JP2000009457A - Two-dimensional position detector for vehicles - Google Patents

Two-dimensional position detector for vehicles

Info

Publication number
JP2000009457A
JP2000009457A JP10195082A JP19508298A JP2000009457A JP 2000009457 A JP2000009457 A JP 2000009457A JP 10195082 A JP10195082 A JP 10195082A JP 19508298 A JP19508298 A JP 19508298A JP 2000009457 A JP2000009457 A JP 2000009457A
Authority
JP
Japan
Prior art keywords
vehicle
piezoelectric element
ultrasonic waves
dimensional position
piezoelectric elements
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
JP10195082A
Other languages
Japanese (ja)
Inventor
Masaki Kitayama
雅樹 北山
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Niles Parts Co Ltd
Original Assignee
Niles Parts Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Niles Parts Co Ltd filed Critical Niles Parts Co Ltd
Priority to JP10195082A priority Critical patent/JP2000009457A/en
Publication of JP2000009457A publication Critical patent/JP2000009457A/en
Abandoned legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To provide a two-dimensional position detector for vehicles, capable of detecting the two-dimensional position of a vehicle from an obstacle. SOLUTION: A control unit 5 actuates two piezoelectric elements 11, 12 of each ultrasonic wave sensor 1-4 one after the other for only a fixed time to radiate an ultrasonic wave and receive its reflected ultrasonic wave, thereby obtaining the calculated position of an obstacle, based on the time difference between them. The piezoelectric elements 11, 12 are mounted and oriented in directions different 90 deg. and hence only the distances can be detected from input/output signals of the piezoelectric elements but the position can be obtd. as an intersection point of concentric circles with the radii of the distances.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は圧電素子から成る超
音波センサを用いた車両周辺の障害物、人体等の検知用
ソーナーシステムなどに好適な車両用2次元位置検出装
置に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a two-dimensional position detecting apparatus for a vehicle suitable for a sonar system for detecting obstacles, a human body, etc. around a vehicle using an ultrasonic sensor comprising a piezoelectric element.

【0002】[0002]

【従来の技術】従来、圧電素子等から成る超音波センサ
を用いて、車両周辺の障害物、人体等の有無、もしくは
そこ迄の距離を検出する車載用ソーナーシステムとして
は、検出結果が「距離」だけの1次元データしか得られ
なかった。従って、例えば、CCDカメラ等を用いた死
角視認装置と組み合わせて補助手段として用いることも
できず、用途が限定されていた。またその取り付け方式
も、圧電素子ハウジングを車両のバンパー等に埋め込む
方式なので、取り付けに多くの工数が必要であった。
2. Description of the Related Art Conventionally, as a vehicle-mounted sonar system for detecting the presence or absence of an obstacle or a human body around a vehicle using an ultrasonic sensor comprising a piezoelectric element or the like, or a distance to the vehicle, the detection result is "distance". Only one-dimensional data was obtained. Therefore, for example, it cannot be used as an auxiliary means in combination with a blind spot visual recognition device using a CCD camera or the like, and its use is limited. In addition, since the mounting method is such that the piezoelectric element housing is embedded in a bumper or the like of a vehicle, many man-hours are required for mounting.

【0003】[0003]

【発明が解決しようとする課題】本発明は車両周辺の障
害物等の2次元の位置データを容易に得ることができ、
しかも前記死角視認装置等の補助手段として組み合わせ
ることによりその機能をより向上させることができる車
両用2次元位置検出装置を提供することを課題とする。
According to the present invention, two-dimensional position data of an obstacle or the like around a vehicle can be easily obtained.
Moreover, an object of the present invention is to provide a two-dimensional position detecting device for a vehicle, which can further improve its function by being combined as auxiliary means such as the blind spot visual recognition device.

