This application is based on Japanese Patent Application No. 2008-246669 filed on Sep. 25, 2008, the disclosure of which is incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to a mounting structure of an ultrasonic sensor.
2. Description of Related Art
JP-A-2006-337028 discloses a mounting structure of an ultrasonic sensor. The ultrasonic sensor is mounted to a wall member of a mobile object such as a bumper of a vehicle. The ultrasonic sensor accommodates an ultrasonic oscillator, and is fixed to the wall member by a fixing member. The fixing member is located on an inner side of the wall member, or the fixing member is located in a through hole defined in the wall member. The ultrasonic sensor is fixed such that an oscillating face of the ultrasonic oscillator is exposed from the wall member through the through hole. A gap generated between the wall member and the ultrasonic sensor is closed by a closing member such as flange.
The closing member has an outer face exposed from the wall member, and the outer face of the closing member is coated with paint. If adhesion performance of the paint relative to the outer face of the closing member is low, appearance of the mobile object may be worse.
In view of the foregoing and other problems, it is an object of the present invention to provide a mounting structure of an ultrasonic sensor.
According to a first example of the present invention, a mounting structure of an ultrasonic sensor includes an ultrasonic sensor having an ultrasonic element, and a mobile object having a wall member, and a closing member. The ultrasonic sensor is fixed to the wall member, and the wall member has a through hole through which an oscillating face of the ultrasonic sensor is exposed from an outer face of the wall member. The closing member closes a gap generated between the through hole of the wall member and the ultrasonic sensor. The closing member connects an edge of the through hole located outside of the wall member and an edge of the osculating face of the ultrasonic sensor. The closing member has an outer face exposed from the outer face of the wall member, and the outer face of the closing member has asperities.
According to a second example of the present invention, a mounting structure of an ultrasonic sensor includes an ultrasonic sensor, a wall member, a closing member, and a fixing member. The ultrasonic sensor has an oscillating face arranged to extend in a vertical direction. The wall member is inclined relative to the oscillating face, and the ultrasonic sensor is mounted to the inclined wall member. The oscillating face is exposed from the inclined wall member through a through hole defined in the inclined wall member. The closing member closes a gap generated between the inclined wall member and the ultrasonic sensor. The fixing member fixes the ultrasonic sensor and the closing member to the inclined wall member. The closing member has an outer face exposed from the inclined wall member, and the outer face of the closing member has asperities.
The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description made with reference to the accompanying drawings. In the drawings:
A mounting structure of an ultrasonic sensor 10 will be described, in a case that the ultrasonic sensor 10 is mounted to a bumper 70 of a vehicle as an example of a mobile object. Alternatively, the ultrasonic sensor 10 may be mounted to a chassis or molding of the vehicle.
A vertical direction Y is defined to be vertical relative to a ground. A mounting direction Z is defined to be parallel to the ground, and the ultrasonic sensor 10 is mounted in the mounting direction Z. A lateral direction X is defined to be parallel to the ground, and is defined to be vertical to the mounting direction Z.
The ultrasonic sensor 10 sends ultrasonic wave, and receives ultrasonic wave reflected by an obstacle. The ultrasonic sensor 10 has a casing 11 made of polybutylene terephthalate (PBT), for example. The casing 11 accommodates an ultrasonic oscillator, a processing circuit board, and an absorber. The processing circuit board applies drive voltage to the ultrasonic oscillator so as to generate ultrasonic wave, and processes voltage signal transmitted from the ultrasonic oscillator due to back electromotive voltage effect. The absorber absorbs unnecessary oscillation generated in the ultrasonic sensor 10 when the ultrasonic sensor 10 sends and receives ultrasonic wave. The ultrasonic oscillator may correspond to an ultrasonic element.
As shown in
The ultrasonic oscillator may correspond to a piezoelectric element bonded to an inner face of an end portion 14 of the front part 13, and the inner face is approximately perpendicular to the mounting direction Z. A reverse side of the inner face is defined to be an outer face of the end portion 14 of the ultrasonic sensor 10, and the outer face represents an oscillating face 15 of the ultrasonic sensor 10. The fixing member 30 fixes the ultrasonic sensor 10 to the bumper 70 such that the oscillating face 15 is approximately perpendicular to the horizontal direction. Thus, the oscillating face 15 can be maintained to have directivity of the horizontal direction relative to the ground.
As shown in
As shown in
The fixing member 30 is made of the PBT, and includes the first part 31, a second part 32, and a third part 33, as shown in
Relative to a dashed line of
The closing member 50 closes a gap generated between the through hole 71 of the bumper 70 and the ultrasonic sensor 10, and is made of glass-containing resin. For example, the glass-containing resin is produced by mixing glass fibers in the PBT. As shown in
As shown in
A mounting process for mounting the ultrasonic sensor 10 to the bumper 70 will be described. The closing member 50 is inserted into the fixing member 30 through an opening of the second part 32. The fitting 52a of the engaging part 52 of the closing member 50 is fitted to the fitting 32a of the second part 32 of the fixing member 30. Thus, the closing member 50 is fixed to the fixing member 30.
