CN215447594U - Toy stepping assembly - Google Patents

Abstract

The utility model discloses a toy stepping assembly, which comprises a stepping control mechanism, a positioning mechanism and an operating piece, wherein the stepping control mechanism is arranged on the stepping control mechanism; the operating piece is used for triggering the stepping control mechanism to perform stepping operation; the stepping control mechanism is used for controlling the external toy connected with the stepping control mechanism to step; the positioning mechanism is used for positioning the external toy after stepping is finished; the operating piece is connected with the step control mechanism in a matched mode, and when the operating piece triggers the step control mechanism to perform step operation once, the positioning mechanism performs positioning operation once. Step-by-step control mechanism on this step-by-step subassembly of toy can carry out step-by-step operation, launches the convenient operation on further immigrating toy spare with outside toy. When the stepping control mechanism is in stepping operation, the positioning mechanism performs positioning operation, and the stepping control mechanism is linked with the positioning mechanism, so that the operation is further simplified, and the playing is convenient.

Description

Toy stepping assembly

Technical Field

The utility model relates to the technical field of toy parts, in particular to a toy stepping assembly.

Background

The toy brings fun to the childhood life of people, and the toys on the market are more and more diversified in order to increase the playing fun of people. There is a launching toy on the market which is played with the launched piece, and the launching toy can launch the launched piece.

The existing launching toy lacks a related conveying mechanism, and can not control the next launched piece to enter the launching toy after the launched piece is launched out, so that people are inconvenient to play, and the playing interest is reduced.

In view of the above, improvements are needed.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to overcome the deficiencies of the prior art and to provide a toy stepping assembly that facilitates control and increases play interest.

The technical scheme of the utility model provides a toy stepping assembly which comprises a stepping control mechanism, a positioning mechanism and an operating piece, wherein the stepping control mechanism, the positioning mechanism and the operating piece are arranged on a toy piece; the operating piece is used for triggering the stepping control mechanism to perform stepping operation; the stepping control mechanism is used for controlling the external toy connected with the stepping control mechanism to step; the positioning mechanism is used for positioning the external toy after stepping is finished; the operating part is connected with the stepping control mechanism in a matched mode, and when the operating part triggers the stepping control mechanism to perform stepping operation once, the positioning mechanism performs positioning operation once.

Further, positioning mechanism include with the controllable setting element of step control mechanism linkage, controllable setting element with the operating parts is connected, the operating parts can trigger controllable setting element carries out the location operation.

Further, the operating member includes an operating lever; the operating rod is provided with a first triggering part capable of pushing the controllable positioning piece and a second triggering part capable of pushing the stepping control mechanism; after the first triggering part pushes and presses the controllable positioning part, the second triggering part pushes and presses the stepping control mechanism.

Further, the controllable positioning element comprises a positioning rod and a push rod capable of contacting with the first triggering part, and the push rod is positioned between the operating rod and the positioning rod; the positioning rod has a positioning state and an unlocking state; when the first trigger part pushes the push rod, the push rod pushes the positioning rod to move upwards, and the positioning rod is in an unlocking state; when the positioning rod is separated from the push rod, the positioning rod moves downwards and is in a positioning state.

Further, the controllable positioning element further comprises a return spring for switching the positioning rod from the unlocking state to the positioning state; the reset spring is positioned above the positioning rod and is in contact with the positioning rod.

Furthermore, the positioning mechanism comprises an elastic positioning piece, and the elastic positioning piece comprises a connecting spring and a clamping block which can be clamped with an external toy; the clamping block is connected with the connecting spring; when the operating piece triggers the controllable positioning piece to perform positioning operation, the connecting spring can be extruded and contracted.

Further, the stepping control mechanism comprises a transmission rod capable of contacting with the operating piece and an output piece for driving the external toy to move in a stepping mode; the transmission rod is connected with the output piece; when the operating piece pushes and presses the transmission rod, the transmission rod drives the output piece to perform stepping operation.

Further, the stepping control mechanism further comprises an expansion spring used for resetting the transmission rod, and the expansion spring is connected with the transmission rod.

Further, the output part comprises a mounting shell, a connecting rod, a driving gear and two driven gears; the connecting rod, the driving gear and the two driven gears are rotatably connected in the mounting shell; the transmission rod is connected with the connecting rod and can drive the connecting rod to rotate; the driving gear is connected with the connecting rod, and the two driven gears are respectively positioned on two sides of the driving gear and are respectively meshed with the driving gear.

