CN110553544A - Left-wheel type ejection toy - Google Patents

Abstract

The invention relates to a left-wheel type ejection toy which comprises an ejection base, wherein a transmitting assembly, a driving assembly, a drum assembly, a bolt assembly and a trigger assembly are arranged in the ejection base; an emission groove is formed above the front end of the ejection base, and the emission assembly is slidably arranged in the emission groove; the rotary drum assembly is rotatably arranged on the ejection base, a plurality of magazine parts are uniformly arranged in the rotary drum assembly, and each magazine part is provided with a rotary body in a clamping manner; the trigger assembly is used for driving the emission assembly to be clamped with the trigger assembly in a matching manner; the bolt assembly is clamped with the trigger assembly in a matched mode and is used for driving the rotary drum assembly to rotate; the driving assembly is used for driving the bolt assembly to jack the rotating body to insert into the launching assembly; and the driving component is used for driving the rotating body on the transmitting component to do unidirectional rotation motion. The invention not only has the ejection function, but also can continuously launch the rotating body, and the ejected rotating body can also do rotating motion.

Description

left-wheel type ejection toy

Technical Field

The invention relates to the technical field of toys, in particular to a left-wheel type ejection toy.

Background

The toy is used as an important tool for children to develop intelligence and play for entertainment, and the pursuit of the quality and the function of the toy is higher and higher along with the continuous improvement of the living standard of people.

The existing toy is required to increase the interest while pursuing the intelligence development activity, thereby improving the interest of children. The animation in the real life attracts a large group of vermicelli by means of vivid special effect of the image, and a plurality of toys derived from the vermicelli deeply receive the rod chasing of the vermicelli. The existing left-wheel type ejection toy has rough workmanship and low simulation, or has the function of an ejection piece, so that the pursuit of modern people for multiple playfulness of the toy cannot be met.

In addition, the existing left wheel type ejection toy is often only used for single playing, only the ejection piece can be ejected out singly, and other novel playing methods are not provided, so that the interestingness is lacked. Furthermore, the existing left-wheel type ejection toy usually needs to be launched after the rotating body is loaded again, and the playing way is less interesting and less continuous, so that the playing way is difficult to enjoy children for a long time, and the children easily lose interest and gradually put aside.

Disclosure of Invention

Based on the above, the invention aims to overcome the defects in the prior art, and provides a left-wheel type ejection toy which is reasonable in structural design, has an ejection function, can rotate the ejected rotating body, can continuously launch the rotating body, and expands the interest and functionality of the toy.

In order to achieve the purpose, the invention adopts the technical scheme that:

a left-wheel ejection toy comprises an ejection base, wherein a launching assembly, a driving assembly, a drum assembly, a bolt assembly and a trigger assembly are arranged in the ejection base; an emission groove is formed above the front end of the ejection base, and the emission assembly is slidably arranged in the emission groove; the rotary drum assembly is rotatably arranged on the ejection base, a plurality of magazine parts are uniformly arranged in the rotary drum assembly, and each magazine part is provided with a rotary body in a clamping manner; the driving assembly is arranged below the launching slot and is used for driving the launching assembly to be matched and clamped with the trigger assembly; the bolt assembly is clamped with the trigger assembly in a matched mode and is used for driving the rotary drum assembly to rotate; the driving assembly is used for driving the bolt assembly to jack the rotating body to insert into the launching assembly; and the driving component is used for driving the rotating body on the transmitting component to do unidirectional rotation motion.

The invention relates to a left-wheel type ejection toy, which takes an ejection base as a base body for storing and transmitting energy of rotating bodies, a plurality of rotating bodies are clamped and connected in a matching way through a drum assembly arranged on the ejection base, and through mutual matching among the ejection assembly, the drum assembly, a driving assembly, a bolt assembly and a trigger assembly, the driving assembly drives the ejection assembly to be clamped and connected with the trigger assembly in a matching way, then the driving assembly drives the bolt assembly to be clamped and connected with the trigger assembly in a driving way, meanwhile, the bolt assembly pushes the rotating bodies to be inserted into the ejection assembly, and the rotating bodies on the ejection assembly are in transmission connection with the driving; the rotator on the driving assembly drives the transmitting assembly to rotate for energy storage, after the energy storage, the transmitting assembly transmits the rotator out through the trigger assembly and the transmitting assembly after the energy storage, and meanwhile, the trigger assembly and the bolt assembly are disengaged, and the bolt assembly drives the drum assembly to rotate and enables the next rotator to align to the transmitting slot. Therefore, the invention has novel structural design, not only has ejection function, but also can make rotary motion of the ejected rotating body and continuously launch the rotating body, thereby expanding the interest and functionality of the toy.

