KR102390284B1 - Negative pressure generator for functional defect test of diver equipment - Google Patents

Abstract

The present invention relates to a negative pressure generating device for a functional defect test of diver equipment, which is to test the ability to maintain pressure of an object selected from a respirator, a dry suit, and a buoyancy regulator used in scuba. The device comprises: a chamber having a respirator connector, to which a hose connected to the object is detachably coupled and which is formed on one side, a space in which suction pressure is formed, and an inlet formed on the other side; a negative pressure generating unit having a compressor connected to the inlet of the chamber through a first pipe body and generating a suction force, and a vacuum pump driving the compressor; a second pipe body branching from the first pipe body, and a pressure sensor connected to the second pipe body to sense air suction pressure in the first pipe body; a control unit connected to the pressure sensor and determining whether or not the sensed pressure is normal; and a branch unit having a fitting tool connected to the second pipe body, a third pipe body connected to the fitting tool, a first valve mounted on the third pipe body to be opened and closed, and a port formed in the first valve. According to the present invention, an equipment problem can be determined in advance, so that efficiency and safety can be greatly improved.

Description

Negative pressure generator for functional defect test of diver equipment

The present invention relates to a negative pressure generating device for functional defect testing of diver equipment, and more particularly, to check failures and damage of dry suits and respirators used in skin scuba, marine police officers, etc. in advance to check for abnormalities It relates to a sound pressure generator for functional defect testing of diver equipment.

The system that can pre-inspect the equipment used by existing Coast Guard rescuers during underwater search and rescue activities is insufficient.

In this current situation, accidents and human casualties occur frequently.

It is necessary to develop a functional defect device that can prevent and prevent the risk of safety accidents for rescue workers in advance.

The main rescue equipment for Coast Guard rescuers (divers) is a first-stage respirator, two second-stage respirators (main respirator and auxiliary respirator), a dry wet suit (dry suit), and a buoyancy controller.

All of these main pieces of equipment are connected to a reservoir filled with compressed air.

The most important thing in common when checking all equipment is that the gas filled with high pressure (about 200 Bar) should not leak during rescue operation (diving).

There is a need for a technology that can detect functional flaws in these devices, which are basically used in underwater search and rescue, in advance.

Korean Patent Application No. 10-2020-0010563

The present invention has been devised to solve the problems of the prior art, and in order to check the air tightness and leakage of all rescue equipment (respirators, dry wetsuits, buoyancy regulators), air is An object of the present invention is to provide a negative pressure generator for functional defect testing of diver equipment that can be filled, and when the air reaches a certain level of pressure, the pressure is maintained for a certain period of time to determine a problem with the equipment.

The above-described object of the present invention is to examine the pressure holding ability of an object selected among a respirator, a dry suit, and a buoyancy regulator used for scuba, and the respirator connector to which a hose connected to pass through the object is detachably coupled is one side It is formed in the chamber, the space in which the suction pressure is formed is formed, the other side is formed with an inlet chamber; a negative pressure forming unit connected to the inlet of the chamber and the first tube body and having a compressor generating suction force and a vacuum pump driving the compressor; a second tube branched from the first tube, and a pressure sensor connected to the second tube to sense an air intake pressure in the first tube; a control unit connected to the pressure sensor to determine whether the sensed pressure is normal; A fitting port connected to the second tube body to communicate with the fitting port, a third tube body connected to the fitting port, and a first valve mounted on the third tube body to open and close are formed, and a branch portion having a port formed on the first valve It can be achieved by a sound pressure generating device for functional defect testing of diver equipment, including.

The compressor of the negative pressure forming unit includes a wheel coupled to the motor shaft of the vacuum pump, a rod having one end hinged to the wheel eccentrically, a piston hinged to the other end of the rod, and the piston being airtightly coupled It includes a cylinder body, wherein a first pipe body is connected to one side of the cylinder body, and a discharge pipe is formed at the other side. Air is sucked through the first pipe body by the reciprocating motion of the piston and then discharged through the discharge pipe. It is characterized in that the negative pressure is formed in the first tube body.

