CN112629327A - Optical sleeve arrow - Google Patents

Abstract

The invention provides an optical cuffle which comprises an optical cuffle emitter (1), an air cooling radiator (2), a heat insulation layer fixing device (3) and a switch controller (4), wherein the optical cuffle emitter (1) consists of seven parts, namely a light source generator (11), a driving power supply (12), a light beam transmission conversion module (13), an optical attenuation control module (14), a light beam shaping output module (15), an optical window module (16) and an emission control and interface module (17), an output window of the optical window module (16) is a glass strip placed in the X-Y direction, and a mechanical diaphragm is a customized mechanical diaphragm consistent with the glass strip, so that light beams can be emitted at any angle in the X-Y direction. This optics sleeve arrow combines together optics technique and traditional wushu sleeve arrow technique, compares with traditional sleeve arrow and has: wide application range, long range, small volume, easy hiding, easy operation, easy orientation, controllable killing power, short emission period, special entertainment effect and the like, and opens up a brand new chapter for the sleeve arrows.

Description

Optical sleeve arrow

Technical Field

The invention relates to an optical weapon, in particular to an optical sleeve arrow for entertainment or terrorism resistance.

Background

The sleeve arrow is a dark weapon, and the weapon which is too late for people to be protected is projected in the dark. The ancient people evaluated that "they don't fear the spear and only fear the iron", which is hidden in the clothes sleeve, and launched and shot the arrow of the person in the dark by the force of the spring. Book one O of Wu Bei Zhi, two introductions of miscellaneous arrows: those with sleeve arrows have short arrows and heavy clusters, and can take out the arrows from the sleeves, so that people can be defended from thirty steps. "

The traditional sleeve arrow is composed of an arrow barrel and a sleeve arrow dart body, is made of iron, is sometimes attached to a back spine, can shoot the arrow by lowering one head, and can shoot the arrow by shooting the arrow by one hand and shooting the arrow by another hand on a horse, and can be continuously used by launching cut the throat with hands and a waist by utilizing a sleeve arrow inner mechanism.

However, the traditional sleeve arrow has clumsy mechanical structure, high launching skill requirement, close range and difficult control of killing force. Both entertainment and defensive are limited.

Disclosure of Invention

In view of the above, in order to overcome the defects of the prior art, the present invention provides an optical cuff combined with the modern optical technology. The optical sleeve arrow for entertainment or counter terrorism has the advantages of small volume, easy hiding, easy operation, long range and controllable lethality.

The invention relates to an optical cuff arrow, which consists of an optical cuff arrow emitter, an air cooling radiator, a heat insulation layer fixing device and a switch controller.

The optical sleeve launcher is an optical launcher which emits killing light beams. The optical cuff can be made into the size of a watch or a television remote controller, and is worn on the wrist or attached to the arm. It is easy to hide and launch, theoretically at infinity, due to the rectilinear propagation of the beam. The killing power is controlled by the transmitting power of the optical sleeve launcher.

Furthermore, the optical sleeve launcher is composed of seven parts, namely a light source generator, a driving power supply, a light beam transmission conversion module, an optical attenuation control module, a light beam shaping output module, an optical window module, a launch control module and an interface module.

The light source generator and the driving power supply are linked to output a light source, the average power range is 1 milliwatt-100 watt, the average energy range is 0.1 millijoule-100 joule, the size of a light spot is 1 micrometer-10 millimeters, the wavelength range is 0.193 micrometer-10.6 micrometers, and the light source is any one or combination of visible light and invisible light full-waveband light beams.

Furthermore, the light beam transmission conversion module is an optical lens coupling system or an optical fiber coupling system.

Furthermore, the light beam transmission conversion module consists of a rotary adjustable gradual change type optical attenuation sheet and an optical lens coupling system, or consists of a rotary adjustable gradual change type optical attenuation sheet and an optical fiber coupling system.

