KR20130003840U - Transmitter capillary tube protector - Google Patents

Abstract

The present invention relates to a pipe type protector of capillary tube for level distance measurement. The purpose is to prevent defects such as disconnection from occurring at the joint of the observation flange.
The pipe type protector of the level telemetry capillary according to the present invention is a pipe type protector of the level telemetry capillary, which is detachably coupled to a tank side flange formed in a tank in which fluid is stored via a capillary side flange. Both sides of the direction are formed in an open tubular shape and the capillary is wired therein, and one side is fixed to the capillary flange.

Description

Pipe-type protectors for capillary tubes for level telemetry {TRANSMITTER CAPILLARY TUBE PROTECTOR}

The present invention relates to a pipe-type protector of a capillary tube for level distance measurement, and more particularly, even if a worker inadvertently grabs a capillary tube and carries a capillary tube and capillary flange during the process of handling the capillary tube with the capillary flange for level measurement. The present invention relates to a pipe-type protector of a capillary tube for level distance measurement, in which damage such as disconnection is not generated at the coupling portion of the capillary tube and the capillary side flange.

Ships and offshore structures are equipped with tanks (collectively referred to as containers and stand pipes), such as vessels and stand pipes, in which a certain amount of liquid is stored.

In addition, a level transmitter may be used as a measuring means for measuring the level (level) of the liquid in the tank.

The level transmitter outputs the pressure detected by the pressure sensor installed in the tank as a linear electric signal using the point that the liquid hydraulic pressure in the tank changes with the level, and displays the level according to the signal magnitude, and the liquid filled in the tank. The microdisplacement caused by buoyancy of the displacer is transferred to the load cell through the torsion bar and output as a linear electric signal to display the level according to the signal magnitude.

On the other hand, when measuring the level using the level transmitter far from the tank, a capillary tube is used as a medium for connecting the tank and the level transmitter.

1 is a schematic diagram showing the installation structure of the capillary for measuring the level according to the prior art, a tank (1), in which the fluid is stored therein (general term, the tank includes a stand pipe, vessel, etc. collectively) One or more tank side flanges 2 are formed in the periphery of the tank 1 in communication with the inside of the tank 1, and the tank side flanges 2 may include a flushing ring 4 (which may also include a flushing valve). The capillary side flange 3 is detachably coupled via the fastener, and a capillary tube 5 is fixed to the capillary side flange 3 so as to communicate with the tank 1. Capillary tube 5 ), The connection between the capillary side flange (3), the connection between the capillary (5) and the level transmitter and the level measuring method are well known, and thus detailed description thereof will be omitted.

That is, the capillary tube 5 is integrated with the capillary side flange 4, and the capillary side flange 4 is coupled to the tank side flange 2 during the level (tuning) operation, and the capillary side flange after the level (tuning) operation is completed. Remove (4) from the tank side flange (2).

However, according to the capillary tube for level measurement according to the prior art, since the capillary tube 5 and the capillary side flange 4 are integrated, for example, the capillary tube 5 and the capillary tube flange 4 when the capillary tube 5 is handled. ), The capillary tube 5 and the capillary side flange 4 are conveyed together, and at this time, it is convenient to hold the capillary tube 5 so that the operator grasps the capillary tube 5 and the capillary tube 5 and the capillary side flange ( 4) carry together.

That is, as shown in FIG. 2, when the capillary tube 5 is held, the capillary side flange 4 is directed to the bottom by weight. At this time, the capillary tube having a flexible and dried state due to the weight of the capillary side flange 4 ( 5) expands tightly, and a large load is transferred to the coupling portion of the capillary tube 5 and the capillary flange 4, and the capillary tube is weak because the coupling structure of the capillary tube 5 and the capillary flange 4 is not strong enough to withstand the load. There is a problem that the engaging portion of 5 and the capillary side flange 4 are broken.

In addition, since the capillary tube 5 is installed to be exposed to the outside, the operator and the equipment may collide with the capillary tube 5 coupling part, and at this time, the capillary tube 5 may be detached from the coupling portion of the capillary tube 5 or There is also a problem that part is broken.

Republic of Korea Utility Publication No. 1998-0062725

The present invention is to solve the problems described above, the capillary and capillary side even if the operator inadvertently holding the capillary and carrying the capillary and capillary flange while handling the capillary tube with the capillary flange for differential pressure level measurement It is an object of the present invention to provide a pipe-type protector of a capillary for level telemetry so that damage such as disconnection does not occur at the joint portion of the flange.

Another object of the present invention is to prevent damage such as disconnection of the capillary tube even when an impact is applied by the operator and the equipment to the capillary coupling portion.

The pipe type protector of the level telemetry capillary according to the present invention is a pipe type protector of the level telemetry capillary, which is detachably coupled to a tank side flange formed in a tank in which fluid is stored via a capillary side flange. Both sides of the direction is formed in an open tubular shape, the capillary is wired therein, and one side is fixed to the capillary flange.

