CN218129934U - Special-shaped robot toy capable of being folded into automobile - Google Patents

Abstract

The utility model discloses a special-shaped robot toy capable of being folded into an automobile, which has simple structure and easy realization, and is connected with the setting of a robot trunk main body through a robot back part, so that on one hand, the special shape under the robot form can be realized, on the other hand, the robot trunk main body under the automobile form is in a non-solid setting so as to be reflected, and the robot trunk main body conforms to the manned space arranged on the automobile body in reality, thereby being beneficial to improving the market competitiveness; the robot base, the robot left leg part and the robot right leg part are arranged to enable the robot to be in a sitting posture state, and the robot is novel in shape; in the robot form, the robot back part, the robot back upper swinging part, the robot left hand part, the robot right hand part, the robot head part, the robot left leg part and the robot right leg part are respectively arranged in a swinging manner, so that the playability and the flexibility are improved, and the subsequent folding to the automobile form is facilitated; the arrangement of the automobile rear wheel and the automobile front wheel can improve the shape of the robot.

Description

Special-shaped robot toy capable of being folded into automobile

Technical Field

The utility model relates to a special-shaped robot toy capable of folding into a car.

Background

At present, the robot toy is popular with children, the existing toy which folds the robot into an automobile is good in entertainment, but the trunk body of the robot in the robot shape is not provided with a back part independently, the shape is not unique enough, and the improvement of market competitiveness is not facilitated; secondly, most of the existing robots are in a standing state, and the existing robots are ordinary in shape; in addition, the existing robot toy capable of being folded into an automobile has a trunk body which is mostly the middle section of the automobile body in the automobile shape, and when the trunk body is of a solid structure and a back part is not independently arranged, the trunk body feels that the middle section of the automobile body is solid in the automobile shape, so that the trunk body is not in accordance with the reality that the automobile body is provided with a manned space, and the market competitiveness is not favorably improved.

Therefore, how to overcome the above-mentioned drawbacks has become an important issue to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the above-mentioned not enough of technique provides a special-shaped robot toy who folds into the car.

In order to achieve the above purpose, the utility model adopts the following technical proposal: a special-shaped robot toy capable of being folded into an automobile comprises a robot base 1 used as a tail of the automobile in an automobile shape, automobile rear wheels 2 are arranged on the left side and the right side of the robot base 1 respectively, a robot back component 3 capable of swinging in a left-right direction in a limiting mode around an axis is connected to the front upper end of the robot base 1 and used as a roof in the automobile shape, a robot trunk main body 5 capable of swinging in a left-right direction in a limiting mode around an axis is connected to the upper end of the robot back component 3 and used as a head main body in the automobile shape, the robot back component 3 is connected with a robot left hand component 7 located in front of the robot back component and capable of swinging in a limiting mode around an axis in a left-right direction and hidden under the robot back component 3 in the automobile shape, the left upper side of the robot trunk main body 5 is connected with a robot left hand component 6 capable of swinging in a limiting mode around an axis in a front-back direction, the upper right side of the robot right hand component 7 capable of swinging in a limiting mode around an axis in a front-back direction, the upper side of swinging in the upper side is connected with a robot left hand component 8 capable of swinging in a left side and a right leg component capable of swinging in a front-left side of swinging around an upper side of a left leg and a left leg component 9 and a right leg capable of swinging in a left leg in a right leg in a surrounding mode around a front leg in a right leg.

Preferably, the robot back component 3 is made of a transparent material.

Preferably, a groove 51 is provided at a front end of the robot trunk body 5, and the robot head unit 8 is capable of swinging around a left-right axis and sinking into the groove 51.

Preferably, a torsion spring for automatically swinging up the robot head part 8 in a robot state is provided between the robot trunk body 5 and the robot head part 8, and the robot back swing member 4 is provided with a pressing part 41 for pressing the robot head part 8 so as to sink into the groove 51 in an automobile state.

Preferably, an accommodating space 12 for accommodating the left and right robot hand members 6 and 7 is provided between the robot back member 3 and the robot trunk body 5.

