KR102137265B1 - Raser shot system - Google Patents

Abstract

The present invention relates to a laser firing system including: a laser diode provided in a portable case; a launcher configured to receive and fire a laser generated from the laser diode through an optical fiber; and a first cooling device provided in the case so as to cool down the heat generated by the laser diode. A heat absorbing module, which absorbs and holds heat, among what are provided in the first cooling device is configured to be separated from the case and replaced. Accordingly, the laser firing system can be used for concealed operation for military purposes, and is capable of securing operation over a long period of time.

Description

Laser launch system {RASER SHOT SYSTEM}

The present invention relates to a laser launching system, and more particularly, to a portable laser launching device.

Lasers are widely used in various industries, and the use of laser weapons in the defense industry is noted.

In order to secure the usability of the laser weapon, it is necessary to implement high power and miniaturization, and further, light weight for portability and increase in operating time are required.

The items described as the background technology of the present invention are only for improving understanding of the background of the present invention, and should not be accepted as acknowledging that they correspond to the prior art already known to those skilled in the art. Will be.

KR 20-1996-0035634 A US 8,923,679 B2 US 9,303,958 B2

The present invention is composed of a compact, lightweight and secure portability, and can effectively cool the heat generated by the laser diode with noiselessly, so it can be used for concealment of military purposes, etc. The purpose is to provide.

The present invention laser launch system for achieving the above object is

A laser diode provided in a portable case;

A launcher configured to receive and transmit the laser generated by the laser diode through an optical fiber;

A first cooling device provided in the case to cool the heat generated by the laser diode;

It comprises;

Among the first cooling devices, the heat absorbing module that absorbs and retains heat is configured to be detachable from the case and replaceable.

The first cooling device

A cooling plate installed to transfer heat in a surface contact with the laser diode;

A plurality of thermoelectric elements installed between the cooling plate and the heat absorbing module;

It may be configured to include.

The endothermic module

A phase change material provided to contact the plurality of thermoelectric elements;

One end may be inserted into the phase change material and the other end may protrude to one side from the phase change material, and may include a heat pipe installed to transfer heat from the phase change material to the outside.

The heat absorbing module is formed in a flat shape so that it can be inserted by sliding linearly in the case;

The first cooling device may be symmetrically formed around the heat absorbing module inserted in the case.

It may be configured to further include a second cooling device provided to cool the heat transmitted by the protruding heat pipe of the heat absorbing module.

The second cooling device may be installed adjacent to the case such that the protruding portion of the heat pipe is inserted while the heat absorbing module is inserted into the case.

It comprises a laser diode and a power supply for supplying power used for the first cooling device and the second cooling device, and a controller for controlling them;

The case, the second cooling device, and the power supply device may constitute a portable module integrally formed to be portable.

The controller drives the thermoelectric element of the first cooling device with power provided by the power supply device to cool the laser diode and performs power generation with the thermoelectric element to store the generated electricity in the power supply device. It can be configured to selectively implement a function.

The launcher

An objective lens for emitting a laser transmitted through the optical fiber;

A focus adjusting unit installed to allow the laser to pass through the laser to enter the objective lens, and adjust a distance from the objective lens to adjust the focus of the laser;

It may be configured to include.

A control device capable of controlling the laser firing system may be installed in the launcher.

The launcher may be further equipped with a collimating optical device capable of aiming the incident position of the laser emitted through the objective lens.

The present invention is composed of a compact, lightweight and secure portability, and can effectively cool the heat generated by the laser diode silently, so that it can be used for concealment of military purposes, etc., and it is possible to secure a long operating time.

In addition, a relatively easy operation allows the laser to strike the target accurately.

1 is a view showing an embodiment of a laser firing system according to the present invention,
Figure 2 is a view showing the configuration of Figure 1 from the opposite direction,
3 is a view illustrating a state in which the laser firing system of FIG. 1 is carried and used;
4 is a view illustrating a first cooling device inside the case of FIG. 1;
5 is a view showing the first cooling device of Figure 4 separately,
6 is a view for explaining the configuration of the launcher of Figure 1;

1 to 6, an embodiment of the laser launching system of the present invention includes: a laser diode 3 provided in a portable case 1; A launcher 7 configured to receive and fire the laser generated from the laser diode 3 through the optical fiber 5; It comprises a first cooling device (9) provided in the case (1) to cool the heat generated by the laser diode (3).

Here, the heat absorbing module 11 that absorbs and retains heat among the first cooling devices 9 is configured to be detachable from the case 1 and replaceable.

That is, the present invention allows the laser generated by the laser diode 3 to be transmitted to the launcher 7 through the optical fiber 5 so as to be fired toward the target, and is generated while generating the laser from the laser diode 3 The heat to be cooled can be cooled through the first cooling device 9, and the heat absorbing module 11 of the first cooling device 9 is configured to be replaced at any time.

