CN206463501U - The fit toy car of one kind deformation - Google Patents
The fit toy car of one kind deformation Download PDFInfo
- Publication number
- CN206463501U CN206463501U CN201720081028.1U CN201720081028U CN206463501U CN 206463501 U CN206463501 U CN 206463501U CN 201720081028 U CN201720081028 U CN 201720081028U CN 206463501 U CN206463501 U CN 206463501U
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- robot
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- car body
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Abstract
The utility model discloses the fit toy car of one kind deformation, 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, and two the first Rear frames are 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 provided 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 of the robot upper semi-body is provided with the groove matched with the connection bump.The fit toy of transformable automobile of the present utility model constitutes the number of parts in a robot, therefore each car body by two car bodies and can accordingly reduced, so that car body is that structure is more firm.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 fit toy car of deformation.
Background technology
Toy as child's intellectual development important apparatus, and people living standard improve constantly, for toy
Quality pursues also more and more higher, and present toy should more increase interest, improve child's while intellection is pursued
Interest.
The part comparison that Deformable toy car is usually changed on a robot, a toy car from a car is more, and
Due to being flexible connection between each part, therefore the structure of car body is often not firm enough, is easily caused once car body is knocked
Part departs from, and toy car is to scrap after part is lost.
Utility model content
In order to overcome above-mentioned technological deficiency, the utility model provides a kind of more stable deformation of structure fit toy car.
In order to solve the above problems, the utility model is achieved by following technical scheme:
The fit toy car of a kind of deformation 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, and two the first Rear frames are fixed on chassis, robot
Lower semi-body is rotationally located between two Rear frames, and the top of the robot lower semi-body is provided with connection bump;Second car
Body include two the second front frames and a robot upper semi-body, robot upper semi-body be rotationally located at two the second front frames it
Between, the bottom of the robot upper semi-body is provided with the groove matched with the connection bump.
Further, the chassis and the first Rear frame constitute a placing chamber, the bottom 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, first car body also includes two the first front frames;
First front frame is hingedly connected to the first end of two the first Rear frames;
The top side of the robot lower semi-body is located between two the first Rear frames.
Further, the robot lower semi-body includes the leg structure of robot and is buckled in the first of the leg structure back side
Shell;
The first sliding block is slidably provided between the leg structure and the first shell;
The both sides of first sliding block are provided with the first grab, and first grab is located at the outside of robot lower semi-body;
The side wall of first front frame is provided with the second grab, first grab and the second grab clamping.
Further, the first car body also 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 the edge of one edge and the first shell and coincide.
Further, the side wall of the first end of the second front frame is articulated with 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 is 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.
Further, the second sliding block is slidably provided between first chest construction and second housing;
The both sides of second sliding block are provided with the 3rd grab, and the 3rd grab is located at the outside of robot upper semi-body;
The side wall of second front frame is provided with the 4th grab, the 3rd grab and the 4th grab clamping.
Second car body also includes two the second Rear frames;
Second Rear frame is hingedly connected to the first end of two the second front frames;
The head is located between two the second Rear frames.
Further, the second car body also 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 provided with hook, the hook
Prop up the edge of second chest construction;
The side wall of second Rear frame is provided with the 5th grab, and the side wall of second overhead guard is embedded in the 5th grab
It is interior.
Further, the first magnet is fixed with first sliding block, first magnet is located at the first sliding block close to institute
State connection bump one end of robot lower semi-body;The second magnet is fixed with second sliding block, second magnet, which is located at, to be leaned on
Groove one end of the nearly robot 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 back-moving spring.
Compared with prior art, the beneficial effects of the utility model are:The fit toy of transformable automobile of the present utility model by
The number of parts that two car bodies are constituted in a robot, therefore each car body can be reduced accordingly, so that car body is structure
It is more firm.The deformation process of car body is simplified simultaneously, and the process of deformation is more rapidly.
