CN115281176A - Throw formula device through reputation flavor drives from wild brown bear - Google Patents

Abstract

The invention discloses a throwing device for expelling wild brown bears through acousto-optic smell, which comprises two flight components and an ejection component; a dispersion component is arranged in the flying component; the flying assembly comprises a containing shell; the dispersion assembly comprises a plurality of smoke-producing cartridges, a plurality of dispersion tension springs with different elasticity and a linkage rod; when the cigarette is used at a first distance, the smoke bombs are respectively popped out towards the left side and the right side to form a transverse smoke isolation belt to block the approach of a bear; when the device is used at the second distance, the second distance is smaller than the first distance, and a large amount of bulk smoke is quickly formed to drive the bear away. The invention can form a transverse smoke zone and prevent wild animals such as wild brown bears and the like from approaching a user; can form a bulk smoke and quickly generate and act on wild animals such as wild brown bears and the like; the ejection mode is adopted for emission, and the use is convenient and controllable; in the storage state, the device occupies small volume and is convenient to store and carry about.

Description

Throw type device for expelling wild brown bear through acousto-optic flavor

Technical Field

The invention belongs to the technical field of animal frightening, and particularly relates to a throwing type device for expelling wild brown bears through acousto-optic flavor.

Background

Chinese patent document No. CN212340068U discloses a smoke bomb self-unlocking ejection device, which comprises an air storage tank, an installation sleeve is arranged at the top of the air storage tank, a walking cylinder is arranged in the installation sleeve, a smoke bomb is arranged in the walking cylinder, a walking disc is fixed at the bottom of the walking cylinder, the walking disc is in threaded connection in the installation sleeve, a plurality of connecting holes are circumferentially formed in the walking disc, a guide rod is inserted into each connecting hole, the lower ends of the plurality of guide rods are fixedly connected with the periphery of a top disc, a screw hole is formed in the center of the top disc, a sealing cover is arranged at the lower end of the installation sleeve, a screw rod is arranged at the center of the sealing cover, the screw rod is in threaded fit with the screw hole, the upper end of the screw rod is connected with a lead of the smoke bomb, and a spring is arranged between the walking disc and the top disc. The device has the advantages that the device utilizes the air pressure change in the air storage tank as a trigger factor for the self-unlocking ejection of the smoke bomb, and the device has a simple and exquisite whole structure, is safe, stable and sensitive; when the aerosol container is put into use, the top disc and the sealing cover are completely separated, the sealing cover can completely drop the aerosol bomb lead due to self-weight falling after the air storage tank loses pressure, and the sensitivity is higher.

The invention patent skill ejects the smoke bomb for use at a close distance, and when the smoke bomb is used for driving wild animals, the smoke bomb is possibly attacked before the smoke is emitted because the use distance is too close.

Chinese patent document No. CN111811338A discloses a mechanical excitation type smoke bomb device and its remote launching method, which includes: the device comprises a front box body, a cartridge clip rotating device, an excitation device, a rear box body, a hinge seat and a fixed lock seat; the cartridge clip rotating device and the excitation device are arranged in a cavity formed by the closed front box body and the closed rear box body; cartridge clip rotating device is used for placing the smog bullet, cartridge clip rotating device includes: the smoke bomb rotating device comprises a smoke bomb sleeve, a cartridge clip rotating rudder disc, a cartridge clip rotating steering engine, smoke bombs, a turntable and a rotating support arm, wherein the excitation device is used for exciting the smoke bombs in the cartridge clip rotating device; the excitation device comprises: the steering engine box, the bracket, the excitation steering engine, the excitation steering wheel, the slide rail, the slide block, the compression driving device, the gear, the rack, the firing pin sleeve and the firing pin; the invention has the advantages that: the cartridge clip rotating device and the excitation device are controlled by adopting a mechanical structure, and the electric control component only utilizes two steering engines, so that the mechanical excitation type smoke and bomb device is not easy to break down and has stronger interference resistance.

The invention patent can only form smoke at a single point position, if a smoke stopping belt needs to be formed, the smoke stopping belt needs to be launched for many times, and the use is relatively complicated.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the handheld protective equipment which can generate a transverse smoke band to block the bear and can generate the bulk smoke to drive the bear away is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a throwing device for expelling wild brown bears through acousto-optic smell comprises two flying components and an ejection component capable of ejecting the two flying components forwards; and a dispersing assembly is respectively arranged in each flying assembly.

The flying assembly comprises an accommodating shell which can be connected with the ejection assembly in a sliding manner; the dispersion subassembly is including a plurality of sliding connection hold in the shell can produce the smoke cartridge that drives bear smog, a plurality of settings are in what hold on the shell that the elasticity is unequal can with corresponding the dispersion extension spring and the sliding connection that the smoke cartridge popped out hold on the shell can with correspond the gangbar of smoke cartridge joint.

When the device is used at a first distance, smoke generated by the smoke bombs drives the linkage rod to slide, so that the linkage rod is not clamped with the smoke bombs, and the smoke bombs are respectively popped out to the left side and the right side to form a transverse smoke isolation belt to block a bear from approaching.

When the cigarette holder is used at a second distance, the second distance is smaller than the first distance, smoke generated by each smoke bomb is directly emitted through the accommodating shell, and a large amount of bulk smoke is quickly formed to drive a bear away.

As a preferable scheme: a smoke outlet communicated with the outside is formed in the inner wall of the accommodating shell; a first unlocking part capable of driving the corresponding linkage rod to slide is arranged in each flight assembly; the first unlocking part comprises an unlocking door which is rotatably connected to the accommodating shell and can drive the corresponding linkage rod to slide; the unlocking door can seal the smoke exhaust port.

A smoke generating hole communicated with the outside is formed at the upper end of the inner wall of the accommodating shell; a sealing assembly is arranged in each flying assembly; the sealing assembly comprises a sealing disc which is connected to the accommodating shell in a sealing and rotating mode and can seal the corresponding smoke generating hole; the front ends of the two flying assemblies are connected with an impact head capable of driving the sealing disc to rotate in a sliding mode.

When the flight subassembly flies after a certain period, the shell that holds produces the drive bear smog of capacity will drive the unblock door rotates, and then makes the gangbar no longer with the smoke bomb joint.

When the flying assembly flies for a certain time, the striking head is struck and slides, so that the sealing disc rotates to not seal the containing shell, and smoke generated by each smoke cartridge is directly emitted through the smoke generating hole.

As a preferable scheme: a second unlocking part capable of driving the corresponding linkage rod to slide is arranged in each flight assembly; the second unlocking part comprises an impact strip which is connected to the front end of the accommodating shell in a sliding mode and can drive the corresponding linkage rod to slide.

