WO2017195279A1

WO2017195279A1 - Trigger device in simulated gun

Info

Publication number: WO2017195279A1
Application number: PCT/JP2016/063909
Authority: WO
Inventors: 巌岩澤
Original assignee: 株式会社東京マルイ
Priority date: 2016-05-10
Filing date: 2016-05-10
Publication date: 2017-11-16
Also published as: EP3457072A4; JP6758722B2; CN109089426A; TW201740075A; EP3457072B1; TWI638973B; JPWO2017195279A1; CN109089426B; EP3457072A1

Abstract

[Problem] To further improve the feeling of operating a trigger in a simulated gun, and to make it possible to adjust the subtle feeling of operation experienced by a user. [Solution] A simulated gun which, with operation of the trigger, releases a sear in a cocked state, is configured such that an intermediate member arranged between the trigger and the sear is pivotably supported on the gun main body, the intermediate member disengageably engages with the sear at the rotating end side away from the pivot point, and the operation force of the trigger acts between the pivot point and the point of engagement with the sear.

Description

Trigger device for simulated gun

The present invention relates to a trigger device in a simulated gun that releases a shear in a cocking state by a trigger operation.

The so-called simulated gun that fires BB bullets is also called an airsoft gun, and there are various types of guns, ranging from those for young people to those targeting 18 years of age and older. In particular, guns provided for adults have been developed as high hobby elements, and for that purpose, guns having a shape, structure, and operability similar to actual guns are desired. However, even if the shape and operability can be made equivalent to those of an actual gun, the internal mechanism is naturally different.

Although the simulated gun and the actual gun are fundamentally different, there is a common requirement for the user despite this. For example, there is a demand for a feeling of operation of a launching device called a trigger or a trigger. The simulation gun requires precise operation and high elasticity as well as the actual gun, and if the operation feeling at the time of trigger operation is not appropriate, blurring may occur and the target shooting results can be achieved. The result is not possible.

The applicant of the present application has also known this problem as a technical problem to be solved, and has proposed the invention of Japanese Patent Application Laid-Open No. 2005-114260. The invention of the same issue makes it possible to fire a bullet with a lighter operation even with a simulated gun that uses a powerful spring, etc.When the trigger is pulled, the intermediate member is moved to another position by lever action. Along with this, a configuration has been adopted in which the latch by the shear member is removed.

However, in the above invention, the so-called intermediate member is a part of the shear member, and the engagement portion at the rear end is applied as a load on the upper part of the trigger. As a result, when cocking is completed, the force that pressurizes the piston in the piston cylinder mechanism is easily applied to the trigger via the shear member and the intermediate member. The above load acts when operating the trigger, and it will be felt as resistance, so it is not enough for the demands of improving the angle and the more subtle feeling of operation in comparison with previous guns There is a risk of being felt.

JP 2005-114260 A

The present invention has been made in view of the above points, and its problem is to further improve the operational feeling of the trigger in the simulated gun. Another object of the present invention is to provide a trigger device in a simulated gun that allows a user to adjust a delicate feeling of operation.

In order to solve the above-described problems, the present invention provides a simulated gun in which a shear in a cocking state is released by operating a trigger, and an intermediate member disposed between the trigger and the shear can be rotated around the gun body. The intermediate member is releasably locked with the shear on the rotating end side away from the pivot point, and the trigger operating force is between the pivot point and the shear point. It is a measure that is configured to work. In addition, although the feeling of operation in the present invention includes a so-called sensation that is called pulling comfort or falling of the trigger, technically, the trigger involves a force and a stroke necessary for the operation of the trigger. It is thought that it is easy to grasp the timing of falling.

In the present invention, since the intermediate member disposed between the trigger and the shear is rotatably supported on the gun body, the action of the trigger is replaced by the rotation of the intermediate member. Therefore, the length of the moment arm at the point of action with respect to the intermediate member can be changed by selecting the contact position of the trigger, and the force required for the trigger operation can be arbitrarily set.

It is desirable for the present invention that a spring acts on the intermediate member from the side opposite to the operation direction of the trigger, and an adjustment screw is provided at a location for receiving the spring for adjusting the strength of the spring. Since the user can operate the adjusting screw from the outside of the gun, the strength of the spring can be adjusted to reflect the user's own preference, so that a simulated gun with improved usability can be obtained.