In order to obtain better technical effect, the further technical improvement further comprises that the rotary drum assembly comprises a fixed shaft, a rotating shaft and a rotary drum wheel, the fixed shaft is installed on the ejection base, one end of the rotating shaft is rotatably sleeved on the fixed shaft, the other end of the rotating shaft is connected with the rotary drum wheel, and the bolt assembly is used for driving the rotating shaft to drive the rotary drum wheel to rotate.

in order to obtain better technical effects, the further technical improvement further comprises that a plurality of step sliding grooves are arranged on the circumferential surface of the rotating shaft at equal intervals, and the number of the step sliding grooves is the same as that of the magazine parts; each step sliding groove comprises a first step and a second step, two adjacent step sliding grooves are communicated through an arc-shaped groove, one end of the arc-shaped groove is communicated with the first step of the step sliding groove on one side, and the other end of the arc-shaped groove is communicated with the second step of the step sliding groove on the other side; the bolt assembly comprises a rotary push block, and the rotary push block is slidably arranged on a channel communicated with the step sliding groove and the arc-shaped groove and is used for driving the rotary shaft to rotate.

In order to obtain better technical effect, the further technical improvement comprises that one end of the rotating shaft, which is close to the rotary drum wheel, is provided with an outwardly extending drum body, the inner wall of the drum body is provided with a clamping strip, a slidable return piece is arranged on the clamping strip in a matched manner, and a return spring is arranged between the return piece and the bottom of the drum body; one side of the rotary drum wheel is outwards fixedly provided with a rotating part, one end of the return part is inwards sunken to be provided with an inverted triangular notch, one end of the rotating part outwards extends to be provided with a triangular protrusion, and the triangular protrusion of the rotating part is matched with the inverted triangular notch of the return part.

In order to obtain better technical effect, the further technical improvement also comprises that a plurality of through holes are arranged on the rotary drum wheel at equal intervals, and the number of the through holes is the same as that of the magazine parts; the bolt component comprises a transmission tooth block and a bolt tooth piece, the transmission tooth block is arranged on the rear side of the rotary pushing block in a sliding mode, a pin releasing spring is arranged between the rear side of the transmission tooth block and the ejection base, and the transmission tooth block is in reverse transmission connection with the bolt tooth piece through a bolt gear set; the driving assembly comprises a long tooth piece, the long tooth piece is used for penetrating through the through hole to press and rotate the push block to move backwards to drive the bolt tooth piece to be inserted into the magazine part to eject the rotating body and enable the rotating body to be clamped with the launching assembly, and meanwhile, the push block is rotated to drive the transmission tooth piece to compress the pin releasing spring and enable the transmission tooth piece to be clamped with the trigger assembly.

In order to obtain better technical effects, further technical improvements include that a first movable clamping block is telescopically arranged in the magazine portion, the rotating body is clamped in the first movable clamping block, the launching assembly comprises a launching slider, a launching spring and a second movable clamping block, the launching slider is slidably arranged in the launching groove, the launching slider is connected with the launching base through the launching spring, and the second movable clamping block is telescopically arranged in the launching slider; the bolt component is used for jacking the pressing rotating body to be inserted into the second movable clamping block of the launching component and is in transmission connection with the driving component.

In order to obtain better technical effect, further technical improvement still includes, the bottom of transmission slider is equipped with the transmission fixture block, trigger assembly's front end top is equipped with trigger fixture block, drive assembly drive transmission slider compression transmission spring carries out the energy storage, drive simultaneously the transmission fixture block with trigger assembly's trigger fixture block cooperation joint.

in order to obtain better technical effect, the further technical improvement comprises that the driving assembly comprises a long tooth piece and a driving gear set, the long tooth piece is slidably arranged below the launching slot, the upper end of the long tooth piece is provided with a driving block, and the long tooth piece pushes the launching assembly to be matched and clamped with the trigger assembly through the driving block; the driving gear set is installed on the ejection base and is in transmission connection with the long gear.

