CN215676659U - Toy gun wave box - Google Patents

Abstract

The utility model discloses a toy gun wave box, which comprises a shell, an outer air cylinder, a trigger, an electric loading mechanism and a launching mechanism, wherein the outer air cylinder, the trigger, the electric loading mechanism and the launching mechanism are respectively arranged in the shell, the outer air cylinder can move backwards along the shell, the outer air cylinder is in transmission connection with a driving end of the electric loading mechanism, the outer air cylinder is in linkage with the launching mechanism, and the trigger is in transmission connection with the driving end of the launching mechanism, and the toy gun wave box is characterized in that: the electric loading mechanism is provided with a first switch and a trigger rod, the first switch corresponds to the position of the trigger rod, the trigger rod is movably arranged in the shell, and the trigger rod is linked with the trigger; the toy gun bellows further includes a mode switching mechanism capable of controlling whether the trigger lever is separated from the first switch in a trigger fastening state. The toy gun wave box can select single shot or continuous shot in the electric loading mode, and is convenient to switch.

Description

Toy gun wave box

Technical Field

The utility model relates to the field of toys, in particular to a toy gun wave box.

Background

Soft bullet toy guns are one of the more popular toy guns at present. The bullet head of the soft bullet adopted by the soft bullet toy gun usually adopts a sucker, and the soft bullet toy gun cannot cause harm to human bodies after being ejected, thereby gradually replacing bullet toy guns made of other materials in the market.

The existing soft bullet toy gun usually has an electric bullet loading mode, the electric bullet can automatically complete bullet loading after a trigger is buckled to launch the soft bullet under the condition that a player fights fierily, and the bullet loading time is saved, so that the fight is more exciting.

However, the current electric loading mode of soft-bullet toy guns can only carry out soft-bullet shooting and loading once when a trigger is fastened, cannot simulate that a part of guns can continuously shoot bullets under the condition of fastening the trigger, and has insufficient simulation degree.

Disclosure of Invention

The utility model aims to provide a toy gun wave box which can select single shot or continuous shot in an electric loading mode and is convenient to switch.

In order to solve the technical problems, the technical scheme is as follows:

the utility model provides a toy gun ripples case, includes shell, outer inflator, trigger, electronic mechanism and the firing mechanism of loading into a chamber, and outer inflator, trigger, electronic mechanism and the firing mechanism of loading into a chamber set up respectively in the shell, and outer inflator can be followed the shell back-and-forth movement, and outer inflator is connected with the drive end transmission of electronic mechanism of loading into a chamber, and outer inflator links with the firing mechanism mutually, and the trigger is connected its characterized in that with the drive end transmission of firing mechanism: the electric loading mechanism is provided with a first switch and a trigger rod, the first switch corresponds to the position of the trigger rod, the trigger rod is movably arranged in the shell, and the trigger rod is linked with the trigger; the toy gun bellows further includes a mode switching mechanism capable of controlling whether the trigger lever is separated from the first switch in a trigger fastening state.

In the above described toy gun bellows, the outer air tube is used to launch the soft bullet from the toy gun, and in the initial state of the toy gun, the outer air tube is located at the rear end of the outer shell (usually, the outer air tube is manually pulled backward to locate the outer air tube at the rear end of the outer shell by simulating the action of loading the chamber). When the trigger is pulled, the trigger triggers the emission mechanism to work, so that the emission mechanism drives the outer air cylinder to rapidly move from back to front; then, the launching mechanism drives the outer air cylinder to rapidly move from back to front and launches the soft bullet from the toy gun because the launching mechanism is still in a working state; after that, each time the trigger is pulled, the electric loading mechanism drives the outer air cylinder backwards to complete loading of the soft bullet, and then the launching mechanism launches the soft bullet to be circulated in sequence.