Furthermore, an elastic piece is arranged in the mounting shell, and the driving gear is connected in the mounting shell in a sliding mode and is positioned between the connecting rod and the elastic piece; the driving gear is provided with a chute, and the connecting rod is provided with a connecting block which can be connected with and separated from the chute; when the connecting block is separated from the chute, the connecting block pushes the driving gear to extrude the elastic piece; when the connecting block is connected with the chute, the elastic piece pushes the driving gear.

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

step-by-step control mechanism on this step-by-step subassembly of toy can carry out step-by-step operation, launches the convenient operation on further immigrating toy spare with outside toy. When the stepping control mechanism is in stepping operation, the positioning mechanism performs positioning operation, and the operating piece can simultaneously control the stepping control mechanism and the positioning mechanism, so that the stepping control mechanism and the positioning mechanism are linked, the operation is further simplified, and the player is convenient to play.

Drawings

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

FIG. 1 is a schematic view of a toy stepper assembly in accordance with an embodiment of the present invention;

FIG. 2 is an exploded view of a toy stepper assembly in accordance with an embodiment of the present invention;

FIG. 3 is a schematic view of a toy launcher according to an embodiment of the present invention;

FIG. 4 is an exploded view of a toy launcher according to one embodiment of the present invention;

FIG. 5 is a schematic view of a toy shell according to an embodiment of the present invention;

FIG. 6 is a schematic view of an operating member according to an embodiment of the present invention;

FIG. 7 is an exploded view of a controllable positioning element according to an embodiment of the present invention;

FIG. 8 is a schematic view of a positioning rod and an elastic positioning element according to an embodiment of the present invention;

FIG. 9 is a schematic view of a drive link in an embodiment of the present invention;

FIG. 10 is an exploded view of an output member in accordance with an embodiment of the present invention;

figure 11 shows a toy piece, an external toy and a launched piece according to an embodiment of the present invention.

Reference symbol comparison table:

toy launcher 100

Toy step assembly 10

Installation shell 12 of guide groove 111 of transmission rod 11 of stepping control mechanism 1

Connecting rod 13 connecting block 131 driving gear 14 inclined groove 141

Driven gear 15 elastic piece 16 expansion spring 17 positioning mechanism 2

Controllable positioning piece 21 positioning rod 211 push rod 212 reset spring 213

The elastic positioning piece 22 is connected with the spring 221, the latch 222 and the operating piece 3

First trigger part 311 and second trigger part 312 of operating lever 31

Toy shell 20 guide plate 201

The outer ammunition link 30 is launched by the launcher 40

Detailed Description

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

It is easily understood that according to the technical solution of the present invention, those skilled in the art can substitute various structures and implementation manners without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are only exemplary illustrations of the technical solutions of the present invention, and should not be construed as being all of the present invention or as defining or limiting the technical solutions of the present invention.

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

Referring to fig. 1-2, a toy stepper assembly 10 according to an embodiment of the present invention includes a stepper control mechanism 1, a positioning mechanism 2, and an operating member 3.

The operating member 3 is used for triggering the stepping control mechanism 1 to perform stepping operation.

The stepping control mechanism 1 is used for controlling the external toy connected with the stepping control mechanism to step.

The positioning mechanism 2 is used for positioning the external toy after stepping is finished.

The operating piece 3 is connected with the step control mechanism 1 in a matched mode, and when the operating piece 3 triggers the step control mechanism 1 to perform step operation once, the positioning mechanism 2 performs positioning operation once.

As shown in fig. 1, 4 and 11, the toy stepper assembly 10 is part of a launching toy that includes a toy piece and an external toy.

Optionally, the toy piece is a toy launcher, toy launching station, or the like.

Alternatively, the external toy may be a toy car, a toy rocket, or the like, as long as it can be separated from the toy launcher 100.

In this example, the toy is the toy launcher 100, the external toy is the external link element 30, and the following description will take the toy as the toy launcher 100 and the external toy as the external link element 30 as examples. The toy launcher 100 is provided with a launching port, and the outer elastic chain member 30 is provided with a plurality of launched members 40. The toy launcher 100 can launch the launched members 40 when the launched members 40 are positioned in the launching port, and the toy stepping assembly 10 is mounted on the toy launcher 100 and can move the launched members 40 on the outer chain elements 30 one by one into the launching port.

