CN205867558U - Prevent hired roughneck's toy - Google Patents

Abstract

The utility model discloses a prevent hired roughneck's toy, including fixing base, upset piece, driving piece and locating component. The one end of upset be equipped with with fixing base complex pivotal axis, the pivotal axis has an eccentric portion, the upset is rotatable between latched position and release position around the pivotal axis, the driving piece is established on the fixing base, the driving piece can drive upset and rotate with the first direction around the pivotal axis, locating component establishes on the fixing base, when the upset piece overturn with the second orientation with an opposite direction, locating component and off -centre portion contact were in order to stop the emergence resilience under the effect of driving piece of upset piece. According to the utility model discloses a prevent hired roughneck's toy will overturn the piece when overturn with the second orientation with the hand, the off -centre portion contact that utilizes locating component and pivotal axis is in order to stop upset emergence resilience under the effect of driving piece to can prevent that the upset piece from pressing from both sides or getting to the hand when kick -backing.

Description

The toy of anti-hired roughneck

Technical field

This utility model relates to toy art, especially relates to the toy of a kind of anti-hired roughneck.

Background technology

In correlation technique, toy car after a deformation, needs to overturn the flip piece on toy car to toy car change with hands Position before shape.In the process, flip piece has the tendency of reply under the effect of the actuator of toy car, if carelessness is not noted Meaning, then finger can be gripped to because of the reply of flip piece or get to.Accordingly, it would be desirable to improve.

Utility model content

One of technical problem that this utility model is intended to solve in correlation technique the most to a certain extent.To this end, this reality With the toy of a kind of anti-hired roughneck of novel proposition, this toy has the function of anti-hired roughneck.

The toy of the anti-hired roughneck according to this utility model embodiment, including: fixing seat；Flip piece, the one of described flip piece End is provided with the pivotal axis coordinated with described fixing seat, and described pivotal axis has eccentric part, and described flip piece exists around described pivotal axis Between latched position and off-position rotatably；Actuator, described actuator is located on described fixing seat, and described actuator can drive Dynamic described flip piece rotates with first direction around described pivotal axis；Positioning component, described positioning component is located on described fixing seat, When described flip piece overturns with second direction opposite to the first direction, described positioning component contacts with described eccentric part To stop described flip piece that resilience occurs under the effect of described actuator.

The toy of the anti-hired roughneck according to this utility model embodiment, by being arranged on the positioning component on fixing seat, with When flip piece is overturn by hands with second direction, positioning component is utilized to contact with the eccentric part of pivotal axis to stop flip piece driving Resilience is there is, such that it is able to prevent from clipping to during flip piece resilience or getting to hands under the effect of part.

According to embodiments more of the present utility model, described positioning component includes: the first keeper, described first keeper Reciprocable in the horizontal direction, and described flip piece rotates in the range of the first predetermined angular described with described second direction First keeper often contacts with described eccentric part；For the second keeper that described first keeper is positioned.

Specifically, described first keeper includes base, and described base is formed groove, and described second keeper is neighbouring Described groove arranges and may move in the vertical direction, when described flip piece rotates the second predetermined angular with described second direction It is interior to position described first keeper that described second keeper moves to described groove, wherein said second predetermined angular Less than described first predetermined angular.

Specifically, described positioning component also includes the accommodating cylinder for accommodating described second keeper, and described accommodating cylinder sets On described fixing seat and opening is towards described groove, the sky that described second keeper limits with described groove at described accommodating cylinder In can be up and down.

Specifically, when described toy is inverted, described second keeper falls on described base, described flip piece with It is interior and described that one end of second keeper described in when described second direction rotates described second predetermined angular is contained in described groove The other end of the second keeper is contained in described accommodating cylinder, and when described toy is just put, described second keeper falls to institute State in accommodating cylinder and described one end of described second keeper departs from described groove.

According to embodiments more of the present utility model, described flip piece is provided with for dodging stepping down of described accommodating cylinder Hole, when described flip piece is positioned at described latched position, described accommodating cylinder is contained in described resigning hole.

According to embodiments more of the present utility model, the lower surface of described base is formed with downwardly projecting first convex Rising, described flip piece rotates described first protruding and described bias in the range of described first predetermined angular with described second direction Portion often contacts.

