CN220026084U - Linkage deformation structure for deformation toy - Google Patents

Abstract

The utility model relates to the field of toys, in particular to a linkage deformation structure for a deformation toy, which comprises a human shape and an airplane shape which can be mutually deformed and converted, and is characterized in that: the human form includes an upper torso; the upper half body comprises a machine body and hand components symmetrically arranged on two sides of the machine body in a rotating mode, wherein the hand components can turn over relative to the machine body and protrude out of one side of the machine body or turn over relative to the machine body and gather on one side of the machine body, so that the hand components form wings positioned on one side of the machine body or mechanical arms protruding out of the machine body; the machine body comprises a main body, a movable sleeve sleeved on the main body and capable of moving back and forth along the axial displacement of the main body, and two hand components are symmetrically and rotatably arranged on two sides of the movable sleeve; the linkage component at least comprises two first connecting rods, and the two first connecting rods are hinged between the main trunk and the hand component in a one-to-one correspondence mode.

Description

Linkage deformation structure for deformation toy

Technical Field

The utility model relates to the field of toys, in particular to a linkage deformation structure for a deformation toy.

Background

With the development of society, more and more toys enter daily life, the toys greatly enrich the life of people, increase the fun of life, especially for children, the toys can develop the brain of the children, and especially the deformable toys are more and more popular with children.

However, the existing deformation toy is often complicated in structure, as disclosed by a patent name of Chinese patent document publication No. CN215781473U as a combined deformation robot, the deformation process of the robot is often realized by adopting threaded connection to assemble and deform, the complexity of the deformation structure is greatly increased by the threaded connection, the assembly deformation is difficult to be independently completed by children, the interestingness of the children to the toy is reduced, in addition, linkage is not available among deformation parts of the deformation toy, the deformation of the toy can be realized by respectively manually deforming the parts, and the interestingness of linkage deformation is not available in the deformation process.

There is thus a need for a ganged transformable structure for a transformable toy that ameliorates the above-mentioned problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the technical problems to be solved by the utility model are as follows: a ganged deformation structure for a deforming toy is provided.

The linkage deformation structure for the deformation toy comprises a human shape and an airplane shape which can be deformed and converted, wherein the human shape comprises an upper half body;

the upper half body comprises a machine body and hand components symmetrically arranged on two sides of the machine body in a rotating mode, wherein the hand components can turn over relative to the machine body and protrude out of one side of the machine body or turn over relative to the machine body and gather on one side of the machine body, so that the hand components form wings positioned on one side of the machine body or mechanical arms protruding out of the machine body;

the machine body comprises a main body, a movable sleeve sleeved on the main body and capable of moving back and forth along the axial displacement of the main body, and two hand components are symmetrically and rotatably arranged on two sides of the movable sleeve;

the linkage component at least comprises two first connecting rods, and the two first connecting rods are hinged between the main trunk and the hand component in a one-to-one correspondence mode.

In one embodiment, the movable sleeve is internally provided with a cavity, a fifth connecting rod is rotatably arranged in the cavity of the movable sleeve, one side of the fifth connecting rod penetrates through a limiting guide groove which is coaxially arranged with the fifth connecting rod, the main trunk is provided with a fixed shaft, and the fixed shaft is movably arranged in the limiting guide groove.

In an embodiment, the two sides of the movable sleeve are symmetrically concave with clamping grooves, the hand assembly is outwards protruded with clamping blocks corresponding to the clamping grooves, and when the hand assembly is overturned and attached to one side of the machine body, the clamping blocks are clamped in the clamping grooves.

In one embodiment, the two sides of the movable sleeve are symmetrically concave with a containing cavity, and when the hand assembly is turned over to be attached to one side of the machine body, the first connecting rod is contained in the containing cavity.

In one embodiment, the human shape further comprises a lower half body rotatably arranged at the lower end of the movable sleeve;

the linkage component further comprises a second connecting rod, wherein the second connecting rod is hinged between the lower half body and the main trunk, so that when the movable sleeve axially displaces along the main trunk, the lower half body can turn over relative to the machine body and protrude out of the lower side of the machine body or turn over relative to the machine body and gather at the lower side of the machine body through the transmission of the second connecting rod, and the lower half body forms a chassis positioned at the lower side of the machine body or protrudes out of the mechanical leg of the machine body.

In an embodiment, the movable sleeve upper cover is provided with a cabin cover, a third connecting rod and a fourth connecting rod are hinged between the inner side of the cabin cover and the movable sleeve respectively, one side of the third connecting rod is provided with a head, the lower end of the fourth connecting rod extends to form a first convex part, a second convex part for supporting the first convex part is fixedly arranged on the main trunk, and a torsion spring is arranged at the joint of the fourth connecting rod and the movable sleeve in a rotating manner.