The toy stepping assembly 10 comprises a stepping control mechanism 1, a positioning mechanism 2 and an operating member 3. The operating element 3 can be connected to the stepping control mechanism 1 and the positioning mechanism 2, so that the stepping control mechanism 1 and the positioning mechanism 2 are triggered.

Optionally, toy stepping assembly 10 includes an assembly housing. The step control mechanism 1, the fixed mechanism 3 and the operating member 3 are movably connected to the assembly housing.

The stepping control mechanism 1 includes a control unit and an output unit, the control unit is connected to the output unit, and the output unit is connected to the external elastic chain member 30. The control part can control the output part to drive the launched pieces 40 to perform stepping operation, even if the launched pieces 40 on the external elastic chain piece 30 enter the launching ports one by one, so that the toy is convenient to play.

Optionally, the control part is a control switch, the output part is a stepping motor, a connecting rack is arranged on the external elastic chain piece 30, and the stepping motor is connected with the connecting rack through a connecting tooth. The control switch controls the outer elastic chain piece 30 by controlling the start and stop of the stepping motor. Of course, the step control mechanism 1 may have other structures as long as it can drive the outer elastic chain member 30 to move step by step.

The positioning mechanism 2 includes a manipulation portion that controls the positioning portion, which can be connected to and separated from the external elastic chain member 30. The positioning part is used for one-time positioning operation when one-time connection and one-time separation are carried out. The positioning mechanism 2 can hold the external launching member firmly in the launching port after the stepping operation, thereby smoothly launching the launched member 40.

Optionally, the control part is an electromagnetic part, the positioning part is a positioning column, and the electromagnetic part can control the extension and retraction of the positioning column. When the positioning column extends out, the positioning column is connected with the external elastic chain piece 30, and when the positioning column retracts, the positioning column is separated from the external elastic chain piece 30. Of course, the positioning mechanism 2 may have other structures as long as the outer elastic chain member 30 can be positioned.

An operating member 3 is provided on the toy housing 20, and the operating member 3 is connected to the stepping control mechanism 1 so as to control the stepping control mechanism 1 to perform stepping operation.

Optionally, the operating parts still is connected with positioning mechanism 2 to ability simultaneous control output part and location portion make step control mechanism 1 and positioning mechanism 2 realize the linkage, further make things convenient for people to play the toy.

Optionally, the operating element 3 is a poke rod, the poke rod is connected with the control switch, the control switch is connected with the electromagnetic element, and when the poke rod is operated to turn on the control switch, the stepping motor is started, and the electromagnetic element generates magnetic force. The magnetic force generated by the electromagnet causes the positioning post to separate from the outer elastic link 30. The stepper motor then moves the outer elastic link 30 to move the next item to be launched 40 into the launch opening. When the control switch is turned off by the poke rod, the stepping motor stops, and the electromagnetic piece loses the magnetic force. At this point, the posts extend out to connect with the outer spring link 30.

As shown in fig. 1-5, a toy launcher 100 is provided for the present invention, comprising a toy housing 20 and a toy stepper assembly 10.

The step control mechanism 1 and the positioning mechanism 2 are provided on the toy case 20.

The operating element 3 is movably connected to the toy housing 20 and is capable of activating the step control mechanism 1 and the positioning mechanism 2.

Specifically, the launching port is arranged on the toy shell 20, and the control mechanism 2 and the positioning mechanism 2 are arranged in the toy shell 20 and protected by the toy shell 20 to avoid being damaged by collision. The operation member 3 is movably connected to the toy casing 20, for example, by sliding back and forth or rotating back and forth, and at least a part of the operation member 3 is exposed to the outside of the toy casing 20, so that a person can operate the operation member 3 by holding it. When playing, the positioning mechanism 2 is triggered by controlling the operating piece 3 to perform positioning operation and the stepping control mechanism 1 is triggered to perform stepping operation.

Alternatively, the shape of the toy housing 20 is not limited and may be in the shape of a toy gun, an airplane launching station, a top launching station, and the like.

In one embodiment, as shown in fig. 1-2 and fig. 6-7, the positioning mechanism 2 includes a controllable positioning element 21 linked with the stepping control mechanism 1, the controllable positioning element 21 is connected with the operating element 3, and the operating element 3 can trigger the controllable positioning element 21 to perform the positioning operation.