The simulated gun has a piston cylinder mechanism, and the force acting in the pressure direction of the piston is applied to the shear by cocking, and the trigger acts on the intermediate member receiving the force applied to the shear from the cross direction Such a configuration is preferable as the apparatus of the present invention. Since it is an action from the cross direction with respect to the intermediate member, it is easier to adjust the force applied by selecting the position of the action point.

In addition, the shear has a first shear attached to the gun body side and a second shear attached to the first shear, the second shear is locked to the piston, and the intermediate member is cocked by operating the trigger. It is also desirable that the first sear is engaged with the first shear in order to release the first shear, and the second shear is released from the engagement with the piston by the release from the engagement. That is, the shear can be configured by combining two members of the first shear and the second shear. However, the shear in the present invention does not hinder the structure composed of a single member.

Since the present invention is configured and operates as described above, the operation feeling of the trigger in the simulated gun can be remarkably improved by the intermediate member disposed between the trigger and the shear. In addition, according to the present invention, it is possible to adjust a delicate motion feeling by the user's own hand, and a trigger device in a simulated gun that can obtain a delicate motion feeling suitable for individual users. Can be provided.

It is related with an example of the trigger apparatus in the simulation gun which concerns on this invention, and is a longitudinal cross-sectional explanatory drawing which abbreviate | omits and shows a part of gun main body. It is sectional explanatory drawing which expands and shows the principal part of an apparatus same as the above. Furthermore, it is sectional explanatory drawing which expands and shows the part centering on the launch mechanism. It is sectional explanatory drawing which expands and shows the trigger periphery. In the trigger device in the simulation gun concerning the present invention, it is a section explanatory view showing the state just before operating the trigger after cocking. FIG. 6 is an explanatory cross-sectional view showing a state following FIG. 5 after operating the trigger after cocking.

Hereinafter, the present invention will be described in more detail with reference to the illustrated embodiments. A simulated gun 10 according to the present invention shown in the embodiment is modeled on a bolt action rifle, and includes a launcher unit 11 incorporated in a gun body, a barrel unit 12 located at the front thereof, and a launcher unit 11. It is divided roughly into each part of the stock part 13 located in the rear part.

The launching device unit 11 includes a piston 14 and a cylinder 16, and includes an operation member 20 having a piston cylinder mechanism 15 that generates compressed air for bullet firing, a firing mechanism 25 that controls a firing operation by a trigger 22, which will be described later, and It has a bullet loading mechanism 35. The piston / cylinder mechanism 15 has a piston 14 and a cylinder 16 and is attached so as to be movable in the front-rear direction of the gun body, and constitutes a front portion of the operation member 20 that performs cocking. A bolt member 21 is provided on the rear side of the piston cylinder mechanism 15 as described later, and the bolt member 21 constitutes a rear portion of the operation member 20.

The operation member 20 including the piston cylinder mechanism 15 and the bolt member 21 can move in the front-rear direction of the gun body, and an operation handle portion 17 is provided on the bolt member side in order to operate the operation member 20. The operation handle portion 17 is provided with a lever 17c having a shape and a structure imitating a member that is mounted on a bolt action rifle and serves as a bolt handle. In FIG. 1, FIG. 2, etc., the lever 17 c of the operation handle portion 17 is indicated by a two-dot chain line, but this shows only the installation position because the launching device portion is not visible in the illustrated state.

The configuration in which the piston / cylinder mechanism 15 is movably attached to the gun body is well known, and the embodiment may be the same as a general one, so detailed description will be omitted, but the basic configuration according to the embodiment is as follows. It is as follows. That is, the piston cylinder mechanism 15 has a piston spring 18 that accumulates pressure by retreating the piston 14 inserted into the cylinder 16 and advances the piston 14 by releasing the piston 14. The cylinder 16 is incorporated in the gun body so as to be able to advance and retreat. When the cylinder 16 is retracted, a space for raising the bullet B is opened at the front of the nozzle 19 at the tip, and the bullet B is barreled at the tip of the nozzle 19 at the time of advance. It is comprised so that it may load with the loading part of a rear end.

