25b is located away from the pin base by the thickness of the lower edge end portion 11d of the rear visor 11b, the bulging portion 25b appears from the hole edge of the pin insertion hole 11g, and the pin 25 As a result, the mounting portion 21 is in close contact with the lower edge end portion 11d, and the bulging portion 25b is locked in the pin insertion hole 11g, so that the pin 25 cannot be removed from the pin insertion hole 11g. The protruding tip portion 25a of the pin 25 is cut.

[Second outside visor]
Next, the second outside visor 12 attached to the rear side door 15 will be described. As shown in FIGS. 3, 4, 7, and 8, a door window 15b partitioned by a window frame 15a is formed on the upper portion of the rear side door 15, and the door window 15b is raised and lowered by the window glass 15c. It is opened and closed. The window frame 15a includes a front frame portion 15d that stands up substantially vertically on the rear side of the front side door 14, an upper frame portion 15e that extends in the traveling direction of the automobile 13, and a rear frame portion 15f that stands up substantially in the vertical direction. Have. Further, the door window 15b is closed by the window glass 15c when the window glass 15c rises, and the door window 15b is opened by lowering the window glass 15c.

The second outside visor 12 is attached to the front frame portion 15d, the upper frame portion 15e, and the rear frame portion 15f of the window frame 15a with double-sided tape 17 (FIGS. 4, 7, 8), and the upper part of the door window 15b is a window. It is configured to cover the glass 15c from the outside (FIGS. 2 to 4). The second outside visor 12 has a front visor 12a that covers the front of the door window 15b and a rear visor 12b that covers the top of the door window 15b (FIGS. 3 and 4). The front visor 12a and the rear visor 12b are integrally formed by injection molding of clear plastic, translucent plastic or opaque plastic.

The front visor 12a of the second outside visor 12 is formed so as to bulge outward in the vehicle width direction and the lower edge end portion 12c thereof is opened from the surface of the window glass 15c (FIG. 3 (b). FIG. 7). Further, the rear visor 12b of the second outside visor 12 is outside the window glass 15c that closes the door window 15b, and its lower edge end portion 12d extends near the surface of the window glass 15c and the window glass 15c. It is formed into a shape corresponding to the upper edge portion (FIGS. 3 and 8).

[Molding attached to the lower edge of the rear visor]
As shown in FIG. 8, a molding 20 is attached to the lower edge end portion 12d of the visor 12b behind the second outside visor 12 along the lower edge end portion 12d. Since the molding 20 has the same configuration as the molding attached to the lower edge end portion 11d of the visor 11b behind the first outside visor 11, the repeated description will be omitted.

FIG. 9 shows a situation in which the molding 20 is attached to the lower edge end portion 11d of the rear visor 11b of the first outside visor 11 and the lower edge end portion 12d of the rear visor 12b of the second outside visor 12. 6 is an enlarged cross-sectional view taken along the line X in FIGS. 6 and 8. As shown in FIG. 9, the lower edge portion 11d or 12d are disposed substantially parallel to the window glass 14c or 15c, thereby the fin tip 22a and the window glass 14c of the molding 22, 15c is a predetermined interval p ₁ Are placed parallel to each other. However, as shown in FIG. 10, even when the lower edge end 11d or 12d is not parallel to the window glass 14c or 15c with respect to the window glass 14c or 15c, the mounting portion 21 and the fins The shape of 22 can be modified so that the molding 20 can be attached to the lower edge end 11d or 12d.

Further, as shown in FIG. 11, the mounting portion 21 has a strip-shaped extension portion 21g formed extending downward from the tip thereof, and the facing surface of the strip-shaped extension portion 21g facing the surface of the window glass 14c or 15c. It is also possible to configure a plurality of fins 22 to be erected on 21h. By providing the belt-like extensions 21g, it is possible to create a predetermined gap p ₁ even when a large gap between the lower edge portion 11d or 12d and the window glass 14c or 15c surface (Fig. 9).

