CN216497469U - Object carrying type toy - Google Patents

Abstract

The application discloses a carrying type toy, which comprises a first machine body, wherein a first containing cavity for containing a carrying object is arranged in the first machine body, and the first machine body is provided with a first locking mechanism, a limiting mechanism and a first ejection mechanism; the limiting mechanism is used for limiting the bearing object at a position to be launched in the first accommodating cavity, the first launching mechanism is used for launching the bearing object at the position to be launched, and the first locking mechanism is linked with the first launching mechanism and the limiting mechanism respectively; when the first locking mechanism is in a locking state, the first locking mechanism locks the first ejection mechanism in an energy storage state, and the limiting mechanism limits the bearing object in a position to be ejected; when the first locking mechanism is triggered to be switched to the unlocking state, the first locking mechanism simultaneously triggers the limiting mechanism and the first ejection mechanism to act, the limiting mechanism relieves the limitation on the bearing object, and the first ejection mechanism releases energy and emits the bearing object after being unlocked. This application can launch the carrier that holds in holding the intracavity, and the linkage is strong, and the object for appreciation nature is high.

Description

Object carrying type toy

Technical Field

The application relates to the technical field of toys, in particular to a carrying type toy.

Background

The existing base type toy is generally designed to be partially opened, a containing space is arranged in the base type toy, other small toys can be placed in the base, and in addition, the base type toy does not have more linkage and operable functions, so that the playability of the base type toy is not high, and small friends can easily lose interest in the base type toy.

Therefore, a carrying type toy with strong linkage and high playability needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the not enough of prior art, provide a carry thing type toy and can launch the carrier that holds in holding the intracavity, linkage nature is strong, and object for appreciation nature is high.

The technical scheme of the application provides a carrying type toy which comprises a first machine body, wherein a first containing cavity for containing a carrying object is formed in the first machine body, and the first machine body is provided with a first locking mechanism, a limiting mechanism and a first ejection mechanism;

the limiting mechanism is used for limiting the bearing object at a position to be launched in the first accommodating cavity, the first ejection mechanism is used for ejecting the bearing object at the position to be launched, and the first locking mechanism is linked with the first ejection mechanism and the limiting mechanism respectively;

the first locking mechanism comprises a locked state and an unlocked state;

when the first locking mechanism is in the locking state, the first locking mechanism locks the first ejection mechanism in an energy storage state, and the limiting mechanism limits the bearing object in the position to be ejected;

when the first locking mechanism is triggered to be switched to the unlocking state, the first locking mechanism simultaneously triggers the limiting mechanism and the first ejection mechanism to act, the limiting mechanism relieves the limitation on the bearing object, and the first ejection mechanism releases energy and emits the bearing object after being unlocked.

Preferably, a cover body capable of being opened or closed manually or through linkage of the first locking mechanism is arranged on the first machine body, the first accommodating cavity can be closed after the cover body is closed, and the bearing object can be emitted from the first accommodating cavity after the cover body is opened.

Preferably, the limiting mechanism includes a limiting member and a first linkage member, the first linkage member is slidably disposed on the first body, the first locking mechanism is linked with the first linkage member, and the limiting member is linked with the first linkage member;

when the bearing object is in the limit state, the limiting part extends into the first accommodating cavity and limits the bearing object to move towards the launching direction;

when the first locking mechanism is triggered to unlock, the first locking mechanism drives the first linkage piece to act, and the first linkage piece drives the limiting piece to leave the first accommodating cavity and remove the limitation on the bearing object.

Preferably, the limiting mechanism further comprises a first elastic member, and the first elastic member is arranged between the first machine body and the first linkage member;

when the first locking mechanism is triggered to be switched to the unlocking state, the first locking mechanism is linked with the first linkage piece to act, and the first linkage piece pushes the first elastic piece to store energy;

when the first locking mechanism is in the locking state, the first locking mechanism is not linked with the first linkage piece, the first elastic piece releases energy and drives the first linkage piece to reset, and the first linkage piece drives the limiting piece to extend into the first accommodating cavity.

Preferably, the first ejection mechanism comprises a launching part, a traction part and a second elastic part, the traction part is slidably arranged on the first body, the launching part is connected with the traction part, and the second elastic part is connected between the first body and the traction part;

when the first locking mechanism is in the locking state and locks the traction piece at the locking position, the second elastic piece stores energy, and the launching piece is in a state to be launched;

when the first locking mechanism is switched to the unlocking state, the traction piece is unlocked, the second elastic piece releases energy and drives the traction piece to slide towards the launching direction, and the traction piece drives the launching piece to act and pushes the bearing object to be launched out.

Preferably, a through hole is formed in a bottom plate of the first accommodating cavity, an inclined table is arranged below the through hole, and the emitting piece is arranged on the inclined table in a sliding mode;

when the first ejection mechanism is used for storing energy, the launching part is positioned below the first accommodating cavity;

when the first ejection mechanism releases energy, the launching part slides towards the first accommodating cavity along the inclined platform, enters the first accommodating cavity through the through hole and pushes the bearing object to launch towards the launching direction.

Preferably, the first locking mechanism includes a key and a locking rod, the key is located above the locking rod, one end of the locking rod is a trigger end, the other end of the locking rod is a locking end, a rotating shaft is arranged between the trigger end and the locking end, and the trigger end is hinged to the first body through the rotating shaft;

when the ejection mechanism is locked, the locking end is connected with the first ejection mechanism in a locking mode, and the first ejection mechanism is kept in a state to be ejected;

when the key is pressed, the key is contacted with the triggering end and drives the locking rod to rotate, the locking end rotates to be separated from the first ejection mechanism, the first ejection mechanism unlocks and releases energy, and meanwhile, the key is linked with the limiting mechanism to release the limitation on the bearing object.

Preferably, the first accommodating cavity can accommodate a plurality of the bearing objects, the bearing objects are sequentially placed in the first accommodating cavity in an end-to-end contact manner, and an outlet is formed in the first accommodating cavity close to the position to be launched;

when the first bearing object is to be launched, the first bearing object is positioned in the position to be launched, the limiting mechanism limits the first bearing object to be launched outwards, and the first launching mechanism is arranged at the rear end of the first bearing object;

when the first locking mechanism is triggered to unlock, the first carrier in the position to be launched is launched out by the first launching mechanism.

Preferably, the bottom plate of the first accommodating cavity is designed into an inclined plate which is inclined downwards towards the outlet direction, and the inclined plate is connected with one end of the position to be launched, which is far away from the outlet;

when the first bearing object is launched, the next bearing object slides to the position to be launched along the inclined plate.

