KR101934401B1 - Waterproof chamber of high pressure environment - Google Patents

Abstract

The present invention relates to a pressure-responsive tube (100) in which a passage communicating with the outside in a vertical direction is formed inside; A case 200 communicating with the passage of the pressure-responsive tube 100 and having a space in which an object is positioned; And a piston (500) sealing the passage of the pressure-responsive tube (100) and moving along the passage of the pressure-responsive tube (100) corresponding to an external pressure; Pressure watertight chamber (1000).

Description

[0001] The present invention relates to a high pressure waterproof chamber,

The present invention relates to a high-pressure waterproof chamber that prevents external fluid from flowing into a waterproof chamber by allowing the pressure inside the chamber to be controlled naturally in response to an external pressure.

In order to investigate seawater or groundwater, a measuring device including various sensors or a fluid sampling device such as a pump is put into a borehole of seawater or groundwater.

That is, a control unit interlocked with the sensor is located inside the waterproof chamber to measure the state of seawater or groundwater, or the power unit of the pump using the power unit is located.

At this time, it is very important to enhance the airtightness (waterproofness) of the waterproof chamber because the control device and the power unit housed in the waterproof chamber may cause malfunction due to infiltration of fluid.

An O-ring is installed at a portion of the waterproof chamber through which the power cable is penetrated, to enhance airtightness. The O-ring is connected to the internal pressure of the waterproof chamber and the external pressure The airtightness is lowered due to twisting, creeping and tearing due to the difference in the height of the waterproof chamber, which causes the fluid to penetrate the inside of the waterproof chamber, thereby causing not only a malfunction of the power unit but also a risk of damaging the power unit have.

Therefore, it is necessary to develop various waterproof chambers to solve the above-mentioned problems.

A related art is disclosed in Korean Patent Laid-Open Publication No. 2011-0060694, wherein a plurality of sampling unit units for sampling are connected to the inside of a well formed in the ground, and groundwater or carbon dioxide in the bottom of the well is pulled up to the top of the ground Wherein the unit unit for sampling is made of a synthetic rubber material and has a water pipe having an outer diameter of 20 mm or less; A connection pipe including a thread on the outer wall so as to be inserted into both ends of the water collection pipe; An underwater motor coupled to the connection pipe and including a suction hole therein to draw ground water or carbon dioxide into the water pipe; And a wire for supplying power to the submersible motor.

Korean Patent Publication No. 2011-0060694 (2011.06.08)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems of the prior art high pressure waterproofing chamber in which the airtightness becomes weaker as the pressure of the peripheral system becomes stronger.

The high pressure waterproof chamber (1000) according to the present invention includes: a pressure-responsive tube (100) having a passage communicating with the outside in a vertical direction; A case 200 communicating with the passage of the pressure-responsive tube 100 and having a space in which an object is positioned; And a piston (500) sealing the passage of the pressure-responsive tube (100) and moving along the passage of the pressure-responsive tube (100) corresponding to an external pressure; And a control unit.

The pressure responsive space P formed by the piston 500, the pressure-responsive tube 100, and the inner surface of the case 200 is filled with an insulating material n.

Also, the insulating material (n) is a material which generates less compression than air at the same pressure change.

Further, the insulating material (n) is incompressible.

Further, the volume of the insulating material (n) is smaller than the volume of the pressure-responsive space (P).

A power supply cable 300 connected to the object located in the pressure responsive space P through the case 200 and an O-ring 300 installed in the case 200 through which the power cable 300 penetrates, (400). ≪ / RTI >

And a support bar 620 disposed between the outer circumferential surface of the support shaft 610 and the inner circumferential surface of the pressure-responsive tube 100. The support shaft 610 includes a support shaft 610 extending vertically through the piston 500, And further comprising:

The support shaft 610 is formed with a through hole through which the power cable 300 connected to the object positioned in the pressure responsive space P passes.

The support bar 620 is formed with a communication hole 621 connecting one side of the support member 620 where the piston 500 is positioned and the other side where the pressure-responsive space P is located.

Further, the O-ring 400 is fitted to the other side of the support shaft 610 facing the pressure-responsive space P.

In addition, the object includes a rotating shaft 810, and a mechanical seal 710 supporting the rotating shaft 810 is positioned in the case 200.

