JPH09216599A - Recovery device of examination apparatus - Google Patents

Recovery device of examination apparatus

Info

Publication number
JPH09216599A
JPH09216599A JP2501096A JP2501096A JPH09216599A JP H09216599 A JPH09216599 A JP H09216599A JP 2501096 A JP2501096 A JP 2501096A JP 2501096 A JP2501096 A JP 2501096A JP H09216599 A JPH09216599 A JP H09216599A
Authority
JP
Japan
Prior art keywords
recovery device
opening
guide
detector
metal fitting
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.)
Granted
Application number
JP2501096A
Other languages
Japanese (ja)
Other versions
JP3201248B2 (en
Inventor
Hajime Tanaka
肇 田中
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.)
Hitachi Ltd
Original Assignee
Hitachi 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 Hitachi Ltd filed Critical Hitachi Ltd
Priority to JP02501096A priority Critical patent/JP3201248B2/en
Publication of JPH09216599A publication Critical patent/JPH09216599A/en
Application granted granted Critical
Publication of JP3201248B2 publication Critical patent/JP3201248B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Load-Engaging Elements For Cranes (AREA)

Abstract

PROBLEM TO BE SOLVED: To allow to grasp a sailing body without being influenced by the eccentricity of the sailing body, by providing a quick-disconnect rod passable through the opening, to a first opening at the side surface of a cylindrical guide to penetrate a cable, and projecting a detector from the inner side of a sleeve between the first opening, penetrating a second opening, when a recovery device is lowered. SOLUTION: When a recovery device is lowered and the spherical surface form part of a detector 16 hits the taper part of the metal fitting 7 of a sailing body 3, and the recovery body is lowered further, the detector 16 is raised while being guided by the opening 2 of a lower guide 13, a slide sleeve 20 is raised while compressing a compression return spring 21, and the opening of the lower guide 13 is opened. As a result, a quick-disconnect rod 15 is pushed out, and projected to the lower part of the flange of the metal fitting 7. Since the clearance between the cylindrical metal fitting 7 setting the flange, and an upper guide 12, is small, there is no inclination of the recovery device 4 to the metal fitting 7 of the sailing body 3 even though the sailing body 3 is inclined. Consequently, even though the eccentricity of the sailing body and the recovery device is generated, the eccentricity is little, and their connection and removal are permitted.

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、海底又は海中調査
等を行なうための調査機器を海中に投入し、また海中か
ら揚収するための装置に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for putting a surveying instrument for conducting a survey on the seabed or undersea into the sea and for collecting the surveying instrument from the sea.

【0002】[0002]

【従来の技術】海中に投入した調査機器(航走体とい
う)を船からの誘導により航走させ、海中の状況調査を
行なう。
2. Description of the Related Art A survey device (referred to as a "running body") put into the sea is driven by guidance from a ship to investigate the situation in the sea.

【0003】調査が終了すれば、航走体を船に回収しな
ければならない。航走体は船に設置したクレーンとケー
ブルで接続されているので、航走体を船の近傍にまで誘
導することができる。しかし、ケーブルの強度上、ケー
ブル自身で引上げることはできない。このため、投入・
揚収専用のクレーンに設けられた回収装置により航走体
を掴み、これで吊上げている。
When the survey is completed, the vehicle must be collected on the ship. Since the vehicle is connected to the crane installed on the ship by a cable, the vehicle can be guided to the vicinity of the ship. However, due to the strength of the cable, the cable itself cannot be pulled up. For this reason,
The vehicle is grabbed by the collection device provided on the crane dedicated to the collection and lifted by this.

【0004】この回収装置は、フレームの4コーナーに
固定式の球面緩衝座を設け、回収装置が航走体上の定位
置に着座した後、航走体の係合部を掴んでいる。(特公
平06−98950号公報)
In this recovery device, fixed type spherical buffer seats are provided at the four corners of the frame, and after the recovery device is seated at a fixed position on the running body, the engaging portion of the running body is grasped. (Japanese Patent Publication No. 06-98950)

【0005】[0005]

