CN102698443B - Vehicle toy transformation device, vehicle toy transformation method of the device, and vehicle toy - Google Patents

Abstract

The present invention provides a vehicle toy transformation device, a vehicle toy transformation method of the device, and a vehicle toy. The vehicle toy is provided with a first state and a second state on the back surface, and the vehicle toy can be mechanically transformed and changed between the states through the transformation device and the transformation method. Through moving a second arm (50) inserted into the inside part of a vehicle toy (80) of a first carrying position (30) upward, connecting and rotating constructional elements (82a, 82b, 82c, 82d) can be rotated, rotating constructional elements (83, 84) are rotated to the external side of the vehicle toy through dead weight, the vehicle toy is rotated around a rotating shaft (44) of a first arm (40), the rotating constructional elements rotated to the external side of the vehicle toy are abutted with guide constructional elements (60, 62) and overturned, the connecting and rotating constructional elements abutted with the second arm are overturned, thus the vehicle toy can be transformed into another vehicle state from the first vehicle state or the second vehicle state.

Description

The toy vehicles deformation method of toy vehicles deformation device, this device and toy vehicles

Technical field

The present invention relates to the deformation device of toy vehicles, the toy vehicles deformation method of this device and the toy vehicles that change form.

Background technology

In the past, in patent document 1, a kind of toy vehicles that can be deformed into the 1st form and the 2nd form was proposed.Which propose such structure: there is matrix component and at least two or more revolving member, the surface of this matrix component forms a part for the 1st form and a part for back side formation the 2nd form, revolving member is incorporated into above-mentioned matrix component respectively rotationally, effects on surface and the back side use different outward appearances and make a part for above-mentioned 1st form of above-mentioned surface presentation and the above-mentioned back side presents the part of above-mentioned 2nd form, the respective end of at least two revolving members in above-mentioned two or more revolving member has the linking part interlinking and above-mentioned toy vehicles is remained above-mentioned 1st form or above-mentioned 2nd form, when above-mentioned toy vehicles is above-mentioned 1st vehicle form, the above-mentioned back side of above-mentioned matrix component is covered by above-mentioned two or more revolving member and becomes invisible mode, the wheel of toy vehicles is provided with at above-mentioned matrix component, the side face of this wheel is given prominence to from the surface of above-mentioned matrix component and the back side.

Patent document 1: Japanese Patent Laid No. 4527188 publications

But, in above-mentioned patent document 1, different outward appearances (the 1st form and the 2nd form) is given to the surface of each several part of toy vehicles and the back side, each several part is not separated and just can converts between surface and the back side, and when being combined into one of them state, another is sightless state (completely cannot from external view identification dorsal part, cannot visual identity to the state of the degree of unpredictable back side state).

And user is with manually making toy vehicles deformation between the 1st form and the 2nd form.From the viewpoint of intellectual education, being out of shape by being thought deeply by child, can effect being given full play to, but further develop such from the viewpoint of toy, also seek automatically to be out of shape.

Summary of the invention

Thus, the object of the present invention is to provide the table back of the body have the 1st form and the 2nd form toy vehicles, can the deformation device of deformation between this each form of machinery and deformation method.

Toy vehicles deformation device of the present invention can make toy vehicles be another vehicle form from any one the vehicle Morphological Transitions the 1st vehicle form or the 2nd vehicle form, this toy vehicles comprises: matrix component, its surface forms a part for above-mentioned 1st vehicle form, and its back side forms a part for above-mentioned 2nd vehicle form; At least plural revolving member, it is incorporated into above-mentioned matrix component respectively rotationally, with a part for the above-mentioned 1st vehicle form of above-mentioned matrix component continuous print surface presentation, and presents a part for above-mentioned 2nd vehicle form with the above-mentioned matrix component continuous print back side; Link revolving member, it has the linking part that other revolving members in above-mentioned revolving member and above-mentioned matrix component are combined respectively, for keeping above-mentioned 1st vehicle form or above-mentioned 2nd vehicle form; Wherein, this toy vehicles deformation device comprises: pedestal, and it is for loading above-mentioned toy vehicles; 1st arm, it is supported on the turning cylinder that configures abreast with the toy vehicles mounting surface of said base at the adjacent position axle of the 1st mounting position of above-mentioned toy vehicles, support and be in the end that the above-mentioned 1st loads the above-mentioned matrix component that the above-mentioned linking part in the toy vehicles of position combines, can make above-mentioned matrix component from above-mentioned 1st mounting position centered by above-mentioned turning cylinder, the turn to opposition side the 2nd loads position; 2nd arm, itself and above-mentioned turning cylinder configure substantially in parallel, and can be moved upward relative to above-mentioned 1st mounting position, be inserted into the toy vehicles being in above-mentioned 1st mounting position inner, be connected to above-mentioned link revolving member and limit the rotation caused by above-mentioned 1st arm, the combination of above-mentioned linking part can be removed and change the form of above-mentioned link revolving member; Guiding elements, it is configured in the position except scope directly over above-mentioned 1st mounting position and is positioned at the outer fix of the above-mentioned rotating shaft direction width of above-mentioned toy vehicles, is at least connected with gap with some with other revolving members above-mentioned in scope directly over above-mentioned turning cylinder.