The light beam transmission conversion module carries out coupling conversion on transmission parameters such as the diameter, the divergence angle, the emission direction and the like of a light beam generated by a light source, and the transmission efficiency range is 1% -99%.

Furthermore, the optical attenuation control module consists of a fixed-efficiency optical attenuation sheet, a rotary adjustable gradual change type optical attenuation sheet, a rotary motor, a beam splitter, a polaroid and an optical gate.

The optical attenuation control module attenuates the efficiency range to 1% -99%, attenuates the power and energy parameters of the light beam coupled by the light beam transmission conversion module to a safe range, and adjusts and controls the output direction and the energy proportion of the light beam. Can emit in X, Y, Z three mutually perpendicular directions simultaneously, also can emit in any one or two directions among them, can accurate control lethality and ejection direction.

Furthermore, the beam shaping output module consists of an optical lens combination, a prism combination, a grating combination, an optical fiber and a customized field diaphragm.

The beam shaping output module carries out the shaping operations such as collimation, convergence, diffusion, directivity adjustment and beam shape customization on the attenuated beam, and can form energy blocks, energy columns, energy lines, energy arrays, energy clusters or customized visual field effect emission to generate peculiar entertainment effect.

Further, the optical window module comprises an optical lens output window and a mechanical diaphragm.

The optical window module is a shaped light beam output window. The mechanical diaphragm (or the customized diaphragm) realizes the safety protection function and the light beam output function by manually controlling the switch state.

The emission control and interface module comprises a local control module and a remote control module. In the local control mode, the local control module in the interface module is linked with the switch controller to control the light source generator and the driving power supply and control the working state of the rotating motor in the optical attenuation control module to select the emitting state of the light beam. In the remote control mode, the remote control module of the interface module is connected to the switch controller in a wired or wireless communication mode to control the light source generator and the driving power supply and control the working state of the rotating motor in the optical attenuation control module to select the emission state of the light beam.

Further, the light source generator is a laser light source or a light emitting diode light source.

Further, the light source generator is a pulsed light source generator or a continuous light source generator.

Furthermore, the air cooling radiator is in direct contact with the optical sleeve and arrow emitter and is made of metal with good heat conduction performance.

The air cooling radiator is made of common metals such as metal aluminum, metal copper and metal red copper. The first surface of the optical sleeve arrow emitter is directly installed and contacted with the optical sleeve arrow emitter and is installed into a whole, heat generated in the working process of the optical sleeve arrow emitter is dissipated in a self air conduction cooling mode, and the working state of the optical sleeve arrow emitter is stable and reliable. The second surface of which is in direct contact with and integrated with the heat-insulating layer means.

Further, the heat insulating layer fixing means is made of an environment-friendly and non-toxic heat insulating material.

The environment-friendly nontoxic heat-insulating material is resin, nylon or polytetrafluoroethylene. The first surface of the heat insulating layer fixing device and the air cooling radiator are fixed into a whole, and the second surface is designed into an ergonomic structure and can be conveniently fixed on an arm.

Further, the switch controller is linked with the emission control and interface module through wired or wireless communication so as to control the on-off state of the optical sleeve launcher.

The invention has the beneficial effects that:

the invention relates to an optical cudgel, which is a novel weapon for entertainment or antiterrorist by combining an optical technology with a traditional martial art cudgel technology. Compared with the traditional sleeve arrows, the sleeve arrow has the following incomparable advantages, and a brand new chapter is uncovered for the sleeve arrows:

1. the controllability of the killing power expands the application range of the optical sleeve arrow: most people look across the armlet and are daunting in folk because of the danger of the armlet, only a few trained people can use, and the optical armlet can form a series of products which are gradually changed from non-killing to killing because of the controllability of the killing power of the optical armlet, so as to meet the all-round requirements in the fields of folk entertainment, self-defense and military;

2. the range is far and controllable, and the shooting range of the sleeve arrows is expanded;

3. the volume is small and the hiding is easier;

4. the operation is easier, and the control is simple;

5. easy orientation;

