JP3966385B2 - Pneumatic extension type tube device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pneumatic extension type tube device applicable to an exploration rod or the like having a tip part changing its position by preventing a rod-like part from moving by sliding on a movement surface with a simple structure. <P>SOLUTION: One end 5 of a flexible airtight tube 2 is attached to an airtight casing 3; the other end 6 thereof is closed. The end 6 is folded inward to form the airtight tube 2 into a double structure. And the double structure part is pushed out to pay out the folded part to the outside by introducing high-pressure air into the airtight casing 3. <P>COPYRIGHT: (C)2004,JPO&amp;NCIPI

Description

BACKGROUND OF THE INVENTION
The present invention relates to a pneumatic extension type tube device applicable as an exploration rod or the like for exploring the inside through rubble in a stricken area or the like.
[Prior art]
In rescue operations in the disaster-stricken area, an exploration device equipped with a camera, a microphone, and the like for confirming the state of a collapsed building or debris and the presence of a victim is required. As a conventional exploration device, a probe-like inspection rod is used in which a camera or the like is fixed to the tip of a telescopic rod and inserted into the rubble. Conventional exploration rods have been inserted into rubble or buildings after the rod-shaped rods have been stretched, and moved by being pushed into the rubble while sliding the tip portion or rolling with casters or the like.
[Problems to be solved by the invention]
However, in the conventional exploration rod, the rod-shaped rod itself moves, so it takes labor to insert it into the rubble, and the direction cannot be changed when it hits an obstacle, or it takes time and travels through a bent path. It was difficult to do so, and the request for prompt rescue operation could not be satisfied sufficiently.
The present invention is based on the above-described prior art, and is a pneumatic extension tube that can be applied to an exploration rod or the like in which the position of the tip portion changes with a simple configuration without the rod-shaped portion sliding on the moving surface. The purpose is to provide a device.
[Means for Solving the Problems]
In order to achieve the above object, according to the present invention, one end of a flexible airtight tube is attached to an airtight casing, the other end is closed and this end is folded inward to double the airtight tube. Provided is a pneumatic extension type tube device which has a structure and is characterized in that high pressure air is introduced into the airtight casing to push out the double structure portion and to feed the folded portion outward.
According to this configuration, the airtight tube is folded back inward from the tip to form a double tube structure, the high-pressure air is introduced into the tube and inflated, the inner tube is extended, and the folded portion is pushed back to form the tip portion. The folded portion is stretched forward. As a result, the positions of the tips of the rod-like airtight tubes are successively changed without sliding on the moving surface, and the tips are moved. In this case, since the airtight tube is flexible and deforms according to the external pressure even in a state inflated with high-pressure air, even if the tip hits an obstacle while moving, the course is easily changed by the external pressure, It is possible to proceed following the formed path.
Furthermore, in order to achieve the object, in the present invention, one end of a flexible airtight tube is attached to an airtight casing, and the other end of the airtight tube is folded inward to make the tube double. At the same time, the folded end is fixed to a reel in the airtight casing, the airtight tube is wound around the reel, and high pressure air is introduced into the airtight casing to unwind and extend the airtight tube from the reel. A pneumatic extension type tube device is provided.
According to this configuration, the airtight tube can be folded inward from the tip to be wound around the reel in a double tube structure, and high-pressure air can be introduced into the tube to be inflated, and the reel can be unwound to extend the inner tube. . Thereby, the folding | returning part can be drawn | fed out sequentially and the folding | returning part which is a front-end | tip part can be extended ahead. As a result, the positions of the tips of the rod-like airtight tubes are successively changed without sliding on the moving surface, and the tips are moved. In this case, since the airtight tube is flexible and deforms according to the external pressure even in a state inflated with high-pressure air, even if the tip hits an obstacle while moving, the course is easily changed by the external pressure, It is possible to proceed following the formed path.
In a preferred configuration example, an exploration device is provided in a folded portion of the airtight tube, and a cable connected to the exploration device is wound around the reel together with the airtight tube.