During the flight of the flight assembly, when the impact strip slides due to impact, the linkage rod is not clamped with the smoke bomb any more, the smoke bomb pops out in advance to form a transverse smoke belt, and the flight assembly is prevented from deviating in the flight track to cause the direction deviation of the smoke belt.

As a preferable scheme: the sealing assembly also comprises a push rod which is connected in the accommodating shell in a sliding manner and can be abutted against the rear end of the impact strip; and a sealing eccentric column which has an axis parallel to the sealing disc rotating shaft and is not coincident with the sealing disc rotating shaft and is used for driving the push rod to slide is formed on the sealing disc.

When the sealed dish rotates to no longer sealed when holding the shell, the push rod slide to with striking strip rear end supports, striking strip can not drive the gangbar slides, prevents the smoke cartridge pops out.

As a preferable scheme: the ejection assembly comprises a holding cylinder, a gravity cylinder which is rotatably connected in the holding cylinder and can be used for mounting the flight assembly, and an ejection spring which is arranged at the rear part of the holding cylinder and can eject the flight assembly; a balancing weight is formed on one side, close to the inner wall of the gravity cylinder, of the inner wall of the gravity cylinder; the balancing weight drives the gravity cylinder to rotate under the action of gravity, so that the upper end of the flying assembly is always positioned above the gravity cylinder.

As a preferable scheme: the guide shell can be connected in the gravity cylinder in a sliding manner along the front-back direction; the impact head is connected to the front end of the diversion shell in a sliding manner; the flight subassembly is still including two and sets up respectively hold the shell with be used for making two between the blower inlet casing hold the shell and set up respectively in vertical direction gliding flight spring in opposite directions and two hold the shell with be used for making two between the blower inlet casing hold the shell respectively to left and right sides pivoted flight torsional spring.

When the flight subassembly is located when a gravity section of thick bamboo, two hold the shell and be located the extreme position that is close to each other, hold the shell and overlap each other in upper and lower direction, the flight spring the flight torsional spring holds power, and whole occupation space is little, is convenient for deposit and carry.

When the flight subassembly flies out during the gravity section of thick bamboo, it is in to hold the shell the flight torsional spring flight spring, flight spring's elasticity effect down, when rotating to the left and right sides, slide in opposite directions extremely hold the shell upper end and be located same horizontal plane, it is as the wing of blower inlet casing horizontal flight to hold the shell.

As a preferable scheme: the accommodating assembly further comprises an ejection limiting hook which is rotatably connected in the gravity cylinder and can be clamped with the guide shell, an emission ring which is rotatably connected in the holding cylinder and can drive the ejection limiting hook to rotate, and a shifting block which is slidably connected to the outer wall of the holding cylinder and is used for driving the emission ring to slide; the gravity cylinder rotates to synchronously drive the launching ring to rotate.

As a preferable scheme: the sealing assembly comprises a sealing torsion spring arranged between the sealing disc and the corresponding accommodating shell and a limiting sliding rod which is connected in the accommodating shell in a sliding manner and can limit the sliding of the push rod; the impact head slides to synchronously drive the limiting slide rod to slide.

When the limiting slide rod is located at the front limit position, the limiting slide rod can limit the push rod to slide, the sealing disc is sealed to accommodate the shell, and the sealing torsion spring stores force.

When the limiting slide rod is located at the rear limit position, the limiting slide rod is not in contact with the push rod, and the sealing disc rotates to be not sealed under the elastic action of the sealing torsion spring to accommodate the shell.

As a preferable scheme: the outer wall of the smoke cartridge is formed with a clamping ring; the dispersion subassembly is connected including a plurality of rotations hold in the shell respectively with correspond spacing colluding of dispersion of joint ring joint the gangbar respectively with correspond spacing colluding rotates to be connected, just the axis of rotation of gangbar with spacing axis of rotation that colludes is parallel and not coincident.

As a preferable scheme: the flying assembly comprises two rotating shafts which are symmetrically arranged and respectively rotatably connected to the guide shell and are in sliding connection with the corresponding containing shell; a sliding hole which is the same as the rotating shaft is formed in the accommodating shell; and a sliding column which can drive the corresponding sliding hole to rotate is formed on the outer wall of the rotating shaft.

Compared with the prior art, the invention has the beneficial effects that: in an initial state, the torsion spring is sealed to store power, the sealing disc seals the smoke hole, the vent hole is not communicated with the smoke hole, the unlocking door seals the smoke outlet, and the containing shell is in a sealing state; the flying assemblies are in a storage state, the two flying assemblies are overlapped, and the flying torsion spring and the flying spring are in a force storage state; the flying component is positioned in the gravity cylinder, the ejection limiting hook is clamped with the ejection clamping hole, the ejection spring compresses to store force, and the shifting block is positioned at the front limit position.

When animals such as wild brown bears are encountered outdoors, the movement speed of the animals is usually higher than that of people, so that the wild brown bears can be blocked by the product in the escape process, and the animals are prevented from being attacked. When the wild brown bear is far away from the user relatively, the user takes out the product, grips the holding cylinder, and with the anterior directional wild brown bear of this product, even must hit the directional wild brown bear of head, the balancing weight of a gravity cylinder drives a gravity cylinder under the action of gravity and rotates for the upper end of flying subassembly is directly over all the time. Subsequently, the shifting block is pulled backwards, the shifting block slides to drive the shifting rod to slide, the shifting rod slides to drive the annular groove to slide so as to enable the launching ring to slide backwards, the launching ring slides to drive the eccentrically arranged launching eccentric hole to rotate through the pull rope, and then the launching limiting hook rotates to be no longer clamped with the launching clamping hole.

The flight subassembly will fly out forward under the spring action of launching the spring, when holding the shell and no longer offset with protruding draw runner in, the axis of rotation rotates under the spring action of flight torsional spring, and the axis of rotation rotates and drives the slip post and rotate, and the slip post rotates and drives the slip hole rotation, and then makes two shell that hold rotate to both sides respectively and expand. When the two accommodating shells rotate and expand to the upper-lower direction and are not abutted any more, the accommodating shells slide to be abutted against the corresponding limiting platforms under the elastic force action of the flying spring, so that the upper ends of the two accommodating shells are positioned on the same horizontal plane. When the containing shells rotate to be abutted against the inner wall of the front end of the open slot, the two containing shells are completely unfolded, the containing shells form two horizontal flying wings of the diversion shell, and the flying assembly can be ensured to horizontally fly to the wild brown bear.

