JP3216500U - Magazine automatic injection structure - Google Patents

Abstract

An automatic magazine injection structure that simplifies operational operations and more effectively simulates the operation of an actual gun. In combination with a toy gun body having a trigger structure, a magazine housing groove 12, at least one simulated bullet 2 for storing a BB bullet, and a bullet tenon elastically pivoted on one side of the simulated bullet 3, a bullet pushing part 4 for injecting a BB bullet, a bullet pushing elastic part 41 connected to the bottom of the bullet pushing part, a telescopic push rod 5 elastically provided on the bullet tenon, and one of the trigger structures 11 And at least one trigger interlocking portion 111 located on the side. When all the BB bullets are shot, the push-pushing part pushes the telescopic push rod, the local part protrudes to one side of the bullet tenon, and then pulls behind the trigger structure, and the telescopic push rod is simultaneously linked. The simulated bullet is automatically ejected from the magazine receiving groove by moving backward and releasing the stopping operation by the bullet tenon. [Selection] Figure 2

Description

  The present invention relates to an automatic magazine injection structure that further simplifies the operation and simulates the operation in the operation of loading the ammunition of an actual gun with high accuracy.

  The toy gun model has a direct influence on the structure of the magazine because the type of ammunition to be shot is limited and the simulation operation is also limited. In general, a magazine of an actual gun has bullets composed of cartridge cases and warheads, and the structure of the magazine is combined accordingly. On the other hand, a magazine of a toy gun accommodates BB bullets by means of bullet rails. Based on the premise that it is a mock product, the direction of the applicant of the present invention is how to provide a feeling of operation to load a bullet into a toy gun magazine.

  The operational feeling of loading actual bullets varies depending on the type of simulated gun. Most guns have one removable magazine and quickly refill ammunition by replacing the magazine, but the operation of removing the magazine can only be removed by manipulating the tenon of the magazine. However, the operation of replacing the magazine is not available for some types of guns such as Mosel Kar98k (a type of rifle during the Second World War). This type of gun has a magazine built into the gun, and each bullet is packed into the built-in magazine, making it difficult to simulate the loading operation.

  The main purpose of the present invention is to operate the actual gun by operating the trigger, moving the bullet tenon so that bullets (simulated bullets) are fired from the magazine, making operation easier and more convenient In addition to being closer to the movement at the time of performing, and linking with the movement of automatically firing a simulated bullet, the operation at the time of loading a bullet of a type that directly loads ammunition is simulated with high accuracy.

  The present invention is combined with a toy gun body provided with a trigger structure, and mainly comprises a magazine receiving groove formed in the toy gun body. At least one simulated bullet that accommodates at least one BB bullet is elastically provided in the magazine accommodation groove, and a bullet tenon is elastically pivoted on one side of the simulated bullet, and the simulated bullet is selectively selected. By stopping, simulated bullets are prevented from coming out of the magazine receiving groove. Further, a ballistic component for injecting a BB bullet is elastically provided in the simulated bullet, and a ballistic elastic component connected to the bottom of the ballistic component is provided in the simulated bullet. Further, a telescopic push rod is elastically provided on the bullet tenon, and the local portion protrudes to one side of the bullet tenon when the bullet pushing part is pushed. Furthermore, at least one trigger interlocking portion is provided on one side of the trigger structure.

  When the user simulates the operation at the time of gun operation using the present invention, the operation of loading the actual bullet can be simulated by the operation of loading the simulated bullet into the magazine housing groove, and in the process of firing the BB bullet, When the BB bullets are all fired, the telescopic push rod is pushed when the bullet pushing parts are gradually pushed by the bullet pushing elastic parts. At this time, just by pulling the trigger structure back by the user, the telescopic push rod moves back in conjunction with the trigger interlocking part, and the operation of stopping the simulated bullet with the bullet tenon is released, thereby simulating A bullet is automatically ejected from the magazine receiving groove. Accordingly, it is possible to simulate the bullet loading operation of the type in which the ammunition is directly loaded with high accuracy without the operation of manually removing the magazine.

