CN213192501U - Transformable track toy - Google Patents

Abstract

The utility model discloses a deformation track toy, which comprises a shell, a first cabin door and a second cabin door which are arranged on the shell, and a lifting platform which is arranged in the shell, wherein the lifting platform can lift up and down in the shell; when the lifting platform rises to the highest position and the first cabin door and the second cabin door are overturned and unfolded outwards, the lifting platform is butted with the first cabin door and the second cabin door to form a continuous sliding track. The utility model discloses in warp through the removal of elevating platform with first hatch door and second hatch door, constitute continuous slide rail, the toy car can follow the elevating platform and rise, then draws downwards from sliding rail, has increased the playing method, has increased the object of appreciation nature and the interest of toy.

Description

Transformable track toy

Technical Field

The utility model relates to a technical field of toy especially relates to a deformation track toy.

Background

The deformation toy is a type of toy product which is popular among children in the current toy market, and generally has more than two product forms, but the deformation toy in the current stage has the problems of single deformation structure and low playability; the track toy is also a popular toy product, but the track is inconvenient to move after being built. Therefore, the general transformable toys and the track toys are easy to be tired by children due to lack of sufficient playability and interest.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, provide a toy with the functions of deformation and rail sliding, and increase the playability and the interest of the toy.

The technical scheme of the utility model provides a deformation track toy, which comprises a shell, a first cabin door and a second cabin door which are arranged on the shell, and a lifting platform which is arranged in the shell, wherein the lifting platform can lift up and down in the shell;

when the lifting platform rises to the highest position and the first cabin door and the second cabin door are overturned and unfolded outwards, the lifting platform is butted with the first cabin door and the second cabin door to form a continuous sliding track.

Furthermore, a lifting chute is also arranged in the shell;

the lifting platform is provided with a launching platform and a warping plate, the launching platform is rotatably connected with the top surface of the lifting platform, the upper end of the warping plate is contacted with the bottom surface of the launching platform, the middle part of the warping plate is rotatably connected with the lifting platform, and the lower end of the warping plate extends into the lower part of the lifting platform and is inserted into the lifting chute;

after the lifting platform rises upwards, the lower end of the wane slides along the lifting chute, when the lower end of the wane slides to the topmost end of the lifting chute and is limited, the lifting platform continues rising upwards, the wane rotates, and the upper end of the wane pushes the launching platform upwards to turn forwards.

Furthermore, the inner side surface of the first cabin door is provided with a first track section, the inner side surface of the second cabin door is provided with a second track section, the top surface of the launching platform is provided with a third track section, and the first track section, the second track section and the third track section form the sliding track.

Furthermore, the track-changing toy also comprises a walking trigger unit, wherein the walking trigger unit comprises a first roller, an eccentric wheel and a first vane switch, the first roller is in contact with the game table surface or the sliding track, the first roller drives the eccentric wheel to rotate, and the eccentric wheel is in contact with the first vane switch and triggers the first vane switch in the rotating process.

Furthermore, the deformed track toy further comprises an off-ground trigger unit, the off-ground trigger unit comprises a second roller, a moving block, a compression spring and a second leaf switch, the moving block is located on the inner side of the second roller, the compression spring is installed in the moving block, and the moving block extends out of a trigger part towards the second leaf switch;

when the second roller wheel is in contact with the game table surface or the sliding track, the moving block is driven to move upwards, and the triggering part is separated from the second blade switch;

when the second roller wheel is separated from the game table surface or the sliding track, the compression spring pushes the moving block to move downwards, and the triggering part is contacted with the second vane switch and triggers the second vane switch.

Furthermore, the transformable track toy further comprises a rotation triggering unit, the rotation triggering unit comprises a rotating block, a linkage block and a third blade switch, and after the rotating block rotates, the linkage block is driven to move and then the third blade switch is triggered.

Furthermore, the deformation track toy further comprises a second cabin door triggering unit, the second cabin door triggering unit comprises a key, a first connecting rod and a second connecting rod, when the key is pressed downwards, the key drives the first connecting rod to rotate, the first connecting rod drives the second connecting rod to move upwards, a barb is arranged at the lower end of the second connecting rod, after the second connecting rod moves upwards, the barb is separated from the upper side edge of the second cabin door, and the second cabin door is overturned forwards and downwards to be unfolded.