【発明が解決しようとする課題】上記従来技術は、航走
体を回収する際に、回収装置の複数の検出子が航走体に
載ることにより、回収装置のロッドで航走体の係合部に
向けて突出し、航走体を掴むようになっている。このた
め、外乱(船の動揺,潮流等)等の影響で回収装置と航
走体の偏心(水平偏位角及び垂直偏位角)が発生する
と、検出子が定位置に着座するのに長時間を要し、航走
体の掴みが非常に困難になる。
SUMMARY OF THE INVENTION In the above-mentioned prior art, when the vehicle is recovered, a plurality of detectors of the recovery device are mounted on the vehicle, so that the rod of the recovery device engages the vehicle. It projects toward the section and holds the vessel. For this reason, if eccentricity (horizontal deviation angle and vertical deviation angle) between the recovery device and the moving body occurs due to the effects of disturbance (ship sway, tidal current, etc.), it will take a long time for the detector to sit in place. It takes time and it becomes very difficult to grab the aircraft.

【0006】本発明の目的は、回収装置と航走体の偏心
に左右されずに掴むことができるようにすることにあ
る。
An object of the present invention is to enable grasping without being influenced by the eccentricity between the recovery device and the vehicle.

【0007】[0007]

【課題を解決するための手段】上記目的は、ケーブルを
上下方向に貫通させる円筒状のガイドと、このガイドの
外側に設置したシリンダと、該シリンダによって前記ガ
イドの側面の第1の開口を水平方向に通過可能な着脱ロ
ッドと、該着脱ロッドを前記ガイド内に向けて押し圧す
るバネと、前記ガイドの外側に同心状に配置され、上下
動自在に設置され、下降した際に前記着脱ロッドと前記
第1の開口との間に位置するスリーブと、該スリーブの
内側から前記ガイドの第2の開口を貫通して該ガイドの
内側に突出した検出子と、から回収装置を構成すること
によって達成できる。
The above object is to provide a cylindrical guide through which a cable penetrates in the vertical direction, a cylinder installed outside the guide, and a first opening on a side surface of the guide which is horizontally provided by the cylinder. And a detachable rod that can pass in the direction, a spring that presses the detachable rod toward the inside of the guide, a concentric arrangement on the outside of the guide, which is vertically movably installed, and the detachable rod when lowered. Achieved by configuring a recovery device from a sleeve located between the first opening and a detector protruding from the inside of the sleeve through the second opening of the guide to the inside of the guide. it can.

【0008】シリンダ装置の室の圧力を抜いた状態で、
ケーブルによりガイドされた回収装置を海中の航走体に
向けて投入する。回収装置の検出子が航走体の近傍のテ
ーパ部に接触すると、スリーブが押し上げられ、着脱ロ
ッドが第1の開口を問うして突出し、航走体のフランジ
部の下部に係合する。
With the pressure in the chamber of the cylinder device released,
The recovery device guided by the cable is thrown toward the underwater vehicle. When the detector of the recovery device comes into contact with the taper portion near the vehicle, the sleeve is pushed up, the detachable rod projects over the first opening, and engages with the lower portion of the flange portion of the vehicle.

【0009】[0009]

【発明の実施の形態】以下、本発明の一実施例を図1〜
図15により説明する。航走体3はクレーン2によりケ
ーブル5を介して海中に投入され、船1からの指令によ
り海中を移動している。航走体3は長手方向の断面が円
形であり、長手方向の中央上部にケーブル5との連結部
である金具7を有し、この金具7は航走体3と回転自在
になるよう金具用ピン26にて連結されている。ケーブ
ル5は航走体3と船1との間の電源及び信号用のケーブ
ルである。金具7はケーブル5と同芯の円柱形状で、そ
の上下端の中間部には外方に突出するフランジ部9を、
又、フランジ部9の上部にはテーパ部8を有している。
このフランジ部9が航走体3を回収する際の係合部とな
り、又、テーパ部8が着脱指令の検出部となる。航走体
3の投入・揚収を行なう回収装置4は、船1のクレーン
2からロープ6を介して吊下げられている。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will now be described with reference to FIGS.
This will be described with reference to FIG. The vehicle 3 is put into the sea through the cable 5 by the crane 2 and moves in the sea according to a command from the ship 1. The navigation body 3 has a circular cross section in the longitudinal direction, and has a metal fitting 7 which is a connecting portion with the cable 5 at the upper center part in the longitudinal direction. It is connected by a pin 26. The cable 5 is a cable for power supply and signals between the navigation body 3 and the ship 1. The metal fitting 7 has a columnar shape concentric with the cable 5, and has a flange portion 9 protruding outward at an intermediate portion between upper and lower ends thereof.
Further, the upper portion of the flange portion 9 has a taper portion 8.
The flange portion 9 serves as an engaging portion when the traveling body 3 is collected, and the taper portion 8 serves as a detachment command detecting portion. The recovery device 4 for loading / unloading the vehicle 3 is suspended from the crane 2 of the ship 1 via a rope 6.

