KR102639127B1 - Device that launches a tube to save lives - Google Patents

Abstract

The present invention includes a fixing block 100, a connection block 110 screwed to the rear upper part of the fixing block 100, and a connection block 110 fixedly coupled to the rear of the connection block 110 to the inside of the fixing block 100. A gas supply unit 120 in which the supplied gas is accommodated, a gas opening handle rotatably coupled to the upper part of the fixed block 100 to supply the gas contained in the gas supply unit 120 to the fixed block 100 ( 130), a first connection nipple 140, screwed to the right rear of the fixed block 100, through which gas passing through the fixed block 100 moves, screwed to the right front of the fixed block 100 is fixedly coupled between the second connection nipple 150, through which the gas passing through the first connection nipple 140 moves, the first connection nipple 140 and the second connection nipple 150, 1 A control valve 160 for controlling the pressure of the gas moving from the connection nipple 140 to the second connection nipple 150, installed on the right side of the second connection nipple 150, the second connection nipple ( 150) is screwed to the lower front of the pressure gauge 170 and the fixing block 100 for measuring the pressure of the gas passing through the gas, and passes inwardly through the second connection nipple 150 and the fixing block 100. It includes a block portion 180 through which gas moves, and the control valve 160 is set so that the launch distance increases by the standard distance in proportion to the pressure whenever the pressure increases by the preset standard pressure, and the control valve 160 is set to increase by the standard distance in proportion to the pressure. When the maximum pressure is 65 bar or more and 75 bar or less, the maximum firing distance is set to be 65 m or more and 75 m or less, and the front of the gas supply unit 120 is pressurized with a preset setting load, a structure in which a hole for gas discharge is formed It is characterized by being formed by.

Description

{Device that launches a tube to save lives}

The present invention relates to a life-saving tube launching structure, and more specifically, to a life-saving tube launching structure that can efficiently rescue people by firing the tube in the forward direction by the pressurizing force of the gas when a rescue situation occurs.

A life-saving tube launcher refers to equipment that can save people by launching a tube in the forward direction.

Republic of Korea Patent Publication No. 10-1342195 consists of a housing, a motor, an air pump, and a nozzle, a propulsion means mounted on the rear of the housing, a control unit for controlling the propulsion means, a handle containing a battery, and A projectile comprising a mounting portion for mounting a hollow air tube, a trigger, and a launch means to control firing of the air tube, including a trigger and a stopper; and a propellant that is formed integrally with the air tube and is launched by high-pressure air ejected through the nozzle according to the operation of the launch means and simultaneously fills the inside of the air tube with gas to be launched. A rescue tube launching device is disclosed.

However, the conventional life-saving tube launch device had a problem in that it took a long time to launch the tube after a rescue worker wore the launch device, thereby wasting the golden time needed for lifesaving.

In addition, the conventional life-saving tube launch device had problems in that it was difficult to control the launch pressure, making it difficult to accurately and precisely control the launch distance, and also making it difficult to accurately set the rudder.

In addition, the conventional life-saving tube launcher has a problem in that it is difficult to launch tubes continuously within a short period of time, so after using the launcher once, a new launcher must be prepared again.

KR 10-2400227 B1 KR 10-1342195 B1

The present invention was created to solve the above problems, and the purpose of the present invention is to launch a life-saving tube that can efficiently rescue people by firing the tube in the forward direction by the pressurizing force of the gas when a rescue situation occurs. It provides structure.

In addition, the object of the present invention is to form a hole for gas discharge by rotating the joint clockwise when the gas opening handle is opened, and moving the moving axis backward by the joint to press the front of the gas supply unit. The aim is to provide a life-saving tube launch structure that can easily and quickly supply launch gas.

Additionally, the purpose of the present invention is to provide a life-saving tube launch structure that not only allows the user to control the launch distance by controlling the pressure with a pressure control valve while moving, but also allows the user to fire a long distance multiple times in a short period of time.

In addition, the purpose of the present invention is to provide a life-saving tube launch structure that can adjust the launch distance in proportion to pressure, allowing the user to precisely adjust the launch distance to a desired distance, and accurately adjust the rudder.

In addition, the purpose of the present invention is to provide a life-saving tube launch structure that can be used to quickly and accurately launch a tube to a long distance using a launch gas, so that it can be efficiently used for long-distance life-saving in the sea, valleys, etc.

