CN212467103U - Clamping body and clamping deformation toy - Google Patents

Clamping body and clamping deformation toy Download PDF

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Publication number
CN212467103U
CN212467103U CN201922080308.2U CN201922080308U CN212467103U CN 212467103 U CN212467103 U CN 212467103U CN 201922080308 U CN201922080308 U CN 201922080308U CN 212467103 U CN212467103 U CN 212467103U
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China
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locking
clamping
piece
elastic
arm
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CN201922080308.2U
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Chinese (zh)
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李德铭
何力侃
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Alpha Group Co Ltd
Guangzhou Alpha Culture Co Ltd
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Alpha Group Co Ltd
Guangzhou Alpha Culture Co Ltd
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Priority to CN201922080308.2U priority Critical patent/CN212467103U/en
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Abstract

The utility model discloses a clamping body and a clamping deformation toy, wherein the clamping body comprises a locking piece and at least one elastic expansion piece; when the elastic unfolding piece is in the first state, the locking piece locks the elastic unfolding piece in the retraction state, and the locking piece is triggered to unlock the elastic unfolding piece to be unfolded to the second state. The clamping body has two states, and when the clamping body is in the first state, the elastic unfolding piece can be triggered to unfold and deform to the second state by triggering the locking piece. The clamping deformation toy comprises a deformation body and a clamping body; be provided with on the deformation body and be used for adsorbing and the centre gripping the clamping part of the holding body, work as the clamping part adsorbs during the holding body, the deformation body centre gripping the holding body and upset warp, simultaneously the clamping part triggers the holding body warp to expand, and the centre gripping warp the toy and adsorb the holding body by the clamping part and trigger the deformation body and warp to trigger the holding body simultaneously and expand and warp, realized that the holding body is out of shape with the deformation body is synchronous.

Description

Clamping body and clamping deformation toy
Technical Field
The utility model relates to a toy car technical field especially relates to a clamping body and centre gripping warp toy.
Background
Transformable toys, which are capable of transforming from one form to another by rotation or disassembly, are generally transformed between automobiles, robots, and animals. In order to improve the interest and the playability of the transformation toy, the partial transformation toy is added with a clamping function, namely, the transformation toy is triggered to be transformed from one form to another form through clamping objects and the like, and the interest of the transformation toy is increased.
Present centre gripping warp toy, the effect of clamping body is only to trigger the deformation body and warp, and the back clamping body that warp is then by the centre gripping on the deformation body, and the clamping body can not transform the form along with the deformation of deformation body together, influences the whole molding after the deformation body warp. Therefore, it is desirable to provide a clamping transformable toy in which a clamping body and a transformable body are transformed synchronously, so as to improve the shape and interest of the transformable toy.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects of the prior art and provide a deformable clamping body and a clamping deformation toy with the clamping body and the deformation body synchronously deforming
The technical scheme of the utility model provides a clamping body, which comprises a locking piece and at least one elastic expansion piece;
when the elastic unfolding piece is in the first state, the locking piece locks the elastic unfolding piece in the retraction state, and the locking piece is triggered to unlock the elastic unfolding piece to be unfolded to the second state.
Further, the clamping body further comprises a shell for mounting the locking piece and the elastic unfolding piece;
the locking piece is telescopically installed in the shell, the elastic unfolding piece is locked when the locking piece retracts, and the elastic unfolding piece is unlocked when the locking piece extends out.
Furthermore, the locking piece is also provided with a first suction piece which can be sucked to drive the locking piece to extend out.
Furthermore, at least one locking clamping block is arranged on the locking piece in the telescopic direction, and a locking clamping groove is correspondingly arranged on the elastic unfolding piece;
when the locking piece retracts, the locking clamping block is inserted into the locking clamping groove to lock the elastic unfolding piece, and when the locking piece stretches out, the locking clamping block stretches out of the locking clamping groove to unlock the elastic unfolding piece.
Furthermore, the clamping body comprises a first elastic unfolding part, a second elastic unfolding part and a third elastic unfolding part which are all rotatably arranged on the shell;
the first elastic unfolding piece and the second elastic unfolding piece are symmetrically arranged on two sides of the shell, the first elastic unfolding piece and the second elastic unfolding piece are tightly attached to two sides of the shell in a first state, and the first elastic unfolding piece and the second elastic unfolding piece respectively rotate towards two sides of the shell when the locking piece is triggered;
in the first state, the third elastic spreading member is tightly attached to the outer surface of the shell, and when the locking member is triggered, the third elastic spreading member overturns 180 degrees and extends out of the shell.
Further, a first locking clamping groove is formed in the first elastic unfolding part, a second locking clamping groove is formed in the second elastic unfolding part, and a third locking clamping groove is formed in the third elastic unfolding part;
a first locking fixture block, a second locking fixture block and a third locking fixture block are correspondingly arranged on the locking piece;
the first locking clamping block and the second locking clamping block are positioned at one end of the locking piece and are respectively inserted into the first locking clamping groove and the second locking clamping groove in a first state;
the locking piece is provided with a through hole, the third locking clamping block is arranged in the through hole, and in the first state, the third locking clamping block is inserted into the third locking clamping groove.
