1. Field of the Invention
This invention relates to a rotary clip (rotary cylinder, rotary magazine) rotation mechanism for an air gun.
2. Description of the Related Art
As shown in
Generally, an air gun rotary clip is provided at one or both ends of a substantially rectangular solid shaped magazine body of a magazine, and this magazine is loaded by inserting into a magazine holding section formed from a cavity in the air gun body.
A magazine that has been inserted into the magazine holding section is ejected from the magazine holding section once all bullets contained in the rotary clip bores have been fired, and after reloading the empty bores with bullets it is fitted into the magazine holding section.
A rotary clip loaded into the air gun body is rotated by a rotation member for rotating the rotary clip, but there are occasions where a situation arises where it becomes impossible to rotate the rotary clip due to a bullet remaining between the bore of the rotary clip and the barrel, etc. In this type of situation, if an attempt is made to force the rotary clip to rotate, there is a danger of the mechanism for rotating the rotary clip, or the rotary clip itself, being damaged. In order to prevent this type of damage, there has been known a related art rotary clip rotation mechanism constructed as follows.
As related art 1, by constructing the whole of a mechanism for rotating the rotary clip of a material having comparatively high pliability, such as plastic, for example, damage to the rotary clip rotation mechanism or the rotary clip itself is avoided by deformation such as bending of the members constituting the rotation mechanism at the time of unreasonable force on the rotary clip (U.S. Pat. No. 5,160,795, U.S. Pat. No. 5,400,536, U.S. Pat. No. 5,704,150).
As related art 2, there is a mechanism that makes a tip member (referred to in the following as a nail) of a member for rotating the rotary clip movable, and causing the nail to move in an arc with a rotational axis as a center, to rotate the rotary clip. This rotation mechanism is provided with a spring between the nail and a member for supporting the nail, and the nail is urged in a direction to rotate the rotary clip. When a state then arises where the rotary clip can not be rotated, the nail is rotated about the rotational axis against the urging force of the spring to release engagement with the rotary clip, avoiding damage to the rotary clip rotation mechanism and the rotary clip itself.
Patent Publication 1: U.S. Pat. No. 5,160,795
Patent Publication 2: U.S. Pat. No. 5,400,536
Patent Publication 3: U.S. Pat. No. 5,704,150
However, related art 1 has a simple structure, but synthetic resin such as plastic constituting the material has molding conditions that are easily changed according to temperature and air pressure, and there is a problem in that design of members constituting the rotary clip rotation mechanism, and selection of material and quality control, are difficult.
Also, related art 2 has fewer problems with quality control since the respective members, such as a nail of the rotary clip rotation mechanism, can be formed of a hard material such as metal. However, it is necessary to make the nail itself small in order to ensure space for the nail to move in an arc in the narrow space of the air gun body. Therefore, if the rotary clip is rotated for a long period of time with a small nail, the likelihood of degradation or damage to sections such as the nail is high, and there is a problem that the whole of the rotary clip rotation mechanism lacks durability.
In order to solve the above described problems, there has been proposed a rotary clip rotation mechanism for an air gun, having a nail for engaging with a nail engagement section provided in the rotary clip and causing rotation of a rotary clip, comprising:
an L-shaped arm, capable of rotating about an arm axis, with a muzzle side end opening section formed from a curved surface section;
an arm elastic section provided at a position contacting the tip of the curved surface section of the L-shaped arm;
a nail support arm provided so as to rotate on a gun rear end side of the L-shaped arm by means of a connecting elastic section; and
a nail urged in the direction of the tip end by a nail elastic section provided on a tip of the nail support arm.
