阅读说明：本技术 一种自动打开的孵化玩具 (Automatic hatching toy of opening ) 是由 刘光荣 陈子辉 窦修兵 夏久海 汪华 崔家宝 王浩 李向阳 张胜男 赵天明 梁炳 于 2019-09-30 设计创作，主要内容包括：本发明涉及玩具技术领域,具体涉及一种自动打开的孵化玩具,包括；本体,安装有多个可转动的壳体,所述壳体具有打开位置和关闭位置；驱动组件,固定设于所述本体内,与多个所述壳体中的主动壳体连接,驱动所述主动壳体转动；锁定组件,连接所述主动壳体和多个所述壳体中的被动壳体,所述主动壳体由所述关闭位置向所述打开位置转动时,驱动所述锁定组件动作解除对所述被动壳体的锁定,所述被动壳体依靠重力作用运动到打开位置。本发明提供一种结构简单、紧凑,可以自动进行开壳/闭壳功能的自动打开的孵化玩具。(The invention relates to the technical field of toys, in particular to an automatically opened hatching toy, which comprises a hatching box body, a hatching box body and a hatching box body, wherein the hatching box body is provided with a plurality of hatching holes; a body mounting a plurality of rotatable housings, the housings having an open position and a closed position; the driving assembly is fixedly arranged in the body, is connected with a driving shell in the plurality of shells and drives the driving shell to rotate; the locking assembly is connected with the driving shell and a plurality of driven shells in the shells, when the driving shell rotates from the closing position to the opening position, the driving shell drives the locking assembly to act and remove the locking of the driven shells, and the driven shells move to the opening position under the action of gravity. The invention provides an automatic opening hatching toy which is simple and compact in structure and can automatically perform shell opening/closing functions.)

1. An automatically opening hatching toy, comprising;

a body (1) fitted with a plurality of rotatable housings (2), said housings (2) having an open position and a closed position;

the driving assembly is fixedly arranged in the body (1), is connected with a driving shell (4) in the plurality of shells (2), and drives the driving shell (4) to rotate;

the locking assembly is connected with the active shell (4) and a plurality of passive shells (5) in the shell (2), the active shell (4) is driven by the closed position to the open position, the locking assembly is driven to act and remove the locking of the passive shells (5), and the passive shells (5) move to the open position under the action of gravity.

2. The automatically opening hatching toy of claim 1, wherein said locking assembly comprises,

the sliding block (6) is arranged on the body (1) in a sliding mode and is provided with a first abutting end (7) close to the driving shell (4);

the connecting rod (14) is rotatably arranged on the body (1), one end of the connecting rod is abutted to a second abutting end (8) of the sliding block (6) far away from the first abutting end (7), the other end of the connecting rod is connected with the driven shell (5) through a locking structure (13), and the sliding block (6) moves to push the connecting rod (14) to rotate so as to be unlocked;

a link biasing member (15) that provides a biasing force for returning the link (14) to an original position.

3. Auto-opening hatching toy according to claim 2, characterized in that said locking structure (13) comprises,

the inserting end (16) is the other end of the connecting rod (14);

the inserting groove (17) is arranged on the passive shell (5) corresponding to the inserting end (16) and is used for inserting the inserting end (16);

the abutting groove (18) is arranged on the passive shell (5) close to the inserting groove (17), when the active shell (4) moves from the closing position to the opening position, the inserting end (16) moves out of the inserting groove (17) and enters the abutting groove (18) under the biasing force of the connecting rod biasing member (15), and a moving surface (19) for the inserting end (16) to move into the inserting groove (17) from the abutting groove (18) is arranged between the abutting groove (18) and the inserting groove (17).

4. An automatically opening hatching toy according to claim 3, characterized in that said plug end (16) is L-shaped, one end being connected to said connecting rod (14) and the other end being inserted into said plug groove (17).

5. The automatic opening hatching toy of claim 3 or 4, wherein said abutting groove (18) is a side wall of said insertion groove (17) facing a side of an opening direction of said passive housing (5), a groove depressed to a side of a rotation direction when said passive housing (5) is opened, and a wall of said groove adjacent to said insertion groove (17) is said moving surface (19).

6. An automatically opening hatching toy according to claim 5, characterized in that the side wall of the abutment groove (18) on the side of the direction of rotation when the passive housing (5) is opened abuts against the plug end (16).