The utility model also provides a clamping deformation toy, which comprises a deformation body and the clamping body;
the deformable body is provided with a clamping part for absorbing and clamping the clamping body,
when the clamping part adsorbs the clamping body, the deformation body clamps the clamping body and deforms, and meanwhile, the clamping part triggers the clamping body to deform into a second state.
Furthermore, a second adsorption piece used for adsorbing and triggering the locking piece is arranged on the clamping part.
Furthermore, the deformable body also comprises a supporting body, a turnover mechanism and at least two unfolding arms, wherein the turnover mechanism and the unfolding arms are rotatably arranged on the supporting body;
when the clamping part adsorbs the clamping body, the turnover mechanism is triggered, the turnover mechanism rotates towards the direction far away from the supporting body and drives the deformation body to turn over, and meanwhile, the unfolding arm is unlocked to rotate towards the direction far away from the supporting body.
Further, the clamping part is arranged at the front end of the supporting body and comprises a telescopic trigger piece, and a limiting block is arranged on the trigger piece;
the turnover mechanism comprises a rotating shaft and at least two turnover arms, and one ends of the turnover arms are connected with the rotating shaft; when the trigger piece stretches out, the other end of the turnover arm is locked at one side of the support body by the limiting block, when the trigger piece retracts, the limiting block is driven to unlock the turnover arm, and the turnover arm rotates in the direction far away from the support body by taking the rotating shaft as the axial direction.
Furthermore, the support body is also rotatably connected with a turnover helmet, and the turnover helmet and the trigger piece are respectively provided with a first locking hook and a second locking hook;
when the trigger piece stretches out, the first locking hook and the second locking hook are matched to lock the turnover helmet, when the trigger piece retracts, the first locking hook and the second locking hook are separated from each other to unlock the turnover helmet, and the turnover helmet turns over.
Further, the deformable body comprises a first unfolding arm, the first unfolding arm comprises a connecting part and a rotating part, the connecting part is connected with the supporting body through a fifth torsion piece, the connecting part is further provided with a locking lug, and the rotating part is provided with the clamping part;
the supporting body is further provided with a telescopic locking sliding rod, when the locking sliding rod extends out, the locking sliding rod is shielded in the rotating direction of the locking protruding block to lock the rotating portion, when the locking sliding rod retracts, the rotating portion is unlocked, and the first unfolding arm drives the clamping body to rotate synchronously.
Further, the deformation body further comprises an unlocking part for unlocking the first unfolding arm, and the unlocking part comprises a ground contact pushing block, a rotating piece and a locking sliding rod;
one end of the ground contact push block extends out of the support body, the middle part of the rotating piece is installed on the support body through a pin shaft, one end of the rotating piece is in contact with the ground contact push block, and the other end of the rotating piece is in contact with the locking slide rod;
after the turnover mechanism drives the deformation body to turn over, the ground contact push block is in contact with the plane where the deformation body is located and is pushed to the support body, so that the rotating piece is pushed to rotate, one end, close to the locking slide rod, of the rotating piece compresses the locking slide rod, and the first unfolding arm is unlocked.
Furthermore, the deformation body includes second expansion arm, the second expansion arm is installed through the fifth torsion piece on the support body, one of them upset arm will second expansion arm locking is in one side of support body, works as when the upset arm rotates, the unblock second expansion arm is to keeping away from the direction rotation of support body.
Furthermore, the clamping body is the aforesaid the utility model provides a clamping body.
After adopting above-mentioned technical scheme, have following beneficial effect:
the utility model provides a clamping body possesses two kinds of states, through triggering the lock piece when first state, can trigger elasticity expansion piece and expand and warp to the second state.
The utility model provides a centre gripping warp toy adsorbs the cramping body by the clamping part and triggers the deformation body and warp to trigger the cramping body simultaneously and expand and warp, realized the synchronous deformation of cramping body and deformation body, it is more interesting stronger, more can attract liking of child.
Drawings
The disclosure of the present invention will become more readily understood by reference to the drawings. It should be understood that: these drawings are for illustrative purposes only and are not intended to limit the scope of the present disclosure. In the figure:
FIG. 1 is a perspective view of a first state of a gripping transformable toy according to an embodiment of the present invention;
FIG. 2 is a perspective view of a second state of a gripping transformation toy according to an embodiment of the present invention;
FIG. 3 is a rear view of FIG. 2;
FIG. 4 is a view showing an expanded state of the holding member according to an embodiment of the present invention;
fig. 5 is a partially exploded view of a clamping body according to an embodiment of the present invention;
fig. 6 is a partially exploded view of a variant according to an embodiment of the invention;
fig. 7 is an internal structure view of a deformable body according to an embodiment of the present invention;
fig. 8 is a partial schematic view of a variant according to an embodiment of the present invention.
