CN207575779U - A kind of self-action transformable automobile zoarium toy car - Google Patents
A kind of self-action transformable automobile zoarium toy car Download PDFInfo
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- CN207575779U CN207575779U CN201721170843.1U CN201721170843U CN207575779U CN 207575779 U CN207575779 U CN 207575779U CN 201721170843 U CN201721170843 U CN 201721170843U CN 207575779 U CN207575779 U CN 207575779U
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- robot
- sliding block
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- zoarium
- magnet
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Abstract
The utility model discloses a kind of self-action transformable automobile zoarium toy car, including the first car body and the second car body;First car body includes chassis, two the first Rear frames and a robot lower semi-body, two the first Rear frames and is fixed on chassis, and robot lower semi-body is rotationally located between two Rear frames, and the top of the robot lower semi-body is equipped with connection bump;Second car body includes two the second front frames and a robot upper semi-body, and robot upper semi-body is rotationally located between two the second front frames, and the bottom end of the robot upper semi-body is equipped with the groove to match with the connection bump.The transformable automobile zoarium toy of the utility model forms a robot by two car bodies, therefore the number of parts on each car body can be reduced accordingly, so as to make car body i.e. structure more secured.The deformation process of car body is simplified simultaneously, and the process of deformation is more rapidly.
Description
Technical field
The utility model is related to form deformation toy field, more particularly to a kind of self-action transformable automobile zoarium toy car.
Background technology
Important apparatus of the toy as child's intellectual development, and people’s lives level is continuously improved, for toy
Quality pursuit is also higher and higher, and present toy should more increase interest, improve child's while intellection is pursued
Interest.
Deformable toy car is usually to become a robot from a vehicle, and the part comparison on a toy car is more, and
Due to being flexible connection between each part, the structure of car body often not enough securely, is be easy to cause once car body is knocked
Part is detached from, and toy car is scrapped after part is lost.
Utility model content
In order to overcome above-mentioned technological deficiency, the utility model provides a kind of structure more stable deformation zoarium toy car.
To solve the above-mentioned problems, the utility model is achieved by following technical scheme:
A kind of self-action transformable automobile zoarium toy car described in the utility model, including the first car body and the second car body;
First car body includes chassis, two the first Rear frames and a robot lower semi-body, two the first Rear frames and is fixed on bottom
On disk, robot lower semi-body is rotationally located between two Rear frames, and the top of the robot lower semi-body is equipped with connection bump;
The robot lower semi-body includes the leg structure of robot and is buckled in first shell at the leg structure back side;First car body
Further include two the first front frames;First front frame is hingedly connected to the first end of two the first Rear frames;The machine
The top side of people's lower semi-body is located between two the first Rear frames;It is slidably equipped between the leg structure and the first shell
First sliding block;The both sides of first sliding block are equipped with the first grab, and first grab is located at the outside of robot lower semi-body;Institute
The side wall for stating the first front frame is equipped with the second grab, and first grab and the second grab are clamped;It is fixed on first sliding block
There is the first magnet, first magnet is located at the first sliding block close to connection bump one end of the robot lower semi-body;The leg
Portion's structure is additionally provided with one first metalwork, to provide the gravitation of slip for first magnet;Second car body includes two
A second front frame and a robot upper semi-body, robot upper semi-body is rotationally located between two the second front frames, described
The bottom end of robot upper semi-body is equipped with the groove to match with the connection bump.
Further, first sliding block is equipped with the first kidney slot, and the leg structure is equipped with the first limited post, and described the
One limited post is sheathed on first kidney slot, to limit the sliding distance of first sliding block.
Further, first metalwork is set on first limited post.
Further, first metalwork is the screw for connecting the leg structure and first shell.
Further, the chassis and the first Rear frame form a placing chamber, the bottom end side of the robot lower semi-body
It is located in placing chamber and is articulated with the side wall of the first end of the first Rear frame.
Further, the first car body further includes first overhead guard being articulated between two the first Rear frames;
First overhead guard is buckled in the top of the placing chamber and one edge and the edge of the first shell coincide.