In one embodiment, the lower half body comprises a tray bone rotatably arranged at the lower end of the movable sleeve, and support legs are symmetrically rotatably arranged on two sides of the tray bone.

In one embodiment, the hand assembly comprises a first arm joint which is arranged on one side of the movable sleeve in a transverse rotating mode, a second arm joint which can rotate longitudinally relative to the first arm joint is arranged on one side of the first arm joint in a rotating mode, a connecting arm which can rotate vertically relative to the second arm joint is arranged on the second arm joint in a rotating mode, and an airplane wing is outwards protruded on one side of the first arm joint or the second arm joint.

In summary, compared with the prior art, the utility model has the following beneficial effects:

when the human shape is required to be switched into the airplane shape, the two hand assemblies are respectively turned over and gathered on one side of the airplane body, so that the two hand assemblies form airplane wings positioned on two sides of the airplane body, switching deformation of the airplane shape is realized, and when one hand assembly is turned over and moved relative to the airplane body, the other hand assembly can be driven to synchronously turn over and move through the moving cooperation of the first connecting rod of the linkage component and the movable sleeve of the airplane body, so that linkage of the two hand assemblies is realized, the interestingness of deformation of the deformed toy is further enhanced, complex assembly of screw joint assembly deformation is avoided after the components are disassembled, and the requirement that a child independently deforms the toy is met.

Drawings

FIG. 1 is a human form exploded view of a ganged transformable structure for a transformable toy in accordance with one embodiment of the present utility model;

FIG. 2 is a perspective view showing a human form of a linkage deformation structure for a deformation toy according to an embodiment of the present utility model;

FIG. 3 is a human-like cross-sectional view of a ganged transformable structure for a transformable toy in accordance with one embodiment of the present utility model;

FIG. 4 is a perspective view of an aircraft configuration of a ganged transformable structure for a transformable toy in accordance with one embodiment of the present utility model;

FIG. 5 is an exploded view of an aircraft morphology of a ganged transformable structure for a transformable toy in accordance with one embodiment of the present utility model;

fig. 6 is a cross-sectional view of an aircraft configuration of a ganged transformable structure for a transformable toy in accordance with an embodiment of the present utility model.

Detailed Description

The utility model is further described in the following description and detailed description with reference to the drawings:

as shown in fig. 1 to 6, the embodiment of the present utility model preferably provides a linkage deformation structure for a deformation toy, which includes a human shape and an airplane shape that can be transformed into each other, the human shape including an upper half body 1; the upper half body 1 comprises a machine body and hand assemblies 2 symmetrically and rotatably arranged on two sides of the machine body, wherein the hand assemblies 2 can turn over relative to the machine body and protrude out of one side of the machine body or turn over relative to the machine body and gather on one side of the machine body, so that the hand assemblies form wings positioned on one side of the machine body or mechanical arms protruding out of the machine body; the machine body comprises a main body 3, a movable sleeve 4 sleeved on the main body 3 and moving back and forth along the axial displacement of the main body 3, and two hand components 2 are symmetrically and rotatably arranged at two sides of the movable sleeve 4; the linkage member at least comprises two first connecting rods 5, and the two first connecting rods 5 are respectively hinged between the main trunk 3 and the hand assembly 2 in a one-to-one correspondence manner.

Specifically, the initial state is the human form, when the human form needs to be switched into the aircraft form, overturn respectively and gather together in fuselage one side through two hand subassembly, and then make two hand subassemblies form the aircraft wing that is located the fuselage both sides, thereby realize the switching deformation of aircraft form, and through the first connecting rod of linkage member and the movable sleeve movable fit of fuselage, when the relative fuselage of a certain hand subassembly is done upset and is removed, can transmit another hand subassembly and overturn the removal in step, in order to realize the linkage of two hand subassemblies, and then the interest of deformation toy deformation has been strengthened, and the complex of adopting the spiro union to assemble the deformation is assembled after having avoided tearing apart the part, satisfy children independently with the demand that the toy warp and play.

Further, a cavity 6 is formed in the movable sleeve 4, a fifth connecting rod 7 is rotationally arranged in the cavity 6 of the movable sleeve 4, a limiting guide groove 8 which is coaxially arranged with the fifth connecting rod 7 is penetrated on one side of the fifth connecting rod 7, a fixed shaft 9 is arranged on the main trunk 3, and the fixed shaft 9 is movably arranged in the limiting guide groove 8.

