CN201510746U - Manual transformable toy car - Google Patents

Abstract

The utility model provides a manual transformable toy car which comprises a car body capable of being taken as a deformed robot body besides as a car body, a car front wheel and a car rear wheel; and the manual transformable toy car is characterized in that an accommodating cavity is arranged in front of the car body, and robot feet capable of being pulled out outwardly and capable of standing on the ground after overturning are arranged in the accommodating cavity. By adopting the structure that the robot feet capable of being pulled out outwardly and capable of standing on the ground after overturning are arranged in front of the car body, the robot feet are pulled out and overturned, so that the car body can stand on the ground by means of the robot feet so as to be transformed into a robot toy; the design is simple, and the change is quick and convenient; and the robot feet are pulled out outwardly and can stand on the ground after overrunning forwards, the standing can't easily turn to be unstable due to the angle turning and the own weight, therefore, the toy car can better meet the requirements of the children, seems more interesting for the children to play with and can be widely applied to the toy industry.

Description

The toy car that can manually be out of shape

Technical field

The utility model relates to a kind of toy car, specifically is a kind of toy car that can manually be out of shape.

Background technology

Existing toy car can't change shape mostly, be purpose mainly to pursue its driving performance or turn performance, thereby make child like going up such toy car, but development along with science fiction films such as animation or films, the plot of increasing distortion and so on has attracted liking of more children, so child likes toy car and the single toy car of liking robot to develop into liking being deformed into robot from single, so also just occurred the form deformation toy car on the market, but present form deformation toy car or be designed to manually or is designed to electronic.But manually form deformation toy design mostly more complicated, what have is arranged on robot foot on the following base, can stand firm on ground to guarantee the robot after the distortion, and the bottom of robot after the distortion still is the shape of carriage underframe, thereby make both images of conversion front and back change little, and seem very heavy, be difficult to attract child's attention; What have then is that robot foot is designed to laterally rotate the side that leans against car body, but so not only more complicated when distortion, and the robot foot after rotating is easy to produce displacement because of rotational angle and own wt when standing, make this robot foot be not steady on one's legs, thereby be difficult to satisfy child's requirement, make that child is very fast it is lost enjoyment.

Summary of the invention

At above-mentioned existing in prior technology problem, it is ingenious, simple in structure that the purpose of this utility model provides a kind of design, and image changes greatly during distortion, and firm position, the interesting strong toy car that can manually be out of shape.

For achieving the above object, the technical scheme that the utility model adopted is: the utility model provides a kind of toy car that can manually be out of shape, comprise not only being vehicle body but also be car body and the car front-wheel and the back wheels of vehicle of the robot body after the distortion, be characterized in that described car body the place ahead is provided with containing cavity, be provided with the robot foot that can stand on ground after can outwards pulling out and overturn in the described containing cavity.

For robot foot can be longer pull out, the shank of above-mentioned robot foot is made up of the thigh and the shank that can stretch mutually, described thigh upper end is provided with guide pillar, correspondence is provided with guide groove in the above-mentioned containing cavity, the guide pillar of described thigh inserts in the guide groove and can slide in guide groove, described thigh lower end is provided with the grooved hole, described shank upper end by be provided with inserting column be plugged in realizes in the grooved hole shank relatively thigh stretch, the lower end of described shank is connected with axis hole by jack-post with above-mentioned sole.

Control this toy car in order to make this toy car can put into small-sized public young this small-sized public son of simulation, the top of above-mentioned car body is provided with a cavity, and the top of described cavity is connected with the car bonnet that can upwards raise.Therefore small-sized public son can be put in the cavity, cover car bonnet again, simulate small-sized public son and control this toy car, so further strengthen its interest.