In order to obtain better technical effect, the further technical improvement further comprises that the driving gear set comprises a gear mounting seat arranged on one side of the rear end of the launching slot, a driving gear, a sliding gear and an output gear which are sequentially connected in a transmission manner are arranged on the gear mounting seat, corresponding sliding grooves are formed in two sides of the gear mounting seat, and two ends of a rotating shaft of the sliding gear are respectively arranged in the sliding grooves in two sides of the gear mounting seat in a sliding manner; the upper surface of the long tooth piece is provided with a long rack in transmission connection with the driving gear, and the long tooth piece is used for driving the output gear to do unidirectional rotation motion.

In order to obtain better technological effect, further technological improvement still includes, the trigger subassembly includes trigger, trigger fixture block, trigger spring and bolt fixture block, the trigger passes through trigger spring telescopically to be set up on launching the base, the trigger fixture block sets up the top front end of trigger, and with emission subassembly cooperation joint, the bolt fixture block sets up the rear of trigger, and with bolt subassembly cooperation joint, the trigger is used for the drive the trigger fixture block with the emission subassembly takes off the card, and is used for the drive the bolt fixture block with the bolt subassembly takes off the card.

For a better understanding and practice, the invention is described in detail below with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a left-wheel ejection toy of the present invention;

Fig. 2 is an exploded schematic view of the left-wheel ejector toy of the present invention;

Fig. 3 is another schematic structural view of the left-wheel ejection toy of the present invention;

Fig. 4 is a front view of the left wheel ejector toy of the present invention;

Fig. 5 is a schematic view showing the internal structure of the left-wheel ejection toy of the present invention;

fig. 6 is a schematic view showing another internal structure of the left-wheel type ejection toy of the present invention;

Fig. 7 is a schematic view showing another internal structure of the left-wheel type ejection toy of the present invention;

Fig. 8 is a schematic structural view of a drum assembly of the left-wheel ejection toy of the present invention;

figure 9 is a rear elevational view of the drum assembly of the left wheel ejection toy of the present invention;

fig. 10 is a front view of the drum assembly of the left-wheeled ejection toy of the present invention;

fig. 11 is a side view of the drum assembly of the left-wheeled ejection toy of the present invention;

Fig. 12 is an internal structural view of a drum wheel of the left-wheel type ejection toy of the present invention;

FIG. 13 is a schematic view of the connection between the rotating shaft and the rotating push block of the present invention;

FIG. 14 is a schematic view of another connection between the rotating shaft and the rotating push block of the present invention;

FIG. 15 is a schematic view of the connection between the rotating shaft and the turret wheel of the present invention;

FIG. 16 is a cross-sectional view of the present invention between the rotatable shaft and the turret wheel;

FIG. 17 is a schematic view of the connection between the bowl and return of the present invention;

fig. 18 is a schematic structural view of a rotating body of the present invention.

Detailed Description

To further illustrate the various embodiments, the invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. With these references in mind, one of ordinary skill in the art will understand the principles of the invention and its attendant advantages.

in the description of the present invention, it is to be understood that the terms "central", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified. In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Please refer to fig. 1 to fig. 15.

The invention provides a left-wheel type ejection toy, which comprises an ejection base 10, wherein a launching assembly 20, a driving assembly 30, a drum assembly 40, a bolt assembly 50 and a trigger assembly 60 are arranged in the ejection base 10; an emission groove 11 is arranged above the front end of the ejection base 10, and the emission component 20 is slidably arranged in the emission groove 11; the drum assembly 40 is rotatably arranged on the ejection base 10, a plurality of magazine portions 41 are uniformly arranged in the drum assembly 40, and a rotating body 70 is clamped in each magazine portion 41; the driving assembly 30 is arranged below the launching slot 11 and is used for driving the launching assembly 20 to be matched and clamped with the trigger assembly 60; the bolt assembly 50 is matched and clamped with the trigger assembly 60, and the bolt assembly 50 is used for driving the drum assembly 40 to rotate; the driving assembly 30 is used for driving the latch assembly 50 to press the rotating body 70 to be inserted into the launching assembly 20; and the driving assembly 30 is used for driving the rotating body 70 on the launching assembly 20 to make unidirectional rotation movement.

