CN110832265A - Toy shooting device - Google Patents

Abstract

A toy shooting device (100) includes a launching mechanism (10) and a magazine (20). The magazine (20) is mounted on the firing mechanism (10). The launching mechanism (10) has a first interface (102). The magazine (20) includes a second interface (202), a housing (204), a pusher (206), and a measurement assembly. The first interface (102) is connected to the second interface (202). The pusher (206) is at least partially located within the housing (204). The shell (204) is provided with an ejection opening (208), and the pushing piece (206) can move away from or close to the ejection opening (208). The measuring assembly comprises a detecting member (210) for measuring the position of the pushing member (206). The detecting piece (210) is electrically connected with the second interface (202) and is used for outputting an electric signal according to the position of the pushing piece (206).

Description

Toy shooting device

Technical Field

The application relates to the technical field of toys, in particular to a toy shooting device.

Background

Typically, toy bullet guns include a magazine for holding bullets, such as water bullets. However, current toy bullet guns do not have a bullet quantity metering device. Only when the cartridge is used up will the user find that there is no cartridge and then reload the magazine with cartridges. Such a toy magazine is poor in user experience.

Disclosure of Invention

Embodiments of the present application provide a toy shooting device.

The toy shooting device comprises a launching mechanism and a magazine, wherein the magazine is installed on the launching mechanism, the launching mechanism is provided with a first interface, the magazine comprises a second interface, a shell, a pushing piece and a measuring assembly, the first interface is connected with the second interface, the pushing piece is at least partially located in the shell, a bullet outlet is formed in the shell, the pushing piece can be far away from or close to the bullet outlet to move, the measuring assembly comprises a detecting piece used for measuring the position of the pushing piece, and the detecting piece is electrically connected with the second interface and used for outputting an electric signal according to the position of the pushing piece.

In the toy shooting device of the embodiment of the application, the detection piece can output an electric signal according to the position of the pushing piece, and the number of bullets in the current magazine can be calculated according to the electric signal. Like this, toy shooting device possesses the function of bullet volume measurement in the magazine, has promoted toy shooting device's user experience.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic diagram of the construction of a toy firing device and terminal according to an embodiment of the present application;

FIG. 2 is a schematic top view of a toy shooting device according to an embodiment of the present application;

FIG. 3 is a schematic bottom view of a toy shooting device according to an embodiment of the present application;

FIG. 4 is a schematic front view of a toy shooting device according to an embodiment of the present application;

FIG. 5 is a schematic side view of a toy shooting device according to an embodiment of the present application;

FIG. 6 is a schematic cross-sectional view of a toy shooting device according to an embodiment of the present application;

FIG. 7 is an exploded schematic view of a toy shooting device according to an embodiment of the present application;

FIG. 8 is an exploded top schematic view of a toy shooting device according to an embodiment of the present application;

FIG. 9 is an exploded bottom schematic view of the toy shooting device of an embodiment of the present application;

FIG. 10 is an exploded front schematic view of a toy shooting device according to an embodiment of the present application;

FIG. 11 is a schematic perspective view of a pusher member of a toy firing device according to an embodiment of the present application;

fig. 12 is a schematic structural view of a magazine and a second operation portion of the toy shooting device of the embodiment of the present application;

fig. 13 is another structural schematic view of a magazine and a second operation portion of the toy shooting device of the embodiment of the present application;

fig. 14 is a perspective view of a second operating portion of the toy shooting device of the embodiment of the present application;

fig. 15 is a schematic bottom view of a magazine of a toy shooting device according to an embodiment of the present application.

Description of the main element symbols:

the toy shooting device 100, the launching mechanism 10, the first interface 102, the control system 104, the sliding groove 106, the stopping portion 108, the bullet inlet 110, the magazine 20, the second interface 202, the housing 204, the pushing member 206, the bullet outlet 208, the detecting member 210, the magazine front end 212, the magazine rear end 214, the first elastic member 216, the guide member 218, the plate portion 220, the mounting portion 222, the first side surface 224, the second side surface 226, the first receiving groove 228, the operating member 230, the guide groove 232, the first operating portion 234, the slide rheostat 236, the resistor body 238, the bullet stopping portion 242, the display screen 30, the tenon 40, the second elastic member 50, the convex edge 60, the second operating portion 70, the key 702, the connecting portion 704, the pressing block 706, the second receiving groove 708, the pressing surface 710 and the third elastic member 712.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be construed as limiting the present application. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the description of the present application, it is to be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. Either mechanically or electrically. Either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1 to 10, a toy shooting device 100 is provided according to an embodiment of the present invention. Toy shooting device 100 includes a launching mechanism 10 and a magazine 20. Magazine 20 is mounted to firing mechanism 10. The launching mechanism 10 has a first interface 102. Magazine 20 includes second interface 202, housing 204, pusher 206, and a measurement assembly. The first interface 102 is connected to the second interface 202. The pushing member 206 is at least partially located within the housing 204, the housing 204 defines an ejection opening 208, and the pushing member 206 is capable of moving away from or toward the ejection opening 208. The measuring assembly comprises a detector 210 for measuring the position of the pusher member 206. The detecting member 210 is electrically connected to the second interface 202 and is configured to output an electrical signal according to the position of the pushing member 206.

In the toy shooting device 100 according to the embodiment of the present application, the detecting member 210 may output an electrical signal according to the position of the pushing member 206, and the number of bullets in the magazine 20 may be calculated based on the electrical signal. Thus, the toy shooting device 100 has the function of measuring the amount of the bullets in the magazine 20, and the user experience of the toy shooting device 100 is improved.

It will be appreciated that, referring to fig. 6, the pusher 206 is disposed between the magazine front end 212 and the magazine rear end 214. The space in the housing 204 between the magazine front 212 (near the muzzle 208) and the pusher 206 may be loaded with cartridges. Magazine 20 is mounted to firing mechanism 10. When the firing mechanism 10 fires a cartridge, the cartridge drops from the ejection outlet 208 of the magazine 20 into the firing mechanism 10, and the number of cartridges in the magazine 20 decreases. The pusher 206 pushes the cartridge toward the magazine nose 212, i.e., toward the muzzle 208, until all of the cartridges are fired. A detector 210 is provided in magazine 20, and the position of pusher member 206 can be measured using detector 210. For example, by measuring the distance of the pusher 206 from the front end 212 of the magazine, or by measuring the distance of the pusher 206 from the rear end 214 of the magazine, the position of the pusher 206 can be determined.

The first interface 102 of the launching mechanism 10 is connected with the second interface 202 of the magazine 20, the detecting member 210 is electrically connected with the second interface 202, and the detecting member 210 transmits an electric signal output according to the position of the pushing member 206 to the first interface 102 through the second interface 202. The electrical signal contains information about the position of the pusher 206 and the number of rounds present in the magazine 20 can be calculated from the electrical signal, the size of the round and the volume of the magazine 20 (the total space in the magazine 20 available for loading the round). For example, in one embodiment, knowing the volume V of the magazine 20 for loading bullets and the number N of loaded bullets, the position of the pusher 206, and thus the distance of the pusher 206 from the bullet, can be derived from the acquired electrical signalThe distance h between the bin front ends 212₁And converted to a volume V of space in the housing 204 between the magazine nose 212 and the pusher 206₁And converted into the number N of cartridges currently loaded in the magazine 20₁＝NV₁/V。

It should be noted that first interface 102 is a signal input interface of launching mechanism 10, and second interface 202 is a signal output interface of magazine 20. The electrical signal output according to the position of the pusher 206 may be output to the firing mechanism 10 through the first interface 102. The first interface 102 and the second interface 202 may be both contact interfaces and may be separable. As soon as magazine 20 is mounted to firing mechanism 10, second interface 202 can correspond to first interface 102, thereby contacting the connection. The magazine front end 212 and the magazine rear end 214 refer to two front and rear opposing end faces within the housing 204.

In the present application, the toy shooting device 100 may be a water pistol, a BB pistol, or the like.

Referring to fig. 6, in some embodiments, magazine 20 includes a first resilient member 216 positioned within housing 204. The first resilient member 216 is coupled to the pusher member 206 and is configured to provide a driving force for movement of the pusher member 206 adjacent the ejection opening 208.

It will be appreciated that the first resilient member 216 is disposed between the magazine rear end 214 and the pusher 206, and specifically, one end of the first resilient member 216 abuts the pusher 206 and the other end abuts the magazine rear end 214. When the number of cartridges in the housing 204 decreases as the shooting mechanism 10 shoots the cartridges, the pushing member 206 moves toward the magazine front end 212, i.e., toward the ejection opening 208, under the driving of the first elastic member 216, thereby pushing the cartridges closer to the ejection opening 208. The first elastic member 216 may be a spring.

