CN205287608U - Transformation robot toy car - Google Patents

Abstract

The utility model discloses a transformation robot toy car, its first deformation drive ripples case drive deformation clutching mechanism drive of installing in the set of cars piece of back makes the pivot rotate to drive the health subassembly and stick up or fall down, and when the health subassembly touches travel switch, first deformation drive ripples case automatic shutdown, additionally, the utility model discloses an it warp the drive of drive ripples case and goes up and down the output tooth and rise or descend along lifting rack to install second in the automobile body subassembly to drive the health subassembly and rise thereupon or descend, drive simultaneously and opens corresponding rising of subassembly or decline, and through opening opening that the board rises or, driving the door cantilever and promote or hold vehicle door assembly in the subassembly downwards, make vehicle door assembly open or close. Compared with the prior art, the utility model discloses a process that the toy car warp to the robot and the robot warp to the toy car, very big reinforcing recreational and the object for appreciation nature of toy, satisfied children's the demand of playing.

Description

A kind of variable body robot toy car

Technical field:

This utility model belongs to toy, particularly relates to a kind of variable body robot toy car.

Background technology:

Along with growth in the living standard, people are more and more higher to the requirement of children toy car, toy car in the market is of a great variety, the problem that but these toy cars generally all exist structure complexity, pattern is fixed, function singleness, inconvenient operation, captivation are not strong, it is impossible to meet the demand of playing of child.

Summary of the invention:

For this, the purpose of this utility model is in that to provide a kind of variable body robot toy car, to solve current toy car structure complexity, function singleness, inconvenient operation, problem that captivation is not strong, to meet the demand of playing of child.

The purpose of this utility model is achieved through the following technical solutions.

A kind of variable body robot toy car, including:

Rear car assembly, described rear car assembly includes at the bottom of rear shell, rear car and is arranged on the first deformation between at the bottom of rear shell, rear car and drives ripple case and deformation clutch; Described first deformation drives ripple case by deforming driving box upper cover, deformation driving box bottom and being fixedly mounted on the left drive motor between deformation driving box upper cover, deformation driving box bottom, right drive motor, the first deformation motor, drive transition tooth, output shaft and deformable transition gear to constitute; Described first deformation motor is connected with deformable transition gear drive; Described deformation clutch is made up of the first output gear, fixing axle, travelling gear, spring and securing member; Described fixing axle one end is fixing with the first output gear to be connected, and the other end is fixing with securing member after travelling gear, spring to be connected;

Body component, described body component includes health assembly and thigh assembly, and described health assembly is provided with opening assembly, the second deformation wave case, body shell, door assembly and hands arm; Described thigh assembly is provided with lifter rack and deformation output gear;

Described second deformation drives ripple case to be constituted by deforming case right cover, deformation case left cover, lifting output gear, the second deformation motor being fixedly mounted in deformation case right cover and the transition gear being fixedly mounted between deformation case right cover and deformation case left cover;

Described deformation output gear is made up of the 3rd output gear, rotating shaft and fixing post, and the 3rd output gear is fixedly mounted on fixing post, and the bottom of described rotating shaft is fixedly mounted in fixing post;

Described opening assembly is by opening board, lifting arm plate, spring and is arranged on the car door cantilever of the left and right sides, opening board upper end and constitutes; Being provided with a guide groove on described lifting arm plate, described opening board is fixed in guide groove by a pin, and can move up and down along described guide groove;

Wherein, first output gear of described deformation clutch engages with the 3rd output gear of deformation output gear, when first deforms motor driving deformable transition pinion rotation, corresponding to the travelling gear rotation in dynamic deformation clutch, the first output gear is driven to rotate by travelling gear, and drive the 3rd output gear to rotate, so that axis of rotation, and drive health assembly hold up or fall down;

Described second deformation motor is in transmission connection with lifting output gear by described transition gear, and described lifting output gear engages with described lifter rack, and when lifting output gear and rotating, rises or falls along lifter rack correspondence, and drive health assembly to rise or fall; When health assembly rises or falls, the opening assembly being arranged on health assembly rises or falls therewith, spring on opening assembly is close to the limit point on thigh assembly, stop when spring rises further up or declines, now spring hauls the stopping rising or downward of lifting arm plate, and opening board rises or downwards, promotes or hold door assembly by car door cantilever, make door assembly open or close therewith.