It characterized in that it further comprises; a motor driver for controlling the rotation speed of the motor of the negative pressure forming unit.

A second valve is formed in the second pipe body to open and close, and the second valve is opened only when the first valve is closed.

A check valve is mounted on the first pipe body, and the check valve is opened when the negative pressure forming unit is sucked in through the first pipe body, and the check valve is closed when discharged.

According to the present invention, in order to check the air tightness and leakage of rescue equipment (respirators, dry wetsuits, buoyancy regulators), air is filled up to the pressure of the unique opening and closing point of the equipment, and when the air reaches a certain level of pressure By checking whether the pressure is maintained for a certain period of time, it is possible to determine the problem of the equipment in advance, which has the effect of greatly improving efficiency and safety.

1 is a plan view showing a sound pressure generating device for functional defect testing of diver equipment according to the present invention;
2 is a perspective view showing a sound pressure generating device for a functional defect test of a diver equipment according to the present invention;
Figure 3 is a process flow chart of the negative pressure generating device for the functional defect test of the diver equipment according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The terms to be described below are defined in consideration of the functions in the present invention, and it is specified that they should be interpreted as concepts consistent with the technical idea of the present invention and meanings commonly or commonly recognized in the art.

In addition, when it is determined that a detailed description of a known function or configuration related to the present invention may obscure the gist of the present invention, the detailed description thereof will be omitted.

Here, the accompanying drawings are illustrated by exaggerating or simplifying a part for convenience and clarity of explanation and understanding of the configuration and operation of the technology, and each component does not exactly match the actual size.

Among the accompanying drawings, FIG. 1 is a plan view showing a sound pressure generating device for functional defect testing of diver equipment according to the present invention, FIG. 2 is a perspective view showing a sound pressure generating device for functional defect testing of diver equipment according to the present invention, and FIG. 3 is the present invention It is a process flow chart of a sound pressure generator for functional defect testing of diver equipment according to

As shown in Figures 1 and 2, the sound pressure generating device for the functional defect test of the diver equipment according to the present invention is an object ( By examining the pressure holding ability of 100), a respirator connector 21 to which a hose connected to the object 100 is detachably coupled is formed on one side, and a space in which suction pressure is formed is formed. , The other side has an inlet 22 is formed in the chamber (2);

A negative pressure forming part ( 3);

a second pipe body (P2) branched from the first pipe body (P1), and a pressure sensor (4) connected to the second pipe body (P2) to sense the air intake pressure in the first pipe body (P1);

a control unit (5) connected to the pressure sensor (4) to determine whether the sensed pressure is normal; A fitting port connected to communicate with the second pipe body (P2), a third pipe body (P3) connected to the fitting port, and a first valve (V1) mounted on the third pipe body (P3) to open and close are formed and a branch (6) having a port (62) formed on the first valve (V1).

The compressor 32 of the negative pressure forming unit 3 includes a wheel 321 coupled to the motor shaft of the vacuum pump 34, and a rod 322 having one end hinged eccentrically to the wheel 321, It is configured to include a piston 323 hinged to the other end of the rod 322, and a cylinder body 324 to which the piston 323 is coupled in an airtight state.

A first pipe body (P1) is connected to one side of the cylinder body (324), and a discharge pipe (325) for discharging the air sucked into the cylinder body (324) to the outside is formed at the other side.

Accordingly, the negative pressure may be formed in the first tube body P1 by sucking air through the first tube body P1 by the reciprocating motion of the piston 323 and then discharging it through the discharge tube 325 .

Preferably, a motor driver 328 for controlling the rotation speed of the motor of the vacuum pump 34 of the negative pressure forming unit 3; may further include.

A second valve (V2) is formed in the second tube body (P2) to open and close operation. Preferably, the second valve V2 is opened only when the first valve V1 is closed.

The first valve (V1) or the second valve (V2) described above can be opened and closed by electronic control, and a solenoid valve is preferably applied as an example.

In addition, a check valve (CV) is mounted on the first tube body (P1), and when the negative pressure forming part (3) is sucked in through the first tube body (P1), the check valve (CV) is opened, and when discharged, the Make sure the check valve (CV) is closed.