Preferably, the portable terminal further comprises a second body, the second body is connected with the first body, a second accommodating cavity for accommodating the bearing object is arranged in the second body, a second locking mechanism, a second ejection mechanism and a cover are arranged on the second body, the second locking mechanism is linked with the cover, and the cover is linked with the second ejection mechanism;

when the second locking mechanism locks the cover, the cover is closed, and the second accommodating cavity is closed;

when the second locking mechanism is triggered to unlock the cover cap, the cover cap is opened, the cover cap is linked with the second ejection mechanism to act, and the second ejection mechanism ejects the bearing object in the second accommodating cavity.

Preferably, the second locking mechanism comprises a trigger and a locking plate, the trigger is linked with the locking plate, and the locking plate is slidably arranged on the second body;

the third elastic piece is connected between the second machine body and the cover;

when the locking plate is locked, the locking plate is connected with the cover cap, the cover cap is kept closed, and the third elastic piece stores energy;

when the locking mechanism is unlocked, the trigger piece is triggered to be linked with the locking plate to act, the locking plate is separated from the cover, the third elastic piece releases energy and drives the cover to be opened, and the cover is linked with the second ejection mechanism to act.

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

this application can take in the carrier to holding the intracavity, comes linkage stop gear and ejection mechanism action through the control locking mechanical system unblock simultaneously to the realization is launched the carrier that holds the intracavity, makes the linkage nature of toy strong, has higher object for appreciation nature.

Drawings

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

FIG. 1 is a schematic view of the overall construction of a carrier-type toy of the present invention in one embodiment thereof;

fig. 2 is a schematic view of the internal structure of the first body according to one embodiment of the present invention;

FIG. 3 is a schematic view of a first locking mechanism, a spacing mechanism and a first ejection mechanism of the present invention in one embodiment thereof;

fig. 4 is a schematic view of a first ejection mechanism of the present invention in one embodiment thereof;

FIG. 5 is a schematic structural diagram of a second body according to one embodiment of the present invention;

FIG. 6 is a schematic view of the present invention with the cover removed in one embodiment.

Reference symbol comparison table:

first body 1

First accommodation chamber 10:

a position to be launched 100, an outlet 101, a shell 102, a bottom plate 103, a chassis 104, a sloping plate 105 and a sloping platform 106;

first locking mechanism 11:

the button 111, the first linkage block 1110, the pressing end 1111, the hinge end 1112 and the fifth elastic member 1113;

the locking rod 112, the triggering end 1121, the locking end 1122, the rotating shaft 1123, the latch 1124 and the sixth elastic piece 1125;

and a limiting mechanism 12:

a stopper 121, a guide pin 1211;

a first linkage piece 122, a second linkage block 1221, a guide angled hole 1222;

a first elastic member 123;

the first ejection mechanism 13:

the launcher 131, the guide pin 1311;

the traction member 132, the second elastic member 133, the guide block 134, and the slider 135;

a lid 14;

the second body 2:

the second accommodation chamber 20;

second locking mechanism 21:

a trigger 211;

locking plate 212, insert 2121;

a seventh elastic member 213;

a third link block 214, a first rocker 2141, a second rocker 2142;

the slide plate 215, the guide surface 2151;

the second ejection mechanism 22: a push plate 221, a locking buckle 222 and a fourth elastic member 223;

the cover 23: rotating post 231, flange 2311, third elastic member 232 and insert plate 233.

Detailed Description

Embodiments of the present application are further described below with reference to the accompanying drawings.

It is easily understood that according to the technical solutions of the present application, those skilled in the art can substitute various structures and implementations without changing the spirit of the present application. Therefore, the following detailed description and the accompanying drawings are merely illustrative of the technical solutions of the present application, and should not be construed as limiting or restricting the technical solutions of the present application in their entirety.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Throughout the description of the present application, it is to be noted that, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "coupled" 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; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The foregoing is to be understood as belonging to the specific meanings in the present application as appropriate to the person of ordinary skill in the art.

In some embodiments of the present invention, a carrying type toy is disclosed, as shown in fig. 1-3, comprising a first body 1, a first accommodating cavity 10 for accommodating a carrying object is provided in the first body 1, the first body 1 is provided with a first locking mechanism 11, a limiting mechanism 12 and a first ejection mechanism 13;

the limiting mechanism 12 is used for limiting the load-bearing object at the position 100 to be launched in the first accommodating cavity 10, the first ejecting mechanism 13 is used for ejecting the load-bearing object at the position 100 to be launched, and the first locking mechanism 11 is linked with the first ejecting mechanism 13 and the limiting mechanism 12 respectively;

the first locking mechanism 11 includes a locked state and an unlocked state;

when the first locking mechanism 11 is in a locking state, the first locking mechanism 11 locks the first ejection mechanism 13 in an energy storage state, and the limiting mechanism 12 limits the load in the position 100 to be launched;

when the first locking mechanism 11 is triggered to be switched to the unlocking state, the first locking mechanism 11 simultaneously triggers the limiting mechanism 12 and the first ejection mechanism 13 to act, the limiting mechanism 12 contacts with the load-bearing object to limit, and the first ejection mechanism 13 releases energy and emits the load-bearing object after being unlocked.

The first body 1 has a rectangular structure or a columnar structure, and at least one end of the first accommodating cavity 10 can be opened so that a load can enter or leave the first accommodating cavity 10 from the opened end. In this application, stop gear 12 can hinder the carrier that is in first chamber 10 that holds to the hindrance carrier launches. When the carrier is not launched, the carrier is received in the first receiving cavity 10, and at this time, the limiting mechanism 12 limits the carrier in the position 100 to be launched, so that the carrier cannot be separated from the first receiving cavity 10. When the player launches, the player unlocks by triggering the first locking mechanism 11, the first locking mechanism 11 is linked with the limiting mechanism 12 and the first ejection mechanism 13 to act, so that the limiting mechanism 12 relieves the limitation on the bearing object, and meanwhile, the first ejection mechanism 13 releases energy and pushes the bearing object in the position 100 to be launched to launch outwards. The toy can not only load a bearing object into the first accommodating cavity 10, but also can launch the bearing object outwards, and compared with the scheme that the existing base type toy only can load the bearing object into the base, the toy can achieve the functions of storage and launch, meanwhile can achieve linkage of the limiting mechanism 12 and the first ejection mechanism 13 by triggering the first locking mechanism 11 to unlock, is high in playability and linkage, and can better arouse the interest of players.

Preferably, as shown in fig. 1, the first body 1 is a cabin-like structure, and the carrying object is a toy car, which can leave the first receiving cavity 10 and go outside when being launched, thereby simulating a transporter to play.