【0010】まず、回収装置4の構成を説明する。フレ
ーム10の上面に2本のポール11を立てており、この
ポール11の内部でロープ6とソケット用ピン23が固
定されている。
First, the structure of the recovery device 4 will be described. Two poles 11 are erected on the upper surface of the frame 10, and the rope 6 and the socket pin 23 are fixed inside the pole 11.

【0011】フレーム10の中央にケーブル5及び金具
7が貫通するラッパ状の上下ガイド12,13を立設し
ている。上ガイド12はフレーム10の上部にサポート
22を介して設置されている。下ガイド13はフレーム
10の下部に設置している。上ガイド12の下部は下ガ
イド13の上部の内側に位置している。上ガイド12は
軸心に沿って2分割としている。容易に取付け・取外し
が出来るよう、蝶ボルト14でサポート22に固定して
いる。下ガイド13の側面には着脱ロッド15が出入り
する開口部1、及び検出子16のロッド部が上下動する
開口部2を、設けている。開口部1、開口部2はそれぞ
れ2つづつある。開口部1,1は対向しており、開口部
2,2は対向している。開口部1,1は開口部2,2の
間に位置している。開口部1,1は開口部2,2よりも
若干下部にある。開口部1,1は着脱ロッド15よりも
若干大きい。開口部2,2は縦長である。
At the center of the frame 10, upper and lower trumpet-shaped guides 12, 13 through which the cable 5 and the metal fitting 7 pass are provided. The upper guide 12 is installed above the frame 10 via a support 22. The lower guide 13 is installed below the frame 10. The lower part of the upper guide 12 is located inside the upper part of the lower guide 13. The upper guide 12 is divided into two along the axis. It is fixed to the support 22 with wing bolts 14 so that it can be easily attached and detached. The side surface of the lower guide 13 is provided with an opening 1 through which the removable rod 15 moves in and out, and an opening 2 through which the rod portion of the detector 16 moves up and down. There are two openings 1 and two openings 2, respectively. The openings 1 and 1 face each other, and the openings 2 and 2 face each other. The openings 1 and 1 are located between the openings 2 and 2. The openings 1 and 1 are slightly below the openings 2 and 2. The openings 1 and 1 are slightly larger than the removable rod 15. The openings 2 and 2 are vertically long.

【0012】17は前記開口部1に進入する着脱ロッド
15を水平方向に駆動する係合装置のシリンダであり、
フレーム10に設置したブラケット19に設置してい
る。シリンダ17は開口部1,1に対応してそれぞれあ
る。シリンダ17はロッドを突出させるために、内部に
バネ18を内蔵している。シリンダ17の周りには、保
護としてのカバー25をフレーム10に固定している。
Reference numeral 17 is a cylinder of an engaging device for horizontally driving the detachable rod 15 entering the opening 1.
It is installed on the bracket 19 installed on the frame 10. Cylinders 17 are provided corresponding to the openings 1 and 1, respectively. The cylinder 17 has a built-in spring 18 in order to project the rod. A cover 25 as a protection is fixed to the frame 10 around the cylinder 17.

【0013】係合装置のスライドスリーブ20は、下ガ
イド13の上部の外側に有り、サポート22の下部に圧
縮コイルスプリングで構成したりターンバネ21によっ
て上下動自在に設置している。スライドスリーブ20は
加工した際には開口部1,2を閉鎖し、上昇した際には
開口部1,2を開口する。圧縮リターンバネ21を固定
している。
The slide sleeve 20 of the engaging device is located outside the upper part of the lower guide 13 and is formed below the support 22 by a compression coil spring or by a turn spring 21 so as to be vertically movable. The slide sleeve 20 closes the openings 1 and 2 when processed, and opens the openings 1 and 2 when raised. The compression return spring 21 is fixed.