The utility model is owing to adopted and be provided with the structure that can stand on the robot foot on ground after can outwards pulling out and overturn in described car body the place ahead, by pulling out described robot foot and with its upset, thereby described car body can be stood on the ground by described robot foot, be deformed into the robot toy, its simplicity of design, change efficient and convenient, and described robot foot be outwards pull out and by forwards the upset after stand on ground, so can be uneasily do not cause being not steady on one's legs because of rotational angle and own wt, thereby more can satisfy child's requirement, more can attract child's the interest of playing; Again owing between the shank of described robot foot and sole, be provided with handsetting gear and swinging plate, utilize between handsetting gear and the swinging plate or the robot or the robot foot that are used after can guaranteeing to rotate of two toothed discs can both be positioned required angle, therefore can satisfy child's operation requirement, utilize the vibration bump between handsetting gear and the swinging plate to sound simultaneously, thereby make when form deformation toy, to have phonoreception, further strengthened the interest of this toy.In sum, the toy car that can manually be out of shape described in the utility model, its simplicity of design, ingenious, simple and quick have interest again, and firm position, and long service life has greatly satisfied the needs that the player plays, and can be widely used in toy industry.

The utility model is described in further detail below in conjunction with drawings and Examples.

Description of drawings

Fig. 1 is the perspective view of toy car state of the present utility model;

Fig. 2 is the perspective view of toy robot state of the present utility model;

Fig. 3 is the decomposition texture schematic diagram of toy robot state of the present utility model;

Fig. 4 is the cross-sectional view of robot foot of the present utility model.

The specific embodiment

As shown in Figures 1 to 4, a kind of toy car that can manually be out of shape, comprise not only being vehicle body but also be car body 1 and the car front-wheel 11 and the back wheels of vehicle 12 of the robot body after the distortion, in order to make standing on the ground that this toy car can be firm when being transformed into robot, this embodiment is provided with containing cavity 13 in car body 1 the place ahead, be provided with the robot foot 3 that can stand on ground after can outwards pulling out and overturn in this containing cavity 13, by pulling out this robot foot 3 and with its upset, thereby car body 1 can be stood on the ground by robot foot 3, its simplicity of design, change efficient and convenient, and this robot foot 3 be outwards pull out and by forwards the upset after stand on ground, so can be uneasily because of rotational angle and own wt cause being not steady on one's legs, thereby more can satisfy child's requirement, more can attract child's the interest of playing.

As shown in Figure 1, the containing cavity 13 of this car body 1 leading section is rectangle, and this robot foot 3 just is installed in this containing cavity 13, this robot foot 3 is connected to form for 33 3 sections by the sole 31 that can rotate mutually, shank 32, thigh, wherein thigh 33 for top for guide pillar 331, below be the plate body in a grooved hole 332, respectively be provided with a guide groove 131 about in containing cavity 13, the guide pillar 331 of its upper end is connected with the guide groove 131 in the containing cavity 13, so thigh 33 can slide up and down in the containing cavity 13 of car body 1; Shank 32 is formed for back side plate adds biside plate, wherein the upper end of biside plate is provided with jack-post 322, the lower end is provided with inserting column 321, the width of shank 32 is wideer than the width of thigh 33, lower end with thigh 33 during connection is inserted in the shank 32, and the jack-post on the shank 32 322 is passed in the grooved hole 332 of thigh 33, thereby shank 32 can be slided in its jack-post 322 rotates and can the grooved hole 332 at thigh 33 and play flexible effect; The ankle of sole 31 is provided with biside plate equally, and its distance is greater than the distance of shank 32 biside plates, on side plate, be provided with two jacks 311, shank 32 injected between the biside plate of soles 31 and shank 32 is connected with sole 31 by the jack 311 that inserting column 321 passes sole 31 lower ends.As shown in Figure 3, on the inserting column 321 of shank 32, be provided with handsetting gear 43, below the jack of sole 31, be provided with swinging plate 42, the teeth of the end of this swinging plate 42 and handsetting gear 43 are halved together, sound by rotating that sole 31 drives swinging plate 42 rotations and stirring mutually with handsetting gear 43, wherein this swinging plate 42 is made as the T-shape plate, the upper end of this T-shape plate is provided with a screw, the bottom is convex to be provided with a sliding piece 421, and be provided with screw in the bottom of sole 31 correspondence, by screw 5 with the bottom of swinging plate 42 interlockings to sole 31, and make on the swinging plate 42 sliding piece 421 up, make sliding piece 421 just with shank 32 on handsetting gear 43 be halved together, this handsetting gear 43 is fixing being installed on sole 31 and the mandrel that shank 32 is connected of can't rotating, and between shank 32 biside plates 321, therefore when rotating sole 31, swinging plate 42 on the sole 31 relatively rotates, so sliding piece 421 just pushes mutually with the teeth of handsetting gear 43, but because the other end of swinging plate 42 is fixing, and sliding piece 421 place ends are hanging relatively, so outwardly-bent slightly distortion of meeting under the component of extruding force, can separate with the teeth of place mutual extrusion handsetting gear 43 until sliding piece 421, sliding piece can be replied shape and be rabbeted next teeth this moment, send the sound of " click " simultaneously with this teeth bump, as shown in Figure 4, therefore when child rotates sole 31, also can send the sound of " click click ", thereby make and when form deformation toy, have phonoreception, more can attract child's the interest of playing, and because clamping mutually between swinging plate 42 and the handsetting gear 43 is arranged, so after the sole 31 of rotary machine people pin 3 arrives desired position, under the restriction of swinging plate 42 and handsetting gear 43, robot foot can be because of the self reason astasia, therefore can guarantee child's operation requirement, satisfy child's the demand of playing and interest.