According to this configuration, an exploration device such as a camera can be provided and moved at the folded portion that is the tip of the airtight tube. Further, a cable such as a video signal line or an operation line of the camera can be wound around the reel together with the airtight tube, and can be pulled out or pulled in from the casing according to the operation of the airtight tube.
In a further preferred configuration example, a cable take-up reel is provided in the exploration device.
According to this configuration, the probe device can always be held at the tip of the tube without slackening the cable. That is, when the folded portion is moved forward by extending the inner tube having the double structure, the cable is moved twice as much as the moved amount of the folded portion. Accordingly, the cable is loosened with the movement of the tube tip, and the probe device can always be held at the tube tip by winding the cable at the slack portion.
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is an explanatory view of the basic operation of the pneumatic extension type tube device according to the present invention.
(A) shows a state where the tube is extended to the maximum. (B) shows a state before the tube in the initial stage of use is extended. One end 5 of the flexible airtight tube 2 having flexibility is attached to the airtight casing 3. The other end 6 of the airtight tube 2 is closed, and is folded inward and stored in the airtight casing 3 as shown in FIG. Therefore, the airtight tube 2 has a double structure of the outer tube 2a and the inner tube 2b. When high-pressure air is introduced from the state (B) through the high-pressure air inlet / outlet 11, the inner tube 2b is sequentially drawn out as indicated by an arrow E, and the airtight tube 2 extends. Reference numeral 8 'denotes a wire for adjusting the amount of extension of the tube.
If the tip of the airtight tube 2 (folded portion 2c) hits the obstacle 13 as shown in (C) during this extension, the airtight tube 2 is flexible and only swells with air, so it can be easily lifted by external force. Then, as shown in (D), the direction is changed and further extended.
FIG. 2 is a configuration diagram of an embodiment of the present invention.
The pneumatic extension type tube apparatus 1 includes a flexible airtight tube 2, an airtight casing 3 (shown by a dotted line), and a tube take-up reel 4 provided in the airtight casing 3. The airtight tube 2 is folded inward from the tip to have a double structure of the outer tube 2a and the inner tube 2b. One end portion 5 (end portion of the outer tube 2 a) of the airtight tube 2 is attached to the airtight casing 3. The other end portion 6 (end portion of the inner tube 2 b) of the airtight tube 2 is fixed to the tube take-up reel 4 in the airtight casing 3, and the inner tube 2 b is wound around the reel 4.
The hermetic casing 3 is provided with a high-pressure air inlet / outlet port 11, and high-pressure air is introduced into the casing 3 as indicated by an arrow A from a high-pressure air source (not shown). As the high-pressure air source, for example, a high-pressure accumulator, a compressor, or a stepping type other air pump is used. By introducing high-pressure air into the casing 3 as indicated by the arrow A, the airtight tube 2 expands, and the reel 4 is unrolled as indicated by the arrow B to feed out the inner tube 2b. As a result, the inner tube 2b is sequentially drawn outward as indicated by an arrow C, and the folded portion 2c serving as the tip of the airtight tube 2 moves forward as indicated by an arrow D.
In the present embodiment, the searching device 7 such as a camera or a microphone is held in the folded portion 2c. A cable 8 such as a power supply line and a signal line connected to the exploration device 7 is wound around the tube take-up reel 4 together with the inner tube 2b, and is externally connected via a slip ring (not shown) provided on the rotary shaft 10 portion. It is taken out.
FIG. 3 is a fragmentary perspective view of an embodiment of the present invention.
The inner tube 2 b of the airtight tube 2 is wound around the tube take-up reel 4 in the airtight casing 3. The reel 4 can be wound and unwound by a handle 14 from the outside of the casing 3.
FIG. 4 is a cutaway perspective view of a main part of another embodiment of the present invention.
This embodiment is an example in which the exploration device 7 is provided at the tip of the airtight tube 2. A cable 8 such as a power line or a signal line connected to the exploration device 7 is wound around a reel 4 in the casing 3 together with the inner tube. The cable 8 is taken out through a slip ring 15 for preventing twisting. Reference numeral 16 denotes an airtight cover. The exploration device 7 includes a microphone, a camera, a light, a carbon dioxide sensor for detecting respiration, and the like.