As the heat absorbing module 11 of the first cooling device 9 is configured to be replaced, the heat generated by the laser diode 3 is continuously and effectively cooled while replacing the heat absorbing module 11 Can be done.

Therefore, in theory, when a sufficient heat absorbing module 11 is provided, the heat absorbing module 11 heated in the first cooling device 9 is removed, and the heat absorbing module 11 in a cooled state is applied to the first cooling device ( By repeatedly inserting in 9), the laser firing system of the present invention can be continuously operated.

For reference, in this embodiment, the upper end of the heat absorbing module 11 is provided with a handle 13 for facilitating replacement.

In this embodiment, the first cooling device 9 is provided between the cooling plate 15 and the cooling plate 15 and the heat absorbing module 11 installed to transfer heat in a surface contact with the laser diode 3. It comprises a plurality of installed thermoelectric elements (17).

In addition, the heat absorbing module 11 has a phase change material 19 provided to make surface contact with the plurality of thermoelectric elements 17, one end is inserted into the phase change material 19 and the other end is the phase change material ( 19) is configured to include a heat pipe (21) that protrudes from one side to transfer heat from the phase change material (19) to the outside.

The phase change material (PCM: phase change material) refers to a substance having a latent heat storage material, a heat storage material or a heat control function capable of absorbing or releasing a large amount of heat while the phase changes between a solid, a liquid, or a gas at a specific temperature without a temperature change Is to do.

In the present invention, when heat is generated from the laser diode 3, the heat of the laser diode 3 is pumped to the thermoelectric element 17 and transferred to the phase change material 19, so that the laser diode 3 To actively cool.

In this embodiment, the heat absorbing module 11 is formed in a flat shape so that it can be inserted by sliding linearly in the case 1, and the first cooling device 9 is an heat absorbing module inserted in the case 1 It is a structure formed symmetrically around (11).

That is, as shown in Figures 4 and 5, one side of the heat absorbing module 11 is provided with a thermoelectric element 17 and a cooling plate 15 to cool the laser diode 3, the On the opposite side, the thermoelectric element 17 and the cooling plate 15 are symmetrically installed to cool components corresponding to the laser diode 3.

Here, the parts corresponding to the laser diode 3 may be optical parts 39 used to collect and amplify the laser generated by the laser diode 3 and transmit it through the optical fiber 5, Alternatively, it may be the laser diode 3 itself, depending on the configuration of the circuit that generates the laser.

Accordingly, the first cooling device 9 centers the heat absorbing module 11, arranges parts for generating lasers on both sides thereof, and these are disposed by the cooling plate 15 and the thermoelectric element 17. Part to generate the laser by absorbing heat from parts for generating the laser with the thermoelectric element 17 and discharging it to the heat absorbing module 11 in a state to be connected to the heat absorbing module 11 It can be seen to actively cool them.

Referring to FIG. 4, a second cooling device 23 provided to cool the heat transmitted by the protruding heat pipe 21 of the heat absorbing module 11 is provided below the case 1. .

As shown, the second cooling device 23 is the case (1) so that the protruding portion of the heat pipe (21) is inserted in the state in which the heat absorbing module (11) is inserted into the case (1). It is a configuration installed adjacent to the lower side of the.

The second cooling device 23 is provided with a cooling fan or the like driven by a motor, and may be configured to cool the heat pipe 21 by forcibly blown air.

Of course, the second cooling device 23 may be configured to cool the heat pipe 21 by naturally flowing natural wind without actively using the motor as described above.

The laser firing system of the present invention includes a power supply device 25 for supplying power used for the laser diode 3, the first cooling device 9 and the second cooling device 23, and a controller for controlling them. Included, the case 1, the second cooling device 23 and the power supply 25 constitute a portable module 27 integrally formed to be portable together.

That is, the power supply device 25 is provided with a battery, etc., so that the laser diode 3 generates not only the power used when generating the laser, but also the thermoelectric element 17 of the first cooling device 9. It is possible to provide electric power for driving and electric power for driving the motor of the second cooling device 23, and to control the functions of the controller.

Here, the controller drives the thermoelectric element 17 of the first cooling device 9 with power provided by the power supply 25 to cool the laser diode 3 and the thermoelectric element 17 ) May be configured to selectively implement the function of storing the generated electricity in the power supply 25 by performing power generation.

That is, by allowing the controller to perform a function of charging and utilizing the electricity generated by the temperature difference applied to both sides of the thermoelectric element 17 to the battery of the power supply unit 25, the agent 1 Depending on the situation of the cooling device 9, by charging the battery of the power supply device 25 using the thermoelectric element 17 as a thermoelectric element, it is possible to ultimately increase the operational time of the laser launch system. It is to be.