In addition, toy vehicles deformation method of the present invention is the toy vehicles deformation method of above-mentioned toy vehicles deformation device, wherein, comprises the steps, above-mentioned toy vehicles is positioned in the 1st mounting position of said base, makes the overhang bracket of above-mentioned matrix component in above-mentioned 1st arm; Above-mentioned 2nd arm is inserted into above-mentioned toy vehicles inner; By making above-mentioned 2nd arm be moved upward, above-mentioned link revolving member is rotated relative to above-mentioned matrix component, remove above-mentioned link revolving member and utilize above-mentioned linking part and the combination between other revolving members above-mentioned and above-mentioned matrix component, other revolving members above-mentioned utilize deadweight to rotate outside above-mentioned toy vehicles; While making above-mentioned 2nd arm be moved upward the position departing from the slewing area that above-mentioned matrix component utilizes above-mentioned 1st arm to obtain, start above-mentioned 1st arm is rotated around above-mentioned turning cylinder; Rotated around above-mentioned turning cylinder by above-mentioned 1st arm, after above-mentioned matrix component have passed the below of above-mentioned 2nd arm, utilize deadweight other revolving members above-mentioned turned to outside above-mentioned toy vehicles to be connected to above-mentioned guiding elements, the toy vehicles inside face limited now becomes the state of exterior face; Rotated further around above-mentioned turning cylinder by above-mentioned 1st arm, be connected to the above-mentioned link revolving member upset of above-mentioned 2nd arm, make toy vehicles inside face now become exterior face, utilize above-mentioned linking part to engage with other revolving members above-mentioned limited by above-mentioned guiding elements; Utilize above-mentioned 1st arm to make above-mentioned toy vehicles turn to the 2nd mounting position, above-mentioned link revolving member utilizes above-mentioned linking part to engage with above-mentioned matrix component; Be another vehicle form by toy vehicles from any one the vehicle model deformation above-mentioned 1st vehicle form or the 2nd vehicle form.

And, toy vehicles of the present invention can utilize above-mentioned toy vehicles deformation device or the distortion of toy vehicles deformation method, and wherein, this toy vehicles comprises: matrix component, its surface forms a part for the 1st vehicle form, and its back side forms a part for the 2nd vehicle form; At least two or more revolving member, it is incorporated into above-mentioned matrix component respectively rotationally, with a part for the above-mentioned 1st vehicle form of above-mentioned matrix component continuous print surface presentation, and presents a part for above-mentioned 2nd vehicle form with the above-mentioned matrix component continuous print back side; Link revolving member, it has the linking part that other revolving members in above-mentioned revolving member and above-mentioned matrix component are combined respectively, for keeping above-mentioned 1st vehicle form or above-mentioned 2nd vehicle form; 1st insert port, it can insert for above-mentioned 1st arm being arranged on the position adjacent with the above-mentioned linking part of above-mentioned link revolving member; 2nd insert port, it can insert for above-mentioned 2nd arm of the position being arranged on other revolving members above-mentioned relative with above-mentioned 2nd arm; When above-mentioned toy vehicles is above-mentioned 1st vehicle form, the above-mentioned back side of above-mentioned matrix component is covered by above-mentioned two or more revolving member and becomes invisible mode, when above-mentioned toy vehicles is above-mentioned 2nd vehicle form, the above-mentioned surface of above-mentioned matrix component is covered by above-mentioned two or more revolving member and becomes invisible mode.

Adopt the present invention, for the toy vehicles at the table back of the body with the 1st vehicle form and the 2nd vehicle form, toy vehicles deformation device and the toy vehicles deformation method of mechanically deformation between each form can be provided.

Accompanying drawing explanation

Fig. 1 is the stereogram of toy vehicles deformation device of the present invention.

(a) of Fig. 2 is the partial perspective view comprising the 1st arm of the toy vehicles deformation device shown in Fig. 1, the 2nd arm and guiding elements, and (b) of Fig. 2 is the partial perspective view of mobile status of the 1st arm represented in Fig. 2 (a), the 2nd arm.

Fig. 3 is the stereogram of toy vehicles of the present invention.

Fig. 4 represents the stereogram from the cruiser of the 1st vehicle form as the toy vehicles shown in Fig. 3 to the change starting stage of the commercial vehicle as the 2nd vehicle form.

(a) of Fig. 5 is the toy vehicles of state and the side view of pedestal of the 1st mounting position being positioned in pedestal, (b) of Fig. 5 is the side view of the change starting stage of the toy vehicles shown in Fig. 5 (a), (c) of Fig. 5, from Fig. 5 (b) change and from the side view after the vehicle form on surface has just been turned to the vehicle form at the back side further, (d) of Fig. 5 is from Fig. 5 (c) change and be turned to the side view of the toy vehicles of the state after the vehicle form at the back side from the vehicle form on surface completely further.

Fig. 6 is the partial perspective stereogram of the main Poewr transmission mechanism relevant to the 1st arm representing toy vehicles deformation device of the present invention.

Fig. 7 is the partial perspective stereogram of the main Poewr transmission mechanism relevant to the 2nd arm representing toy vehicles deformation device of the present invention.

Fig. 8 is the partial perspective stereogram of the main Poewr transmission mechanism relevant to the 2nd arm representing toy vehicles deformation device of the present invention.

Detailed description of the invention

Below, the preferred embodiment of toy vehicles deformation device of the present invention and toy vehicles is described with reference to accompanying drawing.

Fig. 1 is the stereogram of toy vehicles deformation device of the present invention, (a) of Fig. 2 is the partial perspective view comprising the 1st arm of the toy vehicles deformation device shown in Fig. 1, the 2nd arm and guiding elements, and (b) of Fig. 2 is the partial perspective view of mobile status of the 1st arm represented in Fig. 2 (a), the 2nd arm.

The toy vehicles deformation device 10 of present embodiment is configured with each component on pedestal 20.Pedestal 20 is configured with the 1st mounting position 30 of toy vehicles, the 2nd mounting position 32, the 1st arm 40, the 2nd arm 50, the 2nd arm travelling slit 56, guiding elements 60,62 and rotating operating handle 70.

