CN215781486U - Launching toy assembly - Google Patents

Abstract

The utility model discloses a launching toy assembly, comprising: the first toy body is provided with a first trigger position and a first combination position combined with the second toy body. The first toy body comprises: the nail machine body, the first nail shooting mechanism and the first nail moving mechanism. First shooting mechanism includes: the first shooting assembly can move between a return position and an exit position and the first locking assembly can lock the first shooting assembly on the return position, and after the first locking assembly is triggered by the first toy body, the first shooting assembly is released to move towards the exit position so as to shoot the second toy body away from the first toy body; first movable mechanism includes: the first shooting assembly triggers the first movable locking piece to release the first movable assembly to move towards the first position, and at least part of the first movable assembly is exposed on the surface of the first toy body. The launching toy component has good visual effect and high interestingness.

Description

Launching toy assembly

Technical Field

The utility model relates to the field of toys, in particular to a launching toy assembly.

Background

The existing mainstream vehicle-transformable toy is mainly characterized in that the vehicle is transformed into a beast, or the vehicle is transformed into a person, or the beast is transformed into the transformation of the single toy of the person, the toys which can be played in a combined mode are fewer, the whole transformation of the combined toy cannot be carried out, and the visual effect is poor. Moreover, the playing method between every two toys is single, so that the combination mode is single in the playing process of the combined toy, if only one combination position is arranged in the combined toy, the combination of two toys can be carried out, the combination positions are few, the playability and the interestingness of the combined toy are limited, the thinking and the practical ability of children cannot be stimulated to carry out the combined playing method in multiple modes, and the playing interest of the children to the combined toy is gradually reduced.

At present, some toys can realize deformation through triggering after combination so as to increase the playing pleasure of the toy, but in fact, the toys only carry out triggering deformation, have no difference from the triggering deformation of a single toy in terms of playing, cannot realize separation after triggering in a combined state, and realize coherent action of deformation after separation, so that the combined toy is difficult to improve the playing interest of children.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art. Therefore, the launching toy combination provided by the utility model has the advantages of stronger visual impact force and high playability and interestingness.

A launching toy assembly according to an embodiment of the utility model, comprising: the first toy body is provided with a first trigger position and a first combination position which are different in position, the first combination position is used for being combined with the second toy body, and the first toy body comprises: a body; first shooting mechanism, first shooting mechanism includes: the first shooting assembly and the first locking assembly are movably arranged on the first machine body between a return position and an exit position, the first locking assembly is used for locking the first shooting assembly at the return position, one end of the first locking assembly extends to the first trigger position, when the first playing body is close to or contacted with or combined with the first trigger position, the first locking assembly is triggered to release the first shooting assembly, and when the first shooting assembly is released, the first shooting assembly moves towards the exit position to shoot the second playing body away from the first playing body; first movable mechanism, first movable mechanism includes: first movable assembly, first movable latch fitting, first movable assembly movably sets up between first position and first position on the first organism, first movable latch fitting be used for with first movable assembly lock solid is in first position, first movable latch fitting with first shooting subassembly links mutually, trigger during first shooting subassembly activity first movable latch fitting release first movable assembly, first movable assembly orientation when being released first two position activity, just first movable assembly's at least part is revealed first plays specific surface.

According to the launching toy assembly provided by the embodiment of the utility model, the first combining position is arranged on the first toy body, so that the first toy body and the second toy body are combined conveniently, and the combined playing method of the toy is increased; by arranging the first shooting mechanism, the first locking component can lock the first shooting component when not triggered, and release the first shooting component when triggered by the third toy body, so that the second toy body is shot away from the first toy body by the first shooting component, and the first toy body and the second toy body are separated by triggering of the third toy body; through setting up first activity mechanism for further trigger first activity latch fitting release first activity subassembly after the separation action, realize first specific molding of playing or the action change, the event makes the stronger visual impact force that has of launching the toy subassembly, has increased the interest and the object for appreciation nature of launching the toy subassembly.

In addition, the launching toy combination according to the utility model may also have the following additional technical features:

in some embodiments of the utility model, the first toy body further comprises: first two shooting mechanism, first two shooting mechanism includes: two first shooting subassemblies, two first locking subassemblies, two first shooting subassemblies movably set up on the first organism, two first locking subassemblies are used for the lock solid two first shooting subassemblies, first movable subassembly is in trigger during two first positions two first locking subassemblies release two first shooting subassemblies, two first shooting subassemblies orientation when being released the first position activity is triggered to the first, in order to incite somebody to action third of the ten heavenly stems the first body of playing is jeted from.

In some embodiments of the present invention, the first toy body is provided with a first combining locking piece at the first combining position, the first combining locking piece is used for locking the second toy body, the first combining locking piece is linked with the first shooting mechanism, and the first combining locking piece releases the second toy body when the first shooting assembly moves towards the exit position.

In some embodiments of the utility model, the first locking assembly comprises: the first front sliding rod is arranged on the first machine body in a manner of moving back and forth, and the front end of the first front sliding rod is positioned at the first trigger position; first back bull stick, first back bull stick rotationally sets up the rear end of first organism, first back bull stick is used for the lock solid first shooting subassembly, first shooting subassembly with first preceding slide bar linkage, first preceding slide bar drives when sliding backward first back bull stick release first shooting subassembly.

Specifically, the first locking assembly further comprises: the first intermediate lever is arranged on the first machine body in a movable mode from front to back, the first intermediate lever is linked with the first front sliding rod, the first intermediate lever slides forwards when sliding backwards, the bottom of the first intermediate lever is provided with a first guide surface which is in contact with the first rear rotating lever, and the first intermediate lever drives the first rear rotating lever to rotate through the first guide surface when sliding.

In some embodiments of the utility model, the nail moving assembly comprises a nail flap rotatably arranged at the bottom of the nail machine body, the nail locking assembly is locked on the nail flap, and the nail flap and the nail firing assembly are released when the nail locking assembly is triggered.

In some embodiments of the present invention, the second locking assembly comprises: the first shooting position lock is movably arranged on the first machine body, the second shooting assembly is locked by the first shooting position lock when the first movable assembly is in the first position, and the second shooting assembly is released by triggering the first shooting position lock when the second movable assembly is in the second position; position lock after the shooting, position lock movably sets up after the shooting on the first organism, first movable assembly is leaving trigger during first position lock solid after the shooting two shooting subassemblies the bottom of position lock after the shooting receives when upwards impacting, position lock release after the shooting two shooting subassemblies of first.

Further, the second locking assembly further comprises: the pressing piece is rotatably arranged at the bottom of the first machine body between an upper stop position and a lower stop position, the pressing piece is locked at the upper stop position when the first movable assembly is positioned at the first position, the pressing piece is released to enable the pressing piece to rotate towards the lower stop position when the first movable assembly leaves the first position, and the pressing piece rotates towards the upper stop position when the pressing piece is impacted upwards; when the pressing piece is located at the upper stop position, the shooting back position lock releases the first shooting assembly and the second shooting assembly, and when the pressing piece is located at the lower stop position, the shooting back position lock locks the first shooting assembly and the second shooting assembly.

In some embodiments of the present invention, the launching toy assembly further comprises: the second player body is provided with a second trigger position and a second combination position, and the second combination position is used for being combined with the first combination position; the trigger B is used for approaching or contacting or combining with the toy C body; the second toy body comprises: b, a machine body; the second movable mechanism comprises: second movable assembly, second movable latch fitting, second movable assembly movably sets up between second position and second position on the second organism, second movable latch fitting be used for with second movable assembly lock solid is in second position, the one end of second movable latch fitting extends to second triggers the position, works as the third player body is close to or contacts or combines to trigger when second triggers the position second movable latch fitting releases second movable assembly, second movable assembly is towards when being released second position activity, second movable assembly at least part expose second play specific surface.