【0014】検出子16はスライドスリーブ20にその
内側に若干突出するように設置してある。検出子16は
ロッド状であり、内側に突出した先端が検出子である。
検出子16は下ガイド13の開口部2に入ることができ
る。検出子16はスライドスリーブに捩じ込んで固定し
ている。
The detector 16 is installed on the slide sleeve 20 so as to slightly project inward. The detector 16 has a rod shape, and the tip protruding inward is the detector.
The detector 16 can enter the opening 2 of the lower guide 13. The detector 16 is screwed and fixed to the slide sleeve.

【0015】次に、航走体3を海に投入する際の動作を
説明する。回収装置4で航走体3の金具7のフランジ部
9を掴んだ状態でクレーン2によりクレーン直下の海中
に投入する。この状態では着脱ロッド15は下部ガイド
の開口部1から突出し、航走体3の金具7のフランジ部
9よりも下方に位置している。このため、回収装置4で
航走体3を吊り下げていることになる。検出子16は開
口部2の上端側に位置し、フランジ部9のテーパ部8の
上部に位置している。この状態を図1、図9、図13、
図15に示す。
Next, the operation of throwing the vehicle 3 into the sea will be described. With the recovery device 4 gripping the flange portion 9 of the metal fitting 7 of the navigation body 3, the crane 2 is put into the sea immediately below the crane. In this state, the attachment / detachment rod 15 projects from the opening 1 of the lower guide and is located below the flange portion 9 of the metal fitting 7 of the running body 3. Therefore, the vehicle 3 is suspended by the collection device 4. The detector 16 is located on the upper end side of the opening 2 and above the taper portion 8 of the flange portion 9. This state is shown in FIG. 1, FIG. 9, FIG.
It shows in FIG.

【0016】投入後、クレーン2から吊り下げている空
気ホース27により回収装置4の空気配管24を介して
シリンダ17に圧力を加え、バネ18を圧縮してシリン
ダロッドを引込め、着脱ロッド15を金具7のフランジ
部9から後退させる。これによってスライドスリーブ2
0が自重及び圧縮リターンバネ21のバネ力で押下げら
れ、下ガイド13の側面の着脱ロッド15が出入りする
開口部1をふさぐ。検出子16は開口部2の下端側に位
置し、フランジ部9の上部のテーパ部8よりも上方に位
置している。この状態を図8、図12、図14に示す。
After charging, pressure is applied to the cylinder 17 by the air hose 27 suspended from the crane 2 through the air pipe 24 of the recovery device 4, the spring 18 is compressed and the cylinder rod is retracted, and the removable rod 15 is attached. It is retracted from the flange portion 9 of the metal fitting 7. This allows the slide sleeve 2
0 is pushed down by its own weight and the spring force of the compression return spring 21, and the opening 1 through which the attachment / detachment rod 15 on the side surface of the lower guide 13 comes in and out is closed. The detector 16 is located on the lower end side of the opening 2 and above the taper portion 8 above the flange portion 9. This state is shown in FIGS. 8, 12, and 14.

【0017】その後、クレーン2により回収装置4のロ
ープ6を巻きとる。このため、回収装置4は単独で上昇
する。そして、クレーン2のブーム先端に回収装置4を
固定する。この状態を図2に示す。
After that, the rope 6 of the recovery device 4 is wound up by the crane 2. Therefore, the recovery device 4 moves up independently. Then, the recovery device 4 is fixed to the boom tip of the crane 2. This state is shown in FIG.

【0018】この状態でクレーン2のブームを起伏及び
旋回して、回収装置4を航走体3により引き出されるケ
ーブル5の方向に向ける。
In this state, the boom of the crane 2 is raised and lowered and turned to orient the recovery device 4 toward the cable 5 pulled out by the running body 3.

【0019】次に、回収装置4によって航走体3を海中
から揚収する際の動作を説明する。航走体3をクレーン
2のブームの先端の直下に移動する。一方、クレーン2
側に設置した設置した排気弁を操作して、空気ホース2
7及び空気配管24を介してシリンダ17の空気を抜
く。このため、着脱ロッド15はリターンバネ18で押
されてスライドスリーブ20の外面に当たった状態とな
っている。この状態を図12、図14に示す。
Next, a description will be given of the operation of collecting the running body 3 from the sea by the collecting device 4. The vehicle 3 is moved to just below the tip of the boom of the crane 2. Meanwhile, the crane 2
Operate the installed exhaust valve installed on the
The air in the cylinder 17 is evacuated through the air pipe 7 and the air pipe 24. Therefore, the attachment / detachment rod 15 is pushed by the return spring 18 and is in contact with the outer surface of the slide sleeve 20. This state is shown in FIGS.