Further, the side wall of the first end of the second front frame is articulated in the middle part of the robot upper semi-body;The machine
Device people upper semi-body includes the first chest construction, the second chest construction, second housing and head;The second housing is buckled in the first chest
The back side of portion's structure, the head are fixed on the first end of the first chest construction, and second chest construction is articulated with the first chest
The first end of portion's structure and the face for covering the head;The is slidably equipped between first chest construction and second housing
Two sliding blocks;The both sides of second sliding block are equipped with third grab, and the third grab is located at the outside of robot upper semi-body;Described second
The side wall of front frame is equipped with the 4th grab, and the third grab and the 4th grab are clamped.Second car body further includes two
Two Rear frames;Second Rear frame is hingedly connected to the first end of two the second front frames;The head is located at two second
Between Rear frame;The second magnet is fixed on second sliding block, second magnet is located at close to the robot upper semi-body
Groove one end;First chest construction is additionally provided with one second metalwork, to provide drawing for slip for second magnet
Power.
Further, second sliding block is equipped with the first kidney slot, and first chest construction is equipped with the second limited post, institute
It states the second limited post and is sheathed on second kidney slot, to limit the sliding distance of second sliding block;Second metalwork
Set on second limited post;Second metalwork is the spiral shell for connecting first chest construction and the second housing
Nail.
Further, the second car body further includes the second overhead guard, and second overhead guard is buckled in the back side on the head;
The first end of second overhead guard is articulated with second housing, and the second end of the second overhead guard is equipped with hook, the hook
Resist the edge of second chest construction;
The side wall of second Rear frame is equipped with the 5th grab, and the side wall of second overhead guard is embedded in the 5th grab
It is interior;
The first magnet is fixed on first sliding block, first magnet is located at the first sliding block under the robot
Connection bump one end of halfbody;The second magnet is fixed on second sliding block, second magnet is located at close to the machine
Groove one end of people's upper semi-body.
Further, before the hinged place of first front frame and the first Rear frame, the robot lower semi-body and first
The hinged place of vehicle frame, the hinged place of the second Rear frame and the second front frame and the robot upper semi-body and the second front frame
Hinged place is equipped with resetting spring.
Compared with prior art, the beneficial effects of the utility model are:The transformable automobile zoarium toy of the utility model by
Two car bodies form a robot, therefore the number of parts on each car body can be reduced accordingly, so as to make car body i.e. structure
More securely.The deformation process of car body is simplified simultaneously, and the process of deformation is more rapidly.
Description of the drawings
Specific embodiment of the present utility model is described in further detail below in conjunction with the accompanying drawings, wherein:
Fig. 1 is the structure diagram of the first car body described in the utility model;
Fig. 2 is the structure diagram that the first car body described in the utility model omits robot lower semi-body;
Fig. 3 is the bottom substance schematic diagram of the first car body described in the utility model;
Fig. 4 is the structure diagram of robot lower semi-body described in the utility model;
Fig. 5 is the partial structural diagram of robot lower semi-body described in the utility model;
Fig. 6 is the structure diagram of the first sliding block described in the utility model;
Fig. 7 is the deformed state diagram of the first car body described in the utility model;
Fig. 8 is the structure diagram of the second car body described in the utility model;
Fig. 9 is the bottom substance schematic diagram of the second car body described in the utility model;
Figure 10 is the structure diagram of robot upper semi-body described in the utility model;
Figure 11 is the partial structural diagram of robot upper semi-body described in the utility model;
Figure 12 is the structure diagram of the second sliding block described in the utility model;
Figure 13 is the deformed state diagram of the second car body described in the utility model;
Figure 14 is a kind of deformed state diagram of self-action transformable automobile zoarium toy car described in the utility model.
Specific embodiment
The preferred embodiment of the utility model is illustrated below in conjunction with attached drawing, it should be understood that described herein excellent
Embodiment is selected to be only used for describing and explaining the present invention, is not used to limit the utility model.