【0004】[0004]

【課題を解決するための手段】上記課題を解決するた
め、第1の発明の車両用2次元位置検出装置は、車両の
所望部位に取り付けられた第1の圧電素子と、第1の圧
電素子とは90°異なる車両の他の部位に取り付けられ
た第2の圧電素子と、第1及び第2の圧電素子を付勢し
て超音波を発射させると共にその反射超音波により第1
及び第2の圧電素子が発生する起電力を入力させる超音
波入出力手段と、上記第1及び第2の圧電素子による超
音波の発射タイミング、反射超音波の入力タイミング及
び夫々の圧電素子の取付位置より、反射物の位置を求め
る演算手段と、を備えたことを要旨とする。
According to a first aspect of the present invention, there is provided a vehicle two-dimensional position detecting apparatus comprising: a first piezoelectric element mounted on a desired portion of a vehicle; and a first piezoelectric element. A second piezoelectric element attached to another part of the vehicle which is different from the first piezoelectric element by 90 °, and the first and second piezoelectric elements are energized to emit ultrasonic waves, and the first ultrasonic waves are reflected by the reflected ultrasonic waves.
Ultrasonic input / output means for inputting the electromotive force generated by the second and the second piezoelectric elements, the ultrasonic emission timing by the first and the second piezoelectric elements, the input timing of the reflected ultrasonic waves, and the attachment of the respective piezoelectric elements And calculating means for calculating the position of the reflection object from the position.

【0005】また第2の発明の車両用2次元位置検出装
置は、車両の前部右側端部近傍の右側部位と、これとは
90°異なる前方側部位とに取り付けられた第1及び第
2の圧電素子と、上記車両の前部左側端部近傍の左側部
位と、これとは90°異なる前方側部位とに取り付けら
れた第3及び第4の圧電素子と、上記車両の後部右側端
部近傍の右側部位と、これとは90°異なる後方側部位
とに取り付けられた第5及び第6の圧電素子と、上記車
両の後部左側端部近傍の左側部位と、これとは90°異
なる後方側部位とに取り付けられた第7及び第8の圧電
素子と、第1乃至第8の圧電素子の少なくとも1つ又は
全部を付勢して超音波を発射させると共にその反射超音
波により第1乃至第8の圧電素子の少なくとも1つ又は
全部が発生する起電力を入力させる超音波入出力手段
と、上記第1乃至第8の圧電素子の少なくとも1つ又は
全部による超音波の発射タイミング、反射超音波の入力
タイミング及び夫々の圧電素子の取付位置より反射物の
位置を求める演算手段と、を備えたことを要旨とする。
Further, a two-dimensional position detecting device for a vehicle according to a second aspect of the present invention includes a first part and a second part attached to a right part near the right front end of the vehicle and a front part different from the right part by 90 °. And third and fourth piezoelectric elements attached to a left portion near the front left end of the vehicle, a front portion different from the left portion by 90 °, and a rear right end of the vehicle. Fifth and sixth piezoelectric elements attached to a right side portion in the vicinity, a rear side portion different from the right side portion by 90 °, a left side portion near the rear left end portion of the vehicle, and a rear portion different from the left side portion by 90 °. The seventh and eighth piezoelectric elements attached to the side part and at least one or all of the first to eighth piezoelectric elements are energized to emit ultrasonic waves, and the first to eighth elements are reflected by the reflected ultrasonic waves. Electromotive force generated by at least one or all of the eighth piezoelectric elements An ultrasonic input / output means for inputting an ultrasonic wave, at least one or all of the first to eighth piezoelectric elements emit ultrasonic waves, input reflected ultrasonic waves, and determine the position of the reflected object from the mounting position of each piezoelectric element. And calculating means for obtaining the position.

【0006】また、第1又は第2の発明の装置におい
て、前記圧電素子の取付位置近傍に設置された撮像装置
と、上記撮像装置による画像を表示する表示手段と、を
備え、上記表示装置には前記演算手段により上記画像の
位置を表示させるように構成してもよい。
Further, in the apparatus according to the first or second aspect of the present invention, the apparatus further comprises an image pickup device installed near the mounting position of the piezoelectric element, and display means for displaying an image by the image pickup device. May be configured to display the position of the image by the calculation means.

【0007】更に上記各発明の装置において、所望の圧
電素子を選択して反射物の位置及び又は画像の位置の表
示を求めさせる選択手段を設けてもよい。
Further, in each of the above-described devices of the present invention, a selection means for selecting a desired piezoelectric element and requesting display of the position of a reflecting object and / or the position of an image may be provided.

