CN207822515U - Overturn meccano - Google Patents

Abstract

The utility model discloses a kind of overturning meccano, overturning meccano includes：First toy body, first toy body is equipped with the first trigger member, grafting position and functor, and the first trigger member is movably arranged on the first toy body, and grafting position is fixed on the first toy body, functor is matched with the first trigger member, and functor can trigger the second toy body and execute corresponding function；Second toy body, the second toy body are equipped with the second trigger member and plug connector, and the second trigger member is movably arranged on the second toy body, and plug connector is rotatably arranged on the second toy body；When plug connector plugs cooperation with grafting position, the second toy body and the first toy body link into an integrated entity and are in juxtaposition；When the second trigger member is triggered, it is in overlaying state that the second toy body, which is overturn with respect to plug connector to the first toy body upper end,；When the first trigger member is triggered, drives functor to trigger the second toy body and execute corresponding function.The overturning meccano of the utility model, playing method are novel, interesting strong.

Description

Overturn meccano

Technical field

The utility model is related to toy arts, more particularly, to a kind of overturning meccano.

Background technology

The moulding of toy, style, function are also more and more, wherein turnover toy is liked by many children, But turnover toy in the related technology can only realize that turn over function, playing method be not single, interesting strong.

Utility model content

The utility model is intended to solve at least some of the technical problems in related technologies.For this purpose, this reality With a kind of overturning meccano of novel proposition, the overturning meccano playing method is novel, interest is strong.

According to the overturning meccano of the utility model embodiment, including：First toy body, first toy body are equipped with First trigger member, grafting position and functor, first trigger member are movably arranged on first toy body, the grafting Position is fixed on first toy body, and the functor is matched with first trigger member, and the functor can trigger institute It states the second toy body and executes corresponding function；Second toy body, second toy body are equipped with the second trigger member and plug connector, institute It states the second trigger member to be movably arranged on second toy body, the plug connector is rotatably arranged in second toy body On；When the plug connector plugs cooperation with the grafting position, second toy body connects into one with first toy body Body and be in juxtaposition；When second trigger member is triggered, the relatively described plug connector of the second toy body is overturn to institute The upper end for stating the first toy body is in overlaying state；When first trigger member is triggered, drive described in the functor triggering Second toy body executes corresponding function.

According to the overturning meccano of the utility model embodiment, the second toy body overturn on the first toy body it Afterwards, the second toy body can also be triggered again executes corresponding function, and sense of movement is strong, and playing method is novel, interesting strong.

In addition, can also have following additional technical feature according to the overturning meccano of the utility model embodiment：

One embodiment according to the present utility model, the functor are to deform trigger member, phase on second toy body It should be equipped with the second expansion module, when first trigger member is triggered, the deformation trigger member is driven and makes second exhibition Open component expansion.

One embodiment according to the present utility model, the functor are ejection part, and the ejection part is set to described the On one toy body or in the grafting position, when first trigger member is triggered, the ejection part is driven and by described second Toy body bounces off first toy body.

Optionally, the ejection part includes lock-connecting piece and elastic component, and the lock-connecting piece is movably arranged at described first and plays Particularly, one end of the lock-connecting piece coordinates with first trigger member, and the other end of the lock-connecting piece stretches into the grafting position Interior, the elastic component is set in the grafting position, when the plug connector plugs cooperation with the grafting position, the elastic component Flexible deformation and accumulation of energy, and the plug connector and lock-connecting piece cooperation to be so that the plug connector to be locked in the grafting position, When first trigger member is triggered, the lock-connecting piece be driven and activity so that the plug connector and the lock-connecting piece point From the plug connector is unlocked and under the driving of the elastic component so that second toy body bounces off first toy Body.

Optionally, the lock-connecting piece is rotatably arranged on first toy body, and first trigger member has inclined-plane Portion, the inclined plane part are abutted with the lock-connecting piece, and when first trigger member is triggered, the inclined plane part drives the interlocking Part rotates and the lock-connecting piece and the plug connector is made to detach.

One embodiment according to the present utility model, the plug connector include：Articulated section, the articulated section and described second Toy body is pivotally connected；Torsional spring, the torsional spring are set between the articulated section and second toy body；Plug division, it is described to insert Socket part is set to the side of the articulated section, and the plug division is suitable for mating with the grafting position；Sticking department, the sticking department The other side set on the articulated section, second trigger member is equipped with the lock-joining part coordinated with the sticking department, when the lock When determining portion and the lock-joining part and coordinating, second toy body be locked in the juxtaposition and the torsional spring flexible deformation and Accumulation of energy, when second trigger member is triggered, described in the lock-joining part and the lock part are released from, the torsional spring and can be driven Second toy body is overturn to the overlaying state.

One embodiment according to the present utility model, second toy body are equipped with the second flip piece, second overturning Part and second toy body are pivotally connected, in the juxtaposition described in the second flip piece be located at the position opposite with supporting surface, And second flip piece can be matched with second trigger member so that second flip piece is in the lock state, when described When second trigger member is triggered, second flip piece is detached with second trigger member, so that second flip piece rotates And the second toy body aerial is driven to go to the overlaying state.