Further, the deformed rail toy further comprises a rotary ejection unit, and the rotary ejection unit comprises a trigger piece, an ejection assembly and a rotating assembly;

when the trigger piece is pressed downwards, the ejection component is driven to eject;

when the trigger piece rotates, the rotating assembly is driven to rotate.

Further, the rotating assembly comprises a rotating disc, a gear and a rotating disc, the trigger is fixedly connected with the rotating disc, the rotating disc is embedded into the center of the gear, and the gear is meshed with the outer edge of the rotating disc;

when the trigger piece rotates, the gear is driven to rotate through the turntable, and the gear drives the turntable to rotate.

Furthermore, the ejection assembly comprises a third connecting rod, an ejection seat, an ejection spring and an ejection block, the third connecting rod is clamped with the ejection seat, the ejection seat is connected with the ejection spring, and the ejection block is positioned above the ejection seat;

when the trigger piece is pressed downwards, the trigger piece drives the rotary disc to move downwards, the rotary disc pushes the third connecting rod to be separated from the ejection seat, the ejection seat is ejected upwards under the action of the ejection spring, and the ejection block is ejected by the ejection seat.

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

the utility model discloses in warp through the removal of elevating platform with first hatch door and second hatch door, constitute continuous slide rail, the toy car can follow the elevating platform and rise, then draws downwards from sliding rail, has increased the playing method, has increased the object of appreciation nature and the interest of toy.

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 front perspective view of a transformable track toy according to one embodiment of the present invention;

fig. 2 is a perspective view of the transformable track toy in an embodiment of the present invention in a front expanded state;

fig. 3 is a rear perspective view of a transformable track toy according to an embodiment of the present invention;

fig. 4 is a perspective view of the transformable track toy in an embodiment of the invention in a rear-side expanded state;

fig. 5 is a perspective view of the lift table, launching pad and rocker of the transformable track toy in an embodiment of the present invention;

fig. 6 is an exploded view of the lift table, launch table and rocker of the transformable track toy according to an embodiment of the present invention;

fig. 7 is a bottom perspective view of a transformable track toy according to one embodiment of the present invention;

fig. 8 is a schematic view of a walking trigger unit of the transformable track toy according to an embodiment of the present invention;

fig. 9 is a schematic view of the ground lift trigger unit of the transformable track toy according to an embodiment of the present invention;

fig. 10 is a schematic view of a rotation triggering unit of the transformable track toy according to an embodiment of the present invention;

fig. 11 is a partial schematic view of a rotation triggering unit of the transformable track toy according to an embodiment of the present invention;

figure 12 is a schematic view of a second door trigger unit of a transformable orbital toy according to an embodiment of the present invention;

fig. 13 is a perspective view of a rotary ejection unit of the transformable track toy according to an embodiment of the present invention;

fig. 14 is a schematic view of the internal structure of the rotary ejecting unit of the transformable track toy according to an embodiment of the present invention.

Reference symbol comparison table:

a housing 1: a first door 11, a first track segment 111, a second door 12, a second track segment 121, a lifting chute 13, a third door 14, a fourth door 15, a fifth door 16, a cockpit 17, a wing 18 and a battery compartment 19;

rotating the ejection unit 2: the trigger 21, the ejection assembly 22, the rotating assembly 23, the third link 221, the ejection base 222, the ejection block 224, the flip cover 225, the turntable 231, the gear 232, the rotating table 233, and the lifting table 3: a shifting piece 31, a limiting part 32, a positioning part 33, a triggering part 34 and a fourth blade switch 35;

the launching platform 4: a third track segment 41;

a seesaw 5;

the walking trigger unit 6: a first roller 61, an eccentric wheel 62 and a first blade switch 63;

ground-off trigger unit 7: a second roller 71, a moving block 72, a second vane switch 74, and a trigger portion 721;

the rotation trigger unit 8: a rotating block 81, a linkage block 82, a third vane switch 83, a scattering module 84, an LED85 and a linkage part 821;

second hatch trigger unit 9: a key 91, a first link 92, a second link 93, and a barb 931;

a slide track 10, a slide toy 20.

Detailed Description

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

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

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

In an embodiment of the present invention, as shown in fig. 1-2, a transformable track toy comprises a housing 1, a first door 11 and a second door 12 disposed on the housing 1, and a lifting platform 3 disposed in the housing 1, wherein the lifting platform 3 can be lifted up and down in the housing 1;

when the lifting platform 3 is lifted to the highest position and the first door 11 and the second door 12 are overturned and unfolded outwards, the lifting platform 3 is butted with the first door 11 and the second door 12 to form a continuous sliding track 10.