In particular, the controllable positioning element 21 is a positioning portion of the positioning mechanism 2, and the operating element 3 cooperates with the controllable positioning element. In the process that the operating piece 3 controls the stepping control mechanism 1 to perform stepping operation, the controllable positioning piece 21 is firstly separated from the external bullet chain piece 30 in the launching port, then the stepping control mechanism 1 moves the external bullet chain piece 30 in the launching port out of the launching port and moves the next external bullet chain piece 30 into the launching port, and then the controllable positioning piece 21 is connected with the external bullet chain piece 30 in the launching port in a positioning mode. So set up, once operation through operating parts 3 makes step control mechanism 1 and controllable setting element 21 activity once simultaneously, has reduced the operating procedure, makes things convenient for people to play.

In one embodiment, as shown in fig. 1-2, 4 and 6, the operating member 3 includes an operating lever 31. The operating lever 31 is provided with a first trigger 311 capable of pressing the controllable positioner 21 and a second trigger 312 capable of pressing the stepping control mechanism 1. When the first trigger 311 pushes the positioning mechanism 2, the second trigger 312 pushes the stepping control mechanism 1.

Specifically, the operation member 3 is an operation lever 31, the operation lever 31 is rotatably connected to the toy housing 20 through a connecting shaft, and the operation lever 31 is rotatable on the toy housing 20. The operating lever 31 is provided with a first trigger portion 311 and a second trigger portion 312, and when the operating lever 31 is rotated, the first trigger portion 311 first contacts the positioning mechanism 2 to separate the positioning mechanism 2 from the external elastic chain member 30. Then, the second triggering portion 312 contacts the step control mechanism 1, so that the step control mechanism 1 drives the external elastic chain member 30 to move. The operating part 3 is simple in structure and easy to produce, and production cost is reduced. The connection between the operating rod 31 and the toy shell 20 is a pure mechanical structure and is not easy to damage.

In one embodiment, as shown in fig. 1-2, 4 and 7, the controllable positioning element 21 includes a positioning rod 211 and a push rod 212 capable of contacting the first triggering portion 311, and the push rod 212 is located between the operation rod 31 and the positioning rod 211. The detent lever 211 has a detent state and an unlocked state.

When the first trigger 311 pushes the push rod 212, the push rod 212 pushes the positioning rod 211 to move upward, and the positioning rod 211 is in an unlocked state. When positioning lever 211 is separated from push rod 212, positioning lever 211 moves downward, and positioning lever 211 is in a positioned state.

Specifically, the positioning mechanism 2 includes a positioning rod 211 and a push rod 212, where the positioning rod 211 is a positioning portion of the positioning mechanism 2, and the push rod 212 is a manipulation portion of the positioning rod 211.

A first sliding groove extending vertically is formed in the toy casing 20, and the positioning rod 211 is in clearance fit with the first sliding groove, so that the positioning rod can slide up and down in the first sliding groove. The push rod 212 is rotatably connected to the toy case 20 via a rotating shaft, and the push rod 212 is provided with a first rod portion facing the operation lever 31 and a second rod portion facing the positioning lever 211, the first rod portion being contactable with the operation lever 31, and the second rod portion being contactable with the positioning lever 211.

The positioning lever 211 has a positioning state and an unlocking state, and when the positioning lever 211 is in the positioning state, the positioning lever 211 is connected to the outer elastic link 30, and when the positioning lever 211 is in the unlocking state, the positioning lever 211 is separated from the outer elastic link 30.

When the operating lever 31 is rotated in the forward direction, the first trigger portion 311 of the operating lever 31 contacts the first lever portion and pushes the push rod 212, rotating the push rod 212. At this time, the first lever portion moves downward, and the second lever portion moves upward. Then, the second rod portion contacts the detent lever 211 and pushes the detent lever 211 to move upward, so that the detent lever 211 is separated from the outer elastic link 30 and the detent lever 211 is in an unlocked state.

When the operating lever 31 rotates in the reverse direction, the first triggering portion 311 of the operating lever 31 is separated from the first lever portion, and the positioning lever 211 moves downward under the action of its own weight or the reset member, and is connected to the external elastic chain member 30. When the positioning rod 211 moves downward, the push rod 212 is pushed to rotate to the initial position.

