CROSSBOW

Abstract

A crossbow includes a barrel having a flight section and a head. The head includes a main part and two extensions extending laterally from the main part. The main part is detachably connected to the flight section. Two cam units each include two first limb connected to the two extensions, and two cams. Two second limbs each are a curved limb and have a first end and a second end. The two first ends of the two second limbs are respectively and directly connected to two sides of the flight section or the head. A first string is wrapped around and connected between the two cams. Two second strings are connected between the cams and the second end of the second limbs. The weight center of the crossbow is located close to the user's body and is benefit for operating the crossbow with high balance and accuracy.

Claims

1. A crossbow comprising: a barrel having a flight section and a head, the head including a main part and two extensions which extend laterally from a first end of the main part, a second end of the main part detachably connected to the flight section; two cam units each including a first limb and a cam, the first limbs each having a first end thereof connected to the extension corresponding thereto; two second limbs each being a flexibly and curved limb and including a first end and a second end, the two first ends of the two second limbs respectively and directly connected to two sides of the barrel, the second limbs each being curved such that each of the second limbs is located between a curvature center of each second limb and the head, the second end of the second limb is located between the first end of the second limb and the head, each second limb and the curvature center corresponding to the second limb are located on the same side of the barrel; a first string wrapped around and connected between the two cams, and two second strings each having a first end thereof wrapped around and connected to the cam corresponding thereto, a second end of each second string fixed to the second end of the second limb corresponding thereto, wherein the first string is drawn at the middle portion thereof along the flight section and toward a direction opposite to a shooting direction to rotate the two cams, the two second strings pull the first and second limbs by rotation of the two cams to store energy, the second end of each second limb is pulled toward the cam corresponding thereto by the second string.

2. The crossbow as claimed in claim 1, wherein the flight section includes a recess defined in a first end thereof which faces the shooting direction, at least one securing member extends into the recess from outside of the flight section, the second end of the main part is inserted into the recess and secured by the at least one securing member.

3. The crossbow as claimed in claim 1, wherein a rigidity of the second limbs is higher than that of the first limbs.

4. The crossbow as claimed in claim 1, wherein the second end of each second limb is connected to the second string corresponding thereto, a first imaginary plane is horizontally formed on a top of the flight section, the two second strings are parallel to the first imaginary plane.

5. A crossbow comprising: a barrel having a flight section and a head, the head including a main part and two extensions which extend laterally from a first end of the main part, a second end of the main part detachably connected to the flight section; two cam units each including a first limb and a cam, the first limbs each having a first end thereof connected to the extension corresponding thereto; two second limbs each being a flexibly and curved limb and having a first end and a second end, the two first ends of the two second limbs respectively and directly connected to two sides of the head, the second limbs each being curved such that each of the second limbs is located between a curvature center of each second limb and the head, the first end of the second limb is located between the second end of the second limb and the head, the second limb and the curvature center corresponding to the second limb are located on opposite sides of the barrel; a first string wrapped around and connected between the two cams and two second strings each having a first end thereof wrapped around and connected to the cam corresponding thereto, a second end of each second string fixed to the second end of the second limb corresponding thereto, wherein the first string is drawn at the middle portion thereof along the flight section and toward a direction opposite to a shooting direction to rotate the two cams, the two second strings pull the first and second limbs by rotation of the two cams to store energy, the second end of each second limb is pulled toward the cam corresponding thereto by the second string.

6. The crossbow as claimed in claim 5, wherein a rigidity of the second limbs is lower than that of the first limbs.

7. The crossbow as claimed in claim 5, wherein the flight section includes a recess defined in a first end thereof which faces the shooting direction, at least one securing member extends into the recess from outside of the flight section, the second end of the main part is inserted into the recess and secured by the at least one securing member.

