JP4584795B2 - Recoil shock device for toy guns - Google Patents

Description

  The present invention relates to a device that drives a weight based on the operation of a movable part in a piston cylinder device that generates compressed air to obtain a simulated reaction.

  Attempts have been made to reproduce a simulated recoil (recoil shock) in a toy gun as well as an actual gun that generates a recoil when a bullet is fired. The reaction imparting method found in commercially available toy guns is a method of obtaining a shock by making the piston heavy for a toy gun having a piston cylinder that generates compressed air. For this reason, it is necessary to make the piston heavier in order to obtain a sufficient shock, and if the piston is made heavier, it will be necessary to strengthen the piston spring in order to avoid a reduction in the bullet velocity, increasing the load for cocking the piston by strengthening the spring There has been a problem that the cylinder head, the piston itself, or the operation mechanism is damaged by the impact of the piston advance, and the durability is remarkably impaired.

  Among the documents that have been filed, there are some which, like JP-A-2000-88494, cause the piston rod to protrude by the operation of pulling the trigger and the movable shoulder rest to protrude rearward to give an impact to the shooter's shoulder. There is a disadvantage that a mechanism that does not have a real gun to make the shoulder rest movable must be given. Japanese Patent Laid-Open No. 8-89661 drives a slide cover by a solenoid that is interlocked with a trigger operation to give a reaction, but is not suitable for a rifle type that does not have a slide mechanism. Japanese Utility Model Laid-Open No. 6-22793 uses a spring and a weight along the barrel to push backward the air chamber to push the air chamber, and that pressure fires an air gun bullet. It is a special thing that precedes and cannot be suitable for the general public.

JP 2000-88494 A JP-A-8-89661 Japanese Utility Model Publication No.6-222793

  The present invention has been made paying attention to the above points, and the problem is equivalent to increasing the piston weight without increasing the piston weight by separately providing the movable part and the weight in the piston cylinder device. It is to get the recoil shock. Another object of the present invention is to enable a recoil shock similar to that of an actual gun to be experienced without deteriorating the appearance.

In order to solve the above problems, the present invention has a piston cylinder device for generating compressed air to drive the thus wait for the operation of the movable portion of the piston-cylinder device, as was to obtain a simulated recoil device consists independent members only by the operation of the movable portion Ru is allowed to move to the retracted direction, the one end is arranged on the rear side of the movable portion, the other end a contact portion which is disposed at a position retracting the weights, the movable portion receiving a transfer Erareru force via the connecting portion, and the weight was movably disposed back and forth direction of the gun body to the other end of the contact portion to its in position to be compressed condition under the force imparted to the weight has a recoil spring which is provided, took measures that recoil spring reaction caused by the movement of the weight at the time of stretching by the subsequent resilient force is compressed to be transmitted to the gun body Than is.

  The toy gun according to the present invention relates to a gun that generates compressed air using a piston cylinder device. Piston cylinder devices generally understand that the piston slides in the cylinder, but some pistons are fixed and the cylinder is movable.In either case, compressed air is generated. Any one of the movable members that drives the weight is an object of the present invention.

  In toy guns where compressed air is generated by a piston-cylinder device, the compressed air can be used for bullet firing. However, even if the bullet is not fired, it goes without saying that the piston can obtain a simulated reaction if the weight is driven based on the operation of the cylinder. Therefore, the simulated recoil according to the present invention does not require bullet firing for recoil shock associated with bullet firing. In other words, the apparatus of the present invention can be applied not only to those having a bullet firing mechanism but also to those not having a bullet firing mechanism.

  In the apparatus of the present invention, a connecting portion that is moved in the backward direction based on the operation of the movable portion constituted by either the piston or the cylinder is provided. The connecting portion plays a role of receiving the force generated by the movable portion and transmitting it to the weight, and the weight is provided with a recoil spring that receives the above-described force and enters a compressed state. In short, the force is transmitted in the order of moving part → connecting part → weight → recoil spring, but each part of the moving part, connecting part, and weight moves in the same direction by almost the same length. Dividing into three parts is not an absolutely necessary condition, and corresponds to a part whose number and structure can be arbitrarily changed in design.

  Although such a movable part, a connection part, and a weight can take the structure arrange | positioned in the substantially same straight line and the same order, this arrangement structure has a stock length of sufficient length behind the engine part. Suitable for guns such as rifles. Further, the connecting part is arranged at a position where a part of the connecting part is retracted by the movable part, and the other part of the connecting part extending in parallel with the moving axis of the movable part is connected to the weight. This configuration is also suitable when this apparatus is to be provided in front of, or on the left or right of, or above the engine section. The engine part includes from the piston cylinder device to a loading part for holding the bullet until firing.