There is also proposed a rotary clip rotation mechanism for an air gun, having a nail for engaging with a nail engagement section provided in the rotary clip and causing rotation of a rotary clip, comprising:
an L-shaped arm, capable of rotating about an arm axis, with a muzzle side end opening section formed from a curved surface section;
an arm elastic section provided at a position contacting the tip of the curved surface section of the L-shaped arm;
a nail support arm provided so as to rotate on a gun rear end side of the L-shaped arm by means of a connecting elastic section; and
a nail urged in the tip direction by a nail elastic section provided on the tip of the nail support arm, wherein
a nail urged in the tip direction by a nail elastic section provided on the tip of the nail support arm, wherein
in a normal state, a trigger arm presses against the L-shaped arm by pulling a trigger, the nail being urged in the tip direction is raised up by the nail support arm and the nail elastic section provided on the tip of the nail support arm by means of rotation of the L-shaped arm about the arm axis, and the rotary clip is possible to be rotated by the nail engaging with the nail engagement section provided in the rotary clip and being raised up, and
in a rotary clip rotation not possible state, the trigger arm presses against the L-shaped arm by pulling a trigger, shaped arm rotates about the arm axis, and the nail being urged in the tip direction is raised up by the nail support arm and the nail elastic section provided inside the nail support arm by means of rotation of the L-shaped arm about the arm axis, but the rotary clip can not rotate, rotation of the L-shaped arm is absorbed by compressing a nail elastic section without raising of the nail.
According to the present invention, a rotary clip rotation mechanism is constructed of a hard member such as metal, which means that there is no need to consider temperature and air pressure at the time of molding, and design of members constituting the rotary clip rotation mechanism, and selection of materials and quality control, are easy.
A nail, being a movable member for rotating the rotary clip, has linear reciprocating movement without moving in an arc shape, as in related art 2, which means that in the event that a space in which the nail can move is widened to the same extent as in related art 2, it is possible to make the nail and respective members of the rotary clip rotation mechanism larger. As a result it is possible to suppress degradation and damage to the nail, and durability is improved compared to related art 2.
For a rotary clip rotation mechanism for an air gun of an embodiment of the present invention,
Also,
The rotary clip rotation mechanism for an air gun that is the embodiment of this invention comprises an L-shaped arm 1 having a curved surface section 1b capable of movement about an arm shaft 6, a nail support arm 2 provided so as to rotate on the L-shaped arm 1, a nail 4 provided on the tip of the nail support arm 2 and urged in a tip direction by a nail spring 3, and an arm spring 5 that is a plate spring provided at a position contacting the tip of the curved surface section 1a of the L-shaped arm 1.
The L-shaped arm 1 rotates about the arm shaft 6, but is provided with a straight rod-shaped trigger arm sliding section 1a from the arm shaft 6 to the muzzle side, a curved surface section 1b provided beneath a muzzle side end section of the trigger arm sliding section 1a, and part of the straight rod shaped section provided from the arm shaft 6 to the rear side (opposite the muzzle side), and is rotatably connected to a lower end of the nail support arm 2 by a rear side end section 1c of the straight rod-shaped section. The curved surface section 1b is formed as a convex curved surface with an outer surface that spreads out wider than the trigger arm sliding section 1a.
The rear side end section 1c of the L-shaped arm 1 and the lower end section 2a of the nail support arm 2 are connected to each other so as to rotate by a transverse connecting shaft, and are urged in the rotary clip C direction, which is the transverse direction, by a connecting spring 7 provided on the outer periphery of the connecting shaft.
The nail support arm 2 is a cylindrical body having an internal space, with a nail spring 3 being provided in the internal space so as to urge in a longitudinal direction, with one end being attached to a lower end inner section of the nail support arm 2 and a nail 4 being attached to an upper end side.
The nail 4 is a claw shaped body becoming thinner in thickness towards the upper end, with a lower section being positioned at a cylindrical body section of the nail support arm 2 and connected to the nail spring 3 at a lower end section, and an upper section projecting from a tip opening section of the nail support arm 2. The nail 4 is urged upwards by the nail spring 3, with a tip being engaged with a projection shaped nail engagement section C1 formed on the rotary clip C by the upward movement of the nail 4, and the rotary clip C is rotated.
The trigger 8 is provided capable of rotation about a trigger shaft 9, and a trigger arm 11 formed integrally with the trigger 8, being a section higher than the trigger shaft 9, is forced to rotate to the gun rear end side by the trigger spring 10. A muzzle side tip section of the trigger arm 11 is curved downwards, and a trigger arm tip section 11a, which is at the tip section of muzzle side tip section, makes slidable contact with the trigger arm sliding section 1a of the L-shaped arm 1 from above.