As Fig. 1 or Fig. 2 or shown in Figure 3, this car front-wheel 11 is arranged on the forward end both sides of car body 1, be provided with wheel shaft in car body 1 both sides that are positioned at car front-wheel 11, this car front-wheel 11 is placed on the wheel shaft, this car body 1 is hinged with robot 2 by the both sides, rear end, and back wheels of vehicle 12 is arranged at arm 21 rearward end of robot 2, the both sides, rear end of this arm 21 extend back two location-plates 211, on location-plate 211, be provided with two axis holes 212, back wheels of vehicle 12 is loaded on the axis hole 212 that also will take turns between two location-plates 211 on the aligning location-plate 211 of hole, by a mandrel they are stringed together again, so when being deformed into toy car, this toy car can roll by car front-wheel 11 and back wheels of vehicle 12 ground and drive its walking.This robot 2 is to be hinged by the inboard of arm 21 and car body 1, but its hinged syndeton that is made as sounding, wherein be provided with a circular-shaped, concave cavity in arm 21 inboards of robot 2, in the middle of then convexing with, the respective side of car body 1 is similarly the protruding dish of circular-shaped, concave cavity, in the circular-shaped, concave cavity of the circular-shaped, concave cavity of arm 21 inboards and protruding dish, be provided with a pair of pitch wheel dish 41, wherein be arranged in toothed disc 41 on the car body 1 and be the circular-shaped, concave cavity that is fixed on protruding dish, do not turn and also can not move axially, and the circular-shaped, concave cavity that the toothed disc 41 at robot 2 places can be arranged in arm 21 axially moves by a small margin, but can not itself rotate relative to robot 2 too, so in the time of rotary machine staff 2, the teeth of the toothed disc 41 on the robot 2 and the teeth lateral compression of the toothed disc 41 on the car body 1, toothed disc 41 on the robot 2 can move axially a bit of because of the component of extruding backward at this moment, turning to car body 1 until the teeth on it cogs on dish another teeth of 41, thereby collide with another teeth, send the sound of " click ".Therefore when child when rotary machine staff 2 is out of shape, can be accompanied by the sound of " click click ", and when forwarding a position to, robot 2 can be meshing with each other all with the toothed disc 41 of car body 1 at every turn, so robot 2 can be fixed on that position, thereby satisfies child's operation requirement.Arm 21 front ends at robot 2 are provided with a through hole 213, be provided with two joint pars contractilis 22 in the described through hole 213, it is bigger than a following joint pars contractilis 22 wherein to be positioned at a top joint pars contractilis 22, be that little pars contractilis 22 can be reduced in the big pars contractilis 22, the upper end of big pars contractilis 22 is provided with a baffle plate, baffle plate is the inside that is inlaid in arm 21 during installation, so big pars contractilis 22 can not drop out arm 21 when flexible, front end at little pars contractilis 22 is provided with robot fist 6, the rearward end of this robot fist 6 is provided with a circular hole, the leading section of little pars contractilis 22 is provided with a circular block plate, this circle block plate is plugged in the circular hole of robot fist, thereby make rotating of this robot fist 6 around little pars contractilis 22, just the through hole 213 with arm 21 front ends is the same big for the latter half of size of this robot fist 6 in addition, so when shrinking robot 2, the latter half of branch of its pars contractilis 22 and fist 6 all can take in the arm 21 of robot 2, when shrinking the back and it being forwarded to when parallel with car body 1,2 beater or beat-ups that are deformed into back wheels of vehicle 12 of this robot, when turning an angle, then may be deformed to robot 2 when stretching and with it.Front end at robot fist 6 also is provided with robot finger 7, this robot finger 7 is modeled to the bore mouth, the both sides of these robot finger 7 rear ends are provided with protruding axle 71, robot fist 6 leading sections are provided with a recess, two medial end correspondences at recess are provided with and can by protruding axle 71 is connected with axis hole 61 robot finger 7 can be rotated relative to robot fist 6 for the axis hole 61 of protruding axle 71 connections.Arm 21 anterior end in robot are provided with firearms window 23 to be opened/closed, the upper end of this firearms window 23 is connected with arm 21 front sides by axle, the lower end then be provided with can with the button limit of arm 21 front side fastenings, inside after firearms window 21 is opened is provided with shrinkage pool 83, be provided with firearms 81 in this shrinkage pool 83, the rear end of these firearms 81 is connected with spring 82, so when firearms window 23 was opened, firearms 81 can outwards eject shrinkage pool 83 under the elastic force effect of spring 82.