In this embodiment, the ejection base 10 can be designed into a plurality of different ejection base structures, and in order to better illustrate the left-wheel type ejection toy of the present invention, the ejection base 10 of this embodiment is preferably a left-wheel type gun body structure. Specifically, the launching slot 11 is a slot structure with two open ends, and the front end of the launching slot 11 is provided with a limiting part matched with the launching assembly, so that the launching assembly 20 is prevented from being launched together with the rotating body.

The drum assembly 40 comprises a fixed shaft 42, a rotating shaft 43 and a drum wheel 44, wherein the fixed shaft 42 is installed on the ejection base 10, one end of the rotating shaft 43 is rotatably sleeved on the fixed shaft 42, and the other end of the rotating shaft 42 is connected with the drum wheel 44. In this embodiment, the drum wheel 44 is disposed at the rear end of the launching slot 11. In this embodiment, 3 magazine portions 41 are uniformly distributed on the drum assembly 40, and a rotating body 70 is fittingly engaged with each magazine portion 41. A first movable block 45 is telescopically arranged in each magazine portion 41, and the rotating body 70 is clamped in the first movable block 45. In this embodiment, the two ends of the first movable fixture block 45 respectively extend to the same side to form first protrusions, and the outer side surfaces of the two first protrusions are both designed as inclined surfaces; in addition, the other side of the first movable clamping block 45 is telescopically connected with the magazine part 41 through a first spring; the rotating body 70 is clamped between the two first movable clamping blocks 45.

A plurality of step chutes 46 are equidistantly formed in the circumferential surface of the rotating shaft 43, and the number of the step chutes 46 is equal to that of the magazine portions 41; every ladder spout 46 all includes one-level ladder and second grade ladder, communicates through arc wall 47 between two adjacent ladder spouts 46, the one end of arc wall 47 and the one-level ladder intercommunication of the ladder spout 46 of one side, the other end of this arc wall 47 and the second grade ladder intercommunication of the ladder spout 47 of opposite side. In this embodiment, the step sliding groove 46 is a straight groove structure, the bottom surface of the first step and the bottom surface of the arc-shaped groove 47 are located on the same plane, and the bottom surface of the first step is lower than the bottom surface of the second step.

One end of the rotating shaft 43 close to the rotating drum wheel 44 is provided with a drum body 48 extending outwards, the inner wall of the drum body 48 is provided with a clamping strip 481, the clamping strip 481 is provided with a slidable return piece 49 in a matching manner, and a return spring 482 is arranged between the return piece 49 and the bottom of the drum body 48; a rotating member 441 is fixed to one side of the rotating drum wheel 44, an inverted triangular notch 491 is recessed in one end of the return member 49, a triangular protrusion 442 extends outward from one end of the rotating member 441, and the triangular protrusion 442 of the rotating member 441 is engaged with the inverted triangular notch 491 of the return member 49. Therefore, when the rotating wheel 44 is manually rotated to mount the rotating body 70 on the magazine part 41, the rotating cylinder 44 drives the rotating member 441 to rotate, and the return member 49 is pressed by the rotating member 441 to move backwards along the stop strip 481 on the inner wall of the cylinder 48 and compress the return spring 482; therefore, when the rotary cylinder body 44 is manually rotated, the rotary shaft 43 does not rotate, and when the rotary shaft 43 is driven to rotate by the bolt assembly 50, the rotary shaft 43 drives the return piece 49 to rotate, and the return piece 49 is always meshed with the rotary piece 441 under the jacking pressure of the return spring 491, so that the effect that the rotary cylinder body 44 also rotates along with the rotary shaft 43 is realized.