【0020】この状態で、クレーン2を用いて回収装置
4をケーブル5に沿って下降させる。回収装置4の上下
ガイド12,13内をケーブル5が貫通しているので、
回収装置4は航走体3の金具7に向けて下降する。航走
体3はクレーン2の直下の海中で回収装置4の到着に備
えて待機している。回収装置4が下降して検出子16の
先端の球面形状部が航走体3の金具7のテーパ部8に当
たり、さらに回収装置4が下降すると検出子16は下ガ
イド13の開口部2にガイドされながら上昇する。この
ため、検出子16を設置したスライドスリーブ20は圧
縮リターンバネ21を圧縮しながら上昇し、下ガイド1
3の開口部1を開放する。このため、スライドスリーブ
20に接触していた着脱ロッド15がシリンダ17のバ
ネ18のバネ力で押し出され、開口部1を通過して、金
具7のフランジ部9の下部に突出する。スライドスリー
ブ20の上端がサポート22の仮面に接触することによ
り、スライドスリーブ20の上昇は停止する。の状態を
図9、図13、図15に示す。
In this state, the crane 2 is used to lower the recovery device 4 along the cable 5. Since the cable 5 penetrates through the upper and lower guides 12 and 13 of the recovery device 4,
The recovery device 4 descends toward the metal fitting 7 of the navigation body 3. The vehicle 3 is standing by in the sea just below the crane 2 in preparation for arrival of the recovery device 4. When the collecting device 4 descends and the spherical portion of the tip of the detector 16 hits the taper portion 8 of the metal fitting 7 of the navigation body 3, when the collecting device 4 descends further, the detector 16 is guided to the opening 2 of the lower guide 13. Ascend while rising. Therefore, the slide sleeve 20 on which the detector 16 is installed rises while compressing the compression return spring 21, and the lower guide 1
The opening 1 of 3 is opened. Therefore, the attachment / detachment rod 15 that was in contact with the slide sleeve 20 is pushed out by the spring force of the spring 18 of the cylinder 17, passes through the opening portion 1, and projects to the lower portion of the flange portion 9 of the metal fitting 7. When the upper end of the slide sleeve 20 comes into contact with the temporary surface of the support 22, the rise of the slide sleeve 20 is stopped. The states are shown in FIGS. 9, 13 and 15.

【0021】その後、クレーン2により回収装置4を巻
揚げれば、一対の着脱ロッド15,15によって航走体
3のフランジ9を支えるので、航走体3を海中より揚収
することができる。
After that, when the recovery device 4 is hoisted by the crane 2, the flange 9 of the running body 3 is supported by the pair of detachable rods 15, 15, so that the running body 3 can be collected from the sea.

【0022】以上のように、回収時の着脱ロッド15の
突出は、検出子16がフランジ9の上面のテーパ部8に
接触することにより行なわれる。フランジ9を設置した
円柱状の金具9と円筒状の上ガイド12との隙間は小さ
い。このため、上ガイド12に対する金具7の傾斜は少
ない。このため、航走体3が傾斜して金具7が傾斜して
も、回収装置4は航走体3の金具7に対する傾斜は無
い。このため、航走体3と回収装置4との偏心(水平偏
位角及び垂直偏位角)が発生してもこの偏心はわずかで
あり、偏心に左右されずに着脱できるものである。
As described above, the detachable rod 15 is projected at the time of recovery by the detector 16 contacting the taper portion 8 on the upper surface of the flange 9. The gap between the cylindrical metal fitting 9 on which the flange 9 is installed and the cylindrical upper guide 12 is small. Therefore, the inclination of the metal fitting 7 with respect to the upper guide 12 is small. Therefore, even if the running body 3 tilts and the metal fitting 7 tilts, the recovery device 4 does not tilt with respect to the metal fitting 7 of the running body 3. Therefore, even if eccentricity (horizontal deviation angle and vertical deviation angle) between the navigation body 3 and the recovery device 4 occurs, this eccentricity is slight and the eccentricity can be attached and removed without being affected by the eccentricity.

