JP3659153B2 - Ultrasonic transducer - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an ultrasonic transducer that can be applied to an ultrasonic sensor that is used for in-vehicle use and the like that detects ultrasonic waves and receives reflected waves from an obstacle to detect the presence of the obstacle.
[0002]
[Prior art]
As a conventional ultrasonic sensor for detecting obstacles for in-vehicle use, an ultrasonic pulse is oscillated from the ultrasonic sensor in the air, reflected on an obstacle such as an object to be detected, and the reflected wave is reflected by the ultrasonic sensor. Some are configured to receive, process the received signal, and issue an alarm or the like.
[0003]
FIG. 10 shows how the ultrasonic sensor is attached. The ultrasonic sensor 20 is attached to a bumper 19 of the automobile 18. Here, in order to detect obstacles that hinder the movement of the automobile 18 existing around the bumper 19 and to prevent detection of things that do not hinder the movement of the automobile 18 such as the road surface, Therefore, it is necessary to use the ultrasonic sensor 20 having a detection area that is wide in the horizontal direction and narrow in the vertical direction.
[0004]
As such an ultrasonic sensor 20 having an directional characteristic that is wide in the horizontal direction and narrow in the vertical direction with respect to the road surface, there has conventionally been one as shown in FIG. The ultrasonic sensor 20 includes an ultrasonic transducer A ′ that oscillates ultrasonic waves and receives reflected waves, and a horn for controlling the directivity of ultrasonic waves in front of the ultrasonic transducer A ′. 21 is provided. The horn 21 is formed as an opening that communicates the ultrasonic transducer A ′ with the outside. By designing the longitudinal diameter a, lateral diameter b, and depth c of the opening to appropriate dimensions, It controls the directivity of ultrasonic waves. Here, reference numeral 22 in the figure denotes a holding rubber for fixing the ultrasonic transducer A ', and 23 denotes a sensor housing. The ultrasonic sensor 20 configured as described above is disposed in the bumper 19 of the automobile 18 so that the horn 21 opens from the bumper 19 to the outside.
[0005]
However, when the ultrasonic sensor 20 provided with the horn 21 as shown in FIG. 11 is used, rainwater easily enters the horn 21 and snow and dust easily accumulate while the automobile 18 is traveling. When foreign matter enters the horn 21 in this way, the directional characteristic of the ultrasonic wave oscillated from the ultrasonic transducer A ′ changes, and the detection area in which an obstacle can be detected changes, or the horn The foreign matter inside 21 is detected by the ultrasonic sensor 20, and there is a problem that it is notified as if there is an obstacle even though there is no obstacle. In addition, the horn 21 protrudes from the surface of the bumper 19 when the ultrasonic sensor 20 is attached, and the opening of the horn 21 is exposed to the outside.
[0006]
Therefore, an attempt has been made to eliminate the need for the horn 21 by providing the ultrasonic transducer A ′ itself for generating ultrasonic waves with a different directivity. That is, the vibration mode for emitting ultrasonic waves in the horizontal direction relative to the road surface and the vibration mode for emitting waves in the vertical direction are different from each other in the attached state of the ultrasonic vibrator A ′. The ultrasonic wave oscillated from is provided with a different directionality.
As an ultrasonic transducer A ′ having such a different directionality, one as shown in FIG. 12 has been proposed. This ultrasonic transducer A ′ is formed of a metal in a cylindrical shape, and a concave portion 26 is formed from the upper bottom surface to the lower bottom surface. The bottom surface of the concave portion 26 is formed as a vibrating portion 4 ′, and a thick portion 24 is formed on the vibrating portion 4 ′ and on both sides of the thick portion 24 than the thick portion 24. A thin portion 25 having a small thickness is formed. In the concave portion 26 of the ultrasonic transducer A ′, the piezoelectric element 8 is disposed on the thick portion 24 of the vibration portion 4 ′ in an electrically connected state. Lead wires 7 are connected to the surface of the piezoelectric element 8 that is not in contact with the vibrating portion 4 ′ and the ultrasonic transducer A ′. Then, by applying a voltage between the lead wires 7, the piezoelectric element 8 is vibrated, and accordingly, the vibrating portion 4 'is vibrated, thereby generating an ultrasonic wave from the vibrating portion 4'.
[0007]
When the ultrasonic transducer A ′ is attached to the automobile 18, the ultrasonic transducer A ′ is disposed in an opening provided in the bumper 19 or the like so that the vibrating portion 4 ′ of the ultrasonic transducer A ′ is exposed from the bumper 19. At this time, the thin portion 25 of the vibrating portion 4 ′ is arranged so as to be aligned in the horizontal direction.
[0008]
The vibration mode in the horizontal direction in the vibration part 4 ′ of the ultrasonic transducer A ′ is a simple flexural vibration. On the other hand, in the vibration mode in the vertical direction, the outer side of the thick part 24 is easily bent due to the thin part 25, so that the thin part 25 is bent so as to be pulled by the vibration of the thick part 24. Planar vibration is larger than in the horizontal vibration mode. As a result, the oscillation direction of the ultrasonic wave generated by the vibration of the vibration part 4 ′ becomes sharper in the vertical direction than the horizontal direction, and directivity having a different direction is imparted to the ultrasonic oscillation.
