CN218097404U - Top and plastic coin combined launching gun - Google Patents

Abstract

The utility model relates to a top and plastic coin combined launching gun, which is provided with a launching gun shell, a profiling placing groove, a top body, a placing cavity and a plastic coin body, wherein the profiling placing groove is arranged at the muzzle end of the launching gun shell; a driving mechanism is arranged on the shell of the launching gun below the profiling accommodating groove, and the gyro body can be driven to rotate in the profiling accommodating groove by the driving mechanism; an energy storage mechanism is arranged in the shell of the shooting gun below the placing cavity. Can launch the top body alone, can launch the plastics coin body alone again, can also launch top body and plastics coin body simultaneously, promote the object for appreciation nature of this transmission rifle, can bring more enjoyment for children, satisfy the needs of playing of different functions.

Description

Top and plastic coin combined launching gun

Technical Field

The utility model relates to a toy technical field especially relates to a top and plastics coin combination transmission rifle.

Background

The existing toys are various, the toys can meet the desires of curiosity, joy and exploration activities, the ability of hands-on and thinking is enhanced in the process of playing the toys by children, the toys are helpful for encouraging learning, and the comprehensive development of children's body, morality, intelligence and beauty is facilitated.

There is a top emission rifle on the market, through the drive top rotation back to can launch the top, but this kind of top emission rifle can only launch the top, and the function singleness leads to the object for appreciation nature reduction of top emission rifle, does not satisfy children's needs of playing.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a top and plastics coin combination transmission rifle.

In order to achieve the above object, the present invention provides the following technical solutions.

A top and plastic coin combined launching gun is provided with a launching gun shell, a profiling accommodating groove, a top body, an accommodating cavity and a plastic coin body, wherein the profiling accommodating groove is formed in the muzzle end of the launching gun shell; a driving mechanism is arranged on the shell of the launching gun below the profiling accommodating groove, and the gyro body can be driven to rotate in the profiling accommodating groove by the driving mechanism; an energy storage mechanism is arranged in the shooting gun shell below the placing cavity, and a shooting mechanism is arranged in the shooting gun shell below the energy storage mechanism; the gyro body and the plastic coin body can be independently launched or simultaneously launched through the structural cooperation of the energy storage mechanism and the launching mechanism.

Therefore, energy is stored by operating the energy storage mechanism, the gyro body is placed in the profile modeling placing groove in a limiting mode at the bottom end of the gyro body, the turnover cover is turned over and opened, the plastic coin body is placed in the placing cavity, the gyro body is driven to rotate in the profile modeling placing groove by operating the driving mechanism, the transmitting mechanism is operated and matched with the energy storage mechanism, the gyro body can be transmitted in the profile modeling placing groove in a rotating mode, the plastic coin body is synchronously ejected from the transmitting opening, meanwhile, only the gyro body or the plastic coin body can be selectively loaded by the device, independent transmission of the gyro body or the plastic coin body is achieved, the gyro body can be independently transmitted by the combined transmitting gun, the plastic coin body can be independently transmitted, the gyro body and the plastic coin body can be simultaneously transmitted, the playability of the transmitting gun is improved, more fun can be brought to children, and the play requirements of different functions can be met.

Furthermore, the driving mechanism comprises a sector gear, a hollow sliding seat, an accelerating gear set and an output gear; the sliding seat is arranged on the shell of the shooting gun and is positioned below the profiling placing groove, and the sliding seat can transversely slide on the shell of the shooting gun; the sector gear is rotatably arranged in the shell of the launching gun and extends into the sliding seat; the sector gear is coaxially and fixedly provided with two baffle arms extending into the sliding seat, and the end parts of the two baffle arms are respectively fixed with a limiting head; an extrusion rod is fixed in the sliding seat and penetrates between the two blocking arms; an accelerating gear set in meshing transmission fit with the sector gear is arranged in the shooting gun shell close to the sector gear, and an output gear in meshing transmission fit with the accelerating gear set is arranged in the shooting gun shell close to the profiling accommodating groove; the bottom of top body department coaxial arrangement can with output gear meshing transmission complex driven gear, during sector gear rotates, can drive output gear rotation with higher speed through the transmission of accelerating gear group, through output gear meshing drive driven gear rotation, realize top body's rotation with higher speed.