  With the above-mentioned technique, it is necessary to manually remove the magazine that exists in the operation feeling of the conventional actual bullet loading, and the operational operation is relatively complicated, and in order to simulate the ammunition loading in the actual gun. It solves the problem of lack of realism, and achieves practical progress in the above-mentioned advantages.

It is a perspective perspective view of the present invention. It is the figure which showed the internal structure of the housing of the built-in magazine accommodation groove | channel in this invention. It is an exploded view of the internal organs toy gun body of the present invention. It is the exploded view which looked at the internal organs magazine main body of this invention from another angle. It is FIG. 1 which showed the simulation bullet loading in this invention. It is FIG. 2 which showed the simulation bullet loading in this invention. It is a use state figure of the present invention. It is FIG. 1 which showed operation | movement of this invention. It is FIG. 2 which showed operation | movement of this invention. It is a figure which shows the interlocking | linkage of the trigger in this invention. It is a figure which shows the automatic bullet discharge | emission in this invention.

  As shown in FIGS. 1 to 4, the present invention is combined with a toy gun body 1 having a trigger structure 11, and mainly includes a magazine receiving groove 12, a simulated bullet 2, a slide groove 24, a bullet tenon 3, and a bullet stop. Part 23, pivot part 31, tenon elastic part 32, elastic pressing part 4, elastic pressing elastic part 41, telescopic push rod 5, receiving groove 33, stopper part 331, trigger interlocking part 111, Consists of.

  The magazine housing groove 12 is formed in the toy gun body 1.

  At least one of the simulated bullets 2 is elastically provided in the magazine accommodating groove 12 and accommodates at least one BB bullet 6, and the simulated bullet 2 is fixed in the magazine accommodating groove 12. A bullet elastic component 21 and at least one stacking positioning component 22 provided on the end surface of the bullet elastic component 21 are provided, and the simulated bullet 2 is placed thereon. Among them, the bullet elastic component 21 includes a plurality of elastic piece bodies 211 and at least one elastic folded portion 212 connected to the plurality of elastic piece bodies 211 two by two.

  The slide groove 24 is formed on one side of the simulated bullet 2.

  The bullet tenon 3 is elastically pivoted on one side of the simulated bullet 2 and selectively blocks the simulated bullet 2 so that the simulated bullet 2 is not ejected from the magazine receiving groove 12. .

  The at least one bullet stopper 23 is located on the side of the bullet tenon 3 adjacent to the simulated bullet 2 and is combined corresponding to the bullet tenon 3.

  The pivot portion 31 is provided at the end of the bullet tenon 3 and is located on one side of the magazine receiving groove 12.

  The at least one tenon elastic part 32 is provided on one side of the bullet tenon 3 away from the simulated bullet 2 and selectively pushes the bullet tenon 3 to elastically move toward the simulated bullet 2. Shake.

  The bullet pressing component 4 is elastically provided in the simulated bullet 27 and injects the BB bullet 6. The elastic pushing component 4 includes a support base 42 and a push-up portion 43 formed on one side of the support base 42, and pushes the following telescopic push rod 5 by sliding the slide groove 24.

  The elastic member 41 is provided in the simulated bullet 2 and is connected to the bottom of the elastic component 4.

  The telescopic push rod 5 is elastically provided on the bullet tenon 3, and when the bullet pushing part 4 is pressed, the local portion projects to one side of the bullet tenon 3, and the telescopic push rod 5 is A protrusion 51 that interlocks with the trigger interlocking portion 111 described below by selectively protruding from the bullet tenon 3, and a pressure receiving portion 52 that is located on one side of the protrusion 51 and that operates in conjunction with the push-up portion 43; , A stopper part 53 to be combined corresponding to the stopper part 331 described below, and a push rod elastic part 54 provided between the receiving groove 33 and the stopper part 53.

  The accommodating groove 33 is formed on the bullet tenon 3 and accommodates the telescopic push rod 5.

  The at least one stopper portion 331 is formed on a side wall of the receiving groove 33 and fixes the telescopic push rod 5.

  The at least one trigger interlocking portion 111 is located on one side of the trigger structure 11, and simultaneously pulls the telescopic push rod 5 in conjunction with the pulling operation behind the trigger structure 11, and further moves the bullet. The simulated bullet 2 is ejected from the magazine receiving groove 12 by releasing the stopping operation by the tenon 3.