【0008】或いは上記選択手段が車両のステアリング
の操作に応答するようにしてもよい。
Alternatively, the selection means may respond to a steering operation of the vehicle.

【0009】更にまた音声報知手段を設け、車両のステ
アリングの操作に応答して対応する圧電素子を選択し反
射物の位置を音声で報知させるように構成してもよい。
Further, a sound notifying means may be provided so that a corresponding piezoelectric element is selected in response to a steering operation of the vehicle and the position of the reflector is notified by sound.

【0010】[0010]

【発明の実施の形態】以下本発明の車両用2次元位置検
出装置の一実施形態を説明する。図1は本発明による車
両用2次元位置検出装置の一実施形態を示す。同図にお
いて、1は車両の前部右側端部近傍に取り付けられた超
音波センサ、2はその前部左側端部近傍に取り付けられ
た超音波センサ、3はその後部右側端部近傍に取り付け
られた超音波センサ、4はその後部左側端部近傍に取り
付けられた超音波センサ、5はマイクロコンピュータ等
より成る制御ユニット、6はLCDパネル等から成る表
示器である。超音波センサ1は、圧電素子11,12、
放射波用アンプ13,14及び反射波用アンプ15,1
6から成り、各アンプ13,14,15,16は制御ユ
ニット5に接続されていて、他の超音波センサも同様の
構成となっている。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a two-dimensional position detecting device for a vehicle according to the present invention will be described below. FIG. 1 shows an embodiment of a two-dimensional position detecting device for a vehicle according to the present invention. In the figure, 1 is an ultrasonic sensor mounted near the front right end of the vehicle, 2 is an ultrasonic sensor mounted near the front left end, and 3 is mounted near the right rear end of the vehicle. Reference numeral 4 denotes an ultrasonic sensor mounted near the left end of the rear portion, 5 denotes a control unit including a microcomputer, and 6 denotes a display including an LCD panel or the like. The ultrasonic sensor 1 includes piezoelectric elements 11 and 12,
Amplifiers 13 and 14 for radiation wave and amplifiers 15 and 1 for reflected wave
The amplifiers 13, 14, 15, 16 are connected to the control unit 5, and the other ultrasonic sensors have the same configuration.

【0011】図2は超音波センサの取付構造を示す。例
えば、超音波センサ3は、取付ケース7内に収納され、
該取付ケース7は両面テープ8等による接着手段、また
はネジ止め手段等により車両の後部右側端部のバンパ9
等に取り付けられる。取付ケース7は図示の如く圧電素
子ハウジング31,32の取付位置が90°異なるよう
に弯曲しており、アンプ部34,35も図示のようにそ
の内側に取り付けられ、そこからのリード線33が車両
内の制御ユニット5に接続されている。従って、取付ケ
ース7を上述の如く車両後部右側端部に取り付ければ2
つの圧電素子を夫々上記端部の右側部位と、これとは9
0°異なる後方側部位に取り付けたことになる。
FIG. 2 shows the mounting structure of the ultrasonic sensor. For example, the ultrasonic sensor 3 is housed in the mounting case 7,
The mounting case 7 is attached to a bumper 9 at the rear right end of the vehicle by an adhesive means such as a double-sided tape 8 or a screwing means.
And so on. The mounting case 7 is curved so that the mounting positions of the piezoelectric element housings 31 and 32 are different from each other by 90 degrees as shown in the figure, and the amplifier parts 34 and 35 are also mounted inside the same as shown in the figure, and the lead wire 33 therefrom is It is connected to a control unit 5 in the vehicle. Therefore, if the mounting case 7 is mounted on the right rear end of the vehicle as described above, 2
Each of the two piezoelectric elements is located on the right side of
This means that they are attached to the rear part different by 0 °.

