CN214701927U - Power-off sensing structure of toy gun - Google Patents

Abstract

The utility model relates to a power-off sensing structure of toy gun, the primary structure includes a rifle body, one defines the percussion mouth in rifle body one side, one defines the conveyer way in the rifle body, one defines the chamber that is linked together in the rifle body and with percussion mouth and conveyer way, one locates the internal circuit component of rifle, at least one locates the rifle internally and the wireless sensing piece of electric connection circuit component, one locates the bullet device that pushes away of holding chamber one side department and electric connection circuit component. By means of the structure, when the conveying channel is connected with a magazine, the bullet conveyed into the gun body from the magazine can be detected through the wireless sensing piece, when the bullet in the magazine is used up and the wireless sensing piece does not detect the bullet, a signal is transmitted to the circuit element, and then the power of the bullet pushing device is cut off. Therefore, the bullet-free power-off can be realized without using a special magazine, the trigger hand feeling of a real gun when no bullet exists is generated, and the loss of electric energy and friction can be reduced.

Description

Power-off sensing structure of toy gun

Technical Field

The utility model relates to a power-off sensing structure of a toy gun, in particular to a power-off sensing structure of a toy gun which simulates the percussion hand feeling of a real gun when no bullet exists, reduces the electric energy and the friction loss and can achieve no bullet power-off without using a special magazine.

Background

A toy gun is a toy in the shape of a gun. Some use batteries as power, produce the acoustooptic effect when pulling the trigger, and some can launch the plastic bullet that has less lethality through compressed air or a little powder.

Among them, a toy gun driven by electricity is commonly called an electric gun. The launching principle of the device is that a motor drives a gear box, a piston pump compresses a spring, and the repeated circulation of the gear box is utilized to automatically fill and load the bullet into a cavity. Thus, the bullet can be shot out through air pressure, and the effect of simulating the firing of a real gun is achieved.

However, the above-mentioned electric gun has the following problems and disadvantages to be improved when in use:

first, most toy guns operate continuously when no cartridge is in the magazine because the motor still has power, and cannot simulate the hand feeling of firing when a real gun has no cartridge.

Second, the motor continues to operate after no bullet is present in the magazine, which not only wastes electrical energy but also makes it more likely to damage the parts.

Third, the currently developed no-bullet power-off designs require the use of special magazines having "bullet-ejecting heads", which cannot be used to detect the presence of a bullet in a chamber.

Fourth, the conventional no-bullet power-off structure uses a pressing method to detect whether the cartridge is left in the magazine, and the parts are easily damaged due to friction after long-term use.

Therefore, how to solve the above-mentioned problems and disadvantages is one of the ways in which the applicant of the present invention and the related manufacturers engaged in the industry are eagerly interested to research and improve.

SUMMERY OF THE UTILITY MODEL

Therefore, in view of the above-mentioned shortcomings, the applicant of the present invention has devised a new patent for simulating the percussion hand feeling of a real gun without a bullet, reducing the electric energy and friction loss, and achieving the power-off sensing structure of a toy gun without bullet power-off without using a special magazine, by collecting relevant data, evaluating and considering in many ways, and by engaging in years of experience accumulated in the industry, and by continuously trying and modifying.

The utility model discloses a main aim at: through locating the internal wireless sensing piece of rifle, listen the bullet that the magazine was carried to reach the effect of auto-power-off when no bullet in the magazine, and then reduce the loss of electric energy and friction, simulate the percussion of real rifle when not having the bullet simultaneously and feel.

In order to achieve the above object, the utility model provides a power-off sensing structure of toy gun, which is characterized in that comprises:

a gun body, one side of which is defined with a firing opening;

a conveying passage defined in the gun body, the conveying passage being for connection to a magazine;

a chamber defined in the gun body and communicated with the percussion port and the conveying passage;

a circuit element, which is arranged in the gun body;

at least one wireless sensing piece, which is arranged in the gun body and electrically connected with the circuit element, is positioned at one side of the conveying channel and the accommodating chamber and is used for detecting a plurality of bullets conveyed by the magazine; and

and the bullet pushing device is arranged at one side of the accommodating chamber, which is deviated from the firing port, and is electrically connected with the circuit element, and one side of the bullet pushing device is adjacent to the wireless sensing piece.

The power-off sensing structure of the toy gun, wherein: the circuit element is arranged at one side of the conveying channel and the accommodating chamber.

The power-off sensing structure of the toy gun, wherein: the wireless sensing piece is arranged on the circuit element.

The power-off sensing structure of the toy gun, wherein: a first combination arm part is formed on one side of the circuit element, and a second combination arm part is formed on one side of the circuit element, which is far away from the first combination arm part.

The power-off sensing structure of the toy gun, wherein: a limiting groove corresponding to the circuit element is formed in the accommodating chamber.