FIG. 5 is an operation explanatory diagram of the embodiment of FIG.
The cable 8 of the exploration device 7 is wound around the reel 4 together with the inner tube 2b of the airtight tube 2, and is unwound as indicated by an arrow B when the tube is extended. At this time, the tip folding portion 2c of the hermetic tube 2 is fed out while being folded in the reverse direction, and therefore its traveling speed u is ½ of the traveling speed of the inner tube 2b. Since the cable 8 travels together with the inner tube 2b, the traveling speed of the cable 8 at the connecting portion of the exploration device 7 is 2u. That is, the cable 8 fed from the tube tip when the hermetic tube 2 extends extends longer from the tip and loosens as the tube extends. It is desirable that the cable 8 slackened in this way is wound up so that the exploration device 7 is always held at the position of the tip folding portion 2c of the airtight tube 2.
FIG. 6 is a perspective view of an essential part of the embodiment including the cable take-up reel.
As shown in the figure, a reel 17 is provided in the housing of the exploration device 7 and the cable 8 is wound thereon. As a result, the slack cable 8 described with reference to FIG. 5 can be wound to keep the exploration device 7 in contact with the distal end folded portion 2 c of the airtight tube 2.
FIG. 7 is an explanatory view of the handle operation of the airtight casing.
A handle lever 14a of the handle 14 is attached to the rotating shaft 10 (see FIG. 2) of the reel 4 in the hermetic casing 3. A gear 19 is fixed to the casing 3 coaxially with the rotating shaft. The handle lever 14a is elastically movable in a radial direction perpendicular to the rotation axis via the spring 18. A claw 20 that engages with the teeth of the gear 19 is provided at the tip of the handle lever 14a.
(A) shows a fixed lock state in which the claw 20 is engaged with the gear 19. In this state, the reel 4 in the casing 3 cannot be rotated, and the hermetic tube 2 is held at the extended fixed position.
(B) shows the unlocked state in which the claw 20 is removed against the spring 18. In this state, since the reel 4 in the casing 3 can be rotated, by introducing high-pressure air into the casing 3 as described above, the reel rotates and the airtight tube 2 extends. Further, the airtight tube 2 can be rewound by rotating the handle 14 in this state.
FIG. 8 is an operation explanatory diagram of another embodiment of the present invention.
In this embodiment, a guide rod 21 for changing the direction is provided at the tip of the hermetic tube 2. When the airtight tube 2 extends straight in the state of (A), the guide rod 21 at the tip hits the obstacle 22a, and the airtight tube 2 is moved in the direction of the obstacle 22b as shown in (B) according to the inclination of the guide rod 21. Guide and advance diagonally. Here, when the guide bar 21 again hits the obstacle 22b, the hermetic tube 2 is extended along the shape of the obstacle 22b and advanced forward. Such a guide rod 21 can be rotated in the left-right direction toward the front in the traveling direction, the angle of inclination can be adjusted, and can be rotated around the axis in the traveling direction, and 360 at the front in the traveling direction. The direction can be changed within a range of degrees. Therefore, it is possible to get over walls and rubble.
FIG. 9 shows an actual use state of the embodiment of FIG.
This example shows a state in which the airtight tube 2 of the pneumatic extension type tube device of the present invention advances between rubbles according to the guide of the guide rod 21 at the tip. The guide bar 21 may be provided at the end of the exploration device 7 provided at the distal end of the tube in the embodiment shown in FIGS.
【The invention's effect】
As described above, in the present invention, the airtight tube is folded inward from the tip to form a double tube structure, high-pressure air is introduced into the tube and inflated, the inner tube is extended to push back the folded portion, The folded portion which is the tip is stretched forward. As a result, the positions of the tips of the rod-like airtight tubes change one after another without sliding on the moving surface, and the tips move. In this case, the airtight tube is flexible and easily deforms according to the external pressure even when it is inflated with high-pressure air, so even if the tip hits an obstacle while moving, the path is easily changed by the external pressure, and the rubble It is possible to proceed following the path formed by the above.