Specifically, the floor projection of described first projection is that the diapire of U-shaped and described first projection is towards described eccentric part.

According to embodiments more of the present utility model, described eccentric part is be formed on the outer peripheral face of described pivotal axis Two is protruding, and described second protruding and described first keeper face contacts.

Specifically, the surface of described second projection includes multiple plane being connected with each other.

According to embodiments more of the present utility model, described positioning component also includes that spring, described spring are located at described solid In reservation, described spring and described eccentric part lay respectively at the opposite sides of described first keeper, described spring and described the Positioning piece offsets, and described spring is in normal compressive state to drive described first keeper to move in the horizontal direction.

According to embodiments more of the present utility model, described toy also includes being located at the first of described fixing seat movably Trigger member, described flip piece coordinates described flip piece is positioned at described latched position with described first trigger member, described First trigger member described in when first trigger member is triggered and described flip piece depart from and coordinate, and described actuator drives described flip piece Along described first direction upset and have an effect to drive described toy overturn with supporting surface, described toy also include variant part with Second trigger member, described variant part is located on described fixing seat, and described variant part has the first form and the second form, and described Two trigger member coordinate with described variant part described variant part is positioned at described first form, described in during the upset of described flip piece Second trigger member is triggered to depart from described variant part, and described variant part is described second shape by described first Morphological Transitions State, described first keeper constitutes described second trigger member.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the toy of the anti-hired roughneck according to this utility model embodiment, and wherein variant part is in the first shape State；

Fig. 2 is the front view of Fig. 1；

Fig. 3 is the profile of line A-A along Fig. 2；

Fig. 4 is the enlarged diagram in Fig. 3 at B；

Fig. 5 is the schematic diagram of the toy of the anti-hired roughneck according to this utility model embodiment, and wherein variant part is in the second shape State；

Fig. 6 is the enlarged diagram in Fig. 5 at C；

The front view of Fig. 7 Fig. 6；

Fig. 8 is the profile of line D-D along Fig. 7；

Fig. 9 is the enlarged diagram in Fig. 8 at E.

Reference:

Toy 100,

Variant part 1, fixing seat 2, grasping part 21,

Flip piece 3, pivotal axis 31, eccentric part 311, the first plane 3111, the second plane 3112, the 3rd plane 3113, allow Hole 32, position, the second clamping part 33,

Actuator 4,

First keeper 51, base 511, groove 512, the first projection 513, the second keeper 52, accommodating cylinder 53, spring 54,

First trigger member 6, the first clamping part 61,

Toy disks 7, magnetic absorption member 8.

Detailed description of the invention

Of the present utility model embodiment is described below in detail, and the example of described embodiment is shown in the drawings.Below by The embodiment being described with reference to the drawings is exemplary, it is intended to be used for explaining this utility model, and it is not intended that new to this practicality The restriction of type.

In description of the present utility model, it is to be understood that term " " center ", " length ", " width ", " thickness ", On " ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " clockwise ", " inverse Hour hands ", " axially ", " radially ", the orientation of the instruction such as " circumferential " or position relationship be based on orientation shown in the drawings or pass, position System, is for only for ease of description this utility model and simplifies description rather than instruction or imply that the device of indication or element are necessary There is specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include at least one this feature.In description of the present utility model, " multiple " are meant that at least two, such as two Individual, three etc., unless otherwise expressly limited specifically.

The toy 100 of the anti-hired roughneck according to this utility model embodiment is described below with reference to Fig. 1-Fig. 9.

As shown in Fig. 1-Fig. 9, according to the toy 100 of the anti-hired roughneck of this utility model embodiment, including fixing seat 2, upset Part 3, actuator 4 and positioning component.Alternatively, above-mentioned toy 100 can be toy car, and now fixing seat 2 can be toy car Chassis.