The mode switching mechanism has two states of single shot and continuous shot, when the mode switching mechanism is in the single shot state and the trigger is fastened, after the toy gun finishes one-time soft bullet loading, the mode switching mechanism can control the trigger rod to leave the first switch, so that the electric loading mechanism stops working, the toy gun only finishes one-time shooting and loading operation, and single shot shooting of the toy gun under automatic loading is realized; when the mode switching mechanism is in a continuous firing state and the trigger is fastened, the mode switching mechanism cannot control the trigger rod to leave the first switch, and the trigger rod can enable the first switch to be in a closed state all the time, so that the electric loading mechanism is also in a working state all the time, and the launching mechanism can drive the outer air cylinder to rapidly move from back to front to launch the soft bullet; and then the electric loading mechanism can drive the outer air cylinder to move from front to back again to carry out loading again, so that the continuous shooting of the toy gun under automatic loading is realized.

In a preferable scheme, the electric loading mechanism comprises the trigger rod, the first switch, a power supply, a motor and a gear set, a guide groove is formed in the shell and arranged in the front-back direction, a first rotating shaft is arranged in the middle of the trigger rod and is positioned in the guide groove and can move back and forth along the guide groove, and a first opening for extending the rear end of the trigger rod is formed in the position, below the rear end of the trigger rod, of the shell; the front end of the trigger rod corresponds to the position of the first switch, the front end of the trigger rod is provided with a first compression spring, the front end of the first compression spring is connected with or closely contacted with the shell, and the rear end of the trigger rod is linked with the trigger; the first switch, the power supply and the motor are sequentially connected in series to form a loop, and a first-stage gear of the gear set is arranged on a power output shaft of the motor; the outer air cylinder is provided with a rack matched with a final-stage gear of the gear set. When the electric loading mechanism is electrified, the motor drives the outer air cylinder to move backwards through the matching of the final gear and the rack of the gear set. Usually, the last gear is provided with a plurality of first gear teeth for matching with other gears in the gear set and a plurality of second gear teeth for matching with the rack, wherein the first gear teeth are uniformly arranged on the whole face of the last gear along the circumference of the last gear, and the second gear teeth are only arranged in a sector area of the face of the last gear (i.e. the face of the last gear is not provided with the second gear teeth in a certain sector area).

In a further preferred scheme, the middle part of the trigger is hinged in the shell, the lower part of the trigger is a buckling part exposed out of the shell, the upper part of the trigger is a pushing part capable of pushing the trigger rod, and the rear end of the trigger rod corresponds to the pushing part of the trigger; the shell is provided with a guide groove arranged along the front-back direction, the middle part of the trigger rod is provided with a first rotating shaft, the first rotating shaft is positioned in the guide groove and can move back and forth along the guide groove, and a first opening for extending the rear end of the trigger rod is arranged at the position, below the rear end of the trigger rod, on the shell; the front end of the trigger rod corresponds to the position of the first switch, the front end of the trigger rod is provided with a first compression spring, the front end of the first compression spring is connected with or closely contacted with the shell, and the rear end of the trigger rod corresponds to the pushing position of the trigger; the trigger rod is provided with a sliding chute, and the middle part of the upper end of the sliding chute is provided with a second opening; the mode switching mechanism comprises a cam, a swinging piece and a rotating piece, wherein the cam is coaxially arranged with a final stage gear of the gear set; the middle part of the swinging piece is hinged in the shell, the front end of the swinging piece is provided with a pressing block matched with the shape of the sliding chute, the rear end of the swinging piece is provided with a shifting block and a convex block matched with the cam, and the convex block is positioned above the cam; the rotating part is provided with a second rotating shaft, the rotating part is rotatably installed on the shell through the second rotating shaft, the rotating part is located on the outer surface of the shell, and the second rotating shaft is provided with a shifting piece used for shifting the shifting block.