According to the pipe-type protector of the capillary for level distance measurement according to the present invention, even if the capillary is held without holding the capillary flange while handling (transporting) the capillary for level (tuning) work, it prevents defects such as disconnection of the capillary tube through the protector. The cost of repairing the capillary tube can be reduced, and the inconvenience of the operator having to handle the flange must be eliminated.

In addition, even if the operator and the equipment hit the capillary, the load is not directly applied to the capillary by the protector, thereby preventing deformation of the capillary tube and damaging the capillary joint.

1 is a state diagram of the installation of a capillary tube for level measurement in general.
Figure 2 is a state of handling of the capillary for level remote measurement according to the prior art.
Figure 3 is a perspective view of the installation state of the pipe-type protector of the capillary for level remote measurement according to the present invention.
Figure 4 is a side view of the installation state of the pipe-type protector of the capillary for level remote measurement according to the present invention.
5 is a perspective view of the non-slip gripping portion applied to the pipe-type protector of the capillary for level remote measurement according to the present invention.

3 and 4, the pipe-type protector 10 of the capillary for level remote measurement according to the present invention is formed in a tubular shape so that the capillary tube 5 is wired therein, and is made of a material having no flexibility, for example, steel ( steel).

The pipe type protector 10 is fixed at a position where no leakage of fluid in the tank 1 occurs. For example, the pipe protector 10 is fixed to the circumference of the capillary flange 4 with a band or a known clamp, and the other side is a capillary tube. It is fixed by the band etc. to the periphery of (5).

When one side of the protector 10 is connected to the capillary tube 5, the load will be transferred to the capillary tube 5 through the protector 10 as the worker holds the protector 10, so that one side of the protector 10 may be the capillary tube 5. It is not desirable to connect directly).

The protector 10 can be any length that is installed only in the part where the operator grasps the capillary tube 5 when carrying the capillary tube 5 and the capillary side flange 4, rather than being installed in every part of the capillary tube 5.

The pipe type protector 10 may have the other side not fixed to the capillary tube 5 depending on the material. That is, if the pipe-type protector 10 is made of steel, it is possible to maintain the installation state without being fixed to the capillary tube 5.

Pipe-type protector 10 according to the present invention is formed with an open portion 11 in the longitudinal direction in the circumference. If there is no opening 11, the pipe-type protector 10 may be inserted from one side of the capillary tube 5 and then fixed to the capillary side flange 4, but if the opening 11 is open, Since the capillary tube 5 can be wired through the part 11, there is an advantage that can be easily applied.

That is, the pipe type protector 10 may also be referred to as a handle because it functions as a handle.

Accordingly, the non-slip gripping portion 12 (shown in FIG. 5) of the concave-convex type may be formed at the circumference of the pipe-type protector 10 so that no slip occurs during gripping.

According to the present invention, the capillary tube 5 is transported to be installed on the tank side flange 2 of the tank 1 for leveling (tuning), or after the tuning operation is completed, the capillary tube 5 is detached from the tank 1 When the operator grasps the capillary tube 5 without holding the capillary flange 4 in the process of transport, the capillary flange 4 is prevented even if the operator grasps the capillary tube 5 to prevent damage by the heavy capillary flange 4. It will catch the portion close to), that is, will catch the pipe-type protector 10 surrounding the capillary (5).

Therefore, as in the prior art, even if the capillary side flange 4 faces downward, the capillary tube 5 is not held but substantially the pipe type protector 10, and the pipe type protector 10 is attached to the capillary side flange 4. It is firmly fixed so that no load is transferred to the coupling portion of the capillary 5 and the capillary side flange 4.

Therefore, since the capillary tube 5 and the capillary side flange 4 remain in the engaged state, no damage occurs in the coupling portion of the capillary tube 5 and the capillary tube 5.

In addition, the pipe-type protector 10 is fixed to the capillary side flange 4 through its own strength when a blow is applied to the joints of the capillary tube 5 and the capillary side flange 4 by an operator or equipment. Since it prevents damage such as disconnection of the capillary tube (5).

1 tank, 2 tank side flange
4 capillary side flange, 5 capillary tube
10: pipe type protector, 11: opening part

Claims (3)

As a pipe-type protector (10) of a capillary tube (5) for level measurement detachably coupled to a tank side flange (2) formed in a tank (1) in which fluid is stored, via a capillary tube flange (4),
The lengthwise side is formed in an open tubular shape so that the capillary is wired inside, one side is fixed to the capillary side flange pipe type protector, characterized in that the capillary. The pipe type protector of claim 1, wherein the protector is formed in a circumferential direction and includes an opening portion (11) through which the capillary tube enters and exits. The pipe-type protector of claim 1 or 2, wherein the protector includes a non-slip grip portion (12) at its periphery.

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