  As shown in FIGS. 1 to 11, a representative of the toy gun body 1 of the present invention is a Mosel Kar98k (a type of rifle used in the Second World War era). In this type of gun, the magazine is built into the gun, and the actual loading operation is a movement in which one bullet is packed into the built-in magazine, so the present invention mainly uses direct ammunition of this type. However, the present invention is not limited to the above-mentioned type of gun.

  In actual operation, as shown in FIGS. 5 to 6, the toy gun body 1 is provided with the magazine housing groove 12, but only contains the simulated bullet 2 simulating the actual bullet, and the BB bullet 6 is It is contained in the simulated bullet 2. Therefore, as soon as the user completes the loading of the BB bullet 6, the loading operation of the actual bullet can be simulated and the simulated bullet 2 can be placed in the magazine housing groove 12. At the same time, in the process of compressing the bullet elastic part 21 downward and pressurizing it downward, the tenon elastic part 32 constantly presses the bullet tenon 3 in the direction of the simulated bullet 2 so that the bullet tenon 3 has the pivot 31. Shake around the axis. (The tenon elastic part 32 can be a soft elastic body or the illustrated spring.) When the simulated bullet 2 is pushed to a fixed position, the bullet tenon 3 immediately stops on the bullet stop 23 and the bullet By combining the tenon 3 and the bullet stopper 23 in a corresponding manner, the simulated bullet 2 is fixed in the magazine receiving groove 12. Among them, the simulated bullet 2 is a general expansion spring or can be designed as an elastic material, so that the installation of the bullet elastic component 21 is omitted, and moreover, a plurality of elastic pieces 211 and elastic folded portions 212, the elastic pieces 211 at both ends of the bullet elastic part 21 are fixed to the bottom of the magazine housing groove 12 and the bottom of the simulated bullet 2 respectively. Can. Furthermore, at least one stacking positioning component 22 is provided on the elastic piece body 211 in the portion of the simulated bullet 2 so that the position of the simulated bullet 2 is more firmly fixed. Thereby, the mounting process of the simulated bullet 2 (or the process of taking out the subsequent bullet) can be smoothly taken out and put out from the magazine housing groove 12, and the wear rate of the simulated bullet 2 is further reduced.

  After the installation is completed, the toy gun body 1 can be operated normally immediately. In the process of firing the BB bullet 6, the BB bullet 6 pushes the column base 42 upward by the bullet pushing elastic part 41, and the BB bullets 6 are pushed up one by one. When the last shot is shot, the push-pushing component 4 also moves up to one side of the telescopic push rod 5, and when the last one BB bullet 6 is shot, the push-pushing component 4 is moved to the telescopic push rod 5. Touch and press upward. At the same time, the push-up portion 43 of the bullet pushing component 4 also slides upward along the slide groove 24 and further contacts the pressure receiving portion 52 of the telescopic push rod 5 so that the projecting portion 51 of the telescopic push rod 5 becomes a bullet tenon. 3 projecting on the one side of the trigger structure 11.

  Subsequently, when all the BB bullets 6 are fired, the trigger structure 11 is pulled backward and the trigger structure 11 is fixed at the rear in response to the operation at the time when all the real bullets are shot. To fill. As a result, the present invention similarly simulates the operation of the trigger structure 11 described above, and when the user pulls the trigger backward, the trigger interlocking portion 111 is interlocked to move backward, thereby simultaneously expanding and contracting the push rod. 5 protrusions 51 are pushed backward. At this time, the bullet tenon 3 is linked to the telescopic push rod 5 and rotates in the reverse direction around the pivot 31, and the bullet tenon 3 swings in the reverse direction, so that the bullet stopper 23 in the simulated bullet 2 The stop action is released. Finally, the simulated bullet 2 is ejected from the magazine housing groove 12 by the elasticity of the bullet elastic component 21. As a result, the trigger structure 11 is operated, the bullet tenon 3 is interlocked, and the simulated bullet 2 is automatically ejected, so that the operation in operation becomes easier and more convenient, and the operation at the time of actual gun operation Get closer.