7. An automatically opening hatching toy according to any one of claims 2-6, characterized in that said locking assembly further comprises a rotating member (9) provided on said first abutting end (7), a rotating reset member (22) for providing a reset force to said rotating member (9) is provided between said rotating member (9) and said first abutting end (7), said driving housing (4) abuts against said rotating member (9) when rotating from said closed position to said open position, pushing said rotating member (9) to move and driving said slider (6) to move; when the driving shell (4) moves from the opening position to the closing position, the rotating piece (9) is driven to rotate.

8. An automatically opening hatching toy according to claim 7, characterized in that between said slider (6) and said body (1) there is provided a slider resetting element (11) providing a resetting force for said slider (6) to return to an initial position, said rotating element (9) and said active housing having a set clearance, said rotating element (9) returning to an initial position when said active housing (4) is in an open position.

9. An automatically opening hatching toy according to claim 7 or 8, characterized in that the turning piece (9) has a ramp (24) towards the outside of the body (1), the active housing (4) abutting the ramp (24) and pushing the turning piece (9) to move when the active housing (4) is moved from the closed position to the open position.

10. An automatically opening hatching toy as claimed in claim 9, characterized in that the ramp (24) underside of the turning piece (9) is an L-shaped opening (23), the active housing (4) abutting against a side wall of the opening (23) and pushing the turning piece (9) to turn when the active housing (4) is moved from the open position to the closed position.

11. An automatically opening hatching toy according to any one of claims 2-10, characterized in that said driving assembly comprises a driving motor (26), and a plurality of transmission gears (27) fixed on said body (1) connected with said driving motor (26), said transmission gears (27) being connected with said active housing (4), said slider (6) having a shaped through hole (20) therein, a plurality of said transmission gears (27) being disposed on said body (1) through said shaped through hole (20).

12. An automatically opening hatching toy according to any one of claims 1-11, characterized in that said active housing (4) comprises a housing and an active displacement member (34) connected to said housing, said passive housing (5) comprises said housing and a passive displacement member (35) connected to said housing, said driving assembly is connected to said active displacement member (34), said locking assembly is connected to said active displacement member (34) and said passive displacement member (35).

13. An automatically opening hatching toy according to any one of claims 1 to 12, further comprising:

a containing cavity (36) enclosed by a plurality of rotatable shells (2) and provided with toy pieces therein;

the guide plate (37) is arranged in the accommodating cavity (36) and connected with the driving shell (4), a sliding rail (38) is arranged on the guide plate (37), when the driving shell (4) rotates to an opening position, the guide plate (37) is opened along with the driving shell (4), and the toy piece slides out of the accommodating cavity (36) along the sliding rail (38).

Technical Field

The invention relates to the technical field of toys, in particular to an automatically opened hatching toy.

Background

Along with the development of society and the improvement of living standard, people have more and more diversified demands on children toys. The toy is an important object in the growth process of the children, and the children can have various toys, so that the life pleasure of the children can be increased, the children have happy childhood life, and the body growth and the intelligence development of the children can be greatly promoted.

For example, the toy hatching egg can interact with people, so that the toy hatching egg is deeply loved by children and can achieve a strong edutainment effect.

Disclosure of Invention

Therefore, the invention provides an automatic opening hatching toy which has simple and compact structure and can automatically perform the shell opening/closing function.

In order to solve the above technical problems, the present invention provides an automatically opening hatching toy, comprising;

a body mounting a plurality of rotatable housings, the housings having an open position and a closed position;

the driving assembly is fixedly arranged in the body, is connected with a driving shell in the plurality of shells and drives the driving shell to rotate;

the locking assembly is connected with the driving shell and a plurality of driven shells in the shells, when the driving shell rotates from the closing position to the opening position, the driving shell drives the locking assembly to act and remove the locking of the driven shells, and the driven shells move to the opening position under the action of gravity.

Further, the locking assembly includes, in combination,

the sliding block is arranged on the body in a sliding mode and is provided with a first abutting end close to the driving shell;

the connecting rod is rotatably arranged on the body, one end of the connecting rod is abutted against a second abutting end, far away from the first abutting end, of the sliding block, the other end of the connecting rod is connected with the driven shell through a locking structure, and the sliding block moves to push the connecting rod to rotate so as to unlock;

a link biasing member providing a biasing force to return the link to an initial position.