The firing mechanism 25 for performing the above-described firing operation is rotatably supported on the gun body side by a support shaft 22a and has a trigger 22 biased by a trigger spring 22b. The trigger 22 has an input portion 22c that protrudes so as to contact the intermediate member 23 on the front side, and a trigger screw 22d that adjusts the amount of protrusion relative to the intermediate member 23 on the rear side. The intermediate member 23 is pivotally supported by a support shaft 23a on the gun body side, and transmits the operation of the trigger 22 to a first shear 24 of two shears (see FIG. 3). The first shear 24 is rotatably supported on the gun body side by a front support shaft 24a, and

springs

23b and 24b act on the intermediate member 23 and the first shear 24, respectively. The first shear 24 has an engaging portion 33 at the rear portion, and is configured to be locked with a locking mating portion 34 of an indicator lock 32 acting on an indicator 30 described later and locked in that state.

A second shear 27 is rotatably supported on the first shear 24 by a support shaft 27a, and the second shear 27 is biased by a shear spring 27b so as to protrude in the direction of the piston 14. On the other hand, an engagement portion 28 is provided at the rear portion of the piston 14 and is configured to engage with a protruding tip 29 of the second shear 27 at the piston retracted position (see FIG. 5). Further, a slit 16 a for allowing the tip 29 to pass therethrough is formed in the longitudinal direction of the lower surface of the cylinder 16 for engagement with the piston 14.

As described above, the intermediate member 23 is pivotally supported on the gun body side at the lower portion, and is engaged with the engagement counterpart portion 26 formed at the rear portion of the first shear 24 by the engagement portion 23c formed at the upper portion. (See FIG. 4). Further, the intermediate member 23 has an arm length in which the interval between the support shaft 23a and the locking portion 23c is arbitrarily set, and in the embodiment, the input portion 22c of the trigger 22 abuts at a half of the position. It is in a possible state. Therefore, since the length of the moment arm from the support shaft 23a of the intermediate member 23 to the power point can be changed by the contact position of the trigger input portion 22c, the force required for the trigger operation can be arbitrarily set.

Therefore, it is noted that the torque applied to the trigger 22 increases as the contact position of the input portion 22c approaches the support shaft 23a and the arm length decreases, and decreases as the arm length increases away from the support shaft 23a. In addition, the position is set in consideration of the force generated in the locking mating part 26 and the locking part 23c. Further, the strength of the spring 23b acting on the intermediate member 23 can be adjusted by an adjusting screw 23d. The adjusting screw 23d has an engagement means for operation with a tool such as a wrench, and can be adjusted by inserting the tool into the engagement means. 23e is a space for adjustment, and is provided for the user himself to operate the tool to adjust the strength of the spring 23b.

The bullet loading mechanism 35 described above is a part of the simulated gun 10 and is illustrated as a type in which a detachable magazine 37 is attached to a magazine receiver 36 provided on the gun body side. The bullet B is urged forward by a magazine spring 38 from a state in which the magazine 37 is filled, and is fed to a position behind the barrel through the bullet feeding portion 39.

The operation of the trigger device in the simulated gun according to the present invention having such a configuration will be described with reference to the drawings. 1 and 2 show a state where the cocking operation is not performed, and the lever 17c is in the lower position. Next, the handle lever 17c is operated and rotated to the upper position, and the operation member 20 is fully pulled backward, and the piston 14 is moved backward in the piston cylinder mechanism 15. As the piston 24 moves backward, the engaging portion 28 moves to a position where it can engage with the tip 29 of the second shear 27.

FIG. 5 shows a state where the cocking operation is performed and the preparation for launching is completed, and the engagement portion 28 of the retracted piston 14 and the tip 29 of the second shear 27 are engaged. Therefore, the acting force of the piston spring 18 that compresses the piston 14 is first applied to the second shear 27, and is also applied as a load to the first shear 24 on which the second shear 27 is pivotally supported. However, the return spring 24b also acts on the first shear 24, and the load is small.

Further, the first shear 24 is locked at a locking portion between a locking mating portion 26 provided at the rear end thereof and a locking portion 23c provided at the upper end of the intermediate member 23, and the load is It extends to the intermediate member 23 as well. However, it is a slight load and is applied in the longitudinal direction at the end of the rotating intermediate member 23, so that the operation force of the intermediate member 23 is not greatly affected. In this state, the urging force of the spring 23b is applied to the intermediate member 23 from the front to the rear, and the trigger input portion 22c is configured to be able to contact the rear, and the trigger spring is moved forward. The urging force 22b is applied.