Of course, performing the power generation by using the thermoelectric element 17 as a thermoelectric element as described above, because the heat generated by the laser diode 3 is not too much, the cooling action by the thermoelectric element 17 is briefly performed. This will be possible in situations that can be put off.

On the other hand, the launcher 7 is an objective lens 29 for emitting a laser transmitted through the optical fiber 5, and passes through the laser to be incident on the objective lens 29, and the objective lens 29 ) Is adjusted, and includes a focus adjustment unit 31 installed to adjust the focus of the laser.

That is, the launcher 7 preferably has an external appearance similar to a shooting device such as a conventional rifle, as shown, and the objective lens 29 is positioned in front, and is transmitted through the optical fiber 5 as described above. It is configured to be able to fire the laser toward the front, the focus adjustment unit 31 is located on the beam axis of the laser, the focus adjustment unit 31 is linearly moved on the beam axis to be irradiated to the target By making it possible to adjust the focus of the laser, it is possible to easily concentrate the energy of the laser.

For reference, in FIG. 2, a focus adjustment knob 33 for moving the focus adjustment unit 31 is displayed. When the focus adjustment knob 33 is rotated, the focus adjustment unit 31 is accordingly rotated. It is illustrated that while moving linearly on the beam axis of the laser, the focus of the laser emitted through the objective lens 29 can be adjusted.

The launcher 7 is equipped with an aiming optical device 35 capable of aiming at the incident position of the laser emitted through the objective lens 29, so that the user can more easily aim the target of the laser. .

In addition, a control device 37 capable of controlling the laser firing system may be installed in the launcher 7.

That is, the case 1, the first cooling device 9, the second cooling device 23, and the power supply device 25 are configured as a portable module 27 as described above, while being carried on the user's back. , By allowing the user to perform the state and simple operation of these devices through the control device 37 installed in the launcher 7, it is possible to secure easier operability.

Although the present invention has been illustrated and described in relation to specific embodiments, it is understood in the art that the present invention can be variously improved and changed within the limits that do not depart from the technical spirit of the present invention provided by the following claims. It will be obvious to those of ordinary skill.

One; case
3; Laser diode
5; Optical fiber
7; Launcher
9; First cooling device
11; Endothermic module
13; handle
15; Cooling plate
17; Thermoelectric element
19; Phase change material
21; Heat pipe
23; Second cooling device
25; Power supply
27; Portable module
29; Objective lens
31; Focus control
33; Focus adjustment knob
35; Aiming Optical Device
37; Control
39; Optical parts

Claims (11)

A laser diode provided in a portable case;
A launcher configured to receive and transmit the laser generated by the laser diode through an optical fiber;
A first cooling device provided in the case to cool the heat generated by the laser diode;
It comprises;
The heat absorbing module that absorbs and retains heat among the first cooling devices is configured to be detachable from the case and replaceable.
The first cooling device
A cooling plate installed to transfer heat in a surface contact with the laser diode;
A plurality of thermoelectric elements installed between the cooling plate and the heat absorbing module;
It comprises,
The endothermic module
A phase change material provided to contact the plurality of thermoelectric elements;
A heat pipe having one end inserted into the phase change material and the other end protruding to one side from the phase change material to transfer heat from the phase change material to the outside;
It consists of,
The heat absorbing module is formed in a flat shape so that it can be inserted by sliding linearly in the case;
The first cooling device is formed symmetrically around the heat absorbing module inserted in the case
Laser firing system, characterized by. delete delete delete The method according to claim 1,
It is configured to further include a second cooling device provided to cool the heat transmitted by the protruding heat pipe of the heat absorbing module.
Laser firing system, characterized by. The method according to claim 5,
The second cooling device is installed adjacent to the case so that the protruding portion of the heat pipe is inserted while the heat absorbing module is inserted into the case.
Laser firing system, characterized by. The method according to claim 5,
It comprises a laser diode and a power supply for supplying power used for the first cooling device and the second cooling device, and a controller for controlling them;
The case and the second cooling device and the power supply device constitute a portable module integrally formed to be portable together.
Laser firing system, characterized by. The method according to claim 7,
The controller drives a thermoelectric element of the first cooling device with power provided by the power supply device to cool the laser diode and performs power generation with the thermoelectric element to store the generated electricity in the power supply device. Configured to selectively implement functionality
Laser firing system, characterized by. The method according to claim 1,
The launcher
An objective lens for emitting a laser transmitted through the optical fiber;
A focus adjustment unit installed to allow the laser to pass through the laser to enter the objective lens, and adjust a distance from the objective lens to adjust the focus of the laser;
Laser launch system characterized in that it comprises a. The method according to claim 9,
The launcher is equipped with a control device capable of controlling the laser firing system
Laser firing system, characterized by. The method according to claim 9,
The launcher is further equipped with an aiming optical device capable of aiming the incident position of the laser emitted through the objective lens.
Laser firing system, characterized by.

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