Accordingly, the high pressure waterproof chamber according to the present invention is pressure balanced within and outside the pressure responsive space, which is all the space formed inside the chamber by the piston, so that the O-ring, which is installed at the portion of the chamber through which the power cable penetrates, It is possible to prevent airtightness from being deteriorated due to a difference in pressure between the inside and the outside, thereby enhancing the airtightness of the site where the airtightness is poor even under high water pressure conditions (a region where the power cable penetrates through the case of the chamber).

1 is a perspective view of a high-pressure waterproof chamber of the present invention;
2 is a cross-sectional view of a high-pressure waterproof chamber of the present invention. (First Embodiment) Fig.
3 is a cross-sectional view of a high-pressure waterproof chamber of the present invention. (Second Embodiment) Fig.
4 is a cross-sectional view of a high-pressure waterproof chamber of the present invention. (Third Embodiment) Fig.
5 is a cross-sectional view of a high-pressure waterproof chamber of the present invention. (Fourth Embodiment) Fig.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

1 and 2, a high-pressure waterproof chamber 1000 according to the present invention includes a pressure-responsive tube 100 in which a passage communicating with the outside in a vertical direction is formed, A case 200 in which a space in which the object 800 is positioned is formed and communicated with a passage of the pressure responsive tube 100, And a piston 500 moving along the passage.

The pressure responsive space P formed by the piston 500, the pressure-responsive tube 100, and the inner surface of the case 200 may be a target including a measuring device, a motor for generating power, When a pressure difference between the external pressure and the pressure responsive space P is large, a fluid such as ground water or seawater which is located outside flows into the pressure responsive space P where the mechanical device is located, Since the piston 500 may move along the pressure-responsive tube 100 in response to an external pressure to cause a fluid to be located on the pressure-responsive space P because a problem may occur in operation of the object located in the space P, So as to minimize the difference between the pressure in the pressure-responsive space P and the external pressure.

Accordingly, the high-pressure waterproof chamber (1000) of the present invention can effectively prevent seawater and groundwater or the like located in the periphery from being introduced into the pressure-responsive space (P) It can be used in special environments where seawater is located around general sensors, measuring equipment, motors,

At this time, it is recommended that the high-pressure waterproof chamber (1000) of the present invention is filled with a certain amount of insulating material (n) on the pressure-responsive space (P) The insulative material n may have a smaller volume than the pressure responsive space P when the insulative material n is an incompressible fluid.

In detail, when the pressure of the piston 500 rises from the sea surface to the deep sea and the surrounding pressure rises sharply, the piston 500 is adjacent to the inner surface of the case 200 facing the pressure-responsive tube 100, The volume of the pressure-responsive space P is reduced.

Accordingly, when the piston 500 moves a distance greater than a predetermined distance, the piston 500 is brought into contact with the object 800 positioned on the pressure-responsive space P, By minimizing the volume of the pressure-responsive space P, which is filled in the pressure-responsive space P with the insulating material n and corresponding to the external pressure, Thereby reducing the motion of the piston 500 that occurs for pressure control.

In addition, in the high pressure waterproof chamber 1000 of the present invention, when the piston 500 presses the compressible fluid located on the pressure responsive space P in response to an external pressure to control the pressure in the pressure responsive space P It is sufficient that the piston 500 moves from the lower side to the upper side while riding on the inner wall of the pressure-responsive tube 100 as shown in FIG. 2. However, since the piston 500 moves from the lower side to the upper side The piston 500 may be separated from the predetermined movement path by an impact applied from the outside when the piston 500 moves in the vertical direction, A supporting body 600 including a supporting shaft 610 provided between the outer peripheral surface of the support shaft 610 and the inner peripheral surface of the pressure responsive tube 100 is provided, The support shaft 610, It can be moved in the direction.

The support shaft 610 may have various shapes to guide the movement path of the piston 500. The support bar 620 may have an edge connected to the inner surface of the pressure- It is needless to say that the range of motion of the piston 500 can be limited.

The supporting bar 620 is fixed to the pressure-responsive tube 100 and the supporting shaft 610 is extended from the upper side to the lower side at the center of the supporting bar 620, The movement range of the piston 500 can be controlled by moving the support shaft 610 while the piston 500 is in contact with the support bar 620 when the piston 500 moves upward by a predetermined amount or more.