Furthermore, the locking structure comprises an inserting end which is the other end of the connecting rod; the inserting groove is arranged on the passive shell corresponding to the inserting end and is used for inserting the inserting end; the abutting groove is arranged on the passive shell close to the inserting groove, when the active shell moves from the closing position to the opening position, the inserting end moves out of the inserting groove and enters the abutting groove under the biasing force of the connecting rod biasing part, and a moving surface for the inserting end to move into the inserting groove from the abutting groove is arranged between the abutting groove and the inserting groove.

Furthermore, the inserting end is L-shaped, one end of the inserting end is connected with the connecting rod, and the other end of the inserting end is inserted into the inserting groove.

Further, the abutting groove is a side wall of the insertion groove facing one side of the opening direction of the driven shell, the groove is sunken towards one side of the rotation direction when the driven shell is opened, and a groove wall of the groove close to the insertion groove is the moving surface.

Furthermore, the side wall of the abutting groove, which is positioned on one side of the rotating direction when the driven shell is opened, abuts against the inserting end.

Furthermore, the locking assembly further comprises a rotating piece arranged on the first abutting end, a rotating reset piece for providing reset force for the rotating piece is arranged between the rotating piece and the first abutting end, and the driving shell is abutted to the rotating piece when rotating from the closed position to the open position, so that the rotating piece is pushed to move and drive the sliding block to move; when the driving shell moves from the opening position to the closing position, the rotating piece is driven to rotate.

Further, be equipped with between the slider with the body for the slider provides the slider that resumes to the reset power of initial position and resets the piece, rotate the piece with set for the clearance has between the initiative casing, when the initiative casing is located the open position, rotate the piece and resume to the initial position.

Further, the rotating part is provided with a slope surface facing the outer side of the body, and when the driving shell moves from the closing position to the opening position, the driving shell is abutted against the slope surface and pushes the rotating part to move.

Further, the sloping surface lower side of the rotating part is provided with an L-shaped opening, when the driving shell moves from the opening position to the closing position, the driving shell is abutted against one side wall of the opening and pushes the rotating part to rotate.

Further, the driving assembly comprises a driving motor and a plurality of transmission gears which are connected with the driving motor and fixed on the body, the transmission gears are connected with the driving shell, the sliding block is provided with a special-shaped through hole, and the plurality of transmission gears penetrate through the special-shaped through hole and are arranged on the body.

Further, the active shell comprises a shell and an active position-comparing piece connected with the shell, the passive shell comprises the shell and a passive position-comparing piece connected with the shell, the driving component is connected with the active position-comparing piece, and the locking component is connected with the active position-comparing piece and the passive position-comparing piece.

Further, still include: the accommodating cavity is enclosed by a plurality of rotatable shells, and a toy piece is arranged in the accommodating cavity; the guide plate is arranged in the accommodating cavity and connected with the driving shell, a sliding rail is arranged on the guide plate, the driving shell rotates to an opening position, the guide plate is opened along with the driving shell, and the toy piece slides out of the accommodating cavity along the sliding rail.

The technical scheme of the invention has the following advantages:

1. the invention provides an automatically opened hatching toy, which comprises a hatching chamber, a hatching chamber and a hatching chamber, wherein the hatching chamber is provided with a hatching chamber; a body mounting a plurality of rotatable housings, the housings having an open position and a closed position; the driving assembly is fixedly arranged in the body, is connected with a driving shell in the plurality of shells and drives the driving shell to rotate; the locking assembly is connected with the driving shell and a plurality of driven shells in the shells, when the driving shell rotates from the closing position to the opening position, the driving shell drives the locking assembly to act and remove the locking of the driven shells, and the driven shells move to the opening position under the action of gravity. The driving shell is driven to rotate by the driving component, the driving shell drives the locking component to unlock the passive shell in the rotating process of the driving shell, in the unlocking process, an acting force towards the opening direction is applied to the passive shell by the locking component, so that the locking component is separated from the locking of the passive shell, and then the passive shell is completely opened under the action of gravity; the driving assembly continues to drive the driving shell to rotate until the driving shell is completely opened. The hatching toy is simple and compact in structure, and makes full use of the inner space of the shell, so that a child can open and close the shell by simply driving the shell.

2. The invention provides an automatically-opened hatching toy, wherein a locking assembly comprises a sliding block, a locking piece and a locking piece, wherein the sliding block is arranged on a body in a sliding mode and is provided with a first abutting end arranged close to a driving shell; the connecting rod is rotatably arranged on the body, one end of the connecting rod is abutted against a second abutting end, far away from the first abutting end, of the sliding block, the other end of the connecting rod is connected with the driven shell through a locking structure, and the sliding block moves to push the connecting rod to rotate so as to unlock; a link biasing member providing a biasing force to return the link to an initial position. The driving mode is simple in structure and accurate in driving, loss cannot occur in the driving process of the driving force, and the driving mode can completely act on the driven shell unlocked by the connecting rod.