In the process that the two containing shells rotate oppositely, the friction parts mutually rub to ignite the fuzes of the smoke-generating bullets, fillers in the smoke-generating bullets are combusted to generate a large amount of smoke, the whole containing shell is rapidly filled with the smoke, and the pressure in the containing shell is increased along with the generation of the smoke-generating bullets. When the pressure in the containing shell is increased to a certain value, the pressure drives the unlocking door to rotate, the unlocking door rotates to drive the eccentrically arranged unlocking eccentric column to rotate, and the unlocking eccentric column rotates to drive the transmission lever to rotate. The transmission lever rotates to drive the sliding block to slide, the sliding block slides to drive the transverse rod to move, the linkage rod slides to drive the eccentrically arranged dispersing eccentric columns to rotate, and then the dispersing limiting hooks rotate. The dispersion limiting hook is not clamped with the clamping ring any more, the smoke bomb transversely pops out under the elastic action of the dispersion tension spring, and the elasticity of the dispersion tension spring installed by each smoke bomb in the same accommodating shell is increased in sequence, so that the smoke bombs on the left side and the right side of the flying assembly are uniformly dispersed. The smoke bomb continuously smokes, and a transverse smoke isolation belt is formed between the wild brown bear and the human body to prevent the bear from chasing the human body.

In actual use, forest use can also happen, and because the flying assembly is blocked due to the fact that no wide band is enough, a transverse smoke isolation band cannot be formed between people and wild brown bears, the effect of the forest use is reduced (for example, the flying assembly is deflected ninety degrees by impact, and the smoke isolation band cannot block), and therefore the forest use type air-conditioning system also has a second dispersion mode. When the flight of the flight assembly is blocked by branches and the like, the impact strip at the front end of the accommodating shell slides backwards under the impact of impact, the impact spring is compressed, the impact strip slides to drive the sliding column to slide, and the sliding column slides to drive the linkage rod to slide, so that the dispersing limiting hook rotates to be not clamped with the clamping ring any more. The smoke bomb will pop out to flight assembly both sides fast, forms the smog area, and even the smog area is not the complete horizontally violently between people and wild brown bear, the smog area of slightly taking the slope also can play sufficient effect of stopping.

When the wild brown bear is relatively close to the user, the user directly aims the impact head at the wild brown bear, then pulls the shifting block backwards, and when the flying assembly flies forwards, the flying assembly directly impacts the wild brown bear. The striking head slides backwards when being struck, namely the extension column slides backwards, the extension column slides backwards to drive the limiting slide rod to slide backwards, so that the limiting slide rod is not clamped with the push rod any more, the sealing disc rotates under the elastic action of the sealing torsion spring, and the vent hole is communicated with the smoke generating hole. The smog that holds the production of the shell smoke bomb outwards through the smoke hole rapidly forms bulk smog, compares in the smog area of rectangular shape, and bulk smog fuming volume is more concentrated, and it is faster to produce smog speed to can act on one's body the wild brown bear rapidly, with the purpose that reaches the protection user.

At sealed dish pivoted in-process, the sealed eccentric post that drives eccentric settings in step rotates, and sealed eccentric post rotates and drives and pushes away the groove and slide then make the push rod slide, and the push rod slides and drives the butt joint piece and slide for the butt joint piece moves to between slip post and the sliding seat, makes the striking strip can not slide. When the flying component is impacted and falls down, the impact strip is prevented from sliding under the impact, namely, the smoke bomb is prevented from being ejected.

The smoke cartridge is internally provided with chemical substances capable of emitting intense light and sound (the chemical charges of the chemical substances comprise Ammonium (Ammonium; chemical formula: NH4 +), positive ions derived from ammonia molecules, and the positive ions are written into Ammonium due to metallicity and can explode to generate huge sound, and magnesium powder.

According to the invention, the push rod is arranged, when the push rod is positioned at the first position, the push rod is limited by the limiting slide rod, the sealing disc is limited to rotate, the sealing disc seals the smoke hole, the accommodating shell is sealed, and smoke generated by the smoke bomb can enable the unlocking door to rotate, so that the smoke bomb is popped out to two sides to form a transverse smoke isolation belt to block the bear; when the push rod was located the second position, sealed dish rotated to fuming hole and air vent intercommunication, and the butt piece slides to between sliding seat and the slip post, and the restriction striking strip slides to prevent that the fuming bullet from popping out, generate reuniform smog fast and act on wild brown bear.

According to the ejection component, the accommodating shell is arranged, so that when the accommodating shell is in an accommodating state, the accommodating shell can be placed in the ejection component, the overall occupied space is small, and the ejection component is convenient to store and carry; when the containing shell is in an unfolded state, the containing shell is used as a flying wing of the guide shell, so that the guide shell can be ensured to fly horizontally, namely, the smoke bomb can be horizontally popped out to the left side and the right side to form a transverse smoke isolation belt; meanwhile, in the process of unfolding the accommodating shell, the friction parts mutually rub to ignite the fuse of the smoke bomb to generate smoke, and the use is simple and convenient.

According to the invention, the linkage rod is arranged, when the flying component flies for a certain time, sufficient smoke generated in the accommodating shell pushes the unlocking door to rotate, so that the sliding block drives the linkage rod to slide, the smoke bomb pops up to the left side and the right side to form a transverse smoke zone, and the wild brown bear is blocked; when the flight assembly flies for a certain time, the impact strip is impacted, the linkage rod is enabled to slide synchronously, the smoke bomb pops out to the left side and the right side, a transverse smoke belt is formed in advance, the flight path deviation of the flight assembly is avoided, and the formed transverse smoke belt cannot play a role in blocking.

The invention can form a transverse smoke zone and prevent wild animals such as wild brown bears and the like from approaching a user; the invention can form the bulk smoke, quickly generate and act on wild animals such as wild brown bears and the like, and drive away the wild animals such as the wild brown bears and the like; the invention adopts the ejection mode to emit smoke, so that the smoke is far away from a user, the smoke is prevented from being damaged, the smoke is not required to be thrown, and the use is convenient and controllable; the invention has small occupied volume in the storage state, is convenient to store and carry about, and can be used at any time and any place.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic exploded view of the present invention.

Fig. 3 is an exploded view of the ejection assembly of the present invention.

Figure 4 is an exploded view of the flight assembly of the present invention.

Fig. 5 is an exploded view of the dispensing assembly of the present invention.

Fig. 6 is an exploded view of the seal assembly of the present invention.

Fig. 7 is an exploded view of the first unlocking part of the present invention.

Fig. 8 is an exploded view of a second unlocking part according to the present invention.

FIG. 9 is a schematic view of the storage state of the present invention.

Fig. 10 is a schematic structural view of the present invention in a flying state.