Referring to fig. 6, in some embodiments, magazine 20 includes a guide 218 located within housing 204. The pushing member 206 is movably mounted on the guide 218, and the first elastic member 216 is fitted on the guide 218.

It will be appreciated that the guide 218 is connected at one end to the magazine front end 212 and at the other end to the magazine rear end 214. The pusher member 206 is movably mounted to the guide member 218, and the pusher member 206 may remain linearly movable along the length of the guide member 218. The first elastic member 216 is sleeved on the guide member 218, and the guide member 218 can maintain the shape of the first elastic member 216, so that the first elastic member 216 is not easy to radially shift during expansion and contraction, and the service life of the first elastic member 216 and the stability during expansion and contraction can be improved. In the illustrated embodiment, the guide 218 has a body shape, such as a cylindrical shape, a square column shape, or another column shape.

Specifically, referring to FIG. 11, the pusher 206 includes a plate portion 220 and a mounting portion 222. The plate portion 220 includes first and second opposing side surfaces 224, 226. The mounting portion 222 is mounted on the first side surface 224, the guide member 218 penetrates the plate portion 220 and the mounting portion 222, and the first elastic member 216 is located on the second side surface 226. The second side 226 defines a first receiving slot 228. One end of the first elastic member 216 is partially received in the first receiving groove 228 to abut against the plate portion 220 of the pushing member 206, so that the first elastic member 216 is not easily separated from the plate portion 220.

Referring to fig. 7 and 11, in some embodiments, magazine 20 includes an operating member 230. The housing 204 defines a guide slot 232, and the operating member 230 passes through the guide slot 232 and is connected to the pushing member 206. The operating member 230 includes a first operating portion 234 located outside the housing 204. Preferably, the housing 204 is provided with guide slots 232 on both sides. The number of the operating members 230 is two, and the two operating members 230 are respectively installed on both sides of the pushing member 206.

It will be appreciated that the handle 230 extends through the guide slot 232 and is connected to the pusher member 206, and that the handle 230 is slidable within the guide slot 232 to change the position of the pusher member 206 so that cartridges can be loaded between the magazine front 212 and the pusher member 206. The user can move the pushing member 206 by operating the first operating parts 234 on both outer sides of the housing 204. The operation member 230 is disposed on both sides for the user to operate the first operation portion 234.

In some embodiments, the detecting element 210 includes at least one of a slide rheostat 236, a photo switch, a time-of-flight detecting module, and an ultrasonic detecting module. It is understood that the detecting member 210 may also include other sensors for measuring the position of the pushing member 206, such as a plurality of fixed resistors connected in series, and the embodiment is merely exemplary and not limited thereto.

It will be appreciated that when the sensing member 210 is a sliding rheostat 236, the measurement assembly further includes circuitry connected to the sliding rheostat 236. In the embodiment of fig. 6 and 7, the detecting member 210 includes a sliding resistor 236, and the sliding resistor 236 includes a resistor body 238 having a bar shape and a moving member. The resistor body 238 has a length direction parallel to the moving direction of the pusher 206, and the moving member is mounted on the pusher 206 to be movable with the movement of the pusher 206. The mover contacts the resistor body 238 and can move on the resistor body 238 to change the amount of resistance of the circuit that is coupled to the measurement assembly. The mover is mounted to the pusher 206 and, as the pusher 206 moves, the mover also changes resistance as it moves over the resistor body 238. The distance the push member 206 moves is related, e.g., linearly, to the resistance of the slide rheostat 236 into the circuit of the measurement assembly. Thus, the position of the pusher 206 can be measured by sliding the rheostat 236.

In the illustrated example, the resistor body 238 is designed as the guide 218, i.e., a portion of the detection member 210 is provided as the guide 218. At this time, the moving member is designed as the pushing member 206. In this way, space occupied by magazine 20 due to the addition of components can be avoided, and the position of pusher 206 can be measured by using slide rheostat 236. In this example, the pushing member 206 is made of a conductive material, and the first elastic member 216 is made of an insulating material or surface-coated with an insulating material. In other examples, a conductive mover may be mounted as an additional element to the pusher 206, or the resistor body 238 may be disposed on a guide, i.e., a portion of the detector 210 is disposed on the guide 218.