Further, the second toy body further comprises: second shooting mechanism, second shooting mechanism includes: second shooting subassembly, second lock solid subassembly, second shooting subassembly movably sets up on the second organism, second lock solid subassembly is used for the lock solid second shooting subassembly, second movable assembly is in second two triggers during the position second lock solid subassembly releases second shooting subassembly, second shooting subassembly orientation when being released second trigger position activity, in order with the third toy body jets away second toy body.

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

Drawings

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

FIG. 1 is a schematic diagram of a configuration of a launching toy assembly according to an embodiment of the present invention;

figure 2 is a schematic diagram of the structure of an nail toy body of the launching toy assembly according to an embodiment of the present invention;

figure 3 is an exploded view of an nail toy body of a launching toy assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of the underside of the first firing mechanism of the launching toy assembly according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a first firing configuration of the launching toy assembly, in accordance with an embodiment of the present invention;

FIG. 6 is a schematic structural view of a first motive mechanism of the launching toy assembly, according to an embodiment of the present invention;

FIG. 7 is a structural illustration of another angle of the launching toy assembly according to an embodiment of the present invention;

FIG. 8 is an enlarged view of area E of FIG. 7;

figure 9 is a schematic diagram of the structure of the combination of the first toy body and the third toy body of the launching toy assembly according to an embodiment of the present invention;

figure 10 is a schematic diagram of the construction of a toy body and coin combination launching toy assembly according to an embodiment of the present invention;

FIG. 11 is a schematic structural view of a second fire mechanism of the launching toy assembly, according to an embodiment of the present invention;

FIG. 12 is a schematic illustration of the positional relationship of the deck plate of the launching toy assembly and the second firing assembly in accordance with an embodiment of the present invention;

figure 13 is a schematic structural view of the second shooting assembly and the post-shooting position lock of the launching toy assembly according to an embodiment of the present invention;

figure 14 is a schematic view of the combined configuration of a second toy body and a third toy body of the launching toy assembly according to an embodiment of the present invention;

figure 15 is a bottom schematic view of a combination of a second toy body and a third toy body of a launching toy assembly according to an embodiment of the present invention;

figure 16 is a schematic structural view of a second firing mechanism of the launching toy assembly, in accordance with an embodiment of the present invention;

FIG. 17 is a schematic structural view of a second firing mechanism in combination with a coin for launching a toy assembly, according to an embodiment of the present invention;

figure 18 is a schematic diagram of the positional relationship of the second movable assembly and the second shooting assembly of the launching toy assembly according to an embodiment of the present invention.

Reference numerals:

a launching toy assembly 100;

a first toy body A;

a nail machine body 1; an upper case 11; a lower case 12; a first magnetic member 13; a trigger position 14; a binding site 15;

a first shooting assembly 2; a first bullet column 21; a first limit groove 211; a first barrier 212;

a first locking assembly 3; a first front slide bar 31; a first rear rotating rod 32; an upper arm 321; a lower arm 322; mounting holes 323; a first intermediate rod 33; a first limit protrusion 331; a first guide surface 332; a third spring 34; a first fastener 35; a first buckle 351; a third locking assembly 36; first rib 361; a second spring 37;

a first movable assembly 4; a first turning plate 41; a first limiting hole 411; a first stop 412; a torsion spring 42;

a movable locking piece A5; a delay component 51; a first four spring 52; a second buckle 53; the extension arm 54:

a second shooting component 6; a second limit hole 61; fifth spring 62; a third limit hole 63; a second limit groove 64;

a shooting priority lock 71; a sixth spring 72; a post-firing position lock 73; a first lock post 731; seventy-first springs 732;

a is combined with a locking piece 8; a second fastener 81;

b, playing a toy body B;

a first magnetic member 91; a first limit hole 92;

a second movable assembly 93; a second turnover panel 931; torsion spring 932; a second limiting hole 933; a first stop 934; a second movable locking piece 94; a second fastener 941; a first spring 942; a firing assembly 95; second three limiting holes 951; a fourth limiting hole 952; a second limiting groove 953; a second spring 96; a second locking assembly 97; a second lock post 971; spring z 972; a second four spring 973;

a third player body C; and a coin D.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "connected" and "connected" are to be construed broadly, e.g., as meaning either a fixed connection or a removable connection, or an integral part; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

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 at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

A launching toy assembly 100 according to an embodiment of the present invention is described below with reference to the accompanying drawings.

As shown in fig. 1 and 2, a launching toy assembly 100 according to an embodiment of the present invention includes: the first toy body A. The first toy body A is provided with a first trigger position 14 and a first combination position 15 which are different in position, and the first combination position 15 is used for combining the second toy body B. Therefore, the playing method of the launching toy assembly 100 is increased through the combination of the first toy body A and the second toy body B, and the first toy body A and the second toy body B are combined to achieve better visual effect and high playability.

The number of the second toy body B may be one, or two or more, and the number of the second toy body B is not limited herein. It can be further understood that when the number of the second toy bodies B is multiple, the first toy body a has multiple first combining positions 15 correspondingly combined with the multiple second toy bodies B. In addition, a plurality of first combination positions 15 are arranged at intervals, so that interference between a plurality of second toy bodies B when the second toy bodies B are combined with the first toy bodies A can be well avoided.

Further, the first toy body A comprises: the nail machine body 1, the first nail shooting mechanism and the first nail moving mechanism. Wherein, first shooting mechanism includes: the first shooting assembly 2 and the first locking assembly 3, the first shooting assembly 2 is movably arranged on the first machine body 1 between a return position and an exit position, the first locking assembly 3 is used for locking the first shooting assembly 2 in the return position, one end of the first locking assembly 3 extends to a trigger position, when the first toy body C is close to or triggered or combined with the first trigger position 14, the first locking assembly 3 is triggered to release the first shooting assembly 2, and the first shooting assembly 2 is released and then moves towards the exit position to shoot the second toy body B away from the first toy body A. Therefore, the first locking assembly 3 is triggered by the first toy body C, the second toy body B combined on the first toy body A can be shot away from the first toy body A, the visual impact of the shooting toy assembly 100 is increased, and the playability is high.

It will be appreciated that the out and back positions refer to the two extreme positions of movement of the nail-firing assembly 2, the nail-firing assembly 2 being in the out position when the nail-firing assembly 2 is not subjected to external forces. In addition, when the first shooting assembly 2 is in the return position, the second toy body B can be well kept in the combined state with the first toy body A. That is, a certain interval is provided between the first shooting assembly 2 and the second toy body B when the first shooting assembly 2 is in the return position, or the first shooting assembly 2 does not generate acting force on the second toy body B. The first shooting assembly 2 in the out position can ensure that the second toy body B is separated from the first toy body A.

For example, in the initial state, the first shooting assembly 2 is in the out position, so that when the first and second toy bodies a and B are combined, the second toy body B can move the first shooting assembly 2 from the out position to the return position by pushing the first shooting assembly 2, and when the first shooting assembly 2 is in the return position, the first locking assembly 3 locks the first shooting assembly 2 in the return position. Therefore, when the first locking component 3 is not triggered by the first toy body C, the combined state of the first toy body A and the second toy body B can be well ensured.

And when the first locking assembly 3 is triggered by the first toy body C, the first shooting assembly 2 is released to move from the return position to the outlet position, the first shooting assembly 2 gradually approaches and pushes the second toy body B, and therefore the second toy body B gradually separates from the first toy body A.