Specifically, one end of flip piece 3 is provided with and fixes the pivotal axis 31 that seat 2 coordinates, and pivotal axis 31 has eccentric part 311, flip piece 3 (is joined in latched position (with reference to Fig. 1-Fig. 4, flip piece 3 is in the locked position) and off-position around pivotal axis 31 According to Fig. 5-Fig. 9, flip piece 3 is in off-position) between rotatable.Actuator 4 is located on fixing seat 2, and actuator 4 can drive and turn over Turning part 3 to rotate with first direction (the e1 direction in reference to Fig. 5) around pivotal axis 31, flip piece 3 is permissible under the driving of actuator 4 It is rotated in a first direction to off-position from latched position.Alternatively, actuator 4 can be torsion spring.

Positioning component is located on fixing seat 2, when flip piece 3 is with the second direction contrary with first direction (in reference to Fig. 5 E2 direction) upset time, positioning component contacts with eccentric part 311 to stop flip piece 3 that resilience occurs under the effect of actuator 4. It is understood that when being rotated in a second direction, to latched position from off-position by flip piece 3, flip piece 3 is driven Part 4 driving force in the first direction so that flip piece 3 has the tendency of reply.And by arranging above-mentioned positioning component, permissible Make flip piece 3 when rotating with second direction, contacted with the eccentric part 311 of pivotal axis 31 by positioning component and overcome actuator The active force of 4, such that it is able to stop flip piece 3 that resilience occurs under the effect of actuator 4, and then can avoid rotating with hands Get to or hand folding during flip piece 3.

Such as, toy 100 is under the triggering of external force, and flip piece 3 unlocks from latched position, and flip piece 3 is at the work of actuator 4 Being rotated in a first direction under with, flip piece 3 can have an effect to drive with supporting surface (such as ground) during upset Toy 100 overturns, and flip piece 3 is rotated in a first direction to off-position.At this time, it may be necessary to by external force such as handss by flip piece 3 from releasing Put position to be rotated in a second direction, to latched position, so that toy 100 can repeat to overturn.And with hands by flip piece 3 It is rotated in a second direction, to latched position from off-position, does not notes due to carelessness or dynamics such as does not reaches at the reason (such as, when player is child, strength is smaller), flip piece 3 can be driven part 4 driving force in the first direction, logical Cross contacting of above-mentioned positioning component is set with pivotal axis 31 eccentric part 311, the active force of actuator 4 can be overcome, stop Flip piece 3 is rotated in a first direction resilience, such that it is able to prevent flip piece 3 resilience from getting to or hand folding.

The toy 100 of the anti-hired roughneck according to this utility model embodiment, by being arranged on the positioning component on fixing seat 2, When flip piece 3 being overturn with second direction with hands, utilize positioning component to contact with the eccentric part 311 of pivotal axis 31 and turn over to stop Turn part 3 and resilience occurs under the effect of actuator 4, such that it is able to prevent from clipping to during flip piece 3 resilience or getting to hands.

According to embodiments more of the present utility model, with reference to Fig. 1-Fig. 9, positioning component includes the first keeper 51 and second Keeper 52.First keeper 51 reciprocable in the horizontal direction, and flip piece 3 rotates the first predetermined angle with second direction In the range of degree, the first keeper 51 often contacts with eccentric part 311, and the second keeper 52 is fixed for carrying out the first keeper 51 Position.

Specifically, when flip piece 3 is positioned at off-position (with reference to Fig. 5-Fig. 9), the first keeper 51 and eccentric part 311 Part contact away from the central axis of pivotal axis 31.By external force such as handss, flip piece 3 is being turned in a second direction from off-position During dynamic first predetermined angular, the first keeper 51 has been at contact condition with eccentric part 311.It is understood that During flip piece 3 is rotated in a second direction, eccentric part 311 is rotated in a second direction, simultaneously, now the first keeper 51 Can move to the direction near pivotal axis 31, so that the first keeper 51 keeps contacting with eccentric part 311.Meanwhile, by First keeper 51 is positioned by two keepers 52, when the first keeper 51 contacts with eccentric part 311, makes flip piece 3 nothing Method is rotated in a first direction resilience.

Such as, by external force such as handss, the angle that flip piece 3 rotates with second direction is being less than or equal to the first predetermined angular Time carelessness or the situation such as dynamics is not enough occur, owing to rotating the process of the first predetermined angular at flip piece 3 along the second rotation direction In, the first keeper 51 is always maintained at contacting with eccentric part 311.Therefore, in the process, flip piece 3 cannot be in the first direction Rotate resilience, such that it is able to prevent flip piece 3 resilience from getting to or hand folding.