6. the device has the advantages that the device can be launched quickly, can be launched in three mutually perpendicular directions of X, Y and Z simultaneously, can also be launched in any one or two directions, has almost no traditional sleeve arrow loading clearance time, has short launching period and reaches nanosecond level;

7. the service life is long, the maintenance is simple, and the device can be widely applied to the fields of military affairs or civil entertainment and anti-terrorism; the light source generator and the light beam sleeve arrow generated by the driving power supply are adopted, so that the single use time and the whole service life reach thousands of hours or even tens of thousands of hours;

8. the light beam shaping output module is adopted to perform operations such as collimation, convergence, diffusion and directivity adjustment on the light beam, and light beam shape customization, and light energy lines, arrays, energy blocks, energy clusters or customized field effect emission can be formed, so that a peculiar entertainment effect is generated.

Drawings

FIG. 1 is a structural diagram of an embodiment of the present invention

FIG. 2A structure of optical sleeve launcher (X direction launch)

FIG. 3 shows another configuration of optical sleeve launcher (X, Y direction launch)

FIG. 4 shows a structure of a beam splitter and optical shutter assembly

FIG. 5 shows a third configuration of an optical sleeve launcher (X-direction launch)

FIG. 6A fourth configuration of optical sleeve launcher (X direction launch)

FIG. 7 fifth configuration of optical sleeve launcher (X direction launch)

FIG. 8 sixth configuration of optical sleeve launcher (X direction launch)

FIG. 9 seventh configuration of optical sleeve launcher (X direction launch)

Wherein: the device comprises an optical sleeve arrow emitter 1, an air cooling radiator 2, a heat insulating layer fixing device 3, a switch controller 4, a light source generator 11, a driving power supply 12, a light beam transmission conversion module 13, an optical attenuation control module 14, a light beam shaping output module 15, an optical window module 16, an emission control and interface module 17, a light splitting sheet and optical gate module 18, a light splitting sheet 19 and an optical gate 20.

Detailed Description

Example 1

Referring to fig. 1, the optical cuff launcher 1 and the air cooling radiator 2 are integrally installed, the air cooling radiator 2 and the heat insulating layer fixing device 3 are integrally installed, the heat insulating layer fixing device 3 is worn on the wrist of a user, and the switch controller 4 is wirelessly linked with the launch control and interface module 17 to control the on-off state of the optical cuff launcher 1.

Referring to fig. 2, the light source generator 11 and the driving power source 12 are linked to output green laser (visible light) with an average power of 10 w, a spot size of 2 mm and a wavelength of 0.532 μm, which are continuously emitted. The light beam is incident to a light beam transmission conversion module 13 which consists of a rotary adjustable gradual change type optical attenuation sheet and an optical lens coupling system and has the transmission efficiency adjusted to 50%, and then passes through an optical attenuation control module 14 which consists of an optical attenuation sheet with the fixed efficiency of 1%, a rotary adjustable gradual change type optical attenuation sheet with the fixed efficiency of 1% -100% and a rotary motor component. The power of the light beam passing through the optical attenuation sheet with the fixed efficiency of 1% is 50 milliwatt, and the light beam is attenuated to a safe range, then an instruction is input to the emission control and interface module 17 through the switch controller 4 to adjust the rotation angle (adjustable by 1-360 degrees) of the rotating motor which is installed together with the 1% -100% rotary adjustable gradual change type optical attenuation sheet, and the energy of the light beam is controlled to be 0.05-50 milliwatt by adjusting the attenuated efficiency (adjustable by 1% -100%) of the gradual change type optical attenuation sheet, so that the energy ranges of different killing powers are obtained.

The attenuated light beams pass through an optical lens combination with the magnification of 20 times and a customized square field diaphragm with the section side length of 20 millimeters to form a light beam shaping output module 15, and the shape of the light beams is customized to be a visible light green energy column of 20 millimeters. Then an optical window module 16 consisting of an optical lens output window with the size of 30 mm and a mechanical diaphragm which is opened manually emits a visible green light beam energy column.