Preferably, being also equipped with K3 travel switch and K4 travel switch in described rear car assembly, described deformation output gear drive shaft rotates, and when rotating shaft drives health assembly to hold up or fall down to touch K3 travel switch or K4 travel switch, the first deformation motor shuts down.

Preferably, described left drive motor and right drive motor are in transmission connection with driving transition tooth respectively, and drive toy car to advance, retreat and turn to by described driving transition tooth.

Preferably, described thigh assembly is also equipped with K1 travel switch and K2 travel switch, lifting output gear rotates and rises or falls along lifter rack, and when driving health assembly to rise or fall shake-up K1 travel switch or K2 travel switch, the second deformation motor shuts down.

Preferably, at the bottom of described rear car, universal wheel component is installed.

Preferably, described health assembly arranging the 5th fixed pivot, described second deformation drives ripple case to be fixed on health assembly by described 5th fixed pivot.

Described door assembly is provided with for promoting the arm push rod of arm operation and for pushing down arm push rod to prevent it from exposing at the push rod casting die outside door assembly.

This utility model drives ripple case to drive deformation clutch to drive by the first deformation being arranged in rear car assembly, makes axis of rotation, and to drive health assembly hold up or fall down, and when health assembly touches travel switch, the first deformation drives ripple case to be automatically stopped; Additionally, this utility model drives ripple case to drive lifting output gear to rise or fall along lifter rack by the second deformation being arranged in body component, thus driving health assembly to rise or fall therewith, drive opening assembly to rise or fall accordingly simultaneously, and risen or downward by the opening board in opening assembly, drive car door cantilever to promote or hold door assembly, making door assembly open or close. Compared with prior art, this utility model achieves the process that toy car deforms to toy car to robot deformation and robot, enhances the recreational of toy and playability greatly, meets the demand of playing of child.

Accompanying drawing illustrates:

Fig. 1 is the schematic perspective view of this utility model variable body robot toy car;

Fig. 2 is the package assembly schematic diagram of this utility model variable body robot toy car;

Fig. 3 is the schematic diagram that the car door opening both hands after this utility model is deformed into robot put down;

Fig. 4 is the schematic diagram that the body rising after this utility model is deformed into robot separates with thigh;

Fig. 5 is the side sectional view of this utility model variable body robot toy car;

Fig. 6 is the cross-sectional view of this utility model variable body robot toy car;

Fig. 7 is the structural representation of deformation output gear;

Fig. 8 is that this utility model first deforms the structural representation driving ripple case;

Fig. 9 is the structural representation of deformation clutch structure;

Figure 10 is that this utility model second deforms the structural representation driving ripple case;

Figure 11 is that the second deformation drives the output gear of ripple case and the attachment structure schematic diagram of tooth bar;

Figure 12-1 is the structural representation of this utility model opening assembly; Figure 12-2a is the structural representation of this utility model door opening state opening assembly; Figure 12-2b is this utility model door opening state schematic diagram; Figure 12-3a is the structural representation that this utility model closes door state opening assembly; Figure 12-3b is that this utility model is closed the door view.

Figure 13 is this utility model universal wheel component and the installation site schematic diagram at the bottom of rear car;

Figure 14 is the structural representation of this utility model health assembly;

Figure 15 is the structural representation of this utility model body component;

Figure 16-1 is the structural representation of this utility model door assembly; View when Figure 16-2 closes for this utility model door assembly; View when Figure 16-3 opens for this utility model door assembly.

