CN217483340U - Device capable of remotely launching and capturing cable - Google Patents

Abstract

The utility model discloses a device capable of remotely launching a catching rope, which comprises a shell, a magazine and a firing component; the front end of the shell is provided with a magazine bin, and the magazine is detachably arranged in the magazine bin; the front end of the magazine is bilaterally and symmetrically provided with two launching holes, the front sides of the two launching holes are inclined relative to the outer side, the front end of the magazine is positioned between the two launching holes and is provided with a containing groove, each launching hole is internally provided with a guide bullet, the rear ends of the two guide bullets are provided with barbs, a catching rope is contained in the containing groove, the two ends of the catching rope are respectively fixed at the front ends of the two guide bullets, a gunpowder bin is arranged inside the magazine and is respectively communicated with the rear ends of the two launching holes, and gunpowder is filled in the gunpowder bin; the firing assembly is arranged at the rear part of the shell and is used for igniting gunpowder in the gunpowder bin. Compared with the prior art, the utility model have small, portable, can realize quick loading, quick percussion, convenient operation, advantage that the fault rate is low.

Description

Device capable of remotely launching and capturing cable

Technical Field

The utility model relates to a arrest and equip technical field, concretely relates to but device of long-range transmission arrest cable.

Background

The remote catching rope can be used for remotely catching a target, and like products (catching ropes) on the market are difficult to popularize at present, so that the remote catching rope has several main reasons:

1. the volume is large and the carrying is inconvenient. Most of the catching ropes on the market are similar to a flashlight, the size is large, the weight is not light, and the catching person is inconvenient to carry.

2. The loading is slow. Because present arrest rope all produces power transmission through little gas cylinder and catches rope, and a gas cylinder can only launch once, and the back of launching finishes, if do not hit the target, need launch once more, just need to change the gas cylinder again, fill the arrest rope, need quite long time, easily delay the mistake warplane.

3. The target cannot be effectively aimed. Most of the existing capturing ropes are not provided with aiming devices, only can be aimed by visual inspection, and are difficult to hit the effective parts of the other sides for implementing control.

4. Equipment cannot be effectively supervised. The existing capturing rope can not be controlled, is lost and is difficult to get back, and has serious potential safety hazard.

5. The function is single. The existing capturing rope can be used for capturing a single target.

6. The operation is complicated. The existing catching rope needs to be provided with a gas cylinder and a catching rope before launching, the operation method is quite complicated, and because the catching rope is launched by the gas cylinder, a launching switch needs to be pressed vigorously, the force or the force direction is not correct, the catching rope can not be launched frequently, faults are easily caused when the gas cylinder is not installed in place, the faults can not be predicted in advance, the fault can be known only after the launching is failed, and the fault is fatal in actual combat.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a but device of long-range transmission arresting cable that small, portable, can realize quick loading, percussion fast, convenient operation, fault rate are low.

The utility model provides a device capable of remotely launching a catching cable,

comprises a shell, a magazine and a firing assembly;

a magazine bin is arranged at the front end of the shell, and the magazine is detachably mounted in the magazine bin;

the fire-fighting gun is characterized in that two launching holes are symmetrically arranged at the left and right of the front end of the magazine, the front sides of the two launching holes incline relative to the outer side, a containing groove is formed in the front end of the magazine and located between the two launching holes, a guide bullet is adapted to each launching hole, barbs are arranged at the rear ends of the two guide bullets, a catching rope is contained in the containing groove, two ends of the catching rope are respectively fixed at the front ends of the two guide bullets, a gunpowder bin is arranged in the magazine and is respectively communicated with the rear ends of the two launching holes, and gunpowder is filled in the gunpowder bin;

the firing assembly is arranged at the rear part of the shell and is used for igniting gunpowder in the gunpowder bin.

Furthermore, the bottom of the explosive bin is provided with an electric primer, and two electrode contacts of the electric primer are arranged at the rear end of the magazine;

the firing assembly comprises a first contact pin, a second contact pin and a power supply control circuit, the first contact pin and the second contact pin are mounted at the bottom of the magazine chamber, when the magazine is mounted in the magazine chamber, the first contact pin and the second contact pin are respectively connected with two electrode contacts of an electric primer, and the first contact pin and the second contact pin are connected to the power supply control circuit.