The power-off sensing structure of the toy gun, wherein: a position of a limiting part corresponding to the bullet pushing device is arranged in the accommodating chamber.

The power-off sensing structure of the toy gun, wherein: the limiting piece is provided with at least one sensing through hole with a position corresponding to the wireless sensing piece and a conveying through hole with a position corresponding to the conveying channel.

The power-off sensing structure of the toy gun, wherein: the bullet pushing device is provided with a bullet pushing piece, a driving piece connected to one side of the bullet pushing piece, which is far away from the percussion port, a blocking piece arranged on the side of the driving piece, and an elastic piece, two sides of which respectively abut against the driving piece and the blocking piece.

The power-off sensing structure of the toy gun, wherein: the number of the wireless sensing pieces is two.

The power-off sensing structure of the toy gun, wherein: the wireless sensing member is an infrared ray intercepting sensor.

Through the structure, a user can utilize the conveying channel to connect a magazine, when the user pulls the trigger, the bullet pushing device positioned in the containing chamber moves backwards, namely moves towards one side of the conveying channel far away from the percussion port, so that the magazine pushes bullets to the junction of the conveying channel and the containing chamber, at the moment, the wireless sensing piece can detect the position, an object is detected to indicate that the bullets still exist, therefore, the bullet pushing device can continuously act, when the bullets are used up, the user pulls the trigger again to enable the bullet pushing device to move backwards, at the moment, the wireless sensing piece cannot detect any bullet, therefore, a signal that no bullet exists in the magazine can be transmitted to the circuit element, and further, the circuit element can cut off the power supply of the bullet pushing device.

Therefore, the effect of no bullet power off can be achieved without using a special magazine, the firing hand feeling of a real gun when no bullet exists can be simulated, the electric energy loss can be reduced, and meanwhile, the effect of reducing the friction loss can be achieved through a wireless detection structure of a wireless sensing piece.

By means of the technology, the problems that the existing electric gun cannot simulate the firing hand feeling of a real gun when no bullet exists, parts are easy to damage, electric energy is wasted, and the bullet-free power off can be achieved only by using a special magazine are solved, so that the practical progress of the advantages is achieved.

Drawings

Fig. 1 is a perspective view of the preferred embodiment of the present invention.

Fig. 2 is a cross-sectional view of the preferred embodiment of the present invention.

Fig. 3 is an exploded view of the preferred embodiment of the present invention.

Fig. 4 is a drawing of the buckle according to the preferred embodiment of the present invention.

Fig. 5 is a schematic compression diagram of the preferred embodiment of the present invention.

Fig. 6 is a schematic diagram of the firing according to the preferred embodiment of the present invention.

Fig. 7 is a schematic diagram of the power-off of the preferred embodiment of the present invention.

Description of reference numerals: a gun body 1; a firing port 11; a conveyance path 12; a chamber 13; a limiting groove 131; a circuit element 2; a first joint arm portion 21; a second joint arm portion 22; a wireless sensing member 3; a bullet pushing device 4; a pusher 41; the driver 42; a stopper 43; an elastic member 44; a limiting member 5; a sensing perforation 51; a delivery perforation 52; a magazine 6; a bullet 7.

Detailed Description

To achieve the above objects and advantages, the preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 3, there are shown a perspective view to an exploded view of a preferred embodiment of the present invention, which can be clearly seen from the drawings that the present invention includes:

a gun body 1, wherein a firing port 11 is defined on one side of the gun body 1;

a conveying passage 12, the conveying passage 12 being defined in the gun body 1, the conveying passage 12 being for connecting a magazine;

a chamber 13, the chamber 13 is defined in the gun body 1 and is communicated with the firing port 11 and the conveying channel 12;

a circuit element 2, the circuit element 2 is arranged in the gun body 1;

at least one wireless sensing member 3, the wireless sensing member 3 is disposed in the gun body 1 and electrically connected to the circuit device 2, and the wireless sensing member 3 is located at one side of the transportation channel 12 and the accommodation chamber 13 for detecting a plurality of cartridges transported by the magazine; and

and the bullet pushing device 4 is arranged at one side of the accommodating chamber 13, which is far away from the firing port 11, and is electrically connected with the circuit element 2, and one side of the bullet pushing device 4 is adjacent to the wireless sensing piece 3.

Preferably, the circuit component 2 is disposed at one side of the transportation channel 12 and the accommodating chamber 13, and is located at a boundary of the transportation channel 12 and the accommodating chamber 13 as an example.

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

Preferably, the wireless sensor 3 is an infrared ray cut-off sensor.

Preferably, the toy gun of the present embodiment is an electric gun.