The mode switching mechanism can realize the switching between the single-shot state and the continuous-shot state by rotating the rotating piece, when the electric single-shot mode is required, the poking block on the swinging piece is poked by the poking piece on the rotating piece, so that the rear end of the swinging piece swings downwards, the front end of the swinging piece is lifted upwards, and the convex block can be contacted with the cam; when the trigger is not pulled down, the pressing block is positioned above the second opening in the middle of the sliding groove; when the trigger is pulled down, the pushing part at the upper end of the trigger pushes the trigger rod to move forwards to close the first switch, and the pressing block is positioned above the upper wall at the rear part of the sliding groove; in the process that a rack on an outer air cylinder is driven by a final-stage gear of the gear set to move backwards, the cam enables the rear end of the swinging piece to be gradually lifted up and the pressing block to be gradually swung downwards by pushing the convex block, and at the moment, the pressing block presses the upper wall of the rear part of the sliding groove downwards, so that the trigger rod gradually moves backwards and downwards under the combined action of the pressing block and the first compression spring; when the outer air cylinder moves in place, the downward swinging amplitude of the pressing block reaches the maximum, the rear end of the trigger rod extends out of the first opening, the trigger rod is separated from the first switch, the first switch is switched off, the electric loading mechanism is powered off, the outer air cylinder is not automatically driven to move from front to back, and single shot launching of the toy gun under automatic loading is achieved. When the electric repeating mode is needed, the rotating piece is used for poking the poking block on the swinging piece to lift the rear end of the swinging piece and swing the front end of the swinging piece downwards, the convex block is not contacted with the cam at the moment, and the pressing block is positioned in the sliding groove when the trigger is not pulled down; when the trigger is buckled down, the promotion portion of trigger upper end promotes the trigger bar and moves forward, it is closed with first switch, the briquetting moves the spout rear end this moment, and it is spacing with the upper wall at spout rear portion, the rear end of trigger bar can't stretch out from first opening, the swinging piece also can not be promoted by the cam simultaneously, therefore, only need the straining trigger, just can make the trigger bar not take place to remove under the combined action of trigger and briquetting, the trigger bar contacts with first switch all the time, thereby make electronic mechanism of loading continuously be in the on-state, firing mechanism lasts and is in the trigger state, realize the continuous emission of toy rifle under automatic loading.

In a further preferable scheme, the electric loading mechanism further comprises a second switch, and the first switch, the second switch, the power supply and the motor are sequentially connected in series to form a loop; the mode switching mechanism further comprises a control piece, the control piece can be installed in the shell in a vertically moving mode, a clamping jaw and an arc-shaped groove are arranged on the control piece and used for controlling the second switch, a pushing block is further arranged on the second rotating shaft, and the pushing block is located in the arc-shaped groove. The rotating part can also be rotated to enable the pushing block to push the control part to move up and down through the arc-shaped groove, so that the clamping jaw controls the second switch to be switched off or switched on, the electric loading mechanism is switched between a power-off state and a power-on state, and the toy gun has a manual loading mode.

In a further preferred scheme, the outer surface of the shell is provided with marks for manual operation, single hair and continuous hair; and the rotating piece is provided with a state indicating block. The status indicator block may indicate whether the toy gun is currently in a manual loading mode, an electric single shot mode, or an electric burst mode.

In a further preferred scheme, the launching mechanism comprises a positioning column, a second compression spring, a translation piece and a limiting block, the positioning column is fixedly installed in the shell, the positioning column is located behind the outer air cylinder and arranged along the length direction of the outer air cylinder, and a through hole capable of being sleeved on the positioning column is formed in the rear end of the outer air cylinder; the second compression spring is sleeved on the positioning column, the rear end of the second compression spring is connected with or in close contact with the rear wall of the shell, and the front end of the second compression spring is connected with or in close contact with the rear end of the outer air cylinder; the translation piece can be installed in the shell in a left-right moving mode, the front end of the translation piece is connected with the upper end of the trigger, and the rear end of the translation piece is provided with a chute which gradually inclines downwards from front to back; the limiting block can be installed in the shell in a vertically moving mode and matched with the chute of the translation piece, the limiting block corresponds to the rack in position, and an inclined plane which gradually inclines upwards from front to back is arranged on the limiting block. When the shell is loaded, the outer air cylinder moves backwards to a proper position, and the limiting block limits the rack to fix the position of the outer air cylinder. When the buckling part of trigger is pulled, the upper end of trigger moves forward and drives the translation piece simultaneously and move forward to make the stopper move down along the chute, stopper and rack break away from the contact, outer gas cylinder no longer by fixed, outer gas cylinder is quick forward movement under second compression spring's effect, thereby launches soft bullet.

The utility model has the beneficial effects that: the toy gun wave box can select single shot or continuous shot in the electric loading mode, and is convenient to switch.