In some embodiments of the present invention, as shown in fig. 2, the first locking mechanism 11 includes a key 111 and a locking lever 112, the key 111 is located above the locking lever 112, one end of the locking lever 112 is an activation end 1121, the other end is a locking end 1122, a rotating shaft 1123 is disposed between the activation end 1121 and the locking end 1122, and the activation end 1121 is hinged to the first body 1 through the rotating shaft 1123;

when locked, the locking end 1122 is in locking connection with the first ejection mechanism 13 and enables the first ejection mechanism 13 to be kept in a state to be ejected;

when the key 111 is pressed, the key 111 contacts the trigger end 1121 and drives the locking rod 112 to rotate, the locking end 1122 rotates to be separated from the first ejection mechanism 13, the first ejection mechanism 13 unlocks and releases energy, and meanwhile, the key 111 is linked with the limiting mechanism 12 to enable the limiting mechanism 12 to release the limitation on the load.

Specifically, as shown in fig. 2, one end of the key 111 is a pressing end 1111, the other end of the key 111 is a hinged end 1112, the hinged end 1112 is hinged to the first body 1, the pressing end 1111 is disposed above the triggering end 1121, the key 111 is further provided with a first linkage block 1110, the first linkage block 1110 is disposed on one side of the pressing end 1111, the first linkage block 1110 is linked with the limiting mechanism 12, and when the key 111 is pressed, the first linkage block 1110 acts and drives the limiting mechanism 12 to act, so that the limiting mechanism 12 releases the limitation on the load.

Still further, as shown in fig. 2 and 4, a latch 1124 is disposed at the locking end 1122 of the locking lever 112, and when locking, the latch 1124 locks the first ejection mechanism 13, so that the first ejection mechanism 13 is kept in a charged state, and when unlocking, the player presses the key 111, the pressing end 1111 of the key 111 pushes the triggering end 1121 of the locking lever 112 to move downward, the locking lever 112 rotates and makes the locking end 1122 move upward, and the latch 1124 of the locking end 1122 unlocks the first ejection mechanism 13, so that the first ejection mechanism 13 is released and can push the load out of the first accommodating cavity 10.

Therefore, a player can simultaneously make the limiting mechanism 12 and the first ejection mechanism 13 act simultaneously only by pressing the key 111, namely, only one operation is needed, and the operation is simple and the linkage is strong.

Further, as shown in fig. 2, a fifth elastic member 1113 is disposed between the pressing end 1111 of the key 111 and the first body 1, wherein the fifth elastic member 1113 is a compression spring connected between the pressing end 1111 of the key 111 and the first body 1, a sixth elastic member 1125 is disposed between the triggering end 1121 of the locking lever 112 and the first body 1, and the sixth elastic member 1125 is a compression spring connected between the triggering end 1121 of the locking lever 112 and the first body 1. When the key 111 is not pressed, the fifth elastic member 1113 lifts the pressing end 1111 of the key 111 upward, so that the bottom of the pressing end 1111 is separated from the triggering end 1121 of the locking lever 112, and at the same time, the sixth elastic member 1125 lifts the triggering end 1121 of the locking lever 112 upward, so that the locking end 1122 of the locking lever 112 moves downward and remains locked with the first ejection mechanism 13, thereby enabling the locking lever 112 to be more stable when locking the first ejection mechanism 13. The resetting of the key 111 and the locking bar 112 can also be achieved by providing the fifth elastic member 1113 and the sixth elastic member 1125.

Alternatively, the key 111 may be connected to the first body 1 to slide in the longitudinal direction.

In some embodiments of the present invention, as shown in fig. 2 and 3, the limiting mechanism 12 includes a limiting member 121 and a first linkage member 122, the first linkage member 122 is slidably disposed on the first body 1, the first locking mechanism 11 is linked with the first linkage member 122, and the limiting member 121 is linked with the first linkage member 122;

when the container is in the limiting state, the limiting member 121 extends into the first accommodating cavity 10 and limits the movement of the load-bearing object in the launching direction;

when the first locking mechanism 11 is triggered to unlock, the first locking mechanism 11 drives the first linkage member 122 to move, and the first linkage member 122 drives the limiting member 121 to leave the first accommodating cavity 10 and remove the limitation on the load.

Preferably, as shown in fig. 2, the limiting mechanism 12 is disposed below the first accommodating chamber 10, a communication opening is disposed at the bottom of the first accommodating chamber 10, and the limiting member 121 can extend into the first accommodating chamber 10 from the lower side of the first accommodating chamber 10 through the communication opening and block the load in the first accommodating chamber 10, so that the load cannot be separated from the first accommodating chamber 10.

Optionally, the limiting mechanism 12 can also be disposed on two sides or above the first accommodating cavity 10, so that the limiting member 121 can extend into the first accommodating cavity 10 from two sides or above the first accommodating cavity 10 to block the movement of the load when being blocked.

Specifically, as shown in fig. 2, the first body 1 includes a chassis 104, a bottom plate 103 and a housing 102, the housing 102 is connected to the chassis 104, the bottom plate 103 is disposed above the chassis 104, a first accommodating cavity 10 is formed between the bottom plate 103 and the housing 102, a cavity for accommodating the limiting mechanism 12 is formed between the chassis 104 and the bottom plate 103, the bottom plate 103 covers the limiting mechanism 12, and a load is placed on the bottom plate 103. Wherein, be equipped with the intercommunication mouth that communicates first chamber 10 and cavity on bottom plate 103, the locating part 121 can stretch into or stretch out first chamber 10 that holds through the intercommunication mouth.

The first linkage member 122 is slidably disposed on the chassis 104 along the length direction of the first body 1, as shown in fig. 3, one end of the first linkage member 122 is provided with a second linkage block 1221, and the other end is linked with the limiting member 121, specifically, the first linkage member 122 is provided with a guiding inclined hole 1222, one end of the guiding inclined hole 1222 far away from the key 111 is a high end, the other end is a low end, and the high end is located above the low end. The stopper 121 is provided with a guide pin 1211, the guide pin 1211 is inserted into the guide inclined hole 1222 to be slidable along the guide inclined hole 1222, and the stopper 121 is slidable up and down along the communication opening. In the position-limiting state, the guide pin 1211 is located in the high-position end of the guide inclined hole 1222, so that the limiting member 121 can extend into the first accommodating cavity 10 from the communication opening and block the load in the first accommodating cavity 10. In the released state, the guide pin 1211 is located at the low end of the guide inclined hole 1222, so that the limiting member 121 can fall to leave the first accommodating cavity 10, and the limiting member 121 does not obstruct the movement of the load in the first accommodating cavity 10.

Further, the first linkage member 122 slides in conjunction with the actuation of the key 111, so that the guide pin 1211 is located at different positions of the guide inclined hole 1222. Specifically, as shown in fig. 3, the second linkage block 1221 is disposed below the first linkage block 1110, and one or both of the first linkage block 1110 and the second linkage block 1221 are provided with a wedge block, when the key 111 is pressed, the key 111 drives the first linkage block 1110 to move downward, the first linkage block 1110 contacts with the second linkage block 1221, and under the action of the wedge block, the first linkage member 122 can slide along the launching direction, at this time, the guide pin 1211 slides from the high end to the low end of the guide inclined hole 1222, and at the same time, the limiting member 121 is moved downward to separate from the first accommodating cavity 10.