1st mounting position 30 is arranged on pedestal ground 22.On pedestal ground 22, it is adjacent and configure with being parallel to toy vehicles mounting surface that turning cylinder 44 and the 1st loads position 30, and the rotatably mounted ground axle suspension of the 1st arm 40 is on this turning cylinder 44.1st arm 40 is equipped with fork catch 42.It is two right that fork catch 42 is equipped with, and the initial position of rotation is towards the 1st mounting direction, position 30.Secondly, the 2nd mounting position 32 is arranged on and loads opposition side, position 30 relative to the 1st on turning cylinder 44 center and pedestal ground 22.So as shown in (b) of Fig. 2, fork catch 42 can get up from the 1st mounting position 30, and rotate moving axis 44 central rotation, and the 2nd mounting side, position 32 to opposition side is rotated.At this, the fork catch 42 of the 1st arm 40 has the interval of the prong of vehicle frame 81 with sandwiching with a gap as matrix component described later, and comprises two right, thus can stably support toy vehicles 80 described later in the direction of rotation of the 1st arm 40.

2nd arm 50 is given prominence to from pedestal wall 24 roughly concurrently with turning cylinder 44 and is configured above the 1st mounting position 30.For guiding the 2nd arm travelling slit 56 of the movement of the 2nd arm 50 as the slit opening with pedestal ground 22 vertical direction on pedestal wall 24, as shown in (b) of Fig. 2, the 2nd arm 50 can be made to be moved upward relative to the 1st mounting position 30.2nd arm 50 has protrudent pin 54 that is extended or that retract in its leading section 52.1st mounting position 30 is placed with toy vehicles 80 described later, and when the 2nd arm 50 is in lowest positions in slit, if protrudent pin 54 is given prominence to, toy vehicles 80 can be inserted into inner.That is, the lowest positions of the 2nd arm 50 in slit is and is placed in the 1st and loads the overlapping position of the toy vehicles 80 of position 30.

A pair guiding elements 60,62 is configured in the outer fix of the width of turning cylinder 44 axis of toy vehicles 80 described later directly over the turning cylinder 44 that the scope directly over position 30 that do not load with the 1st is interferenceed in scope, carry from the 1st mounting position 30 to the process that the 2nd mounting position 32 is rotated by the 1st arm 40 at toy vehicles 80, this guiding elements 60,62 at least contacts with gap with a little with toy vehicles 80 in scope directly over turning cylinder 44.

And rotating operating handle 70 is equipped on pedestal 20, be linked to the driving mechanism being equipped in pedestal 20 inside.In addition, this driving mechanism and the 1st arm 40 and the 2nd arm 50 are connected.Therefore, along with the rotation of rotating operating handle 70, though it is the intrinsic driving be associated that the 1st arm 40 and the 2nd arm 50 perform.Accompanying drawing after utilizing Fig. 6 illustrates the action of this driving mechanism.

Fig. 3 is the stereogram of toy vehicles of the present invention, and Fig. 4 represents the stereogram from the cruiser of the 1st vehicle form as the toy vehicles shown in Fig. 3 to the change starting stage of the commercial vehicle as the 2nd vehicle form.

Toy vehicles 80 is made up of vehicle frame 81, wheel 95, car body front surface 82a, front window 82b, roof 82c, car body rear surface 82d, sidewall 83 and sidewall 84.At this, the vehicle frame 81 being provided with wheel 95 forms said matrix component in the present invention.In addition, car body front surface 82a, front window 82b, roof 82c, car body rear surface 82d, sidewall 83 and sidewall 84 form said revolving member in the present invention.Further, wherein, car body front surface 82a, front window 82b, roof 82c and car body rear surface 82d form said link revolving member in invention.They are made by general resin.And, the surface of vehicle frame 81, car body front surface 82a, front window 82b, roof 82c, car body rear surface 82d, sidewall 83 and sidewall 84 forms the outward appearance as the cruiser of the 1st vehicle form, and their back side forms the outward appearance as the commercial vehicle of the 2nd form.

The back side of vehicle frame 81 is covered by car body front surface 82a, front window 82b, roof 82c, car body rear surface 82d, sidewall 83 and sidewall 84 when the cruiser as the 1st vehicle form, becomes the state (example of said the present invention " invisible mode ") of the degree of unpredictable 2nd form that cannot recognize from external view.In addition, said in the present invention " invisible mode " is naturally that roughly entirety cannot from the state of external view identification as present embodiment, even if but also comprise cannot from the part of an external view identification just part, still cannot visual identity to the state of the degree of unpredictable 2nd form.In addition, adopt present embodiment, no matter give which kind of outward appearance to the back side, all little on the impact on the surface presenting the 1st vehicle form, and, according to the outward appearance of the cruiser as the 1st vehicle form, be difficult to predict the outward appearance as the commercial vehicle of the 2nd form.Thus, operator is difficult to prediction change, can give the surprised and unexpected sense after operator's distortion.

For 3 limits be not combined with car body rear surface 82d in 4 limits of vehicle frame 81, be combined with car body front surface 82a, sidewall 83 and sidewall 84 rotationally by hinge part 88a, 87a, 87b respectively.So car body front surface 82a and front window 82b utilizes hinge part 88b to combine rotatably mountedly, front window 82b and roof 82c utilizes hinge part 88c to combine rotatably mountedly, and roof 82c and car body rear surface 82d utilizes hinge part 88d to combine rotatably mountedly.