3. According to the automatically-opened hatching toy provided by the invention, the sliding block resetting piece which provides resetting force for the sliding block to return to the initial position is arranged between the sliding block and the body, a set gap is formed between the rotating piece and the driving shell, and when the driving shell is located at the opening position, the rotating piece returns to the initial position. The preset gap is arranged between the driving shell and the rotating part, so that a rotating space is provided for the driving shell, and the driving shell is prevented from interfering with the rotating part in the rotating process, so that the normal rotation of the driving shell is influenced; and, make the rotating part have the rotation space of resuming the initial position, and do not interfere with initiative shell, and then make the hatching toy open or close many times.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural view of an external structure of an automatically opening hatching toy provided in the present invention;

FIG. 2 is a schematic view of FIG. 1 showing the internal structure;

FIG. 3 is a schematic view of the opened state of FIG. 1;

FIG. 4 is a schematic view of the structure in the bottom direction of FIG. 3;

FIG. 5 is a schematic view of the transmission gear of FIG. 3;

FIG. 6 is a partial enlarged view of FIG. 5

FIG. 7 is a schematic structural diagram of a fixing plate;

FIG. 8 is a schematic structural view of the active housing in a semi-open state;

FIG. 9 is a schematic view of the active housing in a fully open position;

FIG. 10 is a schematic structural diagram of an active and passive alignment element;

FIG. 11 is a schematic view of the structure of the locking state of the connecting rod;

FIG. 12 is a schematic view of the link in an open state;

FIG. 13 is a schematic view of a slider configuration;

FIG. 14 is a schematic view of the rotating member;

FIG. 15 is a schematic view of a connecting rod;

FIG. 16 is a schematic structural view of a first connecting member;

FIG. 17 is a schematic structural view of a second connector;

FIG. 18 is a schematic structural view of a passive alignment element;

description of reference numerals:

1-body; 2-a shell; 3-a base; 4-an active housing; 5-a passive housing; 6-a slide block; 7-a first abutting end; 8-a second abutting end; 9-a rotating member; 10-fixing blocks; 11-a slider reset; 13-a locking structure; 14-a connecting rod; 15-link biasing member; 16-a plug end; 17-a plug groove; 18-an abutment groove; 19-moving surface; 20-a special-shaped through hole; 21-bulge; 22-a rotary reset; 23-opening; 24-slope surface; 25-connecting rod fixing plate; 26-a drive motor; 27-a transmission gear; 28-a first drive gear set; 29-a second drive gear set; 30-a third drive gear set; 31-a worm gear; 32-worm; 33-fixing the plate; 34-an active alignment element; 35-passive alignment element; 36-a containment chamber; 37-a guide plate; 38-a slide rail; 39-fixed column; 40-ring; 41-first connecting piece, 42-second connecting piece; 43-worm attachment hole; 44-guide plate attachment holes; 45-guide plate reset; 46-a card holder; 47-non-slip pattern; 48-buckling; 49-guide plate fixing column; 50-an electronic connection board; 51-a button; 52-LED lamps; 53-touch copper foil cover; 54-a loudspeaker; 55-a barrier plate;

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 18, an embodiment of the present invention provides an automatically opening hatching toy, including; the body 1 is provided with a plurality of rotatable shells 2, and the shells 2 have an opening position and a closing position; the driving assembly is fixedly arranged in the body 1, is connected with a driving shell 4 in the plurality of shells 2, and drives the driving shell 4 to rotate; the locking assembly is connected with the active shell 4 and a plurality of passive shells 5 in the shell 2, when the active shell 4 rotates from the closed position to the open position, the locking assembly is driven to act to unlock the passive shells 5, and the passive shells 5 move to the open position under the action of gravity.

The hatching toy is in an egg-shaped structure, the body 1 comprises a shell 2 and a base 3, the shell 2 can rotate around the base 3, so that the shell 2 can be opened or closed relative to the base 3, in the embodiment, the number of the active shells 4 is 1, the number of the passive shells 5 is 2, the driving assembly is fixedly arranged in the body 1, namely below the base 3, the active shells 4 are driven to rotate by the driving assembly, when the active shells 4 rotate to an opening position, the locking assembly is driven to unlock the passive shells 5, in the unlocking process, the locking assembly applies an acting force towards the opening direction to the passive shells 5, so that the passive shells 5 are separated from the locking assembly, and then the passive shells 5 are completely opened under the action of gravity; the drive assembly continues to drive the drive housing 4 to rotate until the drive housing 4 is fully opened.