The mechanical diaphragm is closed through a manual control switch, or the emission control and interface module 17 is controlled to be in a closed state through the switch controller 4, so that the safety protection function is realized.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 2

Basically the same as in example 1, except that the light source generator 11 is replaced by an infrared laser (invisible light) of 10.6 μm wavelength, suitable for concealed emission, as an anti-terrorist weapon.

Example 3

Basically the same as in example 1, except that the light source generator 11 was replaced with ultraviolet laser light (invisible light) having a wavelength of 0.193 μm, suitable for concealed emission as an anti-terrorist weapon.

Example 4

The light source generator 11 is basically the same as the embodiment 1 except that 3 light source combinations are replaced, and green laser light (visible light) with the wavelength of 0.532 microns, infrared laser light (invisible light) with the wavelength of 10.6 microns and ultraviolet laser light (invisible light) with the wavelength of 0.193 microns respectively pass through the light beam transmission conversion module 13.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 5

The same as example 1 except that the light source generator 11 was replaced with a 1 mw light source.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 6

Basically the same as in example 1, except that the light source generator 11 was replaced with a 1 mj, 1Hz to 25Hz frequency pulsed light source, the resulting emitted light beam was changed from a column of energy during continuous emission to a block of energy during pulsed emission.

The optical sleeve arrow can be used in the entertainment field.

Example 7

Basically the same as embodiment 1, except that the light source generator 11 replaces the laser light source with a light emitting diode light source.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 8

The difference is that the light beam transmission conversion module 13 realizes the adjustability of the transmission efficiency of 1% -99% by adjusting the rotary adjustable gradual change type optical attenuation sheet, which is basically the same as that of the embodiment 1.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 9

The optical fiber coupling system is basically the same as that of embodiment 1, except that the optical lens coupling system in the beam transmission conversion module 13 is replaced with an optical fiber coupling system.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 10

Basically the same as in embodiment 1, except that the fixed-efficiency optical attenuation sheet in the optical attenuation control module 14 has an efficiency of 99% after attenuation.

The optical cudgel can be used as an anti-terrorist weapon.

Example 11

Basically the same as the embodiment 1, except that the optical attenuation control module 14 comprises a set of beam splitter and shutter assemblies 18, which are composed of beam splitters 19 disposed at 45 degrees to the X and Y directions and shutters 20 disposed perpendicular to the X and Y directions, in addition to the optical attenuation plate with a fixed efficiency of 1%, the gradient optical attenuation plate with 1% -100% rotation adjustable, and the rotating motor assembly.

The beam splitter 19 splits the beam into two beams propagating in both the X and Y directions and then passes through shutters 20 perpendicular to the X direction and perpendicular to the Y direction, respectively. By controlling the switching state of each shutter 20 in the X direction and the Y direction, the simultaneous emission of the light beams in either one of the X, Y directions or 2 directions is selected. Please refer to fig. 4.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 12

Substantially the same as in example 11. The difference is that the optical attenuation control module 14 further includes another set of beam splitter and optical gate module, which is composed of beam splitters at 45 degrees to both the X and Z directions and optical gates perpendicular to the X and Z directions. Placed in the X-direction light path behind the beamsplitter and shutter assembly 18 as described in example 11 to effect output in the X and Z directions.

The simultaneous emission of the light beam in any one or three of the X, Y, Z directions is selected by controlling the on and off states of three shutters perpendicular to the X, Y, Z directions.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 13

The same as in example 11, except that the beam splitter and shutter assembly 18 was replaced with a beam splitter having a fixed 45 degree angle with respect to the X-Y direction, and mounted on a rotary motor having an adjustable angle. The angular rotation range of the rotating electrical machine is 0-45 degrees. The rotating angle of the rotating motor is adjusted, so that the included angle between the beam splitter and the X direction is changed from 0-45 degrees along with the rotating motor, and the light beam can be emitted from any direction of 0-90 degrees between the X direction and the Y direction, so that the accurate emitting direction is obtained. The fan-shaped light beam output can also be formed by accelerating the rotating speed of the rotating motor.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 14