The adhesive 34 is applied to the face 33a of the third part 33 of the fixing member 30 opposing to the bumper 70. The third part 33 is pressed and fixed to the inner face 70b of the bumper 70, such that a gap between the through hole 71 and the connecting part 61 of the closing member 50 can filled all around the through hole 71. Thus, the closing member 50 and the fixing member 30 are connected and fixed to the inner face 70b of the bumper 70.
The ultrasonic sensor 10 is inserted into the fixing member 30 through an opening of the first part 31. The fitting 12a of the rear part 12 of the casing 11 of the ultrasonic sensor 10 is fitted to the fitting 31a of the first part 31 of the fixing member 30. Thus, the ultrasonic sensor 10 is mounted and fixed to the fixing member 30. Accordingly, the ultrasonic sensor 10 can be mounted and fixed to the bumper 70.
An outer face 51a of the connecting part 51 of the closing member 50 exposed from the outer face 70a of the bumper 70 is coated with paint so as to improve appearance of the vehicle. The outer face 61a is colored in the same color as the outer face 70a of the bumper 70. The coloring of the closing member 50 may be performed after the ultrasonic sensor 10 is mounted to the bumper 70, or may be performed before the ultrasonic sensor 10 is mounted to the bumper 70. The closing member 50 is made of the glass-containing resin produced by mixing glass fibers in the PBT.
Therefore, as shown in
The glass fibers GF correspond to the convex parts of the asperities. The paint PT is supported by the concave part located between the convex parts, such that adhesion performance of the paint PT is increased, compared with a case in which the outer face 51a is flat.
Thus, adhesion performance of the paint PT can be improved, when the asperities are formed on the outer face 51a of the connecting part 51.
According to the embodiment, adhesion performance of the paint can be improved relative to the outer face 51a of the connecting part 51 of the closing member 50 exposed from the outer face 70a of the bumper 70.
The fixing member 30 is made of the PBT, and the closing member 50 is made of the glass-containing resin produced by mixing the glass fibers in the PBT. In a comparison example, the fixing member 30 and the closing member 50 are integrally produced by using the glass-containing resin so as to improve the adhesion performance of the paint. However, the fixing member 30 is less pliable in the comparison example, compared with a case in which the fixing member 30 is made of only the PBT. In this case, when the ultrasonic sensor 10 is fixed to the fixing member 30, the fitting 31a of the fitting member 30 to be fitted with the ultrasonic sensor 10 may be easily damaged.
In contrast, when the fixing member 30 is made of the PBT, and when the closing member 50 is made of the glass-containing resin, the adhesion performance between the paint and the closing member 50 can be improved, and a pliability of the fixing member 30 can be maintained.
The fixing member 30 is made of the polybutylene terephthalate (PBT). However, the fixing member 30 is not limited to be made of the PBT, and may be made of thermoplastic resin satisfying a predetermined molding accuracy and strength. For example, the fixing member 30 may be made of polyacetal, polyoxymethylene (POM), or polypropylene (PP). However, the PST is chemically stable against heat or pollution, compared with the POM or the PP. When the fixing member 30 fixes the ultrasonic sensor 10 to the bumper 70, and when the ultrasonic sensor 10 is exposed outside of the vehicle, the fixing member 30 may be made of the PBT.
The asperities are formed on the closing member 50, because the closing member 50 is made of the glass-containing resin produced by mixing glass fibers in the PBT. Alternatively, the asperities may be formed by using a molding die. The molding die of the closing member 50 may have the asperities at a position corresponding to the outer face 51a of the connecting part 51. The closing member 50 can be formed by injecting melted resin into the molding die and cooling the injected resin to be solid. Thus, the asperities can be formed on the outer face 51a of the connecting part 51 by using the molding die in which the asperities are formed in advance.
In this case, because both of the closing member 50 and the fixing member 30 can be made of the PBT, the closing member 50 and the fixing member 30 can be integrally molded by using a single molding die. Therefore, a process for forming the closing member 50 and the fixing member 30 can be simple, compared with a case in which the closing member 50 and the fixing member 30 are separately produced. Further, when the closing member 50 and the fixing member 30 are integrally formed, a process for fixing the closing member 50 to the fixing member 30 is not needed, thereby a process for mounting the ultrasonic sensor 10 to the bumper 70 can be more simple.
The asperities of the molding die is formed by arranging a film having a predetermined asperities pattern to the molding die. When a predetermined amount of acid is applied to the arranged film, the molding die is melted by the acid so as to have the predetermined asperities pattern. The arranged film is removed after the asperities are formed on the molding die.
Such changes and modifications are to be understood as being within the scope of the present invention as defined by the appended claims.
Number | Date | Country | Kind |
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2008-246669 | Sep 2008 | JP | national |