As shown in fig. 1-7 and 13, the locking assembly comprises a slider 6, slidably arranged on the body 1, having a first abutment end 7 arranged close to the active housing 4; the connecting rod 14 is rotatably arranged on the body 1, one end of the connecting rod is abutted against the second abutting end 8, far away from the first abutting end 7, of the sliding block 6, the other end of the connecting rod is connected with the passive shell 5 through a locking structure 13, and the sliding block 6 moves to push the connecting rod 14 to rotate so as to unlock; a link biasing member 15 that provides a biasing force for returning the link 14 to an original position.

The first abutting end 7 is arranged at the left end part of the sliding block 6, the second abutting end 8 is arranged at the right end part of the sliding block 6, the sliding block 6 is arranged on the base 3 in a sliding mode, when the driving shell 4 rotates to a position contacting with the sliding block 6, an acting force which faces the movement direction of the locking assembly is applied to the sliding block 6, and the driving shell 4 pushes the sliding block 6 to move towards the direction of the connecting rod 14, in the embodiment, the sliding block 6 moves towards the right, the acting force is transmitted to the connecting rod 14 through the sliding block 6, so that the connecting rod 14 is separated from the locking structure, and the locking of the driven shell 5 is released. The link 14 is provided at upper and lower surfaces thereof with projections 21, respectively, the projections provided at the lower surface of the link 14 are used for mounting the link biasing member 15, the projections 21 provided at the upper surface of the link 14 are used for mounting the link fixing plate 25, and the link 14 is allowed to rotate relative to the base 3 by the link fixing plate 25, thereby releasing the lock of the passive housing 5. One end of the connecting rod biasing member 15 is fitted over the protrusion 21 on the lower surface of the connecting rod 14, and the other end is fitted over the fixing post 39.

As shown in fig. 4-12, 15 and 18, the locking structure 13 includes a plug end 16, which is the other end of the connecting rod 14; the inserting groove 17 is arranged on the passive shell 5 corresponding to the inserting end 16 and is used for inserting the inserting end 16; an abutting groove 18 is arranged on the passive housing 5 close to the inserting groove 17, when the active housing 4 moves from the closed position to the open position, the inserting end 16 moves out of the inserting groove 17 and enters the abutting groove 18 under the biasing force of the connecting rod biasing member 15, and a moving surface 19 for moving the inserting end 16 into the inserting groove 17 from the abutting groove 18 is arranged between the abutting groove 18 and the inserting groove 17. The abutting groove 18 is a side wall of the insertion groove 17 facing one side of the opening direction of the passive housing 5, and a groove depressed toward one side of the rotation direction when the passive housing 5 is opened, and a groove wall of the groove close to the insertion groove 17 is the moving surface 19.

The inserting groove 17 and the abutting groove 18 are both arranged on the driven shell 5, and the inserting groove 17 is an arc-shaped groove and is matched with the end part of the inserting end 16 in shape. The abutting groove 18 is an L-shaped side wall formed on one side close to the passive shell 5, the inserting groove 17 is arranged adjacent to the abutting groove 18, and the moving surface 19 is a bottom surface perpendicular to the inserting groove 17 and a side wall on the same plane with the inserting groove 17. When the passive housing 5 is in the locked state, the plugging end 16 is inserted into the plugging groove 17, when the passive housing 5 is in the open position, the plugging end 16 is moved out of the plugging groove 17, enters the abutting groove 18 through the moving surface 19 under the action of the connecting rod biasing member 15, and abuts against the abutting groove 18, and meanwhile, the abutting groove 18 also limits the moving range of the plugging end 16 and prevents the plugging end 16 from shifting. The link biasing member 15 is arranged such that the insertion end 16 can be accurately inserted from the insertion slot 17 into the abutment slot 18.

As shown in fig. 15, the insertion end 16 is L-shaped, one end of which is connected to the connecting rod 14, and the other end of which is inserted into the insertion groove 17. The side wall of the abutting groove 18 on the side of the rotation direction when the passive housing 5 is opened abuts against the insertion end 16.