8. The crossbow as claimed in claim 5, wherein a rigidity of the second limbs is higher than that of the first limbs.

9. The crossbow as claimed in claim 5, wherein the second end of each second limb is connected to the second string corresponding thereto, a second imaginary plane is horizontally formed on a top of the flight section, the two second strings are parallel to the second imaginary plane.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] FIG. 1 is a top view of the crossbow of the present invention;

[0015] FIG. 2 is a top view to show that the first string is drawn along the flight section and toward a direction opposite the shooting direction to store energy for shooting;

[0016] FIG. 3 illustrates the second strings and the first imaginary plane of the crossbow of the present invention;

[0017] FIG. 4 is a side view of the crossbow of the present invention as disclosed in FIG. 3;

[0018] FIG. 5 is a top view of the second embodiment of the crossbow of the present invention;

[0019] FIG. 6 is a top view to show that the first string is drawn along the flight section and toward a direction opposite the shooting direction to store energy for shooting;

[0020] FIG. 7 shows that the flight section are detachably connected to the head of the second embodiment of the crossbow of the present invention;

[0021] FIG. 8 illustrates the second strings and the second imaginary plane of the second embodiment of the crossbow of the present invention, and

[0022] FIG. 9 is a side view of the second embodiment of the crossbow of the present invention as disclosed in FIG. 8.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0023] Referring to FIGS. 1 to 2, the crossbow of the present invention comprises a barrel 1 having a flight section 11 and a head 12. The head 12 includes a main part 121 and two extensions 122 which extend laterally from a first end of the main part 121. A second end of the main part 121 is detachably connected to the flight section 11 from the shooting direction of the crossbow.

[0024] Two cam units 2 each include a first limb 21 and a cam 22, wherein the first limbs 21 each have a first end thereof connected to the extension 122 corresponding thereto.

[0025] Two second limbs 3 each are an elongate, flexibly and curved limb, and have a first end 31 and a second end 32. The two first ends 31 of the two second limbs 3 are respectively connected to two sides of the barrel 1 and located close to the flight section 11. The second limbs 3 each are curved such that each of the second limbs 3 is located between the curvature center “O” of each second limb 3 and the head 12. The second end 32 of the second limb 3 is located between the first end 31 of the second limb 3 and the head 12. Each second limb 3 and the curvature center “O” corresponding to the second limb 3 are located on the same side of the barrel 1. A first string 4 is wrapped around the two cams 2, and two ends of the first string 4 are connected between the two cams 2.

[0026] Two second strings 5 each have a first end thereof wrapped around the cam 22 corresponding thereto, and connected to the cam 22 corresponding thereto. A second end of each second string 5 is fixed to the second end 32 of the second limb 3 corresponding thereto. The first string 4 is drawn at the middle portion thereof along the flight section 11 and toward a direction opposite to the shooting direction to rotate the two cams 22. The two second strings 5 pull the first and second limbs 21, 3 by rotation of the two cams 22 to store energy. The second end 32 of each second limb 3 is pulled toward the cam 22 corresponding thereto by the second string 5.

[0027] It is noted that the two first ends 31 of the two second limbs 3 are respectively connected to two sides of the barrel 1 and located close to the flight section 11. The first limbs 21 each have the first end thereof connected to the extension 122 corresponding thereto. The second end of each of the first limbs 21 inclinedly extends along the direction opposite to the shooting direction as shown in FIG. 1, and the two cams 22 are connected to the second ends of the two first limbs 21. Accordingly, the weight center is not located close to the front of the barrel 1 as the conventional crossbows do, so that the weight center is located close to the user's body so that the crossbow of the present invention reduces the burden to the user's arm, and the balance and accuracy can be increased. As shown in FIG. 2, when the first string 4 is drawn at the middle portion thereof along the flight section 11 and toward a direction opposite to the shooting direction to rotate the two cams 22. The two second strings 5 pull the second limbs 3 to be bent toward the flight section 11 to store energy.

[0028] As shown in FIGS. 3 and 4, the second end 32 of each second limb 3 is connected to the second string 5 corresponding thereto. A first imaginary plane P1 is assumed to horizontally form on the top of the flight section 11, and the two second strings 5 are parallel to the first imaginary plane P1. By this specific arrangement, when shooting, the deformation of the second arms 3 reduces the possibility that the second arms 3 affect the shooting accuracy such as the arrows tend to be shot upward or downward.

[0029] As shown in FIGS. 1 to 4, the rigidity of the second limbs 3 is lower than that of the first limbs 21. In addition, the flight section 11 includes a recess 111 defined in a first end thereof which faces the shooting direction. At least one securing member 112 extends into the recess 111 from outside of the flight section 11. The second end of the main part 121 is inserted into the recess 111 and secured by the at least one securing member 112. Alternatively, the rigidity of the second limbs 3 can be higher than that of the first limbs 21.