When the trigger 22 is operated in this state, the intermediate portion of the intermediate member 23 on which the slight load and the urging force of the spring 23b are applied is pushed by the trigger input portion 22c. Therefore, the operation force of the trigger 22 becomes light, and the user feels the light operation force and the release of the locking at the locking portion to the finger as an operational feeling. Since the protrusion amount of the trigger 22 can be adjusted by the trigger screw 22d, the stroke for pulling the trigger 22 can be adjusted both shallowly and deeply. The strength of pressing the locking portion 23c against the locking mating portion 26 can be changed by the adjusting screw 23d via the spring 23b. As a result of the trigger operation, the engagement between the engagement partner portion 26 and the engagement portion 23c is released, the first shear 24 is lowered downward, and accordingly, the engagement portion 28 of the piston 14 and the second shear 27 are The engagement with the tip 29 is released (FIG. 6), and the bullet B is fired.

The feeling of movement includes a rather sensuous thing that is said to be a so-called pulling feeling or a feeling of falling of the trigger 22 as described above. However, according to the trigger device for the simulated gun according to the present invention, the force required for the operation of the trigger 22 is in an extremely light range, the stroke can be shortened, and the setting conditions acting on the trigger 22 can be changed. It is easy to feel the delicate timing when the trigger 22 falls. In addition, since the setting conditions can be adjusted according to the user's own needs, the trigger device according to the present invention can provide a feeling of operation when performing an appropriate trigger operation.

In the present invention, there are a plurality of adjustment elements related to the pulling comfort of the trigger 22, one of which is adjusted at the manufacturing stage in the manufacturer and the other of which is adjusted by the user who purchased the simulated gun. For example, it is possible for the user to change the strength of the spring 23b with the adjusting screw 23d, but this adjustment is related to the strength of pressing the locking portion 23c against the locking mating portion 26, and the pulling comfort of the trigger 22 can be reduced. It is greatly related. Therefore, according to the present invention, it is possible to remarkably improve the rather sensuous motion feeling, which is called the so-called pulling comfort or falling condition of the trigger.

DESCRIPTION OF SYMBOLS 10 Simulated gun 11 Launcher part 12 Barrel part 13 Stock part 14 Piston 15 Piston cylinder apparatus 16 Cylinder 17 Operation handle part 18 Piston spring 19 Nozzle 20 Operation member 21 Bolt member 22 Trigger 23 Intermediate member 24 First shear 25 Launch mechanism 26 Engagement Stop portion 27

Second shear

28, 33 Engagement portion 29 Second shear tip 30 Indicator 31 Indicator spring 32 Indicator lock 34 Locking mating portion 35 Bullet loading mechanism 36 Magazine receiver 37 Magazine 38 Magazine spring 39 Feeding portion

Claims

In a simulated gun that releases the shear in the cocking state by operating the trigger,
An intermediate member placed between the trigger and the shear is pivotally supported on the gun body so that it can rotate.
The intermediate member is detachably locked with the shear on the rotating end side away from the pivot point,
A trigger device configured such that an operating force of the trigger acts between the shaft fulcrum and a locking point of the shear.
2. A trigger in a simulated gun according to claim 1, wherein a spring acts on the intermediate member from a side opposite to the operation direction of the trigger, and an adjustment screw is provided at a location for receiving the spring for adjusting the strength of the spring. apparatus.
The simulated gun has a piston cylinder mechanism, and the force acting in the pressure direction of the piston is applied to the shear by cocking, and the trigger is operated from the crossing direction to the intermediate member receiving the force applied to the shear The trigger device in the simulated gun according to claim 1 or 2, wherein the force is applied.
The shear has a first shear attached to the gun body side and a second shear attached to the first shear, the second shear is locked to the piston, and the intermediate member is in a cocking state by the operation of the trigger. 4. The trigger device for a simulated gun according to claim 3, wherein the trigger device is configured to be engaged with the first shear so as to release the first shear, and to be detached from the engagement with the piston when the second shear is released from the engagement.