Fig. 11 is a schematic structural view of the first unlocking portion unlocking according to the present invention.

Fig. 12 is a schematic structural view of the second unlocking portion unlocking of the present invention.

Figure 13 is a schematic diagram of the structure of the invention for producing puff smoke.

1. An ejection assembly; 11. a gripping barrel; 111. a communicating groove; 12. a gravity cylinder; 121. an inwardly projecting slider; 122. a balancing weight; 123. a linkage groove; 13. rotating the disc; 14. a puck; 15. an ejection spring; 16. a transmitting ring; 161. an annular groove; 162. a linkage block; 17. shifting blocks; 171. a deflector rod; 18. ejecting a limit hook; 181. ejecting the eccentric hole; 21. a guide shell; 211. ejecting a card hole; 212. an open slot; 22. a striking head; 221. extending the column; 3. a flight assembly; 31. a rotating shaft; 311. a sliding post; 312. a limiting table; 313. a synchronizing gear; 32. a housing case; 321. a slide hole; 322. a smoke outlet; 323. a sliding seat; 324. a notch; 325. a smoke hole; 33. a friction portion; 34. a flying torsion spring; 35. a flying spring; 4. a dispersion assembly; 41. a smoke cartridge; 411. a snap ring; 42. an elastic column; 43. dispersing the limiting hooks; 431. dispersing the eccentric columns; 44. a linkage rod; 441. a transverse bar; 45. dispersing tension springs; 46. dispersing the torsion springs; 5. a first unlocking portion; 51. a slider; 52. a transmission lever; 53. unlocking the door; 531. unlocking the eccentric column; 6. a second unlocking portion; 61. an impact bar; 611. a sliding post; 612. unlocking the sliding column; 62. a striking spring; 7. a seal assembly; 71. sealing the disc; 711. a vent hole; 712. sealing the eccentric column; 72. a push rod; 721. pushing the groove; 722. a limiting block; 723. a butting block; 73. a limiting slide bar; 74. sealing the torsion spring; 75. and a limit tension spring.

Detailed Description

According to fig. 1 to 13, the throwing device for driving wild brown bear away by acousto-optic smell according to the embodiment comprises two flying assemblies 3 and an ejection assembly 1 capable of ejecting the two flying assemblies 3 forwards; a dispersion assembly 4 is arranged in each flying assembly 3.

The flying component 3 comprises a containing shell 32 which can be connected with the ejection component 1 in a sliding way; dispersion subassembly 4 is including a plurality of along left right direction sliding connection hold in the shell 32 can produce the smoke bomb 41 that drives bear smoke, a plurality of setting is in what the elasticity on the shell 32 is unequal can with corresponding dispersion extension spring 45 that smoke bomb 41 popped out and along fore-and-aft direction sliding connection hold on the shell 32 can with correspond the gangbar 44 of smoke bomb 41 joint.

The smoke cartridge 41 consists of a cartridge shell, a fuse and a smoke agent; the white phosphorus of the smoke agent is thrown into the air, and the white phosphorus immediately burns automatically as soon as meeting the air, and generates rolling dense smoke continuously; the flying assembly 3 further comprises a plurality of elastic columns 42 which are connected in the accommodating shell 32 in a sliding way and respectively abut against the corresponding smoke-generating cartridges 41; the dispersion tension spring 45 is disposed between the elastic column 42 and the accommodating case 32.

When the device is used at a first distance, smoke generated by the smoke-generating cartridges 41 drives the linkage rod 44 to slide, so that the linkage rod 44 is not clamped with the smoke-generating cartridges 41, and the smoke-generating cartridges 41 are respectively ejected towards the left side and the right side under the elastic action of the dispersion tension springs 45 with different elastic forces, so that a transverse smoke isolation belt is formed to block the approach of a bear.

When the cigarette holder is used at the second distance, the second distance is smaller than the first distance, the smoke generated by the smoke cartridges 41 does not drive the linkage rod 44 to slide, the smoke generated by each smoke cartridge 41 is directly emitted through the accommodating shell 32, and a large amount of bulk smoke is quickly formed to drive the bears to move away.

A smoke outlet 322 communicated with the outside is formed on the inner wall of the accommodating shell 32; a first unlocking part 5 capable of driving the corresponding linkage rod 44 to slide is arranged in each flight assembly 3; the first unlocking part 5 comprises an unlocking door 53 which is longitudinally arranged on a rotating shaft rotationally connected to the accommodating shell 32 and can drive the corresponding linkage rod 44 to slide; the unlocking door 53 can seal the smoke exhaust 322.

The first unlocking part 5 further comprises a sliding block 51 which is connected to the accommodating shell 32 in a sliding manner along the front-back direction and can drive the corresponding linkage rod 44 to slide, and a transmission lever 52 which is rotatably connected to the accommodating shell 32 and is provided with a rotating shaft along the longitudinal direction and is used for driving the corresponding sliding block 51 to slide; an unlocking eccentric column 531 is formed on the unlocking door 53, the axis of which is parallel to and does not coincide with the rotating shaft of the unlocking door 53, and the unlocking eccentric column is used for driving the corresponding transmission lever 52 to rotate; one end of the linkage rod 44 close to the sliding block 51 is formed with a transverse rod 441 capable of abutting against the sliding block 51.

A smoke generating hole 325 communicated with the outside is formed at the upper end of the inner wall of the accommodating shell 32; a sealing assembly 7 is respectively arranged in each flying assembly 3; the sealing assembly 7 comprises a sealing disc 71 which is connected to the rotating shaft on the accommodating shell 32 in a sealing and rotating manner and is longitudinally arranged and capable of sealing the corresponding smoke generating hole 325; the front ends of the two flying assemblies 3 are connected with a striking head 22 capable of driving the sealing disc 71 to rotate in a sliding mode along the front-back direction; the seal disk 71 is formed with a vent hole 711 that can communicate with the corresponding smoking hole 325.

After the flying assembly 3 flies for a certain time, the accommodating shell 32 generates enough bear-driving smoke to drive the unlocking door 53 to rotate, so that the linkage rod 44 is not clamped with the smoke bomb 41.

When the flying assembly 3 flies for a certain period of time, the striking head 22 slides by striking, and then the sealing disc 71 rotates to no longer seal the accommodating shell 32, and the smoke generated by each of the smoke cartridges 41 is directly emitted through the smoke hole 325.

A second unlocking part 6 capable of driving the corresponding linkage rod 44 to slide is arranged in each flight assembly 3; the second unlocking part 6 comprises an impact strip 61 which is connected to the front end of the accommodating shell 32 in a sliding manner along the front-back direction and can drive the corresponding linkage rod 44 to slide.