In order to solve the above technical problems, the life-saving tube launch structure according to an embodiment of the present invention includes a fixed block 100, a connection block 110 screwed to the rear upper part of the fixed block 100, A gas supply unit 120 is fixedly coupled to the rear of the connection block 110 and accommodates the gas supplied to the inside of the fixed block 100, and is rotatably coupled to the upper part of the fixed block 100, A gas opening handle 130 for supplying the gas contained in the gas supply unit 120 to the fixed block 100 is screwed to the rear right side of the fixed block 100, so that the gas passing through the fixed block 100 A first connection nipple 140 that moves, a second connection nipple 150 that is screwed to the front right side of the fixing block 100 and moves the gas that has passed through the first connection nipple 140, the first connection nipple 150 A control valve 160 that is fixedly coupled between the connection nipple 140 and the second connection nipple 150 and controls the pressure of the gas moving from the first connection nipple 140 to the second connection nipple 150. ), a pressure gauge 170 installed on the right side of the second connection nipple 150 to measure the pressure of the gas passing through the second connection nipple 150, and a screw on the lower front of the fixing block 100. It is coupled and includes a block portion 180 through which gas passing through the second connection nipple 150 and the fixing block 100 moves inward, and in the control valve 160, the pressure is adjusted to a preset reference pressure. Each time it increases, the launch distance is set to increase by the standard distance in proportion to the pressure, the maximum adjustable pressure is 65 bar or more and 75 bar or less, the maximum launchable launch distance is set to 65 m or more and 75 m or less, and the gas supply unit (120 ) is characterized in that the front is formed in a structure in which a hole for gas discharge is formed when pressurized with a preset setting load.

In addition, a main body 101 is formed in the lower part of the fixing block 100, an upper body 102 is formed in the upper part of the main body 101, and a fastening block 103 is formed in front of the upper body 102. is formed, and a coupling block 104 to which the connecting block 110 is screwed is formed at the rear of the upper body 102, and a penetrating portion 101a is recessed at the front of the fastening block 103. , an inlet portion 110a is formed at the rear center of the connection block 110, which communicates with the gas supply portion 120 and allows gas to flow through the gas supply portion 120, and is formed at the rear of the fastening block 103. A horizontal moving part 101b is formed in the center, which communicates with the inlet 110a and the penetration part 101a, respectively, and allows the gas passing through the inlet 110a to move to the penetration part 101a, A vertical moving part 101c is formed at the rear lower part of the penetrating part 101a, which communicates with the horizontal moving part 101b and moves the gas passing through the horizontal moving part 101b in the downward direction, and the main body ( At the rear of the 101, a first forward and backward moving part 101d is recessed, which is in communication with the vertical moving part 101c and moves the gas passing through the vertical moving part 101c in the rear direction, and the main body 101 ), a first left and right moving part (101e) is recessed at the rear right side of the first left and right moving part (101e), which is in communication with the first forward and backward moving part (101d) and moves the gas passing through the first forward and backward moving part (101d) in the right direction, On the right front side of the main body 101, a second left and right moving part 101f is formed in a depression that communicates with the second connection nipple 150 and moves the gas passing through the second connection nipple 150 in the left direction. And, on the front of the main body 101, there is a second forward and backward moving part (101g) in communication with the second left and right moving part (101f), through which the gas passing through the second left and right moving part (101f) moves in the forward direction. A supply part (101h) is recessed and is in communication with the second forward and backward moving part (101g) at the front of the lower part of the main body 101, and through which the gas passing through the second forward and backward moving part (101g) moves in the downward direction. is formed, and an inlet passage 180a through which gas passing through the supply part 101h moves, which is in communication with the supply part 101h, is recessed on the upper surface of the block part 180.

In addition, a connecting member 103a is protrudingly formed on the upper part of the fastening block 103, a connecting hole 103b is formed through a right side of the connecting member 103a, and a slot is formed on the right side of the fastening block 103. It is characterized in that the hole 103c is formed through.

In addition, the gas opening handle 130 is formed in the front-back direction, includes a plate 131 whose longitudinal cross-section is formed in a U-shape, is screwed to the front of the plate 131, and is rotatable in the connection hole 103b. A moving shaft 133 is provided on the inside of the joint 132 and the penetrating portion 101a, is pin-connected to the lower part of the joint 132, and moves in the rearward direction by the joint 132. ) and an elastic body 134 provided at the inner rear of the penetrating part 101a to elastically support the moving axis 133, and a horizontal member 132a is formed at the upper part of the joint 132. In front of the horizontal member 132a, an inclined member 132b is formed to be inclined in the front downward direction, and a connection hole 132c that is pin-connected to the connection hole 103b penetrates the center of the inclined member 132b. It is characterized in that a pin groove (132d) corresponding to the slot hole (103c) is formed penetrating the lower part of the inclined member (132b).