Preferably, left hand member of robot 6 is including connecting the upper left side of robot trunk main part 5 can be around the spacing wobbling robot left side of axis of fore-and-aft direction shoulder 61, connection the left side of arm of robot 62 of the spacing wobbling of axis of fore-and-aft direction can be wound in the middle part of left side of robot shoulder 61, right hand member of robot 7 is including connecting the upper right side of robot trunk main part 5 can be around the spacing wobbling robot right side of arm 71 of axis of fore-and-aft direction, connection the right side of arm 72 of the spacing wobbling of axis that can wind fore-and-aft direction in the middle part of right side of arm 71 of robot.

Preferably, a locking mechanism for locking the relative position in the automobile mode is provided between the robot back upper swing member 4 and the robot left leg member 9 and the robot right leg member 10.

Preferably, the locking mechanism includes a magnetic movable block 13 disposed in the swinging member 4 on the back of the robot and used for moving up and down in the vehicle shape, and a spring 14 used for automatically returning after the magnetic movable block 13 moves downward under magnetic attraction in the vehicle shape, the left and right sides of the magnetic movable block 13 are respectively provided with a hook 15 used for protruding upward in the vehicle shape, the left leg member 9 of the robot and the right leg member 10 of the robot are respectively provided with a hook groove 16 used for hooking the hook 15 on the corresponding side in the vehicle shape, and the bottom of the swinging member 4 on the back is magnetically attracted to make the magnetic movable block 13 move downward to compress the spring 14 so as to drive the hook 15 to move downward together to separate the hook 15 from the hook groove 16 and unlock.

Preferably, robot base 1 with it makes to be equipped with between the left leg part 9 of robot when being used for locking the mechanism unblock the automatic outside wobbling torsional spring of left leg part 9 of robot, robot base 1 with be equipped with between the right leg part 10 of robot and be used for making the automatic outside wobbling torsional spring of right leg part 10 of robot when locking the mechanism unblock, robot base 1 with it makes to be equipped with between the back of the body part 3 of the robot from the front end through the torsional spring that the top swung the rear end and targets in place.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the structure of the scheme is simple and easy to realize, the robot body main body is connected with the back part of the robot, on one hand, the unique shape of the robot in the form of the robot is realized, on the other hand, the middle part of the vehicle body in the form of the automobile is in non-solid arrangement, the arrangement is consistent with the arrangement of the manned space in the vehicle body in reality, and the market competitiveness is favorably improved; the robot base, the robot left leg part and the robot right leg part are arranged to enable the robot to be in a sitting posture state in a robot shape, and the shape is novel; in the robot state, the robot back part, the swinging part on the robot back, the left robot hand part, the right robot hand part, the robot head part, the left robot leg part and the right robot leg part are respectively arranged in a swinging manner, so that the playability and flexibility are increased, and the subsequent folding to the automobile state is facilitated; the arrangement of the rear wheels and the front wheels of the automobile can improve the shape of the robot.

2. According to the scheme, the shape of the front end of the robot trunk body in the robot shape is increased through the arrangement of the groove, the robot head part can swing around a shaft in the left-right direction and sink into the groove, so that the swinging part on the back of the robot is not prevented from swinging to the front end of the robot trunk body to form a vehicle head body in the automobile shape, in addition, a large notch for avoiding/accommodating the robot head part is not required to be arranged on the swinging part on the back of the robot in the concrete implementation, so that the swinging part on the back of the robot does not have a large notch in the appearance, and the visual angle feeling of a user in the robot shape is not influenced.

3. The torsion spring between the body main body and the robot head part of the robot is arranged, so that the robot head part can automatically swing upwards to serve as the robot head, automatic unfolding is realized, and market competitiveness is improved; the arrangement of the jacking portion of the swinging piece on the robot back facilitates that the robot head piece is fixed in the groove in a jacking and stressed mode and cannot swing upwards when in an automobile shape, so that the neatness of the automobile shape is improved, and the jacking portion swings backwards along with the swinging piece on the robot back and does not prevent the robot head piece from automatically swinging upwards when the automobile shape is unfolded into the robot shape.

4. According to the scheme, the magnetic movable block and the spring are arranged, so that the magnetic movable block is attracted by magnetism through the bottom of the back upper swinging piece and then moves downwards to realize unlocking, the toy is expanded from an automobile shape to a robot shape, and the spring automatically resets to push the magnetic movable block to move upwards to enable the hook body to return to an initial position without influencing subsequent folding to the automobile shape when the toy is in the robot shape, so that the hook body is automatically locked when the toy is folded to the automobile shape next time; the hook body and the hook groove are matched, so that the hook is convenient to implement and can be fixed and separated.