The sliding seat is pulled towards the rear side along the shell of the launching gun by holding the sliding seat, the sliding seat drives the extrusion rod to synchronously move, the extrusion rod penetrates between the two limiting heads, the extrusion rod pushes the limiting heads and drives the sector gear to rotate, the rotating sector gear and the accelerating gear set are in meshing transmission, the output gear can be driven to rotate in an accelerating mode under the accelerating action of the accelerating gear set, the driven gear is driven to rotate by meshing of the output gear and drives the gyroscope body to rotate, and the accelerating rotation of the gyroscope body is effectively achieved through meshing transmission matching of the sector gear, the accelerating gear set and the output gear.

Furthermore, the energy storage mechanism comprises a moving block, a pull handle, a push rod and an energy storage spring; the moving block is transversely and slidably arranged in the shooting gun shell and is positioned below the placing cavity, the pull handle is fixed at the end part of the moving block, which is far away from the muzzle, and the pull handle penetrates through the shooting gun shell and extends to the rear side of the shooting gun shell; a guide groove communicated with the profiling placing groove is transversely formed in the shooting gun shell, the push rod is slidably mounted in the guide groove, and the end part of the push rod is fixedly connected with the moving block; the energy storage spring is transversely installed in the installation groove in the moving block, a clamping groove A is further formed in the shooting gun shell, and two ends of the energy storage spring are respectively abutted to the inner wall of the installation groove and the inner wall of the clamping groove A.

The pulling pull handle can drive the moving block to slide towards the rear side, the moving block drives the push rod to slide and retract into the guide groove, the energy storage spring is pressed and elastic force is stored at the moment, the energy storage effect can be realized, effective driving force is provided for the emission of the gyro body and the plastic coin body, meanwhile, when the energy storage spring deforms and resets, the moving block can be pushed to slide and reset due to the elastic force effect, the moving block can push the push rod to slide along the guide groove, finally, the push rod can slide and stretch out of the copying accommodating groove, the gyro body is pushed out of the port of the copying accommodating groove, and the emission effect of the gyro body is realized.

Furthermore, the launching mechanism comprises a trigger, a connecting arm, a swinging rod and a return spring; the trigger is rotatably arranged in the shooting gun shell and positioned below the moving block, and the bottom end of the trigger penetrates through and extends to the outside of the shooting gun shell; the connecting arm is fixed at the top end of the trigger in the shooting gun shell, and an arc-shaped groove is formed at one side of the connecting part of the connecting arm and the trigger, which is far away from the profiling containing groove; the swinging rod is rotatably arranged in the shooting gun shell close to the gun handle, and an extrusion end on the swinging rod is in extrusion fit with the arc-shaped groove; the reset spring is sleeved on the fixing pin at the upper end of the swinging rod, and the top end of the reset spring is limited and abutted to the clamping groove B on the shell of the launching gun.

Through the extrusion effect that forms between swinging arms tip and the arc wall, can realize the linkage effect between trigger and the swinging arms, simultaneously when the swinging arms takes place to swing, reset spring pressurized compression, when the non-atress of swinging arms, the elasticity through reset spring can drive the swinging arms and reset, can effectual control top body and the transmission of plastics coin body through pressing the trigger.

Furthermore, an inclined plane A is arranged at one side of the bottom end of the moving block close to the pull handle, an inclined plane B is arranged at the top end of the swing rod close to one side of the pull handle, and the inclined plane B and the inclined plane A are in extrusion fit corresponding to the inclined plane; the bottom of the moving block is provided with a limiting clamping groove at one side of the inclined plane A, and the end angle of the oscillating rod close to the inclined plane B is in clamping fit with the limiting clamping groove.

