TWM603525U - Power-off induction structure of toy gun - Google Patents

Abstract

This new model relates to a power-off induction structure of a toy gun. The main structure includes a gun body, a firing opening defined on one side of the gun body, a conveying channel defined in the gun body, and a firing opening defined in the gun body. A chamber connected to the conveying channel, a circuit element provided in the gun body, at least one wireless sensor provided in the gun body and electrically connected to the circuit element, and one located at one side of the chamber and electrically connected to the circuit element The push bomb device. With the above structure, when a magazine is connected to the conveying channel, the wireless sensor can detect the bullet conveyed by the magazine into the gun body. When the magazine is exhausted, the wireless sensor does not detect the bullet At this time, the signal is sent to the circuit element, and then the power of the push bomb device is cut off. In this way, no bullets can be cut off without using a special magazine, and the firing feel of a real gun when there is no bullets is produced, and at the same time, the loss of electrical energy and friction can be reduced.

Description

Power-off induction structure of toy gun

This new model provides a power-off induction structure for toy guns, especially a toy gun that simulates the firing feel of a real gun without bullets, reduces power and friction losses, and does not need to use special magazines to achieve bullet-free power-off. Electric induction structure.

Press, a toy gun is a toy with the appearance of a firearm. Some use batteries as power and produce sound and light effects when the trigger is pulled, while others can fire less lethal plastic bullets through compressed air or a little gunpowder.

Among them, toy guns driven by electricity are commonly called "electric guns." Its launching principle is to drive the gear box by the motor, which causes the piston pump to compress the spring, and uses the repeated cycles of the gear box to automatically fill the bomb and load the chamber. In this way, the bullet can be ejected through air pressure to achieve the firing effect of a simulated real gun.

However, when the above electric gun is used, there are the following problems and deficiencies that need to be improved:

First, when there are no bullets in the magazine, most toy guns will continue to operate because the motor is still powered and cannot simulate the firing feel of a real gun without bullets.

Second, the continuous operation of the motor after the above-mentioned magazine has no bullets will not only cause a waste of electrical energy, but may also cause damage to parts.

Third, the non-bullet power-off design that has been developed so far requires the use of a special magazine with a "top bullet". If the magazine is not used, it is impossible to detect whether there is a bullet in the chamber.

Fourth, the above-mentioned conventional non-bullet power-off structure uses a pressure method to detect whether there are bullets remaining in the magazine, and long-term use is likely to cause damage to parts due to friction.

Therefore, how to solve the above-mentioned conventional problems and deficiencies is the direction that the applicants of this new model and related manufacturers engaged in this industry urgently want to study and improve.

Therefore, in view of the above-mentioned deficiencies, the applicant of this new model has collected relevant information, evaluated and considered by multiple parties, and based on the accumulated years of experience in this industry, through continuous trials and revisions, he designed this kind of simulated real gun without ammunition. It has a new patent for the power-off induction structure of a toy gun that can achieve non-bullet power-off without the use of special magazines, reducing electric power and friction loss.

The main purpose of this new model is to detect the bullets delivered from the magazine through the wireless sensor set in the gun body, so as to achieve the effect of automatic power-off when there are no bullets in the magazine, thereby reducing electrical energy and friction. At the same time, it simulates the firing feel of a real gun without bullets.

To achieve the above purpose, the main structure of the present invention includes: a gun body, a firing port is defined on one side of the gun body, a conveying channel and a chamber are defined in the gun body, and the chamber is connected with the firing port and the conveying channel. The body is also provided with a circuit element and at least one wireless sensing element. The wireless sensing element is electrically connected to the circuit element. The wireless sensing element is located on the side of the conveying channel and the chamber. There is a pushing device, the pushing device is electrically connected to the circuit element, and one side of the pushing device is adjacent to the wireless sensor.

Through the above structure, the user can use the conveyor to connect a magazine, and when the user pulls the trigger, the ejector device located in the chamber will move backward, that is, move to the side of the conveyor away from the firing port, thereby causing The magazine pushes the bullet to the junction of the conveying channel and the chamber. At this time, the wireless sensor will detect the position. If there is an object, it means there are still bullets. Therefore, the push device will continue to operate, and when When the bullet is exhausted, the user pulls the trigger again to move the pusher device backwards. At this time, the wireless sensor cannot detect any bullets, so it will send a signal to the circuit component that there is no bullet in the magazine, and then the circuit component Cut off the power supply of the pushing device.