The unlocking process and the positioning process of the positioning mechanism 2 are both purely mechanical structures, so that the structural strength is good, the damage is not easy to damage, and the production cost is reduced.

Optionally, a plurality of slots are spaced on the outer elastic link 30, and the positioning rod 211 can be inserted into the slots to form positioning. In the unlocking and positioning processes of the positioning mechanism 2, the positioning rod 211 is firstly separated from the slot located at the connector and then connected with the next slot entering the connector.

In one embodiment, as shown in fig. 1-2, 4 and 7, the controllable positioning member 21 further includes a return spring 213 for switching the positioning rod 211 from the unlocked state to the positioning state. Return spring 213 is located above positioning rod 211 and contacts positioning rod 211.

Specifically, a mounting groove opened toward the securing lever 211 is provided on the toy housing 20, a return spring 213 is mounted in the mounting groove, and the return spring 213 is extended out of the mounting groove to contact the securing lever 211. When the push rod 212 pushes the positioning rod 211 to move upward, the positioning rod 211 presses the return spring 213, and the return spring 213 contracts and deforms. When the positioning rod 211 is out of the limit of the push rod 212, the return spring 213 is extended and deformed to push the positioning rod 211 to move downward, so that the positioning rod 211 is returned. The reset spring 213 ensures that the positioning rod 211 can be reset quickly and accurately, and ensures that people can play smoothly with the toy.

In one embodiment, as shown in fig. 1, 3 and 7-9, the positioning mechanism 2 includes an elastic positioning member 22, and the elastic positioning member 22 includes a connecting spring 221 and a latch 222 capable of being engaged with an external toy. The latch 222 is connected to the connection spring 221.

When the operating element 3 triggers the controllable positioning element 21 to perform a positioning operation, the connecting spring 221 can be compressed and contracted.

Specifically, the positioning structure 2 includes an elastic positioning member 22, and the elastic positioning member 22 is composed of a connecting spring 221 and a latch 222. The latch 222 is disposed opposite to the positioning rod 211. In this example, the positioning rod 211 is located above the latch 222.

The toy shell 20 is provided with a connecting groove communicated with the launching port, the connecting spring 221 is located in the connecting groove, the fixture block 222 is connected with the connecting spring 221, and at least part of the fixture block 222 extends into the launching port. A catching groove is formed in the outer elastic chain member 30, and at least a portion of the catching block 222 extends into the catching groove when the outer elastic chain member 30 is located in the launching port. When the outer elastic chain member 30 moves out of the emitting opening, the latch 222 is pressed by the groove wall of the latch groove, and the latch 222 moves downward after being pressed and presses the connection spring 221 downward. When the other outer elastic chain member 30 moves into the firing opening, the latch 222 is aligned with the latching groove, and the connecting spring 221 pushes the latch 222 to be re-engaged with the latching groove. So set up, the supplementary locating lever 211 of elastic positioning piece 22 fixes a position outside toy, makes outside toy can stably be located in the transmission mouth.

In one embodiment, as shown in fig. 1-2, 4 and 9-10, the step control mechanism 1 comprises a transmission rod 11 capable of contacting the operation member 3 and an output member for moving the external toy step by step. The transmission rod 11 is connected with the output member. When the operating piece 3 pushes the transmission rod 11, the transmission rod 11 drives the output piece to perform stepping operation.

Specifically, the transmission rod 11 is a control part of the stepping control mechanism 1, and the output member is an output part of the stepping control mechanism 1. A second sliding groove extending vertically is provided on the toy housing 20, and the transmission rod 11 is in clearance fit with the second sliding groove, so as to be able to slide up and down in the second sliding groove. The output member is connected to the transmission rod 11, and at least a portion of the output member extends into the channel opening and is connected to the outer chain link member 30.

The output member is located below the push rod 212 such that, when the operating lever 31 is rotated in the forward direction, the push rod 212 is pushed first, and then the second trigger portion 312 of the operating lever 31 contacts the transmission lever 11 to push the transmission lever 11. When the operating rod 31 pushes the transmission rod 11, the transmission rod 11 moves downwards and drives the output member to move the outer elastic chain member 30 in a stepping mode, namely, the next launched member 40 on the outer elastic chain member 30 is moved into the launching port. The transmission rod 11 is simple in structure and not easy to damage, interaction between people and toys is increased by a mode that the transmission rod 11 is pushed and pressed through the operating rod 31 to enable the output piece to output, and the playing pleasure is improved.

