CN212214599U - Multi-form rotary deformation toy with telescopic main body - Google Patents
Multi-form rotary deformation toy with telescopic main body Download PDFInfo
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- CN212214599U CN212214599U CN202020148018.7U CN202020148018U CN212214599U CN 212214599 U CN212214599 U CN 212214599U CN 202020148018 U CN202020148018 U CN 202020148018U CN 212214599 U CN212214599 U CN 212214599U
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Abstract
The utility model discloses a multi-form rotary deformation toy with a telescopic main body, which relates to the field of deformation toys, and can be combined into a pseudo-shape structure by arranging a first split body, a second upper split body and a second lower split body, and then the movable connecting structure is arranged to change the position of the structure, so that the complicated pseudo-shape structure is converted into another shape, the deformation toy performs pseudo-shape based on the deformation state of a component position relation, and the deformation toy has various complicated forms by moving the component position relation based on the other deformation state of the position shape, thereby increasing the pleasure of playing, but realizing multi-form change through simple deformation operation such as rotation or translation, and reducing the difficulty of playing; the multiple deformation states have large degree of distinction and high surprise degree, and can be rotated to swing into multiple postures under different forms. Further, the state simulation degree of another position-based shape can be higher by the swing display of the components which are hidden in the toy in cooperation with the activities.
Description
Technical Field
The utility model relates to a deformation toy field specifically is a polymorphic rotation deformation toy that main part is flexible.
Background
The transformable toy gives the player great pleasure due to the variety of the shape or the posture. At present, some transformation toys have an integral shape, the posture of the integral shape is changed by a movable transformation mode of rotating or moving parts such as hands, feet, heads and the like, and the transformation toys are often not interesting because the integral shape is not changed. The movable deformation of some deformation toys through parts can be transformed from simple forms such as blocks, bullet shapes and the like into complex forms such as animals, machines or vehicles, and the playability of the deformation toys in the simple forms is not high. There are also transformable toys that can be transformed between a variety of complex configurations, but require disassembly and reassembly of the transformable toy, which can result in toy components that are easily lost and can no longer be used for play.
Disclosure of Invention
The utility model aims to provide a: the multi-form rotary transformable toy is provided with a main body which can stretch out and draw back, and can solve the problems that the transformable toy is single in form, complex in form is not enough to represent the form to be simulated, and the playing pleasure is not enough.
In order to achieve the purpose, the utility model provides a multi-form rotary deformation toy capable of extending and contracting a main body, which comprises a toy main body, wherein the toy main body comprises a first split body and a second split body, and the first split body and the second split body are mutually connected and have a pseudo-shape structure; the second sub-body comprises a second upper sub-body and a second lower sub-body, the second lower sub-body is movably connected to the rear side of the first sub-body, and the second upper sub-body is movably connected to the upper side of the second lower sub-body, so that when the second lower sub-body moves away from the first sub-body, the second upper sub-body can move to the position between the first sub-body and the second lower sub-body from the upper side of the second lower sub-body.
In the above-mentioned transformable toy, preferably, one of the second upper split body and the second lower split body is provided with a first sliding rod, the other of the second upper split body and the second lower split body is provided with a first track hole, the first track hole is provided with a first limiting boss, and the first sliding rod is connected to the first track hole in a sliding manner in a translation fit manner, so that the second upper split body can move on the upper side and the front side of the second lower split body.
Preferably, the toy body further comprises a connector connected to the first sub-body, one of the connector and the second sub-body is provided with a second sliding rod, the other of the connector and the second sub-body is provided with a second track hole, the second track hole is provided with a second limiting boss, and the second sliding rod can be connected to the second track hole in a sliding manner in a translation fit manner, so that the second sub-body can move relative to the first sub-body.