Specifically, the casing 1 in this embodiment is in the shape of an aircraft, a cockpit 17 is disposed inside the casing 1, and after the first door 11 and the second door 12 are opened, the cockpit 17 inside is exposed. Wings 18 are provided on the left and right sides of the housing 1, respectively.

A first door 11 and a second door 12 are provided at the front side of the casing 1, the first door 11 being located below the second door 12.

As shown in fig. 1, when the first door 11 and the second door 12 are closed, the front side of the cockpit 17 is closed, simulating a state when flying.

As shown in fig. 2, when the first door 11 and the second door 12 are folded and unfolded forward, the front end of the unfolded first door 11 contacts the ground or the playing surface, and the rear end of the unfolded first door abuts against the front end of the unfolded second door 12. At this time, the lift table 3 is raised to the highest position, and the lift table 3 is abutted against the rear end of the second hatch door 12 after being deployed. The lifting platform 3, the second door 12 and the first door 11 are butted to form a continuous sliding track 10.

The slide toy 20 in the cockpit 17 can slide down along the slide rail 10 from top to bottom onto the ground or a playing surface.

Further, as shown in fig. 3-4, a pull tab 31 extends from the rear of the lifting platform 3, and a fifth door 16 is further disposed behind the housing 1.

As shown in fig. 3, when the lift table 3 is lowered to the lowest position, the paddle 31 protrudes to the outside of the casing 1 through the fifth door 16.

As shown in fig. 4, when the lifting platform 3 needs to be lifted, the fifth door 16 is manually opened, and then the poking piece 31 is manually pulled to drive the lifting platform 3 to be lifted upwards.

Alternatively, the lifting platform 3 can be lifted by electric driving or by a pull rope.

Alternatively, the fifth door 16 may snap into the body of the housing 1 by a snap and then unlock when a button is pressed.

In this embodiment, as shown in fig. 4, the housing 1 further includes a third door 14 and a fourth door 15, and the third door 14 and the fourth door 15 are respectively located at the left and right sides of the housing 1, and are respectively unfolded to turn left and right when opened, so as to expose the cockpit 17. The slide toy 20 can enter the cockpit 17 from any one of the third door 14, the fourth door 15, and the fifth door 16, and be placed on the lift table 3.

Further, as shown in fig. 5-6, a lifting chute 13 is further arranged in the housing 1;

the lifting platform 3 is provided with a launching platform 4 and a wane 5, the launching platform 4 is rotatably connected with the top surface of the lifting platform 3, the upper end of the wane 5 is contacted with the bottom surface of the launching platform 4, the middle part of the wane is rotatably connected with the lifting platform 3, and the lower end of the wane extends into the lower part of the lifting platform 3 and is inserted into a lifting chute 13;

after the lifting platform 3 is lifted upwards, the lower end of the rocker 5 slides along the lifting chute 13, and after the lower end of the rocker 5 slides to the topmost end of the lifting chute and is limited, the lifting platform 3 continues to be lifted upwards, the rocker 5 rotates, and the upper end of the rocker 5 pushes the launching platform 4 upwards to turn forwards.

Specifically, launching pad 4 is a flat board, and launching pad 4's preceding side is articulated with elevating platform 3, and the bottom surface and the contact of wane 5 of launching pad 4's rear side.

The middle part of the wane 5 is rotatably connected with the lifting platform 3 through a rotating shaft. When the wane 5 rotates, the launching platform 4 is pried to turn upwards. Since the slide toy 20 can be placed on the launching platform 4, when the launching platform 4 is turned upwards, the launching platform 4 pushes the slide toy 20 to slide forwards and downwards along the slide rail 10. When the seesaw 5 is not rotated, the lower end of the seesaw 5 is received in the bottom surface of the lifting table 3, the upper end is received in the top surface of the lifting table 3, and the launching platform 4 is received in the top surface of the lifting table 3 and is approximately parallel to the lifting table 3.

As shown in fig. 5, the housing 1 includes a lifting chute 13, and when the lifting platform 3 is lifted upward, the lower end of the rocker 5 slides along the lifting chute 13 from bottom to top. The height of the top end of the lifting chute 13 is lower than that of the highest position of the lifting platform 3. When the lifting platform 3 ascends to the highest position, the lower end of the wane 5 is limited by the top end of the lifting chute 13, so that the wane 5 rotates anticlockwise in the direction of fig. 5, the upper end of the wane 5 pushes the launching platform 4, and the launching platform 4 overturns forwards and upwards.