the launching assembly 20 comprises a launching slider 21, a launching spring 22 and a second movable fixture block 23, the launching slider 21 is slidably arranged in the launching slot 11, the launching slider 21 is connected with the launching base 10 through the launching spring 22, and the second movable fixture block 23 is telescopically arranged in the launching slider 21. In this embodiment, two ends of the second movable latch 23 respectively extend to the same side to form a second protrusion, and the other side of the second movable latch 23 is telescopically connected to the launching slider 21 through a second spring 24. In addition, a wedge-shaped block is arranged on the same side of the launching slot 11 and the second movable clamping block, the wedge-shaped block is fixedly arranged above the front end of the launching slot 11, and the side surface of the wedge-shaped block, which is close to one side of the launching slot, is of an inverted inclined surface structure. Therefore, the latch assembly 50 presses the rotating body 70 to be inserted into the second movable latch 23 of the launching slider 21, when the launching slider 21 is disengaged from the trigger assembly 60, the launching slider 21 slides forward rapidly under the action of the launching spring 22, and when the second movable latch 23 contacts the wedge, the second movable latch 23 compresses the second spring 24 inwards under the action of the wedge, so that the rotating body 70 is disengaged from the second movable latch 23, and the rotating body 70 is launched out under the action of inertia.

the driving assembly 30 comprises a long tooth member 31 and a driving gear set 32 in transmission connection with the long tooth member 31, the long tooth member 31 is slidably arranged below the launching slot 11, a driving block 33 is arranged at the upper end of the long tooth member 31, the driving gear set 32 is arranged on one side of the rear end of the launching slot 11 and is positioned below the second movable clamping block 23 when the launching slider 21 stretches the launching spring 22 and is clamped with the trigger assembly 60, and therefore the long tooth member 31 drives the driving gear set 32 to rotate, so that the rotating body 70 positioned on the second movable clamping block 23 is driven to rotate.

in order to achieve the effect that the driving assembly 30 drives the rotating body 70 to rotate in one direction, in this embodiment, the driving gear set 32 includes a gear mounting seat 34 disposed on one side of the rear end of the launching slot 11, a driving gear 35, a sliding gear 36 and an output gear 37 which are sequentially connected in a transmission manner are disposed on the gear mounting seat 34, corresponding sliding slots 38 are disposed on two sides of the gear mounting seat 34, and two ends of a rotating shaft of the sliding gear 36 are respectively slidably disposed in the sliding slots 38 on two sides of the gear mounting seat 34; the upper surface of the long gear piece 31 is provided with a long rack in transmission connection with the driving gear 35. Therefore, when the long tooth 31 moves backward to drive the driving gear 35 to rotate, the driving gear 35 rotates clockwise to drive the sliding gear 36 to slide to one end of the sliding slot 38 to rotate, and when the long tooth 31 moves forward to drive the driving gear 35 to rotate, the driving gear 35 rotates counterclockwise to drive the sliding gear 36 to slide to the other end of the sliding slot 38 to rotate, so that the output gear 37 of the present invention can be disposed at one side close to one end of the sliding slot 38, and the effect of the long tooth 31 driving the output gear to rotate in one direction can be achieved.

In this embodiment, two first auxiliary gears 39 in transmission connection are disposed between the driving gear 35 and the sliding gear 36, and two second auxiliary gears 391 in transmission connection are disposed between the sliding gear 36 and the output gear 37.

The latch assembly 50 comprises a rotary push block 51, a transmission gear block 52 and a latch gear member 53, wherein the rotary push block 51 is slidably disposed on a channel of the step slide groove 46 of the drum assembly 40 communicating with the arc-shaped groove 47, in the embodiment, a push cylinder 511 is disposed on a side surface of the rotary push block 51, and the push cylinder 511 is used for the channel of the step slide groove 46 communicating with the arc-shaped groove 47. The transmission gear block 52 is slidably arranged at the rear side of the rotating push block 51, a pin removal spring 54 is arranged between the rear end of the transmission gear block 52 and the ejection base 10, and the transmission gear block 52 is in reverse transmission connection with the pin gear piece 53 through a pin gear set 55. In addition, the bolt gear set 55 of this embodiment includes the first gear 56, the second gear 57 and the third gear 58 that are connected in proper order, the upper surface of transmission tooth piece 52 is equipped with the rack column structure who is connected with the transmission of first gear 56, the lower surface of bolt tooth piece 53 is equipped with the rack column structure who is connected with the transmission of third gear 58.