One embodiment according to the present utility model, the plug connector and second toy body are detachable by plug socket It is connected, the plug socket is pivotly set on second toy body, one of the plug socket and the plug connector Be equipped with inserting column and another equipped with the inserting groove that is adapted to the inserting column, and the plug connector and the plug socket One of them is equipped with identification clasp and another is equipped with identification catching groove.

One embodiment according to the present utility model, first toy body are equipped with the first flip piece, first overturning Part is pivotally connected with first toy body, and first flip piece is located at the position opposite with supporting surface, and first flip piece It can coordinate so that first flip piece is in the lock state, when first trigger member is triggered with first trigger member When, first trigger member is detached with first flip piece, so that first flip piece is unlocked and rotates to drive It states the first toy body and empties overturning.

Optionally, first toy body is equipped with deferred mount, and the deferred mount coordinates with first flip piece, with First flip piece is set to postpone overturning after first trigger member is triggered.

Optionally, the deferred mount includes：Damping gear, the damping gear are rotatably arranged in first toy On body；Linkage board, the linkage board are movably disposed between the first position and the second position on first toy body, institute It states linkage board and is equipped with tooth-strip part, the damping gear and tooth-strip part engagement；Snap close piece, the snap close piece are movably set It is connected on first toy body and with the linkage board, the snap close piece can coordinate with first flip piece with by institute State the locking of the first flip piece；The both ends of delayed elasticity part, the delayed elasticity part are connected to first toy body and institute respectively Linkage board is stated, the linkage board is after first trigger member is triggered by described first under the driving of the delayed elasticity part It is positioned against the second position movement, when the linkage board is located at the first position, the snap close piece and described first Flip piece coordinates and the delayed elasticity part flexible deformation and energy storage, described when the linkage board is located at the second position Snap close piece is detached with first flip piece to unlock first flip piece.

Optionally, first toy body includes the first fixing piece and the first expansion module, first fixing piece Front end is formed with the open receiving position in top to accommodate second toy body in the overlaying state, and the grafting position includes Two and be respectively arranged on it is described accommodate position both sides, first expansion module can take down the exhibits be set to first fixing piece after End, first flip piece are set to the bottom of first fixing piece, and first trigger member is movably arranged at described first On the front side of fixing piece, first flip piece will trigger the first expansion module expansion when overturning.

Optionally, second toy body includes third flip piece and third trigger member, and the third trigger member can live It is set on second toy body dynamicly, the third flip piece is pivotally connected with second toy body, and the third flip piece It can coordinate so that the third flip piece is in the lock state with the third trigger member, be ejected in second toy body Afterwards, the third flip piece is located at the position opposite with supporting surface, and after second toy body pop-up and the third triggers The third flip piece is detached with the third trigger member when part is triggered so that the third flip piece be unlocked and rotate with Second toy body is driven to empty overturning.

Optionally, second toy body further includes the second expansion module, and second expansion module is set in which can take down the exhibits On second toy body, the third flip piece will trigger the second expansion module expansion when overturning.

The additional aspect and advantage of the utility model will be set forth in part in the description, partly will be from following description In become apparent, or recognized by the practice of the utility model.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the utility model will in the description from combination following accompanying drawings to embodiment Become apparent and is readily appreciated that, wherein：

Fig. 1 is the structural schematic diagram in juxtaposition according to the overturning meccano of the utility model embodiment；

Fig. 2 is the structural schematic diagram in overlaying state according to the overturning meccano of the utility model embodiment；

Fig. 3 is the overturning meccano according to the utility model embodiment when the second toy body bounces off the first toy body Structural schematic diagram；

Fig. 4 be the first toy body is bounced off in the second toy body according to the overturning meccano of the utility model embodiment, and Structural schematic diagram when first expansion module and the second expansion module are unfolded；

Fig. 5 is the structural schematic diagram according to first toy body of the utility model embodiment；

Fig. 6 is the part-structure schematic diagram according to first toy body of the utility model embodiment；

Fig. 7 is the explosive view in juxtaposition according to the overturning meccano of the utility model embodiment；

Fig. 8 is according to the structural schematic diagram of first toy body of the utility model embodiment, wherein the first trigger member is touched Hair；

Fig. 9 is the structural schematic diagram of another angle of structure shown in Fig. 8；

Figure 10 is the part-structure schematic diagram of structure shown in Fig. 9；

Figure 11 is according to the part-structure schematic diagram of first toy body of the utility model embodiment, wherein the first expansion group Part is not deployed；

Figure 12 is according to the structural schematic diagram of first toy body of the utility model embodiment, wherein the first expansion module exhibition It opens；

Figure 13 is the structural schematic diagram of another angle of structure shown in Figure 12；

Figure 14 is the structural schematic diagram according to second toy body of the utility model embodiment；

Figure 15 is the part-structure schematic diagram of structure shown in Figure 14；

Figure 16 is the part-structure schematic diagram of structure shown in Figure 15；

Figure 17 is the explosive view according to second toy body of the utility model embodiment；

Figure 18 is the part-structure schematic diagram according to second toy body of the utility model embodiment；

Figure 19 is according to the part-structure schematic diagram of second toy body of the utility model embodiment, wherein the second trigger member It is not triggered；

Figure 20 is the schematic diagram of another angle of structure shown in Figure 19；

Figure 21 is the structural schematic diagram according to second trigger member of the utility model embodiment.