The most such as, go out when flip piece 3 being more than the first predetermined angular with the angle that second direction rotates by external force such as handss The situations such as now carelessness or dynamics deficiency, during rotating the first predetermined angular at flip piece 3 along the second rotation direction, the Positioning piece 51 is always maintained at contacting with eccentric part 311.Therefore, even if flip piece 3 occurs resilience, flip piece 3 in the process Can contact with eccentric part 311 and overcome the active force of actuator 4 during being rotated in a first direction, such that it is able to stop upset Part 3 continues to be rotated in a first direction, such that it is able to prevent flip piece 3 resilience from getting to or hand folding.

It should be noted that be not restricted for the first predetermined angular, the first predetermined angular can be set as required.

In some specific embodiments of this utility model, with reference to Fig. 3, Fig. 4, Fig. 8 and Fig. 9, the first keeper 51 includes the end Seat 511, base 511 is formed groove 512, and the second keeper 52 adjacent recess 512 arranges and may move in the vertical direction, With to the first location in when flip piece 3 rotates the second predetermined angular with second direction, the second keeper 52 moves to groove 512 Part 51 positions, and wherein the second predetermined angular is less than the first predetermined angular.Thus, by the second keeper 52 and the first location Groove 512 on part 51 coordinates, such that it is able to the first keeper 51 is positioned, and make positioning component simple in construction, Facilitate implementation.

It addition, by making above-mentioned second predetermined angular less than above-mentioned first predetermined angular, it is ensured that at the first keeper During 51 keep contacting with eccentric part 311 so that the first keeper 51 is positioned by the second keeper 52, such that it is able to Ensure to overcome the actuator 4 active force to flip piece 3 by the first keeper 51 and the abutting of eccentric part 311, stop upset Part 3 resilience.It should be noted that the second predetermined angular can set according to actual needs, can be according to player such as child's Dynamics sets the second suitable predetermined angular.

Further, with reference to Fig. 1, Fig. 3-Fig. 6, Fig. 8 and Fig. 9, positioning component also includes for accommodating the second keeper 52 Accommodating cylinder 53, accommodating cylinder 53 is located on fixing seat 2 and opening is towards groove 512, the second keeper 52 at accommodating cylinder 53 with recessed Can be up and down in the space that groove 512 limits.Specifically, when toy 100 is inverted, such as when toy 100 is toy car, phase When in by the chassis of toy car upward, the second keeper 52 falls on base 511, rotate with second direction at flip piece 3 In when stating the second predetermined angular, one end of the second keeper 52 is contained in groove 512 and the other end of the second keeper 52 is contained in In accommodating cylinder 53.Thus, coordinated with the groove 512 on the first keeper 51 by above-mentioned one end of the second keeper 52 and second The above-mentioned other end of keeper 52 offsets with the inwall of accommodating cylinder 53, can limit the first keeper 51 and move, such that it is able to right First keeper 51 positions.

When toy 100 is just put, such as, when toy 100 is toy car, be equivalent to by the chassis of toy car down, second Keeper 52 falls to interior and the second keeper 52 the above-mentioned one end of accommodating cylinder 53 and departs from groove 512, now the first keeper 51 Departing from the restriction of the second keeper 52, the first keeper 51 can move back and forth in the horizontal direction, thereby may be ensured that flip piece 3 Normal upset is realized under the effect of actuator 4.Alternatively, the second keeper 52 can be metal weights grain, thus second Keeper 52 can move under the effect of self gravitation along the vertical direction.

In embodiments more of the present utility model, with reference to Fig. 1 and Fig. 5, flip piece 3 is provided with for dodging accommodating cylinder 53 Resigning hole 32, house cylinder 53 when flip piece 3 is positioned at latched position and be partially received in resigning hole 32 adjacent to flip piece 3. Thus, it is possible to prevent flip piece 3 to be rotated in a second direction, to flip piece during latched position 3 and the generation interference of accommodating cylinder 53.

