KR100553571B1 - A changeable mandrel for inside diameter measurement - Google Patents

Abstract

The present invention relates to a variable mandrel for measuring the inner diameter for confirming whether the pipeline is buried underground, the conventional mandrel is shaped to a certain size in accordance with the diameter of the tube, when the tube is deformed beyond the diameter of the mandrel This was impossible, even if the line was made was difficult to grasp the degree of damage.

The present invention is provided with a cylindrical body (10) provided with a connecting ring (11) for connecting the line (2) in front and rear, and rotatably provided in the body (10), from a front end of the body (10) A plurality of variable wings 20 and variable wings 20 which are formed to extend in the rearward direction of the body 10 and extend in the rearward direction, and are provided with guide grooves 21 having locking protrusions 22 on their inner circumferential surfaces at both ends thereof. It is positioned between the two ends are fitted into the guide groove 21, consisting of a connecting plate 30 having a locking projection 22 and a corresponding fastening projection 31, thereby reducing the size freely deformed according to the degree of deformation of the pipe It was made possible to make the barrel easy, and after passing, it was possible to measure the minimum diameter of the tube by maintaining the deformed size.

Description

Variable Mandrel for Inner Diameter Measurement {A CHANGEABLE MANDREL FOR INSIDE DIAMETER MEASUREMENT}

1 is a schematic diagram showing a pipeline exploration method using a conventional mandrel,

2 is a perspective view of a variable mandrel according to the present invention;

3 is a cross-sectional view taken along the line A-A of FIG.

Figure 4 is a rear view of the variable mandrel showing the action between the variable blade and the connecting plate,

5 is a schematic use state diagram of the variable mandrel according to the invention.

<Description of the symbols for the main parts of the drawings>

One ; Tube 2; Line

10; Cylindrical body 11; Link

20; Variable wing 21; Guide home

22; Jamming 23; Rubber Packing

30; Connecting plate 31; Fastening protrusion

The present invention relates to a mandrel (Mandrel) used to check whether the line is buried underground in the communication facility site, in particular, the line is easy to be configured by varying the degree of damage of the line, and the minimum diameter inside the line The present invention relates to a variable mandrel for internal diameter measurement.

Recent population growth and industrial development has led to rapid urbanization, which continues to increase the demand for urban infrastructure such as telecommunications, electricity, and water and sewage systems. It is getting saturated.

Meanwhile, problems such as traffic disruption and pollution caused by construction have become social problems, making it more difficult to construct new facilities.In addition to the existing underground pipes currently being used, there are a lot of spare pipes to be used in the future. Although it is buried, it is difficult to use as it is damaged due to lack of maintenance and frequent excavation work. Therefore, in order to reduce economic and time loss due to facility investment, it is necessary to understand the degree of damage of the existing reserve pipe and to properly repair and use it.

At present, the pipes installed at the telecommunication facility site are laid out with a spare pipe to replace or expand the aging cable in accordance with the increase in subscribers. At this time, the mandrel test (Mandrel test) is commonly used as a method of checking whether the cable can be installed in the pipeline.

1 illustrates a conventional pipe inspection method using a mandrel test method.

In the mandrel test method, the pipe (1) is first penetrated by a line (2) such as nylon string and inserted into the opposite manhole, and then the mandrel (3) having a diameter of 0.9D (D: inner diameter of the pipe) is suspended at the end thereof. By pulling and passing, the pipe 1 is checked to maintain at least 90% of its original inner diameter.

A long rod-shaped barrel (not shown) is used for the barrel of the pipe line 1, and the work of pulling the mandrel 3 utilizes a winch or labor of a worker. For reference, a defective conduit refers to a conduit in which the mandrel cannot pass to the opposite manhole through the mandrel test method.

The conventional mandrel (3) used in the barrel in this way is used to form a fixed size according to the diameter of the tube, so that the tube is not possible when the tube 1 is deformed beyond the diameter of the mandrel (3) disadvantages There was this.

That is, a plurality of defective positions may exist in one test section, but the test method does not allow the mandrel 3 to proceed further from the first defective position during the test. Only the bay is known, but the rest of the section is not available for exploration.

In addition, since the mandrel 3 is usually designed to be 90% of the diameter of the inner diameter of the tube 1, the mandrel 3 can pass through even if there is a slight damage. Therefore, the damage degree of the pipe 1 cannot be known.

Therefore, due to the above problems, it is not possible to determine the repair point, repair method, etc. of the pipeline, so it is impossible to establish an accurate repair plan through the test results.

The present invention is to solve the conventional problems as described above, the size can be freely reduced and passed according to the degree of deformation of the inner diameter of the pipe, and after passing through it to measure the minimum diameter of the pipe by maintaining the deformed size as it is The purpose is to provide a variable mandrel that can be.

The present invention for achieving the above object, and the cylindrical body is provided with a connecting ring for the connection of the line through the front and rear; It is rotatably provided with respect to the body, and extends in a predetermined inclination from the front end of the body is formed extending in the rear direction of the body, a plurality of variable wings provided with a guide groove having a locking projection on its inner peripheral surface; Located between the variable wings, both ends are fitted into the guide groove, characterized in that consisting of a connecting plate having a locking projection and the corresponding locking projection.

According to a preferred embodiment of the present invention, the opening of the guide groove is formed at the rear end of the variable blade so that the connecting plate can be inserted into or removed from the guide groove through this portion.

When the variable mandrel according to the present invention passes through the narrowed conduit, the variable blade is folded in the body direction, the connecting plate installed between the variable blade is inserted into the guide groove of the variable blade to reduce the overall size You pass through the narrowed part of. At this time, since the connecting plate inserted into the guide groove is fixed in a state where the engaging protrusion of the guide groove inner circumference and the connecting plate are coupled to each other, the reduced size can be maintained as it is.