This embodiment only needs by rotating flexible robot 2 and robot foot 3 just can make toy car be deformed into robot or robot is deformed into toy car, it is out of shape simple and fast, so child's deformation velocity of the distortion car in the real simulated TV more when playing, therefore more can attract child's the enjoyment and liking of playing, more can strengthen the interest of this toy, and manually distortion be not easy damage, thereby can improve its service life.In order further to strengthen its interest, make this toy car can put into small-sized public young this small-sized public son of simulation and control this toy car, this embodiment is provided with a cavity 14 above car body 1, the top of this cavity 14 is connected with the car bonnet 15 that can upwards raise, this car bonnet 15 can be transparent also can be opaque, in cavity 14, be provided with the parking stall seat of forming by seat board 91 and backboard 92 9, wherein parking stall seat 9 is to extend outward two rotating shafts 93 by its both sides, and the two ends of rotating shaft 93 are connected with the two side of cavity 14 is relatively turnable, and backboard 92 also is connected with axis hole by axle with the junction of seat board 91, so backboard 92 can be around seat board 91 swings, therefore when this toy is deformed into the toy car form, seat board 91 can be put the state parallel with the bottom surface of cavity 14, backboard 92 is put perpendicular to seat board 91 or is slightly receded, can be placed into small-sized public son on the seat board 91 this moment, covers car bonnet 15 again, simulates small-sized public son and control this toy car and travel; When this toy is deformed into the toy robot form, seat board 91 can be put the state vertical with the bottom surface of cavity 14, backboard 92 is put perpendicular to seat board 91 or is slightly receded at this moment, small-sized public son can be put on the seat board 91 equally, cover car bonnet 15 again, simulate small-sized public son and control this toy robot.

Although the utility model is to describe with reference to specific embodiment, this description and not meaning that is construed as limiting the utility model.With reference to description of the present utility model, other of the disclosed embodiments change, and all can expect for those skilled in the art, and this variation should belong in the affiliated claim institute restricted portion.

Claims (10)

1. toy car that can manually be out of shape, comprise not only being vehicle body but also be car body (1) and the car front-wheel (11) and the back wheels of vehicle (12) of the robot body after the distortion, it is characterized in that described car body (1) the place ahead is provided with containing cavity (13), be provided with the robot foot (3) that can stand on ground after can outwards pulling out and overturn in the described containing cavity (13).