Embodiment 1
As shown in Figure 1, the first car body includes a chassis 1, fixed in the both sides on chassis 1 there are two the first Rear frame 2, this
Two 2 symmetrical configurations of the first Rear frame, mirror image are located on chassis 1.One is rotatably provided between two the first Rear frames 2
A robot lower semi-body 3.As shown in Fig. 2, 1 and first Rear frame 2 of chassis forms a placing chamber 12, the bottom of robot lower semi-body 3
End side is located in placing chamber 12, and rotary shaft is equipped in the bottom end of robot lower semi-body 3, and robot lower semi-body 3 passes through the first rotation
Shaft 311 is articulated with the side wall of the first end of the first Rear frame 2, the top surface of placing chamber 12 and a lateral opening, under robot
Halfbody 3 can be freely rotated in the open area.Meanwhile the top of robot lower semi-body 3 is equipped with connection bump 34, the connection is convex
34 are played to be used to connect with robot upper semi-body 7.
As a preferred embodiment, the first car body further includes two the first front frames 4, the first front frame 4 is along
The length direction of one Rear frame 2 sets and is hingedly connected to the first end of two the first Rear frames 2, the top of robot lower semi-body 3
Side is held to be located between two the first front frames 4, the first Rear frame 2, chassis 1,3 and first front frame 4 of robot lower semi-body are common
With the shape of one vehicle of composition.
As a preferred embodiment, as shown in figure 4, robot lower semi-body 3 includes the leg structure 31 of robot
With the first shell 32, the first shell 32 is buckled in 31 back side of leg structure, and cavity is formed between the two, first is equipped in cavity
Sliding block 33, the first sliding block 33 can slide in cavity along the length direction of robot lower semi-body 3.In the both sides of the first sliding block 33
Equipped with the first grab 331, the first grab 331 is stretched out from the side of robot lower semi-body 3, is exposed at positioned at robot lower semi-body 3
It is external.Meanwhile the second grab 41 is equipped in the side wall of the first front frame 4, and before the deformation of the first car body, the first grab 331 and the
Two grabs 41 are clamped, and prevent 3 and first front frame 4 of robot lower semi-body from rotating, and are kept the stabilized structure of the first car body, are worked as promotion
When first sliding block 33 makes the first grab 331 and the disengaging of the second grab 41, two the first front frames 4 of rotation are opened to both sides, upwards
Rotary machine people lower semi-body 3 makes it be in standing state.
As a preferred embodiment, the first car body further includes first overhead guard 5, the first overhead guard 5 is buckled in placement
The edge of the top of chamber 12, one edge and the first shell 32 coincide make the first car body placing chamber 12 be in closed state.First
Overhead guard 5 is articulated between two the first Rear frames 2, and when the first car body deforms, the first overhead guard 5 of rotation opens placing chamber 12,
Robot lower semi-body 3 is facilitated to erect.Preferably, the forepart on chassis 1 is designed as the foot structure 11 of robot, when under robot
When halfbody 3 erects, foot structure 11 is located just at the front side of 31 lower end of leg framework.
As shown in fig. 7, the second car body includes two the second front frames 6, two 6 symmetrical configurations of the second front frame and mirror image is set
It puts, robot upper semi-body 7 is rotatably provided between two the second front frames 6.As a kind of specific embodiment, robot
The middle part of upper semi-body 7 is equipped with the second shaft 711, and robot upper semi-body 7 is articulated with the second front frame 6 by the second shaft 711
The side wall of first end, the lower end side of robot upper semi-body 7 are located between two the second front frames 6.In robot upper semi-body 7
Bottom end is equipped with the groove 76 to match with the connection bump 34 of robot lower semi-body 3, and the connection bump 34 of robot lower semi-body 3 is inserted into
Connect robot upper semi-body 7 and robot lower semi-body 3 in groove 76.
As a preferred embodiment, as shown in figure 9, robot upper semi-body 7 includes the first chest construction 71, second
Chest construction 74, second housing 72 and head 73.Head 73 is fixed on the first end of the first chest construction 71, the second chest construction
74 are articulated with the first end of the first chest construction 71.Before the deformation of the second car body, the second chest construction 74 covers the face on head 73
Portion;When the second car body deforms, the second chest construction 74 of overturning makes it be bonded with the first chest construction 71, outside 73 structure of head
Dew.Second housing 72 is buckled in the back side of the first chest construction 71, and forms cavity between.