[0009]
[Problems to be solved by the invention]
However, when the ultrasonic transducer A ′ having such a shape is made of metal, it is made by forging. However, the thickness accuracy of the thin portion 25 is important for controlling the directivity of ultrasonic oscillation. Therefore, a number of forging processes are required. Further, since the dimensional accuracy of the thin portion 25 is also in demand, there is a problem that a cutting process is required in addition to the forging process, and it cannot be manufactured by an inexpensive processing means.
[0010]
Accordingly, the present inventor has proposed an ultrasonic transducer described in the specification filed as Japanese Patent Application No. 11-246684 as an ultrasonic transducer for solving such problems. In this ultrasonic transducer, a piezoelectric element is disposed on the inner surface side of the closed surface of the case body having one end surface opened and the other end surface closed, and the ultrasonic waves generated on the closed surface are unidirectional. In the ultrasonic transducer having directivity, the case body is composed of a metal case formed of a metal plate material and a resin case made of a synthetic resin material.
[0011]
However, when the case body is composed of a metal case and a resin case as described above, it is necessary to ensure waterproofness between the metal case and the resin case when the ultrasonic vibrator is used outdoors. There is. For this reason, in the above-mentioned application, the present inventors have also proposed a structure that improves the waterproof property by sticking a sheet material to the closed surface of the case body. It was difficult to maintain the sealing property by peeling.
[0012]
The present invention has been made in view of the above points, and it is possible to easily manufacture an ultrasonic oscillator having a directional characteristic of different direction at low cost, and has good sealing properties even when used for a long period of time. It is an object of the present invention to provide an ultrasonic transducer that can maintain the above-described characteristics and has excellent design properties.
[0013]
[Means for Solving the Problems]
In the ultrasonic transducer according to claim 1 of the present invention, the piezoelectric element 8 is disposed on the inner surface side of the closing surface 1a of the case body 1 whose one end surface is open and the other end surface is the closing surface 1a. In the ultrasonic transducer A in which the ultrasonic wave generated in 1a has a directional characteristic of different directions, the case 1 is made of a metal case 2 made of a metal plate 13, and a resin case 3 made of a synthetic resin material. The coating film 17 is formed on the outer surface side of the closing surface 1a of the case body 1 and the joint between the metal case 2 and the resin case 3 appearing on the closing surface 1a is covered with the coating film 17. It is characterized by.
[0014]
In addition to the structure of claim 1, the invention of claim 2 of the present invention is characterized in that a coating film 17 is formed from the outer surface side of the closing surface 1a of the case body 1 to the outer surface of the case body 1. To do.
[0015]
Further, the invention of claim 3 of the present invention is characterized in that, in addition to the configuration of claim 1 or 2, the metal case 2 is formed by bending the metal plate 13.
[0016]
The invention according to claim 4 of the present invention is characterized in that, in addition to the configuration of claim 1 or 2, the metal case 2 is formed by drawing a metal plate 13. .
[0017]
In addition to the structure of any one of the first to fourth aspects, the invention according to claim 5 is an arrangement in which one surface is formed as an ultrasonic transmission / reception surface 4c and the other surface is provided with a piezoelectric element 8. The vibration part 4 formed as the surface 4d and the vibration suppression part 5 are configured to include at least a pair of connection parts 4a, which are directly connected to the outer edge of the vibration part 4, and the vibration part. The metal case 2 in which at least a pair of non-connection portions 4b are not directly connected to the vibration suppressing portion 5 is fixed to the resin case 3 in the vibration suppressing portion 5. It is.
[0018]
According to the sixth aspect of the present invention, in addition to the configuration of the fifth aspect, a connection portion 4a and a non-connection portion 4b are alternately formed on the outer edge of the vibration portion 4 of the metal case 2 to form a pair of connection portions. 4a and a pair of non-connection portions 4b are formed, and the alignment direction of the connection portions 4a and the alignment direction of the non-connection portions 4b are formed so as to be substantially orthogonal to each other.
[0019]
According to a seventh aspect of the present invention, in addition to the configuration of any of the first to sixth aspects, one surface is formed as an ultrasonic wave transmitting / receiving surface 4c and the other surface is disposed with the piezoelectric element 8 disposed thereon. The vibration part 4 formed as the surface 4d and the vibration suppression part 5 extending from the outer edge of the vibration part 4 toward the arrangement surface 4d side constitute a metal case 2, and the metal case 2 is connected to the front surface. In the resin case 3 having the arrangement part 6 opened on the back surface, the outer surface of the vibration suppressing part 5 of the metal case 2 is arranged on the inner surface of the arrangement part 6 and the opening on the front side of the arrangement part 6 is made the vibration part 4 of the metal case 2. And is closed so as to constitute the closed surface 1a by the front surface of the resin case 3 and the ultrasonic transmission / reception surface 4c of the vibration part 4.
[0020]
According to an eighth aspect of the present invention, in addition to any one of the first to seventh aspects, the case body 1 is formed by integrally molding the resin case 3 on the metal case 2 by insert molding. It is a feature.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
[0022]
First, the ultrasonic transducer A shown in FIG. 1 will be described.
[0023]
The case body 1 includes a metal case 2 and a resin case 3.