Reference numeral：

Toy 100；

First toy body 10；

First fixing piece 11；First vehicle frame 111；Accommodate position 1111；First clamping position 1112；Latch fitting 1113；

First wheel 112；

First trigger member 12；Impeller 121；First is triggered end 1211；Second is triggered end 1212；Inclined plane part 1213；

Lock piece 122；First latch portion 1221；

Grafting position 13；Insert port 131；Stop part 132；

Functor 14；Lock-connecting piece 141；Elastic component 142；

First flip piece 15；First lock position 151；Second lock position 152；Shifting block 153；

Deferred mount 16；Damping gear 161；

Linkage board 162；Tooth-strip part 1621；Extension rod 1622；

Snap close piece 163；Second latch portion 1631；

Movable part 17；Lock clasp 171；Return springs 18；

First expansion module 19；Moulding head 191；Lock button hole 1911；Push away foot 1912；

Gun barrel 192；Latch hook 1921；

Second toy body 20；

Second fixing piece 21；Second vehicle frame 211；Second clamping position 2111；Position 2112 is clamped in third；Pivotal axis 2113；

Second wheel 212；

Second trigger member 22；First movement part 221；

Second moving member 222；Lock-joining part 2221；

Third moving member 223；Joint portion 2231；

Second elastic component 224；

Plug socket 23；Inserting column 231；Pivoting hole 2311；Fixing piece 2312；

Identify catching groove 232；Catching groove portion 2321；First boss portion 2322；Second boss portion 2323；

Plug connector 24；Articulated section 241；Inserting groove 2411；

Identify clasp 2412；Hook part 24121；Third boss portion 24122；4th boss portion 24123；

Torsional spring 242；

Plug division 243；Lock slots 2431；Stopper section 2432；

Sticking department 244；

Second flip piece 25；Clamping portion 251；Third flip piece 26；Third trigger member 27；Second expansion module 28；

Toy coin 30.

Specific implementation mode

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model Limitation.

In the description of the present invention, it should be understood that term "upper", "lower", "front", "rear", "left", "right", The orientation of the instructions such as "vertical", "horizontal", "top", "bottom" "inner", "outside", " clockwise ", " counterclockwise ", " axial direction ", " circumferential direction " Or position relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model and simplification is retouched It states, does not indicate or imply the indicated device or element must have a particular orientation, with specific azimuth configuration and operation, Therefore it should not be understood as limiting the present invention.The meaning of " plurality " is two or two in the description of the present invention, More than a, unless otherwise specifically defined.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, can also be electrical connection；Can be directly connected, can also indirectly connected through an intermediary, It can be the interaction relationship of the connection or two elements inside two elements.For those of ordinary skill in the art and Speech, can understand the concrete meaning of above-mentioned term in the present invention as the case may be.

Below with reference to Fig. 1-Figure 21 descriptions according to the overturning meccano 100 of the utility model embodiment.

As shown in Fig. 1-Figure 21, include according to the overturning meccano 100 of the utility model embodiment：First toy body 10 With the second toy body 20.

First toy body 10 is equipped with the first trigger member 12, grafting position 13 and functor 14, and first trigger member 12 can live It is set on first toy body 10 dynamicly, the grafting position 13 is fixed on first toy body 10, the functor 14 It being matched with first trigger member 12, the functor 14 can trigger second toy body 20 and execute corresponding function, the Two toy bodies 20 are equipped with the second trigger member 22 and plug connector 24, and second trigger member 22 is movably arranged at second toy On body 20, the plug connector 24 is rotatably arranged on second toy body 20.

When the plug connector 24 plugs cooperation with the grafting position 13, second toy body 20 and first toy Body 10 links into an integrated entity and is in juxtaposition (as shown in fig. 1), and when second trigger member 22 is triggered, described second plays The specific 20 relatively described overturning of plug connector 24 to the upper ends of first toy body 10 are in overlaying state (as shown in Figure 2), when When first trigger member 12 is triggered, drives the functor 14 to trigger second toy body 20 and execute corresponding function.

Specifically, when player plays the toy 100, the plug connector 24 of the second toy body 20 is plugged in the first object for appreciation first In specific 10 grafting position 13 so that the second toy body 20 and the first toy body 10 link into an integrated entity (as shown in fig. 1), then The second trigger member 22 is triggered, the relatively described overturning of plug connector 24 of the second toy body 20 is to the upper end of first toy body 10 in folded Add state (as shown in Figure 2), then trigger the first trigger member 12 again, second toy body 20, which is triggered, executes corresponding work( Energy.