It is to be understood that the first shooting assembly 2 may be configured to shoot the second toy body B away from the shooting position of the first toy body a, for example, the second toy body B may be shot away from the first toy body a when the first shooting assembly 2 moves to the shooting position, and of course, the first shooting assembly 2 may be configured to shoot the second toy body B away from the first toy body a when moving to a position intermediate between the returning position and the shooting position, for example, the shooting position is an intermediate position between the shooting position and the returning position, which is not limited herein.

In addition, a plurality of first trigger positions 14 can be arranged on the first toy body A, so that the difficulty in matching the first toy body C with the first trigger positions 14 is reduced. For example, referring to fig. 2, the two nail triggering positions 14 are symmetrically arranged at the front end of the nail toy body a, so that the nail locking assembly 3 can be triggered by the two third toy bodies C respectively combining with the two nail triggering positions 14, and of course, the nail locking assembly 3 can also be triggered by one of the third toy bodies C, which is not limited herein.

Further, referring to fig. 3, the nail movement mechanism includes: first movable assembly 4 and first movable latch fitting 5, first movable assembly 4 movably sets up on first organism 1 between first position and first position, first movable latch fitting 5 is suitable for with first movable assembly 4 lock solid at first position, first movable latch fitting 5 links with first shooting subassembly 2 mutually, first shooting subassembly 2 triggers first movable latch fitting 5 release first movable assembly 4 of first when moving, first movable assembly 4 moves towards first position when being released, first movable assembly 4 at least part expose on first toy body A's surface.

That is, after the second toy body B is shot from the first toy body a by the first shooting assembly 2, the first activity assembly 4 can also be made to move from the first position to the second position, the visual impact of the shooting toy assembly 100 is further increased, and the interestingness is high.

It will be appreciated that the first and second nail positions are the two extreme positions of movement of the first movable assembly 4, and that the first movable assembly 4 is in the second nail position when the first movable assembly 4 is not subjected to an external force.

Further, at least a part of the nail activity assembly 4 is exposed on the surface of the nail toy body a, of course, the whole nail activity assembly 4 can also be exposed on the surface of the nail toy body a, and the utility model is not limited herein.

According to the launching toy assembly 100 provided by the embodiment of the utility model, the first combining position 15 is arranged on the first toy body A, so that the first toy body A and the second toy body B are combined conveniently, and the combined playing method of the toy is increased; by arranging the first shooting mechanism, the first locking component 3 can lock the first shooting component 2 when not triggered, and release the first shooting component 2 when triggered by the first toy body C, so that the second toy body B is shot from the first toy body A through the first shooting component 2, and the action of separating the first toy body A from the second toy body B through the triggering of the first toy body C is realized; through setting up first activity mechanism for further trigger first activity latch fitting 5 release first movable assembly 4 after the separation action, realize first toy body A's molding or action change, so make first movable assembly 4 from first position to first position activity, make launching toy assembly 100 have stronger visual impact force, increased the interest and the object for appreciation nature of launching toy assembly 100.

In an embodiment, referring to fig. 2, 4 and 5, the first trigger 14 is disposed at the front end of the first toy body a, the first trigger 14 is provided with a first magnetic member 13, and the third toy body C may be a toy car provided with iron blocks at the outer periphery, or may be a coin D as shown in fig. 4, which is not limited herein. Therefore, the third-hand magnetic piece 13 can attract the third-hand toy body C better, the difficulty of combination of the third-hand toy body C and the first trigger position 14 is reduced, and the third-hand toy body C can be adsorbed on the third-hand toy body A after the third-hand toy body C triggers the first locking component 3.

In some embodiments of the utility model, the first toy body a further comprises: a second shooting mechanism.

Specifically, referring to fig. 9-11, the second nail firing mechanism includes: the second shooting assembly 6 is movably arranged on the first machine body 1 and used for locking the second shooting assembly 6, the first moving assembly 4 triggers the second locking assembly to release the second shooting assembly 6 when in the second position, and the second shooting assembly 6 moves towards the first triggering position 14 when being released so as to shoot the third-player body C away from the third-player body A. Therefore, the first shooting mechanism shoots the first toy body C away from the first toy body A, so that the first machine body 1 has two shooting actions, the visual effect of the shooting toy assembly 100 is further improved, and the interestingness is high.

It will be appreciated that the precondition for shooting the third toy body C away from the first toy body a by the second nail firing assembly 6 is that the third toy body C is engaged with the first toy body a at the first firing position 14. Therefore, when the third toy body C triggers the first locking assembly 3 by combining the first triggering position 14, the third toy body C and the third toy body a are combined, the shape of the combination of the third toy body a and the third toy body C is increased, and the playability of the launching toy assembly 100 is further increased.

In addition, the second locking assembly is triggered to release the second shooting assembly 6 when the first movable assembly 4 moves to the second position, so that the third toy body C can be better prevented from shooting away from the first toy body A in the moving process of the first movable assembly 4, the first toy body A is stable when the third toy body C is shot, danger caused by the fact that the third toy body C is shot when the first movable assembly 4 moves is avoided, and safety is high.

In some embodiments of the utility model, the first toy body A is provided with a first combination locking piece 8 at the first combination part, the first combination locking piece 8 is used for locking the second toy body B, the first combination locking piece 8 is linked with the first shooting mechanism, and when the first shooting assembly 2 moves towards the exit position, the first combination locking piece 8 releases the second toy body B.

Therefore, after the second toy body B is combined with the first toy body A, when the first locking component 3 is not triggered, the first locking component 8 is used for locking the second toy body B, so that the second toy body B can be well connected with the first locking position 15, and the stability of the combination of the second toy body B and the first toy body A is improved.

When the first locking component 3 is triggered, after the first locking component 3 releases the first shooting component 2, the first combination locking piece 8 releases the second toy body B to release the connection between the first combination position 15 and the second toy body B, so that the second toy body B is restored to a free activity state, and therefore, after the first locking component 3 moves from a return position to an exit position, the second toy body B can be directly shot away from the first toy body A.

Optionally, the first firing assembly 2 comprises a first firing pin 21 and a first spring, the first firing pin 21 being movably arranged on the first body 1 between a retracted position and an extended position, the first spring being connected to the first firing pin 21 for urging the first firing pin 21 towards the extended position. Therefore, the first shooting column 21 is simple in driving mode, the production difficulty of the first shooting assembly 2 is reduced, and the cost is low.

The first spring is located at one end, away from the second toy body B, of the first elastic column 21, so that after the second toy body B is installed on the first combining position 15, the second toy body B pushes the first elastic column 21 to extrude the first spring until the first elastic column 21 is located at the return position and locks the first elastic column 21 on the return position through the first locking assembly 3, and at the moment, the first spring is in an accumulation state.

Further, after the first locking assembly 3 is triggered by the first toy body C to release the first elastic column 21, the first spring pushes the first elastic column 21 to move towards the out position by restoring deformation, namely, pushes the first elastic column 21 to move towards the second toy body B, and continues to push the second toy body B until the second toy body B is separated from the first toy body A. The out position is the position where the nail-spring can push the nail-bullet-column 21 to move farthest.

In addition, the first combining and locking part 8 is rotatably arranged on the first machine body 1, and the first locking component 3 is locked on the first combining and locking part 8. That is to say, the first locking component 3 can lock the first elastic column 21 and the first combined locking piece 8 at the same time, so that the first locking component 3 can lock or release the first elastic column 21 and the first combined locking piece 8 relatively synchronously, and the first combined locking piece 8 is prevented from blocking the shooting-off action of the second toy body B.