A notch 324 for accommodating the striking strip 61 is formed at the front end of the accommodating shell 32; the striking bar 61 is formed with a plurality of sliding columns 611 evenly arranged and slidably connected with the corresponding accommodating shells 32 towards one end of the corresponding accommodating shells 32; a striking spring 62 for sliding the striking bar 61 in a direction away from the accommodating shell 32 is arranged between the striking bar 61 and the accommodating shell 32; an unlocking sliding column 612 capable of driving the linkage rod 44 to slide is formed at one end of the impact bar 61 facing the accommodating shell 32.

In the flying process of the flying component 3, when the impact strip 61 slides under impact, the linkage rod 44 is not clamped with the smoke bomb 41, the smoke bomb 41 is popped out in advance to form a transverse smoke belt, and the direction deviation of the smoke belt caused by the flying track deviation of the flying component 3 is prevented.

The sealing assembly 7 further comprises a push rod 72 slidably connected in the accommodating shell 32 and capable of abutting against the rear end of the impact strip 61; and a sealing eccentric column 712 which is used for driving the push rod 72 to slide and has an axis parallel to and not coincident with the rotating shaft of the sealing disc 71 is formed on the sealing disc 71.

A push slot 721 capable of being slidably connected with the corresponding sealing eccentric column 712 is formed on the push rod 72; an abutting block 723 capable of abutting against the rear end of the impact bar 61 is formed at one end, close to the linkage rod 44, of the push rod 72; a plurality of sliding seats 323 which are respectively connected with the corresponding elastic columns 42 in a sliding manner are formed in the accommodating shell 32; two ends of the abutting block 723 can abut against the sliding seat 323 and the sliding column 611 respectively.

When the sealing disc 71 rotates to no longer seal the accommodating shell 32, the push rod 72 slides to abut against the rear end of the impact strip 61, and the impact strip 61 cannot drive the linkage rod 44 to slide, so that the smoke cartridge 41 is prevented from being ejected.

The ejection assembly 1 comprises a holding cylinder 11, a gravity cylinder 12 which is rotatably connected with a rotating shaft in the holding cylinder 11 and is arranged along the front-back direction and is capable of mounting the flying assembly 3, and an ejection spring 15 which is arranged at the rear part of the holding cylinder 11 and is capable of ejecting the flying assembly 3; a counterweight 122 is formed on one side of the inner wall of the gravity cylinder 12 close to one side; the weight block 122 drives the gravity cylinder 12 to rotate under the action of gravity, so that the upper end of the flying assembly 3 is always above.

The ejection assembly 1 further comprises a rotating disc 13 which is connected in the gravity cylinder 12 in a sliding manner and is abutted against the rear end of the flying assembly 3, and an elastic disc 14 which is connected to the rear end of the rotating disc 13 in a rotating manner; the launching spring 15 is arranged between the elastic disc 14 and the holding cylinder 11; an insertion opening for inserting the flying assembly 3 is formed at the front end of the gravity cylinder 12; inner convex sliding strips 121 which can be abutted against the accommodating shell 32 are respectively formed on the left side wall and the right side wall of the insertion opening.

The gravity cylinder is characterized by also comprising a guide shell 21 which can be connected in the gravity cylinder 12 in a sliding manner along the front-back direction; the impact head 22 is connected to the front end of the diversion shell 21 in a sliding manner along the front-back direction; the flying assembly 3 further comprises two flying springs 35 which are respectively arranged between the accommodating shell 32 and the guide shell 21 and used for enabling the accommodating shell 32 to slide in the vertical direction in opposite directions, and two flying torsion springs 34 which are respectively arranged between the accommodating shell 32 and the guide shell 21 and used for enabling the accommodating shell 32 to rotate towards the left side and the right side respectively.

The outer wall of the housing case 32 is provided with a friction portion 33 toward one end of the other housing case 32; the friction portions 33 are abutted against each other, and when the friction portions 33 slide relative to each other, heat is generated to ignite the fuse of the cartridge 41.

When the flying assembly 3 is located in the gravity cylinder 12, the two accommodating shells 32 are located at the limit positions close to each other, the accommodating shells 32 are overlapped with each other in the vertical direction, and the flying spring 35 and the flying torsion spring 34 accumulate force, occupy small space and are convenient to store and carry.

When the flying assembly 3 flies out of the gravity cylinder 12, the accommodating shell 32 rotates to the left and right under the action of the elasticity of the flying torsion spring 34 and the flying spring 35, and slides to the upper end of the accommodating shell 32 in the same horizontal plane in opposite directions, and the accommodating shell 21 serves as a wing for the guide shell 21 to fly horizontally.

The accommodating component 1 further comprises an ejection limiting hook 18, a transmission ring 16 and two symmetrically arranged shifting blocks 17, wherein the ejection limiting hook 18 is connected with the gravity cylinder 12 in a rotating mode along the left-right direction and can be clamped with the guide shell 21, the transmission ring is connected with the holding cylinder 11 in a rotating mode along the front-back direction and can drive the ejection limiting hook 18 to rotate, and the two shifting blocks 17 are connected with the outer wall of the holding cylinder 11 in a sliding mode along the front-back direction and are used for driving the transmission ring 16 to slide; the gravity cylinder 12 rotates to synchronously drive the launching ring 16 to rotate.

An ejection clamping hole 211 which can be clamped with the ejection limiting hook 18 is formed at the lower end of the diversion shell 21; an ejection eccentric hole 171 with an axis parallel to the rotating shaft and not coincident with the rotating shaft is formed on the ejection limiting hook 18; a pull wire is arranged between the ejection eccentric hole 171 and the emission ring 16; a linkage block 162 is formed on the inner wall of the transmitting ring 16; a linkage groove 123 which is connected with the linkage block 162 in a sliding manner and can drive the linkage block 162 to rotate is formed at the rear part of the outer wall of the gravity cylinder 12; the outer wall of the emission ring 16 is formed with a coaxially arranged annular groove 161; a shifting rod 171 which is connected with the annular groove 161 in a sliding way is formed at one end of the shifting block 17, which is close to the transmitting ring 16; two symmetrically arranged communicating grooves 111 which are respectively connected with the corresponding shifting blocks 17 in a sliding manner are formed at the rear part of the outer wall of the holding cylinder 11.

The sealing assembly 7 comprises a sealing torsion spring 74 arranged between the sealing disc 71 and the corresponding accommodating shell 32, and a limiting slide rod 73 which is connected in the accommodating shell 32 in a sliding manner along the front-back direction and can limit the sliding of the push rod 72; the impact head 22 slides to synchronously drive the limit slide rod 73 to slide.