In addition, a first shaft portion 133a is formed in front of the moving shaft 133, and the elastic body 134, which has a diameter smaller than that of the first shaft portion 133a, is inserted into the rear of the first shaft portion 133a. A second shaft portion 133b is formed at the rear end of the second shaft portion 133b, and the front of the gas supply portion 120 is pressed, and the diameter decreases toward the rear to form a gas discharge hole. A portion 133c is formed, and a pinhole 133d corresponding to the pin groove 132d is formed through the front right side of the first shaft portion 133a.

The life-saving tube launching structure according to an embodiment of the present invention has the effect of efficiently rescuing people by firing the tube in the forward direction by the pressurizing force of the gas when a rescue situation occurs.

In the life-saving tube launch structure according to an embodiment of the present invention, when the gas opening handle is opened, the joint rotates clockwise, and the moving axis moves backward by the joint, pressuring the front of the gas supply unit, A hole for gas discharge can be formed, which has the effect of supplying gas for launch simply and quickly.

The life-saving tube launch structure according to an embodiment of the present invention not only allows the user to control the launch distance by adjusting the pressure with a pressure control valve while moving, but also has the effect of enabling the user to fire a long distance multiple times in a short period of time.

The life-saving tube launch structure according to an embodiment of the present invention can adjust the launch distance in proportion to pressure, allowing the user to precisely adjust the launch distance to the desired distance and accurately adjust the rudder.

The life-saving tube launch structure according to an embodiment of the present invention can quickly and accurately launch the tube to a long distance using launch gas, so it can be efficiently used for long-distance life-saving in the sea, valleys, etc.

Figure 1 is a perspective view of a life-saving tube launch structure according to an embodiment of the present invention.
Figure 2 is a perspective view of the upper structure of the life-saving tube launch structure.
3 is an exploded view of a fixed block and a block diagram.
Figure 4 is a plan view of a life-saving tube launch structure.
Figure 5 is a front cross-sectional view of the life-saving tube launch structure shown in Figure 4 cut along line AA.
Figure 6 is an enlarged view of the life-saving tube launch structure shown in Figure 5.
Figure 7 is a front view of a life-saving tube launch structure.
FIG. 8 is a plan cross-sectional view of the life-saving tube launch structure shown in FIG. 7 cut along line BB.
Figure 9 is a first exploded view of the life-saving tube launch structure.
Figure 10 is a second exploded view of the life-saving tube launch structure.
Figure 11 is a front cross-sectional view of the life-saving tube launching structure when the gas opening handle is opened.

Hereinafter, in order to explain the present invention in detail so that a person skilled in the art can easily implement the technical idea of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings.

However, the following example is only an example to aid understanding of the present invention, and the scope of the present invention is not reduced or limited thereby.

Additionally, the present invention may be implemented in many different forms and is not limited to the embodiments described herein.

Figure 1 is a perspective view of the life-saving tube launch structure 5 according to an embodiment of the present invention, and Figure 2 is a perspective view of the upper structure of the life-saving tube launch structure 5.

Referring to Figures 1 and 2, the life-saving tube launch structure 5 according to an embodiment of the present invention includes a fixed block 100, a connecting block 110, a gas supply unit 120, and a gas opening handle 130. , It is configured to include a first connection nipple 140, a second connection nipple 150, a control valve 160, a pressure gauge 170, and a block portion 180.

First, the fixing block 100 is provided on the upper part of the life-saving tube launch structure 5.

Then, the connection block 110 is screwed to the rear upper part of the fixing block 100. At this time, the connection block 110 is formed in the left and right directions in the shape of a square plate.

In addition, the gas supply unit 120 is fixedly coupled to the rear of the connection block 110, and the gas supplied to the inside of the fixed block 100 is accommodated. At this time, the gas supply unit 120 is formed in the front-back direction.

In addition, the gas opening handle 130 is rotatably coupled to the upper part of the fixed block 100 and supplies the gas contained in the gas supply unit 120 to the fixed block 100.

