JPH07174844A - Free-standing floating device - Google Patents

Free-standing floating device

Info

Publication number
JPH07174844A
JPH07174844A JP32236893A JP32236893A JPH07174844A JP H07174844 A JPH07174844 A JP H07174844A JP 32236893 A JP32236893 A JP 32236893A JP 32236893 A JP32236893 A JP 32236893A JP H07174844 A JPH07174844 A JP H07174844A
Authority
JP
Japan
Prior art keywords
self
floating
sustaining
weight
gas
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.)
Pending
Application number
JP32236893A
Other languages
Japanese (ja)
Inventor
Kenji Nishimura
賢治 西村
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.)
Mitsubishi Electric Corp
Original Assignee
Mitsubishi Electric Corp
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 Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp
Priority to JP32236893A priority Critical patent/JPH07174844A/en
Publication of JPH07174844A publication Critical patent/JPH07174844A/en
Pending legal-status Critical Current

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Abstract

PURPOSE:To maintain the stable free-standing attitude for a long period while a radio apparatus is invariably exposed on the water surface by forming a flotation section with a sliding expansion case made of a double structure of an outer tube and an inner tube. CONSTITUTION:When an emergency situation such as a sea disaster occurs, a valve 23b is opened, gas is spouted from a gas cylinder 23a, force is applied in the direction to expand a case 20, and the case 20 is slidingly expanded in the vertical direction. An outer tube 20a and an inner tube 20b of a double structure are slid in opposite directions respectively until projection sections 200a, 200b are coupled, and the internal capacity is expanded to about two times. The internal capacity of the case 20 is expanded, light gas such as hydrogen gas is filled, thus the specific gravity is decreased, and it is floated when it is put into water. The position of a weight 22 is lowered, the center of gravity is lowered, and it is stabilized at the time of floating. It can be floated on the water surface for a long period in the stable free-standing attitude that a radio apparatus 21 is invariably exposed on the water surface.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】この発明は自立型浮遊装置、さら
に詳しくはトランスポンダ等の無線機器が組み込まれ、
海面上に投下された場合に自立姿勢を保持しながら海面
を浮遊し、常に無線機器を水面上に露出させて無線信号
の送受に支障を来すことのないようにする自立型浮遊装
置に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention This invention incorporates a self-sustaining floating device, more specifically, a wireless device such as a transponder.
Related to a self-sustaining floating device that floats on the sea surface while maintaining a self-standing posture when it is dropped on the sea surface so that wireless devices are always exposed above the water surface and do not interfere with the transmission and reception of wireless signals Is.

【0002】[0002]

【従来の技術】海難救助の目的で自分の位置を無線で知
らせるトランスポンダ等の無線機器については良く知ら
れているが、これらの装置を非常用装置として用いる場
合、収納時(非使用時)には出来るだけ小型で邪魔にな
らないものが望まれ、非常時には水面が相当荒れていて
も長時間確実に海面上を浮遊でき、且つ、常に無線機器
を水面上に露出させた状態を保持してアンテナに水が被
るのを防ぎ、無線信号の送受に支障を来さないようにす
るため、何らかの浮遊装置に組み込まれるのが一般的で
ある。2. Description of the Related Art Wireless devices such as transponders which wirelessly inform one's position for the purpose of salvage are well known. However, when these devices are used as an emergency device, when stored (when not in use). It is desirable that the antenna be as small as possible and unobtrusive. In an emergency, even if the water surface is considerably rough, the antenna can be reliably floated on the sea surface for a long time and the radio device is always exposed above the water surface. It is generally incorporated in some kind of floating device in order to prevent water from being exposed to the water and not to hinder the transmission and reception of wireless signals.

【0003】従来のこの種の自立型浮遊装置としては、
例えば特開平2−139604号公報「水中浮遊制御機
構」に開示された発明(以下、先行技術)がある。図9
及び図10は、この先行技術を説明するための図であ
り、図9は収納時(非使用時)の状態、図10は使用時
の自立状態を示す。図において、ケース3は、その一方
の端に音響発生機構1が設けられ、他の一方の端には取
手17を有するキャップ2が取り付けられ内部が密閉さ
れており、このケース3の内部にはバネアッセンブリ4
とスリーブ5とパラシュート6とが収納されている。そ
して、このパラシュート6は、バルーン7に設けられた
バルブ8と連動しており、パラシュート6が開くとバル
ブ8が開放するようになっている。また、バルーン7内
には初期膨張用の水素化リチウム等の薬剤12が入った
水溶性容器13がロープ11で釣られている。As a conventional self-sustaining floating device of this type,
For example, there is an invention (hereinafter referred to as prior art) disclosed in "Underwater Floating Control Mechanism" of Japanese Patent Laid-Open No. 2-139604. Figure 9
10 and 10 are views for explaining this prior art. FIG. 9 shows a state when stored (when not in use), and FIG. 10 shows an independent state when used. In the figure, a case 3 is provided with a sound generating mechanism 1 at one end thereof, and a cap 2 having a handle 17 is attached at the other end thereof to hermetically seal the inside thereof. Spring assembly 4
The sleeve 5 and the parachute 6 are stored. The parachute 6 is interlocked with a valve 8 provided on the balloon 7, and when the parachute 6 is opened, the valve 8 is opened. In addition, a water-soluble container 13 containing a chemical 12 such as lithium hydride for initial expansion is caught in the balloon 7 with a rope 11.