[Effect of preventing the introduction of outside air into the vehicle by molding]
Each operation of the first outside visor 11 and the second outside visor 12 attached to the front side door 14 and the rear side door 15 of the bonnet type automobile 13 configured as described above will be described. When ventilating the inside of the vehicle while the vehicle 13 is running, the upper edge of the window glass 14c or 15c is the lower edge of the visor 11b behind the first outside visor 11 or the visor 12b behind the second outside visor 12. The window glass 14c or 15c is lowered so as to be located slightly above the portion 11d or 12d, that is, the upper end of the molding 20 attached to the lower edge end portion 11d or 12d is slightly below the upper end of the window glass 14c or 15c. The window glass 14c or 15c is lowered so as to project toward the outer surface (FIG. 6 or 8). In this state, the lower edge 11c or 12c of the front visor 11a or 12a is released from the surface of the window glass 14c or 15c (FIG. 5 or 7).

As shown in FIG. 3A, as the automobile 13 travels, outside air flows from the front to the rear, the outer surfaces of the front side door 14 and the rear side door 15, and the visor 11a or the second out in front of the first outside visor 11. It flows on each outer surface of the visor 12a in front of the side visor 12. This flow of outside air becomes faster by passing through each outer surface of the front visor 11a or 12a that bulges outward in the vehicle width direction, and creates a negative pressure region. As a result, the air inside the vehicle (hereinafter referred to as shyness) is sucked out from the vehicle. Most of the inside air flows to the outer surfaces of the front side door 14 and the rear side door 15, and a part of the inside air passes through the inside of the rear visor 11b or 12b.

As shown in FIG. 2, even if the outside air flowing on the outer surfaces of the front side door 14 and the rear side door 15 arrives from below the molding 20 and hits the intaglio-shaped fins 22, the plurality of fins 22 of the molding 20 are curved plates. Since the fin upper end 22b is located in front of the fin lower end 22c and is formed in a curved concave plate shape, the outside air flowing through the outer surfaces of the side doors 14 and 15 is the fin 22. Driven down below. Further, a part of the inside air that has passed through the inside of the rear visor 11b or 12b passes between the fins 22 and flows out of the vehicle. Therefore, according to the molding 20 of the first embodiment, unlike the conventional molding 116 shown in FIG. 20, the airflow m outside the vehicle becomes an airflow n and does not enter the vehicle. As a result, the air inside the vehicle (inside air) is discharged to the outside of the vehicle, and the air from the outside of the vehicle (outside air) is prevented from entering the inside of the vehicle, so that smooth ventilation inside the vehicle can be performed.

<Second embodiment>
[1st and 2nd inside visors]
As shown in FIG. 16, the first inside visor 31 and the second inside visor 32 of the second embodiment are attached to the front side door 14 and the rear side door 15 of the bonnet type automobile 13, respectively. Since the front side door 14 and the rear side door 15 of the automobile 13 are symmetrical, the first inside visor 31 and the second inside visor 32 attached thereto are also symmetrical. Therefore, the first inside visor 31 and the second inside visor 32 attached to the front side door 14 and the rear side door 15 on the left side in the vehicle traveling direction will be described on behalf of the front side door and the rear side door on the right side in the vehicle traveling direction (not shown). The description of the first inside visor and the second inside visor attached to the doors will be omitted.

[1st Inside Visor]
First, the first inside visor 31 attached to the front side door 14 will be described. Since the front side door 14 shown in FIG. 16 has the same configuration as the front side door 14 shown in FIG. 3, repetitive description will be omitted.

The first inside visor 31 is attached to a part of the front frame portion 14d of the window frame 14a, the upper frame portion 14e and the rear frame portion 14f by double-sided tape 18 (FIGS. 16 and 17), and the upper part of the door window 14b is outside. It is configured to cover from the side (FIG. 16 (a)). The first inside visor 31 does not cover most of the front frame portion 14d of the window frame 14a, and the portion where the visor does not exist directly communicates with the inside of the vehicle and the outside of the vehicle (FIG. 16). The first inside visor 31 has a front visor 31a that covers a part of the front frame portion 14d of the door window 14b and a rear visor 31b that covers the upper part of the door window 14b (FIG. 16). The front visor 31a and the rear visor 31b are integrally formed by injection molding of clear plastic, translucent plastic or opaque plastic.