The insertion end 16 is a part of the link 14 and is provided at the left end of the link 14. The plug end 16 is arranged in an L shape, and the end part of the plug end, which is contacted with the plug groove 17, is an arc surface, so that the plug end 16 can be conveniently inserted into the plug groove 17. When passive casing 5 is in the open position, be predetermined contained angle between passive casing 5 and the base 3, because inserting groove 17 sets up on passive casing 5 for there is predetermined contained angle between inserting groove 17 and the base 3, because connecting rod 14 remains the parallel state throughout, when passive casing 5 is opened completely, makes connecting rod 14 break away from inserting groove 17, and then the butt is on butt groove 18.

As shown in fig. 14, the locking assembly further includes a rotating member 9 disposed on the first abutting end 7, a rotating reset member 22 for providing a reset force to the rotating member 9 is disposed between the rotating member 9 and the first abutting end 7, and when the driving housing 4 rotates from the closed position to the open position, the driving housing abuts against the rotating member 9 to push the rotating member 9 to move and drive the sliding block 6 to move; when the driving shell 4 moves from the opening position to the closing position, the rotating piece 9 is driven to rotate. A slider resetting piece 11 which provides resetting force for restoring the slider 6 to the initial position is arranged between the slider 6 and the body 1, a set gap is reserved between the rotating piece 9 and the driving shell 4, and when the driving shell 4 is located at the opening position, the rotating piece 9 is restored to the initial position. The lower side of the slope surface 24 of the rotating part 9 is provided with an L-shaped opening 23, when the driving shell 4 moves from the opening position to the closing position, the driving shell 4 is abutted against one side wall of the opening 23 and pushes the rotating part 9 to rotate.

Four circular rings 40 integrally formed on the first abutting end 7 on the left side of the sliding block 6 are arranged on the first abutting end 7, every two circular rings 40 are in one group and are symmetrically arranged, the rotating piece 9 is arranged between the two circular rings 40, and the rotating piece 9 and the rotating reset piece 22 are arranged in the circular rings 40 through the rotating piece. In this embodiment, the rotating member is a pin. When the driving shell 4 is opened, the driving shell 4 rotates relative to the base 3, the driving shell 4 pushes the rotating piece 9 to move rightwards in the rotating process of the driving shell 4, a preset gap is formed between the driving shell 4 and the rotating piece 9, so that a rotating space is provided for the driving shell 4 when the driving shell 4 rotates, the driving shell 4 is prevented from interfering with the sliding block 6 in the rotating process, and the normal rotation of the driving shell 4 is influenced; the active shell 4 pushes the sliding block 6 to move rightwards, the sliding block 6 pushes the connecting rod 14 to rotate, so that the inserting end 16 releases the locking of the passive shell 5, the connecting rod 14 applies a force to the connecting rod 14 to return to the initial position under the action of the connecting rod biasing element 15, a fixing plate 33 is arranged on the base 3 close to the sliding block 6, the fixing plate 33 is arranged on one side of the sliding block 6 and is perpendicular to the first abutting end 7, the fixing block 10 is integrally formed on the sliding block 6, the sliding block resetting element 11 is sleeved on the fixing block 10, when the sliding block 6 pushes the connecting rod 14 to rotate, the sliding block resetting element 11 abuts against the fixing plate 33, the fixing plate 33 applies a force to the sliding block resetting element 11 to move leftwards, so that the sliding block 6 moves leftwards, therefore, the connecting rod biasing element 15 and the sliding block resetting element 11 both apply a force to the sliding block 6 to move leftwards, so that the sliding, interference with the rotating member 9 or jamming does not occur. When the driving shell 4 is closed, the driving shell 4 rotates relative to the base 3, in the rotating process of the driving shell 4, the driving shell 4 interferes with the rotating piece 9, so that the rotating piece 9 is pushed to rotate relative to the circular ring 40, and in the closing process of the driving shell 4, the driving shell 4 pushes the rotating piece 9 to rotate all the time until the driving shell 4 rotates to the initial position, so that the closing of the driving shell 4 is completed. In the present embodiment, the slider returning member 11 is a spring.

The rotating piece 9 is of an L shape, a slope surface 24 facing the outer side of the body 1 is arranged on the rotating piece 9, and when the driving shell 4 moves from the closing position to the opening position, the driving shell 4 is abutted to the slope surface 24 and pushes the rotating piece 9 to move. The lower side of the slope surface 24 of the rotating part 9 is provided with an L-shaped opening 23, when the driving shell 4 moves from the opening position to the closing position, the driving shell 4 is abutted against one side wall of the opening 23 and pushes the rotating part 9 to rotate.