In embodiments more of the present utility model, the lower surface of base 511 is formed with downwardly projecting first protruding 513, flip piece 3 rotates the first projection 513 in the range of the first predetermined angular with second direction and often contacts with eccentric part 311.By This, by first protruding 513 with the contacting of eccentric part 311, flip piece 3 resilience under the effect of actuator 4 can be stoped.With Time so that the simple in construction of the first keeper 51.

Specifically, the floor projection of the first projection 513 is diapire (described " first projection 513 of U-shaped and the first projection 513 Diapire " refer to the blind end of U-shaped the first projection 513) towards eccentric part 311.Thus, by the diapire of the first projection 513 with The contact of eccentric part 311, stops flip piece 3 resilience under the effect of actuator 4.Meanwhile, can be with material saving.

According to embodiments more of the present utility model, eccentric part 311 can be to be formed on the outer peripheral face of pivotal axis 31 Second is protruding, and the second projection contacts with the first keeper 51.Thus, it is possible to make the second protruding steady with the first keeper 51 Fixed contact.Specifically, the surface of the second projection can include multiple plane being connected with each other.

Such as, in the example of Fig. 5 and Fig. 6, the surface of the second projection includes three planes being connected with each other, respectively One plane the 3111, second plane 3112 and the 3rd plane 3113.Wherein, the first plane 3111 and the second plane 3112 respectively with pivot The main body of rotating shaft 31 is connected and being provided at circumferentially spaced along pivotal axis 31, and the circumferential two ends of the 3rd plane 3113 are flat with first respectively Face 3111 is connected with the second plane 3112.When flip piece 3 is positioned at off-position, the first keeper 51 and the 3rd of the second projection the Plane 3113 contacts, at flip piece 3 during off-position is rotated in a second direction, and the first keeper 51 and the 3rd plane 3113 contacts progressively disengage contact and contact with the second plane 3112.It is rotated in a second direction, the first predetermined angular at flip piece 3 After, the first keeper 51 disengages with the second plane 3112.It should be noted that flip piece 3 be rotated in a second direction, to During latched position, flip piece 3 remains with the outer peripheral face of pivotal axis 31 and contacts.

According to embodiments more of the present utility model, with reference to Fig. 8 and Fig. 9, positioning component also includes that spring 54, spring 54 set On fixing seat 2, spring 54 and eccentric part 311 lay respectively at the opposite sides of the first keeper 51, spring 54 and the first location Part 51 offsets, and spring 54 is in normal compressive state to drive the first keeper 51 to move in the horizontal direction.Specifically, turning over Turn part 3 when being rotated in a second direction, from off-position, owing to eccentric part 311 is rotated in a second direction, too, now spring 54 The first keeper 51 can be driven mobile to the direction (with reference to rearwardly direction in Fig. 5) of the central axis near pivotal axis 31.

After flip piece 3 is rotated in a second direction, the second predetermined angular, the first keeper 51 is positioned by the second keeper 52, Now the first keeper 51 can continue to move to the direction of central axis near pivotal axis 31, until flip piece 3 rotates the After one predetermined angular, the first keeper 51 disengages with eccentric part 311.It is rotated in a second direction, to locking bit at flip piece 3 During putting, the first keeper 51 remains with the outer peripheral face of pivotal axis 31 and contacts.And the first keeper 51 is by second The location of keeper 52, the first keeper 51 cannot along the central axis away from pivotal axis 31 direction (with reference in Fig. 5 forward Direction) mobile, thus by the first keeper 51 and the abutting of eccentric part 311, flip piece 3 resilience can be stoped.

According to embodiments more of the present utility model, toy 100 also includes the first triggering being located at fixing seat 2 movably Part 6, flip piece 3 coordinates flip piece 3 is positioned at latched position with the first trigger member 6, when the first trigger member 6 is triggered One trigger member 6 and flip piece 3 depart from and coordinate, and actuator 4 drives flip piece 3 overturn in the first direction and (such as, prop up with supporting surface Support face can be ground) having an effect overturns with band toy 100.Thus, trigger the first trigger member 6 by external force etc., permissible Flip piece 3 is made to unlock from latched position and overturn in the first direction under the effect of actuator 4, in the process of flip piece 3 upset In can be realized the upset of toy 100 by the effect of flip piece 3 with supporting surface, thus increase the enjoyment of toy 100.

