FIRING SYSTEM IN A PRECHARGED PNEUMATIC (PCP) RIFLE

Abstract

Invention relates to a firing system using a gas piston (7) instead of trigger spring providing firing by air released after hit of air outlet valve needle (1) in pre-charged pneumatic (PCP) rifles requiring high speed of outlet and allowing achievement of outlet speeds and firing numbers required by use of lever (3) preventing at once release of air in the tube and giving high speed during firing.

Claims

1. A firing system in pre-charged pneumatic (PCP) rifle characterized comprising at least one gas piston (7), at least one hammer (4) and at least one lever (3) with one angled edge in order to achieve high outlet speeds during shooting.

2. Lever (3) according to claim 1 characterized edge of said lever (3) close to hammer (4) is of angled and curved embodiment.

3. Lever (3) according to claim 1 characterized pushing surface (16) located in lower part of said lever (3) is located in a position closer to the hammer (4) in comparison to kicking surface (17) located in upper area of lever (3).

4. Lever (3) according to claim 1 characterized the hammer (4) presses pushing surface (16) before pushing kicking surface (17).

5. Lever (3) according to claim 1 characterized comprising at least one centring hole (15) providing fixing to mechanism body (6) by fixing pin (8).

6. Hammer (4) according to claim 1 characterized comprising hit surface (18) pushing the lever (3) linearly and contacting said lever (3) to pushing surface (16).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0008] Gas piston and lever arm developed in order to achieve the purpose of the invention are shown in the figures.

[0009] The figures are as follows:

[0010] FIG. 1: General view of parts forming firing system of PCP rifle

[0011] FIG. 2: Detailed view of parts forming firing system of PCP rifle

[0012] FIG. 3: Detailed view of air outlet valve needle

[0013] FIG. 4: Detailed view of air outlet valve body

[0014] FIG. 5: Detailed view of lever

[0015] FIG. 6: Detailed view of hammer

[0016] FIG. 7: Detailed view of setting arm

[0017] FIG. 8: Detailed view of mechanism body

[0018] FIG. 9: Detailed view of gas piston

[0019] FIG. 10: Detailed view of lever fixing pin

[0020] Parts are designated numbers in the pictures in order to make better understanding of parts functioning as gas piston and lever in the invention. Accordingly; [0021] 1—Air outlet valve needle [0022] 2—Air outlet valve body [0023] 3—Lever [0024] 4—Hammer [0025] 5—Set lever [0026] 6—Mechanism body [0027] 7—Gas piston [0028] 8—Fixing pin [0029] 9—Preventive surface [0030] 10—Body centring [0031] 11—Lever hitting surface [0032] 12—Needle housing [0033] 13—Valve body centring surface [0034] 14—Needle contact surface [0035] 15—Centring hole [0036] 16—Pushing surface [0037] 17—Kicking surface [0038] 18—Hitting surface [0039] 19—Hammed centring surface [0040] 20—Hammer rest surface [0041] 21—Lever fixing hole [0042] 22—Gas piston fixing chamber [0043] 23—Hammer housing [0044] 24—Valve body fixing body [0045] 25—Mechanism body fixing chamber [0046] 26—Gas piston rest surface [0047] 27—Fixing pin surface

[0048] A general view of pre-charged pneumatic (PCP) rifle comprising gas piston (7), hammer (4) and lever (3) disclosed under the invention is shown in FIG. 1. FIG. 2 shows detailed view of gas piston (7), hammer (4) and lever (3) of the invention.

[0049] After the set lever (5) shown in FIG. 7 is pulled back, hammer (4) connected to said set lever (5) contacts gas piston (7) at hammer rest surface (20) and pushes gas piston (7) spindle inside and air inside said gas piston (7) is compressed. When trigger is pressed compressed air in gas piston (7) moves forward said gas piston (7) spindle (FIG. 9). Gas piston rest surface (26) which is end part of gas piston (7) spindle pushes the hammer (4) from back by means of rest surface (20) of hammer. Centring surface (19) of hammer moves linearly in hammer housing (23) located on mechanism body (6) and hammer (4) firstly hits pushing surface (16) with hit surface (18) in the lower part of the lever (3) (FIG. 5).

[0050] Gas piston fixing chamber (22) and mechanism body fixing chamber (25) sit onto each other and mechanism body (6) and gas piston (7) are connected. Lever fixing hole (21) located on mechanism body (6) and centring hole (15) located in end part of upper section of the lever (3) are overlapped by help of fixing pin (8) shown in FIG. 10 and interconnected by means of fixing pin (8). Lever fixing hole (21) and centring hole (15) conduct rotating action on fixing pin surface (27). By effect of this action, lever (3) is fixed to valve body connection chamber (24) located on mechanism body (6) shown in FIG. 8 by air outlet valve body (2) centring surface (13) (FIG. 4). Air outlet valve needle (1) in needle housing (12) which is centred section in air outlet valve body (2) moves in direction of body centring (10). With this pushing motion, needle contact surface (14) on the lever (3) pushes the lever hit surface (11) shown in FIG. 3 and provides removal of air outlet valve needle (1) from surface (9) preventing air passing in air outlet valve body (2) and thus release of air from tube.

[0051] Hammer (4) pushing the lever (3) continues pushing movement until the lever (3) contacts the kicking surface (17) which is upper surface. Hit surface (18) presses kicking surface (17) and force of air outlet valve needle (1) is adequate to push back the hammer (4). If the hit surface (18) shown in FIG. 6 presses only push surface (16), force of air outlet valve needle (1) will not be adequate to push the hammer (4) back and therefore air in tube is released at once. In such case system does not allow a second shooting and air re-loading is required.