Optionally, the end of the first linkage member 122 may further be provided with a guiding inclined surface, and in the limiting state, the guiding pin 1211 is located at the high end of the guiding inclined surface, and the limiting member 121 extends into the first accommodating cavity 10. In the released state, the guiding pin 1211 is at the low end of the guiding inclined plane, and the limiting member 121 leaves the first accommodating cavity 10.

Optionally, the limiting member 121 may further be hinged to the chassis 104, one end of the limiting member 121 is a movable end, the other end of the limiting member 121 is a blocking end, the hinge end 1112 of the limiting member 121 is located between the movable end and the blocking end, and the first link 122 is in contact with the movable end. When the position is limited, the blocking end turns and extends into the first accommodating cavity 10, when the key 111 is pressed to drive the first linkage part 122 to slide towards the emitting direction, the first linkage part 122 pushes the movable end to rotate, and the blocking end turns to the position below the first accommodating cavity 10, so that the state is switched to the release state.

In some embodiments of the present invention, as shown in fig. 2, the limiting mechanism 12 further includes a first elastic member 123, the first elastic member 123 is disposed between the first body 1 and the first linkage member 122;

when the first locking mechanism 11 is triggered to switch to the unlocking state, the first locking mechanism 11 is linked with the first linkage piece 122 to act, and the first linkage piece 122 pushes the first elastic piece 123 to store energy;

when the first locking mechanism 11 is in the locking state, the first locking mechanism 11 is not linked with the first linkage member 122, the first elastic member 123 releases energy and drives the first linkage member 122 to reset, and the first linkage member 122 drives the limiting member 121 to extend into the first accommodating cavity 10.

Specifically, the first elastic member 123 is a compressed spring, the compressed spring is connected between the first linkage member 122 and the chassis 104, when the player does not actuate the key 111, the compressed spring extends and pushes the first linkage member 122 to slide towards the key 111, the guide pin 1211 slides along the guide inclined hole 1222 and finally remains at the high end of the guide inclined hole 1222, so that the limiting member 121 can remain to extend into the first accommodating cavity 10 to block the load. When the player presses the button 111 to slide the first linkage member 122 in the launching direction, the compression spring is compressed, and the guide pin 1211 slides from the high end to the low end of the guide inclined hole 1222, so that the limiting member 121 descends away from the first accommodating cavity 10, and the load in the first accommodating cavity 10 can pass through. When the player releases the key 111 again, the compression spring is reset and drives the first linkage piece 122 to slide again, so that the load can be restricted again.

In some embodiments of the present invention, as shown in fig. 2 to 4, the first ejection mechanism 13 includes a launching member 131, a traction member 132, and a second elastic member 133, the traction member 132 is slidably disposed on the first body 1, the launching member 131 is connected with the traction member 132, and the second elastic member 133 is connected between the first body 1 and the traction member 132;

when the first locking mechanism 11 is in a locking state and the traction piece 132 is locked at a locking position, the second elastic piece 133 stores energy, and the launching piece 131 is in a state to be launched;

when the first locking mechanism 11 is switched to the unlocking state, the pulling member 132 is unlocked, the second elastic member 133 releases energy and drives the pulling member 132 to slide in the launching direction, and the pulling member 132 drives the launching member 131 to move and push the carrying object to be launched.

Specifically, as shown in fig. 2 and 3, the first ejection mechanism 13 further includes a slider 135132, the slider 135 is slidably disposed on the chassis 104, one end of the slider 135 is connected to the launching member 131, the other end of the slider 135 is fixedly connected to the traction member 132, the traction member 132 is slidably disposed at the tail of the first body 1, and the second elastic member 133 is a tension spring, and the tension spring is connected between the slider 135 and the chassis 104. When the first locking mechanism 11 is locked, the player pulls the pulling member 132 backward, so that the pulling member 132 is pulled to the locking position, the tension spring is charged, and the latch 1124 on the locking lever 112 catches the pulling member 132, so that the pulling member 132 does not move toward the shooting direction due to the elastic force of the tension spring. When the player presses the button 111, the latch 1124 of the locking lever 112 is separated from the pulling member 132, and at this time, the slider 135 slides in the launching direction under the elastic force of the tension spring, the slider 135 drives the launching member 131 to slide in the launching direction, and the launching member 131 pushes the carrying object to launch.

When the locking is performed, the emitting member 131 is located below the first accommodating cavity 10, and after the unlocking is performed, the emitting member 131 can enter the first accommodating cavity 10 and push the carrying object in the first accommodating cavity 10 to be emitted.

Alternatively, a portion of the emitting member 131 can always extend into the first accommodating chamber 10, and when the emitting member 131 is emitted, the emitting member contacts with the carrier and pushes the carrier to emit.

In some embodiments of the present invention, the first accommodating chamber 10 can accommodate a plurality of objects, the plurality of objects are sequentially placed in the first accommodating chamber 10 end to end, and the first accommodating chamber 10 is provided with an outlet 101 near the position 100 to be launched;

when the first bearing object is to be launched, the first bearing object is positioned in the position 100 to be launched, the limiting mechanism 12 limits the first bearing object to be launched outwards, and the first launching mechanism 13 is arranged at the rear end of the first bearing object;

when the first locking mechanism 11 is triggered to unlock, the first carrier in the position to be launched 100 is launched by the first launching mechanism 13.

Furthermore, only one carrying object can be placed at the position 100 to be launched, and the launching member 131 can only push the carrying object in the position 100 to be launched to launch outwards during each launching, so that only one carrying object can be launched outwards during each launching.

Optionally, the position to be launched 100 can also contain more than one carrier, i.e. the launcher 131 can launch multiple carriers out each time.

Optionally, a plurality of carriers can be transversely arranged in the first accommodating cavity 10 side by side, and by arranging a plurality of groups of first ejection mechanisms 13, each group of first ejection mechanisms 13 corresponds to each transversely arranged carrier, and the plurality of carriers can be simultaneously and outwardly ejected when being ejected.

In some embodiments of the present invention, as illustrated in fig. 2, the bottom plate 103 of the first receiving chamber 10 is provided with a through hole;

when the first ejection mechanism 13 is charged with energy, the first ejection mechanism 13 is positioned below the first accommodating cavity 10;

when the first ejection mechanism 13 is released, at least part of the first ejection mechanism 13 enters the first accommodating cavity 10 through the through hole and pushes the load in the position to be ejected 100 to be ejected to the ejection direction.

Further, an inclined table 106 is arranged below the through hole, and the emitting piece 131 is arranged on the inclined table 106 in a sliding mode;

when the first ejection mechanism 13 is charged, the launching member 131 is located below the first accommodating cavity 10;

when the first ejection mechanism 13 is de-energized, the launching member 131 slides along the ramp 106 toward the first accommodating cavity 10 and enters the first accommodating cavity 10 through the through hole and pushes the carrier to launch toward the launching direction.