For example, referring to Fig. 3 and Fig. 8, the first trigger member 6 can be located on fixing seat 2 movably forward and backward, in the first trigger member 6 Being provided with the first clamping part 61, flip piece 3 is provided with the second clamping part 33 coordinated with the first clamping part 61.By the first clamping part 61 with the coordinating of the second clamping part 33, can be by flip piece 3 horizontal location on fixing seat 2.It is triggered in the first trigger member 6 Time, the first clamping part 61 departs from the second clamping part 33 and coordinates.Now, flip piece 3 overturns and has an effect with band with supporting surface Toy 100 overturns.

Further, with reference to Fig. 1-Fig. 9, toy 100 also includes variant part 1 and the second trigger member, such as, at toy 100 is During toy car, variant part 1 is the vehicle body of toy car.Variant part 1 has the first form and the second form, the second trigger member and deformation Portion 1 coordinates variant part 1 is positioned at the first form, and when flip piece 3 overturns, the second trigger member is triggered to take off with variant part 1 From, variant part 1 is the second form by the first Morphological Transitions, and the first keeper 51 constitutes the second trigger member.Specifically, first When trigger member 6 coordinates with flip piece 3, the first keeper 51 coordinates with variant part 1, and variant part 1 is locked in the first form.First When trigger member 6 is triggered, the first trigger member 6 and flip piece 3 depart from and coordinate, flip piece 3 under the effect of actuator 4 along first party To overturning.When flip piece 3 turns to off-position, the eccentric part 311 on pivotal axis 31 contacts with the first keeper 51 And promoting the first keeper 51 to move so that the first keeper 51 departs from variant part 1, thus is unlocked by variant part 1, variant part 1 is deformed into the second form.Thus, it is possible to make toy 100 deform, extend playing method and the enjoyment of toy 100.

According to embodiments more of the present utility model, with reference to Fig. 1-Fig. 9, toy 100 also includes toy disks 7, fixing seat 2 Front end has the grasping part 21 for clamping toy dish 7 that front side is opened wide, when toy disks 7 is clamped in grasping part 21 first Trigger member 6 is triggered.Such as, toy 100 could be included for the magnetic absorption member 8 sucking in grasping part 21 by toy disks 7, magnetic Inhale part 8 to be located on fixing seat 2 and arrange adjacent to grasping part 21.Toy 100 advance during, the front end of toy 100 with When toy disks 7 is collided, can suck in grasping part 21 by toy disks 7 by magnetic absorption member 8, now toy disks 7 can promote One trigger member 6 is moved rearwards by so that flip piece 3 departs from the first trigger member 6 and coordinates, thus flip piece 3 is in the effect of actuator 4 Under can overturn in the first direction.

The toy 100 according to one embodiment of this utility model and concrete playing method thereof is described in detail referring to Fig. 1-Fig. 9. Wherein, positioning component includes first keeper the 51, second keeper 52, accommodating cylinder 53 and spring 54.First keeper 51 includes Base 511, base 511 is formed groove 512, and the second keeper 52 is in the space that groove 512 and accommodating cylinder 53 limit Can be up and down, the second keeper 52 is metal weights grain.The first projection 513, eccentric part it is formed with on the lower surface of base 511 311 is the second projection being formed on the outer peripheral face of pivotal axis 31, and spring 54 and the second projection lay respectively at the first keeper 51 Opposite sides.

Toy 100 also includes the first above-mentioned trigger member the 6, second trigger member and toy disks 7, and the first keeper 51 constitutes Two trigger member.The front end of fixing seat 2 has grasping part 21, and fixing seat 2 is additionally provided with magnetic absorption member 8.Variant part 1 has the first shape State and the second form.