Connecting end 86 is provided with in the middle position of the free end side of car body rear surface 82d.When this toy vehicles 80 is in the 1st form or the 2nd form, be provided with the otch 81a embedded for connecting end 86 in the rearward end middle position of the vehicle frame 81 relative with connecting end 86.When connecting end 86 is embedded into otch 81a, the surface on the otch 81a relative with connecting end 86, is provided with magnet 81b in the mode of surface indentation about the 1mm from otch 81a.In addition, the position corresponding with the magnet 81b of otch 81a on connecting end 86 is built-in with metal parts 86a.So, constitute vehicle frame 81(matrix component by magnet 81b and metal parts 86a) in said in the present invention linking part.Utilize this structure, outward appearance ground can not be damaged and link simply or remove link, and, reliably can keep the form of toy vehicles.In addition, otch 81a is uncovered towards the rear of toy vehicles 80, and therefore, connecting end 86 can enter into otch 81a from the rear of toy vehicles 80.Thus, the metal parts 86a of connecting end 86 can from the rear of toy vehicles 80 close to magnet 81b.

Connecting piece 85a, 85b is provided with at the length direction central portion on the limit that roof 82c contacts with sidewall 84 with sidewall 83.So, when toy vehicles 80 is in the 1st form or the 2nd form, is configured with the position corresponding with connecting piece 85a, 85b on sidewall 84 at sidewall 83 and links projection 83a, 84a.Form sidewall 83 and sidewall 84(revolving member by this connecting piece 85a, 85b and link projection 83a, 84a) in the present invention in said linking part.Utilize the engaging of connecting piece 85a, 85b and link projection 83a, 84a, the position of sidewall 83 and sidewall 84 can be kept relative to roof 82c.

In the 82d of car body rear surface, adjacent with connecting end 86 and with the partial configuration faced by sidewall 83 and sidewall 84 have can insert for the fork catch 42 of the 1st arm 40, as the present invention in otch 90a, 90b of said 1st insert port.When formation the 1st vehicle form, otch 90a, 90b are by being surrounded with vehicle frame 81 by sidewall 83 and sidewall 84 and form the 1st insert port.

In sidewall 83 and sidewall 84, the position respectively on the limit be connected with roof 82c and close to car body rear surface 82d is equipped with otch 91a, 91b.This otch 91a, 91b surrounded by roof 82c and become can insert for the protrudent pin 54 of the 2nd arm 50, said 2nd insert port in the present invention.

(a) of Fig. 5 is the toy vehicles of state and the side view of pedestal of the 1st mounting position being positioned in pedestal, (b) of Fig. 5 is the side view of the change starting stage of the toy vehicles shown in Fig. 5 (a), (c) of Fig. 5, from Fig. 5 (b) change and from the side view after the vehicle form on surface has just been turned to the vehicle form at the back side further, (d) of Fig. 5 is from Fig. 5 (c) change and be turned to the side view of the toy vehicles of the state after the vehicle form at the back side from the vehicle form on surface completely further.This Fig. 5 illustrates the state after removing guiding elements 62 in order to make action should be readily appreciated that, be in fact configured with guiding elements 60,62, for guided vehicle toy 80.

Toy vehicles distortion operation is as the toy vehicles deformation method of the toy vehicles deformation device 10 of present embodiment, as follows.

In the first operation, first, as shown in (a) of Fig. 2, the 1st arm 40 is in and loads the adjacent initial position in position 30 with the 1st, and the 2nd arm 50 is in the lowest positions of slit 56.Then, as shown in (a) of Fig. 5, the toy vehicles 80 of the vehicle form (cruiser) shown in Fig. 3 is positioned in the 1st mounting position 30 on the pedestal ground 22 of pedestal 20 by user.Now, in otch 90a, 90b of being arranged at car body rear surface 82d, insert each pair of fork catch 42 respectively, matrix component (vehicle frame 81) namely, is supported on the 1st arm 40 by the fork catch 42(rearward end of vehicle frame 81 being held on the 1st arm 40).In (a) of Fig. 5, by making toy vehicles 80 roll tiltedly to the 1st arm 40 at the 1st mounting position 30 place, make the maintenance of fork catch 42 pairs of toy vehicles more reliable, but toy vehicles also can be level.

In the second operation, user rotates by making rotating operating handle 70, releases protrudent pin 54 by driving mechanism from the leading section 52 of the 2nd arm 50, the otch 91a that protrudent pin 54 has from the sidewall 83 of toy vehicles 80 is inserted into toy vehicles 80 inner.

In the 3rd operation, user makes rotating operating handle 70 rotate further, as shown in (b) of Fig. 2, releases protrudent pin 54 from the 2nd arm 50, under the state that protrudent pin 54 is inserted into toy vehicles 80 inside, the 2nd arm 50 is moved upward along slit 56.So as shown in (b) of Fig. 4 and Fig. 5, protrudent pin 54 is connected to the roof 82c as the part linking revolving member from direction, pedestal ground 22, and rises further.Under the state of toy vehicles 80 at this moment, car body rear surface 82d is raised, and the link of magnet 81b and metal parts 86a is removed.

Meanwhile, connecting piece 85a, 85b are removed with the engaging of link projection 83a, 84a, and sidewall 83 and sidewall 84 utilize deadweight to rotate centered by hinge part 87a, 87b, thus open to the outside of toy vehicles 80.Although not shown, but have raised in order to what make sidewall 83,84 not pour into the inner side of toy vehicles 80 on sidewall 83,84 or vehicle frame 81.

Further, meanwhile, with interacting centered by respective hinge part 88a, 88b, 88c, 88d, upward direction is rotated away from the direction of vehicle frame 81 for car body front surface 82a, front window 82b, roof 82c and car body rear surface 82d.

In the 4th operation, user by making rotating operating handle 70 rotate further, makes the 1st arm 40 moving axis 44 that rotates rotate from making the 2nd arm 50 being moved upward the moment of ormal weight.Then, by making rotating operating handle 70 rotate further, make the 2nd arm 50 move to most upperstratum position P 1, the 1st arm 40 is rotated centered by turning cylinder 44, the 2nd mounting side, position 32 to opposition side is rotated.