Identifier declaration in figure: rear car assembly 100, rear shell 102, at the bottom of rear car 103, universal wheel component 104, K3 travel switch 105, K4 travel switch 106, body component 200, K1 travel switch 201, K2 travel switch 202, 3rd deformation output gear 203, output gear 2031, rotating shaft 2032, fixing post 2033, health assembly 210, body 211, head 212, thigh assembly 213, lifter rack 214, opening assembly 220, opening board 2201, first fixed pivot 2202, spring 2203, handle 2204, second fixed pivot 2205, 3rd fixed pivot 2206, 4th fixed pivot 2207, lifting arm plate 2208, 5th fixed pivot 2209, guide groove 2210, guide rail 2211, body shell 230, door assembly 301, car door cantilever 3011, arm 302, arm push rod 3021, push rod casting die 3022, first deformation drives ripple case 400, deformation clutch 401, first output gear 4011, fixing axle 4012, travelling gear 4013, spring 4014, securing member 4015, drive transition tooth 402, output shaft 403, deformation clutch cover 404, deformation driving box upper cover 405, deformation driving box bottom 406, left drive motor 410, right drive motor 420, first deformation motor 430, deformable transition gear 432, second deformation drives ripple case 500, lifting output gear 501, second deformation motor 502, transition gear 503, deformation case motor cover 504, deformation case right cover 505, deformation case left cover 506.

Detailed description of the invention:

For setting forth thought of the present utility model and purpose, below in conjunction with the drawings and specific embodiments, this utility model is described further.

The present embodiment provides that a kind of recreational and playability is strong, can meet child plays the variable body robot toy car of demand, and it is controlled by remote controller, it may be achieved toy car becomes robot and robot is deformed into toy car.

As it is shown in figure 1, the schematic perspective view that Fig. 1 is this utility model variable body robot toy car.Variable body robot toy car described in the present embodiment mainly includes rear car assembly 100 and body component 200.

As in figure 2 it is shown, the package assembly schematic diagram that Fig. 2 is this utility model variable body robot toy car. Wherein rear car assembly 100 mainly include at the bottom of rear shell 102, rear car 103 and the first deformation of being arranged at the bottom of rear shell 102, rear car between 103 drive ripple case 400, deformation clutch 401, K3 travel switch 105 and K4 travel switch 106.

It is installed with the control circuit board for receiving remote controller control signal and the battery powered for control circuit board in 103 at the bottom of rear car, at the bottom of rear car, the bottom of 103 is provided with universal wheel component 104, to realize the operation (see Figure 13) that toy car is gone up in any direction.

Body component 200 includes health assembly 210 and thigh assembly 213 (Figure 11).

Health assembly 210 is provided with opening assembly the 220, second deformation wave case 500, body shell 230, door assembly 301 and arm 302.

Thigh assembly 213 is provided with K1 travel switch 201, K2 travel switch 202, lifter rack 214 and deformation output gear 203 (Figure 11, Figure 14).

As shown in Figure 6, Figure 7, Fig. 6 is the cross-sectional view of this utility model variable body robot toy car; Fig. 7 is the structural representation of deformation output gear. Deformation output gear 203 is made up of the 3rd output gear 2031, rotating shaft 2032 and fixing post 2033, and the 3rd output gear 2031 is fixedly mounted on fixing post 2033, and the bottom of rotating shaft 2032 is fixedly mounted in fixing post 2033.

As shown in Fig. 6, Fig. 8, Fig. 6 is the cross-sectional view of this utility model variable body robot toy car; Fig. 8 is that this utility model first deforms the structural representation driving ripple case. First deformation driving ripple case 400 is by deformation driving box upper cover 405, deformation driving box bottom 406 and is fixedly mounted on the left drive motor 410 between deformation driving box upper cover 405, deformation driving box bottom 406, right drive motor the 420, first deformation motor 430, drives transition tooth 402, output shaft 403 and deformable transition gear 432 to constitute.

First deformation motor 430 is in transmission connection with deformable transition gear 432; And left drive motor 410, right drive motor 420 and the first deformation motor 430 electrically connect with the control circuit board being arranged at the bottom of rear car in 103 respectively, the control signal exported by control circuit board is controlled it and runs.

Deformation clutch 401 is fixedly mounted on deformation driving box upper cover 405 by deforming clutch cover 404, first deformation motor 430 is in transmission connection by the travelling gear 4013 of deformable transition gear 432 with deformation clutch 401, being rotated by travelling gear 4013 drives the first output gear 4011 to rotate, and is resetted by spring 4014.