According to the overturning meccano 100 of the utility model embodiment, in the second toy body 20 overturning to the first toy body After on 10, the second toy body 20 can also be triggered again executes corresponding function, and sense of movement is strong, and playing method is novel, interesting strong.

In one embodiment of the utility model, the functor 14 is deformation trigger member (not shown), described the The second expansion module 28 is correspondingly provided on two toy bodies 20, when first trigger member 12 is triggered, the deformation trigger member quilt It drives and second expansion module 28 is made to be unfolded.I.e. after the second toy body 20 is overturn to the first toy body 10, first When trigger member 12 is triggered, the second expansion module 28 expansion on the second toy body 20, the second toy body 20 is in the first toy body It deforms on 10, another form is presented in toy 100.That is, the second toy body 20 may be used also after executing rotary movement To execute deformed movement on the first toy body 10, the interest of toy 100 is strong.

In one embodiment of the utility model, as shown in figs. 6-8, the functor 14 is ejection part, described Ejection part is set on first toy body 10 or in the grafting position 13, described when first trigger member 12 is triggered Ejection part is driven and second toy body 20 is bounced off first toy body 10 (as shown in Figure 3).Played second After specific 20 execute rotary movement, projectile motion can also be performed, the interest of toy 100 is strong.

Further, as shown in figs. 6-8, the ejection part includes lock-connecting piece 141 and elastic component 142, the interlocking Part 141 is movably arranged on first toy body 10, and one end of the lock-connecting piece 141 is (under as shown in figs. 6-8 End) coordinate with first trigger member 12, the other end (upper end as shown in figs. 6-8) of the lock-connecting piece 141 stretches into institute It states in grafting position 13, the elastic component 142 is set in the grafting position 13, when the plug connector 24 and 13 phase of grafting position are inserted When connecing cooperation, the plug connector 24 and the cooperation of the lock-connecting piece 141 are the plug connector 24 to be locked in the grafting position 13 And 142 flexible deformation of elastic component and accumulation of energy, when first trigger member 12 is triggered, the lock-connecting piece 141 is driven And activity is so that the plug connector 24 and the separation of the lock-connecting piece 141, the plug connector 24 are unlocked and in the elastic components 142 Driving under so that second toy body 20 bounce off first toy body 10, i.e., after plug connector 24 is unlocked, elastic component 142 Releasing can be to drive the pop-up of the second toy body 20.

Further, as shown in Figure 7, lock slots 2431 are formed on plug connector 24, lock-connecting piece 141 stretches into grafting position One end (upper end as shown in Figure 7) cooperation in 13 is interior lock-connecting piece 141 to be locked in grafting position 13 in lock slots 2431, When triggering 141 activity of lock-connecting piece of the first trigger member 12, lock-connecting piece 141 is detached with lock slots 2431, and plug connector 24 is unlocked.

Further, as shown in Figure 7, it is formed with stopper section 2432 on plug connector 24, annular is equipped in grafting position 13 Stop part 132, elastic component 142 is located in grafting position 13 and one end (rear end as shown in Figure 7) is abutted with stop part 132, When plug connector 24 and grafting position 13 are mating, one end equipped with the lock slots 2431 of plug connector 24 passes through elastic component 142 and stop part 132 to coordinate with lock-connecting piece 141, the other end of the stopper section 2432 on plug connector 24 and elastic component 142 is (such as Front end shown in fig. 7) it abuts, 142 accumulation of energy by compression of elastic component.Optionally, stopper section 2432 is to be formed in plug connector 24 Convex ribs on periphery wall, and stopper section 2432 may include the multiple of the circumferentially-spaced distribution along plug connector 24, such as institute in 7 Show, the periphery wall of plug connector 24 is equipped with two convex ribs being oppositely arranged.

In an optional example of the utility model, as shown in Figure 6, the lock-connecting piece 141 is rotatably arranged in institute It states on the first toy body 10, first trigger member 12 has inclined plane part 1213, the inclined plane part 1213 and the lock-connecting piece 141 It abuts, when first trigger member 12 is triggered, the inclined plane part 1213 drives the lock-connecting piece 141 to rotate and make the lock Fitting 141 and the plug connector 24 detach.It pushes lock-connecting piece 141 to rotate by the first trigger member 12, and then realizes plug connector 24 Unlock, unlocking mechanism is simple and releasing process is reliable and stable.