Drawings

Fig. 1 is a perspective view of the shape of the robot.

Fig. 2 is a perspective view of the present invention in an automobile configuration.

Fig. 3 is a partial structural diagram of the automobile form of the present invention.

Fig. 4 is a schematic structural diagram of a part of the special-shaped robot in the present invention.

Fig. 5 is an exploded schematic view of the swinging member on the back of the robot.

Detailed Description

The features of the present invention and other related features are described in further detail below by way of examples to facilitate understanding by those skilled in the art:

as shown in fig. 1 to 3, a robot toy capable of being folded into a vehicle includes a robot base 1 for serving as a vehicle tail in a vehicle form, rear wheels 2 of the vehicle are respectively provided on left and right sides of the robot base 1, a robot back 3 capable of swinging in a left-right direction around an axis in the left-right direction for serving as a vehicle roof in the vehicle form is connected to a front upper end of the robot base 1, a robot trunk body 5 capable of swinging in a left-right direction around an axis in the left-right direction for being hidden under the robot back 3 in the vehicle form is connected to an upper end of the robot back 3, a robot right 7 capable of swinging in a front-rear direction around an axis in the left-right direction is connected to an upper left upper side of the robot trunk body 5, a left hand 8 capable of swinging in a front-rear direction around an axis in the left-right direction is connected to a left upper side of the robot body 5, a left leg 9 capable of swinging in a left side of surrounding the vehicle body is connected to an upper left side of the robot base 9, and a right leg 9 as vehicle front leg in a vehicle form are connected to an upper leg in a vehicle body capable of swinging in the left side of swinging in the vehicle form, and a vehicle body capable of swinging in a vehicle form around a vehicle around an upper leg in a left leg in a vehicle.

As described above, the structure of the robot body is simple and easy to realize, and the robot body main body 5 is connected with the robot back part 3, so that on one hand, the unique shape of the robot in the form of the robot is realized, on the other hand, the middle part of the vehicle body in the form of the automobile is in a non-solid arrangement, and the vehicle body is consistent with the manned space arranged in the vehicle body in reality, and the market competitiveness is improved; the robot base 1, the robot left leg part 9 and the robot right leg part 10 are arranged to enable the robot to be in a sitting posture in shape, and the shape is novel; in the robot shape, the robot back part 3, the robot back upper swinging part 4, the robot left hand part 6, the robot right hand part 7, the robot head part 8, the robot left leg part 9 and the robot right leg part 10 are respectively arranged in a swinging manner, so that the playability and flexibility are improved, and the subsequent folding to the automobile shape is facilitated; the arrangement of the automobile rear wheel 2 and the automobile front wheel 11 can improve the shape of the robot.

As described above, in specific implementation, the robot back part 3 is made of a transparent material, so that the robot back part 3 can improve the perception of the user on the back of the robot in the robot form, and can be used as a transparent roof in the automobile form, so as to attract the user to clearly see the space in the automobile form, which is beneficial to improving market competitiveness.

As shown in fig. 1 and 2, in a specific implementation, a groove 51 is provided at a front end of the robot trunk body 5, and the robot head 8 can swing around a left-right axis and sink into the groove 51.

As described above, by the arrangement of the groove 51, the shape of the front end of the robot trunk body 5 in the robot shape is increased, and the robot head part 8 can swing around the axis in the left-right direction and sink into the groove 51, so that the swing part 4 on the back of the robot is not hindered from swinging to the front end of the robot trunk body 5 to form a head body in the automobile shape.

As shown in fig. 4, in practical implementation, a torsion spring for automatically swinging up the robot head part 8 in the robot state is provided between the robot trunk body 5 and the robot head part 8, and the robot back upper swinging part 4 is provided with a pressing part 41 for pressing the robot head part 8 so as to sink into the groove 51 in the automobile form.