When the pulling pull handle drives the moving block to slide towards the rear side, the inclined plane A on the moving block can be extruded with the inclined plane B on the oscillating rod, so that the moving block can push the oscillating rod to swing, the end part of the extrusion end is in the tight butt arc-shaped groove at the moment, the inclined plane B can be kept attached to the bottom surface of the moving block, the end angle of the oscillating rod can be clamped into the limiting clamping groove and extruded along with the sliding of the moving block to the rear side, the moving block can be clamped and fixed under the extrusion matching action of the end angle of the oscillating rod and the limiting clamping groove, and the device can keep the energy storage to be in a transmitting state.

Furthermore, the inner wall of the placing cavity is provided with a through groove A which is communicated with the inside of the launching gun shell, the moving block is fixedly provided with an impact block which is matched with the connecting arm in an impact manner, and the impact end at the top end of the connecting arm penetrates through the through groove A to drill into the placing cavity when the connecting arm is impacted by the impact block to fly away the plastic coin body.

The movable block is driven to slide and reset under the action of the elastic force of the energy storage spring, the movable block drives the impact block to synchronously move, the impact block can impact the connecting arm, the connecting arm swings forwards after being impacted, the impact end is pushed into the placing cavity, the impact is made on the plastic coin body placed in the placing cavity, the plastic coin body can fly out from the emission port after being impacted, and the emission effect of the plastic coin body is achieved.

Drawings

FIG. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a schematic view of the surface partial structure of the present invention;

fig. 3 is a schematic view of a partial structure of the driving mechanism of the present invention;

FIG. 4 is a schematic view of the inner part of the casing of the gun of the present invention;

FIG. 5 is a second schematic view of the inner part of the casing of the gun of the present invention;

FIG. 6 is a schematic view of the installation of the energy storage spring structure of the present invention;

fig. 7 is an enlarged view of a structure shown in fig. 5.

In the figure: 1. a firing gun housing; 11. profiling the placement groove; 12. a placement chamber; 121. a through groove A; 13. an emission port; 14. a cover is turned; 2. a top body; 21. a driven gear; 3. a drive mechanism; 31. a sector gear; 32. a catch arm; 33. a limiting head; 34. a sliding seat; 35. extruding a rod; 36. an acceleration gear set; 37. an output gear; 4. an energy storage mechanism; 41. a moving block; 411. An inclined plane A; 412. a limiting clamping groove; 42. pulling a handle; 43. a guide groove; 44. a push rod; 45. mounting grooves; 46. an energy storage spring; 47. a clamping groove A; 5. a launching mechanism; 51. a trigger; 52. A connecting arm; 521. impacting the end head; 522. an impact block; 53. an arc-shaped slot; 54. a swing lever; 541. a bevel B; 55. extruding the end head; 56. a fixing pin; 57. a return spring; 58. a clamping groove B; 6. a plastic coin body.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-7, the utility model provides a top and plastic coin combination emission gun, have emission gun casing 1, profile modeling standing groove 11, top body 2, place chamber 12 and plastic coin body 6, profile modeling standing groove 11 sets up the muzzle end department at emission gun casing 1, top body 2 is spacing to be placed in profile modeling standing groove 11, plastic coin body 6 is placed in placing chamber 12 at emission gun casing 1 top, one side that is close to the muzzle on placing chamber 12 is link up and is equipped with the transmission mouth 13 that is used for plastic coin body 6 to launch, the port department of placing chamber 12 still installs flip 14; a driving mechanism 3 is arranged on the shooting gun shell 1 below the profiling accommodating groove 11, and the gyro body 2 can be driven to rotate in the profiling accommodating groove 11 through the driving mechanism 3; an energy storage mechanism 4 is arranged in the shell 1 of the shooting gun below the placing cavity 12, and a shooting mechanism 5 is arranged in the shell 1 of the shooting gun below the energy storage mechanism 4; the top body 2 and the plastic coin body 6 can be independently launched or the top body 2 and the plastic coin body 6 can be launched simultaneously through the structural cooperation of the energy storage mechanism 4 and the launching mechanism 5.