【0012】図3は取付ケース7のケース本体7aを示
し、(a)は正面図、(b)は右側面図、(c)は平面
図、(d)は図(b)の矢視A−A’線方向端面図であ
る。ケース本体7aは、両端が半円筒形状をした略L字
型形状の箱体で、正面側と側面側の開口部の内側に後述
する突起7cが係止する係合部7dを形成している。7
eは、リード線33を挿通して、ケース本体7a外に引
き出すための貫通穴であり、ケース本体7aの奥壁に穿
設される。
FIG. 3 shows a case body 7a of the mounting case 7, wherein (a) is a front view, (b) is a right side view, (c) is a plan view, and (d) is an arrow A in FIG. It is an end view in the -A 'line direction. The case main body 7a is a substantially L-shaped box body having a semi-cylindrical shape at both ends, and has an engaging portion 7d which is engaged with a projection 7c described later inside the opening on the front side and the side surface. . 7
“e” is a through hole through which the lead wire 33 is inserted and drawn out of the case body 7a, and is formed in the inner wall of the case body 7a.

【0013】図4は取付ケース7のカバー7bを示し、
(a)は正面図、(b)は右側面図、(c)は平面図で
ある。カバー7bは、両端に半円状の切欠部7fを形成
した略L字型形状の板材で、正面側と側面側の上下にそ
れぞれ突起7cを形成している。該カバー7bは、突起
7cをケース本体7aの係合部7dに係合させることに
より装着することで、該ケース本体7aの開口部を閉塞
する。ケース本体7aは、カバー7bを取り付けたこと
で、該ケース本体7aの両端部の内壁と、前記カバー7
bの切欠部7fとで、円形の穴を構成する。前記圧電素
子ハウジング31,32は、この穴に合致させてケース
本体7a内に配設される。
FIG. 4 shows a cover 7b of the mounting case 7,
(A) is a front view, (b) is a right side view, and (c) is a plan view. The cover 7b is a substantially L-shaped plate member having semicircular cutouts 7f formed at both ends, and has projections 7c formed on the upper and lower sides of the front side and the side surfaces, respectively. The cover 7b is mounted by engaging the projection 7c with the engaging portion 7d of the case body 7a, thereby closing the opening of the case body 7a. By attaching the cover 7b to the case body 7a, the inner walls at both ends of the case body 7a
A circular hole is formed with the notch 7f of b. The piezoelectric element housings 31, 32 are arranged in the case main body 7a so as to match the holes.

【0014】さて図1において、制御ユニット5は一定
時間毎に所定周波数の正弦波信号を、各超音波センサ1
〜4に対して一定時間だけ順次出力する。出力された正
弦波信号は、例えば、超音波センサ1内の放射波用アン
プ13,14を介して増幅され、圧電素子11,12に
入力される。圧電素子11,12はこの入力信号により
励振されて微振動を発生し、一定時間だけ超音波を放射
する。
In FIG. 1, a control unit 5 outputs a sine wave signal of a predetermined frequency at regular intervals to each of the ultrasonic sensors 1.
4 are sequentially output for a fixed time. The output sine wave signal is amplified through, for example, radiation wave amplifiers 13 and 14 in the ultrasonic sensor 1 and input to the piezoelectric elements 11 and 12. The piezoelectric elements 11 and 12 are excited by the input signal to generate micro-vibration and emit ultrasonic waves for a fixed time.

【0015】放射された超音波は車両周囲の障害物、人
体等により反射され、その反射超音波が入射され、今度
は圧電素子11,12を振動させる。この振動により起
電力が発生される。この起電力は反射波用アンプ15,
16を介して増幅され制御ユニット5へ入力される。同
様にして一定時間毎に他の超音波センサ2〜4において
も上述の動作が行われる。
The radiated ultrasonic wave is reflected by an obstacle, a human body, and the like around the vehicle, and the reflected ultrasonic wave is incident, which in turn causes the piezoelectric elements 11 and 12 to vibrate. An electromotive force is generated by this vibration. This electromotive force is applied to the reflected wave amplifier 15,
It is amplified via 16 and input to the control unit 5. Similarly, the above-described operation is performed in the other ultrasonic sensors 2 to 4 at regular intervals.

