KR101685597B1 - Ship Search and Rescue simulator system for training - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a simulator device for ship search and structure training, And an entrance / exit;
Based on the training experience in the actual situation in which the practitioner (rescuer) enters the model box and trains the actual search and rescue work after the model box embodying the internal form (structure) of the vessel is immersed in water It has the effect of inducing the navigation of the ship and the structure of life to be performed quickly and safely.
In addition, by changing the position of the wall panel formed inside the model box, the inside of the model box is transformed into various types of ship internal structure according to the training purpose of the practitioner, so that the practitioner trains the ship in a short period There is an effect that can be performed very effectively.
In addition, there is an effect that the safety of the practitioner can be prevented in advance during the process of training through the safety device, the emergency exit, and the safety device of the portable oxygen container, thereby enhancing the safety of use of the device.

Description

Ship search and rescue simulator system for training.

More particularly, the present invention relates to a simulator apparatus for ship navigation and structural training, and more particularly, to a simulator apparatus for a ship search and structure training, And a simulator device for a ship search and rescue training to train a rescue work so as to promptly and safely carry out the search of the ship and the structure of the life on the basis of the experience of training in the actual situation in which the ship sinks.

Recently, as the number of ship accidents increases, the importance of experience in ship search and rescue of rescuers carrying out rescue activities is emphasized.

For example, a rescuer who has no experience in rescue activities of a ship among rescuers who are put in order to rescue the rescue person in the event of a safety accident, such as a sinking of a ship, is often injured or killed in rescue activities.

Therefore, the rescuer who is engaged in the rescue operation of the ship should be trained by the experienced rescuer or the rescuer who carried out a lot of training on the discovery and structure of the ship.

However, since devices or systems capable of performing training on the navigation and structure of a ship are not realized realistically, training of rescuers injected in the event of a safety accident of a ship is not performed smoothly.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve all of the above problems, and an object of the present invention is to provide an apparatus and method for a ship in which a practitioner (rescuer) The present invention provides a simulator device for a ship search and rescue training that trains navigation and rescue operations and guides the navigation of the vessel and the structure of life on the basis of the experience of training in actual situations in which the vessel sinks.

Also, by changing the position of the wall panel formed inside the model box, the inside of the model box is transformed into the internal structure of various types according to the training purpose of the practitioner, so that the practitioner trains the ship in the short term And to provide a simulator device for ship navigation and structural training that can be performed very effectively.

The present invention also provides a simulator device for a ship search and rescue training which can prevent the safety accident of the practitioner, which may occur in the process of training through safety devices, emergency escape hatches, and portable oxygen cylinders, to enhance safety of use of the device. .

According to an aspect of the present invention, there is provided a simulator device for a ship search and structure training, comprising: a model box that implements an internal shape of a ship; And an entrance formed for the door,

And the training box is trained in the actual box of the model box by the practitioner through the entrance of the model box after the model box is immersed in the water, And the structure of the search and the name of the person can be performed quickly and safely.

The entrance port is located at the upper portion of the model box and has one or more main entrance openings for allowing the practitioner to enter and exit the inside of the model box, And at least one auxiliary access port formed so as to be able to observe the inside of the model box.

The inside of the model box is divided into a plurality of columns which are installed upright in the inside of the model box and a plurality of walls which are provided between the columns to divide an internal space of the model box, It is implemented in the internal form of the ship through the panel,

The wall panels installed between the pillars can be easily detached or moved so that the inside of the model box can be deformed into various forms by changing the position of the wall panel.

And a tilt control means for controlling the inclination of the model box submerged in water,

Wherein the tilt control means is formed on the model box and includes at least one first buoyancy tube in which buoyancy is generated when air is injected and a second buoyancy tube connected to the first buoyancy tube and a compressor for supplying air, A first opening / closing valve formed on the injection hose to determine the air circulation inside the injection hose, and a second opening / closing valve formed on the first buoyancy tube, A second opening / closing valve for determining the external discharge of the air filled in the first buoyancy tube, and a protective case for housing the first buoyancy tube and protecting it from the outside and having a plurality of holes through which water or air can flow, And a controller for controlling the buoyancy of the first buoyancy tube by controlling the operation of the on-off valve,

 And controlling the inclination of the model box that is submerged in water through the inclination control means so as to maximize the effect of the training by implementing it in a manner similar to a situation where the ship actually sinks.

And a safe lifting unit located at a lower portion of the model box and forming a buoyancy force so that the model box floats rapidly when an emergency occurs in the course of performing search and rescue exercises,

The safety buoy means comprises at least one second buoyant tube located at the bottom of the model box and a second buoyant tube connected to the second buoyancy tube for supplying air to the second buoyancy tube, And a safety case which houses the second buoyancy tube and protects the second buoyancy tube from the outside and has a plurality of holes through which water or air can flow, the high pressure tank comprising: So that the practitioner can directly operate the operation of the high-pressure tank.

