CN211158564U - Toy spinning-top gun - Google Patents

Abstract

The utility model discloses a toy gyroscope gun, which comprises a transmitting gun and at least two gyroscopes, wherein the transmitting gun comprises a gun body and a gyroscope clamp, the gyroscope clamp is detachably arranged on the gun body, and the gyroscopes are arranged on the gyroscope clamp; the gun body is provided with a loading emission part for emitting the spinning tops, and one spinning top is emitted when the loading emission part is triggered once. The utility model discloses a top rifle, top clamp detachably wherein installs on the rifle body, triggers the transmission portion of charging many times, has launched the back with the top of top clamp in, only needs to pull down empty top clamp, installs other top clamps of installing the top again, can launch once more, has improved the continuity of top transmission.

Description

Toy spinning-top gun

Technical Field

The utility model relates to a toy top technical field especially relates to a toy top rifle.

Background

The toy gyroscope is usually started in two ways, one is directly started to rotate through a rack or driven to rotate by a built-in motor, and the other is driven to rotate through an external transmitter. At present, the commonly used gyro transmitter can only be installed with one gyro each time, and the gyro is installed once when the gyro is transmitted once, so that the operation speed is low.

For improving the emission speed, some toy companies have proposed a toy top rifle that can launch the top in succession, and a plurality of tops can be placed simultaneously at the top clamp of top rifle before the transmission, can launch the top through triggering the trigger, can launch the top again after having launched whole tops, have realized the continuous transmission of top. However, the number of gyros launched by the gyros of the gyros gun is affected by the number of the placement positions of the gyros clip, the number of gyros which can be launched is limited, after the gyros in the gyros clip are launched, the launched gyros need to be installed back to the gyros clip to be launched again, and the launching continuity is not high.

In addition, the toy spinning top gun needs to pull the rack or perform other back-and-forth operations to store energy for the spinning top before the spinning top is launched back and forth, so that the spinning top rotates at high speed firstly, and then the spinning top rotating at high speed is launched out. Every time the top is launched, the top is stored energy and then launched, the operation process is complex, and children with small ages have difficulty in using the top.

Therefore, a toy gyroscope gun with a detachable gyroscope clip is needed, after a gyroscope in one gyroscope clip is launched, the empty gyroscope clip is detached, other gyroscope clips with gyroscopes installed are installed, the gyroscope clip can be launched again, and the launching continuity of the gyroscope is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a toy gyroscope gun with a detachable gyroscope clip, so as to achieve the purposes of simple operation and wide suitable age.

The technical scheme of the utility model provides a toy top rifle, including transmission rifle and at least two tops, transmission rifle includes the rifle body and top clamp, the top clamp detachably installs on the rifle body, the top is placed on the top clamp;

the gun body is provided with a loading emission part for emitting the spinning tops, and one spinning top is emitted when the loading emission part is triggered once.

Further, the top clamp is rotatably mounted on the gun body, and the tops are uniformly arranged at intervals along the rotating direction of the top clamp;

the gun body is provided with a launching position, one of the gyros is positioned on the launching position before the loading launching part is triggered, the loading launching part launches the gyro positioned on the launching position during triggering, and the loading launching part drives the gyro clamp to rotate during launching of the gyro, so that the next gyro rotates to the launching position.

Furthermore, the feeding launching part comprises a feeding part, a triggering part, a launching part and a hooking part, and the feeding part is connected with the triggering part, the launching part and the hooking part;

before launching, the loading part is operated to store energy, during launching, the triggering part is triggered to enable the loading part to release energy, the loading part drives the launching part to launch one of the gyros, and simultaneously drives the hook rotating part to stir the gyro clamp to rotate.

Furthermore, the lower end of the gyro clip is provided with an installation column, and the circumferential direction of the installation column is provided with a locking groove;

the gun body is provided with an insertion hole, and a gyro clamp locking piece which can stretch along the radial direction of the insertion hole is arranged below the insertion hole;

the mounting column is inserted into the insertion hole, the top clamp locking piece extends out to one side close to the mounting column and is inserted into the locking groove to lock the mounting column; and pressing the top clamp locking piece to retract to one side far away from the mounting column, and unlocking the mounting column by the top clamp locking piece through the locking groove.

Further, the gun body comprises a trigger end and a transmitting end;

the upper chamber part comprises a pushing piece, a locking piece and an energy storage elastic piece, the pushing piece can reciprocate between the triggering end and the launching end, one end of the energy storage elastic piece is connected with the pushing piece, the other end of the energy storage elastic piece is connected with the launching end, and the locking piece is arranged at the triggering end;

when the pushing piece is pushed to the triggering end, the pushing piece is locked by the locking piece, and the energy storage elastic piece stores energy;

when the trigger part is triggered, the locking piece releases the locking of the pushing piece, the energy storage elastic piece releases energy, and the energy storage elastic piece drives the pushing piece to move to the launching end.