In one embodiment of the utility model, as shown in Fig. 7 and Figure 14-Figure 20, plug connector 24 includes articulated section 241, torsional spring 242, plug division 243 and sticking department 244, the articulated section 241 is pivotally connected with second toy body 20, described Torsional spring 242 is set between the articulated section 241 and second toy body 20, and plug division 243 is set to the one of the articulated section 241 Side (front side as shown in Figure 14-Figure 20), the plug division 243 is suitable for mating, the locking with the grafting position 13 Portion 244 is set to the other side (rear side as shown in Figure 14-Figure 20) of the articulated section 241, is set in second trigger member 22 There is the lock-joining part 2221 coordinated with the sticking department 244, it is described when the sticking department 244 and the cooperation of the lock-joining part 2221 Second toy body 20 is locked in the juxtaposition and 242 flexible deformation of the torsional spring and accumulation of energy, when second trigger member 22 when being triggered, and the lock-joining part 2221 and the sticking department 244 detach, and the torsional spring 242, which is released, can drive second toy Body 20 is overturn to the overlaying state, and the switching mechanism of the second toy body 20 is simple.Optionally, as shown in Figure 14-Figure 20, lock Socket part 2221 is formed as projection cube structure, and sticking department 244 is formed as hook structure.

In one embodiment of the utility model, as shown in Figure 14-Figure 20, second toy body 20 is equipped with second Flip piece 25, second flip piece 25 and second toy body 20 are pivotally connected, in the juxtaposition described in the second overturning Part 25 is located at the position opposite with supporting surface, and second flip piece 25 can be matched with second trigger member 22 so that institute The second flip piece 25 is stated to be in the lock state, when second trigger member 22 is triggered, second flip piece 25 with it is described Second trigger member 22 detaches, so that second flip piece 25 rotates and to drive 20 aerial of the second toy body to go to described Overlaying state.

Specifically, as shown in Figure 19-Figure 20, the second flip piece 25 is equipped with clamping portion 251, is set in the second trigger member 22 There is the joint portion 2231 coordinated with the clamping portion 251, clamping portion 251 and the cooperation of joint portion 2231 are to lock the second flip piece 25 Fixed, when the second trigger member 22 is triggered, clamping portion 251 and the separation of joint portion 2231 are to unlock second flip piece 25.

In one embodiment of the utility model, as shown in Figure 14-Figure 18, the plug connector 24 and described second is played Specific 20 are detachably connected by plug socket 23, and the plug socket 23 is pivotly set on second toy body 20, described One of plug socket 23 and the plug connector 24 are equipped with inserting column 231 and another is equipped with and the inserting column 231 The inserting groove 2411 of adaptation, i.e., in some examples, as shown in Figure 14-Figure 18, plug socket 23 is equipped with the inserting column 231, Plug connector 24 is equipped with inserting groove 2411；In some instances, plug socket 23 is equipped with the inserting groove 2411, on plug connector 24 Equipped with the inserting column 231.By cooperation between inserting column 231 and inserting groove 2411 realize plug connector 24 and plug socket 23 it Between it is detachable be connected, and then realize being detachably connected between plug connector 24 and the second toy body 20.

Specifically, as in the example shown in Figure 17, the second toy body 20 is equipped with pivotal axis 2113, is set on plug socket 23 Have a pivoting hole 2311, plug socket 23 by being sleeved on 2113 outside of pivotal axis outside pivoting hole 2311, and by fixing piece 2312 (such as Screw etc.) plug socket 23 is fixed on pivotal axis 2113.When installing plug connector 24, by making inserting column 231 and inserting groove 2411 positions are corresponding, then press or push plug connector 24 so that inserting column 231 is inserted into inserting groove 2411, you can realize and insert Pivot joint between fitting 24 and the second toy body 20, when dismantling plug connector 24, by stirring plug connector 24 outward so that insert It connects column 231 and inserting groove 2411 detaches, you can realize the dismounting of plug connector 24.So that the disassembling operations side of plug connector 24 Just.

Further, one of the plug connector 24 and the plug socket 23 are equipped with identification clasp 2412 and another A to be equipped with identification catching groove 232, i.e., in some instances, as shown in Figure 14-Figure 18, plug connector 24 is detained equipped with the identification Hook 2412, plug socket 23 are equipped with the identification catching groove 232；In some instances, plug connector 24 is equipped with the identification catching groove 232, plug socket 23 is equipped with the identification clasp 2412.The identification clasp 2412 and the identification catching groove 232 are when mounted Mark action is played, to facilitate the installation direction for judging plug connector 24, improves installation effectiveness.In addition, passing through the identification clasp Cooperation between 2412 and the identification catching groove 232 makes the connection between plug connector 24 and plug socket 23 more stablize, is reliable, It will not relatively rotate between plug connector 24 and plug socket 23.

Specifically, as shown in Figure 14-Figure 18, the identification catching groove 232 is including catching groove portion 2321 and is set to catching groove portion The first boss portion 2322 and second boss portion 2323 of 2321 both sides, the identification clasp 2412 include hook part 24121 and set Third boss portion 24122 and the 4th boss portion 24123 in 24121 both sides of the hook part, hook part 24121 coordinate in catching groove In portion 2321, and third boss portion 24122 coordinates with first boss portion 2322, the 4th boss portion 24123 and second boss portion 2323 cooperations.