2. the toy car that can manually be out of shape according to claim 1, it is characterized in that above-mentioned robot foot (3) includes shank and sole (31), wherein said shank can be installed in the above-mentioned containing cavity (13) relatively slidably, described sole (31) can be installed on the described shank relatively turningly, by pulling out described shank and the described sole (31) that overturns can make above-mentioned car body (1) stand on ground by described robot foot (3).

3. the toy car that can manually be out of shape according to claim 2, it is characterized in that above-mentioned shank is made up of the thigh (33) that can stretch mutually and shank (32), described thigh (33) upper end is provided with guide pillar (331), correspondence is provided with guide groove (131) in the above-mentioned containing cavity (13), the guide pillar (331) of described thigh (33) inserts in the guide groove (131) and can slide in guide groove (131), described thigh (33) lower end is provided with grooved hole (332), described shank (32) upper end by be provided with jack-post (322) be plugged in realizes in the grooved hole (332) shank (32) relatively thigh (33) stretch, the lower end of described shank (32) is connected with jack (311) by inserting column (321) with above-mentioned sole (31).

4. the toy car that can manually be out of shape according to claim 3, the inserting column (321) that it is characterized in that above-mentioned shank (32) is provided with handsetting gear (43), the below of above-mentioned sole (31) jack (311) is provided with swinging plate (42), the teeth of the end of described swinging plate (42) and handsetting gear (43) are halved together, and sound by rotating that sole (31) drives swinging plate (42) rotation and stirring mutually with handsetting gear (43).

5. the toy car that can manually be out of shape according to claim 4, it is characterized in that above-mentioned swinging plate (42) is the T-shape plate, the bottom of described swinging plate (42) is provided with the sliding piece (421) that teeth protruding to an end and above-mentioned handsetting gear (43) are halved together, be provided with screw in the middle of the upper end of described swinging plate (42), the bottom correspondence of described sole (31) is provided with screw, by screw (5) locking screw can make swinging plate (42) be fixed on sole (31) go up make swinging plate (42) the lower end relatively handsetting gear (43) stir.

6. the toy car that can manually be out of shape according to claim 1, it is characterized in that above-mentioned car body (1) is provided with robot (2) by the both sides, rear end, above-mentioned back wheels of vehicle (12) is arranged at arm (21) rearward end of described robot (2), the front end of described arm (21) is provided with at least one joint pars contractilis (22), can make it be deformed into robot or retraction pars contractilis (22) can make it be deformed into the beater or beat-up of back wheels of vehicle (12) by stretching out pars contractilis (22).

7. the toy car that can manually be out of shape according to claim 6, arm (21) front end that it is characterized in that above-mentioned robot (2) is provided with two joint pars contractilis (22), wherein last joint pars contractilis (22) may compress in another joint pars contractilis (22), the front end of the pars contractilis of described last joint (22) is connected with the robot fist (6) that can rotate to it, and described two joint pars contractilis (22) and robot fists (6) latter half of all is collapsible in the arm (21) of robot (2).

8. the toy car that can manually be out of shape according to claim 7, the front end that it is characterized in that above-mentioned robot fist (6) is provided with robot finger (7), described robot finger's (7) two ends are provided with protruding axle (71), described robot fist (6) correspondence is provided with and can with the connection of axis hole (61) robot finger (7) can be rotated by protruding axle (71) relative to robot fist (6) for the axis hole (61) of protruding axle (71) connection.

9. according to claim 6 or the 7 described toy cars that can manually be out of shape, arm (21) front end that it is characterized in that above-mentioned robot (2) is provided with firearms window to be opened/closed (23), is provided with in the described firearms window (23) when firearms window (23) is opened and can ejects firearms device (8) automatically.

10. the toy car that can manually be out of shape according to claim 1, the top that it is characterized in that above-mentioned car body (1) is provided with a cavity (14), the top of described cavity (14) is connected with the car bonnet (15) that can upwards raise, be provided with the parking stall seat of forming by seat board (91) and backboard (92) (9) in the described cavity (14), described parking stall seat (9) is by extending relatively turnable connection of two side of two rotating shafts (93) and cavity (14), the connection that described seat board (91) and backboard (92) can be swung relatively.

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