1. Field of the Invention
The present invention relates to a door checker for an automobile, and particularly to an improvement in a door checker for an automobile, comprising: a case secured to a door turnably supported on a body of an automobile; a check lever which is swingably supported on said body to extend through said case and which has a ball guide groove formed in its side face to extend in a lengthwise direction; a ball holder accommodated in said case and capable of being moved toward and away from the side face of said check lever; a check ball retained in said ball holder and capable of being rolled in said ball guide groove; and a check spring for biasing said ball holder toward said ball guide groove; said check lever having an intermediate recess which is formed in its side face and deeper than said ball guide groove, and into which said check ball is fitted by a biasing force of said check spring in order to generate a moderation resistance in a position of at least one medium opening degree.
2. Description of the Related Art
A conventional door checker for an automobile is disclosed, for example, in Japanese Utility Model Publication Laid-open No. 58-20059.
The intermediate recess in the check lever of the conventional door checker for the automobile forms a portion of a spherical surface having a diameter equal to or slightly larger than that of the check ball.
The setting of the diameter of the spherical surface corresponding to the intermediate recess in the check lever at the value substantially equal to that of the check ball, as described above, is effective for making clear a feeling of moderation at a predetermined medium opening degree at which the door should be stopped and retained and which is provided by the fitting between the recess and the check ball. However, this is one of causes which generate an abnormal sound when the check ball is passed through the intermediate recess by rapidly opening or closing the door.
More specifically, if the spherical surface corresponding to the intermediate recess and the check ball have substantially the same diameter, the check ball is brought into a no-load state due to the delay of the following of the check spring and the ball holder, the moment the check ball is dropped rapidly into the intermediate recess. Therefore, the check ball immediately collides with an upward slope of the intermediate recess due to an inertial force without reaching a bottom surface of the intermediate recess, and the resultant percussive noise resonates with the case and the door to generate an abnormal sound.
Therefore, if the diameter of the spherical surface corresponding to the intermediate recess is set at a value sufficiently larger than that of the check ball, the check ball reaches the bottom surface of the intermediate recess and climbs the upward slope of the intermediate recess, while being rolled on the upward slope, after the delay of the following of the check spring and the ball holder. Therefore, the generation of an abnormal sound due to the shock as described above does not occur. However, this is accompanied by a disadvantage that the feeling of moderation upon stopping and retaining the door at the predetermined medium opening degree is deteriorated in an amount corresponding to an increase in diameter of the spherical surface corresponding to the recess.
The present invention has been accomplished with such circumstance in view, and it is an object of the present invention to provide a door checker for an automobile, which can prevent the generation of an abnormal sound when the check ball is passed through the intermediate recess by rapidly opening or closing the door, while improving the feeling of moderation upon fitting between the check ball and the intermediate recess.
To achieve the above object, according to a first feature of the present invention, there is provided a door checker for an automobile, comprising: a case secured to a door turnably supported on a body of an automobile; a check lever which is swingably supported on said body to extend through said case and which has a ball guide groove formed in its side face to extend in a lengthwise direction; a ball holder accommodated in said case and capable of being moved toward and away from the side face of said check lever; a check ball retained in said ball holder and capable of being rolled in said ball guide groove; and a check spring for biasing said ball holder toward said ball guide groove; said check lever having an intermediate recess which is formed in its side face and deeper than said ball guide groove, and into which said check ball is fitted by a biasing force of said check spring in order to generate a moderation resistance in a position of at least one medium opening degree; wherein said intermediate recess is formed so that a second opening width in a direction intersecting a centerline of said ball guide groove is larger than a first opening width along said centerline of said ball guide groove.
With the first feature, the sectional shape of the intermediate recess along the centerline of the ball guide groove is formed substantially in correspondence to the sectional shape of the check ball, whereby the movement of the check ball in the direction along the ball guide groove while being fitted in the intermediate recess can be properly restrained by the intermediate recess, thereby providing a definite feeling of moderation to a user and preventing a large shaking of the door.
If the check ball is vigorously passed through the intermediate recess with the rapid opening or closing operation of the door, a distance of movement of the check ball in the intermediate recess can be ensured by the inertial force, even when the check ball is brought into a no-load state in the intermediate recess due to the delay of response of the check spring and the ball holder. As a result, the check ball is dropped onto a bottom surface of the intermediate recess by the retarded urging actions of the check spring and the ball holder, and then climbs an upward slope of the intermediate recess while being rolled on the upward slope. Thus, it is possible to avoid the collision of the check ball with upward slope of the intermediate recess to prevent the generation of an abnormal sound due to the collision.
According to a second feature of the present invention, in addition to the first feature, the intermediate recess is of a shape formed by elongating a recess formed by a portion of a virtual spherical surface having a diameter substantially equal to a diameter of the check ball, away from the center line of the ball guide groove in a direction intersecting the centerline.
With the second feature, the shape of the intermediate recess is simplified, and the intermediate recess can be formed easily. In addition, it is possible to reliably prevent the generation of an abnormal sound, while ensuring a good feeling of moderation.
First, a first embodiment of the present invention shown in
In
As shown in
The check lever 6 is comprised of a plate body 6a made of a steel and connected to the bracket 7, and a covering portion 6b made of a synthetic resin and mold-coupled to an outer surface of the plate body 6a excluding its end opposite from the bracket 7. The covering portion 6b is formed so that the thickness of the check lever 6 is gradually increased from its base end (the side of the bracket 7) toward its free end. Ball guide grooves 12 arcuate in section are formed in opposite sides of the covering portion 6b to extend in a lengthwise direction of the check lever 6.