Drawings

FIG. 1 is a schematic view of a toy gun according to an embodiment of the present invention;

FIG. 2 is a schematic view showing the internal structure of the toy gun in the electric repeating state according to the embodiment of the present invention when the trigger is pulled;

FIG. 3 is a schematic view of the rotor of FIG. 2 with the addition of a rotor;

FIG. 4 is a schematic view of the control member of FIG. 3 with the addition of the control member;

FIG. 5 is a schematic view of the interior of the toy gun in the continuous firing mode without pulling the trigger according to the embodiment of the present invention;

FIG. 6 is a schematic view showing the internal structure of the toy gun in the single shot state of the toy gun according to the embodiment of the present invention when the trigger is pulled;

FIG. 7 is a schematic view showing the internal structure of the toy gun in the single-shot state without pulling the trigger according to the embodiment of the present invention;

FIG. 8 is a schematic view of the internal structure of the toy gun of the present invention in an alternative view when the toy gun is in the single shot position and the trigger is not actuated;

FIG. 9 is a schematic structural diagram of a trigger lever according to an embodiment of the present invention;

FIG. 10 is a schematic view of the construction of the oscillating member in the embodiment of the present invention;

FIG. 11 is a schematic view of a rotating member according to an embodiment of the present invention;

FIG. 12 is a schematic structural view of the final gear of the gear set in accordance with an embodiment of the present invention;

fig. 13 is a schematic structural diagram of a translating element in an embodiment of the utility model.

Detailed Description

The utility model is further described with reference to the following figures and specific embodiments:

1-13, the toy gun bellows comprises a housing 1, an outer air cylinder 2, a trigger 3, an electric loading mechanism 4, a mode switching mechanism 5 and a launching mechanism 6, wherein the outer air cylinder 2, the trigger 3, the electric loading mechanism 4 and the launching mechanism 6 are respectively arranged in the housing 1, the outer air cylinder 2 can move back and forth along the housing 1, the middle part of the trigger 3 is hinged in the housing 1, the lower part of the trigger 3 is a buckling part 301 exposed out of the housing 1, and the upper part of the trigger 3 is a pushing part 302 capable of pushing a trigger rod 401; the electric loading mechanism 4 comprises a trigger rod 401, a first switch 402, a second switch 403, a power supply (not shown in the figure), a motor 404 and a gear set 405, wherein a guide groove 101 arranged along the front-back direction is formed in the shell 1, a first rotating shaft 4011 is arranged in the middle of the trigger rod 401, the first rotating shaft 4011 is positioned in the guide groove 101 and can move back and forth along the guide groove 101, and a first opening 102 for extending the rear end of the trigger rod 401 is formed in the position, below the rear end of the trigger rod 401, on the shell 1; the front end of the trigger rod 401 corresponds to the position of the first switch 402, the front end of the trigger rod 401 is provided with a first compression spring (not seen in the figure), the front end of the first compression spring is connected or tightly contacted with the shell 1, the rear end of the trigger rod 401 corresponds to the position of the pushing part 302 of the trigger 3, the trigger rod 401 is provided with a sliding groove 4012, and the middle part of the upper end of the sliding groove 4012 is provided with a second opening 40121; the first switch 402, the second switch 403, the power supply and the motor 404 are sequentially connected in series to form a loop, and a first-stage gear of the gear set 405 is arranged on a power output shaft of the motor 404; the outer air cylinder 2 is provided with a rack 201 matched with a final gear 4051 of the gear set 405; the mode switching mechanism 5 includes a cam 501, a swinging member 502, a rotating member 503, and a control member 504, the cam 501 being disposed coaxially with the final stage gear 4051 of the gear group 405; the middle part of the swinging piece 502 is hinged in the shell 1, the front end of the swinging piece 502 is provided with a pressing block 5021 matched with the shape of the sliding groove 4012, the rear end of the swinging piece 502 is provided with a shifting block 5022 and a lug 5023 matched with the cam 501, and the lug 5023 is positioned above the cam 501; the rotating member 503 is provided with a second rotating shaft 5031, the rotating member 503 is rotatably mounted on the housing 1 through the second rotating shaft 5031, and the rotating member 503 is located on the outer surface of the housing 1, and the second rotating shaft 5031 is provided with a poking piece 50311 and a pushing piece 50312 for poking the poking block 5022; the control member 504 can be vertically moved and installed in the housing 1, the control member 504 is provided with a clamping jaw (not visible in the figure) for controlling the second switch 403 and an arc-shaped groove 5041, and the pushing block 50312 is arranged in the arc-shaped groove 5041; the launching mechanism 6 comprises a positioning column 601, a second compression spring 602, a translation piece 603 and a limiting block 604, the positioning column 601 is fixedly installed in the housing 1, the positioning column 601 is located behind the outer air cylinder 2 and is arranged along the length direction of the outer air cylinder 2, and the rear end of the outer air cylinder 2 is provided with a through hole capable of being sleeved on the positioning column 601; the second compression spring 602 is sleeved on the positioning column 601, the rear end of the second compression spring 602 is connected with or in close contact with the rear wall of the housing 1, and the front end of the second compression spring 602 is connected with or in close contact with the rear end of the outer air cylinder 2; the translation piece 603 can be installed in the shell 1 in a left-right moving mode, the front end of the translation piece 603 is connected with the upper end of the trigger 3, and the rear end of the translation piece 603 is provided with a chute 6031 which is gradually inclined downwards from front to back; the limiting block 604 can be installed in the housing 1 in a vertically movable manner, the limiting block 604 is matched with a chute 6031 of the translation piece 603, the limiting block 604 corresponds to the rack 201, and an inclined surface 6041 which is inclined upwards gradually from front to back is arranged on the limiting block 604.