Specifically, flip piece 3 is positioned at latched position at the beginning, and variant part 1 is in the first form (with reference to Fig. 1-Fig. 4). The dispersion of multiple toy disks 7 can be positioned over remote position, player front, then handheld toy 100, toy 100 be pushed to certainly At least one toy disks 7 that oneself is selected.When toy 100 is just touched with one of them toy disks 7, now fix on seat 2 Magnetic absorption member 8 toy disks 7 is sucked in grasping part 21, toy disks 7 promotes the first trigger member 6 to be moved rearwards by, flip piece 3 and One trigger member 6 departs from and coordinates, thus flip piece 3 unlocks from latched position and overturns in the first direction under the driving of actuator 4.

During flip piece 3 overturns in the first direction, flip piece 3 and supporting surface are had an effect and band toy 100 Upset.When flip piece 3 turns to off-position, second on pivotal axis 31 is protruding protruding with first on the first keeper 51 513 contact and promote the first keeper 51 to move forward so that the first keeper 51 departs from variant part 1 and coordinates, thus will become Shape portion 1 unlocks, and variant part 1 is deformed into the second form (with reference to Fig. 5-Fig. 9).Now, the second projection on pivotal axis 31 is with first The first projection 513 on keeper 51 is at contact condition.

It is understood that variant part 1 is being recovered to the first form from the second form so that toy 100 repeats to realize becoming Shape, needs to be overturn to latched position from off-position by flip piece 3 by external force such as handss.At this point it is possible to toy 100 is inverted, this Time the second keeper 52 fall on base 511, flip piece 3 is being rotated in a second direction, from off-position the second predetermined angular Time, the second keeper 52 moves to the groove 512 of base 511, is now positioned by the first keeper 51, the first keeper 51 nothing Method is moved rearwards by.If carelessness does not notes or dynamics is not enough, by first on the first keeper 51 protruding 513 and pivotal axis On 31 second is protruding to abut, and can stop flip piece 3 that resilience occurs under the effect of actuator 4 in the first direction, thus can Get to or hand folding during to prevent and to rotate flip piece 3 with hands.

First keeper 51 can be moved rearwards by under the driving of spring 54, and therefore flip piece 3 can continue along Two directions rotate, until turning to latched position.

Being recovered by toy 100 after the first form, just put by toy 100, now the second keeper 52 falls to hold Putting in cylinder 53, the second keeper 52 and groove 512 depart from and coordinate, the first keeper 51 departing from the second keeper 52 spacing just Can move back and forth in the horizontal direction, such that it is able to make toy 100 realize from the first form to the normal deformation of the second form.

To sum up, according to the toy 100 of the anti-hired roughneck of this utility model embodiment, it is possible not only to take exercise the hands brain association of child Tune ability, improves the control ability including sense of direction, dynamics sense etc. of child, it is also possible to prevent from rotating flip piece 3 with hands Time get to or hand folding because of flip piece 3 resilience.

In this utility model, unless otherwise clearly defined and limited, term " install ", " being connected ", " connection ", " Gu Fixed " etc. term should be interpreted broadly, connect for example, it may be fixing, it is also possible to be to removably connect, or integral；Can be Be mechanically connected, it is also possible to be electrical connection or each other can communication；Can be to be joined directly together, it is also possible to by the indirect phase of intermediary Even, can be connection or the interaction relationship of two elements of two element internals, unless otherwise clear and definite restriction.For this For the those of ordinary skill in field, above-mentioned term concrete meaning in this utility model can be understood as the case may be.

In the description of this specification, reference term " embodiment ", " some embodiments ", " example ", " specifically show Example " or the description of " some examples " etc. means to combine this embodiment or example describes specific features, structure, material or spy Point is contained at least one embodiment of the present utility model or example.In this manual, the schematic table to above-mentioned term State and be necessarily directed to identical embodiment or example.And, the specific features of description, structure, material or feature are permissible One or more embodiment in office or example combine in an appropriate manner.Additionally, in the case of the most conflicting, this area Technical staff the feature of the different embodiments described in this specification or example and different embodiment or example can be entered Row combines and combination.

Although above it has been shown and described that embodiment of the present utility model, it is to be understood that above-described embodiment is Exemplary, it is impossible to it is interpreted as that those of ordinary skill in the art is in scope of the present utility model to restriction of the present utility model In above-described embodiment can be changed, revise, replace and modification.