The operation of the present invention configured in this way will be described as follows.

By using the negative pressure forming unit 3 according to the present invention, an appropriate negative pressure can be applied to the object 100 selected from a respirator, a dry suit, and a buoyancy regulator used for scuba, and it can be determined whether or not it meets the standard value. .

In order to check the air tightness and leakage of all respirators, dry suits (dry wetsuits), and buoyancy control), air is filled up to the unique opening and closing point pressure of the equipment.

When the air reaches a certain level of pressure, it is possible to determine whether the pressure is maintained for a certain period of time to determine a problem with the equipment.

A test process flow according to the present invention will be described as follows.

1 to 3, in step 1 (S1), by connecting the inlet of the respirator 101 used in scuba diving equipment to the respirator connector 21 of the chamber 2, the negative pressure generating device is the respirator ( 101) can be measured.

Thereafter, in the second step (S2), the resistance coefficient of the respirator 101 is measured by operating the vacuum pump 34 of the negative pressure forming unit 3 .

Respiratory resistance coefficient is set by the existing respirator manufacturer, and for accurate measurement, a chamber is installed to reduce inhalation sensitivity.

Step 3 (S3), it is possible to block the air that may leak from the vacuum pump 34 by the check valve (CV).

Since there is a small leakage phenomenon in the vacuum pump 34, the closed space is completed by using the check valve (CV).

In step 4 (S4), after the first valve V1 is opened and the second valve V2 is closed, the pressure in the first pipe body P1 is measured with the pressure sensor 4 . That is, the value of the pressure sensor 4 is measured while air flows into the respirator connector 21 , the chamber 2 and the first tube body P1 .

In this state, after the pressure of the intake air reaches a certain level of pressure, it is checked whether the pressure is maintained for a certain period of time, It is possible to determine in advance whether there is a leak problem.

The present invention is not limited by the above-described embodiments and the accompanying drawings, and various modifications and applications not illustrated are possible without departing from the technical spirit of the present invention, as well as substitution of components and other equivalent embodiments. Since it can be changed, it should be construed as being included within the scope of the present invention for modifications and application of the features of the present invention.

100: object 101: respirator
102: dry suit 103: buoyancy controller
2: chamber 3: negative pressure forming part
4: pressure sensor 5: control unit
6: branch

Claims (3)

By examining the pressure holding ability of an object selected among the respirator, dry suit, and buoyancy regulator used in scuba,
a chamber in which a respirator connector to which a hose connected to pass through the object is detachably coupled is formed on one side, a space in which a suction pressure is formed is formed therein, and an inlet is formed on the other side;
a negative pressure forming unit connected to the inlet of the chamber and the first tube body and having a compressor generating suction force and a vacuum pump driving the compressor;
a second tube branched from the first tube, and a pressure sensor connected to the second tube to sense an air intake pressure in the first tube;
a control unit connected to the pressure sensor to determine whether the sensed pressure is normal;
A fitting port connected to the second tube body to communicate with the fitting port, a third tube body connected to the fitting port, and a first valve mounted on the third tube body to open and close are formed, and a branch portion having a port formed on the first valve ;
A sound pressure generating device for functional defect testing of diver equipment, characterized in that it comprises a. The method of claim 1,
The compressor of the negative pressure forming unit is
A wheel coupled to the motor shaft of the vacuum pump, a rod having one end hinged eccentrically to the wheel, a piston hinged to the other end of the rod, and a cylinder body to which the piston is coupled in an airtight state,
A first pipe body is connected to one side of the cylinder body, and a discharge pipe is formed at the other side,
Air is sucked through the first tube by the reciprocating motion of the piston and then discharged through the discharge tube to form a negative pressure in the first tube,
A negative pressure generating device for functional defect testing of diver equipment comprising a; a motor driver controlling the rotation speed of the motor of the sound pressure forming unit. The method of claim 1,
A second valve is formed in the second tube body, and the second valve is in an open state only when the first valve is in a closed state.
A check valve is mounted on the first tube body, and the check valve is opened when the negative pressure forming part is sucked in through the first tube body, and the check valve is closed when discharged. sound pressure generator.

Images