Further, as shown in fig. 2 to 4, the first launching mechanism further includes a guide block 134, the guide block 134 is slidably disposed on the chassis 104, two ends of the launching member 131 are respectively connected with the guide block 134 and the slider 135, specifically, the guide block 134 and the slider 135 are respectively provided with a long hole disposed along the longitudinal direction, and two ends of the launching member 131 can respectively slide up and down along the long holes through a guide pin 1311. The bottom of the launching member 131 is slidably disposed on the sloping platform 106, when the first ejection mechanism 13 is charged, the launching member 131 is located at the low end of the sloping platform 106, and the launching member 131 is located below the first accommodating cavity 10. During launching, the sliding block 135 drives the launching member 131 to slide along the sloping platform 106, so that the launching member 131 slides from the low end to the high end of the sloping platform 106, and meanwhile, the launching member 131 penetrates through the through hole to extend into the first accommodating cavity 10 and pushes the carrying object to be launched. While the launching, the guide block 134 also slides in the launching direction, and when the launching member 131 slides on the ramp 106, the launching member 131 can slide up and down along the long hole by the guide pin 1311, thereby serving to stabilize the launching member 131.

In some embodiments of the present invention, as shown in fig. 2, the bottom plate of the first receiving chamber 10 is designed as an inclined plate 105 inclined downward toward the outlet 101, and the inclined plate 105 is connected to an end of the position to be fired 100 away from the outlet 101;

when the first carrier is launched, the next carrier slides along the inclined plate 105 to the position 100 to be launched.

After the first carrier in the position 100 to be launched is launched, the launching member 131 keeps extending into the first accommodating cavity 10, at this time, the next carrier cannot slide to the position 100 to be launched under the blocking effect of the launching member 131, and after the player pulls the pulling member 132 backwards and drives the launching member 131 to slide to the lower side of the first accommodating cavity 10, the carrier on the inclined plate 105 can slide to the position 100 to be launched under the action of gravity, so that the next launch is facilitated.

In some embodiments of the present invention, as shown in fig. 1, a cover 14 capable of being opened or closed manually or in a linkage manner through a first locking mechanism 11 is disposed on the first body 1, the cover 14 can close the first accommodating cavity 10 after being closed, and the carrier can be ejected from the first accommodating cavity 10 after the cover 14 is opened.

Further, the first accommodating chamber 10 has an outlet 101, the carrying object can be ejected from the outlet 101 when the carrying object is ejected, the cover 14 is movably connected to the first body 1, the cover 14 can cover the outlet 101 when the cover is closed, so that the first accommodating chamber 10 is closed, and the carrying object in the first accommodating chamber 10 can not be ejected.

Specifically, the housing 102 and the bottom plate 103 form a first receiving chamber 10 therebetween, and a load is placed on the bottom plate 103. The cover 14 is hinged to the housing 102 through a hinge shaft, and when closed, the cover 14 is turned over to cover the opening, so that the first accommodating cavity 10 is closed, and when opened, the cover 14 is turned upwards, so that the first accommodating cavity 10 is opened, and the carried object can be emitted outwards through the opening.

The cover 14 can be opened or closed manually, that is, a player can open the cover by manually turning the cover 14 upward, and can close the cover 14 by manually turning the cover downward.

The cover 14 can also be linked with the first locking mechanism 11, and the opening or closing is realized through linkage of the first linking mechanism. Specifically, a slidable connecting rod is disposed between the cover 14 and the key 111, two ends of the connecting rod are both provided with a wedge, and correspondingly, a wedge is also disposed on the cover 23, when the key 111 is pressed, the key 111 slides towards the cover 23 under the action of the wedge, and the connecting rod pushes the cover 23 to turn upwards and open under the action of the wedge. When the key 111 is pressed, the key 111 simultaneously links the limiting mechanism 12, the first ejection mechanism 13 and the cover 14 to open the cover 14, and meanwhile, the limiting mechanism 12 releases the limitation on the carried object, and the first ejection mechanism 13 ejects the carried object. When the key 111 is not activated, the cover 14 is flipped closed downward under its own weight.

In some embodiments of the present invention, as shown in fig. 5, the present invention further includes a second body 2, the second body 2 is connected to the first body 1, a second accommodating cavity 20 for accommodating a load is disposed in the second body 2, a second locking mechanism 21, a second ejection mechanism 22 and a cover 23 are disposed on the second body 2, the second locking mechanism 21 is linked with the cover 23, and the cover 23 is linked with the second ejection mechanism 22;

when the second locking mechanism 21 locks the cover 23, the cover 23 is closed and the second accommodating chamber 20 is closed;

when the second locking mechanism 21 is triggered to unlock the cover 23, the cover 23 is opened, the cover 23 is linked with the second ejection mechanism 22 to act, and the second ejection mechanism 22 ejects the load in the second accommodating cavity 20.

Specifically, as shown in fig. 1, one or more second bodies 2 can be provided, and preferably, two second bodies 2 are provided at the left and right sides of the first body 1, respectively, so as to simulate two-sided wings of a transporter.

Wherein the second accommodating cavity 20 in the second body 2 can accommodate at least one carrier, when not launched, the carrier is loaded in the second accommodating cavity 20, and simultaneously the cover 23 is closed to close the second accommodating cavity 20. When the player launches, the player unlocks by triggering the second locking mechanism 21, so that the cover cap 23 is opened, the cover cap 23 is simultaneously linked with the second ejection mechanism 22 to act, and the second ejection mechanism 22 can launch the load in the second accommodating cavity 20 outwards. Through setting up the accommodation space that second organism 2 can increase the toy, the function of launching the toy can be realized equally to second organism 2 simultaneously, has higher object for appreciation nature.

In some embodiments of the present invention, as shown in fig. 5 and 6, the second locking mechanism 21 includes a trigger 211 and a locking plate 212, the trigger 211 is linked with the locking plate 212, and the locking plate 212 is slidably disposed on the second body 2;

the third elastic member 232 is further included, and the third elastic member 232 is connected between the second body 2 and the cover 23;

when locking, the locking plate 212 is connected with the cover 23 and keeps the cover 23 closed, and the third elastic element 232 stores energy;

when the locking mechanism is unlocked, the trigger piece 211 is linked with the locking plate 212 to act, the locking plate 212 is separated from the cover 23, the third elastic piece 232 releases energy and drives the cover 23 to open, and the cover 23 is linked with the second ejection mechanism 22 to act.