Furthermore, one side of the pushing piece is provided with a limiting lug boss matched with the locking piece;

the locking piece can stretch and retract in the direction perpendicular to the movement direction of the pushing piece, and an inclined surface is arranged on one side, facing the launching end, of the locking piece;

when the pushing piece is pushed to the triggering end, the limiting convex block pushes the locking piece to be compressed in the direction far away from the pushing piece along the inclined surface until the limiting convex block moves to one side, facing the triggering end, of the locking piece to be separated from the locking piece, and the locking piece stretches out to lock the limiting convex block.

Further, the trigger part comprises a trigger part and a torsion part, the trigger part comprises a trigger end and a pressing end, and the torsion part is arranged at the joint of the trigger end and the pressing end;

the pressing end is located at one end, close to the limiting lug, of the locking piece in the telescopic direction, and when the pulling end is pulled, the pressing end presses the locking piece to enable the locking piece to be compressed in the direction away from the limiting lug 311, and the locking of the locking piece on the limiting lug is released.

Furthermore, the top clamp comprises a rotary table, at least two top mounting grooves are uniformly formed in the rotary table, top buckles for clamping the tops are arranged in the top mounting grooves, and the top buckles loosen the tops when the upper cavity part stores energy.

Further, the gyroscope comprises a gyroscope cap and a gyroscope tip connected below the gyroscope cap, and a gear is arranged on the gyroscope tip;

the launching part comprises a push rod, a launching hook, a rack and a launching groove, the push rod can stretch in the movement direction of the pushing piece, the launching hook is installed at one end, close to the triggering end, of the pushing piece, the launching groove is arranged along the movement direction of the pushing piece, and the rack is arranged on one side in the launching groove;

when the upper chamber part stores energy, the pushing piece pushes the push rod to extend into the gyro clamp, the push rod pushes the gyro buckle to the direction far away from the gyro, and meanwhile, the pushing piece drives the launching hook to extend into the gyro clamp and is positioned on one side of the gyro close to the triggering end;

when the upper chamber part releases energy, the pushing piece drives the launching hook to move to the launching end, the launching hook stirs the gyroscope to move along the launching groove, and the rack is matched with the gear of the gyroscope to drive the gyroscope to rotate.

Furthermore, the hook rotating part comprises a hook rotating elastic part, a connecting rod and a toggle hook, one end of the connecting rod is connected with the gun body through the hook rotating elastic part, the other end of the connecting rod is rotatably connected with the toggle hook, and one end of the toggle hook, which is far away from the connecting rod, is provided with a sharp hook;

the lower end of the gyro clamp is provided with a rotating tooth, when the upper chamber part stores energy, the pushing piece pushes the connecting rod to drive the toggle hook to move to one side of the rotating tooth close to the trigger end, the hook rotating elastic piece is elongated, when the upper chamber part releases energy, the pushing piece is separated from the connecting rod, the hook rotating elastic piece resets to pull the connecting rod to drive the toggle hook to move towards the transmitting end, and the toggle hook toggles the rotating tooth to drive the gyro clamp to rotate by taking the axis of the rotating tooth as an axis.

After adopting above-mentioned technical scheme, have following beneficial effect:

the utility model discloses a toy top rifle, top clamp detachably wherein installs on the rifle body, triggers the transmission portion of loading into the thorax many times, after launching the top in the top clamp, only need to pull down empty top clamp, install other top clamps of installing the top again, can launch again, improved the continuity of top transmission;

when the top is launched, the barrel part is pushed to store energy, then the trigger part is buckled, and the gear of the top is matched with the rack, so that the top can be launched out, the top is driven to rotate while launching is realized, and the launching operation steps are simplified.

Drawings

The disclosure of the present invention will become more readily understood by reference to the drawings. It should be understood that: these drawings are for illustrative purposes only and are not intended to limit the scope of the present disclosure. In the figure:

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

FIG. 2 is a schematic view of a toy gyroscope gun according to an embodiment of the present invention in a second state;

FIG. 3 is a schematic view of a toy gyroscope gun according to an embodiment of the present invention in a third state;

FIG. 4 is a schematic diagram of a fourth state of the toy gyroscope gun according to an embodiment of the present invention;

FIG. 5 is a partial schematic view of the internal structure of a toy gyroscope gun according to an embodiment of the present invention;

FIG. 6 is a first perspective view of the loading launching section of the toy gyroscope gun according to an embodiment of the present invention;

FIG. 7 is a second perspective view of the loading emission portion of the toy gyroscope gun according to an embodiment of the present invention;

