JP4649624B2 - Metal gas container inner wall rust removal sphere removal tool and method - Google Patents

Description

  The present invention relates to a tool and method for taking out a sphere placed in the metal gas container for removing rust on the inner wall of the metal gas container.

  If rust is generated on the inner wall of a metal gas container during re-inspection of a used metal gas container (for example, a high-pressure gas container), a rust-removing sphere (for example, iron) is placed in the metal gas container to remove the rust. Sphere). This sphere needs to be taken out of the metal gas container after the rust has been removed. Conventionally, the work for removing the rust-removing sphere has been based on a 1000-sheet insertion / removal system.

  In order to take out a sphere by inserting / removing it in a conventional manner, it is not possible to perform efficient work unless it is a maintenance person who has acquired skilled skills. In many cases, half of the man-hour (time) required to remove rust. The degree is spent for taking out the rust-removing sphere. In addition, the conventional method has a problem that the burden on the wrist, elbow and the like is large, and fatigue tends to accumulate.

  The present invention has been made in view of such a situation, and an object of the present invention is to enable a metal gas container inner wall rust removing sphere to be removed easily and in a shorter time than the conventional method. Tool and method for removing rust for metal wall inner wall of metal gas container, which can significantly reduce the maintenance time of rust and can reduce the physical burden and fatigue associated with the work for taking out sphere for rust removal Is to provide.

One embodiment of the present invention is a tool for removing a metal gas container inner wall rust removing sphere. This tool
A pipe portion having an opening or a notch formed on the outer peripheral surface from the front end side, and a handle portion attached to the proximal end side of the pipe portion ,
When the pipe portion is inserted into the metal gas container from the front end side through the valve attachment port of the metal gas container, the opening or the notch is in the metal gas container, and the metal gas container The pipe part can be rotated around the pipe part in the metal gas container by turning the handle part up to the vicinity of the outlet, and the pipe part can be rotated with respect to the metal gas container. Ru removable der outside the metallic gas container rust removal for spheres of the metallic gas container through the inside of the opening or the notch and the pipe section without relatively moving in the axial direction.

  The tool of a certain aspect WHEREIN: The said pipe part may be formed with the material softer than the valve attachment port of the said metal gas container.

Another aspect of the present invention is a method for taking out a metal gas container inner wall rust-removing sphere. This method
Using a tool comprising a pipe part having an opening on the outer peripheral surface or a notch from the front end side and a handle part attached to the base end side of the pipe part, the sphere for removing rust on the inner wall of the metal gas container It is a method of taking it out of a metal gas container,
A pipe portion inserting step of inserting the pipe portion of the valve mounting hole of the metallic-made gas container from the distal end side,
Pipe part rotation that rotates the pipe part around the pipe part in the metal gas container by rotating the handle part while holding the metal gas container so that the valve mounting port is on the lower side. It possesses a step,
When the pipe part insertion step is performed, the opening or the notch is in the metal gas container and reaches the vicinity of the outlet of the metal gas container,
In the pipe part rotation step, the rust removing sphere in the metal gas container is moved to the opening or the notch and the notch and the pipe part without moving the pipe part relative to the metal gas container in the axial direction of the pipe part. Take out the metal gas container through the inside of the pipe part .
Here, the rust removing sphere to be taken out may be a metal sphere or a hard sphere made of a material other than metal.

  It should be noted that any combination of the above components is also effective as an aspect of the present invention.

  According to the present invention, the metal gas container inner wall rust-removing sphere can be removed easily and in a shorter time than the conventional method, and the maintenance time of the metal gas container can be greatly shortened, Furthermore, it is possible to reduce the physical burden and fatigue associated with the work for removing the rust-removing sphere.

  Hereinafter, as a preferred embodiment of the present invention with reference to the drawings, an iron ball removal tool and method (hereinafter, “iron ball removal tool” and “iron ball removal method”) for removing rust on the inner wall of a high-pressure gas container will be described in detail. To do. In addition, the same code | symbol is attached | subjected to the same or equivalent component, member, etc. which are shown by each drawing, and the overlapping description is abbreviate | omitted suitably. In addition, the embodiments do not limit the invention but are exemplifications, and all features and combinations thereof described in the embodiments are not necessarily essential to the invention.