In the above-mentioned transformable toy, preferably, the toy main body is transformable into an animal shape, the toy main body further includes a head, the bottom of the first sub-body is provided with a first slot, and the head is rotatably connected to the front side of the first sub-body and rotatably hidden in the first slot;
in the above-mentioned transformable toy, one of the head and the first split body is provided with a third sliding rod, the other of the head and the first split body is provided with a third track hole, the third track hole is provided with a third limit boss, and the third sliding rod is connected to the third track hole in a sliding manner in a translation fit manner, so that the head can be rotationally moved between the front side of the first split body and the first slot hole.
The toy body further comprises a tail, the second upper split body is provided with a second slotted hole, and the tail is rotatably connected to the rear side of the second lower split body and rotatably hidden in the second slotted hole.
In the above-described transformable toy, preferably, the toy body is transformable into an animal form, the pseudo-form structure is a vehicle form, and the toy body further includes leg portions and wheel portions, which are connected to the toy body in a convertible manner as a support structure.
Foretell deformation toy, it further has, the both sides of the components of a whole that can function independently under first components of a whole that can function independently and the second are provided with radial rotatory rotor respectively, the leg is connected in the rotor relatively rotatoryly, the wheel portion includes frame and wheel, the one end of frame is connected with the wheel, the other end of frame is provided with the fourth slide bar, the leg is provided with fourth orbit hole, fourth slide bar cooperable translation sliding connection in fourth orbit hole, fourth orbit hole both ends are provided with the spacing boss of fourth.
In the above-described transformable toy, it is preferable that the first and second division bodies are detachably connected so that the first and second division bodies are detachably attached to another toy as both feet of the toy.
In the above-described transformable toy, it is preferable that a doll is detachably attached to an upper side of the first sub-body.
Compared with the prior art, the utility model, have following advantage:
(1) the utility model discloses a set up first components of a whole that can function independently, second upper splitting body and second lower splitting body can make up into the mimic structure, set up the connection structure of activity again and make its position change, realize changing complicated mimic structure into another shape, this deformation toy is based on the deformation state of a component position relation and plans the shape, through with component position relation activity based on another deformation state of position shape, make the deformation toy have complicated multiple form, increase the enjoyment of playing, but can realize polymorphic change through simple deformation manipulation such as rotation or translation, reduce the difficulty of playing; the multiple deformation states have large degree of distinction and high surprise degree, and can be rotated to swing into multiple postures under different forms. Further, the state simulation degree of another position-based shape can be higher by the swing display of the components which are hidden in the toy in cooperation with the activities.
(2) The utility model is provided with the leg part and the wheel part, so that the toy body can be converted between the shapes of a carriage with wheels, a saddle with legs, a bull and the like, the variety of deformation shapes is improved, and the play interest is increased; through the structure of the track hole, the sliding rod and the limiting boss, the part can not only slide and deform, but also move and deform, and the deformation motion of the movable part of the toy is more free and abundant and is not easily influenced by other parts; the toy is provided with dolls with different animation elements, and the shapes of riding are matched, so that the entertainment and fun of the toy are enriched; the simulation degree of deformation is increased by arranging the head part and the tail part.
The present invention will be further described with reference to the accompanying drawings.
Drawings
Fig. 1 is a schematic sectional three-dimensional structure of a first variant of the present invention;
fig. 2 is a schematic sectional three-dimensional structure of a second variant of the present invention;
FIG. 3 is a schematic view of the exploded perspective structure of the leg and wheel of the present invention;
fig. 4 is a schematic perspective view of a first variant of the present invention;
fig. 5 is a schematic perspective view of a second variant of the present invention;
FIG. 6 is a schematic perspective view of a third embodiment of the present invention
Fig. 7 is a schematic perspective view of the present invention assembled to another toy.
The reference signs are: the toy comprises a first sub-body 1, a connecting body 11, a second sliding rod 12, a second track hole 13, a second limiting boss 14, a second sub-body 2, a second upper sub-body 21, a second lower sub-body 22, a first sliding rod 23, a first track hole 24, a first limiting boss 25, a head 3, a first slotted hole 3a, a tail 4, a second slotted hole 4a, a third sliding rod 31, a third track hole 32, a third limiting boss 33, a leg 5, a rotating body 51, a wheel part 6, a frame 61, a wheel 62, a fourth sliding rod 63, a fourth track hole 64, a fourth limiting boss 65, a connecting part 7 and a doll 8.