Reference symbol comparison table:
the deformable body 001, the clamping part 01, the second adsorption part 11, the trigger part 12, the limiting block 121, the second elastic part 122, the second locking hook 123, the support body 02, the upper shell 21, the lower shell 22, the decoration 23, the rotating shaft 231, the third torsion part 232, the support wing 24, the turnover mechanism 03, the turnover arm 31, the limiting groove 311, the projection 312, the rotating shaft 32, the second torsion part 321, the unfolding arm 04, the first unfolding arm 04-1, the second unfolding arm 04-2, the connecting part 41, the upper arm shell 041, the lower arm shell 042, the locking projection 411, the rotating part 42, the fourth torsion part 43, the fifth torsion part 44, the turnover helmet 05, the first locking hook 51, the unlocking part 06, the locking slide rod 61, the third elastic part 611, the pressing part 612, the ground contact pushing block 62, the ground contact end 621, the pushing end 622, the rotating part 63, and the pin 631;
clamping body 002, locking piece 021, first inhale annex 0211, locking fixture block 0212, first locking fixture block 0212-1, second locking fixture block 0212-2, third locking fixture block 0212-3, elasticity expands piece 022, first elasticity expands piece 022-1, second elasticity expands piece 022-2, third elasticity expands piece 022-3, locking draw-in groove 0221, first locking draw-in groove 0221-1, second locking draw-in groove 0221-2, third locking draw-in groove 0221-3, casing 023, first torsion piece 024, first elastic component 025.
Detailed Description
The following describes the present invention with reference to the accompanying drawings.
It is easily understood that, according to the technical solution of the present invention, a plurality of structural modes and implementation modes that can be mutually replaced by those of ordinary skill in the art can be achieved without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are only exemplary illustrations of the technical solutions of the present invention, and should not be construed as limiting or restricting the technical solutions of the present invention in its entirety or as a limitation of the present invention.
The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.
The first embodiment is as follows:
the clamping body 002 of this embodiment, as shown in fig. 1-5, includes a locking member 021 and at least one elastic expansion member 022;
when in the first state, the lock 021 locks the elastic expansion piece 022 in the retracted state, and the trigger lock 021 can unlock the elastic expansion piece 022 and expand to the second state.
In this embodiment, fig. 1 shows a first state, in which the locking member 021 locks the elastic expansion member 022 in a retracted state, and the clamping member 002 is in a circular sheet shape. When the lock 021 is triggered, the unlocking resilient spreading member 022 is deformed to the second state shown in fig. 2-4.
Alternatively, the clamping body 002 may also be of other shapes, such as: rectangular, or oval, etc.
The locking member 021 can be configured as an electric mechanism, a mechanical interlocking mechanism, or the like.
As further shown in fig. 4 and 5, the clamping body 002 further includes a housing 023 for mounting the locking member 021 and the elastic expansion member 022;
a lock 021 is telescopically mounted in the housing 023, the lock 021 locking the resilient deployment member 022 when retracted, and the lock 021 unlocking the resilient deployment member 022 when extended.
In this embodiment, three elastic spreading members 022, a first elastic spreading member 022-1, a second elastic spreading member 022-2, and a third elastic spreading member 022-3 are provided, and all of them are rotatably mounted on the housing 023 by a first torsion member 024, and the first torsion member 024 may be a torsion spring.
Wherein, first elasticity expansion piece 022-1, second elasticity expansion piece 022-2 symmetry set up in the both sides of casing 023, as shown in fig. 1, when the first state, first elasticity expansion piece 022-1 and second elasticity expansion piece 022-2 hug closely in the both sides of casing 023, constitute a circular thin slice with casing 023, when locking piece 021 was triggered, first elasticity expansion piece 022-1 and second elasticity expansion piece 022-2 use first torsion piece 024 connected with it to rotate as the axle respectively, first elasticity expansion piece 022-1 and second elasticity expansion piece 022-2 rotate to the both sides of casing 023 respectively and warp to the second state that fig. 2-4 shows.
As shown in FIG. 1, in the first state, the third elastic spreading member 022-3 clings to the outer surface of the housing 023, and when the locking member 021 is triggered, the third elastic spreading member 022-3 turns over 180 degrees, extends out of the housing 023, and is deformed into the second state shown in FIGS. 2-4.
Referring to fig. 1, the gripping body 002 is a circular thin sheet in the first state, and referring to fig. 2 to 4, the gripping body 002 is deformed into a weapon shape as a whole in the second state, the first elastic spreading member 022-1 and the second elastic spreading member 022-2 are spread on both sides as sword wings, and the third elastic spreading member 022-3 is extended out as sword-like heads.
Alternatively, the elastic spreading member 022 may be provided in one, two, or more than three, and the elastic spreading member 022 may be further connected to the housing 023 by an elastic member.
Further, as shown in fig. 5, a first suction member 0211 is disposed on the locking member 021 and can be sucked to drive the locking member 021 to extend.
Specifically, the first attraction part 0211 is configured as a magnet, and when the first attraction part 0211 is attracted by an external magnetic force, the first attraction part 021 drives the locking member 021 to extend.
Optionally, the first absorbing part 0211 may not be disposed on the locking member 021, and the locking member 021 is directly made of an iron sheet or a magnetic sheet.