FIG. 8 is an exploded view of the upper chamber of the toy gyroscope gun according to an embodiment of the present invention;

FIG. 9 is a perspective view of the energy-storing front hook of the upper chamber of the toy gyroscope gun according to an embodiment of the present invention;

FIG. 10 is a perspective view of the energy-storing rear hooking and rotating part of the upper chamber of the toy gyroscope gun according to an embodiment of the present invention;

FIG. 11 is an exploded view of a top clip of a toy top gun according to an embodiment of the present invention;

FIG. 12 is a top view of the energy storing front-firing part of the loading part of the toy gyroscope gun according to an embodiment of the present invention;

FIG. 13 is a top view of the energy-storing rear-emitting portion of the loading portion of the toy gyroscope gun according to an embodiment of the present invention;

fig. 14 is a top view of the launching part of the toy gyroscope gun in the process of launching the gyroscope according to an embodiment of the present invention.

Reference symbol comparison table:

the gun comprises a gun body 001, a gun body 01, a front shell 101, a rear shell 102, a firing groove 103, a trigger end A, a firing end B, a firing position S, an insertion hole 11, a top clamp locking piece 12, a button part 121, a locking elastic piece 13, a sliding groove 14 and a positioning lug 15;

the gyro clip 02, the turntable 21, the mounting column 211, the locking groove 2111, the spiral tooth 2112, the gyro mounting groove 212, the gyro buckle 213, the gyro buckle elastic piece 214, the positioning groove 215, the cover plate 22 and the cover plate groove 221;

the upper chamber part 03, the pushing part 31, the limiting lug 311, the limiting part 312, the locking piece 32, the inclined surface 321, the energy storage elastic piece 33, the sliding block 34, the front sliding block 341, the rear sliding block 342 and the locking elastic piece 35;

a trigger part 04, a trigger member 41, a pulling end 411, a pressing end 412 and a torsion member 42;

a launching part 05, a push rod 51, a launching hook 52, a rack 53 and a push rod elastic piece 54;

a hook rotating part 06, a hook rotating elastic piece 61, a connecting rod 62, a toggle hook 63 and a sharp hook 631;

gyroscope 002, gyroscope cap 021, gyroscope tip 022 and gear 0221.

Detailed Description

The following describes the present invention with reference to the accompanying drawings.

It is easily understood that, according to the technical solution of the present invention, a plurality of structural modes and implementation modes that can be mutually replaced by those of ordinary skill in the art can be achieved without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are only exemplary illustrations of the technical solutions of the present invention, and should not be construed as limiting or restricting the technical solutions of the present invention in its entirety or as a limitation of the present invention.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

The toy gyro gun in this embodiment, as shown in fig. 1 to 4, includes a launch gun 001 and four gyros 002, the launch gun 001 includes a gun body 01 and a gyro clip 02, the gyro clip 02 is detachably mounted on the gun body 01, and the gyros 002 are placed on the gyro clip 02;

the gun body 01 is provided with a loading launching part (as shown in fig. 6-8) for launching the spinning top 002, and one spinning top 002 is launched each time the loading launching part is triggered.

Two, or three or more than four spinning tops 002 may be set on the spinning top clip 02, depending on the relative sizes of the launching gun 001 and the spinning tops 002 and the structure of the spinning top clip 02. In this embodiment, the gyro clip 02 can be used for placing four gyros 002, and the gyro 002 is uniformly placed on the gyro clip 02, as shown in a first state in fig. 1, before launching, the four gyros 002 are placed in the gyro clip 02, and then the gyro clip 02 is installed on the gun body 01, and then one of the gyros 002 can be launched by triggering the loading launching part, and the launching process is shown in second to fourth states in fig. 2-4. When all the four spinning tops 002 on the spinning top clip 02 are launched, the spinning top clip 02 can be detached and another spinning top clip can be mounted. The toy gyroscope gun with the structure can be provided with the plurality of gyroscope clips, and after all the gyroscopes in the plurality of gyroscope clips are launched, the launched gyroscopes are installed back at one time, so that the number of continuously launched gyroscopes is increased, and the launching continuity is improved. Specifically, the top clamp 02 can be detachably mounted on the gun body 01 in a threaded fit mode, a gear engagement mode, a clamping groove fit mode, a movable locking buckle locking mode and the like. In the present embodiment, as shown in fig. 5, the lower end of the top clamp 02 is provided with a mounting post 211, and a locking groove 2111 is provided in the circumferential direction of the mounting post 211;

the gun body 01 is provided with an insertion hole 11, and a top clamp locking piece 12 which can stretch and contract along the radial direction of the insertion hole 11 is arranged below the insertion hole 11;

after the mounting post 211 is inserted into the insertion hole 11, the top clamp locking piece 12 extends out to one side close to the mounting post 211 and is inserted into the locking groove 2111 to lock the mounting post 211; pressing the top peg locking piece 12 to retract it to the side away from the mounting post 211 disengages the top peg locking piece 12 from the locking slot 12 to unlock the mounting post 211.