【0004】次に動作について説明する。図9に示すよ
うな収納状態で水中に入れ、取手17を引っ張り、ケー
ス3を開封する。ケース3が開封されると、バネアッセ
ンブリ4内のバネが伸長し、その弾性力によってスリー
ブ5とパラシュート6とバルーン7とが水中に押し出さ
れ、パラシュート6が開傘してバルブ8が開放し、バル
ーン7内に水が侵入する。バルーン7内に水が侵入する
と、この水と水溶性容器13とが接触し、この容器13
が溶解して内部の薬剤12が水中に散布されて水と混ざ
り反応して、初期膨張用の水素ガス19を発生し、バル
ーン7がこの水素ガス19によって膨張し、この水素ガ
ス19の浮力により装置全体が水中に浮遊するようにな
っている。なお、この初期膨張過程以降は、キャニスタ
15内の薬剤14によって水素ガス19の供給が行われ
る。また、水中で適当な自立姿勢を維持させるために、
ロープ16で接続された音響発生機構1が重りの替わり
となっており、また、所望の長さのチューブ9の先端に
フィルタ10を設けた穴が開けられており、バルーン7
内の水素ガス19が過供給になるような場合には、この
穴から外部へ逃がす調節機構が設けられている。Next, the operation will be described. In the storage state as shown in FIG. 9, it is put in water, the handle 17 is pulled, and the case 3 is opened. When the case 3 is opened, the spring in the spring assembly 4 expands, and the elastic force pushes the sleeve 5, the parachute 6, and the balloon 7 into the water, the parachute 6 opens, and the valve 8 opens. Water enters the balloon 7. When water enters the balloon 7, the water comes into contact with the water-soluble container 13, and the container 13
Is dissolved and the drug 12 inside is dispersed in water and mixed with water to react with each other to generate hydrogen gas 19 for initial expansion. The balloon 7 is expanded by this hydrogen gas 19 and the buoyancy of the hydrogen gas 19 causes The whole device is designed to float in water. After the initial expansion process, the hydrogen gas 19 is supplied by the chemical agent 14 in the canister 15. In addition, in order to maintain an appropriate self-standing posture in water,
The sound generation mechanism 1 connected by the rope 16 is used instead of the weight, and a hole provided with the filter 10 is opened at the tip of the tube 9 having a desired length.
If the hydrogen gas 19 in the inside is over-supplied, an adjusting mechanism is provided to let the hydrogen gas 19 escape to the outside from this hole.

【0005】[0005]

【発明が解決しようとする課題】上記のような先行技術
で開示された自立型浮遊装置では、無線機器の組み込み
を特に想定していないため、音響発生機構に替えて無線
機器を組み込んだ場合、無線機器が水中に没してしまい
役に立たなくなる。また、その構造上パラシュート側に
無線機器を設置すると、重量バランスが逆転してしまい
自立姿勢が維持できなくなる。さらに、パラシュートを
開傘するという不安定な動作を伴うために非常用装置と
しては安定性に欠ける等の問題点があった。In the self-sustaining floating device disclosed in the prior art as described above, since the incorporation of the wireless device is not particularly assumed, when the wireless device is incorporated in place of the sound generating mechanism, The wireless device is submerged in water and useless. In addition, if the wireless device is installed on the parachute side due to its structure, the weight balance is reversed and the self-standing posture cannot be maintained. Further, there is a problem that the emergency device is not stable because it involves an unstable operation of opening the parachute.

【0006】この発明はかかる問題点を解決するために
なされたものであり、常に無線機器を水面上に露出させ
た状態での安定した自立姿勢を長時間維持でき、且つ収
納時(非使用時)には小型で邪魔にならない自立型浮遊
装置を提供することを目的としている。The present invention has been made to solve the above problems, and it is possible to maintain a stable self-standing posture for a long time in a state where the wireless device is always exposed on the water surface, and at the time of storage (when not in use). ) Aims to provide a small, unobtrusive free-standing floating device.

【0007】[0007]

【課題を解決するための手段】この発明に係わる自立型
浮遊装置は、水中に置かれた場合に拡張し浮力を生じさ
せその上部が水面上に突出する自立姿勢を取る浮遊部
と、この水面上に突出する上部に無線機器を取り付ける
手段と、上記自立姿勢が維持されるように上記浮遊部の
下部に重りを取り付ける手段とを備えたことを特徴とす
る。DISCLOSURE OF THE INVENTION A self-sustaining floating device according to the present invention is a floating portion which expands when placed in water to generate buoyancy and has a self-supporting posture in which its upper portion projects above the water surface, and this water surface. It is characterized by further comprising means for attaching the wireless device to an upper portion protruding upward, and means for attaching a weight to a lower portion of the floating portion so as to maintain the self-standing posture.

【0008】また、その重量バランスは、水中に置かれ
た場合に、重りの重量を含めて水中に沈む部分の水中に
おける重量は、無線機器を含めた水面から露出する部分
の空中での重量より重く、且つ、装置全体の比重が水の
比重より軽くなるように構成したことを特徴とする。[0008] Further, the weight balance is such that, when placed in water, the weight of the portion which is submerged in the water including the weight of the weight is lower than the weight of the portion exposed from the water surface including the radio equipment in the air. It is characterized in that it is heavy and the specific gravity of the entire apparatus is lighter than the specific gravity of water.

【0009】また浮遊部は、外筒と内筒とが二重構造を
形成しスライド式に伸縮する筐体からなり、携帯時には
収縮させた状態を取り、使用時には外筒と内筒とを互い
に逆方向に引っ張り伸長させる構造とした。Further, the floating portion is composed of a casing in which an outer cylinder and an inner cylinder form a double structure and expands and contracts in a slidable manner, and is in a contracted state when being carried, and when used, the outer cylinder and the inner cylinder are mutually connected. The structure is such that it is stretched in the opposite direction.

【0010】また浮遊部は、外筒と内筒とが二重構造を
形成しスライド式に伸縮する筐体と、この筐体内部に設
けられたガス発生手段とからなり、携帯時には収縮させ
た状態を取り、使用時にはガス発生手段で発生させたガ
ス圧により自動的に伸長させる構造とした。The floating portion is composed of a casing in which an outer cylinder and an inner cylinder form a double structure and which expands and contracts in a sliding manner, and a gas generating means provided inside the housing, which is contracted when being carried. A structure is adopted in which the gas pressure generated by the gas generating means is automatically extended during use.