Further, the first boss portion 2322 and the end face in the second boss portion 2323 be not concordant, it is possible to understand that Ground, the third boss portion 24122 and the 4th boss portion 24123 being respectively cooperating with first boss portion 2322 and second boss portion 2323 End face it is also not concordant, such as in the example shown in Figure 14-Figure 18, the upper surface in first boss portion 2322 is higher than second boss The upper surface in portion 2323, the lower face of third boss portion 24122 are higher than the lower face of the 4th boss portion 24123,24 He of plug connector When plug socket 23 coordinates, the lower face of third boss portion 24122 is connected on the upper surface in first boss portion 2322, the 4th boss The lower face in portion 24123 is connected on the upper surface in second boss portion 2323.By making first boss portion 2322 and second boss The end face in portion 2323 is not concordant, and the face height in first boss portion 2322 and second boss portion 2323 plays mark action, is pacifying When dress, facilitates the installation position for judging plug connector 24, thus improve installation effectiveness.

In one embodiment of the utility model, as shown in Fig. 9-Figure 10, first toy body 10 is equipped with first Flip piece 15, first flip piece 15 are pivotally connected with first toy body 10, and first flip piece 15 is located at and supporting surface Opposite position, and first flip piece 15 can coordinate with first trigger member 12 so that first flip piece 15 is in Lock-out state, when first trigger member 12 is triggered, first trigger member 12 is detached with first flip piece 15, with First flip piece 15 is set to be unlocked and rotate to drive first toy body 10 to empty overturning.Thus in the first trigger member 12 when being triggered, and not only the second toy body 20 executes corresponding function, while the first toy body 10 executes rotary movement, toy 100 sense of movement is strong, more interesting.

Specifically, as shown in Fig. 9-Figure 10, the first flip piece 15 is equipped with the first lock position 151, the first trigger member 12 It is equipped with the first latch portion 1221, when the first latch portion 1221 and first lock position 151 coordinates, the first flip piece 15 is locked Fixed, when the first latch portion 1221 and first lock position 151 detaches, the first flip piece 15 is unlocked.Optionally, such as Fig. 9-Figure 10 Shown in, the first lock position 151 can be formed completely through the through-hole structure of 15 thickness of the first flip piece, the first latch portion 1221 can be formed as hook structure.

Further, as shown in Fig. 6 and Fig. 8-Fig. 9, first toy body 10 is equipped with deferred mount 16, the delay Device 16 coordinates with first flip piece 15, so that first flip piece 15 prolongs after first trigger member 12 is triggered Overturning late.That is, after the first trigger member 12 is triggered, the first trigger member 12 is detached with the first flip piece 15, and first touches When outbox 12 is released from the locking effect of the first flip piece 15, the first flip piece 15 still coordinates with deferred mount 16 at this time, the One flip piece 15 is delayed by the constraint of device 16, prevents it from being overturn immediately when the first trigger member 12 is triggered, so that the Two toy bodies 20 by the triggering of the first trigger member 12 after executing corresponding function, delay a period of time, 15 ability quilt of the first flip piece It unlocks and the first toy body 10 is made to make rotary movement, so that 100 playing method of toy is novel, it is interesting strong.

Further, as shown in Fig. 6 and Fig. 8-Fig. 9, deferred mount 16 includes damping gear 161, linkage board 162, lock Fastener 163 and delayed elasticity part (not shown), the damping gear 161 are rotatably arranged on first toy body 10, The linkage board 162 is movably disposed between the first position and the second position on first toy body 10, the linkage Plate 162 is equipped with tooth-strip part 1621, and the damping gear 161 and the tooth-strip part 1621 engage, and the snap close piece 163 is movable Ground is set on first toy body 10 and is connected with the linkage board 162, i.e., will drive lock when linkage board 162 moves Fastener 163 moves, and the snap close piece 163 can coordinate with first flip piece 15 to lock first flip piece 15, institute The both ends for stating delayed elasticity part are connected to first toy body 10 and the linkage board 162 respectively, and the linkage board 162 is in institute It states after the first trigger member 12 is triggered under the driving of the delayed elasticity part by the first position towards the second position It is mobile, when the linkage board 162 is located at the first position, the snap close piece 163 and first flip piece 15 cooperation and The delayed elasticity part flexible deformation and energy storage, when the linkage board 162 is located at the second position, the snap close piece 163 It is detached with first flip piece 15 to unlock first flip piece 15.