Brief description of the drawings
Embodiment of the present utility model is described in further detail below in conjunction with the accompanying drawings, wherein:
Fig. 1 is the structural representation of the first car body described in the utility model;
Fig. 2 is the structural representation that the first car body described in the utility model omits robot lower semi-body;
Fig. 3 is the polycrystalline substance schematic diagram of the first car body described in the utility model;
Fig. 4 is the structural representation 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 state diagram after the first car body deformation described in the utility model;
Fig. 7 is the structural representation of the second car body described in the utility model;
Fig. 8 is the polycrystalline substance schematic diagram of the second car body described in the utility model;
Fig. 9 is the structural representation of robot upper semi-body described in the utility model;
Figure 10 is the partial structural diagram of robot upper semi-body described in the utility model;
Figure 11 is the state diagram after the second car body deformation described in the utility model;
Figure 12 is the structural representation of the first sliding block 33 described in the utility model;
Figure 13 is the structural representation of the second sliding block 75 described in the utility model;
Figure 14 is a kind of state diagram deformed after fit toy car deformation described in the utility model.
In figure:1st, chassis;2nd, the first Rear frame;3rd, robot lower semi-body;4th, the first front frame;5th, the first overhead guard;
6th, the second front frame;7th, robot upper semi-body;8th, the second Rear frame;9th, the second overhead guard;10th, wheel.
Embodiment
Preferred embodiment of the present utility model is illustrated below in conjunction with accompanying drawing, it will be appreciated that described herein excellent
Select embodiment to be merely to illustrate and explain the utility model, be not used to limit the utility model.
Embodiment 1
As shown in figure 1, the first car body includes a chassis 1, two the first Rear frames 2 are fixed with the both sides on chassis 1, this
Two symmetrical configurations of the first Rear frame 2, mirror image is located on chassis 1.One is rotatably provided between two the first Rear frames 2
Individual robot lower semi-body 3.As shown in Fig. 2 the Rear frame 2 of chassis 1 and first constitutes a placing chamber 12, the bottom of robot lower semi-body 3
End side is located in placing chamber 12, and rotary shaft is provided with the bottom of robot lower semi-body 3, and robot lower semi-body 3 passes through the first rotation
Rotating 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, robot
Halfbody 3 can freely be rotated in the open area.Meanwhile, the top of robot lower semi-body 3 is provided with connection bump 34, and the connection is convex
Playing 34 is used to be connected with robot upper semi-body 7.
As a preferred embodiment, the first car body also includes two the first front frames 4, the first front frame 4 is along the
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, the front frame 4 of robot lower semi-body 3 and first are total to
With the profile of one car 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 the back side of leg structure 31, is formed between the two and first is provided with cavity, cavity
Sliding block 33, the first sliding block 33 can in cavity along robot lower semi-body 3 length direction slide.In the both sides of the first sliding block 33
Provided with the first grab 331, the first grab 331 stretches out from the side of robot lower semi-body 3, is exposed at positioned at robot lower semi-body 3
It is outside.Meanwhile, the second grab 41 is provided with the side wall of the first front frame 4, when before the deformation of the first car body, the first grab 331 and the
The clamping of two grab 41, prevents the front frame 4 of robot lower semi-body 3 and first from rotating, and keeps the stabilized structure of the first car body, works as promotion
When first sliding block 33 makes the first grab 331 and the disengaging of the second grab 41, rotate two the first front frames 4 and 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 also includes first overhead guard 5, the first overhead guard 5 is buckled in placement
The identical placing chamber 12 for making the first car body in the edge of the top of chamber 12, one edge and the first shell 32 is in closed state.First
Overhead guard 5 is articulated between two the first Rear frames 2, when the first car body is deformed, and the first overhead guard 5 of rotation opens placing chamber 12,
Robot lower semi-body 3 is facilitated to erect.Preferably, the front portion on chassis 1 is designed as the foot structure 11 of robot, when under robot
When halfbody 3 is erected, foot structure 11 is located just at the front side of the lower end of leg framework 31.