Be equipped with the round hole that allows to insert the round pin axle in the inflection point department that rotates piece 9 to be equipped with opening 23 on rotating piece 9, opening 23 is the L type, is equipped with domatic 24 in opening 23's top, and domatic 24 sets up towards the outside of body 1, and is certain angle with base 3, rotates to open position by closed position at initiative casing 4, and initiative casing 4 and domatic 24 butt, and rotate piece 9 through domatic 24 promotion and move right. When the driving shell 4 is closed, the driving shell 4 abuts against the opening 23, and in the process that the driving shell 4 continues to rotate, the rotating piece 9 is pushed to rotate clockwise until the driving shell 4 is separated from the rotating piece 9, and at the moment, the driving shell 4 is in a closed state; the return element 22 applies a force to the rotary element 9 in the direction opposite to the clockwise direction, so that the rotary element 9 returns to the initial position, facilitating the next opening of the active housing 4. In this embodiment, the rotating return member 22 is a torsion spring.

The driving assembly as shown in fig. 4-11 comprises a driving motor 26, and a plurality of transmission gears 27 connected with the driving motor 26 and fixed on the body 1, wherein the transmission gears 27 are connected with the driving shell 4, the sliding block 6 is provided with a shaped through hole 20, and a plurality of transmission gears 27 are arranged on the body 1 through the shaped through hole 20.

The transmission gears comprise a first transmission gear set 28, a second transmission gear set 29 and a third transmission gear set 30 which are in meshed transmission, the first transmission gear set 28 comprises a gear connected with an output shaft of the driving motor 26 and a duplicate gear rotationally connected with the gear, and rotation perpendicular to the base 3 is converted into rotation parallel to the base 3. The second drive gear set 29 comprises a plurality of intermeshing drive gears. The third drive gear set 30 is a worm wheel 31 and a worm 32, so that the second drive gear set 29 is turned parallel to the base 3 to be turned perpendicular to the base 3. The second transmission gear sets 29 are all arranged on the base 3 and penetrate through the special-shaped through holes 20 on the sliding blocks 6, and meanwhile, a preset gap is reserved between the special-shaped through holes 20 and the second transmission gear sets 29, and the sliding blocks 6 can move on the base 3 conveniently through the gap.

Through a three casing 2 of driving motor 26 drive rotation for opening and closing of casing 2 is more convenient, and this structure is comparatively simple, the abundant inner space that has utilized in the body 1, has improved the wholeness of this hatching toy.

As shown in fig. 16 to 18, in the present embodiment, the active housing 4 includes a housing and an active positioning member 34 connected to the housing, the passive housing 5 includes the housing and a passive positioning member 35 connected to the housing, the driving assembly is connected to the active positioning member 34, and the locking assembly is connected to the active positioning member 34 and the passive positioning member 35.

The shell in the driving shell 4 is connected with the driving position-shifting piece 34, the driving position-shifting piece 34 comprises an L-shaped first connecting piece 41 and a second connecting piece 42, a worm connecting hole 43 is arranged on the first connecting piece 41, the worm 32 is arranged on the driving position-shifting piece 34 through the worm connecting hole 43 and a pin shaft, so as to drive the driving position-shifting piece 34 to rotate, wherein the first connecting piece 41 is hinged with the second connecting piece 42, and the second connecting piece 42 is fixedly connected with the shell; when the active housing 4 and the passive housing 5 are closed, the active positioning member 34 and the passive positioning member 35 are both perpendicular to the base 3, and when the active housing 4 is opened and the active positioning member 34 is driven to rotate, the first connecting member 41 rotates to drive the second connecting member 42 to rotate, so that the active housing 4 is opened. The shell in the passive shell 5 is connected with the passive displacement member 35, the passive displacement member 35 is in an L shape, and the insertion groove 17 and the abutting groove 18 are formed on one side of the passive displacement member 35, which is in contact with the connecting rod 14.

As shown in fig. 2-3, further comprising: a receiving chamber 36 enclosed by a plurality of rotatable housings 2 and having a toy member disposed therein; and the guide plate 37 is arranged in the accommodating cavity 36 and connected with the driving shell 4, a slide rail 38 is arranged on the guide plate 37, when the driving shell 4 rotates to the opening position, the guide plate 37 is opened along with the driving shell 4, and the toy piece slides out of the accommodating cavity 36 along the slide rail 38.