Specifically, as shown in fig. 6, an insert 2121 is provided at the upper end of lock plate 212, and an insert plate 233 is provided on cover 23, and when locked, insert 2121 on lock plate 212 is inserted into insert plate 233 so that cover 23 is kept closed. Be provided with third linkage block 214 between trigger plate and the lockplate 212, third linkage block 214 rotates to be connected on second organism 2, be equipped with first wane 2141 and second wane 2142 on the third linkage block 214, the trigger plate rotates to be connected on second organism 2, be equipped with the wedge on the lockplate 212, when the trigger plate rotates, the trigger plate touches with first wane 2141 and drives third linkage block 214 rotatory, second wane 2142 contacts and promotes lockplate 212 downward activity with the wedge on the lockplate 212, thereby make lockplate 212 and picture peg 233 separate, make shroud 23 can open.

Further, as shown in fig. 5, a seventh elastic member 213 is provided between the locking plate 212 and the second body 2, the seventh elastic member 213 is used for driving the locking plate 212 to return and for making the locking plate 212 hold the locking cover 23, and when the trigger plate is not triggered, the locking plate 212 maintains an upward force by the elastic force of the seventh elastic member 213 and makes the insert 2121 keep inserted into the cover 23, thereby making the cover 23 keep closed.

The cover 23 is rotatably connected with the second body 2, when the cover 23 is unlocked by the locking plate 212, the cover 23 can be opened by turning, the third elastic member 232 is arranged between the cover 23 and the second body 2, the third elastic member 232 is a torsion spring, the torsion spring is sleeved on the rotating shaft 1123 of the cover 23, when the cover 23 is closed, the torsion spring stores energy, when the cover 23 is unlocked by the locking plate 212, the torsion spring releases energy and drives the cover 23 to be automatically opened, and when the cover 23 is opened, the second ejection mechanism 22 is linked to act, so that a player can finish the opening of the cover 23 and the ejection of a bearing object by one key only by operating the trigger 211, and the linkage is strong.

Preferably, the cover 23 is a three-panel covering the side, top and front surfaces of the second accommodating cavity 20, and when the cover 23 is opened, the cover is turned outwards in a direction away from the first body 1, so that the load in the second accommodating cavity 20 can be emitted from the front surface of the second accommodating cavity 20.

In some embodiments of the present invention, as shown in fig. 6, the second ejection mechanism 22 includes a push plate 221, a fourth elastic member 223 and a locking buckle 222, the push plate 221 is slidably disposed on the second body 2, the fourth elastic member 223 is connected between the second body 2 and the push plate 221, and the locking buckle 222 is linked with the cover 23;

when the push plate is locked, the push plate 221 is locked by the locking buckle 222, and the fourth elastic piece 223 is enabled to keep accumulating energy;

when the vehicle is unlocked, the cover 23 is linked with the locking buckle 222 to act, so that the locking buckle 222 unlocks the push plate 221, and the fourth elastic piece 223 releases energy to drive the push plate 221 to move towards the launching direction and push the load to be launched.

Further, as shown in fig. 6, the locking buckle 222 is slidably disposed on the second body 2, an eighth elastic member is disposed between the locking buckle 222 and the second body 2, the locking buckle 222 can move up and down, a clamping groove is disposed on the push plate 221, and during locking, the locking buckle 222 is kept clamped in the clamping groove under the elastic force of the eighth elastic member, so that the push plate 221 cannot move, and the fourth elastic member 223 is kept storing energy. A sliding plate 215 is arranged between the locking buckle 222 and the cover 23, the sliding plate 215 is slidably arranged on the second body 2, the cover 23 is rotatably connected with the second body 2 through a rotating column 231, a convex edge 2311 is arranged on the rotating column 231, when the cover 23 is turned over, the rotating column 231 rotates, the convex edge 2311 on the rotating column 231 contacts with the sliding plate 215 and pushes the sliding plate 215 to slide towards the locking buckle 222, a guide surface 2151 is arranged on one side of the sliding plate 215 close to the locking buckle 222, the guide surface 2151 of the sliding plate 215 contacts with the locking buckle 222 and pushes the locking buckle 222 to move downwards, so that the locking buckle 222 is separated from the clamping groove, and the fourth elastic member 223 releases energy and drives the push plate 221 to move towards the launching direction, so as to drive the load in the second accommodating cavity 20 to be launched out.

As a preferred embodiment of the present invention, as shown in fig. 1, the carrier type toy includes a first body 1 and second bodies 2 disposed at both sides of the first body 1, and is similar in shape to an airship as a whole. As shown in fig. 2, a first accommodating cavity 10 is provided in the first machine body 1, an outlet 101 for loading a carrying object or emitting the carrying object is provided at a front end of the first accommodating cavity 10, a cover 14 capable of being opened or closed is provided at the front end of the first machine body 1, the cover 14 is provided at a head position of the first machine body 1, and the cover 14 can close the first accommodating cavity 10 when being closed, the cover 14 is rotatably connected with the first machine body 1, and when being opened, the cover 14 is turned upwards to open the first accommodating cavity.

As shown in fig. 2, a first locking mechanism 11, a limiting mechanism 12 and a first ejection mechanism 13 are arranged on the first body 1;

the first locking mechanism 11 includes a key 111 and a locking rod 112, a pressing end 1111 of the key 111 is disposed above an activation end 1121 of the locking rod 112, the key 111 is provided with a first linkage block 1110, a locking end 1122 of the locking rod 112 is provided with a lock catch 1124, a spring is disposed between the pressing end 1111 of the key 111 and the first body 1, and a spring is disposed between the activation end 1121 of the locking rod 112 and the first body 1.

The limiting mechanism 12 includes a limiting member 121 and a first linkage member 122, the first linkage member 122 is slidably disposed on the chassis 104 of the first body 1, one end of the first linkage member 122 is provided with a second linkage block 1221, the second linkage block 1221 is disposed below the first linkage block 1110, and the ends of the first linkage block 1110 and the second linkage block 1221 that are in contact with each other are provided with wedge blocks. The other end of the first linkage member 122 is provided with a guide inclined hole 1222, the guide pin 1211 on the limiting member 121 can slide along the guide inclined hole 1222, the bottom plate 103 of the first body 1 is provided with a communication port communicating with the first accommodating cavity 10, and the limiting member 121 can slide up and down along the communication port. A spring is provided between the first link 122 and the first body 1.

The first ejection mechanism 13 comprises a launching member 131, a sliding block 135, a traction member 132 and a guide block 134, the sliding block 135 is slidably connected to the chassis 104 of the first body 1, a spring is arranged between the sliding block 135 and the chassis 104, one end of the sliding block 135 is connected with the launching member 131, the other end is connected with the traction member 132, a ramp 106 is provided on the chassis 104, the ramp 106 is provided below the first accommodation chamber 10, correspondingly, a through hole which can lead to the first accommodating cavity 10 is arranged on the bottom plate 103 above the inclined table 106, the launching part 131 is arranged on the inclined table 106 in a sliding way, one end of the launching part 131 is connected with the sliding block 135, the other end of the launching part 131 is connected with the guide block 134, the guide block 134 is arranged on the chassis 104 in a sliding way, wherein long holes are formed in the guide block 134 and the slider 135 in the longitudinal direction, guide pins 1311 are formed at both ends of the striking member 131, when the launcher 131 slides along the ramp 106, the guide pin 1311 can slide up and down the long hole.