In addition, the first connection nipple 140 is screwed to the rear right side of the fixing block 100 and becomes a passage through which gas passing through the fixing block 100 moves. At this time, the first connection nipple 140 is formed in an L-shape.

In addition, the second connection nipple 150 is screwed to the front right side of the fixing block 100 and becomes a passage through which gas passing through the first connection nipple 140 moves. At this time, the second connection nipple 150 is formed in a shape that is anteroposteriorly symmetrical with the first connection nipple 140.

And, the control valve 160 is fixedly coupled between the first connection nipple 140 and the second connection nipple 150, and moves from the first connection nipple 140 to the second connection nipple 150. Adjust the pressure of the gas.

Additionally, the pressure gauge 170 is installed on the right side of the second connection nipple 150 to measure the pressure of gas passing through the second connection nipple 150.

Then, the block portion 180 is screwed to the lower front of the fixing block 100, and the gas that has passed through the second connection nipple 150 and the fixing block 100 moves inward.

Meanwhile, the control valve 160 may be set so that whenever the pressure increases by a preset standard pressure, the launch distance increases by the standard distance in proportion to the pressure.

For example, the control valve 160 may be set so that whenever the pressure increases by 1 bar, the launch distance increases by 1 m in proportion to the pressure.

In addition, in the control valve 160, the maximum adjustable pressure can be set to 65 bar or more and 75 bar or less, and the maximum launch distance that can be fired can be set to 65 m or more and 75 m or less.

In addition, the front of the gas supply unit 120 is formed in a structure in which a hole for gas discharge is formed when pressurized with a preset setting load.

Figure 3 is an exploded view of the fixed block 100 and a block diagram.

Referring to FIG. 3, a main body 101 is formed in the lower part of the fixing block 100.

And, an upper body 102 is formed on the upper part of the main body 101. And, a fastening block 103 is formed in front of the upper body 102.

Additionally, a coupling block 104 to which the connection block 110 is screwed is formed at the rear of the upper body 102. At this time, the coupling block 104 is formed in the left and right directions.

Figure 4 is a plan view of the life-saving tube launch structure 5, Figure 5 is a front cross-sectional view of the life-saving tube launch structure 5 shown in Figure 4 cut along line AA, and Figure 6 is a life-saving tube launch structure shown in Figure 5. This is an enlarged view of the structural tube launch structure (5).

Referring to FIGS. 4 to 6, a penetrating portion 101a is recessed in the front surface of the fastening block 103. At this time, the penetrating portion 101a is formed in the front-back direction, and the cross-section of the penetrating portion 101a is circular.

Additionally, an inlet 110a is formed at the rear center of the connection block 110, which communicates with the gas supply unit 120 and allows gas to flow through the gas supply unit 120. At this time, the inlet portion 110a is formed in the front-back direction, and the cross-section of the inlet portion 110a is circular.

In addition, the rear center of the fastening block 103 is in communication with the inlet part 110a and the through part 101a, so that the gas passing through the inlet part 110a moves to the through part 101a. The moving part 101b is formed through.

In addition, a vertical moving part 101c is formed at the rear lower part of the penetrating part 101a, which communicates with the horizontal moving part 101b, and through which the gas passing through the horizontal moving part 101b moves downward.

In addition, a first forward and backward moving part (101d) is recessed at the rear of the main body (101), which communicates with the vertical moving part (101c) and moves the gas that has passed through the vertical moving part (101c) in the rear direction. .

In addition, at the rear right side of the main body 101, a first left and right moving part 101e is communicated with the first forward and backward moving part 101d, and the gas passing through the first forward and backward moving part 101d moves in the right direction. ) is formed as a depression.

FIG. 7 is a front view of the life-saving tube launching structure 5, and FIG. 8 is a plan cross-sectional view of the life-saving tube launching structure 5 shown in FIG. 7 taken along line BB.

Referring to FIGS. 6 to 8 , on the right front side of the main body 101, there is a second nipple that communicates with the second connection nipple 150 and causes the gas passing through the second connection nipple 150 to move in the left direction. The left and right moving parts 101f are recessed.

And, on the front of the main body 101, there is a second forward and backward moving part (101g) that is in communication with the second left and right moving part (101f) and allows the gas that has passed through the second left and right moving part (101f) to move in the forward direction. A depression is formed.