As it is shown in figure 9, the structural representation that Fig. 9 is deformation clutch structure. Deformation clutch 401 is made up of the first output gear 4011, fixing axle 4012, travelling gear 4013, spring 4014 and securing member 4015; Described fixing axle 4012 one end is fixing with the first output gear 4011 to be connected, and the other end is fixing with securing member 4015 after travelling gear 4013, spring 4014 to be connected.

First deformation motor 430 is in transmission connection by the travelling gear 4013 of deformable transition gear 432 with deformation clutch 401, is rotated by travelling gear 4013 and drives the first output gear 4011 to rotate; First output gear 4011 correspondence engages with the 3rd output gear 2031, and drive the 3rd output gear 2031 to rotate, driving connected rotating shaft 2032 to rotate thereby through the 3rd output gear 2031, when rotating shaft 2032 rotates, corresponding drive health assembly 210 is holded up or falls down.

Drive health assembly 210 can hold up therewith or fall down when rotating shaft 2032 rotates, and when health assembly 210 is holded up, complete the toy car change procedure to robot; And health assembly 210 is when falling down, complete the robot change procedure to toy car.

Owing to rear car assembly 100 being provided with K3 travel switch 105 and K4 travel switch 106, described deformation output gear 203 drive shaft 2032 rotates, when rotating shaft 2032 drives health assembly 210 to hold up or falls down to touch K3 travel switch 105 or K4 travel switch 106, the first deformation motor 430 shuts down.

When rotating shaft 2032 drive health assembly 210 hold up the highest spacing time, now illustrate to be deformed to robotary, now touch travel switch, first deformation motor 430 shuts down; Same, when rotating shaft 2032 drive health assembly 210 be lowered into minimum spacing time, now illustrate to be deformed to toy car state, now also can touch travel switch, the first deformation motor 430 also shuts down (see Fig. 3, Fig. 4) therewith.

What in the present embodiment, K3 travel switch 105 and K4 travel switch 106 represented respectively is two kinds of situations under toy car state and robotary.

Such as K4 travel switch 106 is when rotating shaft 2032 rotates, health assembly 210 is holded up, and correspondence is touched, and is now variable body robotary; And same, when when rotating shaft 2032 rotates, health assembly 210 falls down into, the corresponding K3 travel switch 105 that touches, it is now in toy car state.

Whether touching K3 travel switch 105, or touch K4 travel switch 106, the first deformation motor 430 all can shut down.

As Fig. 5,10, shown in Figure 15, Fig. 5 is the side sectional view of this utility model variable body robot toy car; Figure 10 is that this utility model second deforms the structural representation driving ripple case; Figure 15 is the structural representation of this utility model body component. Second deformation drives ripple case 500 to be made up of deformation case right cover 505, deformation case left cover 506, the second deformation motor 502 being fixedly mounted in deformation case right cover 505, the lifting output gear 501 being arranged in deformation case left cover 506 and the transition gear 503 being fixedly mounted between deformation case right cover 505 and deformation case left cover 506.

Wherein the second deformation motor 502 electrically connects with the control circuit board being arranged at the bottom of rear car in 103, the control signal exported by control circuit board is controlled it and runs, and second deformation motor 502 be in transmission connection with transition gear 503, described transition gear 503 is connected with lifting output gear 501 engagement, and when the second deformation motor 502 runs, correspondence drives lifting output gear 501 to rotate.

As shown in Figure 12-1, Figure 12-1 is the structural representation of this utility model opening assembly. Opening assembly 220 is fixedly mounted on health assembly 210, by opening board 2201, lifting arm plate 2208, it is arranged on the car door cantilever 3011 of the left and right sides, opening board 2201 upper end and the spring 2203 that is arranged on opening board 2201 to be connected with described car door cantilever 3011 is constituted, wherein opening board 2201 is provided with guide groove 2210.

As shown in Figure 11,12-2a, 12-2b, Figure 11 is that the second deformation drives the output gear of ripple case and the attachment structure schematic diagram of tooth bar; Figure 12-2a is the structural representation of this utility model door opening state opening assembly; Figure 12-2b is this utility model door opening state schematic diagram. Health assembly 210 includes body 211, head 212 and lifter rack 214.