Furthermore, as shown in fig. 5, the locking member 021 is provided with three locking blocks 0212 in the telescopic direction, and the elastic expansion member 022 is correspondingly provided with a locking slot 0221;
when locking piece 021 retracts, locking fixture block 0212 inserts locking elasticity expansion piece 022 in locking draw-in groove 0221, and when locking piece 021 stretches out, locking fixture block 0212 stretches out locking draw-in groove 0221 unblock elasticity expansion piece 022.
Specifically, the lock member 021 is connected to the housing 023 through the first elastic member 025, so that the lock member 021 can be extended and retracted.
A first locking clamping groove 0221-1 is arranged in the first elastic unfolding member 022-1, a second locking clamping groove 0221-2 is arranged in the second elastic unfolding member 022-2, and a third locking clamping groove 0221-3 is arranged on the third elastic unfolding member 022-3;
the locking piece 021 is correspondingly provided with a first locking fixture block 0212-1, a second locking fixture block 0212-2 and a third locking fixture block 0212-3.
The first locking fixture block 0212-1 and the second locking fixture block 0212-2 are located at one end of the locking piece 021, and are inserted into the first locking slot 0221-1 and the second locking slot 0221-2 respectively in the first state.
Wherein, first elasticity expansion piece 022-1 comprises upper and lower piece lid, and first locking draw-in groove 0221-1 sets up between upper and lower piece, and during the locking, first locking fixture block 0212-1 is located between upper and lower piece, and upper is decomposed in casing 023 both sides in fig. 5, and lower piece still is installed on casing 023. The structure of the second elastic expansion 022-2 is the same as that of the first elastic expansion 022-1.
The third elastic expansion piece 022-3 is provided with a protrusion part towards one side of the locking piece 021 when the first state, a third locking slot 0221-3 is formed between the protrusion part and the third elastic expansion piece 022-3, a through hole is correspondingly formed in the locking piece 021, the third locking clamping block 0212-3 is arranged in the through hole, and the third locking clamping block 0212-3 is inserted into the third locking slot 0221-3 when the first state is performed.
Optionally, the locking clamping groove 0221 and the locking clamping block 0212 on the elastic expansion piece 022 and the locking piece 021 can be arranged interchangeably, and the elastic expansion piece 022 and the locking piece 021 can be locked by other mechanical locking mechanisms.
In this embodiment, when the clamping body 002 is in the first state, it is wholly circular, when first inhale annex 0211 is adsorbed, drive the whole locking piece 021 and stretch out to the direction outside the casing 023, first locking fixture block 0212-1, second locking fixture block 0212-2 and third locking fixture block 0212-3 on the locking piece 021 break away from first locking draw-in groove 0221-1, second locking draw-in groove 0221-2 and third locking draw-in groove 0221-3 respectively to unblock first elasticity and expand piece 022-1, second elasticity and expand piece 022-2 and the expansion of third elasticity piece 022-3, get into the second state, the clamping body 002 is the weapon shape this moment.
Example two:
a clamping transformation toy, as shown in fig. 1, comprising the clamping body 002 and the transformation body 001 of the first embodiment, wherein the transformation body 001 is provided with a clamping part 01 for absorbing and clamping the clamping body 002;
when the clamping part 01 adsorbs the clamping body 002, the deformation body 001 clamps the clamping body 002 and deforms, and the clamping part 01 triggers the clamping body 002 to deform to the second state.
Specifically, as shown in fig. 1, when the transformable toy is held in the first state, the transformable body 001 is shaped like a car, the holding portion 01 is disposed at the head of the transformable body 001, the holding body 002 is shaped like a circular sheet, and at this time, the transformable body 001 and the holding body 002 are in a separated state. When the clamping body 002 enters the clamping part 01 and is adsorbed by the clamping part 01, the clamping body 002 and the deforming body 001 are both deformed, the clamping deforming toy is deformed into a second state shown in fig. 2 and 3, the deforming body 001 overturns and deforms into a robot shape at the moment, the clamping body 002 is clamped by the deforming body 001 and simultaneously deforms into a weapon held by the robot, and the deforming body 001 and the clamping body 002 are in an integrated state.
Optionally, two or more holding bodies 002 may be provided, the deformable body 001 may be deformed into other shapes such as an animal, the holding body 002 may also be provided into a square shape or other irregular shapes, and the holding body 002 may also be deformed into other shapes other than a weapon.
Further, as shown in fig. 7, a second adsorbing member 11 for adsorbing and triggering the locking member 021 is provided on the holding portion 01.
Specifically, clamping part 01 sets up to the notch form, second adsorbs 11 and sets up in the notch, in this embodiment, second adsorbs 11 and is the magnet, be used for adsorbing first accessory 0211 on the locking part 021, utilize the principle that the heteropolar looks of magnet is inhaled, when the distance between first accessory 0211 and the second adsorption 11 in clamping part 01 is enough near on the clamping part 002, under the effect of magnetic force, first accessory 0211 is adsorbed by second adsorption 11, it stretches out to the direction outside towards casing 023 to drive locking part 021, make locking part 021 unblock elasticity expand piece 022, and simultaneously, also adsorb clamping part 002 wholly in clamping part 01.