  An elastic body that is compressed by the backward movement of the connecting portion can be interposed between one or both of the connecting portion and the weight or between the movable portion and the connecting portion. According to the above description, since the force is transmitted from the movable part → the communication part → the weight, the transmission action is not direct but indirect by interposing the elastic body between the communication part and the weight. Can be changed. In addition, a slight gap occurs in the transmission time. Furthermore, the elastic body absorbs a shock accompanying transmission of force between the piston, the connecting portion, and the weight, and plays a role of preventing breakage.

  The recoil shock starts from a state in which the force generated in the piston cylinder is transmitted to the weight and compresses the recoil spring, and becomes prominent as the weight advances together with the recoil spring that expands due to the elastic force. Therefore, in the present invention, the weight is retracted as the recoil spring is compressed, and then the weight is moved forward when the moving part moves forward so that the recoil shock like an actual gun can be experienced even with a slight movement of the weight. ing. The recoil shock shifts faster if the spring is strong, and shifts later if the spring is weak.

  Since the present invention is constructed and operates as described above, the movable part of the piston cylinder and the weight are separated and the weight is driven by the recoil spring, so that the weight is increased without increasing the piston weight. It is possible to obtain a recoil shock equivalent to that of the toy gun, and there is a remarkable effect that the appearance of the toy gun is not impaired.

  Hereinafter, the present invention will be described in more detail with reference to the illustrated embodiments. FIG. 1 to FIG. 4 show Example 1 of a toy gun 10 to which the present invention is applied, and it has a so-called electric gun configuration having an electric launcher. The illustrated piston cylinder device 11 has a fixed cylinder 12 and a piston 13 that slides inside the cylinder 12. The piston 13 is a movable part, and the piston 13 is a piston spring supported by the rear wall of the engine room. 14 is bulleted forward.

  Here, the electric launcher will be briefly described. The illustrated launcher has a rack 15 provided in the front-rear direction at the lower part of the piston, and the piston retreats (accumulates pressure) by one rotation of the sector gear 16 composed of a tooth part meshing with the rack 15 and a toothless part for quick return. The sector gear 16 is driven by a motor 17 through a reduction gear set. The motor 17 is turned on and off by a switch 19 that is switched by an operation of pulling the trigger 18. A pin 21 is implanted sideways in the sector gear 16, and a shear 23 having an engaging portion 22 that retreats by a required dimension by engagement with the pin 21 extends forward of the cylinder, and a nozzle 24 at the front end of the cylinder 12 is provided. The bullets 25 can be temporarily retracted, and the bullets 25 can be supplied to the loading unit 26 one by one. The piston cylinder device 11, the electric launching unit, and the loading unit 26 constitute an engine unit 20.

In the rifle-type toy gun 10 shown in FIGS. 1 to 4, the recoil shock device 30 according to the present invention is arranged in a substantially straight line on the moving axis of the piston 13 which is a movable portion and behind the piston 13. That is, the rod-shaped contact portion 31 is moved in the backward direction by the piston 13 is movable part provided so as to be forward and backward the thrust bearing 27 provided in the engine room rear wall, one end 39 of the contact portion 31 Can contact the piston 13, and the other end 38 of the connecting portion 31 is inserted into a guide hole 32 formed in the front portion of the weight 33. The elastic body 34 interposed between the connecting portion 31 and the weight is formed of a small spring disposed in the guide hole 32, and the recoil spring 35 that is compressed by receiving the force transmitted to the weight 33 is a recoil. It is arranged at the inner rear end of the case 36 containing the weight 33.

  In the recoil shock device 30 of Example 1 having the above-described configuration, when the trigger 18 is pulled, the motor 17 rotates, and the piston 13 starts to move backward, the piston 13 moves backward without receiving any resistance other than the piston spring 14. However, when the piston 13 comes into contact with the rod which is the connecting portion 31, the connecting portion 31 receives resistance in the backward direction (FIG. 2). However, when the connecting portion 31 compresses the elastic body 34 at the rear end and then further retracts, the recoil spring 35 starts to be compressed, and the load of the weight 33 is transmitted to the gun body side 37 at the compression limit (FIG. 3). ). When the compression limit is exceeded, the recoil spring 35 turns into extension due to the elastic force, whereby the weight 33 moves forward, and the reaction is felt by the archer as a reaction (FIG. 4). This recoil shock is intermittently generated while the trigger 18 is being pulled.

5 and 6 show Example 2 of the device 40 according to the present invention, in which a weight 43 is incorporated into a space 47 provided in front of the engine unit 20. In this example 2, the communication part 41 is arranged in a position where one end 49 is retracted by the piston 13 which is a movable part and can be engaged, and the other end 48 extends forward, It is inserted into the guide hole 42 of the weight 43 . An elastic body 44 made of a small spring is interposed between the connecting portion 41 and the weight 43. Therefore, the force caused by the movement of the retraction direction of the piston 13, the weight 43 is disposed between the moving rearward weights 43 and the gun main body from the front, so that to compress the recoil spring 45. The weight 43 of Example 2 has a configuration in which the weight 33 of Example 1 slides in the case 36 while it is inserted and slid outside the barrel 46.