  When the BB bullet 6 is filled again, the trigger structure 11 moves forward. At this time, since the elastic pressing component 4 has not yet pressed the pressure receiving portion 52, the pressure receiving portion 52 can be inserted into the slide groove portion 24 by the push rod elastic component 54. At the same time, the push rod elastic part 54 is securely fixed to the receiving groove 33 by the elastic force that pushes the bottom of the receiving groove 33 downward and the elastic force that pushes the stopper part 53 upward, and the BB bullet 6 is moved next. Until the operation of filling in is stopped in the stopper portion 331.

  Therefore, the conventional main techniques that the present invention can improve are the following two points.

  First, in the operation of filling the BB bullet 6, the simulation accuracy for the bullet loading operation of the type in which the ammunition is directly loaded is greatly increased by making it completely resemble the operation of filling the actual bullet.

  2. Each structure is intimately connected, and working together at the same time greatly simplifies the operation during operation.

DESCRIPTION OF SYMBOLS 1 Toy gun main body 11 Trigger structure 111 Trigger interlocking part 12 Magazine accommodation groove 2 Simulated bullet 21 Bullet elastic part 211 Elastic piece body 212 Elastic folding part 22 Stacking positioning part 23 Bullet stopper part 24 Slide groove part
3 bullet mortise 31 pivotal portion 32 tenon elastic part 33 receiving groove 331 stopper part 4 elastic pushing part 41 elastic pushing elastic part 42 prop base 43 pushing up part 5 telescopic push rod 51 projecting part 52 pressure receiving part 53 stopper part 54 push rod elastic part 6 BB bullet

Claims (5)

Magazine automatic injection structure combined with a toy gun body with a trigger structure,
A magazine receiving groove formed in the toy gun body;
At least one simulated bullet that is elastically provided in the magazine accommodating groove and accommodates at least one BB bullet;
A bullet tenon that is elastically pivoted on one side of the simulated bullet and prevents the simulated bullet from coming out of the magazine receiving groove by selectively stopping the simulated bullet,
A resiliently-pressing component that is elastically provided in the simulated bullet and injects the BB bullet;
A resilient elastic part provided in the simulated bullet and coupled to the bottom of the resilient part;
A telescopic push rod that is elastically provided on the bullet tenon, and a local part of the bullet tenon protrudes to one side of the bullet tenon,
Positioned on one side of the trigger structure, by pulling behind the trigger structure, simultaneously moving the telescopic push rod back in conjunction with each other, and further releasing the stopping action by the bullet tenon, A magazine automatic injection structure comprising: at least one trigger interlocking portion for injecting a simulated bullet from the magazine receiving groove. The simulated bullet is adjacent to a bullet elastic part fixed in the magazine receiving groove, at least one stacking positioning part provided on an end surface of the bullet elastic part for placing the simulated bullet, and a side surface of the bullet tenon. And at least one bullet stopper for matching and correspondingly combined, and the end of the bullet tenon further comprises a pivot provided on one side of the magazine receiving groove, from the simulated bullet in the bullet tenon 2. The automatic magazine injection structure according to claim 1, wherein at least one tenon elastic part is provided at a distance and the bullet tenon is selectively pushed to swing elastically in the direction of the simulated bullet. . 3. The automatic magazine injection structure according to claim 2, wherein the bullet elastic component includes a plurality of elastic pieces and at least one elastic folding portion connected to the plurality of elastic pieces two by two. . The bullet-pushing component includes a column base and a push-up portion formed on one side of the column base, pushes the telescopic push rod, and the telescopic push rod selectively protrudes from the bullet tenon. A protrusion interlocking with the trigger interlocking portion; and a pressure receiving portion positioned on one side of the protrusion, and operating in conjunction with the push-up portion; and one side of the simulated bullet slides the push-up portion. The magazine automatic injection structure according to claim 1, further comprising a slide groove portion, wherein the pressure receiving portion is selectively inserted into the slide groove portion. On the bullet tenon, there are provided an accommodation groove for accommodating the telescopic push rod, and at least one stopper portion formed on a side wall of the accommodation groove and fixing the telescopic push rod, The magazine automatic injection structure according to claim 1, further comprising: a stopper part combined in correspondence with the stopper part; and a push rod elastic part provided between the receiving groove and the stopper part.

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