When the lifting platform 3 descends, the wane 5 rotates clockwise, and the launching platform 4 falls back until being received on the lifting platform 3 and then descends to the lowest position along with the lifting platform 3.

Further, as shown in fig. 5 to 6, the lifting device further includes a limiting portion 32 and a positioning portion 33, the positioning portion 33 is installed on the bottom surface of the lifting platform 3, the limiting portion 32 is located above the lifting chute 13, the limiting portion 32 is a bidirectional wedge structure, and the positioning portion 33 retracts inward when passing through the limiting portion 32. When the lifting platform 3 is lifted to the highest position, the positioning part 33 extends outwards and is clamped with the limiting part 32, so that the lifting platform 3 is kept at the highest position.

Further, as shown in fig. 6, a triggering portion 34 and a fourth blade switch 35 are further disposed at the middle section of the lifting chute 13, the triggering portion 34 protrudes from the inner side surface of the lifting chute 13, when the lifting platform 3 is lifted and slid, the triggering portion 34 is triggered, and the triggering portion 34 triggers the fourth blade switch 35, so that the fourth blade switch 35 is connected to the control circuit, and an acousto-optic effect is generated.

Further, as shown in fig. 2, the inner side surface of the first door 11 is provided with a first track section 111, the inner side surface of the second door 12 is provided with a second track section 121, the top surface of the launching platform 4 is provided with a third track section 41, and the first track section 111, the second track section 121 and the third track section 41 form a sliding track 10.

The third track segment 41, the second track segment 121 and the first track segment 111 sequentially form a continuous slide track 10 from top to bottom, and the slide toy 20 can be guided from the cockpit 17 to the game table.

Further, as shown in fig. 7-8, the transformable orbital toy further comprises a walking trigger unit 6, the walking trigger unit 6 comprises a first roller 61, an eccentric 62 and a first paddle switch 63, the first roller 61 contacts with the game board, the first roller 61 drives the eccentric 62 to rotate, and the eccentric 62 contacts with the first paddle switch 63 and triggers the first paddle switch 63 during the rotation process.

Specifically, as shown in fig. 7, the walking trigger unit 6 is located at the bottom of the transformable track toy, a battery compartment 19 and a built-in speaker are further installed at the bottom of the transformable track toy, and the walking trigger unit 6 is located at one side of the battery compartment 19.

As shown in fig. 8, the walking trigger unit 6 includes a first roller 61, the first roller 61 is used for contacting with the ground or the playing surface, when the transformable orbital toy runs on the playing surface or the sliding track 10, the first roller 61 rotates to drive the eccentric wheel 62 to rotate together, during the rotation of the eccentric wheel 62, the maximum diameter position of the eccentric wheel 62 contacts with the first vane switch 63, and triggers the first vane switch 63 to switch on the control circuit, so as to generate the acousto-optic effect.

Further, as shown in fig. 7 and 9, the transformable orbital toy further includes an off-ground triggering unit 7, the off-ground triggering unit 7 includes a second roller 71, a moving block 72, a compression spring and a second vane switch 74, the moving block 72 is located at the inner side of the second roller 71, the compression spring is installed in the moving block 72, and the moving block 72 extends out of a triggering portion 721 toward the second vane switch 74;

when the second roller 71 contacts with the game table or the sliding track 10, the moving block 72 is driven to move upwards, and the triggering part 721 is separated from the second vane switch 74;

when the second wheel 71 is separated from the game board or the slide rail 10, the compression spring pushes the moving block 72 to move downward, and the triggering portion 721 contacts the second leaf switch 74 and triggers the second leaf switch 74.

Specifically, the ground-off trigger unit 7 is located on the other side of the battery compartment 19, the second roller 71 is in contact with the game table, and the second roller 71 rolls when the transformable orbital toy travels on the game table. The second roller 71 is pushed upward by the game table and drives the moving block 72 to move upward together, and the trigger portion 721 of the moving block 72 is separated from the second vane switch 74, and at this time, no sound and light effect is generated.