a plurality of through holes are arranged on the rotary drum wheel 44 at equal intervals, and the number of the through holes is the same as that of the magazine parts 41; and a driving post 401 is slidably disposed in each through hole. In this embodiment, 3 through holes are formed in the rotating drum wheel 44, each through hole is slidably provided with a transmission column 401, and the 3 through holes are respectively and uniformly distributed on the rotating drum body 44, so that when the long tooth member 31 is inserted into one of the through holes, the long tooth member 401 presses the transmission column 401 to move backward and drives the rotating push block 51 to move backward, then the transmission tooth member 52 continues to press and move backward to compress the pin release spring 54 to be in fit and clamped with the trigger assembly 60, and the pin tooth member 53 simultaneously moves forward under the transmission of the pin gear set 55 and presses the first movable clamping block 45 in the magazine portion 41 to retract, at this time, the first movable clamping block 45 is released from the rotating body 70, and the pin tooth member 53 continues to press the rotating body 70 and enables the rotating body 70 to be fit and inserted into the second movable clamping block 23 of the launching slider 21. In addition, when the trigger assembly 60 is disengaged from the driving toothed block 52, under the action of the disengaging spring 54, the driving toothed block 52 moves forward and drives the latch toothed piece 53 to move backward to exit from the magazine part 41 of the rotary drum wheel 44, then the driving toothed block 52 continues to move forward and pushes the rotating push block 51, the pushing column 511 of the rotating push block 51 moves from the first step of the stepped sliding slot 46 to the second step of the other stepped sliding slot 46 along the arc-shaped slot 47, and the rotating shaft 53 is driven to rotate by 120 degrees by the pushing column 511 moving from the first step of the stepped sliding slot 46 to the second step of the other stepped sliding slot 46 due to the forward linear motion of the rotating push block 51, and the next rotating body 70 is aligned with the rear end of the launching slot 11; when the long tooth 31 pushes the rotary push block 51 to move backward, the push column 511 is linearly retreated from the second step of the step slide groove 46 into the first step of the arc-shaped groove 47, so that the rotary shaft is not driven to rotate.

In order to ensure that the latch tooth 53 is completely withdrawn from the magazine portion 41 during the latch releasing process of the latch tooth 53, the transmission tooth 52 pushes the rotary push block 51 to move forward, in this embodiment, the distance between the rotary push block 51 and the transmission tooth 52 when the trigger assembly 60 is engaged is greater than the distance between the latch tooth 53 and the magazine portion 41.

Trigger subassembly 60 includes trigger 61, trigger fixture block 62, trigger spring 63 and bolt fixture block 64, trigger 61 passes through trigger spring 63 telescopically to be set up on launching base 10, trigger fixture block 62 sets up the front end top of trigger 61, the bottom of emission slider 21 is equipped with emission fixture block 24, long tooth 31 drive emission slider 21 compression emission spring 22 carries out tensile energy storage, drive emission fixture block 24 simultaneously with trigger fixture block 62 cooperation joint of trigger subassembly 60. Bolt fixture block 64 sets up trigger 61's rear, and with bolt subassembly 50's transmission tooth piece 52 cooperation joint, trigger 62 is used for the drive trigger fixture block 61 with the transmission fixture block 24 of emission subassembly 20 takes off the card, and is used for the drive bolt fixture block 64 with bolt subassembly 50's transmission tooth piece 52 takes off the card.

The rotator 70 of this embodiment is the top body, specifically, the rotator 70 includes top body 71 and the top rotation axle 72 of setting in top body 71 below, wherein, from the top down is equipped with top screens piece 73, rotating gear 74 and top 75 in proper order on the top rotation axle 72, top screens piece 73 rotationally sets up on top rotation axle 72, rotating gear 74 is fixed on top rotation axle 72, the bottom at top rotation axle 72 is established to top 75 cover.

The working principle of the left-wheel ejection toy of the invention is explained as follows:

The left wheel type ejection toy of the invention firstly rotates the rotary drum wheel 44 manually and inserts the rotary body 70 into the first movable fixture block 45 of the ejection box part 41 in sequence for clamping and fixing; then, by sliding the long tooth member 31 backwards, the long tooth member 31 drives the launching slider 21 to move backwards and is in fit clamping connection with the trigger clamping block 62, the long tooth member 31 is continuously moved backwards, so that the long tooth member 31 presses against the transmission post 401 in the through hole of the rotary drum wheel 44 to move backwards, presses against the rotary push block 51 and the transmission tooth block 52 to move backwards, meanwhile, the transmission tooth block 52 drives the latch tooth member 53 to move forwards and pushes out the rotating body 70 in the magazine part 41 at the rear end of the launching slot 11 to be inserted into the second launching slider 23 of the launching slider 21, and the rotating body 70 is in transmission connection with the driving gear set 32; in addition, drive tooth block 52 compresses release spring 54 and engages latch dog 64.