I.e. when the first trigger member 12 is not triggered, linkage board 162 is locked in first position, at this time delayed elasticity part quilt Compression and accumulation of energy, and the cooperation of snap close piece 163 and the first flip piece 15, i.e., at this time the first flip piece 15 not only by the first trigger member 12 Locking, while it being snapped the locking of part 163, the first flip piece 15 is by double locking；When the first trigger member 12 is triggered, first touches Outbox 12 is detached with the first flip piece 15, i.e., the first trigger member 12 is released from the locking of the first flip piece 15, but at this time first Also in adapting device, the first flip piece 15 cannot be when the first trigger member 12 be triggered immediately for flip piece 15 and snap close piece 163 Overturning；After the first trigger member 12 is triggered, linkage board 162 is unlocked, and delayed elasticity part is released can be to drive linkage board 162 by One is positioned against second position movement, and due to being intermeshed between linkage board 162 and damping gear 161, linkage board 162 will be by the One, which is positioned against the second position, slowly moves, and snap close piece 163 is connected with linkage board 162, the snap close piece when linkage board 162 moves 163 also with moving with it, and before linkage board 162 is moved to the second position, snap close piece 163 is in always with the first flip piece 15 Mated condition, when linkage board 162 moves to the second position, snap close piece 163 is detached with the first flip piece 15, i.e., delay fills at this time The locking for setting 16 pair of first flip piece 15 is also released from, and the first flip piece 15 rotates and the first toy body 10 is driven to empty overturning.

As shown in Fig. 9-Figure 10, the first flip piece 15 is equipped with the second lock position 152, and snap close piece 163 is equipped with and second The second latch portion 1631 that position 152 coordinates is latched, when the cooperation of the second latch portion 1631 is in the second lock position 152, first turns over Turn part 15 and be snapped the locking of part 163, when the second latch portion 1631 is detached with the second lock position 152, snap close piece 163 is turned over to first The locking for turning part 15 is released from.Optionally, the second latch portion 1631 can be formed as hook structure, and the second lock position 152 is formed To penetrate through the through-hole structure of 15 thickness of the first flip piece.

Preferably, as shown in Fig. 9-Figure 10, the first lock position 151 and second latches position 152 and is all formed as through-hole structure, And first lock position 151 and second latch position 152 adjoin setting and communicate with each other, at this time first lock position 151 and second latch Position 152 can be integrally formed, it is possible thereby to simplify manufacturing process.Certainly, the application is not limited to this, the first lock 151 He of position Second lock position 152 can also be spaced setting (not shown).

Optionally, linkage board 162 can pass through the first trigger member 12, the locking piece being connected with the first trigger member 12 (figure Be not shown) or the second toy body 20 etc. linkage board 162 is locked in first position.

For example, in the example shown in Fig. 1-Figure 21, linkage board 162 with the plug connector 24 of the second toy body 20 by coordinating To lock it in first position.Specifically, as Figure 6-Figure 8, linkage board 162 includes extension rod 1622, extension rod 1622 One end (upper end as shown in figs. 6-8) stretch into grafting position 13, when 24 inserting of plug connector is in grafting position 13, grafting Part 24 abuts with extension rod 1622 and linkage board 162 is pushed to move backward so that linkage board 162 is locked in above-mentioned first position, when When first trigger member 12 is triggered, the first trigger member 12 drives functor 14 to trigger the second toy body 20 and bounces off the first toy body 10, by deviating from grafting position 13, plug connector 24 detaches plug connector 24 with extension rod 1622, so that linkage board 162 is unlocked, Linkage board 162 is moved by first position towards the second position under the driving of delayed elasticity part.

In one embodiment of the utility model, as shown in Fig. 5-Figure 13, first toy body 10 includes first Fixing piece 11 and the first expansion module 19, the front end of first fixing piece 11 be formed with the open receiving position in top 1111 with Second toy body 20 is accommodated when the overlaying state, the grafting position 13 includes two and is respectively arranged on the receiving position 1111 both sides (left and right sides as shown in Fig. 5-Figure 13), it is solid that first expansion module 19 is set to described first with can taking down the exhibits Determine the rear end of part 11, first flip piece 15 is set to the bottom of first fixing piece 11, and first trigger member 12 can live It is set on the front side of first fixing piece 11 dynamicly, first flip piece 15 will trigger first expansion module when overturning Thus 19 expansion improve the entertaining of toy 100 so that the first toy body 10 can also deform in switching process Property.

In one embodiment of the utility model, as shown in Figure 14-Figure 16, second toy body 20 includes Three flip pieces 26 and third trigger member 27, the third trigger member 27 is movably arranged on second toy body 20, described Third flip piece 26 is pivotally connected with second toy body 20, and the third flip piece 26 can coordinate with the third trigger member 27 So that the third flip piece 26 is in the lock state, and after second toy body 20 is ejected, the third flip piece 26 Positioned at the position opposite with supporting surface, after second toy body 20 pop-up and when the third trigger member 27 is triggered described in Third flip piece 26 is detached with the third trigger member 27, so that the third flip piece 26 is unlocked and rotates with described in drive Second toy body 20 empties overturning, so that after the second toy body 20 bounces off the first toy body 10, can also rise Somersault turns, and the sense of movement of toy 100 is strong, interesting high.

Further, as shown in Figure 14-Figure 16, second toy body 20 further includes the second expansion module 28, described Second expansion module 28 is set on second toy body 20 in which can take down the exhibits, will be described in triggering when the third flip piece 26 is overturn Second expansion module 28 is unfolded, so that the second toy body 20 can also deform, thus during emptying overturning Further promote the interest of toy 100.