Detailed Description
In order to make the technical field person understand the scheme of the present invention better, the following will combine the drawings in the embodiments of the present invention to clearly and completely describe the technical scheme in the embodiments of the present invention.
As shown in fig. 1-7, the utility model relates to a multi-form rotary transformable toy with a telescopic main body, which comprises a toy main body, wherein the toy main body comprises a first split body 1 and a second split body 2, and the first split body 1 and the second split body 2 are connected with each other and have a pseudo-shape structure; the second sub-body 2 includes a second upper sub-body 21 and a second lower sub-body 22, the second lower sub-body 22 is movably connected to the rear side of the first sub-body 1, the second upper sub-body 21 is movably connected to the upper side of the second lower sub-body 22, so that when the second lower sub-body 22 moves away from the first sub-body 1, the second upper sub-body 21 can move between the first sub-body 1 and the second lower sub-body 22 from the upper side of the second lower sub-body 22. The first split body 1, the second upper split body 21 on the rear upper side and the second lower split body 22 on the rear lower side can be combined into a simulated structure, the second lower split body 22 on the rear lower side is stretched to be away from the first split body 1, a set distance is formed between the first split body 1 and the second lower split body 22, the second upper split body 21 is swung from the upper side to the position between the first split body 1 and the second lower split body 22, the complicated simulated structure is converted into another shape, and the swinging of components hidden in the first split body 1 and the second split body 2 in a matching movement is revealed, so that the other external shape forms another toy shape.
As shown in fig. 1 to 7, in the present embodiment, in order to make the second upper division body 21 move on the upper side and the front side of the second lower division body 22, the second upper division body 21 is provided with a first sliding rod 23; the second lower split 22 is of a shell structure, and two sides of the upper part of the second lower split are provided with first track holes 24; the first sliding rod 23 is cylindrical, the diameter of the first sliding rod is matched with the width of the first track hole 24 so as to be connected to the first track hole 24 in a sliding mode in a matching and translation mode, the first track hole 24 is a T-shaped track, and the rear end and the lower end of the first sliding rod are respectively provided with a first limiting boss 25. The first limit boss 25 is a slightly protruding structure of the upper and lower side walls of the first track hole 24 to form a limit for the first sliding rod 23.
During operation, the second lower split body 22 is pulled out, the second upper split body 21 is pulled from the right side to the left side of the upper side, the second upper split body 21 is rotated to be rotated from the horizontal direction to the vertical direction, and then the second upper split body 21 is pushed to the lower end along the vertical direction of the first track hole 24, so that the second upper split body 21 is deformed.
As shown in fig. 1-7, the embodiment specifically includes that the second lower sub-body 22 can move relatively to the first sub-body 1, the toy main body further includes a connecting body 11, and the connecting body 11 is connected to the first sub-body 1. The connecting body 11 is provided with a second sliding rod 12, and second track holes 13 are arranged on two sides of the lower portion in the shell structure of the second lower split body 22. The second sliding rod 12 is cylindrical and has a diameter matching the width of the second track hole 13 so as to be connected to the second track hole 13 in a translational sliding manner. Second orbit hole 13 is the straight line form orbit, and the rear end department and the front side of second orbit hole 13 are close to front end department and are provided with spacing boss 14 of second, for spacing boss 14 of second for the hole side wall structure of protruding slightly about the hole to it is spacing to form second slide bar 12 block.
During operation, the second sliding rod 12 on the connecting body 11 is pushed out from the right end of the second track hole 13 and pushed to the tail end of the left side, the second upper split body 21 is rotated to the inner side of the space, and the second sliding rod 12 on the connecting body 11 is pushed to the right of the second limiting boss 14 on the left side.