Taking the launching toy assembly 100 shown in fig. 4 as an example, the nail combination lock 8 is rotatably provided in the front and rear direction under the nail-catching cylinder 21, and the weight of the rear end of the nail combination lock 8 is greater than that of the front end thereof, so that the rear end of the nail combination lock 8 is lower than the front end thereof in the absence of an external force, thereby lifting the front end of the nail combination lock 8. In addition, the front end of the first combining and locking piece 8 is provided with a second fastener 81, so that when the front end of the first combining and locking piece 8 is lifted, the second fastener 81 can better fasten the second toy body B, as shown in fig. 7 and 8, after the first locking piece 3 is triggered, the first locking piece 3 upwards supports the rear end of the first combining and locking piece 8, so that one end of the first combining and locking piece 8, which is provided with the second fastener 81, rotates downwards, and the limit of the second fastener 8 on the second toy body B is released, so that the second toy body B is released. Then the second toy body B is shot away from the first toy body A through the first ejection column 21. Of course, it is also possible to provide a torsion spring on the rotational axis of the first combination lock 8.

In some embodiments of the present invention, referring to fig. 4, the first locking assembly 3 comprises: a first front slide bar 31 and a first rear turn bar 32. Wherein, the first front slide bar 31 is arranged on the first machine body 1 in a way of moving back and forth, and the front end of the first front slide bar 31 is positioned at the first trigger position 14. That is, in the state without external force, the front end of the first front sliding rod 31 is located at the first triggering position 14, so that when the third toy body C approaches or triggers or is combined with the first triggering position 14, the first front sliding rod 31 is convenient to trigger.

Further, the first rear rotating rod 32 is rotatably arranged at the rear end of the first machine body 1, the first rear rotating rod 32 is used for locking the first shooting assembly 2, the first shooting assembly 2 is linked with the first front sliding rod 31, and when the first front sliding rod 31 slides backwards, the first rear rotating rod 32 is driven to release the first shooting assembly 2. That is, after the first front sliding rod 31 is triggered by the first toy body C, the first front sliding rod 31 is pushed to slide backwards, so as to drive the first rear rotating rod 32 to release the first shooting assembly 2, and the second toy body B is shot from the first toy body a.

The first rear rotating rod 32 can lift up to release the first shooting assembly 2 by approaching one end of the first shooting assembly 2, and can drop down to release the first shooting assembly 2 by approaching one end of the first shooting assembly 2, and certainly, the structure of locking or releasing the first shooting assembly 2 can be realized by changing the position relationship, and the structure is not limited here.

In a specific example, as shown in fig. 4, a mounting hole 323 is provided at a middle position of the first rear rotating lever 32, and after the first rear rotating lever 32 is mounted at the rear of the first body 1 through the mounting hole 323, the first rear rotating lever 32 can rotate around the position of the mounting hole 323, so as to realize actions such as depressing the left end to lift the right end or depressing the right end to lift the left end.

In another embodiment, as shown in fig. 5, the first firing assembly 2 is provided with a first limiting recess 211 at the upper end, the first rear rotating rod 32 is provided with an upper arm 321 at the upper end of the right end, when the first rear rotating rod 32 is not triggered, the right end of the first rear rotating rod 32 naturally falls, the upper arm 321 is located in the first limiting recess 211, and when the first front sliding rod 31 is triggered to move backwards, the end of the first rear rotating rod 32 away from the first firing assembly 2 is driven to rotate downwards, so that the end of the first rear rotating rod 32 provided with the upper arm 321 is lifted, the upper arm 321 is driven to gradually move upwards until the upper arm 321 is separated from the first limiting recess 211, and the action of the first rear rotating rod 32 to release the first firing assembly 2 is completed.

Further, referring to fig. 5, the first locking assembly 3 further includes: a first intermediate bar 33. Specifically, the first intermediate lever 33 is arranged on the first machine body 1 in a manner of moving back and forth, the first intermediate lever 33 is linked with the first front sliding rod 31, when the first front sliding rod 31 slides back, the first intermediate lever 33 slides forward, the bottom of the first intermediate lever 33 is provided with a first guide surface 332 contacting with the first rear rotating lever 32, and when the first intermediate lever 33 slides, the first rear rotating lever 32 is driven to rotate through the first guide surface 332. Thus, the linkage between the first intermediate rod 33 and the first rear rotating rod 32 is simple, and the production difficulty of the launching toy assembly 100 is reduced.

In one specific example, referring to fig. 4, the first guide surface 332 is an inclined surface, that is, the contact surface between the first middle rod 33 and the first rear rotating rod 32 is an inclined surface, so that during the forward sliding of the first middle rod 33, the inclined surface of the first middle rod 33 pushes the inclined surface of the first rear rotating rod 32, and one end of the first rear rotating rod 32 close to the first middle rod 33 is pressed down, so that one end of the first rear rotating rod 32 close to the first launching assembly is lifted upwards to release the first launching assembly, and the released first launching assembly moves from the return position to the exit position to launch the second toy body B away from the first combining position 15.

In one embodiment, as shown in fig. 10, the first-action mechanism further comprises a delay assembly 51 connected to the first-action latch 5. Wherein the delay assembly 51 may preferably delay the time when the first movable latch 5 releases the first movable assembly 4. Therefore, after the first shooting component 2 releases and releases the first movable locking piece 5, the first movable locking piece 5 delays to release the first movable component 4, so that the release time of the first shooting component 2 is earlier than that of the first movable component 4.

Thereby, the first shooting assembly 2 and the first moving assembly 4 can be prevented from moving synchronously. Specifically, after the launching toy assembly 100 firstly shoots the second toy body B away from the first toy body A through the first shooting assembly 2, the first movable locking piece 5 releases the first movable assembly 4 to move from the first position to the second position, so that the safety risks of toy damage and the like caused by uncontrollable shooting direction of the second toy body B during movement of the first movable assembly 4 can be better avoided, and the safety is high.

In some embodiments of the present invention, the nail movement assembly 4 comprises a nail flap 41 rotatably disposed at the bottom of the nail body 1, the nail locking assembly 3 is locked on the nail flap 41, and the nail flap 41 and the nail firing assembly 2 are released when the nail locking assembly 3 is triggered. Therefore, the released first shooting assembly 2 shoots the second toy body B away from the first toy body A, and the released first turning plate 41 upwards supports the first toy body A by impacting the ground in the process of rotating from the first position to the second position, so that the first toy body A performs actions such as vacation or overturning, the visual impact is large, and the playability is high.

In the example shown in fig. 6, the nail flap 41 is connected with the bottom of the nail machine body 1 through a nail torsion spring 42, and the nail flap 41 is tightly attached to the bottom of the nail machine body 1 when in the nail position, so that the flatness of the bottom of the nail toy body A is maintained. When the nail turning plate 41 is released by the nail locking assembly 3, the nail torsion spring 42 recovers deformation to drive the nail turning plate 41 to turn backwards (rotate anticlockwise on a plane formed by straight lines in the upper and lower directions above and below the straight line in the front-back direction as shown in fig. 6), and when the nail turning plate 41 contacts the ground, the nail machine body 1 is supported and overturned in the air, so that the launching toy assembly 100 has strong visual impact and high playability.

In some embodiments of the present invention, referring to fig. 11, the second locking assembly comprises: a shoot ahead lock 71 and a shoot behind lock 73. Wherein, first position lock 71 of shooting movably sets up on first organism 1, and first position lock 71 of shooting when first movable assembly 4 is in first position, first second shooting subassembly 6 of locking of first position, first movable assembly 4 of triggering shooting when first position lock 71 releases first second shooting subassembly 6.

That is to say, before the first movable assembly 4 moves to the first position, the first shooting position lock 71 can lock the second shooting assembly 6 well, and since the first position is the final position of the first movable assembly 4 after being released, the first toy body a at the moment falls to the ground stably, and then the second shooting assembly 6 shoots the third toy body C away from the first toy body a, the third toy body C can be prevented from shooting away from the third toy body a well due to the movement of the first movable assembly 4, and the reliability is high.