In this embodiment, a first connecting arm 21 is formed on one side of the circuit element 2, and a second connecting arm 22 is formed on the other side of the circuit element 2, so that the circuit element 2 is in an inverted U shape, and the number of the wireless sensing elements 3 is two, for example, and the two wireless sensing elements are respectively disposed on the first connecting arm 21 and the second connecting arm 22.

In this embodiment, the elastic pushing device 4 includes an elastic pushing member 41, a driving member 42 connected to a side of the elastic pushing member 41 away from the firing opening 11, a stopping member 43 disposed at a side of the driving member 42, and an elastic member 44 having two sides respectively abutting against the driving member 42 and the stopping member 43, wherein the elastic member 44 is a spring, for example.

In this embodiment, a position-limiting groove 131 corresponding to the circuit device 2 is formed in the accommodating chamber 13.

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

With the above description, the structure of the present technology can be understood, and according to the corresponding cooperation of the structure, the power can be automatically cut off when no bullet exists, without using a special magazine, so as to generate the percussion hand feeling when the real gun has no bullet, and reduce the power consumption and the friction loss, and the detailed description will be described below.

Referring to fig. 1 to 7, the perspective view to the power-off schematic view of the preferred embodiment of the present invention is shown, when the above components are assembled, it can be seen clearly from the drawings that, when the present invention is used, the conveying channel 12 of the gun body 1 is connected to the magazine 6 first, the spring in the magazine 6 pushes the bullet 7 upwards, so that the top bullet 7 is abutted against the lower side of the bullet pushing member 41 in the bullet pushing device 4, and at this time, the bullet pushing member 41 blocks the bullet 7 from entering the accommodating chamber 13 through the conveying channel 12, which belongs to the locked state.

Through the structure of the electric gun, when a user pulls the trigger, the motor is driven to start rotating and drive the gear to rotate, so that the driving piece 42 is driven to move backwards in a gear-rack transmission mode, because the bullet pushing piece 41 is connected to the driving piece 42, the bullet pushing piece 41 also moves backwards along with the driving piece, and the bullet 7 in the magazine 6 is pushed into the accommodating chamber 13 by the spring in the magazine 6 and is positioned between the two wireless sensing pieces 3 because the bullet 7 is not blocked by the bullet pushing piece 41.

When the pushing and ejecting member 41 is pulled backward, the wireless sensing member 3 is activated. The wireless sensing members 3 in the above-mentioned embodiment are infrared ray blocking sensors, and the number of the wireless sensing members is two, one of the wireless sensing members is used for sending infrared ray signals, and the other one is used for receiving infrared ray signals, so that when the signals between the two wireless sensing members 3 are blocked, it represents that the magazine 6 has the bullet 7 therein, and the bullet pushing device 4 continues to operate.

When the driving member 42 pulls the bullet-pushing member 41 back to the dead point, the elastic member 44 abuts against the structure of the resisting member 43, so that the bullet-pushing member 41 rebounds to enter the containing chamber 13 and further abuts against the bullet 7 entering the containing chamber 13 from the conveying channel 12, so that the bullet 7 enters the gun bore to complete the loading action, and then the piston pushes air to pass through the bullet-pushing member 41, so that the bullet 7 is ejected from the firing port 11.

When the bullet 7 in the magazine 6 is used up, if the user pulls the trigger again, the bullet pushing member 41 will still pull backward according to the above-mentioned action, and the wireless sensing member 3 will start to detect the position of the accommodating chamber 13, however, since there is no bullet 7 in the magazine 6, while the bullet pushing member 41 pulls backward, there is no shielding object between the two wireless sensing members 3, so that the infrared signal can be sent from one end to the other end, and the wireless sensing member 3 determines that there is no bullet 7 in the magazine 6, and further transmits the signal of no bullet to the circuit element 2, and the circuit element 2 will cut off the electric energy given to the bullet pushing device 4 and the motor, stop the actuation of the bullet pushing device 4 and the motor, and further achieve the effect of power cut-off.

Above-mentioned action of triggering trigger to bullet 7 percussion all is the structure of current electronic rifle, therefore the drawing is only in the utility model discloses an important part reveals, and locate the structure in the rifle body 1 through above-mentioned wireless sensing piece 3, then need not reuse the special specification magazine that has a bullet, also can reach the effect of no bullet outage, and then the percussion when the simulation real rifle does not have a bullet is felt, the waste of electric energy has been avoided simultaneously, in addition, also make it need not direct contact bullet 7 just can carry out the sensing because of its wireless sensing's design, in order to reduce friction loss, holistic life has been promoted.