Specifically, the top clamp locking piece 12 stretches out and draws back through the locking elastic piece 13, the top clamp locking piece 12 is connected to locking elastic piece 13 one end, the other end is connected with the gun body 01, when in a natural state, the top clamp locking piece 12 is partially shielded in the insertion hole 11, in the process that the mounting post 211 is inserted into the insertion hole 11, the mounting post 211 compresses the locking elastic piece 13 to push the top clamp locking piece 12 out of the insertion hole 11 and then stretch into the insertion hole 11 until the locking groove 2111 is opposite to the top clamp locking piece 12, the locking elastic piece 13 resets to push the top clamp locking piece 12 to move towards one side of the mounting post 211, and the top clamp locking piece 12 is inserted into the locking groove 2111 to lock the mounting post 211.

The end of the peg-top clamp locking piece 12 far away from the locking elastic piece 13 is provided with a button part 121, the button part 121 extends out of the gun body 01 (see fig. 1-4), the locking elastic piece 13 can be compressed by pressing the button part 121, the peg-top clamp locking piece 12 moves to the side far away from the mounting column 211, and therefore the mounting column 211 is unlocked, and the peg-top clamp 02 can be taken out.

Furthermore, when the toy spinning top gun is launched each time or after the toy spinning top gun is launched each time, the relative positions of the upper-chamber launching part in the gun body 01 and the residual spinning tops 002 in the spinning top clamp 02 need to be adjusted adaptively, so that the next spinning top 002 to be launched is moved to the launching position or the upper-chamber launching part is moved to the next spinning top 002 to be launched, and the next launching preparation is made. The embodiment can be adopted that the gyro 002 in the gyro clamp 02 is pushed or rotated to move forwards, so that the next gyro 002 moves to the position of the launched gyro; the whole gyro clip 02 can be rotated or pushed to change the position, and the launching structure of the loading launching part can be moved or rotated to the next gyro 002 to be launched, and the position change of the gyro clip 02 or the loading launching part can be realized through a mechanical linkage structure or an electric power pushing structure. The technical scheme adopted in the embodiment is that the gyro clamp 02 is rotatably arranged on the gun body 01, and the gyros 002 are uniformly arranged at intervals along the rotating direction of the gyro clamp 02; as shown in fig. 1 to 5, the spinning top clip 02 is connected to the gun body 01 through the mounting post 211, and the spinning top clip 02 can rotate about the mounting post 211. The four gyros 002 on the gyro clip 02 are uniformly arranged on a circular locus centered on the mounting post 211.

Be provided with emission position S on the rifle body 01, make one of them top 002 be located emission position S before triggering the portion of launching, the portion of launching the portion of launching the top 002 that is located emission position S when triggering, when the portion of launching the top 002 of launching the top, it presss from both sides 02 rotations to drive the top, makes next top 002 rotatory to emission position S, when launching next time, launches top 002 that is located emission position S once more.

Specifically, as shown in fig. 6 and 7, the charging emission part comprises a charging part 03, a triggering part 04, an emission part 05 and a hooking part 06 (hidden in fig. 7 and not shown), and the charging part 03 is connected with the triggering part 04, the emission part 05 and the hooking part 06;

before the transmission, the operation goes up thorax portion 03 energy storage, during the transmission, triggers trigger part 04 and makes thorax portion 03 energy release, goes up thorax portion 03 and drives the transmission of transmission portion 05 and lie in the top 002 on the transmission position S, drives hook rotation portion 06 simultaneously and stirs top clamp 02 and rotate, all need to operate before each transmission and go up thorax portion 03 and carry out the energy storage.

Further, referring to fig. 1 to 4, two ends of the gun body 01 are respectively defined as a trigger end a and a launch end B, the gyro clip 02 is mounted on the trigger end a, and the gyro 002 located on the launch position S moves from the trigger end a to the launch end B by triggering the trigger part 04 provided on the trigger end a, and is launched from the launch end B.

