ARROW MAGAZINE LOADING DEVICE

Abstract

An arrow magazine loading device is provided. The device includes: an arrow box case, having an arrow channel through the arrow box case from top to bottom; a loading member, having one end elastically pivot assembled in the arrow channel, and the other end movable pressed against the uppermost arrow among a plurality of arrows in the arrow channel; and a clamping control set, pivotally disposed on the bottom surface of the arrow box case and can be movable opened and closed to clamp the lowermost arrow among the plurality of arrows.

Claims

1. An arrow magazine loading device, comprising: an arrow box case, having an arrow channel through the arrow box case from top to bottom; a loading member, having one end elastically pivot assembled in the arrow channel, and the other end movable pressed against the uppermost arrow among a plurality of arrows in the arrow channel; and a clamping control set, pivotally disposed on the bottom surface of the arrow box case and can be movable opened and closed to clamp the lowermost arrow among the plurality of arrows.

2. The arrow magazine loading device according to claim 1, wherein the clamping control set further includes two clamping arms pivotally disposed on the bottom surface of the arrow box case and located on both sides of the arrow channel, and one end of each of the two clamping arms clamps the lowermost arrow among the plurality of arrows when the clamping arms are not swinging.

3. The arrow magazine loading device according to claim 2, wherein the arrow box case further includes two mounting parts recessed corresponding to the two clamping arms, the two clamping arms are assembled on the two mounting parts; wherein each of the two mounting parts includes an axis column on the bottom, and each of the two clamping arms includes an axis hole corresponding to the axis column; wherein the clamping arm is assembled on the corresponding axis column with the axis hole, so that the clamping arm pivots open and close at the mounting part to clamp the arrow.

4. The arrow magazine loading device according to claim 3, wherein each of the mounting parts includes a rod body, and each of the clamping arms has an elliptical hole corresponding to the rod body, and the elliptical hole has an elastic member; wherein when the clamping arm is assembled in the mounting part, the rod body penetrates the elliptical hole; wherein one end of the elastic member disposed against the hole wall of the elliptical hole and the other end of the elastic member disposed against the surface of the rod body, so that the elastic member drives the clamping arm to reset after pivoting.

5. The arrow magazine loading device according to claim 3, wherein both ends of the mounting parts have a guide rail, and both ends of the clamping arms have a guide block corresponding to each guide rail; wherein when each clamping arm pivots, the guide blocks at both ends of the clamping arm move in corresponding guide rails to limit the clamping arm.

6. The arrow magazine loading device according to claim 3, wherein the bottom side of the arrow box case includes a limit groove and a limit stopper on both sides of the arrow channel; wherein the clamping arm has a convex block corresponding to the limit groove, and a limit chute corresponding to the limit stopper; wherein after the clamping arm is pivoted, the limit groove corresponds to the convex block, and the limit stopper corresponds to the limit chute to prevent excessive swing of the clamping arm to reset.

7. The arrow magazine loading device according to claim 2, wherein one side of the clamping arm used to clamp the arrow further includes a fin to prevent the arrow from falling down when the clamping arm has not yet pivoted.

8. An arrow magazine loading device, disposed on an arrow portion of a bow unit, the arrow magazine loading device comprising: an arrow box case, having an arrow channel through the arrow box case from top to bottom; a loading member, having one end elastically pivot assembled in the arrow channel, and the other end movable pressed against the uppermost arrow among a plurality of arrows in the arrow channel; and a clamping control set, pivotally disposed on the bottom surface of the arrow box case and can be movable opened and closed to clamp the lowermost arrow among the plurality of arrows.

9. The arrow magazine loading device according to claim 8, wherein the clamping control set further includes two clamping arms pivotally disposed on the bottom surface of the arrow box case and located on both sides of the arrow channel, and one end of each of the two clamping arms clamps the lowermost arrow among the plurality of arrows when the clamping arms are not swinging.

10. The arrow magazine loading device according to claim 9, wherein the arrow box case further includes two mounting parts recessed corresponding to the two clamping arms, the two clamping arms are assembled on the two mounting parts; wherein each of the two mounting parts includes an axis column on the bottom, and each of the two clamping arms includes an axis hole corresponding to the axis column; wherein the clamping arm is assembled on the corresponding axis column with the axis hole, so that the clamping arm pivots open and close at the mounting part to clamp the arrow.