Then, the rotating body 70 on the launching slider 21 is driven to rotate in one direction by the forward and backward movement of the long tooth member 31, and the launching slider 21 launches the rotating body 70 under the action of the launching spring 22 by pulling the trigger 61 backwards to release the clamping between the launching clamping block 24 and the trigger clamping block 62. In addition, the trigger 62 continues to move backward to press the latch block 64 to release the latch from the transmission gear block 52, the transmission gear block 52 slides forward under the action of the release spring 54, and simultaneously drives the latch gear 53 to move backward to exit the magazine portion 41, the transmission gear block 52 continues to press the rotary push block 51 forward and drives the rotary shaft 43 to rotate, so that the rotary drum wheel 44 rotates and the next magazine portion 41 is aligned with the launching slot 11 again to prepare for the next round of launching.

Compared with the prior art, the left-wheel ejection toy takes the ejection base as a base body for storing and transmitting the energy of the rotating bodies, the plurality of rotating bodies are clamped and connected in a matching way through the rotating cylinder assembly arranged on the ejection base, and through mutual matching among the emission assembly, the rotating cylinder assembly, the driving assembly, the bolt assembly and the trigger assembly, the emission assembly is driven by the driving assembly to be clamped and connected with the trigger assembly in a matching way, then the bolt assembly is driven by the driving assembly to be clamped and connected with the trigger assembly, meanwhile, the bolt assembly presses the rotating bodies to be inserted into the emission assembly, and the rotating bodies on the emission assembly are in transmission connection with the driving assembly; the rotator on the driving assembly drives the transmitting assembly to rotate for energy storage, after the energy storage, the transmitting assembly transmits the rotator out through the trigger assembly and the transmitting assembly after the energy storage, and meanwhile, the trigger assembly and the bolt assembly are disengaged, and the bolt assembly drives the drum assembly to rotate and enables the next rotator to align to the transmitting slot. Therefore, the invention has novel structural design, not only has ejection function, but also can make rotary motion of the ejected rotating body and continuously launch the rotating body, thereby expanding the interest and functionality of the toy.

The above examples are merely illustrative of several embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (10)

1. The utility model provides a left wheel formula ejection toy, includes ejection base, its characterized in that: the ejection base is internally provided with an emission assembly, a driving assembly, a drum assembly, a bolt assembly and a trigger assembly; an emission groove is formed above the front end of the ejection base, and the emission assembly is slidably arranged in the emission groove; the rotary drum assembly is rotatably arranged on the ejection base, a plurality of magazine parts are uniformly arranged in the rotary drum assembly, and each magazine part is provided with a rotary body in a clamping manner; the driving assembly is arranged below the launching slot and is used for driving the launching assembly to be matched and clamped with the trigger assembly; the bolt assembly is clamped with the trigger assembly in a matched mode and is used for driving the rotary drum assembly to rotate; the driving assembly is used for driving the bolt assembly to jack the rotating body to insert into the launching assembly; and the driving component is used for driving the rotating body on the transmitting component to do unidirectional rotation motion.

2. The left-wheeled ejection toy of claim 1, wherein: the rotary drum assembly comprises a fixed shaft, a rotating shaft and a rotary drum wheel, the fixed shaft is installed on the ejection base, one end of the rotating shaft is rotatably sleeved on the fixed shaft, the other end of the rotating shaft is connected with the rotary drum wheel, and the bolt assembly is used for driving the rotating shaft to drive the rotary drum wheel to rotate.

3. The left-wheeled ejection toy of claim 2, wherein: a plurality of step chutes are arranged on the circumferential surface of the rotating shaft at equal intervals, and the number of the step chutes is the same as that of the magazine parts; each step sliding groove comprises a first step and a second step, two adjacent step sliding grooves are communicated through an arc-shaped groove, one end of the arc-shaped groove is communicated with the first step of the step sliding groove on one side, and the other end of the arc-shaped groove is communicated with the second step of the step sliding groove on the other side; the bolt assembly comprises a rotary push block, and the rotary push block is slidably arranged on a channel communicated with the step sliding groove and the arc-shaped groove and is used for driving the rotary shaft to rotate.