In addition, a supply part 101h is formed at the lower front of the main body 101, which communicates with the second forward and backward moving part 101g, and through which the gas that has passed through the second forward and backward moving part 101g moves in the downward direction. .

Meanwhile, an inlet passage 180a, which communicates with the supply part 101h and moves the gas passing through the supply part 101h, is recessed in the upper surface of the block part 180.

Meanwhile, a connecting member 103a is protruding from the upper part of the fastening block 103.

Additionally, a connection hole 103b is formed through the right side of the connection member 103a. At this time, the connection hole (103b) is formed in the left and right directions, and the cross section of the connection hole (103b) is formed in a circular shape.

Meanwhile, a slot hole 103c is formed through the right side of the fastening block 103. At this time, the slot hole 103c is formed in the front-back direction.

Figure 9 is a first exploded view of the life-saving tube launch structure 5,

6 to 9, the gas opening handle 130 includes a plate 131, a joint 132, a moving shaft 133, and an elastic body 134.

First, the plate 131 is formed in the front-back direction, and the longitudinal cross-section of the plate 131 is formed in a U-shape.

Then, the joint 132 is screwed to the front of the plate 131 and rotatably pinned to the connection hole 103b.

Additionally, the moving shaft 133 is provided inside the penetrating portion 101a, is pin-connected to the lower part of the joint 132, and moves backward by the joint 132. At this time, the moving axis 133 is formed in a multi-stage structure in the front-back direction.

Additionally, the elastic body 134 is provided at the inner rear of the penetrating portion 101a to elastically support the moving shaft 133. At this time, the elastic body 134 is formed in the shape of a coil spring that can be expanded or contracted.

Meanwhile, a horizontal member 132a is formed at the top of the joint 132. At this time, the horizontal member 132a is formed in the front-back direction.

In addition, in front of the horizontal member 132a, an inclined member 132b is formed to be inclined in a forward downward direction.

In addition, a connection hole 132c that is pin-connected to the connection hole 103b is formed through the center of the inclined member 132b. At this time, the connection hole 132c is formed in the left and right directions, and the cross section of the connection hole 132c is circular.

And, a pin groove (132d) corresponding to the slot hole (103c) is formed through the lower part of the inclined member (132b). At this time, the pin groove 132d is formed in a U-shape with an open bottom.

Meanwhile, a first shaft portion 133a is formed in front of the moving shaft 133.

And, at the rear of the first shaft portion 133a, a second shaft portion 133b is formed, which has a smaller diameter than the first shaft portion 133a and into which the elastic body 134 is inserted.

In addition, at the rear end of the second shaft portion 133b, a pressing portion 133c whose diameter decreases toward the rear is formed to press the front of the gas supply portion 120 to form a gas discharge hole.

Also, a pinhole 133d corresponding to the pin groove 132d is formed through the front right side of the first shaft portion 133a. At this time, the pinhole 133d is formed in the left and right directions, and the cross section of the pinhole 133d is circular.

Figure 10 is a second exploded view of the life-saving tube launch structure 5.

Referring to Figures 8 and 10, the left side of the first connection nipple 140 is in communication with the first left and right moving part 101e, and the gas passing through the first left and right moving part 101e moves in the right direction. 1 Left and right connecting passages 140a are formed.

And, at the front of the first connection nipple 140, there is a first front and rear connection passage 140a that communicates with the first left and right connection passages 140a, and through which the gas passing through the first left and right connection passages 140a moves in the forward direction. is formed.

And, inside the control valve 160, an internal flow path 160a is formed that communicates with the first front-back connection passage 140a and through which the gas passing through the first front-back connection passage 140a moves in the forward direction.

Meanwhile, a second front-back connection passage 150a is formed at the rear of the second connection nipple 150, which communicates with the internal flow path 160a, and through which the gas passing through the internal flow path 160a moves in the forward direction.

And, the left side of the second connection nipple 150 is in communication with the internal flow path 160a and the second left and right moving part 101f, so that the gas passing through the internal flow path 160a moves to the second left and right moving part 101f. A second left and right connecting passage 150b is formed.

And, on the front surface of the second connection nipple 150, a threaded portion 150c, which communicates with the second front and rear connection passages 150a and the second left and right connection passages 150b, respectively, and into which the pressure gauge 170 is screwed, is formed. do.

At this time, the threaded portion 150c is formed in the left and right directions, and the cross section of the threaded portion 150c is formed in a circular shape.