In one embodiment, as shown in fig. 1-2, the step control mechanism 1 includes two output members, which are spaced apart and connected to the transmission rods 11, respectively. The two output members are arranged at intervals in the up-down direction, and the outer elastic chain member 30 is clamped between the two output members, so that the outer elastic chain member 30 is connected with the stepping control mechanism 1 more firmly and is not easy to separate.

In one embodiment, as shown in fig. 2 and 9-10, the output member includes a mounting housing 12, a connecting rod 13, a drive gear 14 and two driven gears 15. The connecting rod 13, the driving gear 14 and the two driven gears 15 are rotatably connected within the mounting housing 12. The transmission rod 11 is connected with the connecting rod 13 and can drive the connecting rod 13 to rotate. The driving gear 14 is connected to the connecting rod 13, and the two driven gears 15 are respectively located at both sides of the driving gear 14 and respectively engaged with the driving gear 14.

Specifically, the outer elastic link 30 is provided with a connecting rack on a side facing the output member. The output member includes a mounting housing 12, a connecting rod 13, a drive gear 14 and two driven gears 15. The mounting shell 12 is arranged in the toy shell 20, the connecting rod 13, the driving gear 14 and the two driven gears 15 are rotatably connected to the mounting shell 12, wherein the connecting rod 13 is meshed with the transmission rod 11, the driving gear 14 is connected with the connecting rod 13, and the two driven gears 15 are respectively arranged on two sides of the driving gear 14 and meshed with the driving gear 14. At least a part of the two driven gears 15 protrudes outside the mounting housing 12 and meshes with the connecting rack.

Alternatively, the transmission rod 11 is provided with engaging teeth, and the connecting rod 13 is provided with a transmission gear, at least a portion of which extends out of the mounting housing 12 and is engaged with the engaging teeth. So that the transmission rod 11 can drive the connecting rod 13 to rotate when moving up and down. The connecting rod 13 may also be provided with connecting teeth which surround the connecting rod 13 for one circle, and the engaging teeth are engaged with the connecting teeth.

When the transmission rod 11 moves downwards, the transmission rod 11 drives the connecting rod 13 to rotate, the connecting rod 13 drives the driving gear 14 to rotate, then the driving gear 14 drives the two driven gears 15 to rotate, and the driven gears 15 drive the outer elastic chain piece 30 to move. So set up to make output and the more firm that outside bullet chain piece 30 is connected, output is pure mechanical mechanism moreover, low in production cost, and more not fragile, has improved the quality of toy.

A plurality of connecting racks are arranged on the external elastic chain piece 30 at intervals, in the process that the output piece drives the external elastic chain piece 30 to move, the two driven gears 15 firstly drive the connecting racks in the launching ports to move outwards, then one driven gear 15 is meshed with the next connecting rack, and then the two driven gears 15 are meshed with the next connecting rack simultaneously.

In one embodiment, as shown in fig. 10, a resilient member 16 is disposed in the mounting housing 12, and the driving gear 14 is slidably coupled in the mounting housing 12 and located between the connecting rod 13 and the resilient member 16. The driving gear 14 is provided with a chute 141, and the connecting rod 13 is provided with a connecting block 131 capable of being connected with and separated from the chute 141. When the connection block 131 is separated from the inclined groove 141, the connection block 131 pushes the driving gear 14 to press the elastic member 16. When the connection block 131 is connected to the inclined groove 141, the driving gear 14 is pushed by the elastic member 16.

Specifically, the pinion gear 14 is slidably coupled to the mounting housing 12 and is in contact with the spring 16. The pinion gear 14 is provided with a mounting rod extending toward the connecting rod 13, and an inclined groove 141 opened toward the connecting rod 13 is provided at an end of the mounting rod, and the inclined groove 141 is a unidirectional inclined groove 141 having a triangular shape, for example, a right triangle. The connecting rod 13 is provided at its end with a connecting block 131 engaged with the inclined groove 141, and the connecting block 131 is a triangular one-way inclined tooth. When the connecting rod 13 is connected to the driving gear 14, the connecting block 131 is located in the inclined groove 141.