The rotary clip C is provided with a plurality, for example six to eight, bores capable of each holding a single bullet such as a diabolo shaped pellet or a spherical BB pellet, arranged in a ring and capable of rotation about the rotary clip shaft C3. Protrusion shaped nail engagement sections C1 the same in number as the bores C2 are provided radially at the muzzle side surface of the rotary clip C in the vicinity of the outer periphery of the rotary clip rotation shaft C3.
In the stationary state of the rotary clip C, three sections, namely a single bore C2 in the rotary clip C, the barrel 12 and a gas discharge port of a valve pin 13, are arranged in a line, and the single bore C2 is positioned between the barrel 12 and the gas discharge port of the valve pin 13.
Reference numeral 14 is a hammer, with a sear 15 separated by operation of the trigger 8, rotated to impact the valve pin 13 and release the airtight state of a valve pin air chamber 16. In this way, gas is injected from a gas canister 18 inserted into the handle section of the air gun body A through the inside of the valve pin 13 by means of the gas intake port 17, and a bullet W inside the bore C2 of the rotary clip C is fired.
Next, operation of a rotary clip rotation mechanism for an air gun of the embodiment of the present invention will be described based on
As a result of rotation of the L-shaped arm 1, the tip of the curved surface section 1b of the L-shaped arm 1 presses the arm spring 5 from above, and the rear side end section 1c starts to move upwards. Together with the upward movement of the rear end section 1c of the L-shaped arm 1, the nail support arm 2 that is rotatably linked to the rear end section 1c also moves upwards, and the nail 4 provided inside the nail support arm 2 also moves upwards. The nail 4 engages with the nail engagement section C1 of the rotary clip C as a result of upward rotation of the nail 4, and as a result of the nail engagement section C1 being pressed upwards the rotary clip C starts to rotate in a counter clockwise direction viewed from the muzzle side.
As a result of the rotation of the L-shaped arm 1 ending, the upward movement of the nail support arm 2 and the nail 4 also ends, and therefore rotation of the rotary clip C also ends, but the next bore C2 that will be adjacent as a result of the rotation of the rotary clip C is positioned in a straight line between the barrel 12 and the gas discharge port of the valve pin 13.
If the trigger 8 that has finished being pulled is released by the operator, it returns to the original position (position shown in
As a result of lowering the nail support arm 2, the nail 4 slides on the inclined surface of the nail engagement section C1, that is the radial protrusion, of the rotary clip C, and engagement between the engaged nail engagement section C1 and the nail 4 is released, and the nail 4 stops at a position where engagement is possible between the nail 4 and the next engagement nail section C1 that will be adjacent below the engaged nail engagement section C1.
Next, operation of the rotary clip rotation mechanism of an air gun of an embodiment of the invention will be described based on
As a result of rotation of the L-shaped arm 1, the tip of the curved surface section 1b of the L-shaped arm 1 presses the arm spring 5 from above, and the rear side end section 1c starts to move upwards. Together with the upward movement of the rear end section 1c of the L-shaped arm 1, the nail support arm 2 that is rotatably linked to the rear end section 1c also moves upwards, and the nail 4 provided inside the nail support arm 2 also moves upwards. The nail 4 engages with the nail engagement section C1 of the rotary clip C as a result of upward rotation of the nail 4, and the nail engagement section C1 is pressed further upwards.
In this way, the rotary clip C is intended to rotate in a counter clockwise direction viewed from the muzzle side, and a bullet W is positioned bridging across both a gun rear end section of the barrel 12 and the bore C2, and so the rotary clip C can not rotate. Accordingly, the nail support arm 2 also moves upwards as a result of rotation of the L-shaped arm 1, and the nail 4 provided inside the nail support arm 2 also moves upwards, but since there is engagement with the nail engagement section C1, the nail spring 3 provided between the nail 4 and the nail support arm 2, and the nail spring 3 starts to be compressed.
As a result of rotation of the L-shaped arm 1 ending, upward movement of the nail support arm 2 and the nail 4 also end, and as a result compression of the nail spring 3 also ends.
If the trigger 8 that has finished being pulled is released by the operator, it returns to the original position (position shown in
Because of lowering of the nail support arm 2, compression of the nail spring 3 is released, and the nail spring 3 returns to its original length.
This invention is utilized in an air gun used in competitions, sports, etc.
Number | Date | Country | Kind |
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2007-225265 | Aug 2007 | JP | national |