【0016】制御ユニット5は図5に示すように各超音
波センサ1〜4における各圧電素子11,12による超
音波の放射よりその反射超音波の入射迄の時間差tを計
測し、前記障害物等までの距離を演算する。各超音波セ
ンサ1〜4において、前述したように、2つの圧電子素
子11,12は90°異なる向きに取り付けられてお
り、夫々に対して上記距離が演算されるが、各距離の演
算値は1次元のものである。しかし各圧電素子11,1
2から障害物迄の位置は上記距離を半径とする同心円上
にあるから、2つの圧電素子11,12を用いることに
より夫々の周心円の2つの交点を求めれば、その何れか
の交点が車両を基準(中心)とした障害物の位置であ
り、これは超音波センサの取付位置より定めることがで
きる。かくして容易に障害物の位置を検出できる。検出
された位置は表示器6の画面に表示される。
As shown in FIG. 5, the control unit 5 measures the time difference t from the emission of the ultrasonic wave by each of the piezoelectric elements 11 and 12 in each of the ultrasonic sensors 1 to 4 to the incidence of the reflected ultrasonic wave. Calculate the distance to etc. In each of the ultrasonic sensors 1 to 4, as described above, the two piezoelectric elements 11 and 12 are mounted in directions different from each other by 90 °, and the distance is calculated for each. Is one-dimensional. However, each piezoelectric element 11, 1
Since the position from 2 to the obstacle is on a concentric circle whose radius is the above distance, if two intersections of each of the peripheral circles are obtained by using the two piezoelectric elements 11 and 12, any one of the intersections is determined. This is the position of the obstacle with respect to the vehicle (center), which can be determined from the mounting position of the ultrasonic sensor. Thus, the position of the obstacle can be easily detected. The detected position is displayed on the screen of the display 6.

【0017】図6は上述した車両用2次元位置検出装置
を補助手段として組み合わせた死角視認装置で、20は
上述した2次元位置検出装置、21は公知の死角視認装
置で、前記超音波センサの取付位置近傍に設置されたC
CDカメラ22〜25を有する。26は表示装置で、各
CCDカメラ22〜25により撮影された障害物の画像
が表示されると共に2次元位置検出装置20により前述
のようにして求めた障害物の位置が上記画像と一緒に表
示される。27は選択スイッチであって、この選択スイ
ッチ27を操作することにより所望のCCDカメラ及び
超音波センサによる画像及びその位置のみを表示しても
よい。またこの場合、選択スイッチ27を車両のステア
リング操作に応答するようにしてもよい。
FIG. 6 shows a blind spot visual recognition device in which the above-described vehicle two-dimensional position detection device is combined as an auxiliary means. Reference numeral 20 denotes the above-described two-dimensional position detection device. Reference numeral 21 denotes a known blind spot visual recognition device. C installed near the mounting position
It has CD cameras 22 to 25. Reference numeral 26 denotes a display device which displays an image of the obstacle taken by each of the CCD cameras 22 to 25 and displays the position of the obstacle obtained by the two-dimensional position detecting device 20 as described above together with the image. Is done. Reference numeral 27 denotes a selection switch. By operating the selection switch 27, only a desired image by the CCD camera and the ultrasonic sensor and its position may be displayed. In this case, the selection switch 27 may be made to respond to the steering operation of the vehicle.

【0018】更には、図1又は図5の装置において、適
当な音声報知器28を前記表示器6、表示装置26と共
に、又はこれに代えて設けて障害物迄の位置を音声でも
報知するようにしてもよい。
Further, in the apparatus shown in FIG. 1 or FIG. 5, an appropriate sound annunciator 28 is provided together with or instead of the display 6 and the display 26 so as to notify the position to the obstacle by audio. It may be.

【0019】[0019]

【発明の効果】以上説明したように本発明によれば、障
害物等の2次元の位置検出を行うことができ、またこれ
により障害物等の方向への車両の進行を防止するシステ
ムの構築や、車線変更時の死角視認装置の補助手段とし
て組み合わせることも可能であり、超音波センサの取付
工数も簡単化される。
As described above, according to the present invention, it is possible to detect a two-dimensional position of an obstacle or the like, and thereby to construct a system for preventing the vehicle from traveling in the direction of the obstacle or the like. Alternatively, it can be combined as an auxiliary means of the blind spot visual recognition device when changing lanes, and the number of steps for mounting the ultrasonic sensor can be simplified.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の一実施形態の構成を示すブロック図で
ある。
FIG. 1 is a block diagram showing a configuration of an embodiment of the present invention.