Specifically, one end of the fifth connecting rod is rotationally connected with the movable sleeve, the fixed shaft on the main trunk is movably arranged in the limiting guide groove of the fifth connecting rod, and then when the movable sleeve axially displaces along the main trunk, the fixed shaft is matched with the limiting guide groove to limit the stroke of the movable sleeve relative to the axial displacement of the main trunk, and then the stroke of the movable sleeve is controlled through limiting, and the first connecting rod is connected between the main trunk and the hand assembly in a transmission manner, so that the overturning angle of the hand assembly relative to the machine body is controlled.

Further, the two sides of the movable sleeve 4 are symmetrically concave with clamping grooves 41, the hand assembly 2 is outwards protruded with clamping blocks 42 corresponding to the clamping grooves 41, and when the hand assembly 2 is turned over and attached to one side of the machine body, the clamping blocks 42 are clamped in the clamping grooves 41. And further realize the fixed connection when the hand components are turned over and gathered on one side of the machine body to form the aircraft wing.

Further, the two sides of the movable sleeve 4 are symmetrically concave with a cavity (not shown), and when the hand assembly 2 is turned over and attached to one side of the machine body, the first connecting rod 5 is accommodated in the cavity (not shown). Thereby being convenient for the hand assembly to be completely attached to one side of the machine body.

In another embodiment, the human shape further comprises a lower half body 10 rotatably arranged at the lower end of the movable sleeve 4; the linkage member further comprises a second connecting rod 11, wherein the second connecting rod 11 is hinged between the lower half body 10 and the main trunk 3, so that when the movable sleeve 4 axially displaces along the main trunk 3, the lower half body 10 can turn over relative to the machine body and protrude out of the lower side of the machine body or turn over relative to the machine body and gather on the lower side of the machine body through the transmission of the second connecting rod 11, and the lower half body forms a chassis positioned on the lower side of the machine body or protrudes out of the machine leg of the machine body.

Specifically, in another embodiment, the deformation toy further comprises a lower half body, a person shape capable of standing vertically is formed in an initial state, when the person shape needs to be switched into an airplane shape, the lower half body is overturned and gathered on the lower side of the machine body, and then the lower half body forms an airplane chassis positioned on the lower side of the machine body, so that the switching deformation of the airplane shape is realized, and the second connecting rod of the linkage component is matched with the movable sleeve of the machine body in a moving way, when one hand component performs overturning movement relative to the machine body, the other hand component and the lower half body can be driven to synchronously overturn movement relative to the machine body, so that synchronous linkage between the two hand components and the lower half body is realized, and the deformation interest of the deformation toy is further enhanced.

Further, the upper cover of the movable sleeve 4 is provided with a cabin cover 12, a third connecting rod 13 and a fourth connecting rod 14 are respectively hinged between the inner side of the cabin cover 12 and the movable sleeve 4, a head 61 is arranged on one side of the third connecting rod 13, a first protruding portion 15 extends from the lower end of the fourth connecting rod 14, a second protruding portion 16 for supporting the first protruding portion 15 is fixedly arranged on the main trunk 3, and a torsion spring is arranged at the joint of the fourth connecting rod 14 and the movable sleeve 4 in a rotating mode.

Specifically, the cabin cover is arranged in the airplane shape, when the movable sleeve axially displaces along the main trunk, the first convex part of the fourth connecting rod connected with the movable sleeve is separated from the second convex part of the main trunk and is abutted against the second convex part, and then the cabin cover is kept in a turnover state far away from the movable sleeve by the acting force of the torsion spring, so that the head of the person shape is exposed due to the turnover of the cabin cover, and the third connecting rod rotates along with the rotation of the third connecting rod, thereby realizing the linkage deformation of the head.

Further, the lower half body 10 includes a tray bone 17 rotatably disposed at the lower end of the movable sleeve 4, and support legs 18 are symmetrically rotatably disposed at two sides of the tray bone 17.

Further, the hand assembly 2 includes a first arm joint 21 rotatably disposed on one side of the movable sleeve 4 in a transverse direction, a second arm joint 22 rotatably disposed on one side of the first arm joint 21 and capable of rotating longitudinally relative to the first arm joint, a connecting arm 23 rotatably disposed on the second arm joint 22 and capable of rotating vertically relative to the second arm joint, and an aircraft wing 24 protruding outwards on one side of the first arm joint 21 or the second arm joint 22. Specifically, the first arm, the second arm joint and the connecting arm are turned and connected in sequence, so that the interestingness of the human form is improved.