【0011】また浮遊部は、外筒と内筒とが二重構造を
形成しスライド式に伸縮する筐体と、この筐体内の伸縮
方向にスプリングを取り付ける手段とからなり、携帯時
にはスプリングの付勢に抗って収縮させた状態でフック
し、使用時にはこのフックを外すことで自動的に伸長さ
せる構造とした。The floating portion is composed of a housing in which the outer cylinder and the inner cylinder form a double structure and is slidably expanded and contracted, and a means for attaching a spring in the expansion and contraction direction in the housing. It is structured so that it hooks in a state of contracting against the force, and when used, it is automatically extended by removing this hook.

【0012】また、筐体が伸長した場合外筒と内筒とが
それぞれの突出部で嵌合して嵌合部を形成し、筐体内が
気密構造となることを特徴とする。さらに嵌合部にO−
リングを備えたことを特徴とする。Further, when the housing is extended, the outer cylinder and the inner cylinder are fitted to each other at their projecting portions to form a fitting portion, so that the inside of the housing has an airtight structure. Furthermore, O-
It is characterized by having a ring.

【0013】また浮遊部は、バルーンと、ガス発生手段
と、これらを収納しておくケースとからなり、携帯時に
はバルーンが収縮してケース内に収縮され、使用時には
ガス発生手段からバルーンに送り込まれるガス圧で自動
的にバルーンを膨張させると共にケースが自動的に外れ
さらにこのバルーンを膨張させる構造とした。さらに、
浮遊部におけるガス発生手段と重りとを、所定の長さの
ロープを介して接続する構造とした。The floating portion is composed of a balloon, a gas generating means, and a case for accommodating them. The balloon contracts when being carried and is contracted into the case, and is fed from the gas generating means to the balloon during use. The structure is such that the balloon is automatically inflated by gas pressure and the case is automatically detached to further inflate the balloon. further,
The gas generating means and the weight in the floating portion are connected to each other via a rope having a predetermined length.

【0014】さらに浮遊部は、水中に置かれた場合発泡
しその周囲に気泡層を形成する発泡装置で構成すること
とした。Further, the floating portion is constituted by a foaming device which foams when placed in water and forms a bubble layer around the foam.

【0015】さらにガス発生手段は、ガスボンベとバル
ブとで構成され、または化学反応によりガスを発生する
手段、或は燃焼により燃焼ガスを発生する手段で構成す
ることとした。Further, the gas generating means is composed of a gas cylinder and a valve, or means for generating gas by a chemical reaction, or means for generating combustion gas by combustion.

【0016】[0016]

【作用】この発明の自立型浮遊装置は、水中に置かれた
場合に拡張し浮力を生じさせその上部が水面上に突出す
る自立姿勢を取る浮遊部と、この水面上に突出する上部
に無線機器を取り付ける手段と、上記自立姿勢が維持さ
れるように上記浮遊部の下部に重りを取り付ける手段と
を備えることにより、無線機器を水面上に露出させた状
態での自立姿勢を維持でき、且つ収納時(非使用時)に
は小型で邪魔にならない構造とできる。The self-sustained levitation device of the present invention has a floating portion that expands when placed in water to generate buoyancy and has a self-sustaining posture in which its upper portion projects above the water surface, and a wireless portion on the upper portion projecting above the water surface. By providing a means for attaching a device and a means for attaching a weight to the lower part of the floating portion so that the self-standing posture is maintained, it is possible to maintain the self-standing posture in a state where the wireless device is exposed on the water surface, and It can be made compact and unobtrusive when stored (when not in use).

【0017】また、その重量バランスは、水中に置かれ
た場合に、重りの重量を含めて水中に沈む部分の水中に
おける重量は、無線機器を含めた水面から露出する部分
の空中での重量より重く、且つ、装置全体の比重が水の
比重より軽くなるように構成することにより、常に安定
した自立姿勢を長時間維持できるようになる。Further, the weight balance is such that, when placed in water, the weight of the submerged portion including the weight of the weight in water is lower than the weight in the air of the portion exposed from the water surface including the radio equipment. By constructing the apparatus so that it is heavy and the specific gravity of the entire apparatus is lighter than the specific gravity of water, it is possible to maintain a stable independent posture for a long time.

【0018】また浮遊部は、外筒と内筒とが二重構造を
形成しスライド式に伸縮する筐体からなり、携帯時には
収縮させた状態を取り、使用時には外筒と内筒とを互い
に逆方向に引っ張り伸長させる構造としたので、簡単な
構造で使用時に十分な浮力を得られる構造とできる。Further, the floating portion is composed of a casing in which an outer cylinder and an inner cylinder form a double structure and expands and contracts in a slidable manner. The floating section is in a contracted state when carried, and the outer cylinder and the inner cylinder are mutually in use when used. Since the structure is such that it is stretched and stretched in the opposite direction, it is possible to obtain a structure in which sufficient buoyancy can be obtained during use with a simple structure.

【0019】また浮遊部は、外筒と内筒とが二重構造を
形成しスライド式に伸縮する筐体と、この筐体内部に設
けられたガス発生手段とからなり、携帯時には収縮させ
た状態を取り、使用時にはガス発生手段で発生させたガ
ス圧により自動的に伸長させる構造としたので、非常時
に早急な動作を自動的に行わせることが可能となる。The floating portion is composed of a casing in which an outer cylinder and an inner cylinder form a double structure and expands / contracts in a sliding manner, and a gas generating means provided inside the housing, and is contracted when being carried. Since it has a structure in which the gas pressure generated by the gas generating means is used to automatically extend when used, it is possible to automatically perform a quick operation in an emergency.