Further, power control circuit includes first power supply circuit, first power supply circuit includes power supply, transmitting switch, test switch, pilot lamp and protective resistance, first contact pin, power supply, transmitting switch and second contact pin are established ties in proper order, test switch, pilot lamp and protective resistance establish ties each other, simultaneously with transmitting switch connects in parallel.

Furthermore, the emission switch and the test switch are both arranged outside the shell, and a switch protection cover capable of opening or covering the emission switch and the test switch is arranged outside the shell.

Furthermore, a mounting device is arranged on the shell, the device capable of remotely launching the catching cable can be fixed on the unmanned aerial vehicle through the mounting device, two external power supply sockets are arranged on the shell, and the two external power supply sockets are respectively connected with the first contact pin and the second contact pin;

the power supply control circuit further comprises a second power supply circuit carried on the unmanned aerial vehicle, and two poles of the power supply circuit are respectively connected with the two external power supply sockets.

Further, the rear side of the bottom of the accommodating groove is provided with a concave part, the front end of the explosive bin is provided with a conical nozzle which extends into the concave part, a channel is formed between the conical nozzle and the concave part, and the channels on two sides of the conical nozzle are respectively connected with the rear ends of the emission holes on two sides.

The shell is provided with a mounting groove close to the rear end of the shell, the middle of the claw is mounted in the mounting groove through a rotating shaft, the front end of the claw is provided with a claw part, and the outer part of the magazine is provided with a clamping groove in clamping fit with the claw part of the claw;

the torsional spring cover in the pivot, the both ends of torsional spring are supported between the rear portion and the mounting groove of jack catch.

Further, the outside of shell is equipped with the boss, the front end of boss is equipped with laser sight and symmetry and locates the shot-light of laser sight both sides is equipped with on the boss and is used for control the control switch of shot-light.

Further, a wireless positioning module is integrated in the device capable of remotely transmitting the catching rope.

Furthermore, the front end of the shell is provided with a protective cover which covers the front ends of the two emission holes, and the rear end of the shell is also provided with a rope cutter.

The beneficial effects of the utility model embody:

when the catching device is used, the magazine is directly installed in a magazine bin at the front end of a shell, gunpowder in a gunpowder bin is ignited through a firing assembly, the gunpowder burns to generate kinetic energy, a guide bullet in two launching holes is pushed out, two guide bullets pull the catching rope to be ejected in an outer 'eight' shape, after the catching rope hits a target, the guide bullet winds the target (two legs or two arms) through the inertia pulling the catching rope, and after winding is completed, the barb on the guide bullet catches target clothes, so that the catching rope is fixed, after the catching rope is launched, an old magazine is directly taken out and replaced by a new magazine, and the catching rope can be launched again.

Because every magazine all is equipped with powder, need not install in addition like the power component of gas cylinder before the transmission, can realize fast bullet changing, run into the trouble and also can get rid of the trouble through the new magazine of quick replacement, consequently for prior art, this application is not only small, portable, can realize fast loading moreover, and quick percussion, convenient operation, the fault rate is low, and even the trouble also can get rid of fast.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is an external perspective view of an embodiment of the present invention;

fig. 2 is an internal cross-sectional view of an embodiment of the invention;

fig. 3 is a schematic structural diagram of a magazine according to an embodiment of the present invention;

fig. 4 is a bottom view of an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a magazine lock according to an embodiment of the present invention.

In the drawings, 100-housing; 110-magazine; 200-a magazine; 210-an emission aperture; 211-a protective cover; 220-a receiving recess; 230-a projectile; 231-barbs; 240-catching a cable; 250-a fire bin; 251-a conical spout; 260-electric primer; 261-electrode contact; 270-a recess; 300-a firing assembly; 310-a first contact pin; 320-a second stylus; 330-power control circuit; 331-a power supply; 332-a transmit switch; 333-test switch; 334-an indicator light; 335-a protection resistance; 336-external power supply socket; 340-switch protection cover; 400-mounting the device; 500-magazine lock; 510-a jaw; 511-a rotating shaft; 512-claw part; 520-torsion spring; 530-mounting groove; 540-card slot; 600-a boss; 610-a laser sight; 620-spot light; 630-a control switch; 700-rope cutter.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

As shown in fig. 1-5, embodiments of the present invention provide a device that can remotely fire a catcher cable, including a housing 100, a magazine 200, and a firing assembly 300.

A magazine case 110 is provided at a front end of the casing 100, and the magazine 200 is detachably mounted in the magazine case 110.