【図2】超音波センサの取付方法の説明図である。FIG. 2 is an explanatory diagram of a method of mounting an ultrasonic sensor.

【図3】超音波センサの取付ケース本体を示す図で、
(a)は正面図、(b)は右側面図、(c)は平面図、
(d)は図(b)の矢視A−A’線方向端面図である。
FIG. 3 is a view showing a mounting case body of the ultrasonic sensor;
(A) is a front view, (b) is a right side view, (c) is a plan view,
(D) is an end view in the direction of arrows AA 'in FIG. (B).

【図4】上記取付ケースのカバーを示す図で、(a)は
正面図、(b)は右側面図、(c)は平面図である。
4 (a) is a front view, FIG. 4 (b) is a right side view, and FIG. 4 (c) is a plan view.

【図5】超音波センサの動作を説明するための波形図で
ある。
FIG. 5 is a waveform chart for explaining the operation of the ultrasonic sensor.

【図6】本発明の他の実施形態を示すブロック図であ
る。
FIG. 6 is a block diagram showing another embodiment of the present invention.

【符号の説明】[Explanation of symbols]

1〜4 超音波センサ 5 制御ユニット 6 表示器 11,12 圧電素子 13,14 放射波用アンプ 15,16 反射波用アンプ 1-4 Ultrasonic sensor 5 Control unit 6 Indicator 11, 12 Piezoelectric element 13, 14 Radiation wave amplifier 15, 16 Reflection wave amplifier

Claims (6)