Further, one end of the flexible airtight tube is attached to the airtight casing, the other end of the airtight tube is folded inward to double the tube, and the folded end is connected to the airtight casing. According to the configuration in which the airtight tube is wound around the reel while being fixed to the inner reel, and the airtight tube is unwound from the reel and extended by introducing high-pressure air into the airtight casing. Can be folded into a double tube structure and wound around a reel. High-pressure air can be introduced into the tube to inflate it, and the reel can be unwound to extend the inner tube. Thereby, the folding | returning part can be drawn | fed out sequentially and the folding | returning part which is a front-end | tip part can be extended ahead. As a result, the positions of the tips of the rod-like airtight tubes change one after another without sliding on the moving surface, and the tips move. In this case, since the airtight tube is flexible and deforms according to the external pressure even in a state inflated with high-pressure air, even if the tip hits an obstacle while moving, the course is easily changed by the external pressure, It is possible to proceed following the formed path.
Further, according to the configuration in which the exploration device is provided in the folded portion of the airtight tube and the cable connected to the exploration device is wound around the reel together with the airtight tube, the exploration device such as a camera is attached to the folded portion that is the tip of the airtight tube. It can be provided and moved. Further, a cable such as a video signal line or an operation line of the camera can be wound around the reel together with the airtight tube, and can be pulled out or pulled in from the casing according to the operation of the airtight tube.
Further, according to the configuration in which the cable take-up reel is provided in the search device, the search device can always be held at the tip of the tube without slackening the cable.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of basic operation of an embodiment of the present invention.
FIG. 2 is a configuration explanatory diagram of an embodiment of the present invention.
FIG. 3 is a fragmentary perspective view of an embodiment of the present invention.
FIG. 4 is a cutaway perspective view of a main part of another embodiment of the present invention.
FIG. 5 is an operation explanatory diagram of the embodiment of FIG. 4;
6 is an explanatory diagram of a main part configuration of the embodiment of FIG. 4;
FIG. 7 is an explanatory diagram of handle operation according to the embodiment of the present invention.
FIG. 8 is an explanatory diagram of another embodiment of the present invention.
9 is an explanatory diagram of a use state of the embodiment of FIG.
[Explanation of symbols]
1: pneumatic extension type tube device, 2: airtight tube, 2a: outer tube,
2b: inner tube, 2c: folded portion, 3: airtight casing,
4: Tube take-up reel, 5: One end of the airtight tube,
6: the other end of the airtight tube, 7: exploration device, 8: cable,
10: Rotating shaft, 11: High pressure air inlet / outlet, 13: Obstacle, 14: Handle
14a: handle lever, 15: slip ring, 16: airtight cover,
17: Cable take-up reel, 18: Spring, 19: Gear, 20: Claw,
21: Guide rod, 22a, 22b: Obstacle.

Claims (4)

One end of a flexible airtight tube is attached to the airtight casing, the other end is closed and the end is folded inward to form a double structure for the airtight tube, and high pressure air is introduced into the airtight casing. A pneumatic stretchable tube device characterized in that, when introduced, the double structure portion is pushed out and the folded portion is extended outward. One end of a flexible airtight tube is attached to the airtight casing, the other end of the airtight tube is folded inward to double the tube, and the folded end is connected to the inside of the airtight casing. An air pressure-expandable tube device that is fixed to a reel, winds the airtight tube around the reel, and introduces high-pressure air into the airtight casing to unwind and extend the airtight tube from the reel. The pneumatic extension type tube device according to claim 2, wherein an exploration device is provided at a folded portion of the airtight tube, and a cable connected to the exploration device is wound around the reel together with the airtight tube. The pneumatic extension tube device according to claim 3, wherein a cable take-up reel is provided in the exploration device.

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