When the deformed track toy is separated from the game table or the sliding track 10, the compression spring pushes the moving block 72 downwards, the moving block 72 drives the second roller 71 to move downwards, and meanwhile, the triggering portion 721 of the moving block 72 is in contact with the second vane switch 74 to trigger the second vane switch 74 to switch on the control switch, so that different acousto-optic effects are emitted.

Alternatively, there may be two sets of ground-lift trigger units 7 and walking trigger units 6, respectively located at the front and rear sides of the transformable rail toy. There may be only one set, either on the front or rear side, where the opposite side of the transformable track toy is provided with at least two rollers for the transformable track toy to glide on the playing surface or ground or glide track 10.

Further, as shown in fig. 10-11, the transformable track toy further includes a rotation triggering unit 8, the rotation triggering unit 8 includes a rotation block 81, a linkage block 82 and a third blade switch 83, and after the rotation block 81 rotates, the linkage block 82 is driven to move to trigger the third blade switch 83.

Specifically, as shown in fig. 1, there are two rotary triggering units 8, which are respectively mounted on the outer ends of two wings 18.

As shown in fig. 10, the rotating block 81 can be integrally rotated, and the link block 82 and the third vane switch 83 are installed inside the wing 18.

The linkage block 82 extends out of a linkage part 821 towards the rotating block 81, the linkage part 821 is inserted into the rotating block 81, a rotating hole 812 is formed in the rotating block 81, and the wing 18 is inserted into the rotating hole 812. The edges of the rotation holes 812 are uniformly spaced with the spacing grooves 811.

During the rotation of the rotating block 81, the inner edge of the rotation hole 812 does not contact the interlocking part 821. When the limiting groove 811 rotates to the position corresponding to the linking part 821, the limiting groove 811 drives the linking part 821 to move towards the third blade switch 83, the third blade switch 83 is triggered, and the third blade switch 83 is connected with the control circuit to generate different sound and light effects.

As shown in fig. 11, a diffusion module 84 and an LED85 are further disposed inside the rotating block 81, and when the third blade switch 83 is turned on, the LED85 emits light, the emitted light is diffused by the diffusion module 84, and the light is transmitted through the rotating block 81.

In this embodiment, the rotating block 81 is an engine model.

Alternatively, the turning block 81 may also be shaped as a propeller.

Further, as shown in fig. 1 and 12, the transformable rail toy further includes a second door trigger unit 9, the second door trigger unit 9 includes a button 91, a first link 92 and a second link 93, when the button 91 is pressed downward, the button 91 drives the first link 92 to rotate, the first link 92 drives the second link 93 to move upward, a barb 931 is arranged at the lower end of the second link 93, after the second link 93 moves upward, the barb 931 is separated from the upper side edge of the second door 12, and the second door 12 turns forward and downward and unfolds.

The second door trigger unit 9 is located at the top of the transformable orbital toy and is used for linkage triggering opening of the second door 12.

Specifically, the bottom of the second door 12 is hinged to the housing 1, and a torsion spring is arranged at the hinged position, so that the second door 12 tends to turn outwards; the top of the second door 12 is provided with a connecting part matching with the barb 931 at the bottom of the second connecting rod 93.

In a general state, a torsion spring is arranged at the hinge point of the first connecting rod 92, so that the first connecting rod 92 has a tendency of pressing down the second connecting rod 93, and the second door 12 and the second connecting rod 93 are kept in a buckled connection state; when the user presses the button 91, the button 91 rotates counterclockwise, overcomes the spring force of the torsion spring to drive the first connecting rod 92 to rotate clockwise, drives the second connecting rod 93 to move upward and separate from the second door 12, so that the second door 12 is turned forward under the action of the spring force of the torsion spring to open the second track 121.

Further, as shown in fig. 13-14, the transformable orbital toy further comprises a rotating ejection unit 2, the rotating ejection unit 2 comprising a trigger 21, an ejection assembly 22 and a rotating assembly 23;

when the trigger piece 21 is pressed downwards, the ejection component 22 is driven to eject;

when the trigger 21 rotates, the rotating component 23 is driven to rotate.

Specifically, as shown in fig. 4, the rotating ejection unit 2 is the bottom of the cockpit 17, and the third door 14 and the fourth door 15 can be opened to play with the rotating ejection unit 2.

The trigger 21 may be moved up and down or may be rotated around its central axis.

During play, a gliding toy 20 may be placed on trigger 21, and trigger 21 may be pressed downward to cause ejection assembly 22 to eject.