The foregoing shows and describes the basic principles and features of the utility model

With the novel advantages, it will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, but rather is merely illustrative of the principles of the utility model, and that various changes and modifications may be made without departing from the spirit and scope of the utility model, and these changes and modifications fall within the scope of the utility model as hereinafter claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a linkage deformation structure for deformation toy, but including mutual deformation conversion's human form and aircraft form, its characterized in that: the human form comprises an upper torso (1);

the upper half body (1) comprises a machine body and hand components (2) symmetrically and rotatably arranged on two sides of the machine body, wherein the hand components (2) can turn over relative to the machine body and protrude out of one side of the machine body or turn over relative to the machine body and gather on one side of the machine body, so that the hand components form wings positioned on one side of the machine body or mechanical arms protruding out of the machine body;

the machine body comprises a main body (3), a movable sleeve (4) sleeved on the main body (3) and capable of moving back and forth along the axial displacement of the main body (3), and two hand components (2) are symmetrically and rotatably arranged at two sides of the movable sleeve (4);

the linkage component at least comprises two first connecting rods (5), and the two first connecting rods (5) are hinged between the main trunk (3) and the hand component (2) in a one-to-one correspondence mode.

2. A linkage deformation structure for a deformation toy according to claim 1, wherein: the novel movable sleeve is characterized in that a cavity (6) is formed in the movable sleeve (4), a fifth connecting rod (7) is rotationally arranged in the cavity (6) of the movable sleeve (4), a limiting guide groove (8) which is coaxially arranged with the fifth connecting rod (7) is formed in one side of the fifth connecting rod in a penetrating mode, a fixing shaft (9) is arranged on the main trunk (3), and the fixing shaft (9) is movably arranged in the limiting guide groove (8).

3. A linkage deformation structure for a deformation toy according to claim 1, wherein: the movable sleeve (4) is provided with clamping grooves (41) in two symmetrical inward concave mode, the hand assembly (2) is provided with clamping blocks (42) corresponding to the clamping grooves (41) in an outward convex mode, and when the hand assembly (2) is turned over to be attached to one side of the machine body, the clamping blocks (42) are clamped in the clamping grooves (41).

4. A linkage deformation structure for a deformation toy according to claim 1, wherein: the movable sleeve (4) is internally concave in two sides symmetrically, and when the hand assembly (2) is turned over and attached to one side of the machine body, the first connecting rod (5) is contained in the containing cavity.

5. A linkage deformation structure for a deformation toy according to claim 1, wherein: the human shape also comprises a lower half body (10) which is rotatably arranged at the lower end of the movable sleeve (4);

the linkage component further comprises a second connecting rod (11), wherein the second connecting rod (11) is hinged between the lower half body (10) and the main body (3), so that when the movable sleeve (4) axially displaces along the main body (3), the lower half body (10) can be driven by the second connecting rod (11) to turn over relative to the machine body and protrude out of the lower side of the machine body or turn over relative to the machine body and gather at the lower side of the machine body, and the lower half body forms a chassis positioned at the lower side of the machine body or a mechanical leg protruding out of the machine body.

6. A linkage deformation structure for a deformation toy according to any one of claims 1 to 5, wherein: the upper cover of movable sleeve (4) is equipped with cabin cover (12), cabin cover (12) inboard with articulated respectively between movable sleeve (4) have third connecting rod (13) and fourth connecting rod (14), third connecting rod (13) one side is provided with head (61), fourth connecting rod (14) lower extreme extends has first convex part (15), fixed second convex part (16) that supply to support first convex part (15) that are provided with on main trunk (3), fourth connecting rod (14) with the junction of movable sleeve (4) rotation connection is provided with the torsional spring.

7. A linkage deformation structure for a toy figure 5, wherein: the lower half body (10) comprises a tray rib (17) which is rotationally arranged at the lower end of the movable sleeve (4), and supporting legs (18) are symmetrically rotationally arranged on two sides of the tray rib (17).

8. A linkage deformation structure for a deformation toy according to any one of claims 1 to 5, wherein: the hand assembly (2) comprises a first arm joint (21) which is transversely arranged on one side of a movable sleeve (4) in a rotating mode, a second arm joint (22) which can longitudinally rotate relative to the first arm joint (21) is rotatably arranged on one side of the first arm joint, a connecting arm (23) which can vertically rotate relative to the second arm joint is rotatably arranged on the second arm joint (22), and an airplane wing (24) is outwards protruded on one side of the first arm joint (21) or one side of the second arm joint (22).