In this way, it is possible to achieve the effect of no bullet power failure without using a special magazine. It not only simulates the firing feel of a real gun without bullets, but also reduces power consumption. At the same time, through the wireless detection structure of the wireless sensor, It can also achieve the effect of reducing friction loss.

With the above technology, the conventional electric guns can not simulate the firing feel of a real gun when there is no ammunition, easily lead to parts damage, waste of electricity, and the need to use special magazines to achieve no ammunition power failure. Breakthrough to achieve the practical progress of the above advantages.

1: Gun body

11: firing mouth

12: Conveyor

13: Room

131: Limit slot

2: circuit components

21: The first joint arm

22: The second joint arm

3: wireless sensor

4: Pushing device

41: push bullet

42: Drive

43: Block

44: Elastic

5: Limit parts

51: Sensing perforation

52: Conveying perforation

6: Magazine

7: bullet

The first figure is a perspective view of a preferred embodiment of the new model.

The second figure is a cross-sectional view of the preferred embodiment of the new model.

The third figure is an exploded view of the preferred embodiment of the new type.

The fourth figure is a schematic diagram of the deduction of the preferred embodiment of the new invention.

The fifth figure is a compressed schematic diagram of the preferred embodiment of the new invention.

The sixth figure is the firing diagram of the preferred embodiment of the new type.

The seventh figure is a schematic diagram of the power failure of the preferred embodiment of the new type.

In order to achieve the above-mentioned purpose and effect, the technical means and structure adopted by the present invention are drawn to illustrate the characteristics and functions of the preferred embodiment of the present invention in detail as follows, so as to fully understand.

Please refer to Figures 1 to 3, which are a perspective view to an exploded view of a preferred embodiment of the new model. It can be clearly seen from the figures that the model includes:

A gun body 1 with a firing opening 11 defined on one side of the gun body 1;

A conveying channel 12, the conveying channel 12 is defined in the gun body 1, the conveying channel 12 is for connecting a magazine;

A containment chamber 13, which is defined in the gun body 1 and communicates with the firing port 11 and the conveying channel 12;

A circuit element 2 which is arranged in the gun body 1;

At least one wireless sensor 3, the wireless sensor 3 is arranged in the gun body 1 and electrically connected to the circuit element 2, and the wireless sensor 3 is located at the side of the conveying channel 12 and the chamber 13 , For detecting multiple bullets delivered from the magazine; and

A pushing device 4, the pushing device 4 is arranged at a side of the chamber 13 away from the firing port 11, and is electrically connected to the circuit element 2, and one side of the pushing device 4 is adjacent to the wireless Sensing 3.

Preferably, the circuit element 2 is arranged at the side of the conveying channel 12 and the chamber 13, and the junction of the conveying channel 12 and the chamber 13 is taken as an example.

Preferably, the circuit element 2 is a printed circuit board.

Preferably, the wireless sensor 3 is an infrared blocking sensor.

Preferably, the toy gun of this embodiment is an electric gun as an example.

In this embodiment, a first coupling arm 21 is formed on one side of the circuit element 2 and a second coupling arm 22 is formed on the other side, so that the circuit element 2 has an inverted U shape, and the number of wireless sensing elements 3 Taking two as an example, they are respectively provided on the first coupling arm portion 21 and the second coupling arm portion 22.

In this embodiment, the pushing device 4 includes a pushing element 41, a driving element 42 connected to the pushing element 41 on the side away from the firing opening 11, a resisting element 43 provided on the side of the driving element 42, and a The two sides respectively contact the elastic member 44 of the driving member 42 and the resisting member 43, and the elastic member 44 is a spring as an example.

In this embodiment, a limiting slot 131 corresponding to the circuit element 2 is formed in the chamber 13.

In this embodiment, a limiting member 5 is provided in the chamber 13 at a position corresponding to the pushing device 4, and the limiting member 5 is provided with at least one sensing hole 51 at a position corresponding to the wireless sensing member 3, and a The position corresponds to the conveying hole 52 of the conveying channel 12.

Based on the above description, the structure of this technology can be understood. According to the corresponding cooperation of this structure, there is no need to use special magazines, and the power can be automatically cut off when there are no bullets, so as to produce the firing feel when the real gun has no bullets. At the same time, the loss of electric energy and friction is reduced, and the detailed explanation will be described below.