When children use this device to play, operate energy storage mechanism 4 earlier and carry out the energy storage, place the spacing placing in profile modeling standing groove 11 in bottom of top body 2 afterwards, open flip 14 upset, and place plastics coin body 6 in placing chamber 12, drive top body 2 at the 11 internal rotations of profile modeling standing groove through operation actuating mechanism 3, operation emission mechanism 5, and energy storage mechanism 4 cooperation, can rotate the transmission from profile modeling standing groove 11 with top body 2, in step with plastics coin body 6 and jet out from transmission port 13, this device alternative only loads top body 2 or plastics coin body 6 simultaneously, realize top body 2 or plastics coin body 6's independent transmission.

Specifically, the driving mechanism 3 includes a sector gear 31, a hollow sliding seat 34, an accelerating gear set 36 and an output gear 37; the sliding seat 34 is arranged on the shell 1 of the shooting gun and is positioned below the profiling placing groove 11, and the sliding seat 34 can transversely slide on the shell 1 of the shooting gun; the sector gear 31 is rotatably installed in the gun housing 1 and extends into the sliding seat 34; the sector gear 31 is coaxially and fixedly provided with two baffle arms 32 extending into the sliding seat 34, and the end parts of the two baffle arms 32 are respectively fixed with a limiting head 33; an extrusion rod 35 is fixed in the sliding seat 34, and the extrusion rod 35 penetrates between the two blocking arms 32; an accelerating gear set 36 which is in meshing transmission fit with the sector gear 31 is arranged in the shooting gun shell 1 and close to the sector gear 31, and an output gear 37 which is in meshing transmission fit with the accelerating gear set 36 is arranged in the shooting gun shell 1 and close to the profiling accommodating groove 11; the driven gear 21 which can be meshed with the output gear 37 and is in transmission fit with the bottom end of the gyroscope body 2 is coaxially installed at the bottom end of the gyroscope body 2, when the sector gear 31 rotates, the output gear 37 can be driven to rotate in an accelerated mode through transmission of the accelerating gear set 36, the driven gear 21 is driven to rotate through meshing of the output gear 37, and accelerated rotation of the gyroscope body 2 is achieved. The gyroscope body 2 is placed in the profiling placing groove 11, the gyroscope body 2 is adjusted to enable the driven gear 21 and the output gear 37 to be meshed with each other, the sliding seat 34 is held to be pulled towards the rear side along the shell 1 of the launching gun, the sliding seat 34 drives the extrusion rod 35 to move synchronously, the extrusion rod 35 penetrates through the space between the two limiting heads 33, the extrusion rod 35 pushes the limiting heads 33 and drives the sector gear 31 to rotate, the rotating sector gear 31 and the accelerating gear set 36 are in meshed transmission, the output gear 37 can be driven to rotate in an accelerating mode under the accelerating action of the accelerating gear set 36, the output gear 37 is meshed to drive the driven gear 21 and drive the gyroscope body 2 to rotate, and the accelerating rotation of the gyroscope body 2 is effectively achieved through the meshed transmission matching of the sector gear 31, the accelerating gear set 36 and the output gear 37.

It should be noted that the accelerating gear set 36 in the present device is composed of a large gear, a small gear and a helical gear, the accelerating effect is realized by the meshing transmission of the large gear and the small gear, the reversing transmission effect is realized by the helical gear, and the specific structure and the working principle are not described herein since the structure and the working distance of the matched use are far away from the prior art in the field.