Lifting output gear 501 engages with lifter rack 214, and health assembly 210 is provided with the 5th fixed pivot 2209, and described second deformation drives ripple case 500 to be fixed on health assembly 210 by described 5th fixed pivot 2209.When lifting output gear 501 and rotating, rise or fall along lifter rack 214 correspondence, and drive health assembly 210 to rise or fall.

Being provided with guide rail 2211 on health assembly 210, the activity of described opening board 2201 is fixed on described guide rail 2211, and can move up and down (see Figure 12-2b) along described guide rail 2211.

Described lifting arm plate 2208 is movably fixed in guide groove 2210, and can move up and down along guide groove 2210.

Owing to the second deformation drives ripple case 500 and health assembly 210 to be fixedly installed togather, therefore when the second deformation drives ripple case 500 to rise or fall along lifter rack 214, correspondence can drive health assembly 210 to rise or fall.

Opening assembly 220 is fixedly mounted on health assembly 210, when health assembly 210 rises or falls, drives opening assembly 220 to rise or decline therewith.

Thigh assembly 213 is provided with K1 travel switch 201 and K2 travel switch 202, lifting output gear 501 rotates and rises or falls along lifter rack 214, when driving health assembly 210 to rise or fall shake-up K1 travel switch 201 or K2 travel switch 202, now illustrate that health assembly 210 has arrived at upper limit; Similarly, when the second deformation drives the K2 travel switch 202 that ripple case 500 drops to lower end, corresponding shake-up K2 travel switch 202, now illustrate that health assembly 210 has arrived at lower limit. Regardless of whether when health assembly 210 rises or drops to K1 travel switch 201 or K2 travel switch 202, all illustrate to have reached Amoebida, now the second deformation motor 502 shuts down (see Fig. 2, Figure 11).

When lifting output gear 501 and rotating, the second deformation drives ripple case 500 to rise along lifter rack 214 is corresponding, and drives health assembly 210 to rise, when health assembly 210 rises, the opening assembly 220 being fixedly mounted on health assembly 210 rises therewith, and the spring 2203 on opening assembly 220 is close to the limit point on thigh assembly 213, stop when spring 2203 rises further up, now spring 2203 hauls lifting arm plate 2208 stopping rising, and lifting arm plate 2208 is fixing with health assembly 210 (the first fixed pivot 2202 upwards by the second fixed pivot 2205, second fixed pivot 2205 is downward), first fixed pivot 2202 and the second fixed pivot 2205 define an arm of force, lifting arm plate 2208 can only rotate downwards, lifting arm plate 2208 has a guide groove 2210, opening board 2201 is fixed in guide groove 2210 by a pin, rise therewith, thus promoting two car door cantilevers 3011 being contained on opening board 2201 to open to both sides, and promote door assembly 301, door assembly 301 is made to open (see Fig. 3, Fig. 4).

When the car door cantilever 3011 of opening board 2201 upper end is opened, the 3rd fixed pivot 2206 of car door cantilever 3011 and door assembly 301 junction moving and the 4th fixed pivot 2207 moves down simultaneously, opening thus realizing door assembly 301.

As shown in Figure 12-3a, 12-3b, Figure 12-3b is that this utility model is closed the door view; Figure 12-3a is the structural representation that this utility model closes door state opening assembly.

When lifting output gear 501 and rotating, the second deformation drives ripple case 500 to decline along lifter rack 214 is corresponding, and drives health assembly 210 to decline, when health assembly 210 declines, the opening assembly 220 being fixedly mounted on health assembly 210 declines therewith, and the spring 2203 on opening assembly 220 is close to the limit point on thigh assembly 213, spring 2203 stops to time downward further, now spring 2203 hauls lifting arm plate 2208 and stops downwards, and lifting arm plate 2208 is fixing with health assembly 210 (the first fixed pivot 2202 upwards by the second fixed pivot 2205, second fixed pivot 2205 is downward), first fixed pivot 2202 and the second fixed pivot 2205 define an arm of force, lifting arm plate 2208 can only rotate upwards, lifting arm plate 2208 has a guide groove 2210, opening board 2201 is fixed in guide groove 2210 by a pin, decline therewith, thus holding two car door cantilevers 3011 being contained on opening board 2201 to contract, and hold door assembly 301 to contract, door assembly 301 is made to close (see Fig. 3, Fig. 4).