As a preferred embodiment, as shown in Figure 10, the sky between the first chest construction 71 and second housing 72
Intracavitary is equipped with the second sliding block 75, and the second sliding block 75 can be slided along the length direction of robot upper semi-body 7.The two of the second sliding block 75
Side is equipped with third grab 751, and third grab 751 is stretched out from the side of robot upper semi-body 7, is exposed at positioned at robot upper semi-body 7
Outside.The 4th grab 61 is equipped in the side wall of the second front frame 6, before the deformation of the second car body, third grab 751 and the 4th blocks
Hook 61 is clamped, and prevents robot upper semi-body 7 from rotating.
As a preferred embodiment, the second car body further includes two the second Rear frames 8, the second Rear frame 8 is along
The length direction setting of two front frames 6, and the first end of two the second front frames 6 is hingedly connected to, 73 structure of head is located at two
Between a second Rear frame 8.
As a preferred embodiment, the second car body further includes the second overhead guard 9, the second overhead guard 9 is buckled in head 73 and carries on the back
The top in face closes the region between two the second Rear frames 8.As a kind of specific embodiment, the of the second overhead guard 9
One end is articulated with second housing 72, and the second end of the second overhead guard 9 is equipped with hook 92, and hook 92 resists the side of the second chest construction 74
Edge makes the second chest be maintained at 73 side of head to cover the face on head 73.Meanwhile it is equipped in the side wall of the second Rear frame 8
5th grab 81, in the 5th grab 81, the second Rear frame 8 of limitation rotates the side wall 91 of the second overhead guard 9.
As shown in figure 11, when the second car body deforms, the second overhead guard 9 is rotated up, 91 and the 5th grab 81 of side wall is de-
From;Two the second Rear frames 8 of rotation make its opening;The second sliding block 75 is pushed to be detached from 751 and the 4th grab 61 of third grab, is turned
Mobile robot upper semi-body 7 makes its standing;Overturning the second chest construction 74 makes it be bonded, and expose machine with the first chest construction 71
The face of people.At this point, the deformation of the second car body is completed.
As shown in figure 12, after the completion of the deformation of the first car body and the second car body, by the connection bump of robot lower semi-body 3
34 are inserted into the groove 76 of robot upper semi-body 7, form a complete robot.
A kind of self-action transformable automobile zoarium toy car described in the utility model further includes eight wheels 10, and wheel 10 divides
It is not hinged in the first front frame 5, the first Rear frame 3, the second front frame 6 and the second Rear frame 8.
Embodiment 2
Embodiment 2 and the difference of embodiment 1 are being, as shown in Figures 12 and 13, are fixed on the first sliding block 33
One magnet 332 is fixed with the second magnet 752 on second sliding block 75.First magnet 352 is located at the first sliding block 33 close to the machine
34 one end of connection bump of people's lower semi-body 3, the second magnet 752 are located at groove 76 of second sliding block 75 close to robot upper semi-body 7
One end.When the connection bump 34 of robot lower semi-body 3 is close to the groove 76 of robot upper semi-body 7, the first magnet 352 and second
Magnet 752 attracts each other, and drives the first sliding block 33 and the second sliding block 75 is opposite slides, while the first car body and the second car body also phase
To movement, until connection bump 34 is caught in groove 76 so that robot lower semi-body 3 and robot upper semi-body 7 link together.
As a preferred embodiment, the hinged place of the first front frame 4 and the first Rear frame 2, robot lower semi-body 3
The hinged place of hinged place, the second Rear frame 8 and the second front frame 6 with the first Rear frame 2 and the robot upper semi-body 7 and
The hinged place of second front frame 6 is equipped with resetting spring.Before the first car body and the deformation of the second car body, resetting spring is in compression
State.
The car body deformation process of the present embodiment is as follows:
The position of the first car body and the second car body is ajusted, makes the two head opposite;
Mobile first car body, makes connection bump 34 close to groove 76, between the first magnet 332 and the second magnet 752
Under graviational interaction, the 75 opposite slip of the first sliding block 33 and the second sliding block, while the second car body is driven to accelerate to move to the first car body,
Until connection bump 34 is caught in groove 76 so that robot lower semi-body 3 and robot upper semi-body 7 link together;
When extreme position is taken in first sliding block 33 and the slip of the second sliding block 75 to, the first grab 331 is detached from the second grab 41,
751 and the 4th grab 61 of third grab is detached from, and under the action of resetting spring screen resilience, robot lower semi-body 3 drives and machine
People's upper semi-body 7 erects vertically together, and the first front frame 4 is flared out, and the first overhead guard 5 is rushed with what robot lower semi-body 3 bounced
Lower opening is hit, is opened under the impact that the second overhead guard 9 is bounced in robot upper semi-body 7, the second front frame 6 is flared out.At this point, the
The deformation of one car body and the second car body is completed.