Figure 11 is a front cross-sectional view of the life-saving tube launching structure 5 when the gas opening handle 130 is opened.

Referring to FIG. 11, the joint 132 rotates clockwise around the connection hole 103b by the plate 131.

And, the moving axis 133 moves backward along the penetrating portion 101a by the joint portion 132.

And, the pressing part 133c moves backward along the penetrating part 101a of the main body 101 by the moving axis 133, and moves to the horizontal moving part 101b of the fixed block 100 and the connecting block ( 110) respectively pass through the inlet portion 110a.

Afterwards, the pressurizing unit 133c presses the front surface of the gas supply unit 120 to form a hole for gas discharge. At this time, the elastic body 134 contracts in the rearward direction and elastically supports the moving axis 133.

The life-saving tube launching structure 5 according to an embodiment of the present invention has the effect of efficiently rescuing people by launching the tube in the forward direction by the pressurizing force of the gas when a rescue situation occurs.

In the life-saving tube launching structure 5 according to an embodiment of the present invention, when the gas opening handle 130 is opened, the joint 132 rotates clockwise, and the moving shaft 133 is formed by the joint 132. ) moves in the rear direction and pressurizes the front of the gas supply unit 120, thereby forming a hole for gas discharge, which has the effect of supplying gas for launch simply and quickly.

The life-saving tube launch structure 5 according to an embodiment of the present invention not only allows the user to control the launch distance by adjusting the pressure with the pressure control valve 160 while moving, but also allows the user to fire a long distance multiple times in a short period of time. There is a possible effect.

The life-saving tube launch structure 5 according to an embodiment of the present invention can adjust the launch distance in proportion to the pressure, allowing the user to precisely adjust the launch distance to the desired distance and have the effect of accurately aligning the rudder. there is.

The life-saving tube launch structure 5 according to an embodiment of the present invention can quickly and accurately launch the tube to a long distance using launch gas, so it can be efficiently used for long-distance life-saving in the sea, valley, etc. There is.

As described above, the main technical idea of the present invention is to provide a life-saving tube launch structure (5), and the embodiment described above with reference to the drawings is only one embodiment, and the true scope of the present invention is is based on the scope of the patent claims, but also extends to equivalent embodiments that may exist in various ways.

5: Life-saving tube launch structure
100: fixed block 101: main body
102: upper body 103: fastening block
103a: connecting member 103b: connecting hole
103c: slot hole 104: coupling block
101a: penetrating part 101b: horizontal moving part
101c: vertical moving part 101d: first forward and backward moving part
101e: first left and right moving part 101f: second left and right moving part
101g: second forward and backward moving part 101h: supply part
110: connection block 110a: inlet
120: gas supply unit 130: gas opening handle
131: plate 132: joint
132a: horizontal member 132b: inclined member
132c: Connection hole 132d: Pin groove
133: moving axis 133a: first axis part
133b: second shaft portion 133c: pressurizing portion
133d: pinhole 134: elastic body
140: first connection nipple 140a: first left and right connection passage
140a: first front and rear connection passage 150: second connection nipple
150a: second front and rear connection passage 150b: second left and right connection passage
150c: Threaded portion 160: Control valve
160a: internal flow path 170: pressure gauge
180: block portion 180a: inlet passage

Claims (5)