11. The arrow magazine loading device according to claim 10, wherein each of the mounting parts includes a rod body, and each of the clamping arms has an elliptical hole corresponding to the rod body, and the elliptical hole has an elastic member; wherein when the clamping arm is assembled in the mounting part, the rod body penetrates the elliptical hole; wherein one end of the elastic member disposed against the hole wall of the elliptical hole and the other end of the elastic member disposed against the surface of the rod body, so that the elastic member drives the clamping arm to reset after pivoting.

12. The arrow magazine loading device according to claim 10, wherein both ends of the mounting parts have a guide rail, and both ends of the clamping arms have a guide block corresponding to each guide rail; wherein when each clamping arm pivots, the guide blocks at both ends of the clamping arm move in the corresponding guide rails to limit the clamping arm.

13. The arrow magazine loading device according to claim 10, wherein the bottom side of the arrow box case includes a limit groove and a limit stopper on both sides of the arrow channel; wherein the clamping arm has a convex block corresponding to the limit groove, and a limit chute corresponding to the limit stopper; wherein after the clamping arm is pivoted, the limit groove corresponds to the convex block, and the limit stopper corresponds to the limit chute to prevent excessive swing of the clamping arm to reset.

14. The arrow magazine loading device according to claim 9, wherein one side of the clamping arm used to clamp the arrow further includes a fin to prevent the arrow from falling down when the clamping arm has not yet pivoted.

15. The arrow magazine loading device according to claim 8, wherein the bow unit further includes a slide rail, the arrow platform is assembled on the slide rail and slides forward and backward along the track direction of the slide rail, and the arrow box case moves together with the arrow platform; wherein the bow unit has two blocking ribs close to the end of a bow string set and located on both sides of the slide rail respectively; wherein when the bow unit is loaded, the arrow platform moves toward the bow string set together with the arrow box case, and the blocking rib presses against the clamping control set to pivot so that the arrow located in the arrow box case falls onto the arrow platform.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0006] The described embodiments may be better understood by reference to the following description and the accompanying drawings in which:

[0007] FIG. 1 is a perspective schematic view of one embodiment applied on a bow unit of the present disclosure;

[0008] FIG. 2 is a perspective schematic view of a device of the present disclosure;

[0009] FIG. 2A is an exploded perspective schematic view of FIG. 2;

[0010] FIG. 3 is a schematic perspective view of another angel of the present disclosure;

[0011] FIG. 3A is an exploded perspective schematic view of FIG. 3;

[0012] FIG. 4 is a sectional schematic view of line IV-IV of FIG. 2;

[0013] FIG. 5 is a sectional schematic view of FIG. 4 that the arrow box case has a plurality of arrows;

[0014] FIG. 6 is a sectional schematic view of line VI-VI of FIG. 1 and a partial schematic view of the arrow box case has arrows inside;

[0015] FIG. 7 is a sectional schematic view of line VII-VII of FIG. 1 and a schematic view of the arrow box case has arrows inside;

[0016] FIG. 8 is a sectional schematic view of line VIII-VIII of FIG. 7, and a perspective schematic view of the arrow box case has arrows inside;

[0017] FIG. 9 is a schematic view of movement of loading the bow unit of FIG. 6;

[0018] FIG. 10 is a schematic view of movement of FIG. 7 that after the arrow box case moves, the clamping arms are pressed by the blocking ribs of the bow unit and pivots;

[0019] FIG. 11 is a sectional schematic view of when the arrow is loaded, the clamping arm pivots relative to the arrow box case to release the clamped arrow;

[0020] FIG. 12 is a schematic view of the continuous movements of FIG. 8 that the clamping arms from pivoting and clamping the arrow to release the clamping; and

[0021] FIG. 13 is a schematic view of movement of FIG. 10 when the arrow box case moves away from the bow string set, and the blocking rib presses against the clamping arm to ensure its reset.