【0020】また浮遊部は、外筒と内筒とが二重構造を
形成しスライド式に伸縮する筐体と、この筐体内の伸縮
方向にスプリングを取り付ける手段とからなり、携帯時
にはスプリングの付勢に抗って収縮させた状態でフック
し、使用時にはこのフックを外すことで自動的に伸長さ
せる構造としたので、非常時に早急に安定した動作を自
動的に行わせることが可能となる。The floating portion is composed of a housing that is formed by a double structure of an outer cylinder and an inner cylinder and is slidably expanded and contracted, and a means for mounting a spring in the expansion and contraction direction of the housing. Since the hook is contracted against the force and is automatically extended by removing the hook when in use, it is possible to automatically perform a stable operation immediately in an emergency.

【0021】また、筐体が伸長した場合外筒と内筒とが
それぞれの突出部で嵌合して嵌合部を形成し、筐体内を
気密構造とし、さらに嵌合部にO−リングを備えること
により、長時間安定した動作が可能となる。Further, when the housing is extended, the outer cylinder and the inner cylinder are fitted to each other at their respective projecting portions to form a fitting portion, so that the inside of the housing has an airtight structure, and an O-ring is attached to the fitting portion. With the provision, stable operation for a long time becomes possible.

【0022】また浮遊部は、バルーンと、ガス発生手段
と、これらを収納しておくケースとからなり、携帯時に
はバルーンが収縮してケース内に収縮され、使用時には
ガス発生手段からバルーンに送り込まれるガス圧で自動
的にバルーンを膨張させると共に自動的にケースを外
し、さらにこのバルーンを拡張させる構造とすることに
より、また、さらに浮遊部におけるガス発生手段と重り
とを所定の長さのロープを介して接続することにより、
全体の重量を軽くできる。The floating portion is composed of a balloon, a gas generating means, and a case for accommodating these, and the balloon contracts when carried and is contracted into the case. When used, the balloon is sent from the gas generating means to the balloon. By automatically inflating the balloon with gas pressure, automatically removing the case, and further expanding the balloon, the gas generating means and the weight in the floating part can be further fixed to a rope of a predetermined length. By connecting through
The overall weight can be reduced.

【0023】さらに浮遊部は、水中に置かれた場合発泡
しその周囲に気泡層を形成する発泡装置で構成すること
により、使用時に機構的に動作する部分を無くすことが
できる。Further, the floating portion is constituted by a foaming device which foams when placed in water and forms a bubble layer around the floating portion, whereby a portion which mechanically operates during use can be eliminated.

【0024】さらにガス発生手段は、ガスボンベとバル
ブとで構成され、または化学反応によりガスを発生する
手段、或は燃焼により燃焼ガスを発生する手段の何れか
を選択することにより、使用形態に応じた装置がえられ
る。Further, the gas generating means is composed of a gas cylinder and a valve, or by selecting either a means for generating a gas by a chemical reaction or a means for generating a combustion gas by combustion, depending on the use form. You can get a device.

【0025】[0025]

【実施例】【Example】

実施例1.以下、この発明の一実施例を図面を用いて説
明する。図1はこの発明の実施例1に係わる自立型浮遊
装置の構成の概略を説明するための図、図2は動作時の
状態を説明するための図であり、図において、20は筐
体で、この筐体20は外筒20aと内筒20bとの二重
構造を成し、スライド式に伸縮可能なように形成されて
いる。21は筐体上部に取り付けられたトランスポンダ
等の無線機器、22は重りであり、この重りの重量は後
述するように水面上を浮遊する場合に無線機器1が必ず
水面上部に露出した自立姿勢が維持できるように定めら
れる。23は膨張ガス発生装置で、この実施例1では例
えば水素など比重の軽いガスが充填されたガスボンベ2
3aとバルブ23bとで構成される。また、100は水
面の位置を示す。Example 1. An embodiment of the present invention will be described below with reference to the drawings. 1 is a diagram for explaining the outline of the configuration of a self-sustaining floating device according to a first embodiment of the present invention, and FIG. 2 is a diagram for explaining a state during operation, in which 20 is a casing. The housing 20 has a double structure of an outer cylinder 20a and an inner cylinder 20b, and is formed so as to be extendable / contractible in a sliding manner. Reference numeral 21 is a wireless device such as a transponder attached to the upper part of the housing, 22 is a weight, and the weight of this weight means that when the wireless device 1 floats on the water surface, the wireless device 1 is always exposed above the water surface. Determined to be sustainable. Reference numeral 23 is an expansion gas generator, and in this embodiment 1, for example, a gas cylinder 2 filled with a gas having a low specific gravity such as hydrogen.
3a and valve 23b. Further, 100 indicates the position of the water surface.

【0026】次に動作について説明する。例えば海難時
等の非常事態が発生した場合、バルブ23bを動作させ
て開放することにより、ガスボンベ23aからガスが噴
出し、筐体内部にガスが充満して筐体20の内圧を上昇
させ、筐体を膨張させようとする方向の力が働く。然し
ながら、筐体20は左右方向へは膨張できない構造のた
め上下方向へスライド式に引き出されて伸長する。すな
わち、二重構造の外筒20aと内筒20bとがそれぞれ
反対方向へそれぞれの突出部200a,200bが嵌合
するまで摺動し、この突出部200aおよび200bの
嵌合により機密構造を保持したままその内容積を約2倍
程度に拡張する。すなわち筐体20は、その内容積が約
2倍程度に拡張され、且つ、水素ガス等の軽いガスが充
満することによって比重が軽くなり、従って装置全体の
比重を軽くでき、水中に投下された場合に浮遊するよう
になり、また、重り22の位置を下げ、重心の位置を下
げて浮遊時に安定した構造とできる。Next, the operation will be described. For example, when an emergency situation such as a marine disaster occurs, the valve 23b is operated and opened to eject gas from the gas cylinder 23a to fill the inside of the housing and increase the internal pressure of the housing 20. A force acts in the direction to expand the body. However, since the housing 20 is a structure that cannot expand in the left-right direction, it is slid out in the vertical direction and extends. That is, the outer cylinder 20a and the inner cylinder 20b having a double structure slide in opposite directions until the protrusions 200a and 200b are fitted to each other, and the protrusions 200a and 200b are fitted to hold the confidential structure. The inner volume is expanded about twice as it is. That is, the housing 20 has its internal volume expanded to about twice, and its specific gravity is lightened by being filled with a light gas such as hydrogen gas. Therefore, the specific gravity of the entire apparatus can be lightened and the housing 20 was dropped into water. In this case, the weight 22 is lowered, the position of the weight 22 is lowered, and the position of the center of gravity is lowered.