The front visor 31a is located inward of the window glass 14c that closes the door window 14b, and is parallel to the elevating window glass 14c except for the front frame portion 14d, the upper frame portion 14e, and the portion attached to the door window 14b. It is formed in the shape of a flat plate (FIG. 16 (a)). The rear visor 31b is also located inward of the window glass 14c that closes the door window 14b, and has a flat plate shape parallel to the elevating window glass 14c except for the portion attached to the upper frame portion 14e and the door window 14b. It is formed in (FIG. 16 (b), FIG. 17). The rear visor 31b has a lower edge portion 31d extending near the surface of the window glass 14c and formed in a shape corresponding to the upper edge portion of the window glass 14c (FIGS. 16 (a) and 16 (b), FIG. 17). In the second embodiment, since the upper end edge of the window glass 14c is horizontal, the lower edge end portion 31d is also formed horizontally.

[Molding attached to the lower edge of the rear visor]
As shown in FIG. 17, a molding 40 is attached to the lower edge end portion 31d of the visor 31b behind the first inside visor 31 along the lower edge end portion 31d. As shown in FIGS. 14 and 15, in the molding 40, similarly to the molding 20 described in the first embodiment, the mounting portion 41 and the plurality of fins 42 are integrally made of soft rubber, soft resin, or the like. It is formed by the soft elastic body of. The molding 40 of the second embodiment is a molded body of the same polyester elastomer resin as the molding 20 of the first embodiment.

[Mounting part of molding]
The mounting portion 41 of the molding 40 closes the mounting surface 41a formed for mounting on the lower edge end portion 31d of the visor and the door window 14b over almost the entire length in the longitudinal direction of the lower edge end portion 31d of the rear visor 31b. It has a facing surface 41b facing the surface of the window glass 14c.

In this second embodiment, as shown in FIGS. 14 and 15, the mounting portion 41 is formed so as to be able to abut on the end face of the lower edge end portion 31d of the rear visor 31b over substantially the entire length of the end face. A strip-shaped short piece 41c and a strip-shaped long piece 41d having an L-shaped cross section together with the strip-shaped short piece 41c, one surface of which is formed so as to be in contact with the side surface of the lower edge end portion 31d of the rear visor 31b over almost the entire length of the side surface. To prepare for. The surface that can come into contact with the end surface and the side surface of the lower edge end portion 31d is the mounting surface 41a. The thickness of each of the strip-shaped short pieces 41c and the strip-shaped long pieces 41a is preferably in the range of 1.5 mm to 2.5 mm.

An elliptical hole-shaped front end hole 41e and a circular hole-shaped rear end hole 41f are formed at the front end and the rear end of the strip-shaped elongated piece 41d of the mounting portion 41, respectively. On the other hand, at the front end and the rear end of the lower edge end portion 31d of the rear visor 11b, an elliptical hole-shaped pin insertion hole 31e and a circular hole-shaped pin insertion hole 31f corresponding to the front end hole 41e and the rear end hole 41f. Is provided.

The pin 43 can be inserted into the rear end hole 41f and the pin insertion hole 31f, and the pin 44 having the same configuration as the pin 43 can be inserted into the front end hole 41e and the pin insertion hole 31e. As a representative of the pin 43, a ring-shaped bulging portion 43a having a diameter larger than that of the rear end hole 41f and the pin insertion hole 31f is integrally formed with the pin 43 around the body portion of the pin 43. The bulging portion 43a is provided at a position separated from the pin head 43b by the total thickness of the thickness of the lower edge end portion 31d and the thickness of the strip-shaped elongated piece 41d, and the pin insertion hole 31f and the rear end hole are provided. It has elasticity that can be reduced to a hole diameter of 41f.