【0023】また、着脱ロッド15とシリンダ17との
連結は直接であり、をリンク機構が無いので、構成を簡
素化でき、小型・軽量にできるものである。
Further, since the connecting / disconnecting rod 15 and the cylinder 17 are directly connected and there is no link mechanism, the structure can be simplified and the size and weight can be reduced.

【0024】検出子16はスライドスリーブ20の外側
にも突出している。この外側の突出部16bはフレーム
10に設けた長穴20bに臨んでいる。長穴20bの大
きさは手をいれて突出部16bをつかむことができる大
きさである。このため、金具7が無い状態で、突出部1
6bを上昇させて着脱ロッド15の突出を確認すること
ができる。
The detector 16 also projects outside the slide sleeve 20. The outer protruding portion 16b faces the elongated hole 20b provided in the frame 10. The size of the long hole 20b is such that the protruding portion 16b can be grasped with a hand. Therefore, without the metal fitting 7, the protruding portion 1
6b can be raised to confirm the protrusion of the detachable rod 15.

【0025】[0025]

【発明の効果】本発明によれば、航走体と回収装置との
偏心が発生してもこの偏心に左右されずに着脱できるも
のである。
According to the present invention, even if eccentricity occurs between the navigation body and the recovery device, it can be attached and detached without being affected by this eccentricity.

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

【図1】本発明の一実施例の投入・揚収時の状態図であ
る。
FIG. 1 is a state diagram at the time of loading / unloading of an embodiment of the present invention.

【図2】本発明の一実施例の航走体が海中の状況調査を
行なっている状態である。
FIG. 2 is a state in which the underwater vehicle of one embodiment of the present invention is conducting a situation survey in the sea.

【図3】本発明の一実施例の回収装置が航走体を掴んだ
(着脱ロッドが着)状態である。
FIG. 3 is a state in which the recovery device according to the embodiment of the present invention grips a running body (attaching a detachable rod).

【図4】本発明の一実施例の回収装置の正面図である。FIG. 4 is a front view of a recovery device according to an embodiment of the present invention.

【図5】図4の5−5視図である。5 is a view taken along line 5-5 of FIG.

【図6】図4の6−6視図である。FIG. 6 is a 6-6 view of FIG.

【図7】図4の7−7断面図である。FIG. 7 is a sectional view taken along a line 7-7 in FIG. 4;

【図8】本発明の一実施例の回収装置が航走体を離した
(着脱ロッドが脱)状態の立体図である。
FIG. 8 is a three-dimensional view of the state where the recovery device according to the embodiment of the present invention separates the running body (the detachable rod is detached).

【図9】本発明の一実施例の回収装置が航走体を掴んだ
(着脱ロッドが着)状態の立体図である。
FIG. 9 is a three-dimensional view of a state in which the recovery device according to the exemplary embodiment of the present invention grips the running body (the detachable rod is worn).

【図10】図4の11−11断面図であり、着脱ロッド
は脱状態である。
10 is a cross-sectional view taken along the line 11-11 of FIG. 4, in which the removable rod is in a detached state.

【図11】図4の11−11断面図であり、着脱ロッド
は着状態である。
11 is a sectional view taken along line 11-11 of FIG. 4, in which the removable rod is in a worn state.

【図12】図5の13−13断面図であり、着脱ロッド
は脱状態である。
12 is a sectional view taken along line 13-13 of FIG. 5, in which the removable rod is in a detached state.

【図13】図5の13−13断面図であり、着脱ロッド
は着状態である。
13 is a sectional view taken along line 13-13 of FIG. 5, in which the removable rod is in a worn state.

【図14】図12の14−14断面図であり、検出子は
未着座状態である。
14 is a sectional view taken along line 14-14 of FIG. 12, in which the detector is in an unseated state.

【図15】図12の14−14断面図であり、検出子は
着座状態である。
FIG. 15 is a sectional view taken along line 14-14 of FIG. 12, in which the detector is in a seated state.

