The present invention relates to a crossbow, and more particularly, to a crossbow with a quick-shooting device that allows the crossbow to shoot bullets continuously.
The conventional crossbows uses a bow connected to a barrel and has a cocking device to efficiently pull the string to shoot the arrows by the energy stored by the strings. However, the arrows have to be set to the crossbow one by one, and this takes time. In other words, the crossbows cannot shoot arrows continuously, and this shortcoming restricts the use of the crossbows.
Some developers develop a crossbow that shoots bullets which are in a form of balls or beads. The main concern for this improved crossbow is how to quickly feed the bullets and shoot the bullets continuously. The balls or beads are small and have a smooth outer surface so that when feeing the bullets, the balls or beads easily drop to affect the shooting processes.
The present invention intends to provide a quick-shooting device that is cooperated with a crossbow to improve the shortcomings mentioned above.
The present invention relates to a crossbow and comprises a barrel having a front end and a rear end. A track is defined in the top of the barrel and opens through the front end of the barrel. A handle is connected to underside of the rear end of the barrel. A cocking device is connected to the barrel and located above the handle. The cocking device includes a slide installed to the track and has a groove. A is connected to the barrel. A retention member is slidably engaged with the groove and includes an engaging portion. The string connected between two ends of the bow extends through the retention member. When the engaging portion moves away from the bow, the engaging portion is engaged with the cocking device to pull the string. A cartridge is connected to the top of the barrel and fixed to the slide. The cartridge includes a storage space which includes an entrance and an outlet respectively defined in two ends thereof. A restriction member is located in the storage space and located close to the outlet. The restriction member includes a contact end, a push end and a recess. The recess is located between the contact end and the push end. When the cocking device moves toward the rear end of the barrel, the cocking device pushes the push end of the restriction member and the restriction member is pivoted. The contact end contacts a bullet in the storage space. The recess communicates with the outlet, and the bullet drops to the groove and located in front of the retention member. When the cocking device is disengaged from the engaging portion, the retention member is pushed by a recovery force of the string and deliveries the bullet out.
The retention member is repeatedly moved to pivot the restriction member by operation of the string and the cocking device, and the bullets continuously drop into the groove of the slide and located in front of the retention member. Therefore, when the users pull the trigger repeatedly, the crossbow shoots continuously. Besides, multiple numbers of the bullets are fed into the cartridge within one time of feeding.
The primary object of the present invention is to provide a crossbow, wherein multiple bullets are received in the cartridge so as to save the users a lot of time to feed the bullets. The bullets are prevented from dropping as seen on the conventional crossbows if the users have to pick and feed the bullets one by one.
The present invention will become more apparent from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
A bow device 4 is connected to the barrel 1 and includes a bow 41, a string 42 and a retention member 43. The bow 41 is transversely connected to the barrel 1, and the string 42 is connected between two ends of the bow 41. The retention member 43 is slidably engaged with the groove 211 and includes an engaging portion 431 that extends in the direction away from the bow 41. The string 42 extends through the retention member 43. When the engaging portion 431 moves away from the bow 4, the engaging portion 431 is engaged with the cocking device 2 to pull the string 42.
A link device 5 is connected to the underside of the barrel 1. The front end of the link device 5 is pivotably connected to the underside of the front end 11 of the barrel 1, and the rear end of the link device 5 is fixed to the slide 21 and removably engaged with the lower end of the handle 14.
A cartridge 6 is connected to the top of the barrel 1 and fixed to the slide 21. The cartridge 6 includes a storage space 61 which includes an entrance 62 and an outlet 63 respectively defined in two ends thereof. A restriction member 64 is located in the storage space 61 and located close to the outlet 63. The restriction member 64 includes a contact end 641, a push end 642 and a recess 643. The recess 643 is located between the contact end 641 and the push end 642. When the retention member 43 moves toward the rear end 12 of the barrel 1, the cocking device 2 pushes the push end 642 of the restriction member 64 and the restriction member 64 is pivoted. The contact end 641 contacts a bullet 7 in the storage space 61, because the recess 643 communicates with the outlet 63, so that the bullet 7 drops to the groove 211 and located in front of the retention member 43.
By repeatedly operating the link device 5 and pulling the trigger 24, the cocking device 2 is moved back and forth repeatedly between the front end 11 and the rear end 12, and the retention member 43 moves back and forth to control the restriction member 64 to pivot so that the bullets 7 continuously drop to the groove 211 and located in front of the retention member 43. When the cocking device 2 is disengaged from the engaging portion 431, the retention member 43 is pushed by a recovery force of the string 42 and deliveries the bullet 7 out. Therefore, the crossbow can shoot the bullets 7 continuously. Besides, the bullets 7 can be fed into the cartridge within one time of feeding.