As shown in fig. 7, the second car body includes two the second front frames 6, two symmetrical configurations of the second front frame 6 and mirror image is set
Put, robot upper semi-body 7 is rotatably provided between two the second front frames 6.It is used as a kind of specific embodiment, robot
The middle part of upper semi-body 7 is provided with the second rotating shaft 711, and robot upper semi-body 7 is articulated with the second front frame 6 by the second rotating shaft 711
The side wall of first end, the lower end side of robot upper semi-body 7 is located between two the second front frames 6.In robot upper semi-body 7
Bottom is provided with the groove 76 matched with the connection bump 34 of robot lower semi-body 3, and the connection bump 34 of robot lower semi-body 3 is inserted
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.When 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 is deformed, the second chest construction 74 of upset makes it be fitted with the first chest construction 71, outside the structure of head 73
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 provided 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 provided with the 3rd grab 751, and the 3rd grab 751 stretches 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 provided with the side wall of the second front frame 6, before the deformation of the second car body, the 3rd grab 751 and the 4th card
The clamping of hook 61, prevents robot upper semi-body 7 from rotating.
As a preferred embodiment, the second car body also includes two the second Rear frames 8, the second Rear frame 8 is along the
The length direction of two front frames 6 is set, and is hingedly connected to the first end of two the second front frames 6, and the structure of head 73 is located at two
Between individual second Rear frame 8.
As a preferred embodiment, the second car body also includes the second overhead guard 9, the second overhead guard 9 is buckled in head 73 and carried on the back
The top in face, closes the region between two the second Rear frames 8.It is used 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 provided with hook 92, and hook 92 props up the side of the second chest construction 74
Edge, makes the second chest be maintained at the side of head 73 to cover the face on head 73.Meanwhile, it is provided with the side wall of the second Rear frame 8
5th grab 81, the side wall 91 of the second overhead guard 9 is embedded in the 5th grab 81, and the second Rear frame 8 of limitation is rotated.
As shown in figure 11, when the second car body is deformed, the second overhead guard 9 is rotated up, its grab 81 of side wall 91 and the 5th takes off
From;Rotating two the second Rear frames 8 opens it;Promote the second sliding block 75 to depart from the 3rd grab 751 and the 4th grab 61, turn
Mobile robot upper semi-body 7 erects it;Overturning the second chest construction 74 makes it be fitted with the first chest construction 71, and exposes machine
The face of people.Now, the deformation of the second car body is to complete.
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
In the groove 76 of 34 insertion robot upper semi-bodies 7, a complete robot is constituted.
The fit toy car of a kind of deformation described in the utility model also includes eight wheels 10, and wheel 10 is respectively hinged at the
In one front frame 5, the first Rear frame 3, the second front frame 6 and the second Rear frame 8.
Embodiment 2
The difference of embodiment 2 and embodiment 1 is being, as shown in Figures 12 and 13, is fixed with the first sliding block 33
The second magnet 752 is fixed with one magnet 332, the second sliding block 75.First magnet 352 is located at the first sliding block 33 close to the machine
One end of connection bump 34 of people's lower semi-body 3, the second magnet 752 is 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 relative slides, while the first car body and the second car body also phase
To motion, 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
Hinged place, the hinged place of the second Rear frame 8 and the second front frame 6 and the robot upper semi-body 7 with the first Rear frame 2 and
The hinged place of second front frame 6 is equipped with back-moving spring.When before the first car body and the deformation of the second car body, back-moving 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 relative;
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 first sliding block 33 and the relative slip of the second sliding block 75, while drive the second car body 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 departs from the second grab 41,
3rd grab 751 and the 4th grab 61 depart from, in the presence of back-moving spring screen resilience, and robot lower semi-body 3 drives and machine
People's upper semi-body 7 is erected vertically together, and the first front frame 4 is flared out, and the first overhead guard 5 is with rushing that robot lower semi-body 3 is upspring
Lower opening is hit, the second overhead guard 9 is opened under the impact that robot upper semi-body 7 is upspring, and the second front frame 6 is flared out.Now,
The deformation of one car body and the second car body is completed.
A kind of other structures for deforming fit toy car described in the utility model are referring to prior art.