It will be appreciated that when the detection member 210 comprises a photo detection switch, the measurement assembly further comprises a detection circuit optically connected to the photo detection switch. The photoelectric detection switch comprises a transmitter and a receiver, and the transmitter and the receiver are respectively connected with the detection circuit. The transmitter and receiver are disposed at one end within the housing 204. Specifically, the emitter and receiver are disposed at the magazine rear end 214, and the measurement assembly is used to measure the distance of the pusher 206 from the magazine rear end 214. The transmitter may be a light emitting diode and the receiver may be a light sensitive diode. The light emitting diode emits light to the pushing member 206, and the light is reflected by the pushing member 206 and then received by the photodiode. The detection circuit may detect the time period between the light emission time and the light reception time, and then may calculate the distance from the pusher 206 to the magazine rear end 214 based on the time period.

The time-of-flight detection module measures the distance between the pusher 206 and the magazine rear end 214 using the time-of-flight of the signal back and forth between two asynchronous transceivers (transmitters).

The ultrasonic detection module uses ultrasonic waves to measure the distance between the pusher 206 and the rear end 214 of the magazine. The ultrasonic transmitter transmits ultrasonic waves to the pushing member 206, timing is started while the ultrasonic waves are transmitted, the ultrasonic waves return immediately when the ultrasonic waves collide with the pushing member 206, and the timing is stopped when the ultrasonic receiver receives the reflected waves. The distance of the pusher 206 from the rear end 214 of the magazine can be calculated from the recorded time.

Referring to fig. 7, in some embodiments, the launching mechanism 10 includes a control system 104. The control system 104 is electrically connected to the first interface 102, and the control system 104 is configured to receive the electrical signal and determine the number of cartridges in the housing 204 according to the electrical signal.

It will be appreciated that the detector 210 outputs an electrical signal based on the position of the pusher 206, and that the detector 210 transmits the electrical signal from the second interface 202 of the magazine 20 to the first interface 102 of the firing mechanism 10 to the control system 104 of the firing mechanism 10. The control system 104 may convert the electrical signal to the distance of the pusher 206 from the magazine front end 212 or the distance of the pusher 206 from the magazine rear end 214. Accordingly, the control system 104 calculates the number of cartridges currently in the magazine 20 based on the received electrical signals.

Referring to fig. 7, in some embodiments, toy shooting device 100 includes a display screen 30. The display screen 30 is electrically connected to the control system 104, and the display screen 30 is used for displaying the number of bullets in the housing 204.

It will be appreciated that after the control system 104 calculates the number of cartridges currently in the magazine 20, the corresponding value of the number of cartridges is sent to the display 30 for display to prompt the user of the number of cartridges in the housing 204. The display 30 may be disposed at any position on the housing 204 of the launching mechanism 10, and is not limited thereto.

In some embodiments, toy shooting device 100 includes a speaker. The speaker is electrically connected to the control system 104, and the speaker is used for voice broadcasting the number of bullets in the housing 204. In this manner, the user can directly know the number of cartridges in the case 204.

In some embodiments, toy firing device 100 is configured to communicate with terminal 200 and control system 104 is configured to send the number of bullets to terminal 200.

It is understood that the toy shooting device 100 may communicate with the terminal 200 in a wired or wireless manner. Terminal 200 is installed with application software (APP) that is used for controlling toy shooting device 100, and after control system 104 calculated the bullet quantity in casing 204, sends bullet quantity to terminal 200, and bullet quantity can show at APP's interface. The terminal 200 includes, but is not limited to, a cell phone, a tablet computer, etc.

Referring to fig. 6, 7 and 12-14, in some embodiments, a toy shooting device 100 includes a retractable catch 40 and a second resilient member 50. Magazine 20 is slidably mounted to firing mechanism 10. One of the firing mechanism 10 and magazine 20 is provided with a tenon 40 and the other of the firing mechanism 10 and magazine 20 is formed with a flange 60. Tenon 40 abuts ledge 60 to limit sliding movement of magazine 20 relative to firing mechanism 10. When the tenon 40 abuts against the flange 60, the second elastic member 50 is in a compressed state. Second resilient member 50 is used to drive magazine 20 to slide and eject relative to firing mechanism 10 as tenon 40 disengages from flange 60.