Fixed block (100);
A connection block 110 screwed to the rear upper part of the fixing block 100;
A gas supply unit 120 that is fixedly coupled to the rear of the connection block 110 and accommodates gas supplied to the inside of the fixed block 100;
A gas opening handle 130 rotatably coupled to the upper part of the fixed block 100 to supply the gas contained in the gas supply unit 120 to the fixed block 100;
A first connection nipple 140 is screwed to the rear right side of the fixing block 100, through which gas passing through the fixing block 100 moves;
A second connection nipple 150 is screwed to the right front of the fixing block 100 and moves the gas passing through the first connection nipple 140;
It is fixedly coupled between the first connection nipple 140 and the second connection nipple 150, and adjusts the pressure of the gas moving from the first connection nipple 140 to the second connection nipple 150. valve 160;
A pressure gauge 170 installed on the right side of the second connection nipple 150 to measure the pressure of gas passing through the second connection nipple 150; and
A block portion 180 is screwed to the lower front of the fixing block 100 and moves the gas passing through the second connection nipple 150 and the fixing block 100 inward,
In the control valve 160
Whenever the pressure increases by a preset reference pressure, the launch distance is set to increase by the reference distance in proportion to the pressure,
The maximum adjustable pressure is set to 65 bar or more and 75 bar or less, and the maximum launchable launch distance is set to 65 m or more and 75 m or less,
The front of the gas supply unit 120 is
A life-saving tube launch structure, characterized in that it is formed in a structure in which a hole for gas discharge is formed when pressurized with a preset setting load. According to clause 1,
At the bottom of the fixed block 100
The main body 101 is formed,
At the top of the main body 101
An upper body 102 is formed,
In front of the upper body 102
A fastening block 103 is formed,
At the rear of the upper body 102
A coupling block 104 to which the connection block 110 is screwed is formed,
On the front of the fastening block 103,
The penetrating portion 101a is recessed,
At the rear center of the connection block 110
An inlet portion 110a is formed that communicates with the gas supply portion 120 and allows gas to flow through the gas supply portion 120,
At the rear center of the fastening block 103,
A horizontal moving part (101b) is formed through each of the inlet part (110a) and the through part (101a), which communicates with the inlet part (110a) and moves the gas passing through the inlet part (110a) to the through part (101a),
At the rear lower part of the penetrating portion 101a
A vertical moving part (101c) is formed in communication with the horizontal moving part (101b), through which the gas passing through the horizontal moving part (101b) moves in a downward direction,
At the rear of the main body 101
A first forward and backward moving part (101d) is depressed and formed in communication with the vertical moving part (101c), through which the gas passing through the vertical moving part (101c) moves backward,
At the rear right of the main body 101,
A first left and right moving part (101e) is depressed and formed in communication with the first forward and backward moving part (101d), through which the gas passing through the first forward and backward moving part (101d) moves in the right direction,
On the right front side of the main body 101,
A second left and right moving part (101f) is depressed and formed in communication with the second connection nipple (150), through which the gas passing through the second connection nipple (150) moves in the left direction,
On the front of the main body 101,
A second forward and backward moving part (101g) is depressed and formed in communication with the second left and right moving part (101f), through which the gas passing through the second left and right moving part (101f) moves in the forward direction,
At the lower front of the main body 101,
A supply part (101h) is formed that is in communication with the second forward and backward moving part (101g), and through which the gas that has passed through the second forward and backward moving part (101g) moves downward,
On the upper surface of the block portion 180
A tube launch structure for lifesaving, characterized in that the inflow passage (180a), which communicates with the supply part (101h) and moves the gas that has passed through the supply part (101h), is recessed. According to clause 2,
At the top of the fastening block 103
The connecting member 103a is formed to protrude,
On the right side of the connecting member 103a
A connection hole (103b) is formed through,
On the right side of the fastening block 103,
A tube launch structure for lifesaving, characterized in that the slot hole (103c) is formed through. According to clause 1,
The gas opening handle 130 is
A plate 131 formed in the front-back direction and having a longitudinal cross-section in a U-shape;
A joint portion 132 screwed to the front of the plate 131 and rotatably pinned to the connection hole 103b;
A moving shaft 133 that is provided inside the penetrating portion 101a, is pin-coupled to the lower part of the joint 132, and moves backward by the joint 132; and
An elastic body 134 is provided at the inner rear of the penetrating part 101a and elastically supports the moving axis 133,
At the top of the joint 132
A horizontal member 132a is formed,
In front of the horizontal member (132a)
The inclined member 132b is formed to be inclined in the front downward direction,
At the center of the inclined member (132b)
A connection hole (132c) pin-connected to the connection hole (103b) is formed through the connection hole (103b),
At the lower part of the inclined member (132b)
A life-saving tube launch structure, characterized in that a pin groove (132d) corresponding to the slot hole (103c) is formed through. According to clause 4,
In front of the moving axis 133,
A first shaft portion 133a is formed,
At the rear of the first shaft portion 133a
A second shaft portion (133b) is formed that has a smaller diameter than the first shaft portion (133a) and into which the elastic body 134 is inserted,
At the rear end of the second shaft portion 133b,
By pressing the front of the gas supply part 120, a pressurizing part 133c whose diameter decreases toward the rear is formed to form a gas discharge hole,
On the front right side of the first shaft portion 133a
A life-saving tube launch structure, characterized in that a pin hole (133d) corresponding to the pin groove (132d) is formed through.