In addition, at the upper part of the model box, at least one emergency escape opening is formed so that the practitioner can easily escape to the outside, and the emergency escape opening is formed into a mesh shape so as not to be affected by the water pressure, .

Further, a portable oxygen cylinder is shaded inside the model box,

The practitioner can induce the user to maintain respiration through the portable oxygen cylinder in an urgent situation, thereby securing the safety of the practitioner.

In addition, a plurality of flow holes are formed in the lower portion of the model box,

The water is easily infiltrated or discharged to the inside of the model box in the process of submerging the model box in the water or floating the model box to induce rapid filling and floating of the model box. do.

In addition, a plurality of connection rings are further formed on the upper part of the model box,

And the connecting ring is connected to a lifting wire connected to the crane, so that the model box can be raised or lowered easily.

As described above, according to the present invention, a simulator apparatus for a ship search and structure training is constructed such that a model box embodying an inner shape (structure) of a ship is submerged in water, and then an practitioner (rescuer) And training of the rescue work, it has the effect of guiding the ship's search and the structure of the lifeboat quickly and safely based on the training experience in the actual situation where the ship sinks.

In addition, by changing the position of the wall panel formed inside the model box, the inside of the model box is transformed into various types of ship internal structure according to the training purpose of the practitioner, so that the practitioner trains the ship in a short period There is an effect that can be performed very effectively.

In addition, there is an effect that the safety of the practitioner can be prevented in advance during the process of training through the safety device, the emergency exit, and the safety device of the portable oxygen container, thereby enhancing the safety of use of the device.

1 is a perspective view of a simulator device for ship search and structure training according to an embodiment of the present invention;
2 is a longitudinal sectional view of the simulator device for ship search and structure training shown in Fig. 1
3 is a plan view of the simulator device for ship search and structure training shown in Fig.
Fig. 4 is a bottom view of the simulator device for ship search and structure training shown in Fig. 1
FIG. 5 is a diagram showing the state of use of the simulator apparatus for ship search and structure training shown in FIG. 1

A simulator device for ship search and structure training according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

FIG. 1 is a perspective view of a simulator apparatus for ship search and structure training according to an embodiment of the present invention, and FIG. 2 is a perspective view of a simulator apparatus for a ship search and structure training according to an embodiment of the present invention. Fig. 3 is a plan view of the simulator device for ship search and structure training shown in Fig. 1, Fig. 4 is a plan view of the ship search and structure simulator device shown in Fig. 1, Fig. 5 is a view showing the state of use of the simulator device for ship search and structure training shown in Fig. 1, respectively. Fig.

As shown in the figure, a simulator apparatus 100 for ship search and structure training according to an embodiment of the present invention includes a model box 10 and an entrance 20.

As shown in FIGS. 1 to 4, the model box 10 is an apparatus for an practitioner (trainee) to train a ship to perform navigation and rescue operations, and the inside of the model box 10 is embodied as an inner shape of the ship.

2, the inside of the model box 10 includes a plurality of columns 11 installed upright inside the model box 10 and a plurality of columns 11 installed between the columns 11, (10) by means of a plurality of wall panels (12) with or without doors in the interior,

5C, the wall panel 12 installed between the pillars 11 can be easily detached or moved so that the inside of the model box 10 can be easily removed by changing the position of the wall panel 12, It is preferable to be able to implement various modifications.

Accordingly, since the inside of the model box 10 is transformed into the internal structure of various ships according to the purpose of training, the practitioner can perform the training for the search and the structure of the ship in a short period of time very effectively .

Here, the wall panel 12 is attached to the column 11 by a simple method of attaching and detaching the wall panel 12, and the wall panel 12 is slid on the column 11 It is obvious that the present invention can be embodied by a method such as detachment and position movement through a simple structure.

Meanwhile, as shown in FIG. 1, in order to exercise the exerciser through the model box 10, the model box 10 must be submerged in water. In order to easily lift the model box 10 A plurality of connection rings 80 are preferably formed on the model box 10.

That is, as shown in FIG. 5A, the connecting box 80 is connected to a lifting wire 1 connected to a crane, so that the model box 10 can be easily transported to fall down in water, Thereby causing the box 10 to float up and down.

At this time, as shown in FIG. 4, a plurality of flow holes 70 are formed in the lower part of the model box 10,

5A, when the model box 10 is submerged in water or the model box 10 is floated, water is injected into the model box 10 through the flow holes 70, It is possible to easily infiltrate or to be discharged to the outside, thereby promptly causing the model box 10 to be sucked and floated.