[Multiple fins of molding]
As shown in FIGS. 14, 15, 17, and 18, the plurality of fins 42, 42, ... Of the molding 40 are spaced from each other in the traveling direction of the automobile on the facing surface 41b of the mounting portion 41, and the fin tips thereof. 42a stands close to the surface of the window glass 14c in a non-contact manner. _{The distance p 2} between the fin tip 42a and the surface of the window glass 14c is preferably in the same range of ₁ mm to 3 mm as the distance p 1 (FIG. 9) in the first embodiment. If it is less than this lower limit, there is a risk that the fin tip 42a may come into contact with the window glass 14c and make an abnormal noise due to the runout of the window glass 14c when the window glass 14c is raised and lowered. May invade.

As shown in FIG. 14, each of the plurality of fins 42, 42, ... Is formed in a plate shape parallel to each other and curved. In this second embodiment, each of the plurality of fins 42, 42, ... Is formed in a convex plate shape in which the fin upper end portion 42b is located behind the fin lower end portion 42c and is curved. The upper surface of the fin upper end portion 42b coincides with the upper end surface of the strip-shaped long piece 41d, and the lower surface of the fin lower end portion 42c coincides with the lower end surface of the strip-shaped long piece 41d (FIG. 14). _{The height h 2} of the strip 41d is preferably in the range of 5 mm to 15 mm, the width w ₂ of the fin 42 is preferably in the range _{of 3 mm to 25 mm, and the thickness t 2} of the fin 42 is 0.5 mm. It is preferably in the range of ~ 1.5 mm. Further, the distance d ₂ of the plurality of fins 42 is preferably in the range of 5 mm to 15 mm, and the inclination angle θ _{2 of the} fins is preferably in the range of 30 degrees to 45 degrees. When the height h ₂ , the width w ₂ , the thickness t ₂ , the interval d _2, and the inclination angle θ ₂ are set within the above ranges, the effect of preventing the introduction of outside air into the vehicle by the molding 40, which will be described later, is further enhanced, which is preferable. However, the _{above ranges of the height h 2} , the fin width w ₂ , the fin thickness t ₂ , the fin spacing d _2, and the fin inclination angle θ ₂ of the second embodiment are preferable ranges. Therefore, the present invention is not limited to the above range.

[How to attach to the lower edge of the visor behind the molding]
A method of attaching the molding 40 thus configured to the lower edge end portion 31d of the rear visor 31b will be described. After providing a double-sided tape (not shown) on the mounting surface 31a or applying an adhesive, the pin 43 is inserted into the pin insertion hole 31f and the rear end hole 41f, and the pin 44 is inserted into the pin insertion hole 31e and the front end hole 41e. Thereby, the molding 40 is attached to the lower edge end portion 31d of the rear visor 31b. Specifically, the inserted pin 43 is projected from the rear end hole 41f, and the protruding portion of the pin 43 is sandwiched between tools such as pliers and pliers and pulled strongly. Then, the diameter of the bulging portion 43a of the pin 43 is reduced, and when it appears from the hole edge of the rear end hole 41f, it is restored to the diameter of the bulging portion 43a before the diameter reduction by the elastic force. Since the bulging portion 43a is located at a position separated from the pin head 43b by the total thickness of the thickness of the lower edge end portion 31d of the rear visor 31b and the thickness of the strip-shaped long piece 41d, the bulging portion 43a is located. Appears from the hole edge of the rear end hole 41f, the mounting portion 41 is brought into close contact with the lower edge end portion 31d by the pin 43, the bulging portion 43a is locked to the rear end hole 41f, and the pin 43 is the rear end hole. I can't get out of 41f. The protruding portion of the pin 43 is cut. The pin 44 is also inserted into the pin insertion hole 31e and the front end hole 41e by the same method as the pin 43 (FIGS. 14 and 15). It should be noted that the molding 40 can be attached to the lower edge end portion 31d of the rear visor 31b by using double-sided tape or an adhesive without using pins 443 and 44.

[Second inside visor]
Next, the second inside visor 32 attached to the rear side door 15 will be described. As shown in FIGS. 16 and 18, a door window 15b partitioned by a window frame 15a is formed on the upper portion of the rear side door 15, and the door window 15b is opened and closed by moving the window glass 15c up and down. The window frame 15a includes a front frame portion 15d that stands up substantially vertically on the rear side of the front side door 14, an upper frame portion 15e that extends in the traveling direction of the automobile 13, and a rear frame portion 15f that stands up substantially in the vertical direction. Have. Further, the door window 15b is closed by the window glass 15c when the window glass 15c rises, and the door window 15b is opened by lowering the window glass 15c.