The difference from embodiment 1 is that the magnification of the optical lens combination of the beam shaping output module 15 is changed from 20 times to 1 time, the output beam size is changed to 2 mm, and the green light energy line is finally emitted.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 15

Basically the same as embodiment 1, except that the optical lens combination of the beam shaping output module 15 is replaced with a grating, and the finally emitted light beam is changed to a green light energy array.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 16

Basically the same as embodiment 14, except that the optical lens combination of the beam shaping output module 15 is replaced with an optical fiber, and the finally emitted light beam is changed to green globes of light energy.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 17

Basically the same as embodiment 1, except that the 20 mm field stop of the beam shaping output module 15 is replaced by a field stop with any customized pattern in the cross section perpendicular to the light beam, and the finally emitted light beam is changed to any green light energy field effect consistent with the customized field stop cross section pattern.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 18

The same as example 13, except that the 30 mm optical lens output window in the optical window module 16 was changed to a glass strip placed in the X-Y direction, the mechanical stop was also changed to a custom mechanical stop in line with the glass strip so that the beam could be emitted at any angle in the X-Y direction.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 19

In the above embodiments 1 to 18, the control mode of the switch controller 4 is changed from the wireless mode to the wired mode.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 20

Basically the same as embodiment 1 except that the light source generator 11 is replaced with a 100 watt light source.

The optical sleeve arrow can be used in the field of anti-terrorism.

Example 21

Basically the same as in embodiment 1, except that the light source generator 11 is replaced with a 100 joule light source emitting in a pulsed manner with a frequency ranging from 1Hz to 25Hz, the light beam finally emitted is changed from the energy column in the case of continuous emission to the energy block in the case of pulsed emission.

The optical sleeve arrow can be used in the field of anti-terrorism.

Example 22

Substantially the same as in example 11. The difference is that the optical attenuation control module 14 further includes another set of beam splitter and optical gate module, which is composed of beam splitters at 45 degrees in the Y and Z directions and optical gates perpendicular to the Y and Z directions. Placed in the optical path in the Y direction behind the beamsplitter and shutter assembly 18 as described in example 11 to effect output in the Y and Z directions.

The simultaneous emission of the light beam in any one or three of the X, Y, Z directions is selected by controlling the on and off states of three shutters perpendicular to the X, Y, Z directions.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 23

Referring to fig. 1, an optical cuff emitter 1 and an air-cooled radiator 2 are integrally installed, the air-cooled radiator 2 and a heat insulating layer fixing device 3 are integrally installed, the heat insulating layer fixing device 3 is worn on the wrist of a user, and a switch controller 4 wirelessly controls the on-off state of the optical cuff emitter 1.

The optical cuff arrow emitter 1 is a laser light source, and emits infrared laser with average power of 10 milliwatts, spot size of 2 millimeters and wavelength of 0.808 micrometer.

The air cooling radiator 2 is in direct contact with the optical sleeve launcher 1 and is made of metal aluminum with good heat conduction performance. The first surface of the optical sleeve arrow emitter 1 is directly installed and contacted with the optical sleeve arrow emitter 1 and is installed into a whole, heat generated in the working process of the optical sleeve arrow emitter 1 is dissipated in a self air conduction cooling mode, and the stable and reliable working state of the optical sleeve arrow emitter 1 is ensured. Its second surface is in direct contact with and integrated in the insulating layer means 3.

The heat insulating layer fixing device 3 is made of environment-friendly and nontoxic heat insulating material nylon. The first surface of the heat insulating layer fixing device 3 and the air cooling radiator 2 are fixed into a whole, and the second surface is designed into an ergonomic structure and can be conveniently fixed on an arm.