As shown in fig. 1-7, the toy body of the present embodiment is deformable into an animal configuration and the pseudo-configuration is a vehicle configuration. When the first split body 1 is arranged at the front side, the second upper split body 21 is arranged at the rear upper side, the second lower split body 22 is arranged at the rear lower side, and the integral shape and the surface grain structure which are jointed with the first upper split body 21, the second upper split body 22 and the second lower split body form a vehicle shape; when the second lower sub-body 22 is drawn out and the second upper sub-body 21 moves into the gap after drawing, the overall shape of the three is changed, the front portion is not changed, and the rear portion is lengthened and shortened to be deformed into another shape. The other form can be formed into an animal form by fitting the form to be deformed into a target, for example, various other limb parts of the animal which are hidden in the vehicle form.
In other embodiments, the toy body is transformable into one of a first architectural configuration, a first animal configuration, or a first airplane configuration; the pseudo-structure is in one of a second architectural configuration, a second vehicle configuration, or a second aircraft configuration. Such as the second architectural form, may be a famous structure such as a pyramid, statue, etc., in which the concealable member is hidden and rotates or translates out when converted to that form.
As shown in fig. 1-7, in the embodiment, more specifically, the toy main body further includes a head portion 3 and a tail portion 4, a first slot 3a is formed at the bottom of the first split body 1, and the head portion 3 is rotatably connected to the front side of the first split body 1 and rotatably hidden in the first slot 3 a; the second upper split body 21 is provided with a second slot hole 4a, the tail part 4 can be connected to the rear side of the second lower split body 22 through a rotating shaft and a shaft hole in a matching way, and the size and the shape of the second slot hole 4a and the tail part 4 are matched so that the tail part 4 can be hidden. In order to enable the head 3 to be rotatably and movably arranged between the front side of the first split body 1 and the first slot hole 3a, a third sliding rod 31 is arranged at the lower side of the first split body 1, third track holes 32 are arranged at two sides of the head 3, third limiting bosses 33 are arranged at two ends of each third track hole 32, the third sliding rod 31 is cylindrical, the diameter of the third sliding rod is matched with the width of each third track hole 32, and the third sliding rod can be connected to the third track holes 32 in a translation and sliding mode.
In operation, the head 3 in the first slot hole 3a is firstly pulled from the lower end to the upper end of the third track hole 32, the head 3 is withdrawn from the first slot hole 3a downwards, then the head 3 is swung to the front side by rotating 180 degrees, and then the head 3 is pushed from the upper end to the lower end of the third track hole 32, so that the head 3 is pushed up, and the movable deformation of the head 3 is realized.
As shown in fig. 1-7, this embodiment is more particularly directed to a toy body that further comprises a leg portion 5 and a wheel portion 6, the leg portion 5 and the wheel portion 6 being convertible to be attached to the toy body as a support structure. In order to make the leg portion 5 and the wheel portion 6 supported in a switching way, two sides of the first split body 1 and two sides of the second lower split body 22 are respectively provided with a rotating body 51 which rotates in the radial direction, a T-shaped boss of the leg portion 5 is arranged, the connecting body 11 is provided with a T-shaped slot hole, and the T-shaped boss and the T-shaped slot hole are mutually matched and connected, so that the leg portion 5 can be rotatably connected with the connecting body 11. Wheel portion 6 includes frame 61 and wheel 62, the one end of frame 61 is connected with wheel 62, the other end of frame 61 is provided with fourth slide bar 63, the shank is provided with fourth orbit hole 64, fourth slide bar 63 is cylindrical, its diameter and fourth orbit hole 64 width fit, but translation sliding ground connect in fourth orbit hole 64, fourth orbit hole 64 both ends are provided with the spacing boss 65 of fourth, the lateral wall slightly bulge structure about fourth orbit hole 64 is fourth orbit hole 65, it is spacing to form the block to fourth slide bar 63.