When the car door cantilever 3011 of opening board 2201 upper end is held to contract, the 3rd fixed pivot 2206 of car door cantilever 3011 and door assembly 301 junction moves down and moves on the 4th fixed pivot 2207 simultaneously, closes thus realizing door assembly 301.

As shown in Figure 16-1,16-2,16-3, Figure 16-1 is the structural representation of this utility model door assembly; View when Figure 16-2 closes for this utility model door assembly; View when Figure 16-3 opens for this utility model door assembly. Door assembly 301 is provided with arm push rod 3021 and push rod casting die 3022, by described arm push rod 3021 can push-and-pull arm 302 extended or retracted, push rod casting die 3022 is then used for pushing down arm push rod 3021 to prevent it from exposing outside door assembly 301 in push-and-pull arm 302 process.

Arm push rod 3021 pulls arm 302 to rotate, and makes arm 302 be retracted in door assembly 301 (Figure 16-2).

Arm push rod 3021 promotes arm 302 to rotate, and makes arm 302 reach door assembly 301 outside (Figure 16-2).

No matter how above-mentioned arm push rod 3021 works, push down to prevent it from exposing outside door assembly 301 each through push rod casting die 3022.

In sum, this utility model utilize first deformation drive ripple case drive deformation clutch drive, make axis of rotation, thus driving health assembly hold up or fall down, and touch K3 K4 travel switch time, be automatically stopped.

After health assembly is holded up, the second deformation that can pass through to be arranged in body component drives ripple case to drive lifter wheel rise along lifter rack or decline, thus driving health assembly to rise or fall therewith, realize the process to robot deformation, and opening assembly also can be driven to rise or fall accordingly simultaneously, to drive door assembly to open or close, it is achieved arm exposes or packs up.

It is as follows that this utility model is deformed into robotic process from toy car: by pressing the variable body robot button of remote controller, control circuit board receives control signal corresponding first and drives the first deformation motor work in deformation wave case, now the first deformation driven by motor deformation clutch work, body component is realized upwardly-deformed with front truck assembly by deformation clutch, and when almost becoming 90 degree with body component with rear car assembly, correspondence is triggered to travel switch action, now then controls the first deformation motor and quits work; And now second drive deformation wave case to start, it is by being transferred to lifter rack, health assembly rises along lifter rack, so that body separates with thigh, namely body rises, and is contained in the spring top on the opening assembly at the body back side to thigh, is now arranged on the car door opening on body, when car door opening to a certain extent time, both hands put down.

Robot is to the deformation of toy car, contrary with said process.

After being deformed into robot, during turning: controlling revolver speed by the button of turning to the left of remote control, usual revolver speed is the 10% to 50% of right wheel speed, and now right wheel speed full speed aheads, thus reaching the effect turned. Similarly, when car is forward/backward: during by remote control forward/backward, it is possible to control left and right wheels speed and full speed ahead/retreat.

It is above a kind of variable body robot toy car provided by the utility model is described in detail, structural principle of the present utility model and embodiment are set forth by specific case used herein, and above example is only intended to help to understand method of the present utility model and core concept thereof; Simultaneously for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this specification content should not be construed as restriction of the present utility model.

Claims (7)

1. a variable body robot toy car, it is characterised in that including:

Rear car assembly (100), described rear car assembly (100) includes (103) at the bottom of rear shell (102), rear car and the first deformation of being arranged at the bottom of rear shell (102), rear car between (103) drives ripple case (400) and deforms clutch (401);Described first deformation drives ripple case (400) by deformation driving box upper cover (405), deformation driving box bottom (406) and to be fixedly mounted on the left drive motor (410) between deformation driving box upper cover (405), deformation driving box bottom (406), right drive motor (420), the first deformation motor (430), drive transition tooth (402), output shaft (403) and deformable transition gear (432) to constitute; Described first deformation motor (430) is in transmission connection with deformable transition gear (432); Described deformation clutch (401) is made up of the first output gear (4011), fixing axle (4012), travelling gear (4013), spring (4014) and securing member (4015); Described fixing axle (4012) one end is fixing with the first output gear (4011) to be connected, and the other end is connected through travelling gear (4013), spring (4014) are fixing with securing member (4015) afterwards;