【0027】従って、重り22の重量を含めて水中に沈
む部分の水中での重量を、無線機器21を含めた水面か
ら露出する部分の空中での重量より重くし、且つ、全体
の比重が水の比重より軽くなるように設計することで、
常に無線機器1を水面上に露出させた状態の安定した自
立姿勢で長時間水面を浮遊させることができるようにな
る。Therefore, the weight of the portion which is submerged in the water including the weight of the weight 22 is made heavier than the weight of the portion exposed from the water surface including the radio equipment 21 in the air, and the specific gravity of the whole is water. By designing to be lighter than the specific gravity of
It becomes possible to float the water surface for a long time in a stable self-standing posture with the wireless device 1 always exposed on the water surface.

【0028】なお、上述の実施例の膨張ガス発生装置2
3におけるバルブの開放は、電磁バルブを用いた電気制
御で行うこととしても、機械的な制御で行うこととして
も良い。また、上記実施例1に限らず、ガス圧により筐
体20を拡張できる構造であれば良く、例えば化学反応
によりガスを発生させる装置でも、燃焼によりガスを発
生させる装置であっても良い。さらに、図2の右図に示
すように、突出部200a,200bが嵌合する嵌合部
にO−リング200cを設け、機密構造をさらに完全な
構造とすることとしても良い。The expanded gas generator 2 of the above embodiment
The valve opening in 3 may be performed by electrical control using an electromagnetic valve or mechanical control. Further, the structure is not limited to the first embodiment, and any structure may be used as long as the housing 20 can be expanded by gas pressure. For example, a device that generates gas by a chemical reaction or a device that generates gas by combustion may be used. Further, as shown in the right diagram of FIG. 2, an O-ring 200c may be provided at a fitting portion where the protruding portions 200a and 200b are fitted, so that the airtight structure can be a more complete structure.

【0029】実施例2.図3は、この発明の実施例2に
係わる自立型浮遊装置の構成の概略を説明するための
図、図4はその動作時の状態を説明するための図であ
り、図において、図1と同一符号は同一または相当部分
を示し、24は使用時に筐体20の外筒20aと内筒2
0bとの二重構造の部分をスライドさせ筐体を伸長させ
るためのスプリング、25は重り22の中央を貫通させ
たエアーパイプ、26はエアーパイプ25の途中に設け
られた一方弁である。Example 2. FIG. 3 is a diagram for explaining the outline of the configuration of the self-sustaining floating device according to the second embodiment of the present invention, and FIG. 4 is a diagram for explaining the state during its operation. The same reference numerals indicate the same or corresponding parts, and 24 indicates the outer cylinder 20a and the inner cylinder 2 of the housing 20 when used.
0b is a spring for sliding the portion of the double structure with 0b to extend the housing, 25 is an air pipe penetrating the center of the weight 22, and 26 is a one-way valve provided in the middle of the air pipe 25.

【0030】上述の実施例1では、膨張ガス発生装置2
3を用いて内圧を上昇させ、筐体20を伸長させること
としたが、内圧の上昇によらなくても使用時に筐体20
が伸長すれば良く、従ってこの実施例2では、スプリン
グ24の弾性力を用いて使用時に筐体20を伸長させる
構造としている。すなわち、図3に示すように収納時に
はスプリング24の弾性力に抗って外筒20a内に内筒
20bが収納され、例えばフック止め(図示せず)され
た状態にあり、使用時にこのフックが外されると、スプ
リング24が伸長し、一方弁26を介してエアーパイプ
25により筐体内部へ空気を吸い込みながら筐体20が
伸長する。この一方弁26は筐体内部へ空気を吸い込む
ことができるが、筐体外部へは空気が漏れないような構
造となっており、従って、筐体20はスプリング24の
弾性力によってその内容積が約2倍程度に拡張され比重
が軽くなり、従って使用時には装置全体の比重を軽くし
て水中に投下された場合に所定の浮力が発生するように
なる。また、重り22の位置を下方へ下げ、重心の位置
を下げて安定した浮遊姿勢を取ることができる。従って
上述の実施例1と同様に、常に無線機器1を水面上に露
出させた状態の安定した自立姿勢で長時間水面を浮遊さ
せることができる。なお、エアーパイプ25に一方弁2
6を備えた構造であれば、スプリング24を省略し、非
常時には手で引き出す構造としても良い。In the first embodiment described above, the expanded gas generator 2
3 is used to increase the internal pressure and extend the housing 20. However, even if the internal pressure is not increased, the housing 20 can be used at the time of use.
Therefore, the second embodiment has a structure in which the elastic force of the spring 24 is used to extend the housing 20 during use. That is, as shown in FIG. 3, the inner cylinder 20b is housed in the outer cylinder 20a against the elastic force of the spring 24 when housed, and is hooked (not shown), for example. When removed, the spring 24 expands, and the housing 20 expands while sucking air into the housing by the air pipe 25 via the one-way valve 26. The one-way valve 26 can suck air into the inside of the housing, but has a structure in which air does not leak to the outside of the housing. The specific gravity is expanded by about 2 times, and therefore the specific gravity of the entire device is reduced during use, and a predetermined buoyancy is generated when the device is dropped in water. Further, the position of the weight 22 can be lowered downward and the position of the center of gravity can be lowered to take a stable floating posture. Therefore, similarly to the above-described first embodiment, the water surface can be suspended for a long time in a stable self-standing posture with the wireless device 1 always exposed on the water surface. The one-way valve 2 is attached to the air pipe 25.
If the structure is provided with 6, the spring 24 may be omitted and the structure may be pulled out by hand in an emergency.