[0024]
The metal case 2 includes a vibration part 4 and a vibration suppression part 5. The vibration part 4 is formed in a rectangular plate shape having a substantially uniform thickness, one surface is formed as an ultrasonic transmission / reception surface 4c, and the other surface is formed as an arrangement surface 4d on which the piezoelectric element 8 is disposed. ing. The vibration suppression unit 5 extends from a pair of opposing sides among the four sides constituting the outer edge of the vibration unit 4 toward the arrangement surface 4d. That is, among the four sides constituting the outer edge of the vibration part 4, a pair of opposing sides is formed as a connection part 4 a directly connected to the vibration suppressing unit 5, and the other pair of opposing sides is The vibration suppression portion 5 is formed as a non-connection portion 4b that is not directly connected, and the connection portions 4a and the non-connection portions 4b that are alternately formed along the outer edge of the vibration portion 4 are formed. The arrangement direction of the connection parts 4a and the arrangement direction of the non-connection parts 4b are arranged so as to be substantially orthogonal.
[0025]
The metal case 2 does not need to be designed to form a thin part or a thick part, and the shape thereof is simple. Therefore, a single metal piece can be used without performing a complicated forging process or cutting process. A simple bending process or drawing process can be applied to the manufactured plate member 13 so that it can be manufactured inexpensively and easily. For example, as shown in FIG. 3, in a state where a rectangular parallelepiped bending jig 14 is disposed on the upper surface of a metal plate 13 such as an aluminum plate, both side portions of the plate 13 are moved upward along the folding jig 14. The portion disposed below the bending jig 14 vibrates, and the portion bent upward along the bending jig 14 vibrates. It is formed as a suppression unit 5.
[0026]
The resin case 3 is formed of a synthetic resin material having high rigidity and excellent vibration damping properties. This resin case 3 has a circular shape on the front surface and a circular shape on the back surface with a larger diameter than the front surface. The outer peripheral surface connecting the front surface and the back surface has a larger diameter on the back side than on the front side. A step 5a is formed so as to be. The resin case 3 has through-holes in the front-rear direction that open at the front and back surfaces, and the inside of the through-hole is configured as an arrangement portion 6 in which the metal case 2 is arranged. The inner peripheral shape of the arrangement portion 6 is formed in a rectangular shape having substantially the same size and shape as the outer edge shape of the vibration portion 4 of the metal case 2.
[0027]
The metal case 2 is held in the arrangement part 6 of the resin case 3. At this time, the vibration part 4 of the metal case 2 closes the opening on the front side of the arrangement part 6 of the resin case 3 and also vibrates. 4 is arranged so that the ultrasonic transmission / reception surface 4c is substantially flush with the front surface of the resin case 3, so that the front surface of the resin case 3 and the ultrasonic transmission / reception surface 4c of the vibration unit 4 constitute the blocking surface 1a. Has been. The pair of vibration suppressing portions 5 are arranged in close contact with the inner surface of the arrangement portion 6, and are fixed to the resin case 3 on the inner surface of the arrangement portion 6. Therefore, among the four sides constituting the outer edge of the arrangement portion 6, the pair of connection portions 4 a are fixed to the resin case 3, and the pair of non-connection portions 4 b are not fixed and are easily bent.
[0028]
The piezoelectric element 8 is disposed so as to be electrically connected to the arrangement surface 4 d of the vibration unit 4. Lead wires 7 are connected to the vibration suppressing portion 5 of the metal case 2 and the surface of the piezoelectric element 8 on the side not connected to the arrangement surface 4d.
[0029]
Furthermore, a coating film 17 is formed over the entire outer surface of the closing surface 1 a of the case body 1. The coating material for forming the coating film 17 is not particularly limited, and an appropriate coating material capable of forming the coating film 17 having water resistance can be used. For example, a trade name “SOFLEX” manufactured by Kansai Paint Co., Ltd. can be used.
[0030]
Thus, when the coating film 17 is formed on the ultrasonic vibrator A, the coating film having a color that approximates the appearance of the object when the ultrasonic vibrator A is disposed on an attachment object such as a bumper of an automobile. 17 is formed in the ultrasonic transducer A, and the ultrasonic transducer A can be disposed on the object with a good appearance. Further, by covering the joint portion between the resin case 3 and the metal case 2 with the coating film 17, the sealing property of the ultrasonic transducer A can be improved and the waterproof property can be improved. In addition, when a sheet material is stuck on the closing surface 1a, the whole part peels off when a part is peeled off, and it is difficult to maintain waterproofness for a long time. When the coating film 17 is formed as described above, even if a part of the coating film 17 is peeled off, the whole is not peeled off in a chain, and the waterproofness of the ultrasonic vibrator A is reliably maintained over a long period of time. It is something that can be done.
[0031]
In forming the coating film 17 on the ultrasonic transducer A, as shown in FIG. 2, not only on the outer surface side of the closing surface 1a but also on the outer surface between the one end surface and the other end surface of the case body 1. Also, the coating film 17 can be formed. When the coating film 17 is formed from the closed surface 1a of the case body 1 to the outer surface in this way, the edge of the coated film 17 that is easily peeled off is not disposed on the outer edge of the closed surface 1a, and the closed surface 1a. The coating film 17 can be effectively prevented from being peeled off, and the waterproof property can be more reliably maintained. In addition, when the sheet material is used for adhering from the closed surface 1a to the outer surface, a fold or seam is formed on the outer surface when one sheet material is turned from the closed surface 1a of the case body 1 to the outer surface. However, when the coating film 17 is formed, such folds and seams are not formed, and a good appearance can be maintained.