A limit tension spring 75 for enabling the limit slide rod 73 to slide forwards is arranged between the limit slide rod 73 and the accommodating shell 32; a limiting block 722 which can be clamped with the limiting slide rod 73 is formed at one end of the push rod 72 close to the limiting slide rod 73; two symmetrically arranged extending columns 221 which can respectively abut against the corresponding limiting slide rods 73 and push the limiting slide rods to slide are formed at the rear end of the impact head 22.

When the limiting slide rod 73 is located at the front limit position, the limiting slide rod 73 can limit the push rod 72 to slide, the sealing disc 71 seals the accommodating shell 32, and the sealing torsion spring 74 stores force.

When the limiting slide rod 73 is located at the rear limit position, the limiting slide rod 73 is not in contact with the push rod 72, and the sealing disc 71 rotates to no longer seal the accommodating shell 32 under the elastic force of the sealing torsion spring 74.

A clamping ring 411 is formed on the outer wall of the smoke bomb 41; the dispersing assembly 4 comprises a plurality of dispersing limit hooks 43 which are rotatably connected with the rotating shaft in the accommodating shell 32 in the longitudinal direction and are respectively clamped with the corresponding clamping rings 411, and a plurality of dispersing torsion springs 46 which are arranged between the dispersing limit hooks 43 and the accommodating shell 32 and are used for clamping the limit hooks 43 with the clamping rings 411; the linkage rods 44 are respectively connected with the corresponding limiting hooks 43 in a rotating mode, and the rotating shafts of the linkage rods 44 are parallel to and do not coincide with the rotating shafts of the limiting hooks 43.

And a dispersing eccentric column 431 which is connected with the linkage rod 44 in a rotating way and has an axis parallel to and not coincident with the rotating shaft of the dispersing limit hook 43 is formed on the dispersing limit hook 43.

The flying assembly 3 comprises two symmetrically arranged rotating shafts 31 which are respectively connected to the guide shell 21 in a rotating manner and are slidably connected with the corresponding accommodating shell 32; a sliding hole 321 with the same rotation axis is formed on the accommodating shell 32; the outer wall of the rotating shaft 31 is formed with a sliding column 311 capable of driving the corresponding sliding hole 321 to rotate.

A synchronous gear 313 is fixedly connected to the center of the lower end of the rotating shaft 31; the two synchronous gears 313 are in transmission connection; a limit table 312 which can be abutted against the corresponding accommodating shell 32 is formed on the outer wall of the rotating shaft 31; the accommodating shells 32 are pressed against the limiting table 312 under the elastic force of the flying spring 35, and the upper ends of the two accommodating shells 32 are in the same horizontal plane.

In an initial state, the sealing torsion spring 74 stores force, the sealing disc 71 seals the smoke generating hole 325, the vent hole 711 is not communicated with the smoke generating hole 325, the unlocking door 53 seals the smoke exhaust port 322, and the accommodating shell 32 is in a sealing state; the flying assemblies 3 are in a storage state, the two flying assemblies 3 are overlapped, and the flying torsion spring 34 and the flying spring 35 are in a force storage state; the flying component 3 is positioned in the gravity cylinder 12, the ejection limiting hook 18 is clamped with the ejection clamping hole 21, the ejection spring 15 compresses to store force, and the shifting block 17 is positioned at the front limiting position.

When animals such as wild brown bears are encountered outdoors, the movement speed of the animals is usually higher than that of people, so that the wild brown bears can be blocked by the product in the escape process, and the animals are prevented from being attacked. When the wild brown bear is relatively far away from the user, the user takes out the product, holds the holding cylinder 11, and points to the wild brown bear with the front part of the product, namely the impact head 22 points to the wild brown bear, and the counterweight 122 of the gravity cylinder 12 drives the gravity cylinder 12 to rotate under the action of gravity, so that the upper end of the flying component 3 is always positioned right above. Subsequently, the shifting block 17 is pulled backwards, the shifting block 17 slides to drive the shifting rod 171 to slide, the shifting rod 171 slides to drive the annular groove 161 to slide, so that the emission ring 16 slides backwards, the emission ring 16 slides to drive the eccentrically arranged ejection eccentric hole 181 to rotate through the pulling rope, and then the ejection limiting hook 18 rotates to be no longer clamped with the ejection clamping hole 21.

The flying assembly 3 will fly out forward under the elastic force of the ejection spring 15, when the accommodating case 32 no longer abuts against the inner convex slide bar 121, the rotating shaft 31 rotates under the elastic force of the flying torsion spring 34, the rotating shaft 31 rotates to drive the sliding column 311 to rotate, the sliding column 311 rotates to drive the sliding hole 321 to rotate, and then the two accommodating cases 32 are respectively rotated and unfolded towards two sides. When the two accommodating cases 32 are rotated and unfolded to be no longer abutted in the up-down direction, the accommodating cases 32 slide to be abutted against the corresponding limit tables 312 under the elastic force of the flying springs 35, so that the upper ends of the two accommodating cases 32 are in the same horizontal plane. When the containing shells 32 rotate to abut against the inner wall of the front end of the open slot 212, the two containing shells 32 are completely unfolded, and the containing shells 32 form two horizontal flying wings of the diversion shell 21, so that the flying assembly 3 can fly to wild brown bears horizontally.

During the process of rotating the two containing shells 32 towards each other, the friction part 33 mutually rubs to ignite the fuse of each smoke cartridge 41, the filler in the smoke cartridge 41 burns to generate a large amount of smoke, the smoke quickly fills the whole containing shell 32, and the pressure in the containing shell 32 is increased along with the generation of a large amount of smoke in the smoke cartridge 41. When the pressure inside the accommodating case 32 increases to a certain value, the pressure drives the unlocking door 53 to rotate, the unlocking door 53 rotates to drive the eccentrically arranged unlocking eccentric column 531 to rotate, and the unlocking eccentric column 531 rotates to drive the transmission lever 52 to rotate. The transmission lever 52 rotates to drive the sliding block 51 to slide, the sliding block 51 slides to drive the transverse rod 441 to move, so that the linkage rod 44 slides, and the linkage rod 44 slides to drive the eccentrically arranged dispersion eccentric column 431 to rotate, so that the dispersion limiting hook 43 rotates. The dispersion limiting hook 43 is not connected with the clamping ring 411 in a clamping mode any more, the smoke cartridges 41 transversely pop up under the elastic action of the dispersion tension springs 45, and the elastic force of the dispersion tension springs 45 installed on the same smoke cartridge in the accommodating shell 32 is increased in sequence, so that the smoke cartridges 41 on the left side and the right side of the flying assembly 3 are uniformly dispersed. The smoke bomb 41 is fuming continuously, and a transverse smoke isolation belt is formed between the wild brown bear and the human body to prevent the bear from chasing the human body.