As shown in fig. 6-8, the loading part 03 is in a state after energy storage, the loading part 03 includes a pushing member 31, a locking member 32 and an energy storage elastic member 33, the pushing member 31 can reciprocate between a triggering end a and a launching end B, one end of the energy storage elastic member 33 is connected to the pushing member 31, the other end is connected to the launching end B, and the locking member 32 is disposed at the triggering end a;

before the upper chamber part 03 is charged, the charging elastic piece 33 is in a natural state, and the pushing piece 31 is positioned at the emission end B of the gun body 01. When the upper chamber part 03 stores energy, and the pushing piece 31 is pushed to the triggering end A, the pushing piece 31 is locked by the locking piece 32, and the energy storage elastic piece 33 stores energy; then the trigger part 04 is triggered, the locking piece 32 releases the locking of the pushing piece 31, the energy storage elastic piece 33 releases energy, the pushing piece 31 moves to the launching end B, and the launching part 05 and the hooking part 06 are driven to move along with the movement of the pushing piece 31.

Specifically, the locking member 32 may be a pressing member, a pulling member, or a knob member partially extending outside the gun body 01, and the pushing member 31 is locked by manual operation; or a mechanical linkage structure can be arranged, so that the pushing piece 31 is automatically locked when the pushing piece 31 is contacted with the locking piece 32. In the embodiment, an automatic locking structure is adopted, and as shown in fig. 8, a limit bump 311 matched with the locking piece 32 is arranged on one side of the pushing piece 31;

the locking piece 32 can stretch and contract in the direction perpendicular to the moving direction of the pushing piece 31, and one side of the locking piece 32 facing the transmitting end B is provided with an inclined surface 321;

when the pushing member 31 is pushed to the triggering end a, the limiting protrusion 311 pushes the locking member 32 along the inclined surface 321 to compress in a direction away from the pushing member 31 until the limiting protrusion 311 moves to a side of the locking member 32 facing the triggering end a to disengage from the locking member 32, and the locking member 32 extends out of the locking limiting protrusion 311.

The locking piece 32 is connected with the locking elastic piece 35 in the embodiment to realize the expansion and contraction of the locking piece 32 in the direction perpendicular to the moving direction of the pushing piece 31; when spacing lug 311 and inclined plane 321 contact promote the locking piece 32, locking elastic component 35 is compressed gradually, moves to one side that the locking piece 32 is close to trigger end A until spacing lug 311, and spacing lug 311 breaks away from with locking piece 32, and locking piece 32 no longer receives the extrusion, and locking elastic component 35 resets this moment, promotes locking piece 32 and shelters from the one side that is close to emission end B at spacing lug 311 to locking spacing lug 311.

Referring to fig. 7 and 8 again, the pushing member 31 is disposed inside the gun body 01 and connected to a slide block 34 disposed outside the gun body 01, the slide block 34 includes a front slide block 341 and a rear slide block 342, the gun body 01 is provided with a slide groove 14 (see fig. 1-4), the front slide block 341 partially passes through the slide groove 14 and then is connected to the rear slide block 342, and the pushing member 34 drives the pushing member 31 to move.

Further, as shown in fig. 8, the triggering portion 04 includes a trigger member 41 and a torsion member 42, the trigger member 41 includes a trigger end 411 and a pressing end 412, the torsion member 42 is installed at a connection position of the trigger end 411 and the pressing end 412, the torsion member 42 may adopt a torsion spring or a rotating shaft, and the trigger member 41 may rotate by taking the torsion member 42 as a shaft;

in this embodiment, the pressing end 412 is located at one end of the locking member 32 far from the locking elastic member 35, when the pulling end 411 is pulled toward the triggering end a, the trigger 41 rotates around the torsion member 42, the pressing end 412 presses the locking member 32 toward one end of the locking elastic member 35, the locking elastic member 35 is compressed, the locking member 32 is separated from the limiting protrusion 311, the locking of the locking member 32 on the limiting protrusion 311 is released, and then the pushing member 31 moves toward the launching end B under the elastic force of the energy storage elastic member 33.

Further, as shown in fig. 11, the top clamp 02 includes a rotating plate 21, the mounting column 211 may be disposed on a lower surface of the rotating plate 21, four top mounting slots 212 are uniformly disposed in the rotating plate 21, and one top 002 is mounted in each top mounting slot 212. The top buckle 213 used for clamping the top 002 is arranged in the top mounting groove 212, the top buckle 213 is connected in the top mounting groove 212 through the top buckle elastic piece 214, before the upper cavity part 03 stores energy, the top buckle elastic piece 214 is in a natural state, the top buckle 213 pops up to clamp the top 002, when the upper cavity part 03 stores energy, the top buckle elastic piece 214 in the top mounting groove 212 of the launching position S is compressed, the top buckle 213 loosens the top 002, and the top launching preparation is made.

Still cover on the carousel 21 and be equipped with apron 22, seted up four apron grooves 221 on the apron 22, every apron groove 221 corresponds and sets up in the top of top mounting groove 212, and top 002 includes top cap 021 and top tip 022, and top tip 022 is connected at the lower extreme of top cap 021, inserts top tip 022 during the installation in apron groove 221, and top knot 213 presss from both sides tightly top tip 022.