Further, as shown in fig. 1 to 3, the deformable body 001 further includes a support body 02, a turnover mechanism 03 and two unfolding arms 04, which are respectively a first unfolding arm 04-1 and a second unfolding arm 04-2, wherein the turnover mechanism 03 and the unfolding arms 04 are rotatably mounted on the support body 02;
when the clamping part 01 adsorbs the clamping body 002, the turnover mechanism 03 is triggered, the turnover mechanism 03 rotates in the direction away from the supporting body 02 and drives the deformation body 001 to turn, and the unlocking expansion arm 04 rotates in the direction away from the supporting body 02.
In the present embodiment, as shown in fig. 1, in the first state, the turnover mechanism 03 is connected to both sides of the bottom surface of the support body 02 as a wheel structure, wherein the first unfolding arm 04-1 is connected to the front end of the support body 02 as a vehicle head, the second unfolding arm 04-2 is connected to one side of the top surface of the support body 02 as a part of the vehicle body, and the rear end of the top surface of the support body 02 is further provided with a support wing 24.
When the clamping part 01 adsorbs and the centre gripping clamping body 002, tilting mechanism 03 pops out to vehicle bottom one side, promotes the whole upset that makes progress of deformation body 001, support on the plane at deformation body 001 place jointly by tilting mechanism 03 and support wing 24, first expansion arm 04-1 and second expansion arm 04-2 expand to the both sides that support the body 02 simultaneously, first expansion arm 04-1 still centre gripping clamping body 002 rotates in step to the one side that supports the body 02, clamping body 002 also expands in step at this in-process. After the deformation process, the clamping deformation toy is deformed to the second state shown in figures 2 and 3.
Optionally, more than two deployment arms 04 may be provided.
Further, as shown in an internal structure diagram of the deformable body 001 at the bottom view angle in fig. 7, in the first state, the clamping portion 01 is disposed at the front end of the supporting body 02, the clamping portion 01 further includes a retractable triggering member 12, and the triggering member 12 is provided with a limiting block 121;
the turnover mechanism 03 comprises a rotating shaft 32 and at least two turnover arms 31, wherein one ends of the turnover arms 31 are connected with the rotating shaft 32; when the trigger 12 extends out, the other end of the turning arm 31 is locked by the limiting block 121 at one side of the support body 02, and when the trigger 12 retracts, the limiting block 121 is driven to unlock the turning arm 31, and the turning arm 31 rotates in the direction away from the support body 02 by taking the rotating shaft 32 as the axial direction.
Specifically, the trigger 12 is connected to the second elastic member 122 to achieve the extension and retraction thereof, the trigger 12 is installed at the front end of the notch of the clamping portion 01, and the second adsorption member 11 is located in the middle of the clamping portion 01. Corresponding to the two turning arms 31, the trigger 12 is provided with two limiting blocks 121, and the two limiting blocks 121 are arranged at two ends of the trigger 12 and face two sides of the vehicle body.
Two upset arms 31 symmetry set up in the both sides of automobile body, and the axis of rotation 32 is installed on supporting body 02 through second torsion piece 321, and the one end and the axis of rotation 32 of two upset arms 31 are connected, and the other end is located the outside of stopper 121 to, be provided with on the upset arm 31 with stopper 121 complex spacing groove 311.
In the first state, the second elastic member 122 is in a natural state, the two limiting grooves 311 are matched with the two limiting blocks 121, and the two turning arms 31 are locked at two sides of the vehicle body. When the clamping member 002 is adsorbed by the second adsorbing member 11, the triggering member 12 is in contact with the clamping member 002 before the second adsorbing member 11, and under the magnetic action of the second adsorbing member 11, the clamping member 002 compresses the triggering member 12 and then is connected with the second adsorbing member 11. At this time, the trigger 12 retracts into the support body 02, the two stoppers 121 disengage from the two stopper grooves 311, and the two turning arms 31 rotate around the rotating shaft 32 under the action of the twisting force of the second twisting member 321, i.e., rotate to the side away from the bottom of the vehicle.
Further, as shown in fig. 1 and 6, a turning helmet 05 is further rotatably connected to the support body 02, and a first locking hook 51 and a second locking hook 123 are correspondingly arranged on the turning helmet 05 and the trigger 12;
when the trigger 12 extends out, the first locking hook 51 and the second locking hook 123 are matched with the locking turnover helmet 05, when the trigger 12 retracts, the first locking hook 51 and the second locking hook 123 are separated from the unlocking turnover helmet 05, and the turnover helmet 05 turns over.
Specifically, as shown in fig. 6, the support body 02 includes an upper shell 21, a lower shell 22, and a garnish 23, the upper shell 21 and the lower shell 22 are fitted to each other to serve as a roof and a floor, respectively, in a first state, and the garnish 23 is mounted on the upper shell 21 to serve as a back and a head of the robot in a second state. The decoration 23 is provided with a rotating shaft 231, the rotating shaft 231 is installed on the decoration 23 through a third torsion element 232, and one end of the flip helmet 05 is connected to the rotating shaft 231.