It will be appreciated that magazine 20 can be quickly slid into firing mechanism 10 by pressing against tenon 40, and tenon 40 abuts ledge 60 to retain magazine 20. Meanwhile, the second elastic member 50 enables the magazine 20 to be quickly separated from the launching mechanism 10 when the tenon 40 retracts, so that the magazine 20 of the toy shooting device 100 is convenient to mount and dismount, high in efficiency and good in user experience.

Specifically, the latch 40 is a structure that can be extended and retracted by being operated to perform a fixing function. In one example, a tenon 40 is provided on launching mechanism 10, a flange 60 is provided on magazine 20, magazine 20 is pressed against tenon 40 to retract tenon 40 when magazine 20 is slidably mounted on launching mechanism 10, and after magazine 20 is mounted on launching mechanism 10, tenon 40 is ejected and abuts flange 60 to restrict sliding movement of magazine 20 relative to launching mechanism 10.

It will be appreciated that the latch 40 can be extended and retracted in a variety of configurations. For example, the latch 40 may be connected to a screw that may be driven to rotate manually or electrically, causing the latch 40 to extend and retract. For another example, the latch 40 may be connected to a rack, and the rack may be driven up and down manually or electrically, so as to drive the latch 40 to extend and retract. For another example, the latch 40 may be connected to the key 702, the key 702 is pressed to retract the latch 40, the key 702 is not pressed, and the latch 40 is extended and remains extended.

It should be noted that the second elastic member 50 may be disposed on the launching mechanism 10 or the magazine 20, and the second elastic member 50 is in a compressed state when the tenon 40 abuts against the convex edge 60, that is, the second elastic member 50 is in a compressed state when the magazine 20 is mounted on the launching mechanism 10. When the latch 40 is operated, the latch 40 retracts and disengages from the flange 60, and the second elastic member 50 extends, thereby driving the magazine 20 to slide and eject relative to the firing mechanism 10.

It should be noted that the number of the latch 40 may be one, two or more. The latch 40 may be disposed on one side or both sides of the toy shooting device 100, and the number and position of the latches 40 are not limited and may be set according to actual requirements.

In the present application, firing mechanism 10 is provided with a tenon 40, magazine 20 is provided with a flange 60, and second resilient member 50 is provided at the bottom of housing 204.

It will be appreciated that as magazine 20 slides into firing mechanism 10, the rim 60 of magazine 20 presses against the tenon 40 to retract tenon 40 and the second resilient member 50 is gradually compressed. When the flange 60 slides over the top of the tenon 40, the tenon 40 of the firing mechanism 10 is ejected so that the tenon 40 abuts against the flange 60 to restrict the sliding of the magazine 20 relative to the firing mechanism 10, and the second resilient member 50 is in a compressed state.

Referring to fig. 7, in some embodiments, the launching mechanism 10 defines a chute 106, and the chute 106 is engaged with the collar 60. When magazine 20 is installed in firing mechanism 10, collar 60 snaps into chute 106.

In this manner, magazine 20 is easily mounted to firing mechanism 10 by the cooperation of chute 106 with collar 60. It will be appreciated that in one example, the chute 106 can be a square slot and correspondingly the collar 60 can be a square projection that mates with the chute 106. In another example, the sliding groove 106 can be a V-shaped groove, and correspondingly the collar 60 can also be a V-shaped protrusion that mates with the sliding groove 106. It should be noted that the shapes of the sliding groove 106 and the flange 60 can be designed into other corresponding shapes according to actual needs, and are not limited herein.

Referring to fig. 7 and 12-14, in some embodiments, the toy shooting device 100 includes a second operating portion 70. The second operation portion 70 includes a key 702 and a connection portion 704. The button 702 includes a pressing block 706, the latch 40 is fixed on the top of the connecting portion 704, and a second receiving groove 708 is formed on the side of the connecting portion 704. The second receiving groove 708 is provided with a pressing surface 710. When the key 702 is operated, the key 702 presses the pressing surface 710 through the pressing block 706 to drive the connecting portion 704 and the latch 40 to retract.

Thus, when the key 702 is operated, the pressing block 706 and the pressing surface 710 can quickly control the latch 40 to retract, and the structure is simple. Note that, when the tenon 40 is provided in the magazine 20, the second operation portion 70 is provided in the magazine 20, and when the tenon 40 is provided in the launching mechanism 10, the second operation portion 70 is provided in the launching mechanism 10.