Specifically, the energy storage mechanism 4 comprises a moving block 41, a pull handle 42, a push rod 44 and an energy storage spring 46; the moving block 41 is transversely installed in the shooting gun shell 1 in a sliding mode and located below the placing cavity 12, the pull handle 42 is fixed to the end portion, far away from the muzzle, of the moving block 41, and the pull handle 42 penetrates through the rear side of the shooting gun shell 1; a guide groove 43 communicated with the profiling placing groove 11 is transversely arranged in the shooting gun shell 1, a push rod 44 is slidably arranged in the guide groove 43, and the end part of the push rod 44 is fixedly connected with the moving block 41; the energy storage spring 46 is transversely installed in the installation groove 45 on the moving block 41, the shooting gun shell 1 is further provided with a clamping groove A47, and two ends of the energy storage spring 46 are respectively abutted to the inner wall of the installation groove 45 and the inner wall of the clamping groove A47. Pulling pull handle 42 can drive movable block 41 and slide to the rear side, movable block 41 drives push rod 44 simultaneously and slides and contract to inside the guide way 43, energy storage spring 46 pressurized and hold elasticity this moment, can realize the energy storage effect, provide effectual drive power for the transmission of top body 2 and plastics coin body 6, when energy storage spring 46 warp to reset simultaneously, because its spring action can promote movable block 41 and slide and reset, movable block 41 will promote push rod 44 and slide along the guide way 43, final push rod 44 will slide and stretch out to in the profile modeling standing groove 11, release top body 2 from the 11 ports of profile modeling standing groove, realize top body 2's transmission effect.

Specifically, the firing mechanism 5 includes a trigger 51, a connecting arm 52, a swing lever 54, and a return spring 57; the trigger 51 is rotatably arranged in the shooting gun shell 1 and is positioned below the moving block 41, and the bottom end of the trigger 51 penetrates and extends to the outside of the shooting gun shell 1; the connecting arm 52 is fixed at the top end of the trigger 51 in the gun shell 1, and an arc-shaped groove 53 is formed at the side of the connecting part of the connecting arm 52 and the trigger 51 far away from the profile modeling holding groove 11; the swing rod 54 is rotatably arranged in the shooting gun shell 1 close to the gun handle, and an extrusion end 55 on the swing rod 54 is in extrusion fit with the arc-shaped groove 53; the return spring 57 is sleeved on the fixing pin 56 at the upper end of the swinging rod 54, and the top end of the return spring 57 is limited and abutted in the clamping groove B58 on the shooting gun shell 1. Through the extrusion effect that forms between swing lever 54 tip and the arc wall 53, can realize the linkage effect between trigger 51 and the swing lever 54, when swing lever 54 took place to swing simultaneously, reset spring 57 pressurized compression, when swing lever 54 was not atress, can drive swing lever 54 through reset spring 57's elasticity and reset, can effectual control top body 2 and the transmission of plastics coin body 6 through pressing trigger 51.

Specifically, an inclined plane a411 is arranged at one side of the bottom end of the moving block 41 close to the pull handle 42, an inclined plane B541 is arranged at the top end of the swing rod 54 close to the pull handle 42, and the inclined plane B541 and the inclined plane a411 are in corresponding inclined plane press fit; the bottom of the moving block 41 is provided with a limiting clamping groove 412 at one side of the inclined plane a411, and an end angle of the oscillating rod 54 close to the inclined plane B541 is in clamping fit with the limiting clamping groove 412. When the pull handle 42 is pulled to drive the moving block 41 to slide towards the rear side, the inclined surface a411 on the moving block 41 can be subjected to inclined surface extrusion with the inclined surface B541 on the oscillating rod 54, so that the moving block 41 can push the oscillating rod 54 to oscillate, at the moment, the end part of the extrusion end 55 is tightly abutted to the arc-shaped groove 53, the inclined surface B541 can be kept attached to the bottom surface of the moving block 41, along with the sliding of the moving block 41 to the final side, the end angle of the oscillating rod 54 is clamped into the limiting clamping groove 412 and extruded, the moving block 41 can be clamped and fixed under the extrusion matching action of the end angle of the oscillating rod 54 and the limiting clamping groove 412, and the device can keep the energy storage state to be launched.