Further, the post-shooting position lock 73 is movably arranged on the first machine body 1, the first movable assembly 4 triggers the post-shooting position lock 73 to lock the second shooting assembly 6 when leaving the first position, and the post-shooting position lock 73 releases the second shooting assembly 6 when the bottom of the post-shooting position lock 73 receives upward impact. Therefore, the stability of the second locking component for locking the second shooting component 6 is further increased.

When the first movable assembly 4 leaves the first position to move to the second position, the shooting back position lock 73 locks the second shooting assembly 6, so that the third toy body C cannot be shot away from the first toy body A in the moving process of the first movable assembly 4, and the third toy body C can be better prevented from being shot out of control.

Here, the fact that the bottom of the post-shooting position lock 73 is impacted upwards means that the first toy body a is driven to complete the flip action if the first movable assembly 4 moves from the first position to the second position, and when the first toy body a is flipped to complete the landing, the first toy body a is impacted upwards, so that the impact force pushes the post-shooting position lock 73 to move upwards to release the second shooting assembly 6. Further, the nail movement assembly 4 at this time is located at the second nail position, and therefore, the second nail shooting assembly 6 is released by the shooting leading lock 71. That is, when the second nail motion unit 4 is located at the second nail position, the second nail firing unit 6 is released simultaneously by the first-shot position lock 71 and the second-shot position lock 73, and the second nail firing unit 6 moves toward the first nail firing position 14 to shoot the third nail toy body C away from the first nail toy body a.

Further, the second locking assembly further comprises: the casting die, the casting die is rotatable to be established in the bottom of first organism 1 between upper stop position and lower stop position, first movable assembly 4 is with the casting die lock solid at upper stop position when being located first position, first movable assembly 4 releases the casting die when leaving first position so that the casting die is towards the rotation of stopping the position down, receives the rotation of stopping the position upwards when upwards assaulting at the casting die. That is, when the pressing member is not obstructed, the pressing member is at the lower stop. When the pressing piece is located at the upper stop position, the second shooting assembly 6 is released by the second shooting position lock 73, and when the pressing piece is located at the lower stop position, the second shooting assembly 6 is locked by the second shooting position lock 73.

That is, when the pressing member is located at the upper stop position, the post-shooting position lock 73 is lifted upwards, and at this time, the post-shooting position lock 73 is in a state of releasing the second-shot assembly 6, and when the pressing member is located at the lower stop position, the acting force acting on the bottom of the post-shooting position lock 73 disappears, and the post-shooting position lock 73 naturally falls, and at this time, the post-shooting position lock 73 locks the second-shot assembly 6.

Therefore, in the process that the first movable assembly 4 moves from the first position to the second position, the pressing piece is located at the lower stop position, so that the second shooting assembly 6 is locked by the second shooting position lock 73 after shooting, the second shooting assembly 6 cannot shoot the first toy body C away from the first toy body A, after the first movable assembly 4 moves to the first position, the pressing piece receives upward impact and returns to the stop position, so that the second shooting assembly 6 is released after the second shooting assembly 6 is moved upwards by the second shooting position lock 73, and at the moment, the second shooting assembly 6 is moved forwards to shoot the second toy body C away from the first toy body A by the first shooting position lock 71.

The specific structure of the first toy a and the play of the first and second toy a, B and C in one embodiment of the present invention will be described below with reference to fig. 1 to 13.

The launching toy combination comprises: the toy comprises a first toy body A, a second toy body B and a third toy body C.

Referring to fig. 2 and 3, the first player body a has a first body 1, a first shooting mechanism, a first moving mechanism, a second shooting mechanism, and a first coupling locker 8. The first body 1 has an upper shell 11 and a lower shell 12.

Further, the first shooting mechanism includes: first shooting subassembly 2 and first locking subassembly 3, first shooting subassembly 2 includes first bullet post 21 and first spring, and first bullet post 21 is equipped with the recess that the opening is backward, and first spring is located in the recess.

Referring to fig. 4 and 5, the first locking assembly 3 includes: the first front sliding rod 31, the first middle rod 33 and the first rear rotating rod 32 are arranged at the front end of the first toy body A, the two first magnetic pieces 13 are arranged at the front end of the first toy body A, the third toy body C is provided with iron blocks, the first toy body A can be simultaneously combined with the two third toy bodies C, and the first front sliding rod 31 is pushed to slide backwards after the third toy body C is adsorbed on the first magnetic pieces 13.

Furthermore, a third locking assembly 36 capable of moving up and down is arranged in the middle of the first middle rod 33, a second spring 37 is arranged between the upper end of the third locking assembly 36 and the upper shell 11, and the second spring 37 pushes the third locking assembly 36 to move down. The first front sliding rod 31 is linked with the first third locking component 36, the connecting surface of the first front sliding rod 31 and the first third locking component 36 is an inclined surface, when the first third locking component 36 moves downwards, the first front sliding rod 31 moves forwards, and when the first front sliding rod 31 moves backwards, the first third locking component 36 is pushed to extrude the first second spring 37 to move upwards.

Referring to fig. 5, a third spring 34 is arranged between the rear end of the first middle rod 33 and the first body 1, and the third spring 34 is suitable for pushing the first middle rod 33 to move forwards. In addition, the first middle rod 33 is provided with a first limiting protrusion 331, the left side and the right side of the first locking component 36 are provided with symmetrical first flanges 361, the first flanges 361 block the first middle rod 33 from moving forward by blocking the front sides of the first limiting protrusion 331, and after the first locking component 36 moves upward for a certain distance, the first flanges 361 release the first limiting protrusion 331.

Referring to fig. 4 and 9, the first rear rotating bar 32 is provided in two and symmetrically provided at the rear portion of the first body 1, and both left and right ends of the first rear rotating bar 32 can rotate up and down around the connection position with the first body 1. The contact surface of the first intermediate lever 33 and the first rear rotating lever 32 is an inclined surface, and when the first intermediate lever 33 moves forward, the inclined surface of the first intermediate lever 33 pushes the inclined surface of the first rear rotating lever 32 to press down one end of the first rear rotating lever 32 close to the first intermediate lever 33.

Wherein, the one end of first back rotating lever 32 far away from first intermediate lever 33 is equipped with upper arm 321 and lower arm 322, in addition, the upside of first elastic column 21 is equipped with first spacing recess 211, first combination latch 8 front and back rotationally locate first elastic column 21 below. Therefore, when the first middle rod 33 is not triggered to move forward, under the action of gravity, the end of the first rear rotating rod 32 far away from the first middle rod 33 naturally falls down due to heavier weight, and the upper supporting arm 321 falls down to be clamped in the first limiting groove 211, so that the first elastic column 21 is kept in the return position. Since the rear end of the first engaging locking member 8 has a large weight, the rear end of the first engaging locking member 8 rotates downward after the lower arm 322 moves downward along with the first rear rotating bar 32, thereby lifting the front end of the first engaging locking member 8.

Referring to fig. 5, the front end of the first combining locking element 8 is provided with a first fastener 81, the bottom of the second body is provided with a second limiting hole 92 (as shown in fig. 7 and 8) matched with the first fastener, and the first fastener 81 is adapted to be matched in the second limiting hole 92 when lifted so as to lock the second toy body B.

Referring to fig. 9 and 10, the nail movement mechanism includes: a nail activity component 4 and a nail activity locking piece 5. Specifically, the first movable assembly 4 includes a first turning plate 41 rotatably disposed at the bottom of the first body 1, the first turning plate 41 is connected to the first body 1 through a first torsion spring 42, and the first torsion spring 42 is adapted to drive the first turning plate 41 to rotate toward the first position (i.e., rotate counterclockwise on a plane formed by a straight line in the up-down direction from a straight line in the front-back direction shown in fig. 6).