It will be appreciated that when the button 702 is not actuated, the press block 706 is at least partially positioned within the second receiving channel 708 and in contact with the press face 710. In this case, when the key 702 is pressed, the pressing block 706 extends into the second receiving slot 708, and the pressing block 706 abuts against the pressing surface 710 to drive the connecting portion 704 and the latch 40 to retract, so that when the key 702 is pressed, no virtual position exists, and the user experience is good.

Referring to fig. 7 and 12-14, in some embodiments, the launching mechanism 10 is provided with a second operating portion 70, and the second operating portion 70 includes a third elastic member 712. One end of the third elastic element 712 abuts against the bottom end of the connecting portion 704, and the other end of the third elastic element 712 abuts against the inside of the launching mechanism 10. The third elastic member 712 is configured to be compressed when the button 702 is operated and to drive the latch 40 to extend out of the striking mechanism 10 or to maintain the state in which the latch 40 extends out when the button 702 is not operated.

It is understood that the third elastic member 712 may be a spring or an elastic member having a good elastic deformation capability. Specifically, when the key 702 is operated, the latch 40 moves downward to make the bottom end of the connecting portion 704 press against the third elastic member 712, so that the third elastic member 712 is compressed to generate corresponding elastic deformation, and when the key 702 is not operated, the third elastic member 712 drives the latch 40 to extend out of the launching mechanism 10 or keeps the extending state of the latch 40 under the action of the elastic force.

Referring to fig. 6, 7 and 15, in some embodiments, the magazine 20 includes a retractable bullet-resistant portion 242, and the bullet-resistant portion 242 is connected to the second elastic member 50. A bullet-blocking portion 242 is provided on the housing 204 and serves to close or open the bullet-exit 208. The launching mechanism 10 is provided with a stop 108 and a feed opening 110. When the magazine 20 is separated from the launching mechanism 10, the bullet-blocking portion 242 closes the bullet-exit 208. When magazine 20 is installed in launching mechanism 10, backstop 108 abuts against the kicker portion 242 to retract kicker portion 242 and open the ejection port 208, ejection port 208 communicating with the feed port 110.

In this way, when the magazine 20 is separated from the launching mechanism 10, the bullet-blocking portion 242 closes the bullet-discharging port 208, and prevents the bullet in the magazine 20 from leaking out. When magazine 20 is installed in firing mechanism 10, backstop 108 abuts bullet-blocking portion 242 to retract bullet-blocking portion 242 and open muzzle 208 to allow a bullet in magazine 20 to enter firing mechanism 10 through muzzle 208 and muzzle 110.

It will be appreciated that the second resilient member 50 is disposed in the magazine 20 such that when the magazine 20 is slid into the firing mechanism 10, it can be quickly retracted through the bullet-blocking portion 242 and open the discharge port 208 to allow a bullet to quickly drop through the feed port 110 into the firing mechanism 10.

Specifically, the bullet-proof portion 242 may be a sheet shape, and the end of the bullet-proof portion 242 is connected to the second elastic member 50. When the magazine 20 slides into the launching mechanism 10, the blocking portion 242 is blocked by the blocking portion 108 when the magazine 20 slides into a certain distance, and the blocking portion 242 retracts backwards during the process of sliding the magazine 20, so that the second elastic member 50 is compressed until the magazine 20 is clamped by the tenon 40. When the latch 40 retracts, the magazine 20 is not blocked by the latch 40, the third elastic element 712 pushes the bullet-blocking portion 242 to extend, the magazine 20 is ejected, and the bullet-blocking portion 242 closes the ejection outlet 208.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The above disclosure provides many different embodiments or examples for implementing different structures of the application. The components and arrangements of specific examples are described above to simplify the present disclosure. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed. In addition, examples of various specific processes and materials are provided herein, but one of ordinary skill in the art may recognize applications of other processes and/or use of other materials.

In the description herein, references to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: numerous changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (20)

1. A toy shooting device is characterized by comprising a launching mechanism and a magazine, wherein the magazine is mounted on the launching mechanism and is provided with a first interface, the magazine comprises a second interface, a shell, a pushing piece and a measuring assembly, the first interface is connected with the second interface, the pushing piece is at least partially positioned in the shell, a bullet outlet is formed in the shell, the pushing piece can move away from or close to the bullet outlet, the measuring assembly comprises a detecting piece used for measuring the position of the pushing piece, and the detecting piece is electrically connected with the second interface and used for outputting an electric signal according to the position of the pushing piece.