At this, as long as the most upperstratum position P 1 be moved upward of the 2nd arm 50, make compared with the scope of the rotation of frame vehicle frame 81 from utilizing the 1st arm 40, the position of staggering upward, might not stagger, as long as the 2nd arm 50 of the frame vehicle frame 81 in rotation process and most upperstratum position P 1 is not interfered.The rotation that moving axis 44 rotates as long as the 1st arm 40 rotates starts opportunity after the link of the rear end of frame vehicle frame 81 and car body rear surface 82d is removed.The translational speed of the 1st arm 40 is preferably the speed same degree that to move up with the top of the 2nd arm 50.During the excessive velocities that moves up above the 2nd arm 50, roof 82c likely can not rest on protrudent pin 54.On the other hand, when the excessive velocities that moves up above the 2nd arm 50 is slow, can interference with the 1st arm 40.

As shown in (c) of Fig. 5, the 2nd arm 50 is moved upward and stops at most upperstratum position P 1 place, but the 1st arm 40 continues to rotate, moving axis 44 rotates.At this, at the rising initial time of the 2nd arm 50, protrudent pin 54 supports as the car body front surface 82a, the front window 82b that link revolving member, roof 82c and car body rear surface 82d near the hinge part 88d combined by roof 82c and car body rear surface 82d.When the 2nd arm 50 stops, hinge part 88a vehicle frame 81 and car body front surface 82a combined is close to protrudent pin 54, and relatively, protrudent pin 54 starts to slide to hinge part 88a direction under roof 82c.

Before the hinge part 88a of vehicle frame 81 is about to the below by protrudent pin 54, as the protrudent pin 54 linking car body front surface 82a, the front window 82b of revolving member, roof 82c and car body rear surface 82d is covered in the 2nd arm 50 near hinge part 88b or hinge part 88c, and by state that the protrudent pin 54 of the 2nd arm 50 supports.

When the hinge part 88a of vehicle frame 81 passes through the below of protrudent pin 54, hinge part 88a can away from protrudent pin 54, and car body front surface 82a, front window 82b, roof 82c and car body rear surface 82d are all pulled to the 2nd mounting direction, position 32.When the hinge part 88c combined by front window 82b and roof 82c arrives protrudent pin 54, as the roof 82c sublist back of the body upset once of the longest component.Meanwhile, car body front surface 82a, front window 82b and car body rear surface 82d also show back of the body upset.

On the other hand, the sidewall 83 utilizing deadweight to open to the outside of toy vehicles 80 and sidewall 84 utilize deadweight little by little to open laterally while rising in the rotation by the 1st arm 40, become the state presenting the back side.When the 1st arm 40 rotates further, guiding elements 60,62 is connected to the back side of sidewall 83 and sidewall 84.So sidewall 83 and sidewall 84 are directed further and open laterally by abutting with guiding elements 60,62, directly over turning cylinder 44, in scope, become the state that to have rotated roughly 180 ° relative to vehicle frame 81.That is, the assigned position presenting the state at the back side is arrived relative to vehicle frame 81.

When car body front surface 82a, front window 82b, roof 82c and car body rear surface 82d sublist back of the body upset once, sidewall 83 and the directed component 60,62 of sidewall 84 guide, become the state that to have rotated roughly 180 ° relative to vehicle frame 81, therefore, become car body front surface 82a, front window 82b after the upset of the table back of the body, roof 82c and car body rear surface 82d along sidewall 83 and sidewall 84 around state.

Now, the connecting piece 85a of roof 82c, 85b are sticked in link projection 83a, the 84a of sidewall 83 and sidewall 84, can keep the position of roof 82c, sidewall 83 and sidewall 84.

And, utilize the reaction of sublist back of the body upset, the connecting end 86 of car body rear surface 82d is embedded into the otch 81a of the rearward end of vehicle frame 81 corresponding thereto from the rear of toy vehicles 80, magnet 81b and metal parts 86a links, and the vehicle metamorphosis of toy vehicles 80 completes.On this opportunity, also there is the situation that magnet 81b and metal parts 86a does not link, but as shown in (d) of Fig. 5, when the 1st arm 40 turns to the 2nd mounting 32 side, position, connecting end 86 is embedded into relative otch 81a, and therefore, vehicle metamorphosis reliably completes.

Fig. 6 is the partial perspective stereogram of the main Poewr transmission mechanism relevant to the 1st arm representing toy vehicles deformation device of the present invention, Fig. 7 is the partial perspective stereogram of the main Poewr transmission mechanism relevant to the 2nd arm representing toy vehicles deformation device of the present invention, and Fig. 8 is the partial perspective stereogram of the main Poewr transmission mechanism relevant to the 2nd arm representing toy vehicles deformation device of the present invention.

Fig. 6 ~ Fig. 8 is all figure of pedestal 20 part of perspective toy vehicles deformation device 10, and the component except the Poewr transmission mechanism relevant with the 2nd arm to the 1st arm is removed.

In the present embodiment, after the toy vehicles distortion operation of the toy vehicles deformation device carrying out illustrating according to Fig. 5, only utilize the rotation of rotating operating handle 70 to implement the rotational action of the 1st arm 40 and the rotational action of the 2nd arm 50, and set it in conjunction with opportunity.