As shown in fig. 1, in the first state, the trigger 12 is in the extended state, and the first locking hook 51 and the second locking hook 123 are engaged to lock the flip helmet 05, which forms a part of the roof of the vehicle. When the trigger 12 is compressed, the second locking hook 123 is disengaged from the first locking hook 51, the flip helmet 05 is unlocked, and the flip helmet 05 is flipped to the second state by the twisting force of the third twisting member 232, and referring to fig. 2 and 3, the flip helmet 05 becomes a helmet shell of the robot after being flipped.
In the present embodiment, as shown in fig. 6 and 8, wherein the first unfolding arm 04-1 comprises a connecting portion 41 and a rotating portion 42, the connecting portion 41 is connected with the support body 02 through the fourth torsion member 43, and the connecting portion 41 is further provided with a locking projection 411, and the rotating portion 42 is provided with a clamping portion 01;
the supporting body 02 is further provided with a telescopic locking slide rod 61, when the locking slide rod 61 extends out, the locking rotation part 42 is shielded in the rotation direction of the locking convex block 411, when the locking slide rod 61 retracts, the rotation part 42 is unlocked, and the first unfolding arm 04-1 drives the clamping body 002 to synchronously rotate.
Specifically, as shown in fig. 6, the first deploy arm 04-1 includes an upper arm shell 041 and a lower arm shell 042, wherein the connecting portion 41 is disposed on the upper arm shell 041, the lower arm shell 042 covers the upper arm shell 041 to form the rotating portion 42, and the clamping portion 01 is disposed between the upper arm shell 041 and the lower arm shell 042.
As shown in fig. 8, the locking protrusion 411 protrudes out of the connecting portion 41, and tends to rotate clockwise due to the twisting force of the fourth twisting member 43. One end of the locking slide rod 61 is mounted on the supporting body 02 through the third elastic member 611 to achieve the extension and contraction thereof, and in the first state, the third elastic member 611 is in a natural state, and the other end of the locking slide rod 61 is shielded at one side of the rotation direction of the locking protrusion 411, which is shown as the left side in fig. 8, so as to limit the rotation of the locking protrusion 411 and lock the first unfolding arm 04-1 in the first state. When the third elastic member 611 is compressed, the locking slide rod 61 moves away from the connecting portion 41, and the locking protrusion 411 is not restricted from rotating, thereby unlocking the first unfolding arm 04-1 from rotating and unfolding.
Alternatively, the clamping portion 01 may be disposed on the turnover mechanism 03 or the support body 02, and may be used as a head or a helmet of the robot after being unfolded.
Further, as shown in fig. 8, the deforming body 001 further comprises an unlocking part 06 for unlocking the first unfolding arm 04-1, wherein the unlocking part 06 comprises a ground contact pushing block 62, a rotating member 63 and a locking slide rod 61;
one end of the ground contact push block 62 extends out of the support body 02, the middle part of the rotating piece 63 is installed on the support body 02 through a pin 631, one end of the rotating piece 63 is in contact with the ground contact push block 62, and the other end of the rotating piece 63 is in contact with the locking slide rod 61;
after the turnover mechanism 03 drives the deformation body 001 to turn over, the ground contact push block 62 is in contact with the plane where the deformation body 001 is located and pushed to the supporting body 02, so that the rotating piece 63 is pushed to rotate, one end, close to the locking slide rod 61, of the rotating piece 63 compresses the locking slide rod 61, and the first unfolding arm 04-1 is unlocked.
Specifically, the ground contacting push block 62 includes a ground contacting end 621 and a pushing end 622, the ground contacting end 621 is an elongated structure disposed along the vehicle width direction, the pushing end 622 is perpendicular to the ground contacting end 621 and disposed toward the inside of the support body 02, and an end of the ground contacting end 621 is located on one side of one end of the rotating member 63. One end of the lock slide 61 to which the third elastic member 611 is connected is provided with a pressing portion 612, the pressing portion 612 is located on one side of the other end of the rotary 63, and the ground contacting end 621 and the pressing portion 612 are located on the same side of the rotary 63.
After the turnover mechanism 03 drives the deformation body 001 to turn over, the ground contact end 621 of the ground contact push block 62 is in contact with the plane where the deformation body 001 is located, the ground contact push block 62 is pushed into the support body 02 under the action of rotation and gravity, the push end 622 pushes one end of the rotating piece 63, the other end of the rotating piece 63 compresses the pressing portion 612 of the locking slide rod 61, and the first unfolding arm 04-1 is unlocked.
In the present embodiment, as shown in fig. 8, the second unfolding arm 04-2 is mounted on the support body 02 through the fifth torsion element 44, one of the turning arms 31 locks the second unfolding arm 04-2 at one side of the support body 02, as shown in fig. 6, a convex bump 312 is disposed on the turning arm 31 at one side of the second unfolding arm 04-2, and in the first state, the bump 312 is tightly attached to the second unfolding arm 04-2, so as to limit the unfolding of the second unfolding arm 04-2; when the turning arm 31 rotates, the projection 312 is disengaged from the second unfolding arm 04-2, and the second unfolding arm 04-2 is unlocked to rotate in a direction away from the support body 02.