[0032]
Next, the ultrasonic transducer A shown in FIGS. 4 and 5 will be described.
[0033]
The case body 1 includes a metal case 2 and a resin case 3.
[0034]
The metal case 2 is formed in a substantially bottomed cylindrical shape. The bottom of the metal case 2 is formed as a vibrating part 4. The vibrating portion 4 is formed with a substantially uniform thickness, one surface is formed as an ultrasonic wave transmitting / receiving surface 4c, and the other surface is formed as a disposing surface 4d on which the piezoelectric element 8 is disposed. The side surface portion is formed as a vibration suppressing portion 5 that extends from the outer edge of the vibration portion 4 toward the arrangement surface 4d. In addition, an opening 9 that connects the inner side and the outer side of the metal case 2 is formed at a portion where the vibration unit 4 and the vibration suppression unit 5 are connected. The opening 9 is formed in a shape in which a portion where the vibration unit 4 and the vibration suppression unit 5 are connected is partially cut away. Two openings 9 are formed, are formed substantially symmetrically with respect to a plane perpendicular to the vibrating part 4 that cuts the metal case 2 from both sides, and the outer edge of the opening 9 on the vibrating part 4 side. The portion is formed substantially point-symmetric with respect to the center of the vibrating portion 4. That is, of the outer edge of the vibration part 4, the part adjacent to the opening 9 is formed as a pair of linear non-connection parts 4 b that are not directly connected to the vibration suppression part 5. Are formed as a pair of arc-shaped connecting portions 4a directly connected to the vibration suppressing portion 5, and the connecting portions 4a and the non-connecting portions formed alternately along the outer edge of the vibrating portion 4 4b is arranged so that the alignment direction of the connection portions 4a and the alignment direction of the non-connection portions 4b are substantially orthogonal to each other. The connecting portion 4a is formed in an arc shape, and the non-connecting portion 4b is formed in a straight line shape. Therefore, the vibrating portion 4 is formed in an oval shape. A rib 10 is formed on the outer periphery of the end of the vibration suppressing portion 5 opposite to the vibrating portion 4 so as to protrude outward over the entire circumference.
[0035]
The metal case 2 does not need to be designed to form a thin part or a thick part, and the shape thereof is simple. Therefore, a single metal piece can be used without performing a complicated forging process or cutting process. A simple bending process or drawing process can be applied to the manufactured plate member 13 so that it can be manufactured inexpensively and easily. For example, as shown in FIG. 6, it is formed by drawing a metal plate 13 such as an aluminum plate. That is, first, a disk-shaped metal plate 13 as shown in FIG. 6A is drawn to form a bottomed cylinder having a flange 15. As shown in FIGS. 6B to 6D, this drawing process is performed through three stages of drawing processes: shallow drawing, medium drawing, and deep drawing. Then, as shown in FIG. 6 (e), the connecting portion between the bottom portion and the peripheral surface portion is punched at two locations using a punch 16 or the like to form a pair of openings 9, and the flange 15 portion. The metal case 2 is formed by cutting the portion leaving the portions to be the ribs 10.
[0036]
The resin case 3 is formed of a synthetic resin material having high rigidity and excellent vibration damping properties. This resin case 3 has a circular shape on the front surface and a circular shape on the back surface with a larger diameter than the front surface. The outer peripheral surface connecting the front surface and the back surface has a larger diameter on the back side than on the front side. A step 5a is formed so as to be. The resin case 3 has through-holes in the front-rear direction that open at the front and back surfaces, and the inside of the through-hole is configured as an arrangement portion 6 in which the metal case 2 is arranged. The inner peripheral shape of the arrangement portion 6 is formed in a substantially circular cross section having substantially the same shape and dimensions as the outer peripheral surface shape of the vibration suppressing portion 5 of the metal case 2.
[0037]
The metal case 2 is held in the arrangement part 6 of the resin case 3. At this time, the vibration part 4 of the metal case 2 closes the opening on the front side of the arrangement part 6 of the resin case 3 and also vibrates. 4 ultrasonic transmission / reception surfaces 4 c are arranged so as to be substantially flush with the front surface of the resin case 3. The pair of vibration suppressing portions 5 are arranged in close contact with the inner surface of the arrangement portion 6, and are fixed to the resin case 3 on the inner surface of the arrangement portion 6. Therefore, a pair of connection part 4a is fixed to the resin case 3 among the outer edges of the arrangement | positioning part 6, and a pair of non-connection part 4b is easy to bend, without being fixed. In addition, a protrusion 12 that protrudes from the opening 9 of the metal case 2 toward the inside of the metal case 2 protrudes from the opening of the arrangement portion 6 that is closed by the vibration portion 4. Therefore, the opening shape on the side closed by the vibration part 4 of the arrangement part 6 is formed in an oval shape having substantially the same shape and dimensions as the vibration part 4. Further, a rib receiving portion 11 having a shape corresponding to the rib 10 of the metal case 2 is recessed over the entire circumference on the inner circumference of the opening of the arrangement portion 6 opposite to the side closed by the vibrating portion 4. It is installed.