Specifically, a through groove a121 which penetrates through the inside of the gun housing 1 is formed in the inner wall of the placing cavity 12, an impact block 522 which is in impact fit with the connecting arm 52 is fixed on the moving block 41, and an impact tip 521 at the top end of the connecting arm 52 penetrates through the through groove a121 to drill into the placing cavity 12 to strike away the plastic coin body 6 when the connecting arm 52 is impacted by the impact block 522. After the trigger 51 is pressed, the trigger 51 rotates, at this time, the arc-shaped groove 53 extrudes the extrusion end 55, the swing rod 54 is pushed to swing, one end of the swing rod 54, which is close to the inclined plane B541, swings downwards, so that the end angle of the swing rod 54 is separated from the limiting clamping groove 412, clamping of the moving block 41 is cancelled, the moving block 41 is driven to slide and reset under the elastic force of the energy storage spring 46, the moving block 41 drives the impact block 522 to move synchronously, finally, the impact block 522 can impact the connecting arm 52, the connecting arm 52 swings forwards after being impacted, the impact end 521 is pushed into the placing cavity 12 and impacts the plastic coin body 6 placed in the placing cavity 12, the plastic coin body 6 can fly out from the emission port 13 after being impacted, and the emission effect of the plastic coin body 6 is realized.

The present invention has been described in detail with reference to the specific embodiments, and it should not be construed that the embodiments of the present invention are limited to the description. For those skilled in the art to which the invention pertains, numerous equivalents and obvious modifications may be made without departing from the spirit of the invention, and the scope of protection afforded to the invention shall be deemed to be limited only by the claims as filed.

Claims (6)

1. The utility model provides a top and plastics coin combination transmission rifle, has transmission rifle casing (1), profile modeling standing groove (11), top body (2), places chamber (12) and plastics coin body (6), its characterized in that:

the copying placing groove (11) is arranged at the muzzle end of the launching gun shell (1), the spinning top body (2) is placed in the copying placing groove (11) in a limiting mode, the plastic coin body (6) is placed in the placing cavity (12) at the top of the launching gun shell (1), a launching port (13) for launching the plastic coin body (6) is arranged on one side, close to the muzzle, of the placing cavity (12) in a penetrating mode, and a turnover cover (14) is further mounted at the port of the placing cavity (12);

a driving mechanism (3) is arranged on the emission gun shell (1) and is positioned below the profiling placing groove (11), and the gyro body (2) can be driven by the driving mechanism (3) to rotate in the profiling placing groove (11);

an energy storage mechanism (4) is arranged in the shooting gun shell (1) below the placing cavity (12), and a shooting mechanism (5) is arranged in the shooting gun shell (1) below the energy storage mechanism (4);

the energy storage mechanism (4) and the emission mechanism (5) are structurally matched to independently emit the spinning top body (2) and the plastic coin body (6), or the spinning top body (2) and the plastic coin body (6) are emitted simultaneously.

2. A top and plastic coin combined shooting gun as claimed in claim 1, wherein:

the driving mechanism (3) comprises a sector gear (31), a hollow sliding seat (34), an accelerating gear set (36) and an output gear (37);

the sliding seat (34) is arranged on the shooting gun shell (1) and is positioned below the profiling containing groove (11), and the sliding seat (34) can slide transversely on the shooting gun shell (1);

the sector gear (31) is rotatably arranged in the shooting gun shell (1) and extends into the sliding seat (34);

two retaining arms (32) extending into the sliding seat (34) are coaxially and fixedly installed on the sector gear (31), and limiting heads (33) are respectively fixed at the end parts of the two retaining arms (32);

an extrusion rod (35) is fixed in the sliding seat (34), and the extrusion rod (35) penetrates through the space between the two stop arms (32);