Claims (12)

1. the toy of an anti-hired roughneck, it is characterised in that including:

Fixing seat；

Flip piece, one end of described flip piece is provided with the pivotal axis coordinated with described fixing seat, and described pivotal axis has eccentric part, Described flip piece around described pivotal axis between latched position and off-position rotatable；

Actuator, described actuator is located on described fixing seat, and described actuator can drive described flip piece around described pivotal axis Rotate with first direction；

Positioning component, described positioning component is located on described fixing seat, when described flip piece is with opposite to the first direction During second direction upset, described positioning component contacts with described eccentric part to stop described flip piece in the effect of described actuator Lower generation resilience.

The toy of anti-hired roughneck the most according to claim 1, it is characterised in that described positioning component includes:

First keeper, described first keeper reciprocable in the horizontal direction, and described flip piece is with described second party Often contact with described eccentric part to rotating described first keeper in the range of the first predetermined angular；

For the second keeper that described first keeper is positioned.

The toy of anti-hired roughneck the most according to claim 2, it is characterised in that described first keeper includes base, described Being formed with groove on base, described second keeper arranges adjacent to described groove and may move in the vertical direction, turns over described Turn the second keeper described in when part rotates the second predetermined angular with described second direction to move in described groove with to described Positioning piece positions, and wherein said second predetermined angular is less than described first predetermined angular.

The toy of anti-hired roughneck the most according to claim 3, it is characterised in that described positioning component also includes for accommodating Stating the accommodating cylinder of the second keeper, described accommodating cylinder is located on described fixing seat and opening is towards described groove, and described second is fixed Position part can be up and down in the space that described accommodating cylinder and described groove limit.

The toy of anti-hired roughneck the most according to claim 4, it is characterised in that when described toy is inverted, described second is fixed Position part fall on described base, described flip piece with described second direction rotate described second predetermined angular time described in second One end of keeper is contained in described groove and the other end of described second keeper is contained in described accommodating cylinder, when described When toy is just put, in described second keeper falls to described accommodating cylinder and described in described one end disengaging of described second keeper Groove.

The toy of anti-hired roughneck the most according to claim 4, it is characterised in that described flip piece is provided with for dodging described The resigning hole of accommodating cylinder, when described flip piece is positioned at described latched position, described accommodating cylinder is contained in described resigning hole.

The toy of anti-hired roughneck the most according to claim 3, it is characterised in that be formed on the lower surface of described base downwards First protruded is protruding, and described flip piece rotates in the range of described first predetermined angular described first convex with described second direction Rise and often contact with described eccentric part.

The toy of anti-hired roughneck the most according to claim 7, it is characterised in that the floor projection of described first projection is U-shaped And the diapire of described first projection is towards described eccentric part.

The toy of anti-hired roughneck the most according to claim 2, it is characterised in that described eccentric part is for being formed at described pivotal axis Outer peripheral face on second protruding, described second protruding and described first keeper face contacts.

The toy of anti-hired roughneck the most according to claim 9, it is characterised in that the surface of described second projection includes multiple The plane being connected with each other.

The toy of 11. anti-hired roughnecks according to claim 2, it is characterised in that described positioning component also includes spring, described Spring is located on described fixing seat, and described spring and described eccentric part lay respectively at the opposite sides of described first keeper, institute Stating spring to offset with described first keeper, described spring is in normal compressive state to drive described first keeper in level side Move up.

12. according to the toy of the anti-hired roughneck according to any one of claim 2-11, it is characterised in that also include setting movably In the first trigger member of described fixing seat, described flip piece coordinates described flip piece is positioned at institute with described first trigger member Stating latched position, the first trigger member described in when described first trigger member is triggered and described flip piece depart from and coordinate, described in drive Moving part drives described flip piece along the upset of described first direction and to have an effect to drive described toy to overturn with supporting surface,

Described toy also includes variant part and the second trigger member, and described variant part is located on described fixing seat, and described variant part has Having the first form and the second form, described second trigger member coordinates with described variant part described variant part is positioned at described One form, the second trigger member described in during the upset of described flip piece is triggered to depart from described variant part, and described variant part is by institute Stating the first Morphological Transitions is described second form, and described first keeper constitutes described second trigger member.