[0038]
The piezoelectric element 8 is disposed so as to be electrically connected to the arrangement surface 4 d of the vibration unit 4. Lead wires 7 are connected to the vibration suppressing portion 5 of the metal case 2 and the surface of the piezoelectric element 8 on the side not connected to the arrangement surface 4d.
[0039]
Further, in the case shown in FIG. 4, as in the case shown in FIG. 1, the coating film 17 is formed over the entire closed surface 1 a of the case body 1. Similarly to the case shown in FIG. 2, the coating film 17 is formed on the entire surface from the outer surface side of the closing surface 1 a to the outer surface of the case body 1.
[0040]
Next, the ultrasonic transducer A shown in FIGS. 7 and 8 will be described.
[0041]
The case body 1 includes a metal case 2 and a resin case 3.
[0042]
The metal case 2 includes a vibration part 4 and a vibration suppression part 5. The vibration part 4 is formed in a rectangular plate shape having a substantially uniform thickness, one surface is formed as an ultrasonic transmission / reception surface 4c, and the other surface is formed as an arrangement surface 4d on which the piezoelectric element 8 is disposed. ing. The vibration suppression unit 5 is formed in a cylindrical shape extending from the outer edge of the vibration unit 4 toward the arrangement surface 4d. Here, between the pair of opposing sides of the four sides constituting the outer edge of the vibration unit 4 and the vibration suppression unit 5, the opening 9 communicates the inside and the outside of the metal case 2, respectively. Therefore, this pair of sides is formed as a non-connection portion 4b that is not directly connected to the vibration suppression portion 5. The other pair of opposing sides is formed as a connection portion 4 a that is directly connected to the vibration suppressing portion 5. That is, the connection portions 4a and the non-connection portions 4b that are alternately formed along the outer edge of the vibration portion 4 are arranged so that the alignment direction of the connection portions 4a and the alignment direction of the non-connection portions 4b are substantially orthogonal to each other. It is what has been.
[0043]
The metal case 2 does not need to be designed to form a thin part or a thick part, and the shape thereof is simple. Therefore, a single metal piece can be used without performing a complicated forging process or cutting process. A simple bending process or drawing process can be performed on the manufactured plate material 13 at low cost and easily, for example, by bending a single metal plate material 13 as shown in FIG. Is formed. That is, the plate member 13 is formed by extending a total of four sub-plates 13b from both ends in the longitudinal direction of the rectangular main plate 13a toward both sides. The main plate 13a is bent in a U shape, and the bent portions at both ends are formed as the vibration suppressing portion 5 and the portion sandwiched between the vibration suppressing portions 5 is formed as the vibrating portion 4. This bending process is performed inside the portion where the sub-plate 13b is formed. At this time, the two pairs of sub-plates 13b are arranged to face each other. Further, the sub-plate 13b is bent toward the opposing sub-plate 13b, and the tips of the opposing sub-plates 13b are abutted against each other. At this time, the outer edge of the vibration part 4 is formed as a connection part 4a at the fold part of the main plate 13a, and the other part is formed as a non-connection part 4b. In addition, an opening 9 that connects the inner side and the outer side of the metal case 2 is formed in a portion surrounded by the outer edge of the portion formed from the sub-plate 13 b of the non-connecting portion 4 b and the vibration suppressing portion 5. .
[0044]
The resin case 3 is formed of a synthetic resin material having high rigidity and excellent vibration damping properties. This resin case 3 has a circular shape on the front surface and a circular shape on the back surface with a larger diameter than the front surface. The outer peripheral surface connecting the front surface and the back surface has a larger diameter on the back side than on the front side. A step 5a is formed so as to be. The resin case 3 has through-holes in the front-rear direction that open at the front and back surfaces, and the inside of the through-hole is configured as an arrangement portion 6 in which the metal case 2 is arranged. The inner peripheral shape of the arrangement portion 6 is formed in a substantially rectangular cross section having substantially the same shape and size as the outer peripheral surface shape of the vibration suppressing portion 5 of the metal case 2.
[0045]
The metal case 2 is held in the arrangement part 6 of the resin case 3. At this time, the vibration part 4 of the metal case 2 closes the opening on the front side of the arrangement part 6 of the resin case 3 and also vibrates. 4 ultrasonic transmission / reception surfaces 4 c are arranged so as to be substantially flush with the front surface of the resin case 3. Further, the vibration suppression unit 5 is arranged in close contact with the inner surface of the arrangement unit 6, and is fixed to the resin case 3 on the inner surface of the arrangement unit 6. Therefore, a pair of connection part 4a is fixed to the resin case 3 among the outer edges of the arrangement | positioning part 6, and a pair of non-connection part 4b is easy to bend, without being fixed. In addition, a protrusion 12 that protrudes from the opening 9 of the metal case 2 toward the inside of the metal case 2 protrudes from the opening of the arrangement part 6 on the side closed by the vibration part 4.
[0046]
The piezoelectric element 8 is disposed so as to be electrically connected to the arrangement surface 4 d of the vibration unit 4. Lead wires 7 are connected to the vibration suppressing portion 5 of the metal case 2 and the surface of the piezoelectric element 8 on the side not connected to the arrangement surface 4d.