Roughly, spinning operating grip 70 makes the 1st tooth bar 120 slide by driving transmission gear train 110, is transformed to the rectilinear movement to horizontal direction.The driving transmission in the 1st arm 40 direction and the driving transmission in the 2nd arm 50 direction is divided into from the 1st tooth bar 120.Engaged with the 2nd tooth bar 130 in sliding process by the 1st tooth bar 120 and make the 2nd tooth bar start slip to start to transmit to the 1st arm 40 to drive.2nd tooth bar 130 transmits rotary actuation to the 1st arm gear of drive transmission mechanism 140, and the turning cylinder 44 of the 1st arm 40 is rotated.

On the other hand, promoted one end of く word bar 150 by the 1st tooth bar 120, horizontal direction rectilinear movement is transformed in rotary moving by the driving transmission to the 2nd arm 50 direction.There is the 1st sliding component 160 in the other end engaging of く word bar 150, be transformed to rectilinear movement upward.Utilize link component 180 to be stretched out or retracted orientation by the protrudent pin 54 that this rectilinear movement upward transforms to the 2nd arm 50, protrudent pin 54 is stretched out or driving of retracting.1st sliding component 160 is moved upward further, engages with the 2nd sliding component 170.2nd sliding component 170 is fixed with the 2nd arm 50, implements the 2nd arm 50 is moved upward.

Then, Fig. 2, Fig. 5, Fig. 6 ~ Fig. 8 is used to explain the drive transmission mechanism in the toy vehicles distortion operation of the toy vehicles deformation device of present embodiment and drive the relation transmitted with shift conversion step.

Drive and transmit the bottom that gear train 110 is configured in pedestal ground 22, be connected to the rotating shaft of rotating operating handle 70.The final gear 112 transmitting gear train 110 to the driving being configured in position immediately below pedestal wall 24 transmits rotary actuation.1st tooth bar 120 is being configured in the dorsal part of pedestal wall 24 in portion on the lower than pedestal ground 22, engages for final gear 112.The moving direction of the 1st tooth bar 120 and pedestal ground 22 level, set from the 2nd mounting position 32 side direction the 1st with loading direction, position 30.

In the driving transmittance process in the 1st arm 40 direction, the 2nd tooth bar 130 and the 1st tooth bar 120 configure side by side.In the 1st tooth bar 120, the length direction of existence the 2nd tooth bar 130 side is provided with the groove 121 of specific length, the end as the 2nd mounting side, position 32 of groove 121 is provided with snap-latch surface 122, in the 2nd tooth bar 130, be provided with snap-latch piece 134 outstanding in groove 121.In an initial condition, although the snap-latch piece 134 of the 2nd tooth bar 130 is in the groove 121 of the 1st tooth bar 120, become from snap-latch surface 122 to the state of separating towards the direction of the 1st mounting position 30 from the 2nd mounting position 32.So start to when flatly sliding from the 2nd mounting position 32 towards the direction of the 1st mounting position 30 at the 1st tooth bar 120, snap-latch surface 122 also starts to move to equidirectional.Now, because the 2nd tooth bar 130 and the 1st tooth bar 120 engage mutually, therefore, the 1st tooth bar 120 relatively can move relative to the 2nd tooth bar 130, result, and snap-latch surface 122 can close to snap-latch piece 134.Then, from snap-latch surface 122 and snap-latch piece 134 close to and when engaging, the 2nd tooth bar 130 and the 1st tooth bar 120 start flatly to slide to loading position 32 from the 2nd towards the direction that the 1st loads position 30.That is, utilize groove 121, with the time difference from rotating operating handle 70, rotate (that is, the 1st tooth bar 120 start mobile) start to the 2nd tooth bar 130 mobile.Thus, in the 4th operation illustrated according to Fig. 5, in the way making the 2nd arm 50 be moved upward, can with the time difference start to make the 1st arm 40 moving axis 44 that rotates to rotate (corresponding with the 4th operation).

Snap-latch surface 122 move to reach snap-latch piece 134 time, the 2nd tooth bar 130 start to the 1st mounting direction, position 30 move.At this, as shown in (a) of Fig. 2, turning cylinder 44 is supported by the gear-box 26 of pedestal wall 24 side and bearing 28 axle, is connected to the 1st arm drive transmission mechanism 140 be configured in gear-box 26.The flank of tooth of the 2nd tooth bar 130 is configured in upside, engages with the 1st arm drive transmission mechanism 140.Moved to the 1st mounting direction, position 30 from the 2nd mounting position 32 by the 2nd tooth bar 130, the 1st arm drive transmission mechanism 140 is transformed to horizontal direction axle and rotates and drive to the 1st arm transmission, and the turning cylinder 44 of the 1st arm starts to rotate.Be configured with spring member 132 at the 2nd mounting position 32 side end of the 2nd tooth bar 130, engaging in pedestal 20, can automatically can turn back to the 1st mounting position 30 after the 1st arm has rotated.

Then, in the driving transmittance process in the 2nd arm 50 direction, bearing surface 124 is provided with at the 1st mounting position 30 side end of the 1st tooth bar 120.く word bar 150 is supported on the axle 152 parallel with the 2nd arm 50 at the inner axle of pedestal wall 24, and its one end is contacted with bearing surface 124 by means of the 1st roller 154 with the axle parallel with axle 152.The 2nd roller 158 with the axle parallel with axle 152 is provided with at the other end of く word bar 150.2nd roller 158 can be embedded into the moving direction of the 1st tooth bar 120 the horizontal slit 162 being arranged at the 1st sliding component 160 movably.Thus, be only く word bar 150 in rotary moving in vertical movement be passed to the 1st sliding component 160.1st sliding component 160 with same of horizontal slit 162 in there is with same shape the vertical slit 164b of the 1st vertical slit 164a and the 2nd of vertical direction, be located at the 1st teat 172a in the 2nd sliding component 170 and the 2nd teat 172b and kept slidably.2nd sliding component 170 is fixed with the 2nd arm 50.That is, because the 2nd arm 50 is limited movement vertically by slit 56 as illustrated in fig. 2, therefore, the 2nd sliding component 170 also similarly can be limited movement vertically.