  FIG. 1 is a front view of an iron ball removal tool 10 according to an embodiment of the present invention, FIG. 2 is a plan view thereof, and FIG. 3 is a right side view thereof. FIG. 4 is an overall view showing a state where the iron ball extraction tool 10 is inserted into a high-pressure gas container 50 as a metal gas container. FIG. 5 is an image diagram of replacement / extraction of iron balls in the high-pressure gas container 50 by the iron ball extraction tool 10.

  The iron ball removal tool 10 includes a handle portion 12, a shaft portion 13, an arm portion 14, and a pipe portion 16. A notch 22 is formed on the outer peripheral surface of the pipe portion 16 from the distal end side toward the proximal end side. The notch 22 has a sufficiently larger width than the diameter of the iron ball 20 (see FIG. 4 or 5) as a sphere to be taken out. Further, as shown in FIG. 4, the notch 22 is inserted into the high-pressure gas container 50 when the pipe portion 16 is inserted into the high-pressure gas container 50 from the distal end side through the valve attachment port 52 of the high-pressure gas container 50. It is the length that reaches the part (near the exit). By inserting the pipe portion 16 into the high pressure gas container 50, a passage for taking out the rust-removing iron ball 20 in the high pressure gas container 50 to the outside of the high pressure gas container 50 is secured. The pipe part 16 is formed of a material softer than the valve mounting port 52 of the high-pressure gas container 50. For example, when the high-pressure gas container 50 and its valve attachment port 52 are made of iron, the pipe portion 16 is made of copper. This is so as not to crush the screw at the inlet of the high-pressure gas container 50 (valve mounting port 52).

  The arm portion 14 is attached to the base end of the pipe portion 16 perpendicularly to the pipe portion 16, the shaft portion 13 is fixed to the distal end of the arm portion 14, and the handle portion 12 is rotatably attached to the distal end of the shaft portion 13. That is, the handle portion 12 is attached to the proximal end side of the pipe portion 16 via the arm portion 14 and the shaft portion 13. When the handle portion 12 is rotated, for example, in the direction of the arrow in FIG. 4, the pipe portion 16 rotates in the same direction around the pipe portion 16.

  Hereinafter, a method of extracting the rust-removing iron ball 20 in the high-pressure gas container 50 to the outside of the high-pressure gas container 50 using the iron ball extraction tool 10 (iron ball extraction method) will be described. This iron ball removal method has the following two steps.

  -Pipe part insertion process: The pipe part 16 of the iron ball extraction tool 10 is inserted from the valve attachment port 52 of the high-pressure gas container 50 from the tip side. By this step, a passage for taking out the iron ball 20 from the high-pressure gas container 50 is secured.

  -Pipe part rotation process As shown in FIG. 4, the handle part 12 of the iron ball extraction tool 10 is rotated in the direction of the arrow in FIG. 4 while holding the high-pressure gas container 50 so that the valve mounting port 52 is on the lower side. Thus, the pipe part 16 is rotated in the high-pressure gas container 50 around the pipe part 16 as an axis. By this step, the iron balls 20 in the high-pressure gas container 50 are sequentially taken out of the high-pressure gas container 50 via the pipe portion 16 (released to the outside from the opening on the base end side of the pipe portion 16). At this time, the rotation of the pipe part 16 first causes the iron balls indicated by A and B in FIG. 5 to be taken into the pipe part 16, and the iron balls indicated by C, D and E are brought closer to the pipe part 16 by gravity. . The iron ball 20 is continuously taken out by such a continuous movement.

  According to the present embodiment, the following effects can be achieved.

(1) Since the notch 22 is formed in the pipe part 16 of the iron ball extraction tool 10, the iron ball in the high pressure gas container 50 is inserted with the pipe part 16 inserted into the high pressure gas container 50 as shown in FIG. 20 can be easily taken into the pipe portion 16 through the notch 22 and taken out to the outside.

(2) In the pipe portion rotation process, the rotation of the pipe portion 16 and the action of gravity promote the replacement of the iron ball 20 in the high-pressure gas container 50 as illustrated in FIG. It can be taken out of the high-pressure gas container 50 well.