In the actual use process, the forest can be used, the flying assembly 3 is blocked in flying due to the fact that the open belts are not enough, the transverse smoke isolation belts cannot be formed between people and wild brown bears, the effect is reduced (for example, the flying assembly 3 is collided and deflected by ninety degrees, the smoke isolation belts cannot block), and therefore the forest has a second dispersion mode. When the flying assembly 3 is blocked by branches and the like, the impact strip 61 at the front end of the accommodating shell 32 slides backwards due to impact, the impact spring 62 compresses, the impact strip 61 slides to drive the sliding column 611 to slide, and the sliding column 611 slides to drive the linkage rod 44 to slide, so that the dispersing limit hook 43 rotates to be not clamped with the clamping ring 411. The smoke bomb 41 will pop out towards both sides of the flying assembly 3 quickly to form a smoke zone, and even if the smoke zone is not completely horizontal and transversely arranged between a person and a wild brown bear, the slightly inclined smoke zone can also play a sufficient blocking effect.

When the wild brown bear is relatively close to the user, the user aims the impact head 22 directly at the wild brown bear, and then pulls the shifting block 17 backwards, and the flying assembly 3 flies forwards and directly impacts the wild brown bear. When the impact head 22 is impacted, the impact head will slide backwards, that is, the extension column 221 slides backwards, the extension column 22 slides backwards to drive the limiting slide rod 73 to slide backwards, so that the limiting slide rod 73 is no longer clamped with the push rod 72, the sealing disc 71 rotates under the elastic force of the sealing torsion spring 74, and the vent hole 711 is communicated with the smoke generating hole 325. The smog that the smoke bomb 41 in the holding shell 32 produced sends outwards through smoke hole 325 fast, forms the bulk smog, compares in the smog area of rectangular shape, and the bulk smog volume of giving out smoke is more concentrated, and it is faster to produce smog speed to can act on wild brown bear on one's body rapidly, in order to reach the purpose of protection user.

In the process of rotating the sealing disc 71, the eccentrically arranged sealing eccentric column 712 is synchronously driven to rotate, the sealing eccentric column 712 rotates to drive the push groove 721 to slide so as to slide the push rod 72, the push rod 72 slides to drive the abutting block 723 to slide, so that the abutting block 723 moves between the sliding column 611 and the sliding seat 323, and the impact strip 61 cannot slide. When the flying assembly 3 is impacted and falls downward, the impact strip 61 is prevented from sliding under impact, i.e., the smoke cartridge 41 is prevented from ejecting.

The smoke-generating bomb 41 is internally provided with chemical substances capable of emitting intense light and sound (the chemical charges of the chemical substances comprise Ammonium (Ammonium; chemical formula: NH4 +), positive ions derived from ammonia molecules, and the positive ions are written into Ammonium due to metallicity and can explode to generate huge sound, and magnesium powder.

According to the invention, the push rod 72 is arranged, when the push rod 72 is positioned at the first position, the push rod 72 is limited by the limiting slide rod 73, the sealing disc 71 is limited to rotate, the sealing disc 71 seals the smoke hole 325, the accommodating shell 32 is sealed, smoke generated by the smoke bomb 41 can enable the unlocking door 53 to rotate, so that the smoke bomb 41 is popped out to two sides to form a transverse smoke isolation belt to block a bear; when the push rod 72 is located at the second position, the sealing disc 71 rotates until the smoke generating hole 325 is communicated with the vent hole 711, the abutting block 723 slides to a position between the sliding seat 323 and the sliding column 611, the sliding of the impact bar 61 is limited, the smoke bomb 41 is prevented from being ejected, and the mass-shaped smoke is rapidly generated and acts on the wild brown bear.

According to the invention, the accommodating shell 32 is arranged, when the accommodating shell 32 is in the accommodating state, the accommodating shell 32 can be placed in the ejection assembly 1, the whole occupied space is small, and the storage and carrying are convenient; when the accommodating shell 32 is in the unfolding state, the accommodating shell 32 is used as a flying wing of the guide shell 21, so that the guide shell 21 can be ensured to fly horizontally, namely, the smoke bomb 41 can be horizontally popped out towards the left side and the right side to form a transverse smoke isolation belt; meanwhile, in the process of unfolding the accommodating shell 32, the friction parts 33 mutually rub to ignite the fuse of the smoke cartridge 41 to generate smoke, and the use is simple and convenient.

According to the invention, the linkage rod 44 is arranged, when the flying component 3 flies for a certain time, sufficient smoke generated in the accommodating shell 32 pushes the unlocking door 53 to rotate, so that the sliding block 51 drives the linkage rod 44 to slide, the smoke-generating bomb 41 pops out to the left side and the right side to form a transverse smoke zone, and wild brown bears are blocked; when the flying component 3 flies for a certain time, the striking strip 61 is struck, the linkage rod 44 is enabled to slide synchronously, the smoke bomb 41 is popped out towards the left side and the right side, a transverse smoke belt is formed in advance, the flying path deviation of the flying component 3 is avoided, and the formed transverse smoke belt cannot play a role in blocking.

The invention can form a transverse smoke zone and prevent wild animals such as wild brown bears and the like from approaching a user; the invention can form the bulk smoke, quickly generate and act on wild animals such as wild brown bears and the like, and drive away the wild animals such as the wild brown bears and the like; the invention adopts the ejection mode to emit smoke, so that the smoke is far away from a user, the smoke is prevented from being damaged, the smoke can be thrown without being used, and the use is convenient and controllable; the invention has small occupied volume in the storage state, is convenient for storage and carry about and can be used at any time and any place.

Claims (10)

1. A throw type device for expelling wild brown bear through acousto-optic flavor is characterized in that: the ejection mechanism comprises two flying assemblies and an ejection assembly capable of ejecting the two flying assemblies forwards; a dispersion assembly is respectively arranged in each flight assembly; the flying assembly comprises an accommodating shell which can be connected with the ejection assembly in a sliding manner; the dispersing assembly comprises a plurality of smoke cartridges which are connected in the accommodating shell in a sliding manner and can generate smoke for driving bear smoke, a plurality of dispersing tension springs which are arranged on the accommodating shell and have different elastic forces and can eject the corresponding smoke cartridges, and a linkage rod which is connected on the accommodating shell in a sliding manner and can be clamped with the corresponding smoke cartridges; when the device is used at a first distance, smoke generated by the smoke bomb drives the linkage rod to slide, so that the linkage rod is not clamped with the smoke bomb, and the smoke bombs are respectively popped out towards the left side and the right side to form a transverse smoke isolation belt to block a bear from approaching; when the cigarette is used at a second distance, the second distance is smaller than the first distance, smoke generated by each smoke bomb is directly emitted through the accommodating shell, and a large amount of bulk smoke is quickly formed to drive the bear away.