DETAILED DESCRIPTION OF THE EXEMPLARY EMBODIMENTS

[0022] Referring to FIG. 1 to FIG. 13, the present disclosure provides an arrow magazine loading device disposed on an arrow portion 200 of a bow unit 100. The arrow magazine loading device includes: an arrow box case 1, having an arrow channel 11 through the arrow box case 1 from top to bottom; a loading member 2, having one end elastically pivot assembled in the arrow channel 11, and the other end movable pressed against the uppermost arrow 300 among a plurality of arrows 300 in the arrow channel 11; and a clamping control set 3, pivotally disposed on the bottom surface of the arrow box case 1 and can be movable opened and closed to clamp the lowermost arrow 300 among the plurality of arrows 300. In addition to the arrow portion 200, the aforementioned bow unit 100 further includes a slide rail 400, a launch grip portion 500, an arrow loading control portion 600 and a string control portion 700 for launching the arrow 300. Furthermore, the string control portion 700 is equipped with a bow string set 800, and the arrow platform 2001 is slidable mounted on the slide rail 400 and moves forward and backward along the track direction of the slide rail 400. The arrow box case 1 moves together with the arrow platform 2001.

[0023] According to the above description, when the user continuously shoots the arrow 300, it is required to first string the bow string set 800 with a foldable stringing set 6001 in the arrow loading control portion 600. The foldable stringing set 6001 moves toward the bow string set 800, and the foldable stringing set 6001 will drive the arrow platform 2001 and the arrow box case 1 to move together. Further, the bow unit 100 has two blocking ribs 900 close to the end of a bow string set 800 and located on both sides of the slide rail 400 respectively. When the arrow box case 1 moves, it will pass between the two blocking ribs 900, and part of the clamping control set 3 is more protruding from both sides of the arrow box case 1, so that the protruding part of the clamping control set 3 will be pressed by the two blocking ribs 900, and the clamping control set 3 will pivot. (As shown in FIG. 10 and FIG. 11, in which FIG. 11 shows the pivot opening direction of the clamp arms 31). After the clamping control set 3 pivots, the clamping to the arrow 300 is released. At this time, the arrow 300 located at the lowermost end of the arrow channel 11 can fall smoothly onto the arrow platform 2001. At the same time, the foldable stringing set 6001 will hook a bow string 8001 in the bow string set 800, and then the user can use the swing reset of the foldable stringing set 6001 to move in the direction opposite to the bow string set 800 until the device returns to the original position, thereby a state of waiting to launch is ready that the bowstring 8001 is tightened and the arrow 300 has been stably set up on the arrow platform 2001. After pressing the trigger 5001 of the launch grip portion 500, the bow string 8001 can be released, allowing the bow string 8001 to eject the arrow 300. Due to the arrow 300 lands smoothly on the arrow platform 2001, the launched arrow 300 can remain stable, and the stability of the arrow 300 provides the shooting accuracy to users.

[0024] According to the above description, the detailed technical features of the present disclosure will be further described below. Firstly, the clamping control set 3 is designed with a structure of two clamping arms 31, as shown in FIG. 3. The clamping control set 3 further includes two clamping arms 31 pivotally disposed on the bottom surface of the arrow box case 1 and located on both sides of the arrow channel 11. Further, when the two clamping arms 31 are not pivoted, one end thereof will protrude from both sides of the arrow box case 1. The other ends of the two clamping arms 31 are relatively close to each other to clamp the arrow 300 in a stable position and limit the arrow 300 from falling into the arrow platform 2001. It mainly allows the arrow box case 1 to be pressed by the blocking ribs 900 during the arrow loading operation, thereby allowing the clamping arms 31 to pivot. During the pivot of the two clamping arms 31, one end of the clamping arms 31 that was originally clamped the arrow 300 gradually releases the clamping of the arrow 300. At this time, the arrow 300 is in a stable position because it was previously clamped by the two clamping arms 31. Therefore, the arrow 300 can also remain stable when it falls on the arrow platform 2001.