Body component (200), described body component (200) includes health assembly (210) and thigh assembly (213), and described health assembly (210) is provided with opening assembly (220), the second deformation driving ripple case (500), body shell (230), door assembly (301) and arm (302); Described thigh assembly (213) is provided with lifter rack (214) and deformation output gear (203);

Described second deformation drives ripple case (500) to be made up of deformation case right cover (505), deformation case left cover (506), lifting output gear (501), the second deformation motor (502) being fixedly mounted in deformation case right cover (505) and the transition gear (503) being fixedly mounted between deformation case right cover (505) and deformation case left cover (506);

Described deformation output gear (203) is made up of the 3rd output gear (2031), rotating shaft (2032) and fixing post (2033), 3rd output gear (2031) is fixedly mounted on fixing post (2033), and the bottom of described rotating shaft (2032) is fixedly mounted in fixing post (2033);

Described opening assembly (220) is by opening board (2201), lifting arm plate (2208), spring (2203) and is arranged on the car door cantilever (3011) of opening board (2201) left and right sides, upper end and constitutes; Being provided with a guide groove (2210) on described lifting arm plate (2208), described opening board (2201) is fixed in guide groove (2210) by a pin, and can move up and down along described guide groove (2210);

Wherein, first output gear (4011) of described deformation clutch (401) engages with the 3rd output gear (2031) of deformation output gear (203), when first deforms motor (430) driving deformable transition gear (432) rotation, corresponding to travelling gear (4013) rotation in dynamic deformation clutch (401), the first output gear (4011) is driven to rotate by travelling gear (4013), and drive the 3rd output gear (2031) to rotate, so that rotating shaft (2032) rotates, and drive health assembly (210) hold up or fall down,

Described second deformation motor (502) is in transmission connection with lifting output gear (501) by described transition gear (503), described lifting output gear (501) is engaged with described lifter rack (214), and when lifting output gear (501) and rotating, rise or fall along lifter rack (214) correspondence, and drive health assembly (210) to rise or fall, when health assembly (210) rises or falls, the opening assembly (220) being arranged on health assembly (210) rises or falls therewith, spring (2203) on opening assembly (220) is close to the limit point on thigh assembly (213), stop when spring (2203) rises further up or declines, now spring (2203) hauls lifting arm plate (2208) stopping rising or downward, and opening board (2201) rises or downward therewith, promoted by car door cantilever (3011) or hold door assembly (301), door assembly (301) is made to open or close.

2. variable body robot toy car as claimed in claim 1, it is characterized in that, described rear car assembly (100) is also equipped with K3 travel switch (105) and K4 travel switch (106), described deformation output gear (203) drive shaft (2032) rotates, when rotating shaft (2032) drives health assembly (210) to hold up or fall down to touch K3 travel switch (105) or K4 travel switch (106), the first deformation motor (430) shuts down.

3. variable body robot toy car as claimed in claim 2, it is characterized in that, described left drive motor (410) and right drive motor (420) are in transmission connection with driving transition tooth (402) respectively, and drive toy car to advance, retreat and turn to by described driving transition tooth (402).

4. variable body robot toy car as claimed in claim 3, it is characterized in that, described thigh assembly (213) is also equipped with K1 travel switch (201) and K2 travel switch (202), lifting output gear (501) rotates and rises or falls along lifter rack (214), when driving health assembly (210) to rise or fall shake-up K1 travel switch (201) or K2 travel switch (202), the second deformation motor (502) shuts down.

5. variable body robot toy car as claimed in claim 1, it is characterised in that be provided with universal wheel component (104) on (103) at the bottom of described rear car.

6. variable body robot toy car as claimed in claim 4, it is characterized in that, arranging the 5th fixed pivot (2209) on described health assembly (210), described second deformation drives ripple case (500) to be fixed on health assembly (210) by described 5th fixed pivot (2209).

7. variable body robot toy car as claimed in claim 4, it is characterized in that, described door assembly (301) is provided with the arm push rod (3021) for promoting arm (302) to run and is used for pushing down arm push rod (3021) to prevent it from exposing the push rod casting die (3022) in door assembly (301) outside.