The trigger 21 can also be manually rotated to drive the rotating component 23 to rotate. Gliding toy 20 may be placed on rotating assembly 23 and brought into rotation therewith.

Further, as shown in fig. 14, the rotating assembly 23 includes a rotating disc 231, a gear 232 and a rotating table 233, the triggering member 21 is fixedly connected to the rotating disc 231, the rotating disc 231 is embedded in the center of the gear 232, the gear 232 is meshed with the outer edge of the rotating table 233, the gear 232 is rotatably connected to the bottom of the housing 1, a spring is disposed between the gear 232 and the rotating disc 231, and the spring is used for providing a spring force after the rotating disc 231 moves downwards to help the rotating disc 231 move upwards and return;

when the trigger 21 rotates, the gear wheel 232 is driven to rotate by the turntable 231, and the gear wheel 232 drives the turntable 233 to rotate.

Further, as shown in fig. 14, the ejection assembly 22 includes a third link 221, an ejection seat 222, an ejection spring, and an ejection block 224, where the third link 221 is clamped with the ejection seat 222, the ejection seat 222 is connected with the ejection spring, and the ejection block 224 is located above the ejection seat 223;

when the trigger piece 21 is pressed downwards, the trigger piece 21 drives the rotating disc 231 to move downwards, the rotating disc 231 pushes the third connecting rod 221 to be separated from the ejection seat 222, the ejection seat 222 is ejected upwards under the action of the ejection spring, and the ejection seat 222 ejects the ejection block 224.

Specifically, the outer edge of the rotating disc 231 is an inclined surface, and the third link 221 is also an inclined surface corresponding to the rotating disc 231, so that when the rotating disc 231 moves downward along with the trigger 21, the rotating disc 231 pushes the third link 221 to move to the left side of fig. 14, so that the third link 221 is separated from the ejection seat 222. The third link 221 is connected to the bottom of the housing 1 and can move forward and backward with respect to the housing 1. The ejection seat 222 is ejected upwards by the ejection spring, the ejection block 224 is placed on the upper surface of the ejection seat 223, and the ejection block 224 is ejected when the ejection seat 223 ejects.

In this embodiment, the ejection assembly 22 further includes a flip cover 225, one side of the flip cover 225 is hinged to the housing 1, and when the ejection block 224 is ejected, the ejection block flies out after the flip cover 225 is opened.

In one embodiment of the present invention, the playing method of the transformable track toy includes, but is not limited to, the following:

a first playing method comprises the following steps: the second door 12 is opened by pressing the button 91, then the first door 11 and the fifth door 16 are opened manually, and the lifting platform 3 is lifted upwards by manually pulling the poking piece 31. When the lift table 3 is raised to the uppermost position, the slide toy 20 slides out from the slide rail 10.

And (2) playing a second method: manually opening the third door 14 and the fourth door 15 places the gliding toy 20 on the trigger 21, pressing the gliding toy 20 downward, and ejecting the ejector block 224 from under the flip 225.

And (3) playing method III: manually rotating trigger 21 places toy glider 20 on turntable 233, which rotates turntable 233 and toy glider 20.

And (4) a playing method is as follows: the turning block 81 is turned to trigger the third vane switch 83, so that the acousto-optic effect is generated.

A fifth playing method: the deformed track toy is moved back and forth on the game table surface or the ground to trigger the walking trigger unit 6, so that the acousto-optic effect is generated.

A sixth playing method: the deformation track toy is suspended in the air and separated from the ground or the game table surface, and the ground trigger unit 7 is triggered to generate the acousto-optic effect.

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

Claims (10)

1. A deformation track toy is characterized by comprising a shell (1), a first cabin door (11) and a second cabin door (12) which are arranged on the shell (1), and a lifting platform (3) which is arranged in the shell (1), wherein the lifting platform (3) can lift up and down in the shell (1);

when the lifting platform (3) is lifted to the highest position and the first cabin door (11) and the second cabin door (12) are overturned outwards and unfolded, the lifting platform (3) is butted with the first cabin door (11) and the second cabin door (12) to form a continuous sliding track (10).

