JPH04120352U - Inspection tool for elastic cylindrical bodies - Google Patents

Abstract

(57) [Summary] [Configuration] An outer cylinder membrane 3 formed of a high tensile strength fiber material,
A bottom closing plate 6 is attached to one end of the cylindrical structure 1 consisting of an inner cylindrical membrane 4 having elasticity and airtightness, which is disposed on the inner peripheral surface of the outer cylindrical membrane 3, and the cylindrical structure A lid 7 which is divided into a plurality of parts and has a hole 8 formed in the center thereof is attached to the head of the body 1, and a lid 7 which has a hole 11 formed in the center and which is divided into the plurality of parts. It is equipped with a holding plate 10 for integrally connecting and fixing the parts. [Effect] The cylindrical structure is composed of an outer cylinder membrane made of fiber material and an inner cylinder membrane made of synthetic rubber, so it can be folded and stored when not in use. In addition to being much easier to store and carry, the inspection workability is also much better than when using a

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

The present invention relates to an inspection tool for elastic cylindrical bodies, specifically rubber tubes. Ru.

0002

[Conventional technology]

Generally, when using a cylindrical rubber tube under high pressure, its airtightness and Safety needs to be inspected.

0003 By the way, this rubber tube is used to inspect such cylindrical rubber tubes. It is conceivable to use a metal pipe with a larger outer diameter than the aluminum tube. In this case, the object to be inspected, a rubber chip, is placed inside a metal pipe with one end closed. After inserting the tube, cover the opening of the metal pipe and insert the cover to complete the installation. Inject pressurized air into the rubber tube through the air inlet into the rubber tube. They went in and were inspected.

0004

[Problem that the idea aims to solve]

However, as mentioned above, when using metal pipes, handling is extremely difficult. is cumbersome and therefore can be carried to any location for easy inspection. The problem was that there was no.

[0005] Therefore, the present invention aims to provide an inspection tool for elastic cylindrical bodies that can solve the above problems. purpose.

[0006]

[Means to solve the problem]

In order to solve the above problems, the elastic cylindrical inspection tool of the present invention is designed to and an outer cylinder membrane formed of high tensile strength fiber material arranged diagonally, and this outer cylinder. A cylindrical structure consisting of a stretchable and airtight inner cylindrical membrane disposed on the inner peripheral surface of the membrane. A bottom closing plate is attached to one end of the structure, and the head of the cylindrical structure is divided into multiple parts. At the same time, a lid body with a hole formed in the center is attached, and a hole is formed in the center. At the same time, a pusher is provided for integrally connecting and fixing the lid body divided into multiple parts. It is equipped with a board.

[0007]

[Effect]

According to the above configuration, the object to be inspected, such as a rubber tube, is placed inside the cylindrical structure. After insertion, attach the lid body to the cylindrical structure and then apply pressure inside the rubber tube. Inject air etc. to check airtightness and safety.

[0008] When air leaks from the rubber tube, the cylindrical structure expands due to the leaked air. So you can easily detect leaks. Additionally, even if the rubber tube ruptures, the cylindrical structure is made of high tensile strength fibers. It is safe because it is configured.

[0009]

【Example】

An embodiment of the present invention will be described below with reference to FIGS. 1 to 3. The testing tool of this invention is placed inside a rubber tube (an example of an elastic cylindrical body) and has a Inject pressurized air through the installed injection valve to ensure its airtightness and safety This is to inspect.

0010 In FIGS. 1 to 3, 1 is for accommodating a rubber tube 2 for inspection. A cylindrical structure made of aramid fibers arranged longitudinally, circumferentially and diagonally. The configured outer cylinder membrane 3 and the inner cylinder membrane made of synthetic rubber arranged on the inner peripheral surface of this outer cylinder membrane 3. 4, and a pressing fiber material 5 wrapped around the outer periphery of the outer cylinder membrane 3, and the above-mentioned A circular bottom blocking plate 6 is attached to one end of the outer cylinder membrane 3, and the outer cylinder membrane 3 Attached to the other end is a circular lid 7 with a hole 8 formed in the center and divided into four parts. I'm being kicked.

[0011] Further, a plurality of stud bolts 9 are installed on the outer periphery of the surface of the lid body 7. Ru. Furthermore, this test tool has a hole 11 similar to the lid 7 in the center. A plurality of bolt holes 12 for inserting the embedded bolts 9 are formed on the peripheral edge, and , a holding plate 10 is provided for integrally joining the lid body 7 divided into four parts. .

0012 Note that the holes 8 and 11 provided in the lid 7 and the pressing plate 10 are made of rubber tips. The size is such that the injection valve 13 attached to the end of the tube 2 can be pulled out. has been done.

[0013] Next, a method for inspecting rubber tubes will be explained. First, open the lid 7 divided into four parts, and insert the rubber tube 2 to be inspected into the cylindrical structure. After inserting the lid body 1 into the interior of the lid body 1, the divided lid body 7 is put together.

[0014] After engaging the press plate 10 with the embedded bolt 9 of the lid body 7, tighten the nut. If the presser plate 10 is brought into close contact with the lid body 7, the four-part lid body 7 will be integrally connected. It will be combined.

[0015] Note that during the above work, the injection valve 13 of the rubber tube 2 is connected to the lid 7 and the injection valve 13 of the rubber tube 2. It is pulled out from the holes 8 and 11 of the holding plate 10. In this state, pressurized air is injected into the rubber tube 2 from the injection valve 13. , its airtightness and safety may be inspected.