2. The slingshot device for acoustic-optic scent driven wildbrown bear removal of claim 1, wherein: a smoke outlet communicated with the outside is formed in the inner wall of the accommodating shell; a first unlocking part capable of driving the corresponding linkage rod to slide is arranged in each flight assembly; the first unlocking part comprises an unlocking door which is rotatably connected to the accommodating shell and can drive the corresponding linkage rod to slide; the unlocking door can seal the smoke outlet; a smoke generating hole communicated with the outside is formed at the upper end of the inner wall of the accommodating shell; a sealing assembly is arranged in each flying assembly; the sealing assembly comprises a sealing disc which is connected to the accommodating shell in a sealing and rotating mode and can seal the corresponding smoke generating hole; the front ends of the two flying assemblies are slidably connected with an impact head capable of driving the sealing disc to rotate; when the flying assembly flies for a certain time, the accommodating shell generates sufficient bear-driving smoke to drive the unlocking door to rotate, and then the linkage rod is not clamped with the smoke bomb any more; when the flying assembly flies for a certain time, the striking head is struck to slide, so that the sealing disc rotates to not seal the containing shell, and smoke generated by each smoke bomb directly emits through the smoke generating hole.

3. The slingshot device for acoustic-optic scent driven wildbrown bear removal of claim 2, wherein: a second unlocking part capable of driving the corresponding linkage rod to slide is arranged in each flight assembly; the second unlocking part comprises an impact strip which is connected to the front end of the accommodating shell in a sliding manner and can drive the corresponding linkage rod to slide; during the flight of the flight assembly, when the impact strip slides due to impact, the linkage rod is not clamped with the smoke bomb, the smoke bomb is popped out in advance to form a transverse smoke belt, and the flight assembly is prevented from causing the direction deviation of the smoke belt due to the flight track deviation.

4. A slingshot device for acoustic-optic scent driven wildbrown bear removal as claimed in claim 3 wherein: the sealing assembly also comprises a push rod which is connected in the containing shell in a sliding way and can prop against the rear end of the impact strip; a sealing eccentric column which has an axis parallel to the sealing disc rotating shaft and is not coincident with the sealing disc rotating shaft and is used for driving the push rod to slide is formed on the sealing disc; when the sealed dish rotates to no longer sealed when holding the shell, the push rod slide to with striking strip rear end supports, striking strip can not drive the gangbar slides, prevents the smoke cartridge pops out.

5. The slingshot device for acoustic-optic scent driven wildbrown bear removal of claim 2, wherein: the ejection assembly comprises a holding cylinder, a gravity cylinder which is rotatably connected in the holding cylinder and can be used for mounting the flight assembly, and an ejection spring which is arranged at the rear part of the holding cylinder and can eject the flight assembly; a balancing weight is formed on one side, close to the inner wall of the gravity cylinder, of the inner wall of the gravity cylinder; the balancing weight drives the gravity cylinder to rotate under the action of gravity, so that the upper end of the flying assembly is always positioned above the gravity cylinder.

6. The slinger device for acoustic-optic scent drive away of bear bushy as claimed in claim 5 wherein: the gravity cylinder is connected with the guide shell in a sliding manner along the front-back direction; the impact head is connected to the front end of the diversion shell in a sliding manner; the flying assembly also comprises two flying springs which are respectively arranged between the accommodating shell and the guide shell and are used for enabling the two accommodating shells to slide oppositely in the vertical direction, and two flying torsion springs which are respectively arranged between the accommodating shell and the guide shell and are used for enabling the two accommodating shells to rotate towards the left side and the right side respectively; when the flying assembly is positioned in the gravity cylinder, the two accommodating shells are positioned at the limit positions close to each other, the accommodating shells are mutually overlapped in the vertical direction, and the flying spring and the flying torsion spring accumulate force, so that the whole occupied space is small, and the flying assembly is convenient to store and carry; when the flight subassembly flies out during the gravity section of thick bamboo, it is in to hold the shell the flight torsional spring flight spring, flight spring's elasticity effect down, when rotating to the left and right sides, slide in opposite directions extremely hold the shell upper end and be located same horizontal plane, it is as the wing of blower inlet casing horizontal flight to hold the shell.

7. The slinger device for acoustic-optic scent driven wildbrown bear removal of claim 5, wherein: the accommodating assembly further comprises an ejection limiting hook which is rotatably connected in the gravity cylinder and can be clamped with the guide shell, an emission ring which is rotatably connected in the holding cylinder and can drive the ejection limiting hook to rotate, and a shifting block which is slidably connected to the outer wall of the holding cylinder and is used for driving the emission ring to slide; the gravity cylinder rotates to synchronously drive the launching ring to rotate.

8. The slingshot device for acoustic-optic scent driven wildbrown bear removal of claim 4, wherein: the sealing assembly comprises a sealing torsion spring arranged between the sealing disc and the corresponding accommodating shell and a limiting sliding rod which is connected in the accommodating shell in a sliding manner and can limit the sliding of the push rod; the impact head can synchronously drive the limiting slide rod to slide when sliding; when the limiting slide bar is located at the front limit position, the limiting slide bar can limit the push rod to slide, the sealing disc seals the accommodating shell, and the sealing torsion spring stores force; when the limiting slide rod is located at the rear limit position, the limiting slide rod is not in contact with the push rod, and the sealing disc rotates to be not sealed under the elastic action of the sealing torsion spring to accommodate the shell.

9. The slingshot device for acoustic-optic scent driven wildbrown bear removal of claim 1, wherein: the outer wall of the smoke cartridge is formed with a clamping ring; the dispersion subassembly is connected including a plurality of rotations hold in the shell respectively with correspond spacing colluding of dispersion of joint ring joint the gangbar respectively with correspond spacing colluding rotates to be connected, just the axis of rotation of gangbar with spacing axis of rotation that colludes is parallel and not coincident.

10. The slingshot device for acoustic-optic scent driven wildbrown bear removal of claim 6, wherein: the flying assembly comprises two rotating shafts which are symmetrically arranged and respectively rotatably connected to the guide shell and are in sliding connection with the corresponding containing shell; a sliding hole with the same rotating shaft is formed in the accommodating shell; and a sliding column which can drive the corresponding sliding hole to rotate is formed on the outer wall of the rotating shaft.

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