And the switch controller 4 controls the on-off state of the optical sleeve launcher 1 through wireless communication.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 24

Basically the same as the embodiment 23, except that the optical cuff arrow emitter 1 is composed of a light source generator 11 and a driving power supply 12. As shown in fig. 5.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 25

The optical sleeve arrow emitter 1 is substantially the same as the embodiment 24, except that the optical sleeve arrow emitter 1 further comprises a light beam transmission conversion module 13 besides the light source generator 11 and the driving power supply 12. As shown in fig. 6. The light beam transmission and transformation module 13 is composed of a rotary adjustable gradual change type optical attenuation sheet and an optical lens coupling system, and the transmission efficiency is adjusted to 50%.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 26

The optical cuff launcher 1 is substantially the same as the embodiment 25, except that the optical cuff launcher 1 further comprises a beam attenuation control module 14 in addition to the light source generator 11, the driving power supply 12, and the beam transmission conversion module 13. As shown in fig. 7. The optical attenuation control module 14 is composed of an optical attenuation sheet with the fixed efficiency of 1%, a rotary adjustable gradual change type optical attenuation sheet with the rotary efficiency of 1% -100% and a rotary motor component.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 27

The optical sleeve launcher 1 is substantially the same as the embodiment 26, except that the optical sleeve launcher 1 further comprises a beam shaping output module 15 in addition to the light source generator 11, the driving power supply 12, the beam transmission conversion module 13, and the beam attenuation control module 14. As shown in fig. 8. The beam shaping output module 15 consists of an optical lens combination with the magnification of 20 times and a customized square field diaphragm with the side length of the cross section of 20 millimeters.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Example 28

The optical sleeve launcher 1 is substantially the same as the embodiment 27, except that the optical source generator 11, the driving power supply 12, the beam transmission conversion module 13, the beam attenuation control module 14, the beam shaping output module 15, and the optical window module 16 are further included. As shown in fig. 9. The optical window module 16 consists of an optical lens output window with a size of 30 mm and a mechanical diaphragm whose switching state has been manually controlled.

The optical cudgel can be used in the fields of entertainment and terrorism resistance.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention and not to limit it; while the invention has been described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The optical cudgel is characterized by comprising an optical cudgel emitter (1), an air cooling radiator (2), a heat insulation layer fixing device (3) and a switch controller (4), wherein the optical cudgel emitter (1) comprises seven parts, namely a light source generator (11), a driving power supply (12), a light beam transmission conversion module (13), an optical attenuation control module (14), a light beam shaping output module (15), an optical window module (16) and an emission control and interface module (17), an output window of the optical window module (16) is a glass strip placed in the X-Y direction, and a mechanical diaphragm is a customized mechanical diaphragm consistent with the glass strip, so that light beams can be emitted at any angle in the X-Y direction.

2. The optical cuff according to claim 1, wherein said light beam transmission conversion module (13) is an optical lens coupling system or an optical fiber coupling system.

3. The optical cuff according to claim 1, wherein the light beam transmission conversion module (13) is composed of a rotary adjustable gradual change type optical attenuation sheet and an optical lens coupling system, or is composed of a rotary adjustable gradual change type optical attenuation sheet and an optical fiber coupling system.

4. The optical cuff arrow of claim 1, wherein the optical attenuation control module (14) is composed of a fixed attenuation efficiency optical attenuation sheet, a rotary adjustable gradual change optical attenuation sheet, a rotary motor, a beam splitter, a polarizer and a shutter.

5. The optical cuff arrow according to claim 1, characterized in that said beam shaping output module (15) is composed of an optical lens assembly, a prism assembly, a grating assembly, an optical fiber and a customized field stop.

6. Optical cuff arrow according to claim 1, characterized in that said optical window module (16) comprises an optical lens output window and a mechanical diaphragm.

7. The optical cuff arrow of claim 1 wherein said light source generator (11)) is a laser light source or a light emitting diode light source.

8. The optical cuff arrow of claim 1, characterized in that said light source generator (11) is a pulsed or continuous light source generator.

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