(3) A series of operations can be performed quickly because it is simpler than a conventional one-sheet insertion / extraction method, and the maintenance time of the high-pressure gas container 50 can be shortened. In addition, the degree of efficiency is less affected by the skills and experience of maintenance personnel, and the difference in the removal time between maintenance personnel is reduced. In addition, there is little burden on the wrist and elbow and it is hard to get tired.

(4) Since the pipe part 16 is formed of a softer material than the valve mounting port 52 of the high-pressure gas container 50, the screw of the valve mounting port 52 is not easily crushed.

  The present invention has been described above by taking the embodiment as an example, but it will be understood by those skilled in the art that various modifications can be made to each component and each step of the embodiment within the scope of the claims. is there. Hereinafter, modifications will be described.

  In the embodiment, the notch 22 is formed on the outer peripheral surface of the pipe part 16 so that the opening for taking the iron ball 20 into the pipe part 16 is widened. However, in the modified example, the opening is replaced with the notch 22 and the opening is the outer periphery of the pipe part 16. It may be formed on the surface. In this case, the opening has a diameter sufficiently larger than the diameter of the iron ball 20.

  In the embodiment, the handle portion 12 is attached to the base end side of the pipe portion 16 via the arm portion 14, but in a modified example, a ring-shaped handle is attached to the base end portion of the pipe portion 16 instead. The handle portion 12 may be used. In this case, the arm part 14 becomes unnecessary.

  In the embodiment, the iron sphere is exemplified as the rust removing sphere for the inner wall of the metal gas container. However, in a modified example, a metal sphere other than the iron sphere or a hard sphere made of other materials may be used.

It is a front view of the iron ball taking out tool concerning an embodiment of the invention. It is the same top view. It is the same right view. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall view of a state in which an iron ball extraction tool according to an embodiment of the present invention is inserted into a high-pressure gas container as a metal gas container. It is an image figure of substitution and extraction of an iron ball in a high pressure gas container by an iron ball extraction tool concerning an embodiment of the invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Iron ball extraction tool 12 Handle part 13 Shaft part 14 Arm part 16 Pipe part 20 Iron ball 22 Notch 50 High pressure gas container 52 Valve attachment port

Claims (4)

A pipe portion having an opening or a notch formed on the outer peripheral surface from the front end side, and a handle portion attached to the proximal end side of the pipe portion ,
When the pipe portion is inserted into the metal gas container from the front end side through the valve attachment port of the metal gas container, the opening or the notch is in the metal gas container, and the metal gas container The pipe part can be rotated around the pipe part in the metal gas container by turning the handle part up to the vicinity of the outlet, and the pipe part can be rotated with respect to the metal gas container. Ru removable der outside the metallic gas container rust removal for spheres of the metallic gas container through the inside of the opening or the notch and the pipe section without relatively moving in the axial direction, a metallic gas container inner wall Rust removal sphere removal tool.   The tool according to claim 1, wherein the pipe portion is formed of a material softer than a valve attachment port of the metal gas container. Using a tool comprising a pipe part having an opening on the outer peripheral surface or a notch from the front end side and a handle part attached to the base end side of the pipe part, the sphere for removing rust on the inner wall of the metal gas container It is a method of taking it out of a metal gas container,
A pipe portion inserting step of inserting the pipe portion of the valve mounting hole of the metallic-made gas container from the distal end side,
Pipe part rotation that rotates the pipe part around the pipe part in the metal gas container by rotating the handle part while holding the metal gas container so that the valve mounting port is on the lower side. It possesses a step,
When the pipe part insertion step is performed, the opening or the notch is in the metal gas container and reaches the vicinity of the outlet of the metal gas container,
In the pipe part rotation step, the rust removing sphere in the metal gas container is moved to the opening or the notch and the notch and the pipe part without moving the pipe part relative to the metal gas container in the axial direction of the pipe part. A metal gas container inner wall rust-removing sphere removal method, wherein the metal gas container inner wall rust-removing sphere is extracted outside the metal gas container through the inside of a pipe portion . The method according to claim 3, wherein the rust removing sphere to be taken out is a metal sphere or a hard sphere made of a material other than metal.

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