[0025] Regarding the structural installation between the clamping arm 31 and the arrow box case 1, the present disclosure mainly forms two mounting parts 12 recessed in the arrow box case 1 corresponding to the clamping arms 31. The two mounting parts 12 are in the form of open groove shape on both sides and are located on both sides of the arrow channel 11. Each of the clamping arms 31 is movably assembled on each of the mounting parts 12, respectively. Moreover, each of the two mounting parts 12 includes an axis column 13 on the bottom, and each of the two clamping arms 31 includes an axis hole 311 corresponding to the axis column 13. The clamping arm 31 is assembled on the corresponding axis column 13 with the axis hole 311, so that the clamping arm 31 pivots open and close at the mounting part 12 to clamp the arrow 300. Further, each of the mounting parts 12 includes a rod body 14, and each of the rod body 14 has a distance between each of the axis column 13. Each of the clamping arms 31 has an elliptical hole 312 corresponding to the rod body 14, and the elliptical hole has an elastic member 4. When the clamping arm 31 is assembled in the mounting part 14, the rod body 14 penetrates the elliptical hole 312. One end of the elastic member 4 disposed against the hole wall of the elliptical hole 312 and the other end of the elastic member 4 disposed against the surface of the rod body 14, so that the elastic member 4 drives the clamping arm 31 to reset after pivoting. Therefore, the clamping arm 31 forms a pivotable operation through the cooperation of the axis column 13 and the axis hole 311. Each of the elastic member 4 provides the reset of the clamping arm 31 after pivoting, so as to facilitate the continuous operations of clamping and releasing multiple arrows 300 during continuous shooting.

[0026] In addition, in order to provide the clamping arm 31 with a reliable reset after pivoting without excessive swinging, both ends of the mounting parts 12 has a guide rail 121, and both ends of the clamping arms 31 have a guide block 313 corresponding to each guide rail 121. When each clamping arm 31 pivots, the guide blocks 313 at both ends of the clamping arm 31 move in the corresponding guide rails 121. Moreover, the bottom side of the arrow box case 1 includes a limit groove 15 and a limit stopper 16 on both sides of the arrow channel 11. The clamping arm 31 has a convex block 314 corresponding to the limit groove 15, and a limit chute 315 corresponding to the limit stopper 16. Through the cooperation of the guide rail 121 and the guide block 313, the clamping arm 31 is limited during the pivot movement, so that there will be no deflection problem. When the clamping arm 31 is reset after pivoting, the limiting groove 15 corresponds to the convex block 314, and the limiting stopper 16 corresponds to the limiting chute 315 to prevent excessive swing of the clamping arm 31. As shown in FIGS. 3, 3A, 7 and 10.

[0027] Lastly, in order to reliably clamp the arrow 300, the present disclosure can stabilize the arrow 300 before it falls into the arrow platform 2001. One side of the clamping arm 31 used to clamp the arrow 300 further includes a fin 316, and the two fins 316 of the two clamping arms 31 face to each other. The outer periphery of the arrow 300 is clamped by using one side of each fin 316 corresponding to each clamping arm 31, and each fin 316 blocks the falling of the arrow body 300 when each clamping arm 31 has not yet pivoted. In this way, the placement of the arrow 300 can be maintained in a stable state before the arrow 300 falls. When the two clamping arms 31 pivot to release the arrow 300, the arrow 300 can be landed smoothly on the arrow platform 2001 and hold for the bow string 8001 to launch the arrow 300, as shown in FIGS. 3, 3A and 12. In the subsequent process of driving the arrow platform 2001 and the arrow box case 1 back to their original positions in preparation for shooting. In addition to using the elastic member 4 to control the reset of the clamping arm 31, the blocking rib 900 can also provide confirmation of the reset of the clamping arm 31. When the clamping arm 31 moves toward the bow string set 800, the portion protruding from the arrow box case 1 will be pressed by the blocking rib 900 and thereby pivot. At this time, the outer side of one end of the clamping arm 31 with the fin 316 will be protruded on both sides of the arrow box case 1 due to the pivot. Therefore, the purpose of the blocking rib 900 can also be used when the end of the clamping arm 31 with the fin 316 is not fully reset during the movement and reset of the arrow box case 1. The blocking rib 900 can press against the protruding portion of one end of the clamping arm 31 with the fin 316. By the blocking rib 900, the clamping arm 31 can be reliably reset to clamp the arrow 300 and wait for the next stage of arrow dropping operation, which can be seen in FIG. 13. (The arrow indicates the direction of reset of arrow box case 1).