Embodiment 3
Embodiment 3 and the difference of embodiment 2 are being that embodiment 3 and the difference of embodiment 2 are being, leg
Portion's structure 31 is additionally provided with first metalwork 312, is that first slides for car shaped when the first car body needs are become again by robot
Block 33 needs to be retracted into original position, at this point, the first metalwork 312 can be the gravitation that the first magnet 352 provides slip, the
One magnet 352 drives the first sliding block 33 to slide into original position.Preferably, the first sliding block 33 is equipped with the first kidney slot 333, leg
Portion's structure 31 is equipped with the first limited post 313, and the first limited post 313 is sheathed on the first kidney slot 333, and the first kidney slot 333 limits
The scope of activities of first limited post 313, so as to limit the sliding distance of the first sliding block 33, the first metalwork 312 is set on institute
The first limited post 313 is stated, it is further preferred that the first metalwork 312 is for 31 and first shell 32 of connected legs structure
Screw.Similarly, the first chest construction 71 is additionally provided with second metalwork 712, when the second car body needs to be become again by robot
It is that the second sliding block 75 needs to be retracted into original position for car shaped, at this point, the second metalwork 712 can be the second magnet
752 provide the gravitation slided, and the second magnet 752 drives the second sliding block 75 to slide into original position.Preferably, the second sliding block 75
Equipped with the second kidney slot 753, the first chest construction 71 is equipped with the second limited post 713, and the second limited post 713 is sheathed on the second kidney-shaped
Hole 753, the second kidney slot 753 limit the scope of activities of the second limited post 713, so as to limit the slip of the second sliding block 75 away from
Second limited post 713 is set on from, the second metalwork 712, it is further preferred that the second metalwork 712 is for connecting the
The screw of one chest construction 71 and second housing 72.
A kind of other structures of self-action transformable automobile zoarium toy car described in the utility model are referring to the prior art.
The above descriptions are merely preferred embodiments of the present invention, and not the utility model is made in any form
Limitation, it is therefore every without departing from the content of the technical scheme of the utility model, according to the technical essence of the utility model to implementing above
Example any modification, equivalent variations and the modification made, in the range of still falling within technical solutions of the utility model.
Claims (10)
1. a kind of self-action transformable automobile zoarium toy car, it is characterised in that:
Including the first car body and the second car body;
First car body, which includes chassis, two the first Rear frames and a robot lower semi-body, two the first Rear frames, to be fixed
On chassis, robot lower semi-body is rotationally located between two Rear frames, and the top of the robot lower semi-body is equipped with connection
Protrusion;The robot lower semi-body includes the leg structure of robot and is buckled in first shell at the leg structure back side;Described
One car body further includes two the first front frames;First front frame is hingedly connected to the first end of two the first Rear frames;Institute
The top side for stating robot lower semi-body is located between two the first Rear frames;It is slided between the leg structure and the first shell
Ground is equipped with the first sliding block;The both sides of first sliding block are equipped with the first grab, and first grab is located at robot lower semi-body
It is external;The side wall of first front frame is equipped with the second grab, and first grab and the second grab are clamped;First sliding block
On be fixed with the first magnet, first magnet is located at the first sliding block close to connection bump one end of the robot lower semi-body;
The leg structure is additionally provided with one first metalwork, to provide the gravitation of slip for first magnet;
Second car body includes two the second front frames and a robot upper semi-body, robot upper semi-body are rotationally located at two
Between a second front frame, the bottom end of the robot upper semi-body is equipped with the groove to match with the connection bump.
2. a kind of self-action transformable automobile zoarium toy car according to claim 1, it is characterised in that:First sliding block
Equipped with the first kidney slot, the leg structure is equipped with the first limited post, and first limited post is sheathed on first kidney slot,
To limit the sliding distance of first sliding block.