It is described above, only it is preferred embodiment of the present utility model, not makees any formal to the utility model
Limitation, it is therefore every without departing from technical solutions of the utility model content, implement according to technical spirit of the present utility model to more than
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. the fit toy car of one kind deformation, it is characterised in that:
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, and two the first Rear frames are fixed
On chassis, robot lower semi-body is rotationally located between two Rear frames, and the top of the robot lower semi-body is provided with connection
It is raised;
Second car body includes two the second front frames and a robot upper semi-body, and robot upper semi-body is rotationally located at two
Between individual second front frame, the bottom of the robot upper semi-body is provided with the groove matched with the connection bump.
2. the fit toy car of a kind of deformation according to claim 1, it is characterised in that:The chassis and the first Rear frame group
Into a placing chamber, the bottom side of the robot lower semi-body is located at the first end in placing chamber and being articulated with the first Rear frame
Side wall.
3. the fit toy car of a kind of deformation according to claim 2, it is characterised in that:
First car body also includes two the first front frames;
First front frame is hingedly connected to the first end of two the first Rear frames;
The top side of the robot lower semi-body is located between two the first Rear frames.
4. the fit toy car of a kind of deformation according to claim 3, it is characterised in that:
The robot lower semi-body includes the leg structure of robot and is buckled in first shell at the leg structure back side;
The first sliding block is slidably provided between the leg structure and the first shell;
The both sides of first sliding block are provided with the first grab, and first grab is located at the outside of robot lower semi-body;
The side wall of first front frame is provided with the second grab, first grab and the second grab clamping.
5. the fit toy car of a kind of deformation according to claim 4, it is characterised in that:
First car body also 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 the edge of one edge and the first shell and coincide.
6. the fit toy car of a kind of deformation according to claim 5, it is characterised in that:The middle part of the robot upper semi-body
It is articulated with the side wall of the first end of the second front frame;The robot upper semi-body include the first chest construction, the second chest construction,
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 chest construction
First end, second chest construction is articulated with the first end of the first chest construction and covers the face on the head.
7. the fit toy car of a kind of deformation according to claim 6, it is characterised in that:
The second sliding block is slidably provided between first chest construction and second housing;
The both sides of second sliding block are provided with the 3rd grab, and the 3rd grab is located at the outside of robot upper semi-body;
The side wall of second front frame is provided with the 4th grab, the 3rd grab and the 4th grab clamping;
Second car body also includes two the second Rear frames;
Second Rear frame is hingedly connected to the first end of two the second front frames;
The head is located between two the second Rear frames.
8. the fit toy car of a kind of deformation according to claim 7, it is characterised in that:
Second car body also 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 provided with hook, and the hook is propped up
The edge of second chest construction;
The side wall of second Rear frame is provided with the 5th grab, and the side wall of second overhead guard is embedded in the 5th grab.
9. the fit toy car of a kind of deformation according to claim 8, it is characterised in that:
The first magnet is fixed with 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 with second sliding block, second magnet is located in the robot
Groove one end of halfbody.
10. the fit toy car of a kind of deformation according to claim 8, 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
Back-moving spring.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720081028.1U CN206463501U (en) | 2017-01-22 | 2017-01-22 | The fit toy car of one kind deformation |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720081028.1U CN206463501U (en) | 2017-01-22 | 2017-01-22 | The fit toy car of one kind deformation |
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Publication Number | Publication Date |
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CN206463501U true CN206463501U (en) | 2017-09-05 |
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ID=59704766
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Application Number | Title | Priority Date | Filing Date |
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CN201720081028.1U Ceased CN206463501U (en) | 2017-01-22 | 2017-01-22 | The fit toy car of one kind deformation |
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CN (1) | CN206463501U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110075541A (en) * | 2019-04-16 | 2019-08-02 | 广东美致智教科技股份有限公司 | It deforms the shock-absorption adjusting device of upright robot and has the upright robot of deformation of the device |
-
2017
- 2017-01-22 CN CN201720081028.1U patent/CN206463501U/en not_active Ceased
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110075541A (en) * | 2019-04-16 | 2019-08-02 | 广东美致智教科技股份有限公司 | It deforms the shock-absorption adjusting device of upright robot and has the upright robot of deformation of the device |
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IW01 | Full invalidation of patent right |
Decision date of declaring invalidation: 20190325 Decision number of declaring invalidation: 39485 Granted publication date: 20170905 |
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