Further, a gear 0221 is arranged on the top tip 022;

as shown in fig. 6-8, the launching part 05 includes a push rod 51, a launching hook 52, a rack 53 and a launching slot 103 (see fig. 1-4), the push rod 51 can be extended and contracted in the moving direction of the pushing member 31, the launching hook 52 can be rotatably mounted at one end of the pushing member 31 close to the triggering end a, and can be connected with the pushing member 31 through a torsion spring or a rotating shaft connection, and a limiting part 312 is arranged on the pushing member 31, and the limiting part 312 is arranged at one side of the launching hook 52 close to the triggering end a to limit the rotating angle of the launching hook 52. The area of the side of the fire hook 52 and the push rod 51 near the firing end a is the firing position S. The shooting pot 103 is disposed along the moving direction of the pusher 31, and the rack 53 is disposed at one side in the shooting pot 103.

Specifically, the gun body 01 is composed of a front case 101 and a rear case 102, and a firing slot 103 is formed between the front case and the rear case 102, provided in the direction from the trigger end a to the firing end B, for guiding the spinning top 002 when firing.

Fig. 12 shows that before the upper chamber 03 is charged, one of the gyros 002 is located at the launching position S, the push rod 51 is located outside the gyroscopic clamp 02, and the pushing member 31 and the launching hook 52 are far away from the gyroscopic clamp 02.

Fig. 13 shows that after the upper chamber 03 stores energy, during energy storage, the slider 24 connected to the pushing member 31 pushes the push rod 51 to extend into the gyro clip 02, the push rod 51 pushes the gyro buckle 213 towards a direction away from the gyro 002, and the pushing member 31 drives the launching hook 52 to extend into the gyro clip 02, so that the launching hook 52 is located on one side of the gyro 002 close to the trigger end a, and a launching preparation is made.

Fig. 14 shows that in the energy releasing process of the loading part 03, at this time, the pushing part 31 moves towards the launching end B to drive the launching hook 52 to move towards the launching end B, and the rotation angle of the launching hook 52 is limited due to the arrangement of the limiting part 312, so that the launching hook 52 stirs the top 002 to move along the launching slot 103. The rack 53 is matched with the gear 0221 of the gyro 002 in the movement process so as to drive the gyro 002 to rotate.

The toy gyroscope guns which are already put out in the market at present need to pull back the rack or perform other back and forth operations to store energy for the gyroscope before the gyroscope is launched, so that the gyroscope rotates at high speed firstly and then launches the gyroscope. In this embodiment, each launch only needs to push the upper chamber 03 to store energy, and then the trigger 41 is buckled to enable the gyroscope 002 to rotate at a high speed to launch. The launching step is simplified, so that the toy gyroscope gun has wider applicable age range and can be operated even by children with smaller age; and the operations of loading and pulling the trigger are the same as the launching process of the toy gun, thereby further increasing the interest.

Further, as shown in fig. 8 to 10, the hook rotating portion 06 includes a hook rotating elastic member 61, a link 62 and a toggle hook 63, one end of the link 62 is connected to the gun body 01 through the hook rotating elastic member 61, the other end is rotatably connected to the toggle hook 63, one end of the toggle hook 63, which is far away from the link 62, is provided with a sharp hook 631, and the link 62 and the toggle hook 63 are connected through a torsion spring (not shown) to limit a rotation angle of the toggle hook 63.

As shown in fig. 9 and 10, the spinning top clip 02 is provided with a spinning tooth 2112 at the lower end thereof, and in the present embodiment, the spinning tooth 2112 is provided at the lower end of the mounting post 211. Fig. 9 shows the loading portion 03 before charging, in which the hook rotating elastic member 61 is in a natural state, and the connecting rod 62 and the toggle hook 63 are located on the side of the rotating tooth 2112 close to the firing end B. Fig. 10 shows the loaded part 03 after energy storage, and during energy storage, the pushing element 31 pushes the connecting rod 62 to drive the toggle hook 63 to move, so that the tip hook 631 of the toggle hook 63 is located on the side of the rotating tooth 2112 close to the firing end a, and at this time, the hook rotating elastic element 61 is stretched and ready for torsion.

When the upper chamber part 03 releases energy, the pushing part 31 is separated from the connecting rod 62, the hook rotating elastic part 61 resets, the pulling connecting rod 62 drives the stirring hook 63 to move towards the transmitting end B, and the stirring hook 63 stirs the rotating tooth 2112 to drive the spinning top clamp 02 to rotate by taking the mounting column 211 as an axis because the torsional spring limits the rotating angle of the stirring hook 63.