[0047]
Further, in the case shown in FIG. 7, as in the case shown in FIG. 1, the coating film 17 is formed over the entire closing surface 1 a of the case body 1. Similarly to the case shown in FIG. 2, the coating film 17 is formed on the entire surface from the outer surface side of the closing surface 1 a to the outer surface of the case body 1.
[0048]
The ultrasonic transducer A configured as shown in FIGS. 1, 2, 4, 5, 7, and 8 applies a pulse voltage between the lead wires 7 and generates a voltage generated between the lead wires 7. An ultrasonic sensor can be configured by connecting a control circuit to be measured. Then, when a pulse voltage is applied between the lead wires 7, the piezoelectric element 8 vibrates, and the vibration part 4 vibrates accordingly and oscillates an ultrasonic wave. Further, when the ultrasonic wave oscillated from the vibration part 4 is reflected by an obstacle or the like and this reflected wave hits the ultrasonic wave transmitting / receiving surface 4c of the vibration part 4, the vibration part 4 vibrates and the piezoelectric element 8 vibrates accordingly. To do. At this time, an electromotive force is generated in the piezoelectric element 8, and by detecting the electromotive force between the lead wires 7, the presence or absence of an obstacle can be detected.
[0049]
When such an ultrasonic transducer A is attached to an attachment target such as a bumper of an automobile, the ultrasonic transducer A is installed in an opening formed in the attachment target, and the closing surface 1a of the case body 1 is in the opening 9. Arranged to be exposed to the outside. At this time, in particular, when the ultrasonic transducer A is disposed in a vehicle bumper or the like for use in a vehicle, the closing surface 1a of the case body 1 is disposed substantially perpendicular to the horizontal plane, and a pair of connection portions in the vibration portion 4 is provided. 4a is arrange | positioned so that it may line up in a horizontal direction, and a pair of non-connecting part 4b is arrange | positioned so that it may line up in a perpendicular direction.
[0050]
When ultrasonic waves are oscillated from the ultrasonic transducer A, the vibration mode in the horizontal direction (direction from one connecting portion 4a to the other connecting portion 4a) in the vibrating portion 4 is a simple flexural vibration, but the vertical direction Since the vibration mode in the direction from one non-connecting portion 4b to the other non-connecting portion 4b is easy to bend because the non-connecting portion 4b is not fixed to the resin case 3, horizontal vibration Since the plane vibration is larger than the mode, even if the vibration part 4 is formed in a flat plate shape having a substantially uniform thickness, a plurality of types of vibration modes can be generated in the vibration part 4. As a result, the oscillation direction of the ultrasonic wave generated by the vibration of the vibration unit 4 becomes sharper without spreading in the vertical direction than in the horizontal direction, and the ultrasonic wave oscillated from the vibration unit 4 has a horizontal direction as a whole. A directivity having a different direction that spreads but narrows in the vertical direction is given. Accordingly, the detection area of the ultrasonic transducer A is wide in the horizontal direction and narrow in the vertical direction, and the ultrasonic wave transmission output is improved. For this reason, when such an ultrasonic transducer A is used particularly for in-vehicle use, it is possible to prevent detection of a road surface or the like that does not hinder the movement of the automobile.
[0051]
In addition, since the ultrasonic wave itself oscillated from the ultrasonic transducer A has directivity having a different direction, in order to impart directivity to the ultrasonic wave in the forward direction that is the oscillation direction of the ultrasonic wave from the ultrasonic oscillator A. It is possible to expose the ultrasonic transducer A directly to the outside without forming a depression or the like in front of the ultrasonic transducer A, and to the front of the ultrasonic transducer A. It is possible to prevent foreign matters such as rainwater, snow, dust and the like from accumulating, and to prevent changes in the directional characteristics of ultrasonic waves oscillated from the ultrasonic vibrator A and malfunctions due to such foreign matters. In addition, it is possible to prevent a situation in which the detection area where the obstacle can be detected changes, or even if there is no obstacle, notification is made as if there is an obstacle.
[0052]
Further, in a state where the ultrasonic transducer A is attached to the attachment object, the closed surface 1a of the case body 1 can be disposed so as to be flush with the surface of the attachment object, and a horn or the like can be provided. It is possible to improve the appearance in the mounted state without protruding from the surface of the metal or exposing the opening to the outside.
[0053]
Further, in the ultrasonic transducer A as shown in FIGS. 1, 2, 4, 5, 7, and 8, when the resin case 3 is provided, the metal case 2 is disposed in the cavity of the molding die. The case body 1 can be manufactured by integrally molding the resin case 3 on the metal case 2 by insert molding for molding the resin case 3. In this way, the case body 1 can be produced at the same time as the resin case 3 is molded, and the production process of the ultrasonic transducer A can be reduced. Moreover, the vibration suppressing portion 5 of the metal case 2 can be reduced. The adhesiveness with the inner surface of the arrangement part 6 of the resin case 3 can be improved, and the connection part 4a of the vibration part 4 of the metal case 2 can be stably fixed to the resin case 3. Stability can be improved.