In this embodiment, the first combining arm 21 and the second combining arm 22 of the circuit element 2 are bonded to the gun body 1, for example, the first combining arm 21 and the second combining arm 22 make the circuit element 2 in an inverted U shape, so that the circuit element 2 can be disposed in the accommodating chamber 13 and bridged over the spring pushing member 41, and thus the wireless sensing member 3 can be directly disposed on the circuit element 2 at the side of the conveying channel 12 without additionally disposing other wires, thereby improving the overall practical convenience.

In this embodiment, the structure of the limiting groove 131 is used for limiting the circuit element 2, so that the circuit element 2 is stably combined on the gun body 1, and the limiting groove 131 is an arc-shaped groove conforming to the upper arc of the circuit element 2.

In this embodiment, the limiting member 5 is configured to limit the pushing member 41, and the limiting member 5 is a tube wrapped around the pushing member 41 to stabilize the pushing of the pushing member 41. The position of the sensing through hole 51 on the limiting member 5 corresponds to the structure of the wireless sensing member 3, so as to prevent the infrared signal emitted from the wireless sensing member 3 from being blocked by the limiting member 5. In addition, the structure of the delivery through hole 52 on the stopper 5 allows the bullet 7 to enter the chamber 13 from the delivery passage 12 through the delivery through hole 52, so as to prevent the bullet 7 from being stopped by the stopper 5.

However, the above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, so that the simple modifications and equivalent structural changes made by the contents of the specification and drawings should be included in the scope of the present invention.

Therefore, the utility model discloses a power-off induction structure of toy gun can improve current technical key and lie in:

firstly, through the structure of the wireless sensing part 3, whether the bullet 7 is in the magazine 6 or not can be detected, and the power can be cut off when the magazine 6 is not provided with the bullet 7 and the trigger is pulled, so that the hand feeling of the real gun when the real gun is not provided with the bullet and the firing is simulated, and meanwhile, unnecessary electric energy waste is saved.

Secondly, through the structure that the wireless sensing piece 3 is arranged in the gun body 1, the user does not need to use a special-specification magazine with a bullet-ejecting head, but can use a common magazine 6 to achieve the effect of no bullet power-off.

Thirdly, through the wireless sensing design of the wireless sensing piece 3, the friction loss in the actuating process is reduced, and the service life of the whole is further prolonged.

Fourthly, through the structure of the first combining arm 21 and the second combining arm 22 on the circuit element 2, the circuit element 2 can be arranged in the accommodating chamber 13 and bridged on the pushing and ejecting member 41, and the wireless sensing member 3 can be arranged on the circuit element 2, so that additional wires are not needed.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A power-off sensing structure of a toy gun, comprising:

a gun body, one side of which is defined with a firing opening;

a conveying passage defined in the gun body, the conveying passage being for connection to a magazine;

a chamber defined in the gun body and communicated with the percussion port and the conveying passage;

a circuit element, which is arranged in the gun body;

at least one wireless sensing piece, which is arranged in the gun body and electrically connected with the circuit element, is positioned at one side of the conveying channel and the accommodating chamber and is used for detecting a plurality of bullets conveyed by the magazine; and

and the bullet pushing device is arranged at one side of the accommodating chamber, which is deviated from the firing port, and is electrically connected with the circuit element, and one side of the bullet pushing device is adjacent to the wireless sensing piece.

2. The power-off sensing structure of a toy gun as claimed in claim 1, wherein: the circuit element is arranged at one side of the conveying channel and the accommodating chamber.

3. The power-off sensing structure of a toy gun as claimed in claim 2, wherein: the wireless sensing piece is arranged on the circuit element.

4. The power-off sensing structure of a toy gun as claimed in claim 2, wherein: a first combination arm part is formed on one side of the circuit element, and a second combination arm part is formed on one side of the circuit element, which is far away from the first combination arm part.

5. The power-off sensing structure of a toy gun as claimed in claim 1, wherein: a limiting groove corresponding to the circuit element is formed in the accommodating chamber.

6. The power-off sensing structure of a toy gun as claimed in claim 1, wherein: a position of a limiting part corresponding to the bullet pushing device is arranged in the accommodating chamber.

7. The power-off sensing structure of a toy gun as claimed in claim 6, wherein: the limiting piece is provided with at least one sensing through hole with a position corresponding to the wireless sensing piece and a conveying through hole with a position corresponding to the conveying channel.

8. The power-off sensing structure of a toy gun as claimed in claim 1, wherein: the bullet pushing device is provided with a bullet pushing piece, a driving piece connected to one side of the bullet pushing piece, which is far away from the percussion port, a blocking piece arranged on the side of the driving piece, and an elastic piece, two sides of which respectively abut against the driving piece and the blocking piece.

9. The power-off sensing structure of a toy gun as claimed in claim 1, wherein: the number of the wireless sensing pieces is two.

10. The power-off sensing structure of a toy gun as claimed in claim 1, wherein: the wireless sensing member is an infrared ray intercepting sensor.

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