[0016] If air leaks from the rubber tube 2, if the cylindrical structure 1 is made of fiber material, Because of this structure, the cylindrical structure 1 expands due to leaked air, making it easy to prevent leakage. I understand. Furthermore, even if the rubber tube 2 ruptures, the cylindrical structure 1 remains under high tensile strength. It is safe because it is made of strong fiber material.

[0017] The cylindrical structure 1 also includes an outer cylinder membrane 3 made of fibrous material and an inner cylinder made of synthetic rubber. Since it is composed of 4 membranes, it can be folded and stored when not in use. can.

[0018] Therefore, it is very easy to store and carry, and it is very easy to carry out inspection operations. His workmanship is also very good. In the above embodiment, the bottom closing plate 6, the lid body 7, and the pressing plate 10 are Although shown in the figure as a flat plate, it may also be bowl-shaped, for example like a mirror plate.

[0019]

[Effect of the idea]

As described above, according to the configuration of the present invention, a rubber tube or the like is placed inside the cylindrical structure. In order to inspect airtightness and safety by inserting the The cylindrical structure of the tube is made of fiber material, so if air leaks from the rubber tube, If the leak occurs, the cylindrical structure expands due to the leaked air, making it easy to detect leaks. . Additionally, even if the rubber tube ruptures, the cylindrical structure is made of high tensile strength fibers. It is safe because it is configured.

[0020] Furthermore, the cylindrical structure is composed of an outer cylindrical membrane made of fiber material and an inner cylindrical membrane made of synthetic rubber. Because of its structure, it can be folded and stored when not in use. Unlike traditional steel pipes, it is very easy to store and transport. It is easy to use, and the workability of inspection is also very good.

[Submission date] August 6, 1991

[Procedural amendment 1]

[Name of document to be amended] Specification

[Correction target item name] 0003

[Correction method] Change

[Correction details]

0003 By the way, there is no way to inspect such a cylindrical rubber tube under high pressure. , it is considered to use a metal pipe with a larger outer diameter than this rubber tube. It will be done. In this case, the object to be inspected, a rubber chip, is placed inside a metal pipe with one end closed. After inserting the tube, cover the opening of the metal pipe and insert the cover to complete the installation. Inject pressurized air into the rubber tube through the air inlet into the rubber tube. They went in and were inspected.

[Procedural amendment 2]

[Name of document to be amended] Specification

[Correction target item name] 0004

[Correction method] Change

[Correction details]

0004

[Problem that the idea aims to solve]

However, as mentioned above, when using metal pipes, handling is extremely difficult. is cumbersome and therefore can be carried to any location for easy inspection. In addition, when pressurized air is injected, the rubber tube is pressed against the inner surface of the metal pipe, which prevents air from leaking from the defective part. There was also the problem of not being able to get tested.

[Procedural amendment 3]

[Name of document to be amended] Specification

[Correction target item name] 0008

[Correction method] Change

[Correction details]

[0008] If air leaks from the rubber tube, the tubular structure is made of fibers, so This allows for reliable inspection without having to suppress leaks like in the case of metal pipes. It can be carried out. Additionally, even if the rubber tube ruptures, the cylindrical structure is made of high tensile strength fibers. It is safe because it is configured.

[Procedural amendment 4]

[Name of document to be amended] Specification

[Correction target item name] 0016

[Correction method] Change

[Correction details]

[0016] If air leaks from rubber tube 2, check the pressure attached to the inlet. This can be detected in the form of a drop in pressure by a meter. Also, rubber tube Even if 2 ruptures, the cylindrical structure 1 is made of high tensile strength fiber material. , is safe.

[Procedural amendment 5]

[Name of document to be amended] Specification

[Correction target item name] 0019

[Correction method] Change

[Correction details]

[0019]

[Effect of the idea]

As described above, according to the configuration of the present invention, a rubber tube or the like is placed inside the cylindrical structure. In order to inspect airtightness and safety by inserting the The cylindrical structure is made of fiber material, so it will not contain leaks even under high pressure. It is possible to test for leaks easily. Also, even if the rubber tube ruptures, , it is safe because the cylindrical structure is made of high tensile strength fiber material.

[Brief explanation of drawings]

FIG. 1 is a perspective view of a cylindrical structure according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view of a lid and a pressing plate of the cylindrical structure.

FIG. 3 is a partially cutaway side view of the rubber tube in the same embodiment.

[Explanation of symbols]

1 Cylindrical structure 2 Rubber tube 3 Outer cylinder membrane 4 Inner cylinder membrane 6 Bottom closure plate 8 Hole 9 Stud bolt 10 Holding plate 11 Hole 13 Injection valve

Claims (1)

[Scope of utility model registration request] Claims: 1. An outer cylindrical membrane formed of high tensile strength fiber material arranged in the longitudinal direction, circumferential direction, and diagonal direction, and a stretchable and airtight membrane provided on the inner circumferential surface of the outer cylindrical membrane. A bottom closing plate is attached to one end of a cylindrical structure consisting of an inner cylindrical membrane having 1. An inspection tool for an elastic cylindrical body, characterized in that it has a hole in the center thereof, and a holding plate for integrally connecting and fixing the plurality of divided lid bodies.