The present invention provides a cartridge 6 which can be fed with multiple bullets 7 within one time of feeding, and the users do not take the risks of dropping the bullets when feeding the bullets 7 to the crossbows as seen on the conventional crossbows as mentioned above. The cartridge 6 is installed to the barrel 1, one end of the cartridge 6 is connected to the slide 21, and the other end of the cartridge 6 is connected to the frame 22. The bullets 7 are stopped by the contact end 641 of the restriction member 54 of the present invention. When the trigger 24 is pulled, the positioning member 23 is driven and releases from the retention member 43, so that the retention member 43 is pushed by the recovery force of the string 42 to shoot the bullet 7. After the first bullet is shot 7, the user pivots the link device 5 to control the cocking device 2 to move toward the retention member 43, and the let the positioning member 23 to be engaged with the engaging portion 431 of the retention member 43. Then the link device 5 is pivoted back, which then slides the cocking device 2 back, and the cocking device 2 and the retention member 43 are moved together. The retention member 43 pulls the string 42. During the movement of the retention member 43, the retention ember 43 pivots the restriction member 64 which allows the bullet 7 to drop from the outlet 643 to the groove 211, and located in front of the retention member 43. When engaging portion 431 of the retention member 43 is inserted into the room 212, the bullet 7 is ready to be shot. By repeatedly operating the above steps, the crossbow can shoot the bullets 7 continuously as shown in
In order to ensure that the bullet 7 drops to the groove 211 one at a time, as shown in
The cartridge 6 includes a passage 65 defined in the underside thereof. The passage 65 is parallel to the storage space 61, and a separation plate 66 is located between the passage 65 and the storage space 61. The retention member 43 is accommodated in the passage 65 when the cartridge 6 is connected the barrel 1. The passage 65 extends along a common direction with the storage space 61. The passage 65 communicates with the outlet 63. The second end of the frame 22 is inserted into the passage 65. Therefore, the bullets 7 are ensured that when they drop from the outlet 63 can precisely drop in the groove 211. Besides, the retention member 43 and the frame 22 are accommodated in the passage 65 and protected by the cartridge 6. The retention member 43 and the frame 22 are also ensured to be slid stably in the passage 65. As shown in
The retention member 43 includes a front head 432 and an elongate hole 433, and the elongate hole 433 is located between the front head 432 and the engaging portion 431. The front head 432 includes a magnet 20 received therein. The string 42 extends through the elongate hoe 433. The engaging portion 431 includes two ridges 431A which respectively extend laterally from the engaging portion 431 and are located opposite to the string 42. The bullets drop from the outlet 63 and are attracted on the front head 432 by the magnet 20. The cocking device 2 moves toward the retention member 43, and the positioning member 23 is located in a recessed area between the retention member 43 and restricted by the two ridges 431A. Therefore, the positioning member 23 that protruded beyond the barrel is engaged with the engaging portion 431 as shown in
The link device 5 includes a pivot bar 51, a first link 52, a second link 53 and a trigger guard 54. The trigger guard 54 has the first end thereof connected to a first end of a board 55, and the second end of the board 55 is connected to an underside of the frame 22. The second end of the trigger guard 54 bends toward the trigger 24 and stops at a distance so as to protect the user's finger. The first link 52 is pivotably connected between the first end of the trigger guard 54 and the first end of the second link 53. The second end of the second link 53 is pivotably connected to the underside of the front end 11 of the barrel 1. The pivot bar 51 has the first end thereof inserted into the track 13 at the underside of the front end 11 of the barrel 1, and the second end of the pivot bar 51 is detachably connected to the lower end of the handle 14. The pivot bar 51 includes a through hole 511 through which the second link 53 extends. The second link 53 includes a slot 531 which communicates with the through hole 511. A pin 56 extends through the pivot bar 51 and the slot 531. When the pivot bar 53 is detached from the handle 14 and pivots toward the front end 11 of the barrel 1, the second link 53 is pivoted by movement of the pin 56. The first link 52 is driven by the second link 53 to control the trigger guard 54 to slide in the track 13. The trigger guard 54 drives the frame 22 to move toward the front end 11 of the barrel 1 to engage the positioning member 23 with the engaging portion 431 of the retention member 43.
The present invention provides a cartridge 6 to receive multiple bullets 7 therein which can be fed into the cartridge 6 in one time of feeding. By repeatedly operating the link device 5 and pulling the trigger 24, the cocking device 2 is moved back and forth repeatedly between the front end 11 and the rear end 12, and the retention member 43 moves back and forth to control the restriction member 64 to pivot so that the bullets 7 continuously drop to the groove 211 and are located in front of the retention member 43. When the cocking device 2 is disengaged from the engaging portion 431, the retention member 43 is pushed by the recovery force of the string 42 and deliveries the bullet 7 out. Therefore, the crossbow can shoot the bullets 7 continuously. Preferably, the cartridge 6 includes an aim device 30 on the top thereof.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
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