3. a kind of self-action transformable automobile zoarium toy car according to claim 2, it is characterised in that:First metal
Part is set on first limited post.
4. a kind of self-action transformable automobile zoarium toy car according to claim 3, it is characterised in that:First metal
Part is the screw for connecting the leg structure and first shell.
5. a kind of self-action transformable automobile zoarium toy car according to claim 4, it is characterised in that:The chassis and
One Rear frame forms a placing chamber, and the bottom end side of the robot lower semi-body is located in placing chamber and is articulated with the first Rear frame
First end side wall.
6. a kind of self-action transformable automobile zoarium toy car according to claim 5, it is characterised in that:
First car body further includes first overhead guard being articulated between two the first Rear frames;
First overhead guard is buckled in the top of the placing chamber and one edge and the edge of the first shell coincide.
7. a kind of self-action transformable automobile zoarium toy car according to claim 6, it is characterised in that:In the robot
The side wall of the first end of the second front frame is articulated in the middle part of halfbody;The robot upper semi-body includes the first chest construction, the
Two chest constructions, second housing and head;The second housing is buckled in the back side of the first chest construction, and the head is fixed on
The first end of one chest construction, second chest construction are articulated with the first end of the first chest construction and cover the head
Face;The second sliding block is slidably equipped between first chest construction and second housing;The both sides of second sliding block are equipped with third
Grab, the third grab are located at the outside of robot upper semi-body;The side wall of second front frame is equipped with the 4th grab, described
Third grab and the 4th grab are clamped;Second car body further includes two the second Rear frames;Second Rear frame is cut with scissors respectively
It is connected to the first end of two the second front frames;The head is located between two the second Rear frames;It is fixed on second sliding block
There is the second magnet, second magnet is located at close to groove one end of the robot upper semi-body;First chest construction is also
Equipped with one second metalwork, to provide the gravitation of slip for second magnet.
8. a kind of self-action transformable automobile zoarium toy car according to claim 7, it is characterised in that:Second sliding block
Equipped with the second kidney slot, first chest construction is equipped with the second limited post, and second limited post is sheathed on second waist
Shape hole, to limit the sliding distance of second sliding block;Second metalwork is set on second limited post;Second gold medal
It is the screw for connecting first chest construction and the second housing to belong to part.
9. a kind of self-action transformable automobile zoarium toy car according to claim 8, it is characterised in that:
Second car body further includes the second overhead guard, and second overhead guard is buckled in the back side on the head;
The first end of second overhead guard is articulated with second housing, and the second end of the second overhead guard is equipped with hook, and the hook resists
The edge of second chest construction;
The side wall of second Rear frame is equipped with the 5th grab, and the side wall of second overhead guard is in the 5th grab;
The first magnet is fixed on first sliding block, first magnet is located at the first sliding block close to the robot lower semi-body
Connection bump one end;The second magnet is fixed on second sliding block, second magnet is located in the robot
Groove one end of halfbody.
10. a kind of self-action transformable automobile zoarium toy car according to claim 9, it is characterised in that:
The hinged place of first front frame and the first Rear frame, the hinged place of the robot lower semi-body and the first front frame,
Second Rear frame is equipped with the hinged place of the second front frame and the hinged place of the robot upper semi-body and the second front frame
Resetting spring.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721170843.1U CN207575779U (en) | 2017-09-13 | 2017-09-13 | A kind of self-action transformable automobile zoarium toy car |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721170843.1U CN207575779U (en) | 2017-09-13 | 2017-09-13 | A kind of self-action transformable automobile zoarium toy car |
Publications (1)
Publication Number | Publication Date |
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CN207575779U true CN207575779U (en) | 2018-07-06 |
Family
ID=62727389
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CN201721170843.1U Ceased CN207575779U (en) | 2017-09-13 | 2017-09-13 | A kind of self-action transformable automobile zoarium toy car |
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Country | Link |
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CN (1) | CN207575779U (en) |
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2017
- 2017-09-13 CN CN201721170843.1U patent/CN207575779U/en not_active Ceased
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Decision date of declaring invalidation: 20190220 Decision number of declaring invalidation: 38813 Granted publication date: 20180706 |
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