1 to 3, a slope control means 30 for controlling the inclination of the model box 10 immersed in water,

The inclination control means 30 is formed on the model box 10 and comprises at least one first buoyancy tube 31 for generating buoyancy when air is injected, An injection hose 32 connected to a compressor 31 for supplying air supplied from a compressor to the first buoyancy tube 31 and connected to a compression hose 32 A first opening / closing valve 33 for determining the air circulation inside the first buoyancy tube 31, and a second opening / closing valve 33 formed on the first buoyancy tube 31 for determining the discharge of air filled in the first buoyancy tube 31, A protective case 35 in which a plurality of holes 35a through which water or air can flow are formed on the side of the valve 34 and the first buoyancy tube 31, A controller 36 for controlling the operation of the opening and closing valves 33 and 34 and controlling the buoyancy of the first buoyancy tube 31 It is configured to hereinafter.

Here, the first buoyancy tube 31 is positioned on both sides of the top and rear sides of the model box 10 to control the inclination of the model box 10.

5B, after the model box 10 is submerged in the process of submerging the model box 10 in water, the submerged model box 10 (FIG. 10) to control the tilt of the ship so that it can be practiced similar to the actual sinking situation so that the practitioner can be effectively trained.

As shown in FIG. 5B, the first opening / closing valve 33 is controlled by the controller 36 to control the tilting of the model box 10 through the tilting control means 30, The air supplied from the compressor is supplied to the first buoyancy tube 31 through the injection hose 32 to increase the buoyancy of the first buoyancy tube 31 so that the model box 10 ascends and descends When the second on-off valve 34 is opened after the first on-off valve 33 is closed, the air filled in the first buoyancy tube 31 is discharged to the outside so that the first buoyancy tube 31 The buoyant force of the first buoyancy tube 31 is controlled to control the tilting of the model box 10.

Since the first buoyancy tubes 31 are installed on both sides of the front and rear sides of the model box 10, the buoyancy of the four first buoyancy tubes 31 is controlled through the control of the controller 36 So that the inclination of the model box 10 can be variously controlled.

As shown in FIG. 1, FIG. 2 and FIG. 4, the model box 10 is positioned below the model box 10, and when an emergency occurs in the course of performing the search and structure exercise, (40) for forming a buoyant force so as to rapidly float,

The safety lifting means 40 comprises at least one second buoyancy tube 41 positioned below the model box 10 and a second buoyancy tube 41 connected to the second buoyancy tube 41, A high pressure tank 42 for supplying air to guide the second buoyancy tube 41 to be quickly filled; and a second buoyancy tube 41 for receiving the second buoyancy tube 41 from the outside, And a safety case 43 in which a plurality of holes 43a, which can be distributed, are formed.

That is, when the dangerous situation of the practitioner trained in the model box 10 is detected, the air (gas) filled in the high pressure tank 42 is filled with the second buoyancy tube 41, The buoyant force of the second buoyancy tube 42 is forcibly raised and lowered to securely prevent a safety accident of the practitioner.

The high pressure tank 42 can be remotely operated from the outside through the operation of the controller 36 and allows the practitioner to directly operate the operation of the high pressure tank 42, (Not shown) that can operate the high-pressure tank 42 so that the practitioner can easily operate the operation of the high-pressure tank 42. [

Also, as shown in FIG. 2, the portable oxygen cylinder 60 is shaded inside the model box 10,

It is preferable that the practitioner is guided to maintain the breathing through the portable oxygen cylinder 60 in an urgent situation in which oxygen in the oxygen cylinder is insufficient to secure the safety of the practitioner.

1 to 3, the entrance 20 is formed on the model box 10 for entrance and exit of a person or equipment,

(21) located at an upper portion of the model box (10) and allowing a practitioner to enter and exit the model box (10); and a control unit And at least one auxiliary entry / exit port 22 formed so as to allow the user to enter the inside of the model box 10 or to observe the inside of the model box 10 from the outside.

That is, the practitioner enters the model box 10 through the main entrance 21 and trains the search and rescue operation. If necessary, the practitioner can access the auxiliary entrance 22 through the main entrance 22, To the inside of the model box to perform a smooth search and rescue operation.

Meanwhile, as shown in FIGS. 1 to 3, it is preferable to form at least one emergency exit 50 on the upper part of the model box 10 so that the practitioner can easily escape to the outside.

That is, when an escape is required due to an emergency situation in the process of training the practitioner who trains the search and rescue operations within the model box 10, The escape opening (50) is opened to easily escape to the outside to prevent the safety accident of the practitioner that may occur during the training.

Here, it is preferable that the emergency exit 50 is formed in a mesh shape so as not to be affected by the water pressure, thereby inducing easy opening of the emergency exit 50.