In the toy gun bellows, the outer air tube 2 is used for ejecting soft bullets out of the toy gun, and in the initial state of the toy gun, the outer air tube 2 is arranged at the rear end of the shell 1 (usually, the outer air tube 2 is manually pulled backwards to make the outer air tube 2 arranged at the rear end of the shell 1 by simulating the loading action).

The mode switching mechanism 5 can realize the switching of the manual loading, the electric single-shot and the electric continuous-shot states by rotating the rotating piece 503, the loading processes in the manual loading, the electric single-shot and the electric continuous-shot modes are that the outer air cylinder 2 moves backwards in place, the limiting block 604 limits the rack 201, so that the position of the outer air cylinder 2 is fixed, when the trigger 3 is buckled, the upper end of the trigger 3 moves forwards and simultaneously drives the translation piece 603 to move forwards, so that the limiting block 604 moves downwards along the chute 6031, the limiting block 604 is separated from the contact with the rack 201, the outer air cylinder 2 is not fixed any more, the outer air cylinder 2 moves forwards quickly under the action of the second compression spring 602, and accordingly soft bullets are launched, and the outer air cylinder 2 moves forwards quickly from back.

When the manual loading mode is needed, the pushing block 50312 pushes the control piece 504 to move up and down through the arc-shaped groove 5041 by rotating the rotating piece 503, so that the clamping jaw controls the disconnection of the second switch 403, the electric loading mechanism 4 is powered off, and manual loading can be carried out at the moment. When the electric loading mode is required to be used, the clamping jaw controls the second switch 403 to be closed through the rotating piece 503; under the condition that the electric single-shot mode is needed, the shifting piece 50311 on the rotating piece 503 shifts the shifting block 5022 on the swinging piece 502 to enable the rear end of the swinging piece 502 to swing downwards and the front end to lift upwards, and at the moment, the lug 5023 can be in contact with the cam 501; when the trigger 3 is not buckled down, the pressure block 5021 is positioned above the second opening 40121 in the middle of the sliding groove 4012; when the trigger 3 is pulled down, the pushing part 302 at the upper end of the trigger 3 pushes the trigger rod 401 to move forwards, so that the first switch 402 is closed, and the pressure block 5021 is positioned above the upper wall at the rear part of the sliding groove 4012; in the process that the last-stage gear 4051 of the gear set 405 drives the rack 201 on the outer gas cylinder 2 to move backwards, the cam 501 pushes the projection 5023 to gradually lift the rear end of the swinging piece 502 and gradually swing the pressing block 5021 downwards, at the moment, the pressing block 5021 presses the upper wall 40122 at the rear part of the sliding groove 4012 downwards, and the trigger rod 401 gradually moves backwards and downwards under the combined action of the pressing block 5021 and the first compression spring; when the outer air cylinder 2 moves to the right position, the downward swinging amplitude of the pressing block 5021 reaches the maximum, the rear end of the trigger rod 401 extends out of the first opening 102, the trigger rod 401 is separated from the first switch 402, the first switch 402 is switched off, the electric loading mechanism 4 is powered off, the outer air cylinder 2 is not automatically driven to move from front to back, then, the launching mechanism 6 drives the outer air cylinder 2 to rapidly move from back to front due to the fact that the launching mechanism 6 is still in the working state, soft bullets are launched from the toy gun, and after the trigger 3 is pulled each