In operation, fig. 4 shows the wheel part 6 pushed to the lower end of the fourth track hole 64, and the legs are not turned over to form a riding shape; FIG. 5 shows the wheel portion 6 pushed to the upper end of the fourth tracking hole 64 with the leg portion not turned; fig. 6 shows the leg portion being turned over after being rotated and the wheel portion 6 being pushed out of the lower end of the fourth tracking hole 64.
As shown in fig. 1 to 7, in the present embodiment, more specifically, the connection body 11 is detachably connected to the first division body 1, and the first division body 1 and the second division body 2 are respectively provided with the connection parts 7 so that the first division body 1 and the second division body 2 are detachably mounted on another toy as both feet of the toy. Specifically, a T-shaped buckle is arranged on the connecting portion 7, a T-shaped clamping groove is arranged in the cavity of the first split body 1, and the first split body 1 and the second split body 2 are connected conveniently in assembling and disassembling. The upper ends of the first and second split bodies 1 and 2 are also provided with clamping structures which are matched and connected with the corresponding clamping structures of the legs of the other toy to be used as feet in the combined toy. Still include kicking block and door plant in the second divides body 22 down, the kicking block passes through the pivot and connects in second divides body 22 down to rotatable top door plant for the foot form that second branch body 2 formed is more symmetrical with the foot form that has the ox head on the first branch body 1. The door panel comprises an upper door panel and a lower door panel, the upper door panel and the lower door panel are hinged to each other, and the upper door panel is hinged to the upper side of the second low split body to form a deformation state of the upturned door.
As shown in fig. 1 to 7, the present embodiment is embodied such that a doll 8 is detachably attached to an upper side of the first division body 1. More specifically, the upper side of the first split body 1 is connected with a fixing plate through a rotating shaft, one surface of the fixing plate is provided with the connecting part 7, the other surface of the fixing plate is provided with a connected doll 8 which is convenient to assemble and disassemble through a buckle structure, and the doll 8 is in a shape of a human body and a half body structure and can take various expressions.
The working principle of the utility model is that figure 4 is a deformed riding toy shape, the first split body 1 and the second split body 2 are bodies of the riding, such as the cabin of a carriage, and the leg part 5 and the wheel part 6 are extended to form four legs of the riding; FIG. 5 is a modified toy figure in which the head 3 is moved out of the hidden position and the tail is moved out of the hidden position, the first segment 1 and the modified second segment 2 are bodies of a cow, the wheel portions 6 are pushed to be aligned at the upper side, and the leg portions 5 of a corbel are used as four feet for supporting; fig. 6 shows a modified toy horse-car shape, in which the leg portion 5 is turned upside down and the wheel portion 6 is four wheels as a support. Fig. 7 shows a toy form assembled to another toy, in which the connecting body 11 is detachable from the first section 1, the first section 1 and the second section 2 are independent of each other, and the connecting parts 7 provided on the upper parts of the first section 1 and the second section 2 are engaged with the body of the other toy to serve as legs of the body.
The present invention has been described in terms of embodiments, but not limitations, and other variations of the disclosed embodiments, as would be readily apparent to one skilled in the art, are intended to be included within the scope of the present invention as defined in the following claims, in view of the description of the present invention.
Claims (10)
1. A polymorphic rotational deformation toy with a telescopic main body comprises a toy main body, and is characterized in that the toy main body comprises a first split body (1) and a second split body (2), wherein the first split body (1) and the second split body (2) are connected with each other and have a pseudo-shape structure; the second split body (2) comprises a second upper split body (21) and a second lower split body (22), the second lower split body (22) is movably connected to the rear side of the first split body (1), the second upper split body (21) is movably connected to the upper side of the second lower split body (22), so that when the second lower split body (22) is far away from the first split body (1) to move, the second upper split body (21) can move to the position between the first split body (1) and the second lower split body (22) from the upper side of the second lower split body (22).