Optionally, the lower ends of the hooking part 06 and the top clamp 02 can be arranged to be in a gear engagement structure, the upper chamber 03 is connected with the hooking part 06 during energy storage, the hooking part 06 is driven to rotate during energy release, the hooking part 06 drives the top clamp 02 to rotate through gear engagement, after the upper chamber 03 releases energy and resets, the upper chamber 03 is separated from the hooking part 06, and is connected with the hooking part 06 again during next energy storage. The rotation of the top clamp 02 can be realized by the linkage mechanism.

Furthermore, the gun body 01 is also provided with a positioning lug 15, and the positioning lug 15 can extend and retract in the direction towards the top clip 02; four positioning grooves 215 matched with the positioning lugs 15 are arranged on the lower surface of the rotating disc 21 of the top clamp 02, and the four positioning lugs 15 are uniformly arranged on a circular path with the mounting column 211 as a center. When the top clip 02 is mounted, the positioning groove 215 is engaged with the positioning projection 15 to ensure that one of the tops 002 can be positioned on the launching site S. When the peg-top clip 02 is shifted by the shifting hook 63 to rotate, the peg-top clip 02 rotates around the mounting column 211 until the next positioning slot 215 is matched with the positioning bump 15, and the rotation is stopped, so that the next peg-top 002 is located at the launching position S. Wherein, the positioning slot 215 and the positioning lug 15 can be arranged interchangeably.

In the toy gyro gun of this embodiment, when in use, the gyro 002 is mounted on the gyro clip 02, and then the gyro clip 02 is mounted on the gun body 01.

Before launching the top, the sliding block 34 on the gun body 01 is pushed to the trigger end a from the launching end B along the sliding groove 14, the pushing piece 31 inside the gun body 01 is driven to move to the trigger end a, when the sliding block 34 moves to the end of the sliding groove 14, the pushing piece 31 is locked by the locking piece 32, and at the moment, the energy storage elastic piece 33 stores energy. During energy storage, the sliding block 34 and the pushing piece 31 push the push rod 51 and the connecting rod 62 to move simultaneously, so that the push rod 51 pushes away the gyro button 213 in the gyro clip 02, and meanwhile, the launching hook 52 on the pushing piece 31 extends into the gyro clip 02 to prepare for launching; the link 62 pushes the tip hook 631 of the dial hook 63 ready for hooking.

Then, the top 002 is launched, only the pulling end 411 of the pulling member 41 is pulled to the triggering end a side, and at this time, the pressing end 412 of the pulling member 41 presses the locking member 32, so that the locking member 32 releases the locking of the pushing member 31. Energy storage elastic component 33 releases energy when the unblock, drives impeller 31 to the motion of transmitting terminal B, and the transmission hook 52 on the impeller 31 drives top 002 along launching groove 103 motion this moment, and gear 0221 and rack 53 of top 002 lower extreme mutually support, make gear 53 rotatory transmission. When the pushing piece 31 moves towards the launching end B, the push rod 51 and the connecting rod 62 both move towards the launching end B, the push rod 51 is separated from the gyro clip 02, and the connecting rod 62 drives the launching hook 52 to poke the rotary teeth 2112 below the gyro clip 02, so that the gyro clip 02 rotates by 90 degrees, and the next gyro 002 is rotated to the launching position S.

What has been described above is merely the principles and preferred embodiments of the present invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims (10)

1. A toy gyroscope gun comprises a transmitting gun and at least two gyroscopes, and is characterized in that the transmitting gun comprises a gun body and a gyroscope clamp, the gyroscope clamp is detachably mounted on the gun body, and the gyroscopes are placed on the gyroscope clamp;

the gun body is provided with a loading emission part for emitting the spinning tops, and one spinning top is emitted when the loading emission part is triggered once.

2. The toy gyroscope gun of claim 1, wherein the gyroscope clip is rotatably mounted on the gun body, the gyroscopes being evenly spaced in a direction of rotation of the gyroscope clip;

the gun body is provided with a launching position, one of the gyros is positioned on the launching position before the loading launching part is triggered, the loading launching part launches the gyro positioned on the launching position during triggering, and the loading launching part drives the gyro clamp to rotate during launching of the gyro, so that the next gyro rotates to the launching position.

3. The toy tourbillon according to claim 1, wherein the smoothie firing portion comprises a smoothie portion, a trigger portion, a firing portion and a hooking portion, the smoothie portion being connected to the trigger portion, the firing portion and the hooking portion;

before launching, the loading part is operated to store energy, during launching, the triggering part is triggered to enable the loading part to release energy, the loading part drives the launching part to launch one of the gyros, and simultaneously drives the hook rotating part to stir the gyro clamp to rotate.