2. The toy shooting device of claim 1, wherein the magazine includes a first resilient member located within the housing, the first resilient member being connected to the pusher and serving to provide a driving force for movement of the pusher adjacent the ejection port.

3. A toy shooting device as claimed in claim 2, characterized in that the magazine comprises a guide in the housing, the pusher being movably mounted in the guide, the first spring being arranged around the guide.

4. A toy shooting device as claimed in claim 3, characterized in that a part of the detecting member is arranged as the guide member or a part of the detecting member is arranged at the guide member.

5. The toy shooting device of claim 3, wherein the pushing member includes a plate portion and a mounting portion, the plate portion including first and second opposite sides, the mounting portion being mounted on the first side, the guide passing through the plate portion and the mounting portion, the first resilient member being located on the second side.

6. The toy shooting device of claim 5, wherein the second side surface defines a receiving slot, and one end of the first elastic member is partially received in the receiving slot.

7. The toy shooting device of claim 1, wherein the magazine includes an operating member, the housing defines a guide slot, the operating member extends through the guide slot and is coupled to the push member, and the operating member includes an operating portion located outside the housing.

8. The toy shooting device of claim 7, wherein the guide grooves are formed in both sides of the housing, the number of the operating members is two, and the two operating members are respectively mounted on both sides of the pushing member.

9. The toy shooting device of claim 1, wherein the detecting member includes at least one of a slide rheostat, a photo detecting switch, a time-of-flight detecting module, and an ultrasonic detecting module.

10. The toy shooting apparatus of claim 9, wherein the slide rheostat includes a resistor body in a bar shape having a length direction parallel to a moving direction of the pushing member, and a moving member mounted on the pushing member.

11. The toy shooting device of claim 9, wherein the photo detection switch includes a transmitter and a receiver disposed at one end within the housing.

12. The toy shooting device of claim 1, wherein the firing mechanism includes a control system electrically connected to the first interface, the control system being configured to receive the electrical signal and determine the number of bullets in the housing based on the electrical signal.

13. The toy shooting device of claim 12, wherein the toy shooting device includes a display screen electrically connected to the control system, the display screen being configured to display the number of bullets in the housing.

14. The toy shooting device of claim 12, wherein the toy shooting device includes a speaker electrically connected to the control system, the speaker being configured to audibly broadcast the number of bullets in the housing.

15. The toy shooting device of claim 12, wherein the toy shooting device is adapted to communicate with a terminal, and the control system is adapted to send the number of bullets to the terminal.

16. The toy shooting device of claim 1, wherein the first interface and the second interface are both contact interfaces.

17. The toy shooting device of claim 1, wherein the toy shooting device includes a retractable latch and a second resilient member, the magazine is slidably mounted on the launching mechanism, one of the launching mechanism and the magazine is provided with the latch, the other of the launching mechanism and the magazine is formed with a ledge, the latch abuts against the ledge to limit sliding of the magazine relative to the launching mechanism, the second resilient member is in a compressed state when the latch abuts against the ledge, and the second resilient member is configured to drive the magazine to slidably eject relative to the launching mechanism when the latch disengages from the ledge.

18. A toy shooting device as claimed in claim 17, characterized in that the firing mechanism is provided with the catch, the magazine is provided with the raised edge, and the second resilient member is provided at the bottom of the housing.

19. The toy shooting device of claim 18, wherein the shooting mechanism is provided with a sliding groove, the sliding groove is matched with the convex edge, and the convex edge is clamped in the sliding groove when the magazine is installed on the shooting mechanism.

20. The toy shooting device of claim 17, wherein the magazine includes a retractable bullet-stopping portion connected to the second elastic member, the bullet-stopping portion being provided on the housing and adapted to close or open the ejection port, the launching mechanism being provided with a stopping portion that closes the ejection port when the magazine is separated from the launching mechanism, and a bullet-inlet port that communicates with the ejection port when the magazine is mounted on the launching mechanism, the stopping portion abutting against the bullet-stopping portion to retract the bullet-stopping portion and open the ejection port.

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