Please also refer to Figures 1 to 7 at the same time, which are the three-dimensional view to the schematic diagram of the power-off of the preferred embodiment of the new model. When the above-mentioned components are assembled, it can be clearly seen from the figure that when using the new model , You need to connect the conveying channel 12 of the gun body 1 to the magazine 6, and the spring in the magazine 6 will push the bullet 7 upwards so that the uppermost bullet 7 will be under the pusher 41 in the pusher 4 On the other hand, at this time, the pusher 41 blocks the bullet 7 from entering the chamber 13 from the conveying channel 12, which is a locked state.

Through the structure of the electric gun, when the user pulls the trigger, it will drive the motor to rotate and drive the gear to rotate, and then the driving member 42 is displaced backwards by means of rack and pinion transmission, because the pusher 41 is connected to the driving member 42 Therefore, the pusher 41 will also retreat with it, and the bullet 7 in the magazine 6 will not be blocked by the pusher 41, and will be pushed into the chamber 13 by the inner spring of the magazine 6, and Located between the two wireless sensing components 3.

When the elastic member 41 is pushed and pulled back, the wireless sensing member 3 will act. From the above The wireless sensing element 3 in the embodiment is an infrared blocking sensor, and the number is two. One is used to send infrared signals, and the other is used to receive infrared signals. Therefore, when the two wireless sensing elements 3 are When the signal is interrupted, it means that there is a bullet 7 in the magazine 6, and the ejector device 4 will continue to operate.

When the driving member 42 pulls the elastic member 41 back to the dead point, the elastic member 44 will resist the structure of the resisting member 43, and the elastic member 41 will rebound into the chamber 13, and then resist the conveying channel 12. The bullet 7 entering the chamber 13 allows the bullet 7 to enter the gun bore to complete the loading action, and then push the air through the pusher 41 through the piston, and then shoot the bullet 7 from the firing port 11.

When the bullet 7 in the magazine 6 is exhausted, if the user pulls the trigger again, the pusher 41 will still be pulled according to the above action, and the wireless sensor 3 will start to detect the position of the chamber 13 However, since there is no bullet 7 in the magazine 6, while the pusher 41 is pulled back, there is no shielding object between the two wireless sensing parts 3, so that the infrared signal can be sent from one end to the other end, and make The wireless sensor 3 determines that there is no bullet 7 in the magazine 6, and then transmits the signal of no bullet to the circuit element 2. The circuit element 2 cuts off the power to the ejector device 4 and the motor, and stops the ejector device 4 And the action of the motor, and then achieve the effect of power failure.

The action from pulling the trigger to the firing of the bullet 7 is the structure of the conventional electric gun, so the figure is only exposed in the key part of the new model, and through the structure of the wireless sensor 3 arranged in the gun body 1, there is no need The use of a special specification magazine with a top warhead can also achieve the effect of no bullets and power failure, thereby simulating the firing feel of a real gun without bullets, while avoiding the waste of electricity. In addition, because of its wireless sensing design, It does not need to directly touch the bullet 7 to be able to sense, thereby reducing friction loss and increasing the overall service life.

In this embodiment, the first joining arm 21 and the second joining arm 22 on the circuit element 2 are glued to the gun body 1 as an example. The first joining arm 21 and the second joining arm 22 are The circuit element 2 presents an inverted U shape, so that the circuit element 2 can be installed in the chamber 13 and bridged on the pusher 41, so that the wireless sensor 3 can be directly installed on the circuit on the side of the conveying channel 12 There is no need to add additional wires on element 2, which improves the overall practicality and convenience.

In this embodiment, the structure of the limiting slot 131 is for limiting the circuit element 2 so that the circuit element 2 is firmly combined with the gun body 1, and the limiting slot 131 conforms to the circuit element 2. Take the arc groove on the upper arc as an example.

In this embodiment, the structure of the stopper 5 is for restricting the pusher 41. The stopper 5 is an example of a tube covered on the outer side of the pusher 41 to stabilize the pusher 41. . The position of the sensing hole 51 on the limiting element 5 corresponds to the structure of the wireless sensing element 3 to prevent the infrared signal emitted by the wireless sensing element 3 from being blocked by the limiting element 5. In addition, the structure of the conveying perforation 52 on the restricting member 5 allows the bullet 7 to enter the chamber 13 from the conveying channel 12 through the conveying perforation 52 to prevent the bullet 7 from being blocked by the restricting member 5.