The cartridge magazine 200 is provided with two launching holes 210 in bilateral symmetry at the front end thereof, the front sides of the two launching holes 210 incline towards the outer side, the front end of the cartridge magazine 200 is positioned between the two launching holes 210 and is provided with a containing groove 220, each launching hole 210 is internally provided with a guide bullet 230, the rear ends of the two guide bullets 230 are provided with barbs 231, a catching rope 240 is contained in the containing groove 220, the two ends of the catching rope 240 are respectively fixed at the front ends of the two guide bullets 230, a propellant bin 250 is arranged inside the cartridge magazine 200, the propellant bin 250 is respectively communicated with the rear ends of the two launching holes 210, and powder is filled in the propellant bin 250.

A firing assembly 300 is provided at the rear of the housing 100 for igniting the charge within the charge holder 250.

In the catching process, a catching rope 240 is remotely launched to restrain gangsters or abnormal-behavior animals, when the catching device is used, the magazine 200 is directly installed in a magazine bin 110 at the front end of a shell 100, gunpowder in a gunpowder bin 250 is ignited through a firing assembly 300, the gunpowder burns to generate kinetic energy, guide bullets 230 in two launching holes 210 are pushed out, two guide bullets 230 pull the catching rope 240 to be ejected in an outer 'eight' shape, after the catching rope 240 hits a target, the guide bullets 230 pull the catching rope 240 to wind the target (two legs or two arms) due to inertia, barbs 231 on the guide bullets 230 hang the target clothes after the barbs 231 on the guide bullets are wound, so that the catching rope 240 is fixed, in the embodiment, the catching rope 240 is provided with a noctilucent material, after a control target is used at night, a noctilucent mark is formed on the target, the mark is easy to identify, after the catching rope 240 is launched, the old magazine 200 is directly taken out and replaced by a new magazine 200, it can be transmitted again.

Because every magazine 200 all is equipped with powder, need not install in addition like the power component of gas cylinder before the transmission, can realize fast bullet changing, run into the trouble and also can get rid of the trouble through the new magazine 200 of quick replacement, consequently for prior art, this application is small not only, portable, can realize fast bullet loading moreover, quick percussion, convenient operation, the fault rate is low, even breaks down and also can get rid of fast.

In this embodiment, referring to fig. 2, an electric primer 260 is disposed at the bottom of the explosive cartridge 250, and two electrode contacts 261 of the electric primer 260 are disposed at the rear end of the magazine 200. The firing assembly 300 comprises a first contact pin 310, a second contact pin 320 and a power control circuit 330, the first contact pin 310 and the second contact pin 320 are mounted at the bottom of the magazine case 110, when the magazine 200 is loaded into the magazine case 110, the first contact pin 310 and the second contact pin 320 are respectively connected with two electrode contacts 261 of the electric primer 260, and the first contact pin 310 and the second contact pin 320 are connected to the power control circuit 330. After the magazine 200 is loaded, the two electrode contacts 261 of the electric primer 260 are respectively in electrical contact with the first contact pin 310 and the second contact pin 320, so that the electric primer 260 is connected to the power control circuit 330, and the electric primer 260 is controlled by the power control circuit 330 to ignite the powder in the explosive cartridge 250.

Preferably, the power control circuit 330 includes a first power circuit including a power supply 331, a transmitting switch 332, a test switch 333, an indicator lamp 334, and a protection resistor 335, the first contact pin 310, the power supply 331, the transmitting switch 332, and the second contact pin 320 are sequentially connected in series, and the test switch 333, the indicator lamp 334, and the protection resistor 335 are connected in series with each other while being connected in parallel with the transmitting switch 332. After the magazine 200 is mounted, if the magazine 200 is mounted in place, the test switch 333 is pressed, because of the existence of the protection resistor 335, the current passing through the electric primer 260 is smaller than the minimum working current thereof, the electric primer 260 cannot be fired, the indicator light 334 may specifically adopt a light emitting diode, the current required for the operation thereof is smaller than the minimum working current of the electric primer 260, at this time, the indicator light 334 is lighted, if the magazine 200 is not mounted, the test switch 333 is pressed, the indicator light 334 cannot be lighted, and therefore, the present application can check whether the magazine 200 is mounted in place through the test switch 333. The cartridge magazine 200 is determined to be installed in place and then can be launched, when the launching switch 332 is pressed down, the power supply 331 directly supplies power to the electric primer 260, the current of the circuit is higher than the minimum working current of the electric primer 260, the electric primer 260 triggers and ignites gunpowder in the gunpowder bin 250, the gunpowder burns to generate pressure, and therefore the pilot cartridges 230 in the two launching holes 210 are launched.