When the transmission rod 11 moves downward, the transmission rod 11 drives the connecting rod 13 to rotate forward. At this time, the connecting block 131 is located in the inclined groove 141, and the connecting rod 13 drives the driving gear 14 to rotate. When the transmission rod 11 needs to be reset and moved upwards, the transmission rod 11 drives the connecting rod 13 to rotate reversely, at this time, the connecting block 131 slides out of the inclined groove 141, the driving gear 14 is pushed to slide towards the direction away from the connecting rod 13, the driving gear 14 extrudes the elastic piece 16, the elastic piece 16 is deformed, and the connecting rod 13 cannot drive the driving gear 14 to rotate. When the transmission rod 11 returns to the initial position, the elastic member 16 returns to the deformed state, and pushes the driving gear 14 to slide in a direction close to the connecting rod 13, so that the connecting block 131 is re-engaged with the inclined groove 141. The arrangement is such that the connecting rod 13 can only drive the driving gear 14 to rotate singly.

Alternatively, the driving rod 11 is provided with a manipulating part which protrudes to the outside of the toy housing 20, and a person can pull the driving rod 11 to move upward by holding the manipulating part.

Alternatively, the elastic member 16 is a spring or a rubber sheet having elasticity.

In one embodiment, as shown in fig. 9, the step control mechanism 1 further includes a telescopic spring 17 for returning the transmission rod 11, and the telescopic spring 17 is connected to the transmission rod 11.

Specifically, one side of the transmission rod 11 is provided with a baffle, a receiving groove with an opening facing the baffle is provided in the toy housing 20, and the extension spring 17 is installed in the receiving groove and contacts with the baffle. When the operating lever 31 pushes the transmission lever 11 to move downward, the stopper presses the extension spring 17, shortening the extension spring 17. When the operating lever 31 is separated from the transmission lever 11, the transmission lever 11 is out of the way, and at this time, the extension spring 17 extends to push the transmission lever 11 to move up to the initial position. The telescopic spring 17 enables the transmission rod 11 to automatically reset, thereby simplifying the operation steps during playing and facilitating the playing of people.

In one embodiment, as shown in fig. 5 and 9, a guide plate 201 is disposed in the toy housing 20, a guide groove 111 opened toward the guide plate 201 is disposed on a side surface of the transmission rod 11 of the step control mechanism 1, and the guide plate 201 is slidably coupled to the guide groove 111. The guide plate 201 and the guide groove 111 both extend in the vertical direction, and when the transmission rod 11 is installed in the toy housing 20, the guide plate 201 is inserted into the guide groove 111 and is in clearance fit with the guide groove 111, so that the guide plate 201 and the guide groove 111 can slide relatively. The cooperation of the guide plate 201 and the guide groove 111 limits the sliding direction of the transmission rod 11, so that the sliding is more stable and smoother.

In summary, the utility model discloses a toy stepping assembly 10, which comprises a stepping control mechanism 1, a positioning mechanism 2 and an operating member 3. The operating piece 3 is used for triggering the stepping control mechanism 1 to perform stepping operation and triggering the positioning mechanism 2 to perform positioning operation. When the operating piece 3 triggers the stepping control mechanism 1 to perform stepping operation, the positioning mechanism 2 performs positioning operation once. Toy launcher 100 includes a toy housing 20 and a toy stepper assembly 10. The step control mechanism 1 and the positioning mechanism 2 are provided on the toy case 20. The operating element 3 is movably connected to the toy housing 20 and is capable of activating the step control mechanism 1 and the positioning mechanism 2. Step-by-step control mechanism 1 on this step-by-step subassembly of toy 10 can carry out step-by-step operation, is being launched the back by launching element 40 with the outside toy in the launching port, can move into the launching port with next outside toy through step-by-step control mechanism 1, and convenient operation and play have improved the smoothness nature of playing. The positioning mechanism 2 is capable of positioning an external toy so that it is securely positioned in the toy launcher 100 when launched. The step control mechanism 1 and the positioning mechanism 2 realize linkage, thereby further simplifying operation and facilitating playing.

The foregoing is considered as illustrative only of the principles and preferred embodiments of the utility model. It should be noted that, for those skilled in the art, several other modifications can be made on the basis of the principle of the present invention, and the protection scope of the present invention should be regarded.