[0054]
【The invention's effect】
As described above, in the ultrasonic transducer according to claim 1 of the present invention, the piezoelectric element is disposed on the inner surface side of the closed surface of the case body having one end surface opened and the other end surface closed. In the ultrasonic vibrator having the directional characteristics of the ultrasonic wave generated in the direction, the case body is composed of a metal case formed of a metal plate material and a resin case made of a synthetic resin material. A coating film is formed on the outer side of the closed surface of the body, and the joint portion between the metal case and the resin case that appears on the closed surface is coated with the coating film, and emits ultrasonic waves having directional characteristics of different directions. The case of a waterproof ultrasonic oscillator can be formed by molding a metal plate and a synthetic resin material, and there is no need to install a horn to control the directivity of ultrasonic waves. The child can be formed inexpensively and easily In addition, when the ultrasonic vibrator is disposed on a mounting object such as a bumper of an automobile, a coating film having a color that approximates the appearance of the target object is formed on the ultrasonic vibrator. An ultrasonic transducer can be arranged on an object with good appearance. Also, by covering the joint between the resin case and the metal case with a coating film, the sealing property of the ultrasonic vibrator can be improved and the waterproof property can be improved. Even if a part of the film is peeled off, the whole is not peeled off in a chain, and the waterproofness of the ultrasonic transducer A can be reliably maintained over a long period of time.
[0055]
In addition to the structure of claim 1, the invention of claim 2 of the present invention forms a coating film from the outer surface side of the closed surface of the case body to the outer surface of the case body, and is a coating film that is easily peeled off. The end edge of the sealing member is not disposed on the outer edge of the closing surface, the coating film on the closing surface is effectively prevented from being peeled off, and the waterproof property can be maintained more reliably. When a sheet material is used for adhering from the closed surface to the outer surface, if a single sheet material is wrapped from the closed surface of the case body to the outer surface, folds and seams are formed on the outer surface, and the appearance deteriorates. However, when a coating film is formed, such folds and seams are not formed, and a good appearance can be maintained.
[0056]
In addition to the structure of claim 1 or 2, the invention of claim 3 of the present invention is to form a metal case by bending a metal plate material without involving a forging process or a cutting process. A metal case can be formed, and a metal case can be formed inexpensively and easily.
[0057]
In addition to the structure of claim 1 or 2, the invention according to claim 4 of the present invention is to form a metal case by subjecting a metal plate material to a drawing process, and does not involve a forging process or a cutting process. A metal case can be formed, and the metal case can be formed inexpensively and easily.
[0058]
According to a fifth aspect of the present invention, in addition to the structure of any one of the first to fourth aspects, one surface is formed as an ultrasonic wave transmitting / receiving surface, and the other surface is a mounting surface on which a piezoelectric element is disposed. The vibration part and the vibration suppression part are formed, and at least a pair of connection parts directly connecting the vibration part and the vibration suppression part to the outer edge of the vibration part, and the vibration part and the vibration suppression part are directly A metal case formed with at least a pair of unconnected parts that are not connected is fixed to the resin case at the vibration suppressing part, and the non-connected part is fixed to the resin case and the vibration near the unconnected part in the vibrating part Even if the vibration part is formed in a flat plate having a substantially uniform thickness, by generating a plurality of vibration modes in the vibration part, the ultrasonic wave emitted from the vibration part has a directivity having anisotropy. It is something that can be done.
[0059]
According to a sixth aspect of the present invention, in addition to the configuration of the fifth aspect, a connection portion and a non-connection portion are alternately formed on the outer edge of the vibration portion of the metal case to form a pair of connection portions and a pair of non-connection portions. The connecting portion is formed so that the alignment direction of the connection portions and the alignment direction of the non-connection portions are substantially orthogonal to each other, and the connection portion is fixed in the vicinity of the connection portion of the vibration portion. Therefore, the amplitude is reduced, and instead the amplitude in the inner part sandwiched between the connecting parts is increased. The oscillation direction of the ultrasonic wave generated by the vibration of the vibrating part is vertical compared to the horizontal direction. It becomes sharp without spreading in the direction, and it can give directivity with different directionality that spreads in the horizontal direction as a whole but narrows the spread in the vertical direction to the ultrasonic waves emitted from the vibrating part, and Can also improve the transmission power It is. Therefore, particularly when used for in-vehicle use, it is possible to prevent detection of a road surface or the like that does not hinder the movement of the automobile.
[0060]
According to a seventh aspect of the present invention, in addition to the structure of any one of the first to sixth aspects, one surface is formed as an ultrasonic wave transmitting / receiving surface and the other surface is disposed as a placement surface on which a piezoelectric element is disposed. Resin having a vibration case formed and a vibration suppression portion extending from the outer edge of the vibration portion toward the arrangement surface side, and an arrangement portion that opens the metal case on the front surface and the back surface In the case, the outer surface of the vibration suppression part of the metal case is arranged on the inner surface of the arrangement part, and the opening on the front side of the arrangement part is closed with the vibration part of the metal case, and the ultrasonic transmission / reception surface of the front surface of the resin case and the vibration part The ultrasonic wave transmitting and receiving surface is exposed to the closed surface so that the ultrasonic wave can be efficiently oscillated from the closed surface, and the metal case is a resin case. By placing it inside the The metal case and the piezoelectric element electrically connected to the metal case except for the wave transmitting / receiving surface can be protected from the surroundings, and the operational stability of the ultrasonic vibrator can be improved. The vibration suppression part of the metal case is securely fixed to the resin case, and the metal case can be firmly held by the resin case.