In order to protect the launch switch 332 and the test switch 333 and prevent the launch switch 332 and the test switch 333 from being turned on by mistake, the launch switch 332 and the test switch 333 are both arranged outside the casing 100, a switch protection cover 340 capable of opening or covering the launch switch 332 and the test switch 333 is arranged outside the casing 100, and when launching, the switch protection cover 340 needs to be opened first to press the launch switch 332 and the test switch 333.

In this embodiment, referring to fig. 2 and 4, a mounting device 400 is disposed on the housing 100, the device capable of remotely launching the arrest cable can be fixed on the drone through the mounting device 400, two external power sockets 336 are disposed on the housing 100, and the two external power sockets 336 are respectively connected to the first contact pin 310 and the second contact pin 320. The power control circuit 330 further includes a second power circuit mounted on the unmanned aerial vehicle, and two poles of the power circuit are respectively connected to the two external power sockets 336. But this device of cable is arrested in long-range transmission can carry on unmanned aerial vehicle and use, and two external power socket 336 on its shell 100 can be connected with the second power supply circuit that unmanned aerial vehicle carried on to through the transmission of unmanned aerial vehicle transmission signal of telecommunication control the device transmission.

In this embodiment, a recessed portion 270 is disposed at the rear side of the bottom of the receiving recess 220, a tapered nozzle 251 is disposed at the front end of the propellant chamber 250, the tapered nozzle 251 extends into the recessed portion 270, a channel is formed between the tapered nozzle 251 and the recessed portion 270, and the channels at both sides of the tapered nozzle 251 are respectively connected to the rear ends of the propellant holes 210 at both sides. When gunpowder ignites, the shock wave generated by the gunpowder rushes to the concave part 270 through the conical nozzle 251, and then is sprayed to the launching holes 210 on two sides through the channel between the conical nozzle 251 and the concave part 270, so that the guide bomb 230 in the launching hole 210 is ejected.

In this embodiment, referring to fig. 4 and 5, the device for remotely launching a catching rope further comprises a magazine lock 500, wherein the magazine lock 500 comprises a claw 510 and a torsion spring 520, a mounting groove 530 is formed in the housing 100 near the rear end of the magazine 110, the middle of the claw 510 is mounted in the mounting groove 530 through a rotating shaft 511, the front end of the claw 510 is provided with a claw part 512, and the outer part of the magazine 200 is provided with a slot 540 which is engaged with the claw part 512 of the claw 510. The torsion spring 520 is sleeved on the rotating shaft 511, and both ends of the torsion spring 520 are abutted between the rear part of the jaw 510 and the mounting groove 530. After the magazine 200 is loaded into the magazine 110, the claw portion 512 at the front end of the claw 510 is clamped in the slot 540 of the magazine 200, so that the magazine 200 is locked in the magazine 110, and when the magazine 200 needs to be removed, the rear portion of the claw 510 is pressed, so that the front end of the claw 510 tilts and exits from the slot 540, and the magazine 200 can exit from the magazine 110.

In this embodiment, a boss 600 is disposed outside the housing 100, a laser sight 610 and two spot lights 620 symmetrically disposed on two sides of the laser sight 610 are disposed at the front end of the boss 600, and a control switch 630 for controlling the spot lights 620 is disposed on the boss 600. The laser sight 610 can emit laser to the target for aiming, the spot lights 620 on two sides of the laser sight have an upward inclination angle, and have three illumination modes of low light, strong light and flashing, the control switch 630 can be used for switching different modes, and the spot lights 620 can be used for illuminating or disturbing the sight of the target at night.

In this embodiment, the device capable of remotely launching the arrest cable is further integrated with a wireless positioning module, so that if the device is lost, the position of the equipment can be searched by using a positioning function, and the equipment can be searched in time.

In this embodiment, the front end of the casing 100 is provided with a protective cover 211 covering the front ends of the two launching holes 210, the guide bomb firstly hits the protective cover to open the protective cover during launching and then guides the catching rope to fly to a target, the rear end of the casing 100 is further provided with a rope cutter 700, and after the target is caught, a catcher can cut off the catching rope 240 as required.