The support bar 620 is formed with a communication hole 621 connecting one side where the piston 500 is positioned and the other side where the pressure response space P is positioned, The cross-sectional area of the communication hole 621 is at least 50% of the cross-sectional area of the supporting bar 620, so that the pressure against the external pressure change It is recommended that the pressure change in the response space P be made quickly.

The high pressure waterproof chamber 1000 according to the present invention includes a power cable 300 connected to a target object 800 positioned in the pressure response space P through the case 200 as shown in FIG. And an O-ring 400 installed in the case 200 through which the power cable 300 passes. The external pressure of the piston 500 and the pressure of the pressure-responsive space P The pressure difference between the outside and the pressure responsive space P is increased in the deep sea and the o-ring 400 is deformed and the seawater is discharged from the outside into the pressure responsive space P through the passage through which the power cable 300 penetrates. Of course, is solved.

5, the power cable 300 is inserted into the pressure-responsive space P through a through-hole 611 formed on the support shaft 610 in a vertical direction, When the power supply cable 300 is introduced into the pressure-responsive space P through the through-hole 611, it is possible to connect the object 800 to the object- The O-ring 400 can be fitted to the other side of the support shaft 610.

A through hole 611 through which the power cable 300 is passed through the pressure-responsive tube 100 or the case 200 to supply electricity to the object 800 positioned in the space formed inside the case 200, Since the O-ring 400 is formed on the outside, deformation of the O-ring 400 may easily occur in response to external pressure changes, impact, and surrounding conditions.

Accordingly, in the present invention, the O-ring 400 is not only affected by the pressure of the pressure-responsive space P, but also sandwiches the O-ring 400 on the other side of the through hole 611, Thereby preventing deformation or breakage in response to various peripheral systems.

5, in the high pressure waterproof chamber 1000 of the present invention, when the object 800 located in the pressure-responsive space P is a rotor among various power devices for producing kinetic energy, The mechanical seal 710 is coupled to the rotation shaft 810 of the object 800 to prevent the rotation shaft 810 from being displaced.

The mechanical seal 710 includes a ridener 714 fixedly coupled to the case 200, a rotor 715 fixedly coupled to the rotary shaft 810, And a compression spring 716 having one side in contact with the lead 714 and the other end in the longitudinal direction being in contact with the rotor 715 and surrounding the rotation axis 810. The lead 714, A body fixed to the case 200 and an elastic body for compressing the body fixed to the case 200 in the center direction in which the rotation axis 810 is located.

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It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: high-pressure waterproof chamber according to the present invention
100: Pressure response tube
200: Case
300: Power cable
400: O ring
P: Pressure response space
500: piston
610: Support shaft
620: Support bar
710: Mechanical seal
800: Target object
810:
n: Insulating material

Claims (10)

A pressure-responsive tube (100) having a passageway communicating with the outside in a vertical direction;
A case 200 communicating with the passage of the pressure-responsive tube 100 and having a space in which an object is positioned; And
A piston 500 that seals the passage of the pressure-responsive tube 100 and moves along the passage of the pressure-responsive tube 100 in response to external pressure; / RTI >
The pressure inside of the response tube 100, the inner surface and the pressure response area (P) is formed surrounded by the side of the piston 500 of the case 200 is characterized in that it is an insulating material (n) is filled, High pressure watertight chamber (1000).
delete The method according to claim 1,
Characterized in that said insulating material (n) is a material which produces less compression than air at the same pressure change.
The method according to claim 1,
Characterized in that the insulating material (n) is incompressible.
The method according to claim 1,
A power cable 300 connected to the object located in the pressure responsive space P through the case 200 and an O-ring 400 installed in the case 200 through which the power cable 300 passes ), Characterized in that the high-pressure watertight chamber (1000)
The method according to claim 1,
A support shaft 610 extending vertically through the piston 500 and a support bar 620 provided between the outer circumferential surface of the support shaft 610 and the inner circumferential surface of the pressure- Wherein the high pressure watertight chamber (1000)
The method according to claim 6,
Wherein a through hole (611) through which a power cable (300) connected to a target object located in the pressure responsive space (P) passes is formed in the support shaft (610).
8. The method according to claim 6 or 7,
The supporting bar 620 is formed with a communication hole 621 connecting one side where the piston 500 is positioned and the other side where the pressure responsive space P is located. .
9. The method of claim 8,
A high pressure waterproofing chamber (1000) characterized in that an O-ring (400) is fitted on the other side of the support bar (620) facing the pressure responsive space (P);
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