Claims (10)

1. A toy stepping assembly (10) is characterized by comprising a stepping control mechanism (1), a positioning mechanism (2) and an operating piece (3) which are arranged on a toy piece;

the operating piece (3) is used for triggering the stepping control mechanism (1) to perform stepping operation;

the stepping control mechanism (1) is used for controlling an external toy connected to the stepping control mechanism to step;

the positioning mechanism (2) is used for positioning the external toy after stepping is finished;

the operating piece (3) with step control mechanism (1) cooperation is connected, operating piece (3) are every trigger step control mechanism (1) when carrying out a step operation, positioning mechanism (2) carry out a positioning operation.

2. The toy stepping assembly (10) according to claim 1, wherein the positioning mechanism (2) comprises a controllable positioning element (21) linked with the stepping control mechanism (1), the controllable positioning element (21) is connected with the operating element (3), and the operating element (3) can trigger the controllable positioning element (21) to perform positioning operation.

3. Toy stepping assembly (10) according to claim 2, wherein the operating member (3) comprises an operating lever (31);

the operating rod (31) is provided with a first trigger part (311) capable of pushing the controllable positioning piece (21) and a second trigger part (312) capable of pushing the stepping control mechanism (1);

after the first trigger part (311) pushes the controllable positioning part (21), the second trigger part (312) pushes the stepping control mechanism (1).

4. Toy stepping assembly (10) according to claim 3, wherein the controllable positioning element (21) comprises a positioning rod (211) and a push rod (212) contactable with the first trigger part (311), the push rod (212) being located between the operating lever (31) and the positioning rod (211);

the positioning rod (211) has a positioning state and an unlocking state;

when the first trigger part (311) pushes the push rod (212), the push rod (212) pushes the positioning rod (211) to move upwards, and the positioning rod (211) is in an unlocking state;

when the positioning rod (211) is separated from the push rod (212), the positioning rod (211) moves downwards, and the positioning rod (211) is in a positioning state.

5. Toy stepping assembly (10) according to claim 4, wherein the controllable positioning element (21) further comprises a return spring (213) for switching the positioning bar (211) from the unlocked state to the positioned state;

the return spring (213) is positioned above the positioning rod (211) and is in contact with the positioning rod (211).

6. The toy stepping assembly (10) according to claim 2, wherein the positioning mechanism (2) comprises an elastic positioning member (22), and the elastic positioning member (22) comprises a connecting spring (221) and a fixture block (222) capable of being clamped with an external toy; the fixture block (222) is connected with the connecting spring (221);

when the operating piece (3) triggers the controllable positioning piece (21) to perform positioning operation, the connecting spring (221) can be extruded and contracted.

7. Toy stepping assembly (10) according to claim 1, wherein the stepping control mechanism (1) comprises a transmission rod (11) contactable with the operating member (3) and an output member for bringing an external toy to a stepping movement;

the transmission rod (11) is connected with the output part;

when the operating piece (3) pushes and presses the transmission rod (11), the transmission rod (11) drives the output piece to perform stepping operation.

8. Toy stepping assembly (10) according to claim 7, wherein the stepping control mechanism (1) further comprises a telescopic spring (17) for resetting the transmission rod (11), the telescopic spring (17) being connected with the transmission rod (11).

9. Toy stepping assembly (10) according to claim 7, wherein the output comprises a mounting housing (12), a connecting rod (13), a driving gear (14) and two driven gears (15);

the connecting rod (13), the driving gear (14) and the two driven gears (15) are rotatably connected in the mounting shell (12);

the transmission rod (11) is connected with the connecting rod (13) and can drive the connecting rod (13) to rotate;

the driving gear (14) is connected with the connecting rod (13), and the two driven gears (15) are respectively positioned on two sides of the driving gear (14) and are respectively meshed with the driving gear (14).

10. The toy stepper assembly (10) of claim 9, wherein a resilient member (16) is disposed within the mounting housing (12), the drive gear (14) being slidably coupled within the mounting housing (12) and between the connecting rod (13) and the resilient member (16);

the driving gear (14) is provided with a chute (141), and the connecting rod (13) is provided with a connecting block (131) which can be connected with and separated from the chute (141);

when the connecting block (131) is separated from the inclined groove (141), the connecting block (131) pushes the driving gear (14) to press the elastic member (16);

when the connecting block (131) is connected with the inclined groove (141), the elastic piece (16) pushes the driving gear (14).

Images