2. The multi-form rotational transformation toy capable of being expanded and contracted by main body according to claim 1, wherein one of the second upper sub-body (21) and the second lower sub-body (22) is provided with a first sliding rod (23), the other of the second upper sub-body (21) and the second lower sub-body (22) is provided with a first track hole (24), the first track hole (24) is provided with a first limit boss (25), and the first sliding rod (23) is connected to the first track hole (24) in a sliding manner in a matching and translation manner, so that the second upper sub-body (21) can move on the upper side and the front side of the second lower sub-body (22).
3. The multi-form rotational transformation toy capable of being expanded and contracted by a main body according to claim 1, wherein the main body further comprises a connecting body (11), the connecting body (11) is connected to the first split body (1), one of the connecting body (11) and the second lower split body (22) is provided with a second sliding rod (12), the other of the connecting body (11) and the second lower split body (22) is provided with a second track hole (13), the second track hole (13) is provided with a second limit boss (14), and the second sliding rod (12) is connected to the second track hole (13) in a sliding manner in a translation fit manner, so that the second lower split body (22) can move relative to the first split body (1).
4. The multi-form rotary transformable toy according to claim 1, wherein the toy body is transformable into an animal form, the toy body further comprises a head (3), the bottom of the first split body (1) is provided with a first slot hole (3a), and the head (3) is rotatably connected to the front side of the first split body (1) and rotatably hidden in the first slot hole (3 a).
5. The multi-form rotational transformable toy according to claim 4, wherein one of the head (3) and the first sub-body (1) is provided with a third sliding rod (31), the other of the head (3) and the first sub-body (1) is provided with a third track hole (32), the third track hole (32) is provided with a third limit boss (33), and the third sliding rod (31) is connected to the third track hole (32) in a sliding manner in a matching and translation manner, so that the head (3) can move between the front side of the first sub-body (1) and the first slot hole (3a) in a rotational manner.
6. The multi-form rotary transformable toy according to claim 4, wherein the toy body further comprises a tail portion (4), the second upper split body (21) is provided with a second slot hole (4a), and the tail portion (4) is rotatably connected to the rear side of the second lower split body (22) and rotatably hidden in the second slot hole (4 a).
7. A body-stretchable multi-configuration rotary transformable toy according to claim 1, wherein the toy body is transformable into an animal configuration, the pseudo-configuration is a vehicle configuration, the toy body further comprises leg portions (5) and wheel portions (6), and the leg portions (5) and wheel portions (6) are transformable into a supporting configuration to be connected to the toy body.
8. The multi-form rotary transformable toy capable of being expanded and contracted by body according to claim 7, wherein two sides of the first split body (1) and two sides of the second lower split body (22) are respectively provided with a rotary body (51) rotating in the radial direction, the leg portion (5) is connected to the rotary body (51) in a relatively rotatable manner, the wheel portion (6) comprises a frame (61) and a wheel (62), one end of the frame (61) is connected with the wheel (62), the other end of the frame (61) is provided with a fourth sliding rod (63), the leg portion (5) is provided with a fourth track hole (64), the fourth sliding rod (63) is connected to the fourth track hole (64) in a sliding manner in a matching and translation manner, and the two ends of the fourth track hole (64) are provided with fourth limit bosses (65).
9. The multi-form rotary transformable toy capable of being extended and contracted by body according to claim 1, wherein the first and second sub-bodies (1, 2) are detachably connected so that the first and second sub-bodies (1, 2) are detachably attached to another toy as both feet of the toy.
10. The multi-form rotary transformable toy according to claim 1, wherein a doll (8) is detachably attached to an upper side of the first split body (1).
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CN202020148018.7U CN212214599U (en) | 2020-01-23 | 2020-01-23 | Multi-form rotary deformation toy with telescopic main body |
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CN202020148018.7U CN212214599U (en) | 2020-01-23 | 2020-01-23 | Multi-form rotary deformation toy with telescopic main body |
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