As described above, in specific implementation, the torsion spring between the robot trunk body 5 and the robot head part 8 is arranged, so that the robot head part 8 can automatically swing upwards to serve as the robot head, automatic unfolding is realized, and market competitiveness is improved; the arrangement of the jacking portion 41 of the swinging member 4 on the back of the robot is convenient for the robot head member 8 to be jacked and stressed to be fixed in the groove 51 and not to swing upwards in the automobile shape, so that the shape neatness of the automobile is improved, and on the other hand, the jacking portion 41 swings backwards along with the swinging member 4 on the back of the robot and does not prevent the robot head member 8 from automatically swinging upwards in the process of unfolding the automobile shape into the robot shape, so that the operation is convenient, and the practicability is good.

As shown in fig. 1, 3 and 4, in the concrete implementation, an accommodating space 12 for accommodating the left and right robot hand members 6 and 7 is provided between the robot back member 3 and the robot trunk body 5, so that, in the automobile shape, the hand accommodated between the robot back member 3 and the robot trunk body 5 can be used as a decorative part of the space in the automobile to improve the appearance tidiness of the automobile body.

As shown in fig. 4, the left robot hand part 6 includes a left robot shoulder 61 connected to the upper left side of the robot trunk body 5 and capable of swinging around the front-back direction axis, a left robot arm 62 connected to the middle of the left robot shoulder 61 and capable of swinging around the front-back direction axis, and the right robot hand part 7 includes a right robot shoulder 71 connected to the upper right side of the robot trunk body 5 and capable of swinging around the front-back direction axis and a right robot arm 72 connected to the middle of the right robot shoulder 71 and capable of swinging around the front-back direction axis, so that the playability and the interestingness in the robot form increase are facilitated.

As described above, in the present embodiment, a locking mechanism for locking the relative position in the vehicle state is provided between the robot back swing member 4 and the robot left leg member 9 and the robot right leg member 10, which is advantageous in that the closed state of the robot can be maintained after the robot is closed in the vehicle state, and the firmness of the vehicle state can be improved.

As shown in fig. 1, 3 and 5, the locking mechanism includes a magnetic movable block 13 disposed in the swinging member 4 on the back of the robot and configured to move up and down in the vehicle configuration, and a spring 14 configured to automatically return after the magnetic movable block 13 moves down due to magnetic attraction in the vehicle configuration, hook bodies 15 configured to protrude upward in the vehicle configuration are respectively disposed on the left and right sides of the magnetic movable block 13, hook grooves 16 configured to be hooked by the hook bodies 15 on the corresponding sides in the vehicle configuration are respectively disposed on the left leg member 9 of the robot and the right leg member 10 of the robot, and the magnetic movable block 13 moves down due to magnetic attraction in the bottom of the swinging member 4 on the back in the vehicle configuration to compress the spring 14, so as to drive the hook bodies 15 to move down together to separate the hook bodies 15 from the hook grooves 16 and unlock the robot.

As described above, the arrangement of the magnetic movable block 13 and the spring 14 is, on one hand, convenient for the magnetic movable block 13 to move downwards after being magnetically attracted through the bottom of the back upper swinging member 4, so as to realize unlocking, and is beneficial to unfolding the toy into a robot shape from an automobile shape, and on the other hand, is beneficial to the automatic resetting of the spring 14 when the robot shape is carried out, so as to push the magnetic movable block 13 to move upwards, so that the hook 15 returns to an initial position without affecting subsequent folding into the automobile shape, so as to facilitate the automatic locking when the next folding into the automobile shape is carried out; the hook body 15 and the hook groove 16 are matched, so that the hook is convenient to implement and can be fixed and separated.

As described above, in the specific implementation, a torsion spring for enabling the robot left leg member 9 to automatically swing to the outside when the locking mechanism is unlocked is provided between the robot base 1 and the robot left leg member 9, a torsion spring for enabling the robot right leg member 10 to automatically swing to the outside when the locking mechanism is unlocked is provided between the robot base 1 and the robot right leg member 10, and a torsion spring for enabling the robot back member 3 to swing in place from the front end to the rear end from the top when the locking mechanism is unlocked is provided between the robot base 1 and the robot back member 3.

As described above, the present application protects a special-shaped robot toy capable of being folded into an automobile, and all technical solutions identical or similar to the present application should be shown to fall within the protection scope of the present application.