Further, referring to fig. 6, a first limiting hole 411 is disposed in the middle of the first turning plate 41, a first fastener 35 is disposed at the front end of the first front sliding rod 31, a first buckle 351 is formed at the bottom of the first fastener 35, the first buckle 351 is bent towards the front side of the first body 1, and the first buckle 351 is connected to the front side wall of the first limiting hole 411 in a clamping manner. In addition, the front end of the first movable locking piece 5 is provided with a second buckle 53, the second buckle 53 bends towards the rear side of the first machine body 1, the second buckle 53 is clamped on the rear side wall of the first limiting hole 411 to lock the first turning plate 41 at the first position, and the first turning plate 41 at the first position is attached to the front bottom wall of the first machine body 1. When the first movable locking piece 5 moves forwards, the first buckle 53 and the first turnover plate 41 are gradually separated.

Referring to fig. 9 and 10, a first four spring 52 is arranged at the rear end of the first movable locking piece 5 and in front of the first machine body 1, the first four spring 52 is suitable for pushing the first movable locking piece 5 to move forward, an extending support arm 54 extending towards the left side and the right side is arranged at the rear end of the first movable locking piece 5, a first two retaining edge 212 is arranged on the inner side of the first elastic column 21 (the side of the first elastic column 21 close to the first machine body 1 in fig. 10), and the second retaining edge 212 abuts against the front side of the extending support arm 54 of the first movable locking piece 5, so that the first movable locking piece 5 is prevented from moving forward.

Referring to fig. 9, the delay member 51 is a damper, and the delay member 51 is provided at the rear end of the first movable locker 5.

Referring to fig. 10, the second nail firing mechanism includes: a second shooting component 6 and a second locking component. Specifically, a fifth spring 62 is arranged between the rear side of the second nail shooting assembly 6 and the first machine body 1, and the fifth spring 62 is suitable for pushing the second nail shooting assembly 6 to move forwards. In addition, referring to fig. 12, the first nail stopper 412 is further disposed at the rear end of the first nail turning plate 41, the second nail firing assembly 6 is disposed at the bottom of the first nail firing assembly 6, and when the first nail turning plate 41 is at the first nail position, the first nail stopper 412 abuts against the rear wall of the second nail stopping hole 61, so as to stop the first nail firing assembly 6 from moving forward.

Further, the second locking assembly includes a first shot position lock 71 and a second shot position lock 73. Referring to fig. 11, two first shooting position locks 71 are arranged and are symmetrically arranged in the nail machine body 1 from left to right, a first six spring 72 is arranged between the upper end of the first shooting position lock 71 and the upper shell 11, the first six spring 72 is suitable for pushing the first shooting position lock 71 to move downwards, the lower end of the first shooting position lock 71 extends out of the bottom wall of the nail machine body 1, and when the nail turning plate 41 is in the second position, the first shooting position lock 71 is pushed to move upwards by lifting the extending part upwards. Meanwhile, referring to fig. 13, a second shooting assembly 6 is provided with a second limiting groove 64 matched with the first shooting position lock 71 on the upper side surface, and the first shooting position lock 71 is partially positioned in the second limiting groove 64 under the pushing of a sixth shooting spring 72 so as to limit the forward movement of the second shooting assembly 6.

Referring to fig. 11 and 13, the after-shot position lock 73 includes a first lock cylinder 731 and a seventh spring 732, the first lock cylinder 731 is formed by combining two cylinders having different diameters up and down along the cylinder axis, specifically, the diameter of the cylinder at the upper end is larger than that of the cylinder at the lower end, the seventh spring 732 is provided between the top of the first lock cylinder 731 and the upper housing 11, and the seventh spring 732 pushes the first lock cylinder 731 to move downward.

Referring to fig. 12 and 13, the second-nail shooting assembly 6 is provided with a third-nail limiting hole 63 in the middle, the front end of the third-nail limiting hole 63 is formed into a circular ring, the diameter of the circular ring is consistent with the diameter of the cylinder at the upper end of the first lock cylinder 731, the rear end of the third-nail limiting hole 63 is formed into a semicircular ring, the diameter of the semicircular ring is consistent with the diameter of the cylinder at the lower end of the first lock cylinder 731, and the width of the first-nail limiting hole 411 is gradually reduced in the forward and backward direction. Therefore, under the urging of the seventh nail spring 732, the upper part of the first nail locking column 731 is located at the front end of the third nail limiting hole 63, so as to lock the position of the first nail firing assembly 2.

The combination play of the first and second player bodies a, B and the third player body C in one embodiment is described in detail below with reference to fig. 1 to 13.

Firstly, the second toy body B is mounted to the first combining position 15, at this time, the second toy body B pushes the first elastic column 21 to extrude the first spring until the first elastic column 21 is located at the return position, the upper supporting arm 321 falls into the first limiting groove 211, after the lower supporting arm 322 moves downwards, the rear end of the first combining locking piece 8 rotates downwards, the front end of the first combining locking piece 8 is lifted, the second fastening piece 81 is matched in the first limiting hole 92 of the second toy body B, and the second toy body B is locked at the first combining position 15 through the second fastening piece 81.

After the first toy body A and the second toy body B are combined, the first magnetic piece 13 attracts the first toy body C, the first magnetic piece 13 is adsorbed on the first magnetic piece C, the first front sliding rod 31 is pushed to move backwards, the first locking component 36 is further pushed to compress the second spring 37 to move upwards, the first blocking edge 361 releases the first limiting protrusion 331, then the first middle rod 33 moves forwards under the pushing of the first third spring 34, the inclined surface of the first middle rod 33 pushes the inclined surface of the first rear rotating rod 32, and the end, close to the first middle rod 33, of the first rear rotating rod 32 is pressed down, so that the end, far away from the first middle rod 33, of the first rear rotating rod 32 is lifted. Therefore, the upper arm 321 and the lower arm 322 move upward synchronously, the upper arm 321 moves upward and then breaks away from the first limiting groove 211, so that the first elastic column 21 is released, when the lower arm 322 moves upward, the rear end of the first combining locking piece 8 is lifted, so that the front end of the first combining locking piece 8 falls down, the limitation of the second fastener 81 on the second limiting hole 92 is released, the second toy body B is in a free state, the first elastic column 21 is pushed by the first spring to move towards the outward position, and the second toy body B is shot away from the first combining position 15.

Then, because the first elastic column 21 moves forward, the second flange 212 moves forward, so that the first movable locking piece 5 moves forward synchronously, under the action of the delay component 51, the first movable locking piece 5 moves forward slowly until the second buckle 53 and the first turning plate 41 are tripped, because when the first toy body a is matched with the third toy body C, the third toy body C simultaneously pushes the first buckle 35 to move backward, so that the first buckle 351 and the first turning plate 41 are tripped, therefore, the first buckle 35 and the first movable locking piece 5 are both tripped with the first turning plate 41, so that the first turning plate 41 is driven to turn backward through the recovery deformation of the first torsion spring 42, and the first machine body 1 is driven to be turned over empty.

In the process of the first toy body A being turned over, the first turning plate 41 leaves the first position, the bottom support of the first locking column 731 disappears, and therefore the seventh first spring 732 pushes the first locking column 731 to move downwards, so that the cylindrical part with the larger diameter at the upper end of the first locking column 731 is inserted into the third limiting hole 63, the second shooting assembly 6 is prevented from moving forwards, and the second toy body A is prevented from being shot away from the first toy body A to cause injury in the process of the first toy body A being turned over.