  Since the other structure is the same as that of the case of Example 1, the code | symbol of Example 1 is used and operation | movement of the apparatus 40 of Example 2 is demonstrated. In Example 2, when the rear end of the piston 13 which is the movable portion is engaged with the one end 49 of the connecting portion 41, the weight 43 is moved in the backward direction and the recoil spring 45 is compressed (see FIG. 6). Then, after the compression limit of the recoil spring 45 is exceeded, the recoil spring 45 turns into an extension by the elastic force, and in the process where the recoil spring 45 is completely compressed and reaches the extension, the reaction of the movement of the weight 43 is a reaction shock. It becomes what the archer feels.

  7 and 8 show Example 3 of the apparatus 50 according to the present invention, in which a weight 53 is incorporated in a space 57 provided above the engine unit 20. In Example 3, the connecting portion 51 has one end 59 disposed at a position retracted by the piston 13 which is a movable portion, and is formed in a hook-like shape, and the other end 58 is disposed inside the weight 53. Into the guide hole 52 that is movable in the front-rear direction, the weight 53 is provided so as to be movable in the backward direction via the elastic body 54. The force accompanying the movement of the piston 13 in the backward direction pushes the weight 53 backward, and the recoil spring 55 can be compressed. In the case of Example 3, the weight 53 is provided so as to be slidable in the front-rear direction in the wall surface of the space 57 between the engine portion and the inside of the gun body or in the accommodating portion having the same shape as the space 57.

  In Example 3, when the rear end of the piston 13 which is the movable portion engages with one end 59 of the connecting portion 51 to generate resistance, the weight 53 is moved in the backward direction and the recoil spring 55 is compressed. Become. After the compression limit of the recoil spring 55 is exceeded, the recoil spring 55 turns into an extension by the elastic force, and in the process from the compression to the extension of the recoil spring 55, the reaction of the movement of the weight 53 becomes a reaction shock and is experienced by the body. Will be. The timing of this recoil shock can be adjusted by the strength of the recoil spring.

  Amplification of shock by driving the weight based on the force transmitted from the moving part of the piston cylinder device.

The longitudinal cross-sectional view which shows an example of the toy gun to which the recoil shock apparatus which concerns on this invention is applied. The longitudinal cross-sectional view of the thing of Example 1 of an apparatus same as the above. Similarly, the longitudinal cross-sectional view which shows the compression state of a recoil spring. Similarly, the longitudinal cross-sectional view which shows the state which has produced the recoil shock. The longitudinal cross-sectional view which shows Example 2 of the toy gun to which this invention apparatus is applied. The longitudinal cross-sectional view which shows the compression state of the recoil spring of an apparatus same as the above. The longitudinal cross-sectional view which shows Example 3 of the toy gun to which this invention apparatus is applied. The longitudinal cross-sectional view which shows the compression state of the recoil spring of an apparatus same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Toy gun 11 Piston cylinder apparatus 12 Cylinder 13 Piston 14 Piston spring 20 Engine part 30,40,50 Recoil shock apparatus 31,41,51 Connection part 32,42,52 Guide hole 33,43,53 Weight 34,44,54 Elastic bodies 35, 45, 55 Recoil spring 37 Gun body side 46 Barrel
38, 48 , 58 other end
39, 49 , 59 One end

Claims (4)

Has a piston cylinder device for generating compressed air to drive the thus wait for the operation of the movable portion of the piston-cylinder device, a device to obtain a simulated recoil,
Made independent members only by the operation of the movable portion Ru is allowed to move to the retracted direction, the contact portion at one end disposed on the rear side of the movable portion and the other end disposed in a position to retract the weights,
Receiving a transfer Erareru force via the contact portion by the movable part, and the weight was movably disposed back and forth direction of the gun body to the other end of the connecting part for its,
It has a recoil spring provided at a position where it receives a force transmitted to the weight and becomes compressed,
A recoil shock device for a toy gun, wherein a reaction associated with the movement of a weight when the recoil spring is compressed and then expanded by a resilient force is transmitted to the gun body. The recoil shock device for a toy gun according to claim 1 , wherein the movable portion , the connecting portion , the weight, and the recoil spring are arranged substantially in a straight line and in the same order behind the movable portion . 2. The connecting portion has one end disposed at a position retracted by the movable portion, an intermediate portion extending in parallel with the moving axis of the movable portion, and the other end communicating with the weight. Recoil shock device for toy guns. The recoil shock device for a toy gun according to claim 2 or 3, wherein the recoil shock device comprises a small spring between the connecting portion and the weight, and an elastic body that is compressed by the backward movement of the connecting portion.

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