Such a characteristic configuration of the present invention and its effects will be more apparent through the detailed description of the embodiments with reference to the accompanying drawings.

2 to 5 show a variable mandrel and its use state according to the invention.

As shown in Figure 2, the variable mandrel according to the present invention is provided with a cylindrical body (10) and a rotatable body (10) provided with a connecting ring (11) for connecting the line (2) in front and rear sides. As it is, a plurality of guide grooves 21 having a locking projection (see Fig. 4) is provided on the inner circumferential surface is formed extending from the front end of the body 10 to a predetermined inclination extending in the rear direction of the body 10, the inner peripheral surface Two variable wings 20 and the variable blade 20 is positioned between the two ends are fitted into the guide groove 21 and is composed of a connecting plate 30 having a locking projection (see Fig. 4) corresponding to the locking projection.

Body 10 is made of a much smaller diameter than the conventional mandrel, it is manufactured in the form of a hollow to reduce the weight. In addition, the front and rear of the body 10 is provided with a connecting ring 11, which is connected to the line 2 for pulling the mandrel.

The variable wing 20 has a shape such as a thin plate surrounding the outside of the body 10 while maintaining a constant distance, as shown in Figure 3 one end portion is connected to the outer periphery of the front end of the body 10 Rotating around the connecting portion has a structure closer to or away from the body (10). In the present invention, such a variable wing 20 is provided with a plurality along the circumferential surface of the body 10 to form an outer body with a connecting plate 30 positioned between the variable wing 20. have.

In addition, as shown in FIG. 4, each of the variable wings 20 is provided with guide grooves 21 at both ends, and both ends of the connecting plate 30 positioned between the variable wings 20 are fitted therein. You lose. The connecting plate 30 is coupled with the locking protrusion 22 formed on the inner circumference of the guide groove 21 and the locking protrusion 31 formed on the connecting plate 30 in correspondence with the locking protrusion 22. In order to prevent the deviation from the), the coupling structure of the engaging projection 22 and the fastening projection 31 is possible to insert the connecting plate 30 into the guide groove 21, but the movement in the opposite direction It is not allowed. Therefore, when an external force acts on the variable wing 20, the variable wing 20 is in close contact with the body 10, the size of the circle formed by the variable wing 20 is reduced, accordingly the connecting plate 30 Is further inserted into the guide groove 21.

On the other hand, since the connecting plate 30 inserted into the guide groove 21 as described above cannot be pulled outwards, the opening of the guide groove 21 is formed at the rear end of the variable wing 20, thereby connecting the connecting plate 30. Allow (30) to be removed or reinserted. That is, when removing or inserting the connecting plate 30, the intended purpose can be achieved by moving the connecting plate 30 in the longitudinal direction of the body 10, and is provided by having a fixing protrusion (not shown) inside the opening. The connecting plate 30 can be prevented from naturally falling off. In addition, reference numeral 23 denotes a rubber packing for preventing foreign matter from entering the guide groove 21.

Such a variable mandrel according to the present invention can determine the initial size to the size corresponding to the diameter size of the conduit 1 to be explored by moving the variable wing 20 away from the body 10 or vice versa.

Therefore, when the size of the conduit 1 is in a normal state without passing through it, and when the inner diameter of the conduit passes through the narrowed portion, the variable wing 20 portion is in contact with the protruding portion of the inner periphery of the conduit 1. The connecting plate 30 is folded in the direction of the body 10, and at the same time, the connecting plate 30 installed between the variable blades 20 is inserted into the guide groove 21 of the variable blades 20 so as to reduce the overall size of the narrowed portion. Will pass. At this time, the connecting plate 30 inserted into the guide groove 21 is fixed by a coupling between the locking protrusion 22 of the inner circumference of the guide groove 21 and the fastening protrusion 31 of the connecting plate 30, so that the pipe line ( Even after passing through the narrow part of 1), the reduced size can be maintained.

On the other hand, when there are a large number of defective points in the conduit 1, the mandrel maintains the size of the state that has passed through the minimum diameter portion, thereby finding out the minimum diameter that has been deformed.

As described above, the variable mandrel for measuring the inner diameter according to the present invention is easily reduced in size by freely shrinking and deforming in accordance with the degree of deformation of the inner diameter of the pipe, and after passing, the minimum diameter of the pipe can be measured by maintaining the deformed size as it is. It allows you.

Therefore, it is possible to easily carry out the line operation, there is an advantage that can be designed efficiently in establishing the maintenance plan of the pipeline.

Claims (3)

In the mandrel for exploring whether the pipe buried underground, It is made of a minimum diameter that can be maintained, and the front and rear cylindrical body 10 is provided with a connecting ring 11 for the connection of the line (2); Is rotatably provided with respect to the body 10, extending in a predetermined inclination from the front end of the body 10 is formed extending in the rear direction of the body 10 in parallel with the body 10 on one side A plurality of variable blades 20 having guide grooves 21 having locking protrusions 22 on their inner circumferential surfaces; It is positioned between the variable blade 20 is fitted to both ends of the guide groove 21, consisting of a connecting plate 30 having a locking projection 31 corresponding to the locking projection 22 on one side. Variable mandrel for internal diameter measurement. According to claim 1, The guide groove 21 is a variable mandrel for measuring the inner diameter, characterized in that the opening is formed in the rear end of the variable wing (20) to be detachable through the connecting plate (30). The variable mandrel of claim 1, wherein a rubber packing (24) is installed at the inlet of the guide groove (21) to prevent foreign material from entering.

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