time, the electric loading mechanism 4 drives the outer air cylinder 2 back to complete loading of the soft bullets, the soft bullets are launched by the launching mechanism 6 and sequentially circulate, and single-shot launching of the toy gun under automatic loading is achieved. When the electric repeating mode is needed, the rotating member 503 is used for toggling the shifting block 5022 on the swinging member 502 to lift the rear end of the swinging member 502 and swing the front end downwards, at the moment, the projection 5023 is not in contact with the cam 501, and when the trigger 3 is not buckled down, the pressing block 5021 is positioned in the sliding groove 4012; when the trigger 3 is buckled, the pushing part 302 at the upper end of the trigger 3 pushes the trigger rod 401 to move forwards, the first switch 402 is closed, the pressing block 5021 moves to the rear end of the sliding groove 4012 at the moment, the upper wall at the rear part of the sliding groove 4012 is limited, the rear end of the trigger rod 401 cannot extend out of the first opening 102, and meanwhile, the swinging piece 502 cannot be pushed by the cam 501, so that the trigger rod 401 cannot move under the combined action of the trigger 3 and the pressing block 5021 only by fastening the trigger 3, the trigger rod 401 is always in contact with the first switch 402, the electric loading mechanism 4 is continuously in a power-on state, the launching mechanism 6 is continuously in a triggering state, and continuous launching of the toy gun under automatic loading is realized.

The last gear 4051 is provided with a plurality of first gear teeth 40511 for engaging with other gears in the gear set 405 and a plurality of second gear teeth 40512 for engaging with the rack 201, wherein the first gear teeth 40511 are uniformly arranged on the entire tread of the last gear 4051 along the circumference of the last gear 4051, and the second gear teeth 40512 are only arranged in a sector of the tread of the last gear 4051 (i.e., the tread of the last gear 4051 is not provided with the second gear teeth 40512 in a certain sector), by adopting the arrangement, when the outer cylinder 2 moves backward to a certain position, the portion of the last gear 4051 where the second gear teeth 40512 are not arranged is located upward, and when the outer cylinder 2 is emitted by the emission mechanism 6, the rack 201 can pass through the region directly without driving the last gear 4051 to move.

The outer surface of the shell 1 is provided with manual, single-shot and continuous-shot marks; the rotating member 503 is provided with a status indication block 5032. The status indicator block 5032 can indicate whether the toy gun is currently in a manual loading mode, a power single shot mode, or a power burst mode.

Claims (6)

1. The utility model provides a toy gun ripples case, includes shell, outer inflator, trigger, electronic mechanism and the firing mechanism of loading into a chamber, and outer inflator, trigger, electronic mechanism and the firing mechanism of loading into a chamber set up respectively in the shell, and outer inflator can be followed the shell back-and-forth movement, and outer inflator is connected with the drive end transmission of electronic mechanism of loading into a chamber, and outer inflator links with the firing mechanism mutually, and the trigger is connected its characterized in that with the drive end transmission of firing mechanism: the electric loading mechanism is provided with a first switch and a trigger rod, the first switch corresponds to the position of the trigger rod, the trigger rod is movably arranged in the shell, and the trigger rod is linked with the trigger; the toy gun bellows further includes a mode switching mechanism capable of controlling whether the trigger lever is separated from the first switch in a trigger fastening state.