【符号の説明】[Explanation of symbols]

1…船、2…クレーン、3…航走体、4…回収装置、5
…ケーブル、6…ロープ、7…金具、8…金具上端、9
…フランジ、10…フレーム、11…ポール、12…上
ガイド、13…下ガイド、14…蝶ボルト、15…着脱
ロッド、16…検出子、17…シリンダ、18…バネ、
19…ブラケット、20…スライドスリーブ、21…リ
ターンバネ、22…サポート、23…ソケット用ピン、
24…空気配管、25…シリンダカバー、26…金具用
ピン、27…空気ホース。
1 ... Ship, 2 ... Crane, 3 ... Vessel, 4 ... Recovery device, 5
... Cable, 6 ... Rope, 7 ... Metal fitting, 8 ... Metal fitting upper end, 9
... flange, 10 ... frame, 11 ... pole, 12 ... upper guide, 13 ... lower guide, 14 ... butterfly bolt, 15 ... detachable rod, 16 ... detector, 17 ... cylinder, 18 ... spring,
19 ... Bracket, 20 ... Slide sleeve, 21 ... Return spring, 22 ... Support, 23 ... Socket pin,
24 ... Air piping, 25 ... Cylinder cover, 26 ... Metal fitting pin, 27 ... Air hose.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】ケーブルを上下方向に貫通させる円筒状の
ガイドと、このガイドの外側に設置したシリンダと、該
シリンダによって前記ガイドの側面の第1の開口を水平
方向に通過可能な着脱ロッドと、該着脱ロッドを前記ガ
イド内に向けて押し圧するバネと、前記ガイドの外側に
同心状に配置され、上下動自在に設置され、下降した際
に前記着脱ロッドと前記第1の開口との間に位置するス
リーブと、該スリーブの内側から前記ガイドの第2の開
口を貫通して該ガイドの内側に突出した検出子と、から
なる調査機器の回収装置。
1. A cylindrical guide for vertically penetrating a cable, a cylinder installed outside the guide, and a removable rod capable of horizontally passing through a first opening on a side surface of the guide by the cylinder. A spring that presses the detachable rod toward the inside of the guide, and a spring that is concentrically arranged outside the guide and is movably installed up and down and between the detachable rod and the first opening when descending. And a detector located inside the sleeve and a detector protruding from the inside of the sleeve through the second opening of the guide to the inside of the guide.
JP02501096A 1996-02-13 1996-02-13 Collection equipment for survey equipment Expired - Fee Related JP3201248B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP02501096A JP3201248B2 (en) 1996-02-13 1996-02-13 Collection equipment for survey equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP02501096A JP3201248B2 (en) 1996-02-13 1996-02-13 Collection equipment for survey equipment

Publications (2)

Publication Number Publication Date
JPH09216599A true JPH09216599A (en) 1997-08-19
JP3201248B2 JP3201248B2 (en) 2001-08-20

Family

ID=12153963

Family Applications (1)

Application Number Title Priority Date Filing Date
JP02501096A Expired - Fee Related JP3201248B2 (en) 1996-02-13 1996-02-13 Collection equipment for survey equipment

Country Status (1)

Country Link
JP (1) JP3201248B2 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105644744A (en) * 2016-03-17 2016-06-08 天津海之星海洋科技发展有限公司 Throwing and recovering machine for ship-based underwater robot
CN107351999A (en) * 2017-08-16 2017-11-17 中船华南船舶机械有限公司 A kind of bathyscaph lays recovery system and lays recovery method
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CN109018266B (en) * 2018-08-23 2020-12-11 南京溧水高新创业投资管理有限公司 Device for detecting and sampling ocean resources and assisting human in exploring unknown field
CN110723266B (en) * 2019-10-15 2021-10-15 江苏科技大学 Underwater ultrasonic flaw detection robot

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105644744A (en) * 2016-03-17 2016-06-08 天津海之星海洋科技发展有限公司 Throwing and recovering machine for ship-based underwater robot
CN107351999A (en) * 2017-08-16 2017-11-17 中船华南船舶机械有限公司 A kind of bathyscaph lays recovery system and lays recovery method
CN107351999B (en) * 2017-08-16 2023-09-12 中船华南船舶机械有限公司 Deep submersible vehicle cloth placement recovery system and cloth placement recovery method
CN113335455A (en) * 2021-06-23 2021-09-03 江苏科技大学 Unmanned ship collecting and releasing system and method
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Also Published As

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