【特許請求の範囲】[Claims] 【請求項1】 車両の所望部位に取り付けられた第1の
圧電素子と、 第1の圧電素子とは90°異なる車両の他の部位に取り
付けられた第2の圧電素子と、 第1及び第2の圧電素子を付勢して超音波を発射させる
と共にその反射超音波により第1及び第2の圧電素子が
発生する起電力を入力させる超音波入出力手段と、 上記第1及び第2の圧電素子による超音波の発射タイミ
ング、反射超音波の入力タイミング及び夫々の圧電素子
の取付位置より、反射物の位置を求める演算手段と、を
備えたことを特徴とする車両用2次元位置検出装置。
A first piezoelectric element attached to a desired part of the vehicle; a second piezoelectric element attached to another part of the vehicle different from the first piezoelectric element by 90 °; Ultrasonic input / output means for urging the second piezoelectric element to emit ultrasonic waves and for inputting the electromotive force generated by the first and second piezoelectric elements by reflected ultrasonic waves, and the first and second ultrasonic elements A two-dimensional position detecting device for a vehicle, comprising: calculating means for obtaining a position of a reflection object from a timing of emitting ultrasonic waves by the piezoelectric elements, an input timing of reflected ultrasonic waves, and a mounting position of each piezoelectric element. .
【請求項2】 車両の前部右側端部近傍の右側部位と、
これとは90°異なる前方側部位とに取り付けられた第
1及び第2の圧電素子と、 上記車両の前部左側端部近傍の左側部位と、これとは9
0°異なる前方側部位とに取り付けられた第3及び第4
の圧電素子と、 上記車両の後部右側端部近傍の右側部位と、これとは9
0°異なる後方側部位とに取り付けられた第5及び第6
の圧電素子と、 上記車両の後部左側端部近傍の左側部位と、これとは9
0°異なる後方側部位とに取り付けられた第7及び第8
の圧電素子と、 第1乃至第8の圧電素子の少なくとも1つ又は全部を付
勢して超音波を発射させると共にその反射超音波により
第1乃至第8の圧電素子の少なくとも1つ又は全部が発
生する起電力を入力させる超音波入出力手段と、 上記第1乃至第8の圧電素子の少なくとも1つ又は全部
による超音波の発射タイミング、反射超音波の入力タイ
ミング及び夫々の圧電素子の取付位置より反射物の位置
を求める演算手段と、を備えたことを特徴とする車両用
2次元位置検出装置。
2. A right part near a right front end of a vehicle,
A first and a second piezoelectric element attached to a front part different by 90 °, a left part near the front left end of the vehicle, and nine parts.
Third and fourth attached to the front part different by 0 °
And a right part near the rear right end of the vehicle.
Fifth and sixth attached to the rear part different by 0 °
And a left part near the rear left end of the vehicle.
Seventh and eighth attached to the rear part different by 0 °
And the at least one or all of the first to eighth piezoelectric elements are energized to emit ultrasonic waves, and at least one or all of the first to eighth piezoelectric elements are reflected by the reflected ultrasonic waves. Ultrasonic input / output means for inputting the generated electromotive force; timing of emitting ultrasonic waves by at least one or all of the first to eighth piezoelectric elements; input timing of reflected ultrasonic waves; and mounting position of each piezoelectric element 2. A two-dimensional position detecting device for a vehicle, comprising: calculating means for further calculating the position of a reflecting object.
【請求項3】 前記圧電素子の取付位置近傍に設置され
た撮像装置と、 上記撮像装置による画像を表示する表示手段と、を備
え、上記表示手段には前記演算手段により上記画像の位
置を表示させるように構成したことを特徴とする請求項
1又は2記載の車両用2次元位置検出装置。
3. An image pickup device installed near a mounting position of the piezoelectric element, and display means for displaying an image by the image pickup device, wherein the display means displays the position of the image by the arithmetic means. The two-dimensional position detecting device for a vehicle according to claim 1, wherein the two-dimensional position detecting device is configured to perform the control.
【請求項4】 所望の圧電素子を選択して反射物の位置
及び又は画像の位置の表示を求めさせる選択手段を有す
ることを特徴とする請求項1乃至3のいずれかに記載の
車両用2次元位置検出装置。
4. The vehicle vehicle according to claim 1, further comprising a selection unit for selecting a desired piezoelectric element and requesting display of a position of a reflection object and / or a position of an image. Dimensional position detector.
【請求項5】 上記選択手段が車両のステアリングの操
作に応答するようにしたことを特徴とする請求項4記載
の車両用2次元位置検出装置。
5. The two-dimensional position detecting device for a vehicle according to claim 4, wherein said selecting means responds to a steering operation of the vehicle.
【請求項6】 音声報知手段を有し、車両のステアリン
グの操作に応答して対応する圧電素子を選択し反射物の
位置を音声で報知させるように構成したことを特徴とす
る請求項2又は3記載の車両用2次元位置検出装置。
6. The apparatus according to claim 2, further comprising a voice notifying unit, wherein a corresponding piezoelectric element is selected in response to a steering operation of the vehicle to notify the position of the reflector by voice. 4. The two-dimensional position detecting device for vehicles according to 3.
JP10195082A 1998-06-25 1998-06-25 Two-dimensional position detector for vehicles Abandoned JP2000009457A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP10195082A JP2000009457A (en) 1998-06-25 1998-06-25 Two-dimensional position detector for vehicles

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP10195082A JP2000009457A (en) 1998-06-25 1998-06-25 Two-dimensional position detector for vehicles

Publications (1)

Publication Number Publication Date
JP2000009457A true JP2000009457A (en) 2000-01-14

Family

ID=16335259

Family Applications (1)

Application Number Title Priority Date Filing Date
JP10195082A Abandoned JP2000009457A (en) 1998-06-25 1998-06-25 Two-dimensional position detector for vehicles

Country Status (1)

Country Link
JP (1) JP2000009457A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2011136816A1 (en) * 2010-04-30 2011-11-03 Hewlett-Packard Development Company, L.P. Determination of a sensor device location in a sensor network

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2011136816A1 (en) * 2010-04-30 2011-11-03 Hewlett-Packard Development Company, L.P. Determination of a sensor device location in a sensor network
US8913231B2 (en) 2010-04-30 2014-12-16 Hewlett-Packard Development Company, L.P. Determination of a sensor device location in a sensor network

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