4. The left-wheeled ejection toy of claim 2, wherein: one end of the rotating shaft, which is close to the rotating drum wheel, is provided with a drum body extending outwards, the inner wall of the drum body is provided with a clamping strip, a slidable return piece is arranged on the clamping strip in a matched mode, and a return spring is arranged between the return piece and the bottom of the drum body; one side of the rotary drum wheel is outwards fixedly provided with a rotating part, one end of the return part is inwards sunken to be provided with an inverted triangular notch, one end of the rotating part outwards extends to be provided with a triangular protrusion, and the triangular protrusion of the rotating part is matched with the inverted triangular notch of the return part.

5. the left-wheeled ejection toy of claim 3, wherein: a plurality of through holes are formed in the rotary drum wheel at equal intervals, and the number of the through holes is the same as that of the magazine parts; the bolt component comprises a transmission tooth block and a bolt tooth piece, the transmission tooth block is arranged on the rear side of the rotary pushing block in a sliding mode, a pin releasing spring is arranged between the rear side of the transmission tooth block and the ejection base, and the transmission tooth block is in reverse transmission connection with the bolt tooth piece through a bolt gear set; the driving assembly comprises a long tooth piece, the long tooth piece is used for penetrating through the through hole to press and rotate the push block to move backwards to drive the bolt tooth piece to be inserted into the magazine part to eject the rotating body and enable the rotating body to be clamped with the launching assembly, and meanwhile, the push block is rotated to drive the transmission tooth piece to compress the pin releasing spring and enable the transmission tooth piece to be clamped with the trigger assembly.

6. the left-wheeled ejection toy of claim 1, wherein: a first movable clamping block is telescopically arranged in the cartridge ejection part, the rotating body is clamped in the first movable clamping block, the ejection assembly comprises an ejection sliding block, an ejection spring and a second movable clamping block, the ejection sliding block is slidably arranged in the ejection groove, the ejection sliding block is connected with the ejection base through the ejection spring, and the second movable clamping block is telescopically arranged in the ejection sliding block; the bolt component is used for jacking the pressing rotating body to be inserted into the second movable clamping block of the launching component and is in transmission connection with the driving component.

7. The left-wheeled ejection toy of claim 6, wherein: the bottom of emission slider is equipped with the transmission fixture block, trigger assembly's front end top is equipped with the trigger fixture block, drive assembly drive emission slider compression transmission spring carries out the energy storage, drive simultaneously the transmission fixture block with trigger assembly's trigger fixture block cooperation joint.

8. The left-wheeled ejection toy of claim 1, wherein: the driving assembly comprises a long tooth piece and a driving gear set, the long tooth piece is slidably arranged below the launching slot, a driving block is arranged at the upper end of the long tooth piece, and the long tooth piece pushes the launching assembly to be matched and clamped with the trigger assembly through the driving block; the driving gear set is installed on the ejection base and is in transmission connection with the long gear.

9. the left-wheeled ejection toy of claim 8, wherein: the driving gear set comprises a gear mounting seat arranged on one side of the rear end of the launching slot, a driving gear, a sliding gear and an output gear which are sequentially connected in a transmission manner are arranged on the gear mounting seat, corresponding sliding slots are formed in two sides of the gear mounting seat, and two ends of a rotating shaft of the sliding gear are respectively arranged in the sliding slots in two sides of the gear mounting seat in a sliding manner; the upper surface of the long tooth piece is provided with a long rack in transmission connection with the driving gear, and the long tooth piece is used for driving the output gear to do unidirectional rotation motion.

10. The left-wheeled ejection toy of claim 1, wherein: the trigger subassembly includes trigger, trigger fixture block, trigger spring and bolt fixture block, the trigger passes through trigger spring telescopically to be set up on launching the base, the trigger fixture block sets up the top front end of trigger, and with emission subassembly cooperation joint, the bolt fixture block sets up the rear of trigger, and with bolt subassembly cooperation joint, the trigger is used for the drive the trigger fixture block with the emission subassembly takes off the card, and is used for the drive the bolt fixture block with the bolt subassembly takes off the card.