[0061]
According to an eighth aspect of the present invention, in addition to the structure of any one of the first to seventh aspects, a resin case is integrally formed with a metal case by insert molding to form a case body. The case body can be manufactured at the same time as molding, and the manufacturing process of the ultrasonic vibrator can be reduced, and the adhesion between the vibration suppression part of the metal case and the inner surface of the resin case is improved. Thus, the connection portion of the vibration portion of the metal case can be stably fixed to the resin case, and the operational stability of the ultrasonic vibrator can be improved.
[Brief description of the drawings]
FIG. 1 shows an example of an embodiment of the present invention, where (a) is a front view, (b) is a side sectional view, (c) is a bottom sectional view, and (d) is a rear view. is there.
FIG. 2 shows another example of the embodiment of the present invention, in which (a) is a front view, (b) is a side sectional view, (c) is a bottom sectional view, and (d) is a rear view. It is.
FIGS. 3A to 3C are cross-sectional views showing a manufacturing process of a metal case in the embodiment described above. FIGS.
4A and 4B show still another example of the embodiment of the present invention, in which FIG. 4A is a front view, FIG. 4B is a side sectional view, FIG. 4C is a bottom sectional view, and FIG. FIG.
5A and 5B show still another example of the embodiment of the present invention, in which FIG. 5A is a front view, FIG. 5B is a side sectional view, FIG. 5C is a bottom sectional view, and FIG. FIG.
6A to 6E show a manufacturing process of a metal case according to the above embodiment, in which FIG. 6A is a perspective view and FIGS. 6B to 6E are cross-sectional views.
7A and 7B show still another example of the embodiment of the present invention, in which FIG. 7A is a front view, FIG. 7B is a side sectional view, FIG. 7C is a bottom sectional view, and FIG. FIG.
8A and 8B show still another example of the embodiment of the present invention, in which FIG. 8A is a front view, FIG. 8B is a side sectional view, FIG. 8C is a bottom sectional view, and FIG. FIG.
FIG. 9 is a perspective view showing a metal case in the embodiment.
FIG. 10 is a perspective view showing a state in which an ultrasonic sensor is attached to an automobile.
11A and 11B show an example of the prior art, in which FIG. 11A is a side sectional view, and FIG. 11B is a front view.
12A and 12B show another example of the prior art, in which FIG. 12A is a front view and FIG. 12B is a cross-sectional view of the bottom surface.
[Explanation of symbols]
A Ultrasonic transducer
1 Case body
2 Metal case
3 Resin case
4 Vibration part
4a connection
4b Unconnected part
4c Ultrasonic transmission / reception surface
4d surface
5 Vibration suppression part
6 Arrangement part
8 Piezoelectric elements
13 Board material
17 Paint film

Claims (8)

A piezoelectric element is disposed on the inner surface side of the closed surface of the case body, the one end surface of which is open and the other end surface is a closed surface, and the ultrasonic waves generated on the closed surface have an directional characteristic with a different direction. In the vibrator, the case body is composed of a metal case formed of a metal plate material and a resin case made of a synthetic resin material, and a coating film is formed on the outer surface side of the closed surface of the case body and appears on the closed surface. An ultrasonic vibrator characterized in that a joint between a metal case and a resin case is covered with a coating film. The ultrasonic transducer according to claim 1, wherein a coating film is formed from an outer surface side of the closed surface of the case body to an outer surface of the case body. The ultrasonic transducer according to claim 1 or 2, wherein a metal case is formed by bending a metal plate. The ultrasonic transducer according to claim 1, wherein a metal case is formed by drawing a metal plate material. One surface is formed as an ultrasonic wave transmitting / receiving surface and the other surface is formed as an arrangement surface on which a piezoelectric element is disposed, and a vibration suppressing portion, and the vibration portion and vibration are arranged on the outer edge of the vibration portion. A metal case in which at least a pair of connecting portions that are directly connected to the suppression portion and at least a pair of non-connected portions that are not directly connected to the vibration portion and the vibration suppression portion is formed into a resin case in the vibration suppression portion. The ultrasonic transducer according to claim 1, wherein the ultrasonic transducer is fixed. On the outer edge of the vibration part of the metal case, a connection part and a non-connection part are alternately formed to form a pair of connection parts and a pair of non-connection parts. The ultrasonic transducer according to claim 5, wherein the ultrasonic transducer is formed so as to be substantially orthogonal to the arrangement direction. A vibration part in which one surface is formed as an ultrasonic wave transmission / reception surface and the other surface is formed as a disposition surface on which the piezoelectric element is disposed, and vibration suppression extended from the outer edge of the vibration part toward the disposition surface side The metal case is configured with a metal case, and the metal case is disposed on a resin case having an arrangement portion that opens at the front and back surfaces, and the outer surface of the vibration suppression portion of the metal case is arranged on the inner surface of the arrangement portion and the front side of the arrangement portion 7. The opening of the metal case is closed by a vibration part of a metal case, and the front surface of the resin case and the ultrasonic wave transmitting / receiving surface of the vibration part are held so as to form a closed surface. The ultrasonic transducer according to crab. 8. The ultrasonic transducer according to claim 1, wherein a case body is formed by integrally molding a resin case with a metal case by insert molding.

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