Protrudent pin 54 is built-in with in the 2nd arm 50 inside.In addition, on the 2nd sliding component 170, to horizontal slit 162 length direction opening and the vertical direction slit 54a extended to the direction parallel with the 2nd arm 50 is located at the position overlapped with the rear section of the protrudent pin 54 being in the 2nd arm 50 inside.Be provided with the link component 180 that one end 186 is sticked in this vertical direction slit 54a.This link component 180 is supported on the axle 184 parallel with the length direction of horizontal slit 162 at the side axle of the 2nd sliding component 170.The other end 182 of link component 180 is arranged on the 1st sliding component 160, is sticked in the otch 166 of the projected direction opening to protrudent pin 54.In addition, one end 186 of link component 180 and the other end 182 are become and are moved upward by the other end 182, and one end 186 vertically slit 54a is crimped on the position relationship of the rear end of protrudent pin 54.More specifically illustrate, as the present embodiment, in an initial condition, as long as the rear of one end 186 place and axle 184, the other end 182 is in the rear of axle 184 similarly, just meets above-mentioned position relationship.

As driving the flowing of transmitting, the 1st tooth bar 120, when final gear is passed driving, starts from the 2nd mounting position 32 side direction the 1st loads direction, position 30 mobile.Rotate by the 1st roller 154, the く word bar 150 being connected to bearing surface 124 and become direction of rotation and move.2nd roller 158 of く word bar 150 rotates, and transverse direction moves and absorbed by horizontal slit 162, and the 1st sliding component 160 starts to move to longitudinal direction.Now, because the 1st teat 172a of the 2nd sliding component 170 and the 2nd teat 172b slides in the vertical slit 164b of the 1st vertical slit 164a and the 2nd, therefore, the 2nd sliding component 170 does not move.On the other hand, vertically moving of otch 166 is that the other end 182 of link component 180 is moved upward.So link component 180 moves thereupon, therefore, one end 186 of link component 180 vertically slit 54a be crimped on protrudent pin 54 rear end.So protrudent pin 54 can utilize one end 186 to move (corresponding with the second operation) to projected direction.

By the 1st tooth bar 120 movement further, the 1st sliding component 160 also rises further, and the 1st teat 172a and the 2nd teat 172b lower end that slit 164a and 2nd vertical with the 1st indulges slit 164b respectively immediately abuts.So, along with the 1st sliding component 160 rises, 1st teat 172a and the 2nd teat 172b boosts respectively to top by each lower end of the vertical slit 164b of the 1st vertical slit 164a and the 2nd, therefore, 2nd sliding component 170 also together starts to be moved upward with the 1st sliding component 160, and the 2nd arm 50 fixed thereon is also moved upward (corresponding with the 3rd operation).

Afterwards, as mentioned above, the snap-latch surface 122 of the 1st tooth bar 120 engages with the snap-latch piece 134 of the 2nd tooth bar 130, and the 1st arm 40 moving axis 44 that starts to rotate rotates (corresponding with the 4th operation).

As mentioned above, adopt the drive transmission mechanism of the toy vehicles deformation device of present embodiment, by means of only the rotation of rotating operating handle 70, just can implement the rotational action of the 1st arm 40 and the rotational action of the 2nd arm 50, and set it in conjunction with opportunity.

As mentioned above, adopt above-mentioned embodiment of the present invention, by means of only operator, the rotating operating handle 70 being arranged at pedestal 20 is rotated, 1st arm 40 and the 2nd arm 50 of toy vehicles deformation device 10 will be driven, and toy vehicles 80 can be made automatically to become the vehicle form at the back side from the vehicle form on surface in the moment being placed in the 1st mounting position 30.

In addition, the present invention is not limited to above-mentioned embodiment, can reach the distortion in the scope of the object of the invention, improvement etc. and comprise in the present invention.

Such as, present embodiment is the axial width that guiding elements 60,62 is fixed to turning cylinder 44, but can be made modifiable structure.Thereby, it is possible to the vehicle-width of toy vehicles, the free degree of shape imparting design.In addition, the position of guiding elements is also connected to the revolving member that utilizes and conduct oneself with dignity and open outward and guides the state for reliably presenting the back side directly over turning cylinder 44, at least can guide to the degree being held under the state presenting the back side and linking revolving member.Thus, also can not be fixed near turning cylinder 44, such as, suspend in midair from top.

In addition, in the present embodiment, fork catch is inserted in toy vehicles with just keeping intact, but by arranging latch in fork catch front end, in toy vehicles, arranges hang part, can keep toy vehicles more reliably.

Further, in the present embodiment, utilize driving transmission gear train 110 to transmit driving and be not limited to gear, as long as such as band, spindle driver etc. can transmit the structure of driving on equidirectional axle, just can utilize other transferring element.

Further, in the present embodiment, be only the rotation of rotating operating handle 70 as whole drive sources, but to make the structure operating the 1st arm and the 2nd arm respectively be also self-evident.

description of reference numerals

10, toy vehicles deformation device; 20, pedestal; 30, the 1st mounting position; 32, the 2nd mounting position; 40, the 1st arm; 42, fork catch; 44, turning cylinder; 50, the 2nd arm; 54, protrudent pin; 60,62, guiding elements; 70, rotating operating handle; 80, toy vehicles; 110, transmission gear train is driven; 120, the 1st tooth bar; 130, the 2nd tooth bar; 140, the 1st arm drive transmission mechanism; 150, く word bar; 160, the 1st sliding component; 170, the 2nd sliding component; 180, link component.