【0031】実施例3.図5はこの発明の実施例3に係
わる自立型浮遊装置の構成の概略を説明するための図、
図6はその動作時の状態を説明するための図であり、図
において、図1と同一符号は同一または相当部分を示
し、20cは筐体20を形成しているケース、27は無
線機器21と膨張ガス発生装置23との間に取り付けら
れているバルーンで、膨張時には図面上下方向に細長い
形状を成す。この実施例3は、筐体20そのものは伸長
せず、筐体20内には折り畳まれたバルーン27が設け
られ、筐体20は少しの内圧により分割して外れる構造
となっている。Example 3. FIG. 5 is a view for explaining the outline of the configuration of a self-sustaining floating device according to Embodiment 3 of the present invention,
FIG. 6 is a diagram for explaining a state during the operation, in which the same reference numerals as those in FIG. 1 denote the same or corresponding parts, 20 c is a case forming the housing 20, 27 is a wireless device 21. The balloon attached between the expansion gas generator 23 and the expansion gas generator 23 has a slender shape in the vertical direction in the drawing when expanded. In the third embodiment, the housing 20 itself does not expand, a folded balloon 27 is provided in the housing 20, and the housing 20 has a structure in which the housing 20 is divided and released by a slight internal pressure.

【0032】次に動作について説明する。海難時等の非
常事態が発生した場合、バルブ23bを動作させて開放
することにより、ガスボンベ23aから水素ガス等の比
重の軽いガスが噴出し、バルーン27を膨張させる。バ
ルーン27が膨張すると、このバルーン27の膨張に押
されてケース20cが分割して外れ、図6に示すよう
に、上から無線機器21と膨張したバルーン27と膨張
ガス発生装置23と重り22とが順次つながった構造と
なり、且つ、バルーン27を細長い形状としたので重り
22の位置を下げ重心位置を下げることができる。従っ
て上記実施例1,実施例2と同様な条件で全体の比重お
よび重り22の重量を設計することにより、常に無線機
器1を水面上に露出させた状態での安定した自立姿勢で
長時間水面を浮遊させることができる。Next, the operation will be described. In the event of an emergency such as a marine disaster, the valve 23b is operated to open it, so that a gas having a low specific gravity such as hydrogen gas is ejected from the gas cylinder 23a to inflate the balloon 27. When the balloon 27 is inflated, it is pushed by the inflation of the balloon 27 and the case 20c is separated and detached, and as shown in FIG. 6, the wireless device 21, the inflated balloon 27, the inflated gas generator 23, and the weight 22 are attached from above. And the balloon 27 has an elongated shape, the position of the weight 22 can be lowered and the position of the center of gravity can be lowered. Therefore, by designing the overall specific gravity and the weight of the weight 22 under the same conditions as in the above-described first and second embodiments, the wireless device 1 is always exposed to the water surface in a stable self-standing posture for a long time. Can be suspended.

【0033】実施例4.なお、上記実施例3では、浮遊
時の安定性を増加させるためにバルーン27の形状を上
下方向に細長い形状としているが、図7に示すように球
形のバルーン27aを用いる場合には、膨張ガス発生装
置と重り22との間を所定の長さのロープ28で接続す
る構造とすることにより、重心位置を下げることがで
き、浮遊時の安定性を増加させることができる。図7は
この実施例4を示す。Example 4. In the third embodiment, the shape of the balloon 27 is elongated in the vertical direction in order to increase the stability during floating. However, when a spherical balloon 27a is used as shown in FIG. With the structure in which the generator and the weight 22 are connected by the rope 28 having a predetermined length, the position of the center of gravity can be lowered and the stability during floating can be increased. FIG. 7 shows the fourth embodiment.

【0034】実施例5.図8はこの発明の実施例5に係
わる自立型浮遊装置の構成の概略および動作をを説明す
るための図であり、図において、図1〜図7と同一符号
は同一または相当部分を示し、29は発泡装置、30は
発泡装置29で装置周囲に形成された気泡層である。こ
の実施例5では、上記実施例1〜4に示すような筐体あ
るいはバルーンを膨張させるという手段を用いずに、水
中に投下された際、発泡装置29から例えば化学反応に
より瞬時に無数の泡を出し、この泡が水と反応し、ある
いは水温による冷却で、装置周囲に固定化され気泡層3
0を形成する手段を用い、形成された気泡層30の浮力
により浮遊させる構造としたもので、この場合にも実施
例4と同様に、ロープ28の長さ、全体の比重および重
り22の重量を調整することにより、常に無線機器1を
水面上に露出させた状態での安定した自立姿勢で長時間
水面を浮遊させることができる。Example 5. FIG. 8 is a diagram for explaining the outline of the configuration and the operation of the self-sustaining floating device according to the fifth embodiment of the present invention. In the figure, the same reference numerals as those in FIGS. Reference numeral 29 is a foaming device, and 30 is a bubble layer formed around the device by the foaming device 29. In this fifth embodiment, without using the means for inflating the housing or the balloon as shown in the first to fourth embodiments, when it is dropped into water, countless bubbles are instantly generated from the foaming device 29 due to, for example, a chemical reaction. And the bubbles react with water or are cooled by the water temperature to be fixed around the apparatus to form a bubble layer 3
The structure is such that the means for forming 0 is used to float by the buoyancy of the formed bubble layer 30. In this case as well, the length of the rope 28, the overall specific gravity and the weight of the weight 22 are the same as in the fourth embodiment. By adjusting, the water surface can be floated for a long time in a stable self-standing posture with the wireless device 1 always exposed on the water surface.