The simulator device 100 for ship search and structure training of the present invention having the above-described components is configured such that a simulator (rescuer) It is effective to navigate inside the model box 10 and train the actual search and rescue work so as to promptly and safely carry out the search of the ship and the structure of the life based on the experience of training in the actual situation where the ship sinks .

In addition, by changing the position of the wall panel 12 formed inside the model box 10, the inside of the model box 10 is transformed into various types of internal structure of the ship according to the training purpose of the practitioner, The user is able to perform the training of the navigation and the structure of the ship very effectively in a short period of time.

In addition, it is possible to prevent the safety accident of the practitioner, which may occur during the process of training through the safety device of the safety lifting device 40, the emergency exit 50, and the portable oxygen cylinder 60, It is effective.

The following training is performed using the simulator apparatus 100 for ship search and structure training according to the embodiment of the present invention having the above-described configuration.

5A, a lifting wire 1 of a crane (not shown) is attached to a connection ring 80 formed in a model box 10 of a simulator device 100 for a ship search and structure training of the present invention, After the connection, the model box 10 is moved and immersed in water.

At this time, water is easily introduced into the model box 10 due to the plurality of the flow holes 70 formed in the lower portion of the model box 10, so that the model box 10 is rapidly filled.

It goes without saying that the model box 10 can be set up or laid down and immersed in water according to the purpose of training.

5b, the tilting control means 30 controls the buoyancy of the plurality of first buoyancy tubes 31 mounted on the model box 10 to control the buoyancy of the model box 10, To tilt similar to the situation in which the ship actually sinks.

When the arrangement of the model box 10 is completed as described above, the practitioner enters the model box 10 and trains the search and rescue operations.

When the training through the simulator device 100 for ship search and structure training of the present invention is completed, the lifting wire 1 is connected to the connection ring 80 of the model box 10, do.

5 (c), the wall panel 12 formed in the model box 10 of the simulator device 100 for navigational and structural training of the present invention can be easily removed or moved, The inside can be trained by implementing it in various types of ships according to the training purpose.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. lifting wire
10. Model box 11. Column
12. Wall panel 20. Entrance
21. Main Entrance 22. Main Entrance
30. Tilt control means 31. First buoyancy tube
32. Injection hose 33. First open / close valve
34. Second open / close valve 35. Protective case
36. Controllers 40. Safe injuries
41. 2nd buoyant tube 42. High pressure tank
43. Safety Cases 50. Emergency exit
60. Portable Oxygen Bottle 70. Distribution Hole
80. Connecting hook
100. Simulator device for navigation and rescue training

Claims (9)

A model box 10 in which an inner shape of the ship is implemented; And
And an entrance (20) formed on the model box (10) and formed for entrance and exit of a person or equipment,
After the model box 10 is submerged in water, the practitioner enters the model box 10 through the entrance 20 formed in the model box 10 and actually traverses the navigation and rescue operations to sink the vessel Based on the experience gained in the actual situation, it is possible to promptly and safely carry out the search and the structure of the ship,
And tilt control means (30) for controlling the inclination of the model box (10) immersed in water,
The inclination control means 30 is formed on the model box 10 and comprises at least one first buoyancy tube 31 for generating buoyancy when air is injected, An inlet hose 32 connected to the compressor 31 for supplying air supplied from a compressor to the first buoyancy tube 31 and a second buoyancy tube 32 formed on the inlet hose 32 to supply air A second open / close valve (34) formed on the first buoyancy tube (31) for determining the discharge of air filled in the first buoyancy tube (31) A protection case 35 in which the first buoyancy tube 31 is housed and protected from the outside, and a plurality of holes 35a through which water or air can flow is formed on the side surface, Closing valve 34 to control the buoyant force of the first buoyancy tube 31 to control the operation of the valve 33 and the second on- Is configured to include a multiple (36),
Wherein the tilt control means (30) controls the tilt of the model box (10) immersed in water to implement the tilt control system in a manner similar to a situation in which a ship actually sinks, thereby maximizing the effect of the training. For example.
delete delete delete The method according to claim 1,
A safe lifting means (40) located at the lower part of the model box (10) and forming buoyancy so that the model box (10) floats quickly when an emergency occurs in the course of performing search and rescue exercises; Further comprising:
The safety lifting means (40)
At least one second buoyancy tube 41 located below the model box 10,
A high pressure tank 42 connected to the second buoyancy tube 41 to supply air to the second buoyancy tube 41 to guide the second buoyancy tube 41 to be rapidly charged,
And a safety case (43) having a plurality of holes (43a) through which water or air can flow, the side surface of which is secured to the side of the second buoyancy tube (41)
The high pressure tank (42) can be remotely operated from the outside through the operation of the controller (36), so that the practitioner can directly operate the operation of the high pressure tank (42) Training simulator devices. delete delete delete delete

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