[0030] As shown in FIGS. 5 to 9, the second embodiment of the crossbow is disclosed, and comprises a barrel 6 having a flight section 61 and a head 62, wherein the head 62 includes a main part 621 and two extensions 622 which extend laterally from the first end of the main part 621. A second end of the main part 621 is detachably connected to the flight section 61. Two cam units 7 each include a first limb 71 and a cam 72. The first limbs 71 each have a first end thereof connected to the extension 622 corresponding thereto. Two second limbs 8 each are an elongate, flexibly and curved limb, and have a first end 81 and a second end 82. The two first ends 81 of the two second limbs 8 are respectively and directly connected to two sides of the head 62. The second limbs 8 each are curved such that each of the second limbs 8 is located between the curvature center “O′” of each second limb 8 and the head 62. The first end 81 of the second limb 8 is located between the second end 82 of the second limb 8 and the head 62. The second limb 8 and the curvature center “O′” corresponding to the second limb 8 are located on opposite sides of the barrel 6. A first string 9 are wrapped around the two cams 72, and two ends of the first string 9 are connected between the two cams 72.

[0031] Two second strings 10 each have a first end thereof wrapped around the cam 72 corresponding thereto, and the first end of each second string 10 is connected to the cam 72 corresponding thereto. A second end of each second string 10 is fixed to the second end 82 of the second limb 8 corresponding thereto. The first string 9 is drawn at the middle portion thereof along the flight section 61 and toward a direction opposite to the shooting direction to rotate the two cams 72. The two second strings 10 pull the first and second limbs 71, 8 by rotation of the two cams 72 to store energy. The second end 82 of each second limb 8 is pulled toward the cam 72 corresponding thereto by the second string 10.

[0032] As shown in FIG. 7, because the head 62 is connected to the flight section 61 by the at least one securing member 612, so that the flight section 61 and the head 62 can be easily separated from each other, and the flight section 61 and the head 62 can be packed individually so as to reduce the length and the room for transportation.

[0033] As shown in FIGS. 5 to 9, the first ends 81 of the two second limbs 8 are connected to two sides of the main section 621 of the head 62. The rigidity of the second limbs 3 is lower than that of the first limbs 21. Furthermore, the flight section 61 includes a recess 611 defined in a first end thereof which faces the shooting direction. At least one securing member 612 extends into the recess 111 from outside of the flight section 61. The second end of the main part 621 is inserted into the recess 611 and secured by the at least one securing member 612.

[0034] Alternatively, the rigidity of the second limbs 8 may be higher than that of the first limbs 71.

[0035] As shown in FIGS. 8 and 9, the second end 82 of each second limb 8 is connected to the second string 10 corresponding thereto. A second imaginary plane P2 is assumed to horizontally form on the top of the flight section 61. The two second strings 10 are parallel to the second imaginary plane P2. By this specific arrangement, when shooting, the deformation of the second arms 8 reduces the possibility that the second arms 3 affect the shooting accuracy such as the arrows tend to be shot upward or downward.

[0036] It is noted that the two first ends 81 of the two second limbs 8 are respectively connected to two sides of the head 62 and located close to the flight section 61. The first arms 71 each have the first end thereof connected to the extension 622 corresponding thereto. The second end of each of the first limbs 71 inclinedly extends along the direction opposite to the shooting direction, and the two cams 72 are connected to the second ends of the two first limbs 71. Accordingly, the weight center is not located close to the front of the barrel 6 as the conventional crossbows do, so that the weight center is located close to the user's body so that the crossbow of the present invention reduces the burden to the user's arm, and the balance and accuracy can be increased.

[0037] The advantages are that the weight center of the barrel 1/6 is located close to the holding position of the users than the conventional crossbows, so that the users can hold the crossbow of the present invention easily to increase the operative efficiency and accuracy.

[0038] The head 12/62 can be separated from the main section 121/621 from the shooting direction, so that the head 12/62 and the main section 121/621 can be separated from each other and be packed individually.

[0039] 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.