In addition, a plurality of bearing objects can be accommodated in the first accommodating cavity 10, the bearing objects are sequentially arranged in the first accommodating cavity 10 end to end, a to-be-launched position 100 is arranged at one end, close to the outlet 101, of the first accommodating cavity 10, a communication port is formed in the front end of the to-be-launched position 100, the limiting part 121 is limited to enable the limiting part to be located at the front end of the to-be-launched position 100, a through hole is formed in the rear end of the to-be-launched position 100, the launching part 131 can be located at the rear end of the to-be-launched position 100 during launching, and only one bearing object can be placed in the to-be-launched position 100. An inclined plate 105 inclined toward the outlet 101 is provided on the bottom plate 103, and the first load is placed in the position 100 to be launched and the rest of the load is arranged on the inclined plate 105.

In the preferred embodiment, as shown in fig. 5 and 6, a second accommodating cavity 20 is provided in the second body 2, the second accommodating cavity 20 can accommodate a load, and a second locking mechanism 21, a second ejection mechanism 22 and a cover 23 are provided on the second body 2.

Wherein, the cover 23 is rotatably connected with the second body 2 through the rotating column 231, the second locking mechanism 21 includes a trigger 211 and a locking plate 212, the locking plate 212 is longitudinally slidably disposed on the second body 2 so that the locking plate 212 can longitudinally slide up and down, a spring is disposed between the locking plate 212 and the second body 2, an insert 2121 is disposed at the upper end of the locking plate 212, an insert plate 233 is disposed on the cover 23, and when locking, the insert 2121 on the locking plate 212 is inserted into the insert plate 233 so that the cover 23 is kept closed. Be provided with third linkage block 214 between trigger plate and the lockplate 212, third linkage block 214 rotates to be connected on second organism 2, be equipped with first wane 2141 and second wane 2142 on the third linkage block 214, the trigger plate rotates to be connected on second organism 2, be equipped with the wedge on the lockplate 212, when the trigger plate rotates, the trigger plate touches with first wane 2141 and drives third linkage block 214 rotatory, second wane 2142 contacts and promotes lockplate 212 downward activity with the wedge on the lockplate 212, thereby make lockplate 212 and picture peg 233 separate, make shroud 23 can open.

The second ejection mechanism 22 includes a push plate 221, a locking buckle 222 and a sliding plate 215, the push plate 221 is slidably disposed on the second body 2, a spring is disposed between the push plate 221 and the second body 2, the locking buckle 222 is longitudinally slidably disposed on the second body 2, a spring is disposed between the locking buckle 222 and the second body 2, the sliding plate 215 is slidably disposed on the second body 2, a flange 2311 is arranged on the rotating post 231, when the cover 23 is turned over, the rotating post 231 rotates, the flange 2311 on the rotating post 231 contacts the sliding plate 215 and pushes the sliding plate 215 to slide towards the locking buckle 222, a guide surface 2151 is arranged on one side of the sliding plate 215 close to the locking buckle 222, the guide surface 2151 of the sliding plate 215 contacts the locking buckle 222 and pushes the locking buckle 222 to move downwards, so that the locking buckle 222 is separated from the locking groove, and the push plate 221 moves towards the launching direction under the elastic force of the spring, thereby driving the load in the second accommodating cavity 20 to be launched.

In the toy, the first accommodating cavity 10 in the first body 1 and the second accommodating cavity 20 in the second body 2 can both accommodate the load, the loading capacity is stronger, when the load in the first accommodating cavity 10 is launched, a player presses the button 111, so that the button 111 triggers the locking rod 112 to act, the latch 1124 of the locking rod 112 is separated from the pulling member 132, the launching member 131 slides in the launching direction under the elastic force of the spring and slides into the first accommodating cavity 10 along the ramp 106 and pushes the first load in the position 100 to be launched out, meanwhile, when the button 111 is pressed, the first linkage block 1110 of the button 111 drives the second linkage block 1221 to act, so that the first linkage block 122 slides, the limiting member 121 slides along the guide ramp 1222 and slides from the high end to the low end of the guide ramp 1222, so that the limiting member 121 leaves the first accommodating cavity 10, the bearing object can not be obstructed. The player can control the first ejection mechanism 13 and the limiting mechanism 12 to act only by pressing the key 111, and the toy is high in linkage and playability. In addition, after the launch of the first bearing object is completed, the launching piece 131 is located in the first accommodating cavity 10 and blocks subsequent bearing objects from sliding to the position 100 to be launched, after the player pulls the traction piece 132 back again, the launching piece 131 is collected below the first accommodating cavity 10, and the subsequent bearing objects can slide to the position 100 to be launched.

In addition, the second body 2 in this application can also realize loading and launching the load bearing object, during launching, the player presses the trigger 211 to make the trigger 211 drive the locking plate 212 to move, at this time, the insert 2121 in the locking plate 212 is separated from the cover 23, the cover 23 is turned over and opened under the action of the torsion spring, the cover 23 is opened and simultaneously drives the sliding plate 215 to slide towards the locking buckle 222, the sliding plate 215 pushes the locking buckle 222 to move downwards and contact the locking buckle 222 to lock the push plate 221, and the push plate 221 pushes the load bearing object in the second accommodating cavity 20 to launch under the action of the spring. In this application the player only need be through pressing trigger 211 just can accomplish the transmission of bearing the thing and the opening of shroud 23 simultaneously when launching the bearing the thing in the second organism 2, and linkage nature is strong, and the object for appreciation nature is high.

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

Claims (11)

1. A carrying type toy is characterized by comprising a first machine body (1), wherein a first accommodating cavity (10) for accommodating a carrying object is arranged in the first machine body (1), and the first machine body (1) is provided with a first locking mechanism (11), a limiting mechanism (12) and a first ejection mechanism (13);

the limiting mechanism (12) is used for limiting the bearing object at a position (100) to be launched in the first accommodating cavity (10), the first ejecting mechanism (13) is used for ejecting the bearing object at the position (100) to be launched, and the first locking mechanism (11) is linked with the first ejecting mechanism (13) and the limiting mechanism (12) respectively;

the first locking mechanism (11) comprises a locked state and an unlocked state:

when the first locking mechanism (11) is in the locking state, the first locking mechanism (11) locks the first ejection mechanism (13) in an energy storage state, and the limiting mechanism (12) limits the load in the position (100) to be launched;

when the first locking mechanism (11) is triggered to be switched to the unlocking state, the first locking mechanism (11) simultaneously triggers the limiting mechanism (12) and the first ejection mechanism (13) to act, the limiting mechanism (12) releases the limitation on the bearing object, and the first ejection mechanism (13) releases energy after being unlocked and launches the bearing object.