When the first toy body A falls to the ground, the first turning plate 41 is in the second position, so that the first shooting position lock 71 is pushed to extrude the first six springs 72 to move upwards, and the first shooting position lock 71 releases the second limiting groove 64. Meanwhile, when the first toy body A falls to the ground, the first lock cylinder 731 is impacted upwards, the seventh spring 732 is pressed by the first lock cylinder 731 to move upwards, the cylindrical part with the larger diameter at the upper end of the first lock cylinder 731 is separated from the second shooting assembly 6, the cylindrical part with the smaller diameter at the lower end of the first lock cylinder 731 is positioned in the third limiting hole 63, and the second shooting assembly 6 can move forwards relative to the first lock cylinder 731. Thus, the second shooting assembly 6 is released by both the first shooting position lock 71 and the second shooting position lock 73, so that the second shooting assembly 6 moves forward under the urging of the fifth nail spring 62, and finally the third player body C is shot away from the first player body a.

In some embodiments of the present invention, launching toy assembly 100 further comprises: the second toy body B. Referring to fig. 1 and 14, the second player body B has a second trigger bit and a second combination bit. Wherein the binding site B is used to bind to the binding site A15 and the triggering site B is used to approach or bind to the playpen body C. Therefore, the integrated playing method of the second playing body B and the third playing body C is realized, and the playability is high.

In one embodiment, the second trigger position is arranged at the front end of the second toy body B, the second magnetic member 91 is arranged on the second trigger position, and the third toy body C may be a toy car with an iron block arranged on the outer periphery, or may be an iron coin D as shown in fig. 17, which is not limited herein. Therefore, the third-hand-operated toy body C can be better attracted through the second magnetic piece 91, the difficulty of combining the third-hand-operated toy body C with the second locking position is reduced, and the third-hand-operated toy body C can be adsorbed on the second-hand-operated toy body B after the third-hand-operated toy body C triggers the second locking assembly.

Further, the second player body B comprises: a second body and a second movable mechanism. Referring to fig. 15, the second movement mechanism includes: the second movable assembly 93 and the second movable locking piece 94, the second movable assembly 93 is movably arranged on the second machine body between a first position and a second position, the second movable locking piece 94 is used for locking the second movable assembly 93 at the first position, one end of the second movable locking piece 94 extends to a second trigger position, when the third player body C is close to or contacts or is combined with the second trigger position, the second movable locking piece 94 is triggered to release the second movable assembly 93, and when the second movable assembly 93 is released, the second movable assembly 93 moves towards the second position. Therefore, after the second activity locking piece 94 is triggered by the third player body C, the second activity component 93 moves from the second position to the second position, the visual effect of the second player body B is improved, and the interestingness is high.

It will be appreciated that the first position and the second position are two extreme positions of the second movable assembly 93, and that the second movable assembly 93 is in the second position when the second movable assembly 93 is not obstructed.

In addition, at least a part of the second activity component 93 is exposed on the surface of the second toy body B, and of course, the second activity component 93 may also be completely exposed on the surface of the second toy body B, which is not limited herein.

Referring to fig. 16 and 17, the second player body B further includes: and B, a shooting mechanism. Specifically, the second shooting mechanism includes: the second shooting assembly 95 and the second locking assembly 97, the second shooting assembly 95 is movably arranged on the second player body, the second locking assembly 97 is used for locking the second shooting assembly 95, the second locking assembly 97 is triggered to release the second shooting assembly 95 when the second movable assembly 93 is at the second position, and the second shooting assembly 95 moves towards the second triggering position when being released so as to shoot the third player body C away from the second player body B. Therefore, the third-degree toy body C is shot from the second-degree toy body B through the second shooting mechanism, the visual impact force of the second-degree toy body B and the third-degree toy body C after combination is further increased, and the playability is high.

It can be understood that the premise that the third toy body C is shot away from the second toy body B through the second shooting assembly 95 is that the third toy body C is combined with the second toy body B at the second triggering position and is adsorbed on the second toy body B. Therefore, the combined shape of the second toy body B and the third toy body C is increased, and the playability of the launching toy assembly 100 is further improved.

In addition, the second movable assembly 93 is triggered to release the second shooting assembly 95 only when moving to the second position, so that the third toy body C can be better prevented from shooting away from the second toy body B when the second movable assembly 93 moves, such as when the second toy body B is pushed to flip over. It can be understood that when the second toy body B is turned over, the transmitting direction of the third toy body C is uncontrollable, so that when the second movable assembly 93 moves to the second position, the second toy body B stably falls to the ground, at the moment, the third toy body C is transmitted, the transmitting path of the third toy body C can be visually seen, the damage to the third toy body C caused by the fact that the transmitting angle of the third toy body C is out of control or the damage caused by the fact that a child shoots at the third toy body C can be well avoided, and the safety is high.

The specific structure of the second toy body B and the combined play of the second toy body B and the third toy body C in one embodiment of the present invention will be described below with reference to fig. 14 to 18.

Referring to fig. 14 and 16, the second player body B includes: the second body, the second moving mechanism and the second shooting mechanism. Specifically, the second movable mechanism includes a second movable assembly 93 and a second movable locking piece 94. The second magnetic part 91 is arranged at the upper front end of the second machine body, the iron block is arranged on the third toy body C, and after the third toy body C is adsorbed on the second magnetic part 91, the third toy body C pushes the second movable component 93 to move backwards.

Referring to fig. 15, the second movable assembly 93 includes a second turning plate 931 rotatably disposed at the bottom of the second body, the second turning plate 931 and the second body are connected through a second torsion spring 932, and the second torsion spring 932 drives the second turning plate 931 to rotate toward the second position (i.e., rotate counterclockwise on a plane formed by a straight line in the up-down direction of the straight line in the front-back direction shown in fig. 15). The second limiting hole 933 is arranged in the middle of the second turning plate 931, a second buckle 941 is formed at the bottom of the second movable assembly 93, the second buckle 941 bends towards the front side of the second body, the second buckle 941 is clamped on the front side wall of the second limiting hole 933, the rear portion of the second movable assembly 93 is connected with the second body through a second spring 942 (refer to fig. 16), and the second spring 942 pushes the second movable locking piece 94 to move forwards, so that the second turning plate 931 is locked by the second buckle 941, and the second turning plate 931 keeps the second position. The second turnover 931 in the second position is attached to the front bottom wall of the second machine body.

Referring to fig. 16 and 17, the second shooting mechanism includes: a second firing assembly 95 and a second locking assembly 97. Specifically, the second shooting component 95 is arranged on the second shooting component body in a back-and-forth moving manner, two second springs 96 which are bilaterally symmetrical are arranged between the back side of the second shooting component 95 and the second shooting component body, and the second springs 96 are suitable for pushing the second shooting component 95 to move forwards. A second four spring 973 is arranged between the second locking component 97 and the second machine body, the second four spring 973 pushes the second locking component 97 to move downwards, the second locking component 97 is arranged at the rear end of the second shooting component 95, the lower end of the second locking component 97 extends out of the bottom wall of the second machine body, and the second turning plate 931 is positioned at the second position and pushes the second locking component 97 to move upwards by upwards supporting the extending part. The second locking component 97 is adapted to be clamped in the second limiting groove 953 after moving down.

In addition, the second locking assembly 97 further includes two second locking columns 971 and a second third spring 972, the second locking column 971 is formed by combining two cylinders with different diameters up and down along the axis of the cylinder, the diameter of the cylinder at the upper end is larger than that at the lower end, the second third spring 972 is arranged between the top of the second locking column 971 and the second body, and the second third spring 972 is suitable for pushing the locking column to move downwards.