Claims (3)

1. a toy vehicles deformation device, it can make toy vehicles be another vehicle form from any one the vehicle Morphological Transitions the 1st vehicle form or the 2nd vehicle form, this toy vehicles comprises: matrix component, its surface forms a part for above-mentioned 1st vehicle form, and its back side forms a part for above-mentioned 2nd vehicle form; At least plural revolving member, it is incorporated into above-mentioned matrix component respectively rotationally, with a part for the above-mentioned 1st vehicle form of above-mentioned matrix component continuous print surface presentation, and presents a part for above-mentioned 2nd vehicle form with the above-mentioned matrix component continuous print back side; Link revolving member, it is a part of revolving member in above-mentioned revolving member, there is the linking part be combined respectively with other revolving members except this link revolving member in above-mentioned revolving member and above-mentioned matrix component, for keeping above-mentioned 1st vehicle form or above-mentioned 2nd vehicle form; Wherein,

This toy vehicles deformation device comprises:

Pedestal, it is for loading above-mentioned toy vehicles;

1st arm, it is supported on the turning cylinder that configures abreast with the toy vehicles mounting surface of said base at the adjacent position axle of the 1st mounting position of above-mentioned toy vehicles, support and the end being in the above-mentioned matrix component that the above-mentioned 1st above-mentioned linking part loading the toy vehicles of position is combined, can make above-mentioned matrix component from above-mentioned 1st mounting position centered by above-mentioned turning cylinder, the turn to opposition side the 2nd loads position;

2nd arm, itself and above-mentioned turning cylinder configure roughly concurrently, and can be moved upward relative to above-mentioned 1st mounting position, be inserted into the toy vehicles being in above-mentioned 1st mounting position inner, be connected to above-mentioned link revolving member and limit the rotation caused by above-mentioned 1st arm, above-mentioned linking part can be removed and change the form of above-mentioned link revolving member;

Guiding elements, it is configured in except directly over above-mentioned 1st mounting position except scope and the outer fix of the above-mentioned rotating shaft direction width of above-mentioned toy vehicles, is at least connected with gap with some with other revolving members above-mentioned in scope directly over above-mentioned turning cylinder.

2. a toy vehicles deformation method, it is the toy vehicles deformation method of toy vehicles deformation device according to claim 1, wherein,

Above-mentioned toy vehicles is positioned in the 1st mounting position of said base, makes the overhang bracket of above-mentioned matrix component in above-mentioned 1st arm;

Above-mentioned 2nd arm is inserted into above-mentioned toy vehicles inner;

By making above-mentioned 2nd arm be moved upward, above-mentioned link revolving member is rotated relative to above-mentioned matrix component, removing above-mentioned link revolving member utilizes above-mentioned linking part to be incorporated into other revolving members above-mentioned and above-mentioned matrix component, and other revolving members above-mentioned utilize deadweight to rotate outside above-mentioned toy vehicles;

Be moved upward making above-mentioned 2nd arm and depart from while above-mentioned matrix component utilizes the position of the slewing area of above-mentioned 1st arm, start above-mentioned 1st arm is rotated around above-mentioned turning cylinder;

Rotated around above-mentioned turning cylinder by above-mentioned 1st arm, after above-mentioned matrix component have passed the below of above-mentioned 2nd arm, utilize deadweight other revolving members above-mentioned turned to outside above-mentioned toy vehicles to be connected to above-mentioned guiding elements, the toy vehicles inside face limited now becomes the state of exterior face;

Rotated further around above-mentioned turning cylinder by above-mentioned 1st arm, be connected to the above-mentioned link revolving member upset of above-mentioned 2nd arm, make toy vehicles inside face now become exterior face, utilize above-mentioned linking part to engage with other revolving members above-mentioned limited by above-mentioned guiding elements;

Utilize above-mentioned 1st arm to make above-mentioned toy vehicles turn to the 2nd mounting position, above-mentioned link revolving member utilizes above-mentioned linking part to engage with above-mentioned matrix component;

Be another vehicle form by toy vehicles from any one the vehicle model deformation above-mentioned 1st vehicle form or the 2nd vehicle form.

3. a toy vehicles, it can utilize the toy vehicles deformation device described in claim 1 or toy vehicles deformation method according to claim 2 distortion, wherein,

This toy vehicles comprises:

Matrix component, its surface forms a part for the 1st vehicle form, and its back side forms a part for the 2nd vehicle form;

At least two or more revolving member, it is incorporated into above-mentioned matrix component respectively rotationally, with a part for the above-mentioned 1st vehicle form of above-mentioned matrix component continuous print surface presentation, and presents a part for above-mentioned 2nd vehicle form with the above-mentioned matrix component continuous print back side;

Link revolving member, it has the linking part that other revolving members in above-mentioned revolving member and above-mentioned matrix component are combined respectively, for keeping above-mentioned 1st vehicle form or above-mentioned 2nd vehicle form;

1st insert port, it can insert for above-mentioned 1st arm being arranged on the position adjacent with the above-mentioned linking part of above-mentioned link revolving member;

2nd insert port, it inserts for above-mentioned 2nd arm, is arranged on relative with above-mentioned 2nd arm, in above-mentioned revolving member other revolving members except above-mentioned link revolving member;

When above-mentioned toy vehicles is above-mentioned 1st vehicle form, the above-mentioned back side of above-mentioned matrix component is covered by above-mentioned two or more revolving member and becomes invisible mode, when above-mentioned toy vehicles is above-mentioned 2nd vehicle form, the above-mentioned surface of above-mentioned matrix component is covered by above-mentioned two or more revolving member and becomes invisible mode.