The second inside visor 32 is attached to the center and rear halves of the upper frame portion 15e of the window frame 15a and the rear frame portion 15f by double-sided tape 19 (FIGS. 16 and 18), and the upper part of the door window 15b is attached to the window glass 15c. It is configured to cover from the inside (FIGS. 15 and 16). The second inside visor 32 is not provided on the front half of the upper frame portion 15e of the window frame 15a.

The second inside visor 32 has a front visor 32a that covers the center of the upper part of the door window 15b and a rear visor 32b that covers the rear half of the upper part of the door window 15b (FIG. 16). The front visor 32a and the rear visor 32b are integrally formed by injection molding of clear plastic, translucent plastic or opaque plastic. The second inside visor of the second embodiment may be composed of only the rear visor 32b without having the front visor 32a.

Since there is no visor in front of the second inside visor 32, when the window glass 15c is lowered, the inside of the vehicle and the outside of the vehicle are directly connected (FIG. 16). As a result, as will be described later, when the automobile 13 is running, the shyness is sucked out from the portion where the visor does not exist.

Further, the rear visor 32b of the second inside visor 32 is inside the window glass 15c that closes the door window 15b, and its lower edge end portion 32d extends near the surface of the window glass 15c and the window glass 15c. It is formed in a shape corresponding to the upper edge portion (FIGS. 16 and 18).

[Molding attached to the lower edge of the rear visor]
As shown in FIG. 18, a molding 40 is attached to the lower edge end portion 32d of the visor 32b behind the second outside visor 32 along the lower edge end portion 32d. Since the molding 40 has the same configuration as the molding attached to the lower edge end portion 31d of the visor 31b behind the first inside visor 31, repeated description thereof will be omitted.

As shown in the enlarged view of the Y portion of FIGS. 17 and 18, the lower edge end portion 31d or 32d is arranged substantially parallel to the window glass 14c or 15c, whereby the fin tip 42a of the molding 42 and the window glass 14c are arranged. , 15c are arranged parallel to each other with a predetermined distance p _2.

[Effect of preventing the introduction of outside air into the vehicle by molding]
The operations of the first inside visor 31 and the second inside visor 32 attached to the front side door 14 and the rear side door 15 of the bonnet type automobile 13 configured as described above will be described. When ventilating the inside of the vehicle while the vehicle 13 is running, the upper edge of the window glass 14c or 15c is the lower edge of the visor 31b behind the first inside visor 31 or the visor 32b behind the second inside visor 32. The window glass 14c or 15c is lowered so as to be located slightly above the portion 31d or 32d, that is, the upper end of the molding 40 attached to the lower edge end portion 31d or 32d is slightly below the upper end of the window glass 14c or 15c. The windowpane 14c or 15c is lowered so as to project toward the inner surface (FIG. 17 or 18). In this state, the front portion of the front visor 31a or 32a does not have a visor, and the inside of the vehicle and the outside of the vehicle can directly communicate with each other (FIG. 16).

As shown in FIG. 16A, as the automobile 13 travels, outside air is discharged from the front to the rear, further in front of the outer surfaces of the front side door 14 and the rear side door 15 and the visor 31a in front of the first inside visor 31. Each outer surface flows through a portion or a portion further in front of the visor 32a in front of the second inside visor 32. The air inside the vehicle (hereinafter referred to as the inside air) is sucked out from the inside of the vehicle by the outside air flowing to the front part where the visor does not exist. Most of the inside air flows to the outer surfaces of the front side door 14 and the rear side door 15, and a part of the inside air passes through the inside of the rear visor 31b or 32b.