an accelerating gear set (36) which is in meshing transmission fit with the sector gear (31) is arranged in the shooting gun shell (1) close to the sector gear (31), and an output gear (37) which is in meshing transmission fit with the accelerating gear set (36) is arranged in the shooting gun shell (1) close to the profiling accommodating groove (11);

bottom department coaxial arrangement of top body (2) can with output gear (37) meshing transmission complex driven gear (21), when sector gear (31) rotate, through accelerating gear group (36) transmission can drive output gear (37) acceleration rate and rotate, through output gear (37) meshing drive driven gear (21) rotate, realize the acceleration rate of top body (2) rotates.

3. A top and plastic coin combined shooting gun as claimed in claim 2, wherein:

the energy storage mechanism (4) comprises a moving block (41), a pull handle (42), a push rod (44) and an energy storage spring (46);

the moving block (41) is transversely installed in the shooting gun shell (1) in a sliding mode and located below the placing cavity (12), the pull handle (42) is fixed to the end portion, far away from a muzzle, of the moving block (41), and the pull handle (42) extends to the rear side of the shooting gun shell (1) in a penetrating mode;

a guide groove (43) communicated with the profiling placing groove (11) is transversely arranged in the shooting gun shell (1), the push rod (44) is slidably arranged in the guide groove (43), and the end part of the push rod (44) is fixedly connected with the moving block (41);

the energy storage spring (46) is transversely installed in an installation groove (45) in the moving block (41), a clamping groove A (47) is further formed in the shooting gun shell (1), and two ends of the energy storage spring (46) are respectively abutted to the inner wall of the installation groove (45) and the inner wall of the clamping groove A (47).

4. A top and plastic coin combined shooting gun as claimed in claim 3, wherein:

the launching mechanism (5) comprises a trigger (51), a connecting arm (52), a swinging rod (54) and a return spring (57);

the trigger (51) is rotatably arranged in the shooting gun shell (1) and is positioned below the moving block (41), and the bottom end of the trigger (51) penetrates and extends to the outside of the shooting gun shell (1);

the connecting arm (52) is fixed at the top end of the trigger (51) in the shooting gun shell (1), and an arc-shaped groove (53) is formed on one side, away from the profile modeling placing groove (11), of the connecting part of the connecting arm (52) and the trigger (51);

the swinging rod (54) is rotatably arranged in the shooting gun shell (1) close to the gun handle, and an extrusion end head (55) on the swinging rod (54) is in extrusion fit with the arc-shaped groove (53);

the return spring (57) is sleeved on a fixing pin (56) at the upper end of the swinging rod (54), and the top end of the return spring (57) is limited and abutted in a clamping groove B (58) on the shooting gun shell (1).

5. A combined spinning top and plastic coin shooting gun as claimed in claim 4, wherein:

an inclined plane A (411) is arranged on one side, close to the pull handle (42), of the bottom end of the moving block (41), an inclined plane B (541) is arranged on the top end, close to the pull handle (42), of the swinging rod (54), and the inclined plane B (541) and the inclined plane A (411) are in corresponding inclined plane extrusion fit;

a limiting clamping groove (412) is formed in the bottom of the moving block (41) and located on one side of the inclined surface A (411), and an end angle, close to the inclined surface B (541), of the oscillating rod (54) is in clamping fit with the limiting clamping groove (412).

6. A combined spinning top and plastic coin shooting gun as claimed in claim 4, wherein:

the inner wall of the placing cavity (12) is provided with a through groove A (121) which is communicated with the inside of the shooting gun shell (1), an impact block (522) which is in impact fit with the connecting arm (52) is fixed on the moving block (41), and an impact end head (521) at the top end of the connecting arm (52) penetrates through the through groove A (121) to drill into the placing cavity (12) when the connecting arm (52) is impacted by the impact block (522) to impact the plastic coin body (6).

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