Further, second shooting subassembly 95 middle part is equipped with second four spacing holes 952, and the front end of second four spacing holes 952 is formed into the ring, and the diameter of ring is unanimous with the cylindrical diameter in second lock post 971 upper end, and the rear end of second four spacing holes 952 is formed into the semicircle ring, and the diameter of semicircle ring is unanimous with the cylindrical diameter in second lock post 971 lower extreme to, by the direction after preceding, the width in spacing hole dwindles gradually. Therefore, under the urging of the second three springs 972, the upper portion of the lock cylinder is located at the front end of the second four limiting hole 952, so as to lock the position of the second shooting assembly 95 and prevent the second shooting assembly 95 from moving forward.

Referring to fig. 18, the rear end of the second turning plate 931 is provided with a second stop dog 934, the bottom of the second shooting assembly 95 is provided with a second third limiting hole 951, and when the second position is reached, the second stop dog 934 abuts against the rear side wall of the second limiting hole 92, so that the second shooting assembly 95 is prevented from moving forward.

In one embodiment, the combination play of the second player body B and the third player body C is described in detail below with reference to fig. 14-18.

Firstly, after the first magnetic member 91 attracts the first toy body C, the first toy body C is adsorbed on the second magnetic member 91, the second movable assembly 93 is pushed to move backwards, the second buckle 941 moves backwards relative to the second turning plate 931, the second buckle 941 and the second turning plate 931 are tripped, the second turning plate 931 rotates backwards under the action of the second torsion spring 932, the second turning plate 931 hits the ground, and the second machine body is pushed to be turned over in the air.

After the second body falls to the ground, the second turning plate 931 is located at the second position, at this time, the second stopper 934 releases the second third limiting hole 951, and the second turning plate 931 pushes the second locking component 97 to move upwards to separate from the second limiting groove 953. Meanwhile, due to the upward impact received when the second toy body B falls to the ground, the impact pushes the second lock column 971 to extrude the second three spring 972 to move upwards, when the cylinder with the smaller diameter at the lower end of the second lock column 971 is positioned in the second four limiting hole 952, the limiting effects of hindering the forward movement of the second shooting assembly 95 are all released, and the second shooting assembly 95 moves forwards relative to the second lock column 971, so that the third toy body C is pushed to be shot from the second toy body B.

Other constructions and operations of the launching toy assembly 100 according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (10)

1. A launching toy assembly, comprising:

the first toy body is provided with a first trigger position and a first combination position which are different in position, the first combination position is used for being combined with the second toy body, and the first toy body comprises:

a body;

first shooting mechanism, first shooting mechanism includes: the first shooting assembly and the first locking assembly are movably arranged on the first machine body between a return position and an exit position, the first locking assembly is used for locking the first shooting assembly at the return position, one end of the first locking assembly extends to the first trigger position, when the first playing body is close to or contacted with or combined with the first trigger position, the first locking assembly is triggered to release the first shooting assembly, and when the first shooting assembly is released, the first shooting assembly moves towards the exit position to shoot the second playing body away from the first playing body;

first movable mechanism, first movable mechanism includes: first movable assembly, first movable latch fitting, first movable assembly movably sets up between first position and first position on the first organism, first movable latch fitting be used for with first movable assembly lock solid is in first position, first movable latch fitting with first shooting subassembly links mutually, trigger during first shooting subassembly activity first movable latch fitting release first movable assembly, first movable assembly orientation when being released first two position activity, just first movable assembly's at least part is revealed first plays specific surface.

2. The launch toy assembly of claim 1, wherein said first toy body further comprises: first two shooting mechanism, first two shooting mechanism includes: two first shooting subassemblies, two first locking subassemblies, two first shooting subassemblies movably set up on the first organism, two first locking subassemblies are used for the lock solid two first shooting subassemblies, first movable subassembly is in trigger during two first positions two first locking subassemblies release two first shooting subassemblies, two first shooting subassemblies orientation when being released the first position activity is triggered to the first, in order to incite somebody to action third of the ten heavenly stems the first body of playing is jeted from.

3. The shooting toy assembly of claim 1, wherein the first toy body is provided with a first combination locking member at the first combination position, the first combination locking member is used for locking the second toy body, the first combination locking member is linked with the first shooting mechanism, and the first shooting assembly releases the second toy body towards the first combination locking member when the first shooting assembly is out of position.

4. The launch toy assembly of claim 1, wherein said first locking assembly comprises:

the first front sliding rod is arranged on the first machine body in a manner of moving back and forth, and the front end of the first front sliding rod is positioned at the first trigger position;

first back bull stick, first back bull stick rotationally sets up the rear end of first organism, first back bull stick is used for the lock solid first shooting subassembly, first shooting subassembly with first preceding slide bar linkage, first preceding slide bar drives when sliding backward first back bull stick release first shooting subassembly.

5. The launching toy assembly of claim 4, wherein the first locking assembly further comprises:

the first intermediate lever is arranged on the first machine body in a movable mode from front to back, the first intermediate lever is linked with the first front sliding rod, the first intermediate lever slides forwards when sliding backwards, the bottom of the first intermediate lever is provided with a first guide surface which is in contact with the first rear rotating lever, and the first intermediate lever drives the first rear rotating lever to rotate through the first guide surface when sliding.

6. The shooting toy assembly of claim 1, wherein the first movable assembly comprises a first flap rotatably disposed at a bottom of the first body, the first locking assembly is locked to the first flap, and the first locking assembly releases the first flap and the first shooting assembly when activated.

7. The launching toy assembly of claim 2, wherein the second locking assembly comprises:

the first shooting position lock is movably arranged on the first machine body, the second shooting assembly is locked by the first shooting position lock when the first movable assembly is in the first position, and the second shooting assembly is released by triggering the first shooting position lock when the second movable assembly is in the second position;

position lock after the shooting, position lock movably sets up after the shooting on the first organism, first movable assembly is leaving trigger during first position lock solid after the shooting two shooting subassemblies the bottom of position lock after the shooting receives when upwards impacting, position lock release after the shooting two shooting subassemblies of first.

8. The launching toy assembly of claim 7, wherein the first locking assembly further comprises: the pressing piece is rotatably arranged at the bottom of the first machine body between an upper stop position and a lower stop position, the pressing piece is locked at the upper stop position when the first movable assembly is positioned at the first position, the pressing piece is released to enable the pressing piece to rotate towards the lower stop position when the first movable assembly leaves the first position, and the pressing piece rotates towards the upper stop position when the pressing piece is impacted upwards;

when the pressing piece is located at the upper stop position, the shooting back position lock releases the first shooting assembly and the second shooting assembly, and when the pressing piece is located at the lower stop position, the shooting back position lock locks the first shooting assembly and the second shooting assembly.

9. The launch toy assembly according to any one of claims 1-8, further comprising: a second toy body which is provided with a second trigger position and a second combination position,

the binding site B is used for binding with the binding site A;

the trigger B is used for approaching or contacting or combining with the toy C body;

the second toy body comprises:

b, a machine body;

the second movable mechanism comprises: a second movable assembly and a second movable locking piece, wherein the second movable assembly is movably arranged on the second machine body between a first position and a second position, the second movable locking piece is used for locking the second movable assembly at the second position,

one end of the second activity locking piece extends to the second trigger position, when the second activity locking piece is close to or contacts or is combined with the second trigger position, the second activity locking piece is triggered to release the second activity assembly, when the second activity assembly is released, the second activity assembly moves towards the second position, and at least part of the second activity assembly is exposed on the surface of the second activity assembly.

10. The launch toy assembly of claim 9, wherein said second toy body further comprises:

second shooting mechanism, second shooting mechanism includes: second shooting subassembly, second lock solid subassembly, second shooting subassembly movably sets up on the second organism, second lock solid subassembly is used for the lock solid second shooting subassembly, second movable assembly is in second two triggers during the position second lock solid subassembly releases second shooting subassembly, second shooting subassembly orientation when being released second trigger position activity, in order with the third toy body jets away second toy body.

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