Alternatively, the second deploy arm 04-2 may be locked by the trigger 12 or the first deploy arm 04-1.
Next, the deformation process of the clamping deformation toy of the present embodiment will be described with reference to the above structure:
in the first state shown in fig. 1, the holding body 002 is a circular thin plate, the deformable body 001 is in an automobile shape, when the holding body 002 is close to the holding part 01, the first absorbing part 0211 in the holding body 002 is absorbed by the second absorbing part 11 in the holding part 01, the locking part 021 in the holding body 002 unlocks the three elastic unfolding parts 022 in the holding body 002, and the holding body 002 is deformed into a weapon shape.
When the clamping body 002 is connected with the clamping part 01, the clamping body 002 pushes the trigger piece 12 in the clamping part 01, the trigger piece 12 retracts into the supporting body 02, the overturning helmet 05 and the two overturning arms 31 are unlocked, the overturning helmet 05 overturns to be a armor of the robot, the two overturning arms 31 drive the deformation body 001 to overturn integrally, and the two overturning arms 31 and the supporting wings 24 are used as supports to stand on a plane; in the process, when the overturning arm 31 overturns, the unlocking second unfolding arm 04-2 is unfolded towards the direction far away from the support body 02; when the deformable body 001 stands on a plane, the ground contact pushing block 62 is pushed into the supporting body 02, the ground contact pushing block 62 pushes the rotating piece 63 to compress the locking slide rod 61, the locking slide rod 61 unlocks the first unfolding arm 04-1, the first unfolding arm 04-1 drives the clamping body 002 clamped in the clamping part 01 and deformed into a weapon to unfold, and then the clamped deformable toy is deformed into the second state shown in fig. 2 and 3.
What has been described above is merely the principles and preferred embodiments of the present invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims (15)

1. A gripping body, characterized in that it comprises a locking member (021) and at least one elastic expansion member (022);
when in the first state, the locking piece (021) locks the elastic expansion piece (022) in the retraction state, and the locking piece (021) is triggered to unlock the elastic expansion piece (022) and expand to the second state.
2. The gripping body according to claim 1, characterized in that it further comprises a housing (023) for mounting the locking member (021) and the resilient spreading member (022);
lock (021) telescopically install in casing (023), lock when lock (021) retract elasticity expansion piece (022), when lock (021) stretches out unblock elasticity expansion piece (022).
3. The gripping body according to claim 2, wherein the locking member (021) is further provided with a first suction member (0211) which can be sucked to drive the locking member (021) to extend.
4. The clamping body according to claim 2 or 3, wherein the locking member (021) is provided with at least one locking block (0212) in the telescopic direction, and the elastic expansion member (022) is correspondingly provided with a locking block groove (0221);
when locking piece (021) retract, locking fixture block (0212) are inserted lock in locking draw-in groove (0221) elasticity expansion piece (022), when locking piece (021) stretches out, locking fixture block (0212) stretch out locking draw-in groove (0221) unblock elasticity expansion piece (022).
5. The gripping body according to claim 4, characterized in that it comprises a first elastic development (022-1), a second elastic development (022-2) and a third elastic development (022-3), all rotatably mounted on the housing (023);
the first elastic spreading member (022-1) and the second elastic spreading member (022-2) are symmetrically arranged on two sides of the housing (023), when the first elastic spreading member (022-1) and the second elastic spreading member (022-2) are tightly attached to two sides of the housing (023) in a first state, and when the locking member (021) is triggered, the first elastic spreading member (022-1) and the second elastic spreading member (022-2) respectively rotate towards two sides of the housing (023);
in the first state, the third elastic spreading member (022-3) is clung to the outer surface of the shell (023), and when the locking member (021) is triggered, the third elastic spreading member (022-3) turns over 180 degrees and extends out of the shell (023).
6. The gripping body according to claim 5, wherein a first locking groove (0221-1) is provided in the first resilient spreading member (022-1), a second locking groove (0221-2) is provided in the second resilient spreading member (022-2), and a third locking groove (0221-3) is provided on the third resilient spreading member (022-3);
the locking piece (021) is correspondingly provided with a first locking fixture block (0212-1), a second locking fixture block (0212-2) and a third locking fixture block (0212-3);
the first locking fixture block (0212-1) and the second locking fixture block (0212-2) are positioned at one end of the locking piece (021), and are respectively inserted into the first locking slot (0221-1) and the second locking slot (0221-2) in a first state;
the locking piece (021) is provided with a through hole, the third locking clamping block (0212-3) is arranged in the through hole, and in the first state, the third locking clamping block (0212-3) is inserted into the third locking clamping groove (0221-3).