However, the above descriptions are only the preferred embodiments of the present model, and are not limited to the patent scope of the present model. Therefore, all simple modifications and equivalent structural changes made by using the present model description and schematic content should be the same. It is included in the scope of the patent of this new model and is combined to Chen Ming.

Therefore, the power-off sensing structure of the toy gun of the present invention can improve the conventional technology. The key lies in:

First, through the structure of the wireless sensor 3, it is possible to detect whether there is a bullet 7 in the magazine 6. When there is no bullet 7 in the magazine 6 and the trigger is pulled, the power will be cut off, thereby simulating a real gun firing without a bullet The feel of the hand, while saving unnecessary power waste.

Second, through the structure in which the wireless sensor 3 is arranged in the gun body 1, the user does not need to use a special specification magazine with a top bullet. Instead, the general magazine 6 can also achieve the effect of no bullet power failure.

Third, through the wireless sensing design of the wireless sensing element 3, the friction loss during the actuation process is reduced, thereby increasing the overall service life.

Fourth, through the structure of the first joining arm portion 21 and the second joining arm portion 22 on the circuit element 2, the circuit element 2 can be arranged in the chamber 13 and bridged on the pusher 41, and wireless sensing The component 3 can be arranged on the circuit element 2, so that no additional wires are needed.

In summary, the power-off induction structure of the toy gun of the present invention can indeed achieve its effects and purposes when used. Therefore, the present model is a new model with excellent practicability. It meets the requirements of a new patent application. If you submit an application, I hope that the review committee will grant the approval of this model as soon as possible to protect the applicant's hard research and development. If the review committee of the Bureau has any doubts, please send me instructions and the applicant will do our best to cooperate.

11: firing mouth

13: Room

131: Limit slot

2: circuit components

21: The first joint arm

22: The second joint arm

3: wireless sensor

4: Pushing device

41: push bullet

42: Drive

43: Block

44: Elastic

5: Limit parts

51: Sensing perforation

52: Conveying perforation

Claims (10)

A power-off induction structure of a toy gun, which mainly includes: A gun body with a firing opening defined on one side of the gun body; A conveying channel, the conveying channel is defined in the gun body, and the conveying channel is for connecting a magazine; A chamber, which is defined in the gun body and communicates with the firing port and the conveying channel; A circuit element, the circuit element is arranged in the gun body; At least one wireless sensor, the wireless sensor is arranged in the gun body and is electrically connected to the circuit element, and the wireless sensor is located at the side of the conveying channel and the chamber for detecting the bullet Multiple bullets delivered from the cartridge; and A pushing device, the pushing device is arranged at a side of the chamber away from the firing port, and is electrically connected to the circuit element, and one side of the pushing device is adjacent to the wireless sensor. For the power-off sensing structure of the toy gun described in item 1 of the scope of patent application, the circuit element is arranged at the side of the conveying channel and the chamber. The power-off sensing structure of a toy gun as described in item 2 of the scope of patent application, wherein the wireless sensor is arranged on the circuit element. According to the power-off sensing structure of the toy gun described in the second item of the patent application, a first coupling arm is formed on one side of the circuit element, and a second coupling arm is formed on the side of the circuit element away from the first coupling arm. Combine the arms. For the power-off sensing structure of the toy gun described in the first item of the scope of patent application, a limit slot corresponding to the circuit element is formed in the chamber. For example, the power-off sensing structure of the toy gun described in item 1 of the scope of patent application, wherein the containment chamber is provided with a limit member corresponding to the pushing device. For example, the power-off sensing structure of the toy gun described in item 6 of the scope of patent application, wherein the limiting member is provided with at least one position corresponding to the sensing perforation of the wireless sensing member, and a position corresponding to the conveying channel Transport perforation. For example, the power-off sensing structure of the toy gun described in the first item of the scope of patent application, wherein the pushing device has a pushing element, a driving element connected to the pushing element away from the firing port, and a driving element arranged on the driving The resisting member at the side of the member and the elastic member on two sides respectively against the driving member and the resisting member. The power-off sensing structure of the toy gun as described in item 1 of the scope of patent application, wherein the wireless sensing element The number is two. For the power-off sensing structure of the toy gun described in item 1 of the scope of patent application, the wireless sensing element is an infrared blocking sensor.

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