As shown in FIG. 15, among the outside air flowing on the outer surfaces of the front side door 14 and the rear side door 15, even if the outside air flowing on the outer surfaces of the first inside visor 31 or 32 tries to enter the vehicle from above the molding 40, Since the plurality of fins 42 of the molding 40 have a curved plate shape, in particular, the fin upper end portion 42b is located behind the fin lower end portion 42c and is formed in a curved convex plate shape. The outside air flowing on each outer surface of the side visor 31 or 32 is driven above the fin 42. Further, a part of the air (inside air) in the vehicle below the rear visor 31b or 32b passes between the fins 42 and the fins 42 together with the outside air flowing on each outer surface of the first inside visor 31 or 32. , Flows out of the car. Therefore, according to the molding 40 of the second embodiment, the air inside the vehicle (inside air) is discharged to the outside of the vehicle, and the air from the outside of the vehicle (outside air) is prevented from entering the inside of the vehicle to perform smooth ventilation inside the vehicle. be able to.

11,12 Outside visor 13 Bonnet type automobile 14,15 Side door 14a, 15a Window frame 14b, 15b Door window 14c, 15c Window glass 16-19 Double-sided tape 20,40 Molding 21,41 Mounting part 21a, 41a Mounting surface 21b, 21h, 41b Opposing surface 21c, 41c Band-shaped short piece 21d, 41d Band-shaped long piece 21e, 41e Front end hole 21f, 41f Rear end hole 21g Band-shaped extension 22, 42 Fin 31, 32 Inside visor

Claims (10)

A mounting portion having a mounting surface formed for mounting on the lower edge edge of the side visor along the lower edge edge of the side visor and a facing surface facing the surface of the window glass that closes the door window of the side door of the automobile. And a plurality of fins erected on the facing surface of the window glass so as to be spaced apart from each other in the traveling direction of the automobile and the tips of the fins approach the surface of the window glass in a non-contact manner.
The mounting portion and the plurality of fins are integrally formed by a soft elastic body, and the mounting portion and the plurality of fins are integrally formed.
A molding for a side visor, wherein each of the plurality of fins is formed in a plate shape parallel to each other and curved. A claim in which the side visor is an outside visor attached to the outer upper portion of the door window, and each of the plurality of fins is formed in an intaglio shape in which the upper end portion of the fin is located in front of the lower end portion of the fin and is curved. The molding for the side visor according to Item 1. A claim in which the side visor is an inside visor attached to the inner upper portion of the door window, and each of the plurality of fins is formed in a curved convex plate shape in which the upper end portion of the fin is located behind the lower end portion of the fin. The molding for the side visor according to Item 1. A strip-shaped short piece in which the mounting portion is formed so as to be able to abut on the end surface over almost the entire length of the end surface of the lower edge end portion of the side visor, and one surface on the side surface of the lower edge end portion of the side visor is substantially the same as the side surface. The molding for a side visor according to any one of claims 1 to 3, further comprising a strip-shaped short piece formed so as to be abuttable over the entire length and having a strip-shaped long piece having an L-shaped cross section. The molding for a side visor according to claim 4, wherein the other surface of the strip-shaped long piece opposite to the one surface is the facing surface, and the plurality of fins are erected on the facing surface. 1 Or 3 Molding for the side visor according to any one of the items. The molding for a side visor according to any one of claims 1 to 6, wherein the mounting portion is fixed to the lower edge portion of the side visor via double-sided tape or an adhesive. A front end hole and a rear end hole are formed at the front end and the rear end of the mounting portion, respectively, and a pin is inserted into the front end hole and the rear end hole, and the molding is attached to the lower edge portion of the side visor via the pin. The molding for a side visor according to any one of claims 1 to 7, which is configured to be attached. An automobile outside visor configured to cover the outer upper part of the door window of an automobile side door.
A side visor for an automobile according to claim 1, 2, 4 to 8, wherein the molding for a side visor is attached to a lower edge end portion of the side visor via a mounting portion of the molding. An inside visor for automobiles that is configured to cover the inside upper part of the door window of the side door of an automobile.
A side visor for an automobile according to claim 1, 3 to 9, wherein the molding for a side visor is attached to a lower edge end portion of the side visor via a mounting portion of the molding.

Images