7. A clamping deformation toy, which is characterized by comprising a deformation body (001) and a clamping body (002);
the deformation body (001) is provided with a clamping part (01) for adsorbing and clamping the clamping body (002),
when clamping part (01) adsorbs when clamping body (002), the body (001) centre gripping of warping is clamping body (002) and is out of shape, simultaneously clamping part (01) triggers clamping body (002) is out of shape and is expanded.
8. The clipping transformation toy according to claim 7, wherein the clipping portion (01) is provided with a second absorption member (11) for absorbing and triggering the clipping body (002) to be transformed and unfolded.
9. The gripping deformable toy according to claim 7, characterized in that said deformable body (001) further comprises a supporting body (02), a tilting mechanism (03) and at least two unfolding arms (04), said tilting mechanism (03) and said unfolding arms (04) being rotatably mounted on said supporting body (02);
clamping part (01) adsorb during clamping body (002), trigger tilting mechanism (03), tilting mechanism (03) are to keeping away from the direction of supporting body (02) rotates and drives deformation body (001) upset, unblock simultaneously expansion arm (04) are to keeping away from the direction of supporting body (02) rotates.
10. The clipping deforming toy of claim 9, wherein the clipping portion (01) is provided at a front end of the supporting body (02), the clipping portion (01) includes a retractable trigger (12), and a stopper (121) is provided on the trigger (12);
the turnover mechanism (03) comprises a rotating shaft (32) and at least two turnover arms (31), wherein one end of each turnover arm (31) is connected with the rotating shaft (32); when triggering piece (12) stretches out, stopper (121) will the other end locking of upset arm (31) is in support body (02) one side, when triggering piece (12) retract, drive stopper (121) unblock upset arm (31), upset arm (31) use axis of rotation (32) are the axial and keep away from support body (02)'s direction rotates.
11. The clamping deformation toy as claimed in claim 10, wherein a turning helmet (05) is further rotatably connected to the supporting body (02), and a first locking hook (51) and a second locking hook (123) are respectively arranged on the turning helmet (05) and the trigger (12);
when the trigger piece (12) stretches out, the first locking hook (51) and the second locking hook (123) are matched to lock the turnover helmet (05), when the trigger piece (12) retracts, the first locking hook (51) and the second locking hook (123) are separated from unlocking the turnover helmet (05), and the turnover helmet (05) is turned over.
12. Gripping transformation toy according to claim 9, characterized in that said transformation body (001) comprises a first unfolding arm (04-1), said first unfolding arm (04-1) comprising a connection portion (41) and a rotation portion (42), said connection portion (41) being connected with said support body (02) by a fifth torsion element (44), and said connection portion (41) being further provided with a locking cam (411), said rotation portion (42) being provided with said gripping portion (01);
support still be provided with telescopic locking slide bar (61) on body (02), shelter from when locking slide bar (61) stretch out in the locking on the rotation direction of locking lug (411) rotation portion (42), when locking slide bar (61) retract rotation portion (42) unblock, first expansion arm (04-1) drive holding body (002) synchronous rotation.
13. Clamping deformation toy according to claim 12, characterized in that the deformation body (001) further comprises an unlocking part (06) for unlocking the first unfolding arm (04-1), the unlocking part (06) comprising a ground contact pusher (62), a rotation member (63) and the locking slide (61);
one end of the ground contact push block (62) extends out of the support body (02), the middle part of the rotating piece (63) is installed on the support body (02) through a pin shaft (631), one end of the rotating piece (63) is in contact with the ground contact push block (62), and the other end of the rotating piece is in contact with the locking slide rod (61);
after the turnover mechanism (03) drives the deformable body (001) to turn over, the ground contact push block (62) is in contact with the plane where the deformable body is located and pushed to the supporting body (02), so that the rotating piece (63) is pushed to rotate, one end, close to the locking slide rod (61), of the rotating piece (63) compresses the locking slide rod (61), and the first unfolding arm (04-1) is unlocked.
14. Gripping transformation toy according to claim 10, characterized in that said transformation body (001) comprises a second unfolding arm (04-2), said second unfolding arm (04-2) being mounted on said support body (02) by means of a fifth torsion element (44), one of said overturning arms (31) locking said second unfolding arm (04-2) on one side of said support body (02), unlocking said second unfolding arm (04-2) to rotate away from said support body (02) when said overturning arm (31) rotates.
15. The clipping deforming toy of claim 7, wherein the clipping body (002) is the clipping body of any one of claims 1 to 6.
CN201922080308.2U 2019-11-27 2019-11-27 Clamping body and clamping deformation toy Active CN212467103U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922080308.2U CN212467103U (en) 2019-11-27 2019-11-27 Clamping body and clamping deformation toy

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922080308.2U CN212467103U (en) 2019-11-27 2019-11-27 Clamping body and clamping deformation toy

Publications (1)

Publication Number Publication Date
CN212467103U true CN212467103U (en) 2021-02-05

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922080308.2U Active CN212467103U (en) 2019-11-27 2019-11-27 Clamping body and clamping deformation toy

Country Status (1)

Country Link
CN (1) CN212467103U (en)

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