A plurality of casings 2 enclose into one and hold chamber 36, base 3 sets up in holding chamber 36, the flex point department of first connecting piece 41 is equipped with guide plate connecting hole 44, one end at the connecting rod of first connecting piece 41 and second connecting piece 42 is equipped with curved baffle 55, be equipped with guide plate reset 45 in baffle 55, in the front of base 3, when first connecting piece 41 drive initiative casing 4 is opened, guide plate reset 45 promotes guide plate 37 and opens, make toy spare in holding chamber 36 can be along slide rail 38 roll-off, in this embodiment, slide rail 38 is two, toy spare can be the pet, specifically be little dinosaur, also can be for the toy that other children like. Be equipped with the cassette 46 that is used for placing little dinosaur on base 3, in this embodiment, cassette 46 is the triangle-shaped roughly, is equipped with the anti-skidding line 47 with little dinosaur bottom tire looks adaptation in the both sides of cassette 46, is equipped with the buckle 48 with little dinosaur joint in the center of cassette 46, is equipped with the draw-in groove with cassette 46 looks adaptation in the bottom of little dinosaur simultaneously to fix little dinosaur on cassette 46, prevent the removal of little dinosaur in holding chamber 36.

A guide fixing post 49 for limiting the movable range of the guide 37 is further provided on the base 3 to prevent the guide 37 from moving in the accommodating chamber 36. An electronic connecting board 50 is further arranged in the opposite direction of the base 3, the electronic connecting board 50 is electrically connected with the button 51, meanwhile, an LED lamp 52, a loudspeaker 54 arranged on the base 3 and a touch copper foil cover 53 arranged on the passive shell 5 are further arranged on the active displacement member 34 and the two passive displacement members 35, and the LED lamp 52, the loudspeaker 54 and the touch copper foil cover 53 are electrically connected with the electronic connecting board 50. A touch sensor is arranged between the touch copper foil cover 53 and the driven shell 5, a sound sensor and a body position sensor are arranged on the base 3, and when the hatching toy senses touch or sound and position change, the driving motor 26 is started to rotate under the control of a control program in the electronic connecting plate 50, so that the driving shell 4 and the driven shell 5 are opened.

Patterns which can draw the attention of children are arranged on the inner walls of the active shell 4 and the two passive shells 5, and in the embodiment, the patterns are stars, hearts and clouds.

The specific working process is as follows: the button 51 is pressed, the driving motor 26 rotates forwards, the driving motor 26 drives the first transmission gear set 28 to rotate, then the second transmission gear set 29 and the third transmission gear set 30 are sequentially driven to rotate, the worm 32 in the third transmission gear set 30 drives the driving position-changing piece 34 to rotate from the closed position to the open position, in the rotating process, the driving position-changing piece 34 pushes the rotating piece 9 and the sliding block 6 to move rightwards, so that the connecting rod 14 is pushed to rotate, the inserting end 16 arranged on the connecting rod 14 moves out of the inserting groove 17, the inserting end 16 releases the locking of the driven position-changing piece 35, and the driven shell 5 moves to the open position under the action of gravity; at this time, the insertion end 16 is disengaged from the insertion groove 17, the link 14 is urged by the link biasing member 15 so that the insertion end 16 of the link 14 enters the abutment groove 18 and applies a force to the slider 6 to move leftward, the slider 6 is urged leftward by the slider returning member 11, and the slider 6 and the rotating member 9 are returned to the initial positions. When the shell 2 needs to be closed, the two driven shells 5 are manually closed, in the rotating process of the driven shells 5, the inserting groove 17 rotates towards the inserting end 16, and the connecting rod 14 slides into the inserting groove 17 under the action of the connecting rod biasing part 15, so that the driven positioning part 35 is locked again; the driving motor 26 rotates reversely to drive the first transmission gear set 28 to rotate, and then drives the second transmission gear set 29 and the third transmission gear set 30 to rotate sequentially, the worm 32 in the third transmission gear set 30 drives the driving position-changing member 34 to rotate from the locking position to the closing position, in the rotating process, the driving position-changing member 34 pushes the opening 23 of the rotating member 9 and drives the opening 23 to rotate clockwise until the driving position-changing member 34 rotates to be perpendicular to the base 3, so that the driving shell 4 is closed, due to the preset gap arranged between the rotating member 9 and the driving position-changing member 34, the rotating member 9 can rotate anticlockwise under the action of the rotating reset member 22 until the rotating member rotates to the initial position, and therefore the next time of opening of the driving shell 4 is facilitated.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.