2. A toy gun bellows as claimed in claim 1, wherein: the electric loading mechanism comprises the trigger rod, the first switch, a power supply, a motor and a gear set, a guide groove is formed in the shell in the front-back direction, a first rotating shaft is arranged in the middle of the trigger rod and is positioned in the guide groove and can move back and forth along the guide groove, and a first opening for the rear end of the trigger rod to extend out is formed in the position, below the rear end of the trigger rod, of the shell; the front end of the trigger rod corresponds to the position of the first switch, the front end of the trigger rod is provided with a first compression spring, the front end of the first compression spring is connected with or closely contacted with the shell, and the rear end of the trigger rod is linked with the trigger; the first switch, the power supply and the motor are sequentially connected in series to form a loop, and a first-stage gear of the gear set is arranged on a power output shaft of the motor; the outer air cylinder is provided with a rack matched with a final-stage gear of the gear set.

3. A toy gun bellows as claimed in claim 2, wherein: the middle part of the trigger is hinged in the shell, the lower part of the trigger is a buckling part exposed out of the shell, the upper part of the trigger is a pushing part capable of pushing the trigger rod, and the rear end of the trigger rod corresponds to the pushing part of the trigger; the shell is provided with a guide groove arranged along the front-back direction, the middle part of the trigger rod is provided with a first rotating shaft, the first rotating shaft is positioned in the guide groove and can move back and forth along the guide groove, and a first opening for extending the rear end of the trigger rod is arranged at the position, below the rear end of the trigger rod, on the shell; the front end of the trigger rod corresponds to the position of the first switch, the front end of the trigger rod is provided with a first compression spring, the front end of the first compression spring is connected with or closely contacted with the shell, and the rear end of the trigger rod corresponds to the pushing position of the trigger; the trigger rod is provided with a sliding chute, and the middle part of the upper end of the sliding chute is provided with a second opening; the mode switching mechanism comprises a cam, a swinging piece and a rotating piece, wherein the cam is coaxially arranged with a final stage gear of the gear set; the middle part of the swinging piece is hinged in the shell, the front end of the swinging piece is provided with a pressing block matched with the shape of the sliding chute, the rear end of the swinging piece is provided with a shifting block and a convex block matched with the cam, and the convex block is positioned above the cam; the rotating part is provided with a second rotating shaft, the rotating part is rotatably installed on the shell through the second rotating shaft, the rotating part is located on the outer surface of the shell, and the second rotating shaft is provided with a shifting piece used for shifting the shifting block.

4. A toy gun bellows as claimed in claim 3, wherein: the electric loading mechanism also comprises a second switch, and the first switch, the second switch, the power supply and the motor are sequentially connected in series to form a loop; the mode switching mechanism further comprises a control piece, the control piece can be installed in the shell in a vertically moving mode, a clamping jaw and an arc-shaped groove are arranged on the control piece and used for controlling the second switch, a pushing block is further arranged on the second rotating shaft, and the pushing block is located in the arc-shaped groove.

5. The toy gun bellows of claim 4, wherein: the outer surface of the shell is provided with marks for manual operation, single hair and continuous hair; and the rotating piece is provided with a state indicating block.

6. A toy gun bellows as claimed in claim 2, wherein: the launching mechanism comprises a positioning column, a second compression spring, a translation piece and a limiting block, the positioning column is fixedly arranged in the shell, the positioning column is positioned behind the outer air cylinder and arranged along the length direction of the outer air cylinder, and the rear end of the outer air cylinder is provided with a through hole capable of being sleeved on the positioning column; the second compression spring is sleeved on the positioning column, the rear end of the second compression spring is connected with or in close contact with the rear wall of the shell, and the front end of the second compression spring is connected with or in close contact with the rear end of the outer air cylinder; the translation piece can be installed in the shell in a left-right moving mode, the front end of the translation piece is connected with the upper end of the trigger, and the rear end of the translation piece is provided with a chute which gradually inclines downwards from front to back; the limiting block can be installed in the shell in a vertically moving mode and matched with the chute of the translation piece, the limiting block corresponds to the rack in position, and an inclined plane which gradually inclines upwards from front to back is arranged on the limiting block.

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