【0035】[0035]

【発明の効果】以上のようにこの発明の自立型浮遊装置
は、浮力を生じる浮遊部の上に無線機器を設け、下に重
りを設け、且つ、動作時には重りが下方へ移動する構造
とし、重りを含めた水中に沈む部分の水中での重量を、
無線機器を含めた水面から露出する部分の空中での重量
より重くし、且つ、全体の比重が水の比重より軽くなる
ように設計することにより、常に無線機器を水面上に露
出させた状態での安定した自立姿勢で長時間水面を浮遊
させることができ、海難時の電波発生装置等を組み込む
装置として最適な装置とできる。As described above, the self-sustained levitation device of the present invention has a structure in which a radio device is provided on a floating portion that produces buoyancy, a weight is provided below it, and the weight moves downward during operation. The weight in water of the submerged part including the weight,
By designing the part exposed from the water surface including the wireless device to be heavier than the weight in the air, and designed so that the overall specific gravity is lighter than the specific gravity of water, the wireless device is always exposed on the surface of the water. It is possible to float the water surface for a long time in a stable self-standing posture, and it can be an optimal device for incorporating a radio wave generator or the like in the event of a marine disaster.

【0036】また、浮遊部は非使用時に収縮させ、ある
いは折り畳んで収納する構造のため、非使用時に装置全
体を小型化でき、例えば個人に携帯させる非常用装置と
できる等の効果がある。Further, since the floating portion is structured so as to be contracted when not in use or folded and stored, there is an effect that the entire device can be downsized when not in use, for example, it can be used as an emergency device to be carried by an individual.

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

【図1】この発明の実施例1に係わる自立型浮遊装置の
構成の概略を説明するための図である。FIG. 1 is a diagram for explaining the outline of the configuration of a self-sustaining floating device according to a first embodiment of the present invention.

【図2】図1に示す装置の動作時の状態を説明するため
の図である。FIG. 2 is a diagram for explaining a state during operation of the device shown in FIG.

【図3】この発明の実施例2に係わる自立型浮遊装置の
構成の概略を説明するための図である。FIG. 3 is a diagram for explaining the outline of the configuration of a self-sustained levitation device according to Embodiment 2 of the present invention.

【図4】図3に示す装置の動作時の状態を説明するため
の図である。FIG. 4 is a diagram for explaining a state during operation of the device shown in FIG.

【図5】この発明の実施例3に係わる自立型浮遊装置の
構成の概略を説明するための図である。FIG. 5 is a diagram for explaining the outline of the configuration of a self-sustaining floating device according to Embodiment 3 of the present invention.

【図6】図5に示す装置の動作時の状態を説明するため
の図である。FIG. 6 is a diagram for explaining a state during operation of the device shown in FIG.

【図7】この発明の実施例4に係わる装置の構成および
動作の概略を説明するための図である。FIG. 7 is a diagram for explaining the outline of the configuration and operation of the device according to Embodiment 4 of the present invention.

【図8】この発明の実施例5に係わる装置の構成および
動作の概略を説明するための図である。FIG. 8 is a diagram for explaining the outline of the configuration and operation of the device according to Embodiment 5 of the present invention.

【図9】従来のこの種の自立型浮遊装置を説明するため
の図である。FIG. 9 is a view for explaining a conventional self-sustained levitation device of this type.

【図10】従来のこの種の自立型浮遊装置の動作時の状
態を説明するための図である。FIG. 10 is a diagram for explaining a state during operation of a conventional self-sustaining floating device of this type.

【符号の説明】[Explanation of symbols]

20 筐体 20a 外筒 20b 内筒 20c ケース 21 無線機器 22 重り 23 膨張ガス発生装置 23a ガスボンベ 23b バルブ 24 スプリング 25 エアーパイプ 26 一方弁 27 バルーン 28 ロープ 29 発泡装置 30 気泡層 100 水面 20 housing 20a outer cylinder 20b inner cylinder 20c case 21 wireless equipment 22 weight 23 expansion gas generator 23a gas cylinder 23b valve 24 spring 25 air pipe 26 one-way valve 27 balloon 28 rope 29 foaming device 30 bubble layer 100 water surface

Claims (13)