Claims (9)

1. A special robot toy capable of being folded into an automobile is characterized by comprising a robot base (1) used as a tail of the automobile in an automobile shape, automobile rear wheels (2) are respectively arranged on the left side and the right side of the robot base (1), a robot back part (3) capable of swinging in a left-right direction in a limiting mode around an axis and used as a roof in the automobile shape is connected to the front upper end of the robot base (1), a robot trunk main body (5) capable of swinging in a left-right direction in a limiting mode around an axis and used as a head main body in the automobile shape is connected to the upper end of the robot back part (3), a robot trunk main body (5) capable of swinging in a left-right direction in a limiting mode around an axis and used as a head main body in the automobile shape is connected to the robot back part (3), a robot left-side upper side of the robot trunk main body (5) is connected to a left-side part (6) capable of swinging in a limiting mode around an axis in a front-back direction, a right-side part (7) capable of swinging around an axis and a right-side part (9) capable of swinging in a left-right direction around an upper shaft and used as a left-right-side part (9) capable of swinging around a front-left-right-side of swinging around an axis and a front-left-right-side of a front part (9) connected to the robot trunk part (9) capable of swinging in a vehicle shape around a vehicle shape, and the left leg part (9) of the robot and the right leg part (10) of the robot are respectively provided with an automobile front wheel (11).

2. The contoured robotic toy capable of folding into an automobile according to claim 1, characterized in that said robot back part (3) is made of transparent material.

3. The hetero robot toy capable of folding into an automobile according to claim 1, characterized in that the front end of the robot trunk body (5) is provided with a groove (51), and the robot head part (8) can swing around an axis in the left-right direction to sink into the groove (51).

4. The contoured robotic toy capable of folding into a vehicle as claimed in claim 3, characterized in that a torsion spring is provided between said robot trunk body (5) and said robot head member (8) for automatically swinging up the robot head member (8) in a robot state, and said robot back upper swinging member (4) is provided with a pressing portion (41) for pressing said robot head member (8) into said recess (51) in a vehicle configuration.

5. The heterogeneous robotic toy capable of folding into an automobile according to claim 1, characterized in that between the robot back part (3) and the robot trunk body (5) is provided an accommodation space (12) for accommodating therein the robot left-hand part (6) and the robot right-hand part (7).

6. The special robot toy capable of being folded into an automobile according to claim 1, wherein the left robot hand component (6) comprises a left robot shoulder (61) which is connected to the upper left side of the robot trunk body (5) and can swing around the axis in the front-back direction in a limited manner, a left robot arm (62) which is connected to the middle of the left robot shoulder (61) and can swing around the axis in the front-back direction in a limited manner, and the right robot hand component (7) comprises a right robot shoulder (71) which is connected to the upper right side of the robot trunk body (5) and can swing around the axis in the front-back direction in a limited manner, and a right robot arm (72) which is connected to the middle of the right robot shoulder (71) and can swing around the axis in the front-back direction in a limited manner.

7. The heterogeneous robotic toy of any one of claims 1-6, wherein a locking mechanism is provided between the swinging member (4) on the back of the robot and the left (9) and right (10) robot legs for locking the relative positions of the robot legs in the vehicle configuration.

8. The special robot toy capable of being folded into an automobile according to claim 7, wherein the locking mechanism comprises a magnetic movable block (13) arranged in the swinging member (4) on the back of the robot and capable of moving up and down in the automobile shape and a spring (14) capable of automatically returning after the magnetic movable block (13) moves down under the magnetic attraction in the automobile shape, the left side and the right side of the magnetic movable block (13) are respectively provided with a hook body (15) for protruding upward in the automobile shape, the left leg part (9) of the robot and the right leg part (10) of the robot are respectively provided with a hook groove (16) for hooking the hook body (15) on the corresponding side in the automobile shape, and the bottom of the swinging member (4) on the back is under the magnetic attraction to make the magnetic movable block (13) move down and compress the spring (14) so as to drive the hook body (15) to move down together to realize the separation of the hook body (15) and the hook groove (16) and unlock.

9. The robot toy according to claim 8, wherein a torsion spring for automatically swinging the left leg member (9) outward when the locking mechanism is unlocked is provided between the robot base (1) and the left leg member (9), a torsion spring for automatically swinging the right leg member (10) outward when the locking mechanism is unlocked is provided between the robot base (1) and the right leg member (10), and a torsion spring for swinging the back member (3) outward from a front end to a rear end when the locking mechanism is unlocked is provided between the robot base (1) and the back member (3).

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