2. The carrier type toy of claim 1, wherein the first body (1) is provided with a cover (14) which can be opened or closed manually or by the first locking mechanism (11) in a linkage manner, the cover (14) can close the first accommodating cavity (10) after being closed, and the carrier can be launched from the first accommodating cavity (10) after the cover (14) is opened.

3. The objective type toy of claim 1, wherein the limiting mechanism (12) comprises a limiting member (121) and a first linkage member (122), the first linkage member (122) is slidably disposed on the first body (1), the first locking mechanism (11) is linked with the first linkage member (122), and the limiting member (121) is linked with the first linkage member (122);

when the bearing is in a limiting state, the limiting piece (121) extends into the first accommodating cavity (10) and limits the bearing object to move towards the launching direction;

when the first locking mechanism (11) is triggered to unlock, the first locking mechanism (11) drives the first linkage piece (122) to act, and the first linkage piece (122) drives the limiting piece (121) to leave the first accommodating cavity (10) and remove the limitation on the bearing object.

4. The carrier type toy of claim 3, wherein the stop mechanism (12) further comprises a first resilient member (123), the first resilient member (123) being disposed between the first body (1) and the first linkage member (122);

when the first locking mechanism (11) is triggered to be switched to the unlocking state, the first locking mechanism (11) is linked with the first linkage piece (122) to act, and the first linkage piece (122) pushes the first elastic piece (123) to store energy;

when the first locking mechanism (11) is in the locking state, the first locking mechanism (11) is not linked with the first linkage piece (122), the first elastic piece (123) releases energy and drives the first linkage piece (122) to reset, and the first linkage piece (122) drives the limiting piece (121) to extend into the first accommodating cavity (10).

5. The carrier type toy of claim 1, wherein said first ejection mechanism (13) comprises a launching member (131), a traction member (132) and a second elastic member (133), said traction member (132) being slidably arranged on said first body (1), said launching member (131) being connected to said traction member (132), said second elastic member (133) being connected between said first body (1) and said traction member (132);

when the first locking mechanism (11) is in the locking state and the traction piece (132) is locked at the locking position, the second elastic piece (133) is charged with energy, and the launching piece (131) is in a state to be launched;

when the first locking mechanism (11) is switched to the unlocking state, the traction piece (132) is unlocked, the second elastic piece (133) releases energy and drives the traction piece (132) to slide towards the launching direction, and the traction piece (132) drives the launching piece (131) to act and pushes the bearing object to be launched out.

6. The carrier type toy of claim 5, wherein the bottom plate (103) of the first receiving chamber (10) is provided with a through hole, a ramp (106) is arranged below the through hole, and the launching member (131) is slidably arranged on the ramp (106);

when the first ejection mechanism (13) is charged, the launcher (131) is positioned below the first accommodating cavity (10);

when the first ejection mechanism (13) releases energy, the launching piece (131) slides towards the first accommodating cavity (10) along the inclined table (106) and enters the first accommodating cavity (10) through the through hole and pushes the bearing object to launch towards the launching direction.

7. The carrier type toy as claimed in claim 1, wherein the first locking mechanism (11) comprises a button (111) and a locking rod (112), the button (111) is located above the locking rod (112), one end of the locking rod (112) is an activation end (1121), the other end is a locking end (1122), a rotation shaft (1123) is disposed between the activation end (1121) and the locking end (1122), and the activation end (1121) is hinged to the first body (1) through the rotation shaft (1123);

when the ejection mechanism is locked, the locking end (1122) is in locking connection with the first ejection mechanism (13) and enables the first ejection mechanism (13) to be kept in an ejection state;

when the key (111) is pressed, the key (111) is in contact with the trigger end (1121) and drives the locking rod (112) to rotate, the locking end (1122) rotates to be separated from the first ejection mechanism (13), the first ejection mechanism (13) is unlocked to release energy, and meanwhile, the key (111) is linked with the limiting mechanism (12) to enable the limiting mechanism (12) to release the limitation on the bearing object.

8. The carrier type toy of claim 1, wherein a plurality of said carriers are accommodated in said first accommodating chamber (10), and are placed in said first accommodating chamber (10) in a head-to-tail manner in sequence, and said first accommodating chamber (10) is provided with an outlet (101) near said position (100) to be launched;

when the carrier is to be launched, the first carrier is positioned in the position (100) to be launched, the limiting mechanism (12) limits the first carrier to be launched outwards, and the first launching mechanism (13) is arranged at the rear end of the first carrier;

when the first locking mechanism (11) is triggered to unlock, the first carrier in the position to be launched (100) is launched out by the first launching mechanism (13).

9. The carrier type toy according to claim 8, characterized in that the floor (103) of the first receiving chamber (10) is designed as a sloping plate (105) sloping downwards in the direction of the exit opening (101), the sloping plate (105) being connected to the end of the position to be launched (100) remote from the exit opening (101);

when the first bearing object is launched out, the next bearing object slides to the position (100) to be launched along the inclined plate (105).

10. The carrier type toy of claim 1, further comprising a second body (2), wherein the second body (2) is connected to the first body (1), a second accommodating cavity (20) for accommodating the carrier is formed in the second body (2), a second locking mechanism (21), a second ejecting mechanism (22) and a cover (23) are arranged on the second body (2), the second locking mechanism (21) is linked with the cover (23), and the cover (23) is linked with the second ejecting mechanism (22);

when the second locking mechanism (21) locks the cover cap (23), the cover cap (23) is closed, and the second accommodating cavity (20) is closed;

when the second locking mechanism (21) is triggered to unlock the cover cap (23), the cover cap (23) is opened, the cover cap (23) is linked with the second ejection mechanism (22) to act, and the second ejection mechanism (22) ejects the bearing object in the second accommodating cavity (20).

11. The objective type toy according to claim 10, wherein the second locking mechanism (21) comprises a trigger (211) and a locking plate (212), the trigger (211) being linked with the locking plate (212), the locking plate (212) being slidably arranged on the second body (2);

further comprising a third elastic member (232), said third elastic member (232) being connected between said second body (2) and said cover (23);

when the locking plate (212) is locked, the locking plate is connected with the cover (23) and enables the cover (23) to be kept closed, and the third elastic piece (232) is charged with energy;

when the locking mechanism is unlocked, the trigger piece (211) is triggered to be linked with the locking plate (212) to act, the locking plate (212) is separated from the cover (23), the third elastic piece (232) releases energy and drives the cover (23) to be opened, and the cover (23) is linked with the second ejection mechanism (22) to act.

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