【特許請求の範囲】[Claims] 【請求項1】 水中に置かれた場合に拡張し浮力を生じ
その上部が水面上に突出する自立姿勢を取る浮遊部と、
この水面上に突出する上部に無線機器を取り付ける手段
と、上記自立姿勢が維持されるように上記浮遊部の下部
に重りを取り付ける手段とを備えたことを特徴とする自
立型浮遊装置。1. A floating part which expands when placed in water to generate buoyancy and which has an upper part projecting above the water surface in a self-supporting posture.
A self-sustained levitation device comprising: means for attaching a wireless device to an upper portion protruding above the water surface; and means for attaching a weight to a lower portion of the floating portion so as to maintain the self-standing posture. 【請求項2】 水中に置かれた場合に、上記重りの重量
を含めて水中に沈む部分の水中における重量は、上記無
線機器を含めた水面から露出する部分の空中での重量よ
り重く、且つ、装置全体の比重が水の比重より軽くなる
ような重量バランスで構成されることを特徴とする請求
項第1項記載の自立型浮遊装置。2. When placed in water, the weight of the portion of the weight, including the weight of the weight, which is submerged in water is heavier than the weight of the portion exposed from the water surface including the wireless device in the air, and 2. The self-sustaining floating device according to claim 1, characterized in that it is constituted by a weight balance such that the specific gravity of the whole device is lighter than that of water. 【請求項3】 上記浮遊部は、外筒と内筒とが二重構造
を形成しスライド式に伸縮する筐体からなり、携帯時に
は収縮させた状態を取り、使用時には上記外筒と上記内
筒とを互いに反対方向に引っ張り伸長させる構造を特徴
とする請求項第1項または第2項記載の自立型浮遊装
置。3. The floating portion is composed of a casing in which an outer cylinder and an inner cylinder form a double structure and expands and contracts in a sliding manner, and is in a contracted state when being carried, and when being used, the outer cylinder and the inner cylinder are in a contracted state. The self-sustaining floating device according to claim 1 or 2, characterized in that the structure is such that the cylinder and the cylinder are pulled and extended in opposite directions. 【請求項4】 上記浮遊部は、外筒と内筒とが二重構造
を形成しスライド式に伸縮する筐体と、この筐体内部に
設けられたガス発生手段とからなり、携帯時には収縮さ
せた状態を取り、使用時にはガス発生手段で発生させた
ガス圧により自動的に伸長させる構造を特徴とする請求
項第1項または第2項記載の自立型浮遊装置。4. The floating portion comprises a casing that has a double structure of an outer casing and an inner casing and is slidable and expandable, and a gas generating means provided inside the casing. The self-sustaining floating device according to claim 1 or 2, wherein the self-sustaining floating device has a structure in which the self-sustaining condition is maintained and automatically expanded by the gas pressure generated by the gas generating means during use. 【請求項5】 上記浮遊部は、外筒と内筒とが二重構造
を形成しスライド式に伸縮する筐体と、この筐体内の伸
縮方向にスプリングを取り付ける手段とからなり、携帯
時には上記スプリングの付勢に抗って収縮させた状態で
フックし、使用時にはこのフックを外すことで自動的に
伸長させる構造を特徴とする請求項第1項または第2項
記載の自立型浮遊装置。5. The floating portion includes a casing in which an outer cylinder and an inner cylinder form a double structure and expands and contracts in a sliding manner, and a means for attaching a spring in the expansion and contraction direction in the housing. The self-sustaining floating device according to claim 1 or 2, wherein the hook is hooked in a state of being contracted against the bias of the spring, and is automatically extended by removing the hook when in use. 【請求項6】 上記筐体が伸長した場合上記外筒と上記
内筒とがそれぞれの突出部で嵌合して嵌合部を形成し、
筐体内が気密構造となることを特徴とする請求項第3項
〜第5項いずれかに記載の自立型浮遊装置。6. When the casing is extended, the outer cylinder and the inner cylinder are fitted to each other at their respective projecting portions to form a fitting portion,
The self-sustaining floating device according to claim 3, wherein the inside of the housing has an airtight structure. 【請求項7】 上記嵌合部にO−リングを備えたことを
特徴とする請求項第6項記載の自立型浮遊装置。7. The self-sustaining floating device according to claim 6, wherein the fitting portion is provided with an O-ring. 【請求項8】 上記浮遊部は、バルーンと、ガス発生手
段と、これらを収納しておくケースとからなり、携帯時
には上記バルーンが収縮して上記ケース内に収納され、
使用時には上記ガス発生手段から上記バルーンに送り込
まれるガス圧で自動的に上記バルーンを膨張させると共
に上記ケースが自動的に外れてさらにこのバルーンを拡
張させる構造を特徴とする請求項第1項または第2項記
載の自立型浮遊装置。8. The floating portion comprises a balloon, a gas generating means, and a case for storing these, and the balloon is contracted and stored in the case when being carried,
2. The structure according to claim 1, wherein the balloon is automatically inflated by the gas pressure sent from the gas generating means to the balloon at the time of use, and the case is automatically detached to further expand the balloon. The self-sustaining floating device according to item 2. 【請求項9】 上記浮遊部における上記ガス発生手段
と、上記重りとを所定の長さのロープを介して接続した
構造を特徴とする請求項第8項記載の自立型浮遊装置。9. The self-sustaining floating apparatus according to claim 8, wherein the gas generating means in the floating portion is connected to the weight via a rope having a predetermined length. 【請求項10】 上記浮遊部は、水中に置かれた場合発
泡しその周囲に気泡層を形成する発泡装置で構成される
ことを特徴とする請求項第1項または第2項記載の自立
型浮遊装置。10. The self-supporting type according to claim 1, wherein the floating part is constituted by a foaming device which foams when placed in water and forms a bubble layer around the foaming part. Floating device. 【請求項11】 上記ガス発生手段はガスボンベとバル
ブとで構成されることを特徴とする請求項第4項,第8
項または第9項記載の自立型浮遊装置。11. The gas generating means comprises a gas cylinder and a valve, as claimed in claims 4 and 8.
Item 7. The self-sustaining floating device according to item 9 or 9. 【請求項12】 上記ガス発生手段は化学反応によりガ
スを発生する手段であることを特徴とする請求項第4
項,第8項または第9項記載の自立型浮遊装置。12. The gas generating means is a means for generating a gas by a chemical reaction.
Item 7. The self-sustaining floating device according to item 8 or 9. 【請求項13】 上記ガス発生手段は燃焼による燃焼ガ
スを発生する手段であることを特徴とする請求項第4
項,第8項または第9項記載の自立型浮遊装置。13. The gas generating means is means for generating combustion gas by combustion.
Item 7. The self-sustaining floating device according to item 8 or 9.
JP32236893A 1993-12-21 1993-12-21 Free-standing floating device Pending JPH07174844A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP32236893A JPH07174844A (en) 1993-12-21 1993-12-21 Free-standing floating device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP32236893A JPH07174844A (en) 1993-12-21 1993-12-21 Free-standing floating device

Publications (1)

Publication Number Publication Date
JPH07174844A true JPH07174844A (en) 1995-07-14

Family

ID=18142869

Family Applications (1)

Application Number Title Priority Date Filing Date
JP32236893A Pending JPH07174844A (en) 1993-12-21 1993-12-21 Free-standing floating device

Country Status (1)

Country Link
JP (1) JPH07174844A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002042078A (en) * 2000-07-21 2002-02-08 Leading Information Technology Institute Electronic tag device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002042078A (en) * 2000-07-21 2002-02-08 Leading Information Technology Institute Electronic tag device

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