2. A transformable orbital toy as claimed in claim 1 wherein a lifting chute (13) is also provided in said housing (1);

a launching platform (4) and a warping plate (5) are arranged on the lifting platform (3), the launching platform (4) is rotatably connected with the top surface of the lifting platform (3), the upper end of the warping plate (5) is in contact with the bottom surface of the launching platform (4), the middle part of the warping plate is rotatably connected with the lifting platform (3), and the lower end of the warping plate extends into the lower part of the lifting platform (3) and is inserted into the lifting chute (13);

after the lifting platform (3) is lifted upwards, the lower end of the wane (5) slides along the lifting sliding groove (13), when the lower end of the wane (5) slides to the topmost end of the lifting sliding groove (13) and is limited, the lifting platform (3) continues to be lifted upwards, the wane (5) rotates, and the upper end of the wane upwards pushes the launching platform (4) to turn forwards.

3. A transformable orbital toy according to claim 2, characterized in that the inner side of the first door (11) is provided with a first orbital segment (111), the inner side of the second door (12) is provided with a second orbital segment (121), the top face of the launch pad (4) is provided with a third orbital segment (41), the first orbital segment (111), the second orbital segment (121) and the third orbital segment (41) constituting the sliding track (10).

4. A transformable orbital toy according to claim 1 further comprising a travel trigger unit (6), said travel trigger unit (6) comprising a first wheel (61), an eccentric (62) and a first leaf switch (63), said first wheel (61) being in contact with a playing surface or sliding track (10), said first wheel (61) rotating said eccentric (62), said eccentric (62) rotating said eccentric (62) and said first leaf switch (63) being contacted and triggered by said first leaf switch (63) during rotation of said eccentric (62).

5. The transformable orbital toy of claim 1, further comprising an off-ground trigger unit (7), the off-ground trigger unit (7) comprising a second roller (71), a moving block (72), a compression spring and a second leaf switch (74), the moving block (72) being located inside the second roller (71), the compression spring being installed inside the moving block (72), the moving block (72) extending out of a trigger portion (721) toward the second leaf switch (74);

when the second roller (71) is in contact with a game table or a sliding track (10), the moving block (72) is driven to move upwards, and the triggering part (721) is separated from the second vane switch (74);

when the second wheel (71) is separated from the game board or the slide rail (10), the compression spring pushes the moving block (72) to move downwards, and the triggering part (721) contacts with the second leaf switch (74) and triggers the second leaf switch (74).

6. The transformable orbital toy of claim 1, further comprising a rotation triggering unit (8), wherein the rotation triggering unit (8) comprises a rotation block (81), a linkage block (82) and a third blade switch (83), and after the rotation block (81) rotates, the linkage block (82) is driven to move to trigger the third blade switch (83).

7. The transformable orbital toy of claim 1, further comprising a second door-triggering unit (9), wherein the second door-triggering unit (9) comprises a button (91), a first link (92) and a second link (93), when the button (91) is pressed downward, the button (91) drives the first link (92) to rotate, the first link (92) drives the second link (93) to move upward, the lower end of the second link (93) is provided with a barb (931), after the second link (93) moves upward, the barb (931) is separated from the upper side edge of the second door (12), and the second door (12) is flipped forward and downward to be unfolded.

8. The transformable orbital toy of claim 1 further comprising a rotating ejection unit (2), the rotating ejection unit (2) comprising a trigger (21), an ejection assembly (22), and a rotating assembly (23);

when the trigger piece (21) is pressed downwards, the ejection component (22) is driven to eject;

when the trigger piece (21) rotates, the rotating component (23) is driven to rotate.

9. The transformable orbital toy of claim 8, wherein the rotating assembly (23) comprises a turntable (231), a gear (232) and a rotating table (233), the trigger (21) is fixedly connected with the turntable (231), the turntable (231) is embedded in the center of the gear (232), and the gear (232) is meshed with the outer edge of the rotating table (233);

when trigger piece (21) rotated, through carousel (231) drive gear (232) rotate, gear (232) drive revolving stage (233) rotate.

10. The transformable orbital toy of claim 9, wherein the ejector assembly (22) comprises a third link (221), an ejector seat (222), an ejector spring, and an ejector block (224), the third link (221) being snap-fitted to the ejector seat (222), the ejector seat (222) being connected to the ejector spring, the ejector block (224) being located above the ejector seat (222);

when the trigger piece (21) is pressed downwards, the trigger piece (21) drives the rotating disc (231) to move downwards, the rotating disc (231) pushes the third connecting rod (221) to be separated from the ejection seat (222), the ejection seat (222) is ejected upwards under the action of the ejection spring, and the ejection seat (222) ejects the ejection block (224).

Images