The application provides a but device of long-range transmission arrest cable is small, portable. Moreover, the device can be loaded on an unmanned aerial vehicle, so that the target with abnormal behaviors can be remotely restrained, and the safety is improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (10)

1. The utility model provides a but device of long-range transmission capture cable which characterized in that:

comprises a shell, a magazine and a firing assembly;

a magazine bin is arranged at the front end of the shell, and the magazine is detachably mounted in the magazine bin;

the fire-extinguishing gun is characterized in that two launching holes are symmetrically arranged at the left and right of the front end of the magazine, the front sides of the two launching holes incline to the outer side, a containing groove is formed in the front end of the magazine and located between the two launching holes, a guide bullet is adapted to each launching hole, barbs are arranged at the rear ends of the two guide bullets, a catching rope is contained in the containing groove, two ends of the catching rope are respectively fixed at the front ends of the two guide bullets, a fire bin is arranged in the magazine and is respectively communicated with the rear ends of the two launching holes, and powder is filled in the fire bin;

the firing assembly is arranged at the rear part of the shell and used for igniting gunpowder in the gunpowder bin.

2. The remotely launchable cable capture device of claim 1, wherein:

the bottom of the explosive bin is provided with an electric primer, and two electrode contacts of the electric primer are arranged at the rear end of the magazine;

the firing assembly comprises a first contact pin, a second contact pin and a power supply control circuit, the first contact pin and the second contact pin are mounted at the bottom of the magazine bin, when the magazine bin is loaded into the magazine bin, the first contact pin and the second contact pin are respectively connected with two electrode contacts of an electric primer, and the first contact pin and the second contact pin are connected into the power supply control circuit.

3. The remotely launchable cable capture device of claim 2, wherein:

the power control circuit comprises a first power circuit, the first power circuit comprises a power supply, a transmitting switch, a test switch, an indicator light and a protective resistor, the first contact pin, the power supply, the transmitting switch and the second contact pin are sequentially connected in series, the test switch, the indicator light and the protective resistor are connected in series, and the test switch, the indicator light and the protective resistor are connected in parallel.

4. A remotely launchable cable capture device as claimed in claim 3, wherein:

the transmitting switch and the testing switch are arranged outside the shell, and a switch protection cover capable of being opened or covered is arranged outside the shell.

5. The remotely launchable cable capture device of claim 2, wherein:

the shell is provided with a mounting device, the device capable of remotely launching the capturing cable can be fixed on the unmanned aerial vehicle through the mounting device, the shell is provided with two external power supply sockets, and the two external power supply sockets are respectively connected with the first contact pin and the second contact pin;

the power supply control circuit further comprises a second power supply circuit carried on the unmanned aerial vehicle, and two poles of the power supply circuit are respectively connected with the two external power supply sockets.

6. The remotely launchable cable capture device of claim 1, wherein:

the rear side of the bottom of the accommodating groove is provided with a sunken part, the front end of the explosive bin is provided with a conical nozzle which extends into the sunken part, a channel is formed between the conical nozzle and the sunken part, and the channels on two sides of the conical nozzle are respectively connected with the rear ends of the emission holes on two sides.

7. The remotely launchable cable capture device of claim 1, wherein:

the magazine is characterized by further comprising a magazine lock, the magazine lock comprises a clamping jaw and a torsion spring, an installation groove is formed in the rear end, close to the magazine bin, of the shell, the middle of the clamping jaw is installed in the installation groove through a rotating shaft, a claw part is arranged at the front end of the clamping jaw, and a clamping groove in clamping fit with the claw part of the clamping jaw is formed in the outer portion of the magazine;

the torsional spring cover is in the pivot, the both ends of torsional spring are supported between the rear portion and the mounting groove of jack catch.

8. The remotely launchable cable capture device of claim 1, wherein:

the outside of shell is equipped with the boss, the front end of boss is equipped with laser sight and symmetry and locates the shot-light of laser sight both sides is equipped with on the boss and is used for control the control switch of shot-light.

9. The remotely launchable cable capture device of claim 1, wherein:

the device capable of remotely launching the catching cable is also internally integrated with a wireless positioning module.

10. The remotely launchable cable capture device of claim 1, wherein:

the front end of the shell is provided with a protective cover which covers the front ends of the two emission holes, and the rear end of the shell is also provided with a rope cutter.

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