A pair of ball holders 20 are received in the case 1 for sliding movement in a thickness-wise direction of the check lever 6, and opposed to opposite sides of the check lever 6. A hemispherical ball housing 22 opens into an end face of each ball holder 20 opposed to the check lever 6. The ball 23 engaged in the ball guide groove 12 is rotatably accommodated in the ball housing 22. A coil-shaped check spring 24 is accommodated in the case 1 for biasing the ball holder 20 in a direction to engage the ball 23 with the ball guide groove.
A fully-opening stopper 15 is mounted to the plate body 6a to determine a limit of opening of the door D, i.e., a fully-opened position of the door D. The fully-opening stopper 15 is comprised of a stopper plate 17 made of a steel and secured to the plate body 6a by a pin 16, and a stopper rubber member 18 mounted to the stopper plate 17 to receive the door D in a buffering manner.
A plurality of (three in the illustrated embodiment) recesses 13a and 13b deeper than the ball guide groove 12 are formed in opposite side faces of covering the portion 6b and arranged along each ball guide groove 12, and the check ball 23 can be fitted into the recesses 13a and 13b. The recess 13b closer to the fully-opening stopper 15 is adapted to receive the check ball 23 at the fully-opened position of the door D, and the other two intermediate recesses 13a are adapted to receive the check ball 23 at predetermined positions of different medium-opening degrees of the door D. In the present invention, the former recess 13b is called a fully-opening recess, and the latter intermediate recess 13a is called an intermediate recess.
Especially, the intermediate recess 13a is formed into a shape shown in
The fully-opening recess 13b may be of the same shape as the intermediate recess 13a, or may be of a shape forming a portion of a single virtual spherical surface having a diameter equal to or slightly larger than that of the check ball 23.
The operation of the first embodiment will be described below.
When the door D is opened from a closed state, the case 1 secured to the door D is moved away from the base end of the check lever 6, as the door D turns about the pivot Ha of the hinge H as shown in
When the door D has been opened to a medium opening degree, the check ball 23 is dropped and fitted into the first intermediate recess 13a by a biasing force of the check spring 24. Therefore, the door D can be retained at the first medium opening degree by a fitting force of the check ball 23.
In addition, if an opening force is applied to the door D, thereby allowing the check ball 23 to be moved out of the first intermediate recess 13a to turn the door D, the check ball 23 is fitted into the next intermediate recess 13a in the same manner as that described above, whereby the door D can be retained at a second medium opening degree.
When the opening force is further applied to the door D to open the door D to the fully-opened position in which the inner wall of the door D is in abutment against the stopper rubber member 18, the check ball 23 is fitted into the fully-opening recess 13b in the same manner as that described above, whereby the door D can be retained in the fully-opened position.
The sectional shape of the intermediate recess 13a along the centerline Y of the ball guide groove 12 is substantially the same as the sectional shape of the check ball 23, as shown in FIG. 4. Therefore, when the check ball 23 is fitted into the intermediate recess 13a, the movement of the check ball 23 in a direction along the ball guide groove 12 is properly restrained by the intermediate recess 13a. Thus, it is possible to provide a feeling of definite moderation to a user and to prevent the large shaking of the door D.
The operation, when the door D is rapidly opened from the fully closed state to the fully opened state to cause the check ball 23 to be passed vigorously through the intermediate recess 13a, will be described below with reference to
When the check ball 23 is started to be dropped into the intermediate recess 13a, as shown in
On the other hand, when the check ball 23 is brought into the no-load state and released from an urging force of the check ball 23, the turning of the check lever 6 is momentarily stopped by a resistance such as friction between the lever 6 and the pivot 8.
Therefore, the check ball 23 is advanced toward an upward slope of the intermediate recess 13a where the check ball 23 has been momentarily stopped. The check ball 23 lands on a bottom surface of the intermediate recess 13a without immediately colliding with the upward slope, and then climbs the upward slope, while being rolled on the upward slope, as shown in
It is obvious that the collision of the check ball 23 with the upward slope of the intermediate recess 13a can be avoided by a function similar to that described above, even when the check ball 23 is passed through the intermediate recess 13a by rapidly closing the door D from the fully opened state.
In a second embodiment of the present invention shown in
According to the second embodiment, a sufficient distance of movement of the check ball 23 in the tangent direction in a no-load state of the check ball 23 can be ensured, and the prevention of the generation of an abnormal sound can be effectively achieved.
The present invention is not limited to the above-described embodiments, and various modifications in design may be made without departing from the subject matter of the present invention. For example, the number of the intermediate recesses 13a may be one or plural. A rubber spring may be used in place of the coil-shaped check spring 24.
Number | Date | Country | Kind |
---|---|---|---|
2002-240585 | Aug 2002 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5173991 | Carswell | Dec 1992 | A |
5727287 | Hosken et al. | Mar 1998 | A |
5862570 | Lezuch et al. | Jan 1999 | A |
20030051312 | Hoffmann et al. | Mar 2003 | A1 |
20040075285 | Murayama et al. | Apr 2004 | A1 |
Number | Date | Country |
---|---|---|
959210 | Nov 1999 | EP |
2266338 | Oct 1993 | GB |
58-20059 | Apr 1989 | JP |
07117477 | May 1995 | JP |
07144537 | Jun 1995 | JP |
2002106237 | Apr 2002 | JP |
2003118369 | Apr 2003 | JP |
Number | Date | Country | |
---|---|---|---|
20040111832 A1 | Jun 2004 | US |