4. The toy gyroscope gun according to any one of claims 1 to 3, characterized in that the lower end of the gyroscope clip is provided with a mounting post, the mounting post being provided with a locking groove in the circumferential direction;

the gun body is provided with an insertion hole, and a gyro clamp locking piece which can stretch along the radial direction of the insertion hole is arranged below the insertion hole;

after the mounting column is inserted into the insertion hole, the top clamp locking piece extends out to one side close to the mounting column and is inserted into the locking groove to lock the mounting column; and pressing the top clamp locking piece to retract to one side far away from the mounting column, and unlocking the mounting column by the top clamp locking piece through the locking groove.

5. The toy gyroscope gun according to claim 3, characterized in that the gun body includes an activation end and a firing end;

the upper chamber part comprises a pushing piece, a locking piece and an energy storage elastic piece, the pushing piece can reciprocate between the triggering end and the launching end, one end of the energy storage elastic piece is connected with the pushing piece, the other end of the energy storage elastic piece is connected with the launching end, and the locking piece is arranged at the triggering end;

when the pushing piece is pushed to the triggering end, the pushing piece is locked by the locking piece, and the energy storage elastic piece stores energy;

when the trigger part is triggered, the locking piece releases the locking of the pushing piece, the energy storage elastic piece releases energy, and the energy storage elastic piece drives the pushing piece to move to the launching end.

6. The toy gyroscope gun according to claim 5, characterized in that one side of the push member is provided with a limit lug cooperating with the locking member;

the locking piece can stretch and retract in the direction perpendicular to the movement direction of the pushing piece, and an inclined surface is arranged on one side, facing the launching end, of the locking piece;

when the pushing piece is pushed to the triggering end, the limiting convex block pushes the locking piece to be compressed in the direction far away from the pushing piece along the inclined surface until the limiting convex block moves to one side, facing the triggering end, of the locking piece to be separated from the locking piece, and the locking piece stretches out to lock the limiting convex block.

7. The toy gyroscope gun of claim 6, wherein the trigger portion includes a trigger member and a torsion member, the trigger member including a trigger end and a push end, the torsion member being mounted at a junction of the trigger end and the push end;

the pressing end is located at one end, close to the limiting lug, of the locking piece in the telescopic direction, when the pulling end is pulled, the pressing end presses the locking piece to enable the locking piece to be compressed in the direction far away from the limiting lug, and locking of the locking piece on the limiting lug is released.

8. The toy gyroscope gun according to any one of claims 5 to 7, characterized in that the gyroscope clip comprises a turntable, at least two gyroscope mounting grooves are uniformly arranged in the turntable, gyroscope buttons for clamping the gyroscope are arranged in the gyroscope mounting grooves, and the gyroscope buttons release the gyroscope when the upper chamber part stores energy.

9. The toy gyroscope gun according to claim 8, characterized in that the gyroscope includes a gyroscope cap and a gyroscope tip connected below the gyroscope cap, the gyroscope tip being provided with a gear;

the launching part comprises a push rod, a launching hook, a rack and a launching groove, the push rod can stretch in the movement direction of the pushing piece, the launching hook is installed at one end, close to the triggering end, of the pushing piece, the launching groove is arranged along the movement direction of the pushing piece, and the rack is arranged on one side in the launching groove;

when the upper chamber part stores energy, the pushing piece pushes the push rod to extend into the gyro clamp, the push rod pushes the gyro buckle to the direction far away from the gyro, and meanwhile, the pushing piece drives the launching hook to extend into the gyro clamp and is positioned on one side of the gyro close to the triggering end;

when the upper chamber part releases energy, the pushing piece drives the launching hook to move to the launching end, the launching hook stirs the gyroscope to move along the launching groove, and the rack is matched with the gear of the gyroscope to drive the gyroscope to rotate.

10. The toy gyroscope gun according to any one of claims 5-7, characterized in that the hooking portion comprises a hooking elastic member, a link rod and a toggle hook, one end of the link rod is connected with the gun body through the hooking elastic member, the other end of the link rod is rotatably connected with the toggle hook, and one end of the toggle hook far away from the link rod is provided with a sharp hook;

the lower end of the gyro clamp is provided with a rotating tooth, when the upper chamber part stores energy, the pushing piece pushes the connecting rod to drive the toggle hook to move to one side of the rotating tooth close to the trigger end, the hook rotating elastic piece is elongated, when the upper chamber part releases energy, the pushing piece is separated from the connecting rod, the hook rotating elastic piece resets to pull the connecting rod to drive the toggle hook to move towards the transmitting end, and the toggle hook toggles the rotating tooth to drive the gyro clamp to rotate by taking the axis of the rotating tooth as an axis.

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