Below with reference to Fig. 1-Figure 21 descriptions according to the overturning meccano 100 of one specific embodiment of the utility model.

It includes the first toy body 10, the second toy body 20 and toy coin 30 to overturn meccano 100, wherein the first toy body 10 and second toy body 20 be toy car.

First toy body 10 includes the first fixing piece 11, the first trigger member 12, grafting position 13, the overturning of functor 14, first Part 15, deferred mount 16, movable part 17, return springs 18 and the first expansion module 19.

Wherein the first fixing piece 11 includes the first vehicle frame 111 and the first wheel 112 on the first vehicle frame 111, described The front end of first vehicle frame 111 is formed with the open receiving position 1111 in top, and the front end of the first fixing piece 11 is recessed inwardly to be formed Spaced apart two first clamping positions 1112 in left-right direction, and it is respectively equipped with the first magnetite in each first clamping position 1112.

First trigger member 12 includes impeller 121, lock piece 122 and the first elastic component (not shown), 121 He of impeller Lock piece 122 is movably disposed in the front end of the first vehicle frame 111 along the longitudinal direction, and impeller 121 and lock piece 122 are connected Dynamic, the left and right ends of 121 front end of impeller are respectively formed first end 1211 and second that is triggered and are triggered end 1212, and first is touched Originator 1211 stretches into the first clamping position 1112 in left side, and second, which is triggered, holds 1212 the first clamping positions 1112 for stretching into right side Interior, first end any of 1212 that is triggered of end 1211 and second that is triggered is triggered (such as clamping positions of left and right two first Any of 1112 are clamped to toy coin 30), it can push impeller 121 to move.By the way that two first clamping positions 1112 are arranged, So that the first trigger member 12 is easier to be triggered.Ground is will be understood, the first clamping position 1112 can only be arranged one, may be used also With setting three, or more.Inclined plane part 1213 is respectively formed at left and right sides of the rear end of impeller 121, lock piece 122 Lower surface is downwardly protrude to form the first latch portion 1221, and the both ends of the first elastic component are connected to lock piece 122 and the first vehicle respectively Frame 111.

Grafting position 13 includes two and is respectively arranged on the left and right sides for accommodating position 1111, and grafting position 13 is along the longitudinal direction Extend and its front end forms insert port 131, the stop part 132 of annular is equipped in grafting position 13.

Functor 14 is ejection part, and functor 14 includes two and is respectively arranged on the left and right sides of the first vehicle frame 111, each Functor 14 includes lock-connecting piece 141 and elastic component 142, and two lock-connecting pieces 141 are rotatably arranged in the first vehicle frame 111 respectively The rear side in the grafting position 13 in left side and positioned at stop part 132, right side lock are stretched into the left and right sides, the upper end of left side lock-connecting piece 141 The upper end of fitting 141 stretch into right side grafting position 13 in and positioned at stop part 132 rear side, the lower end of left side lock-connecting piece 141 with The inclined plane part 1213 in 121 left side of impeller coordinates, the inclined plane part 1213 of the lower end and 121 right side of impeller of right side lock-connecting piece 141 Cooperation, when impeller 121, which is triggered, to be moved backward, the upper end of the driving of the inclined plane part 1213 left side lock-connecting piece 141 in left side is to the left The upper end of rotation, the inclined surface driving right side lock-connecting piece 141 on right side turns right, and elastic component 142 is set in grafting position 13, and bullet The rear end of property part 142 is abutted with stop part 132.

First flip piece 15 is set to the bottom of the first vehicle frame 111, the bottom of the rear end of the first flip piece 15 and the first vehicle frame 111 Wall is pivotally connected, and the front end of the first flip piece 15 is equipped with the first lock position 151 and second and latches position 152, the first lock position 151 and second Lock position 152 is all formed as through-hole structure, and the first lock position 151 and second latch position 152 adjoin along the longitudinal direction setting and It communicates with each other, the cooperation of the first latch portion 1221 is interior to lock the first flip piece 15 in the first lock position 151, the first flip piece 15 It is equipped with shifting block 153 with the articulated section 241 of the first vehicle frame 111 pivot joint.

Deferred mount 16 includes damping gear 161, linkage board 162, snap close piece 163 and delayed elasticity part (not shown), The damping gear 161 is rotatably arranged on the first vehicle frame 111, and linkage board 162 can be between the first position and the second position It is movably disposed on the first vehicle frame 111, specifically, linkage board 162 moves along the longitudinal direction, and linkage board 162 is by first It sets forward movement and is movable to the second position, linkage board 162 is moved backward by the second position is movable to first position, linkage board 162 are equipped with the tooth-strip part 1621 extended along the longitudinal direction, and damping gear 161 is engaged with tooth-strip part 1621, the snap close piece 163 It can movably forward and backward be set on first toy body 10 and be connected with the linkage board 162, specifically, when linkage board 162 Snap close piece 163 also follows its forward movement when forward movement, when linkage board 162 moves backward snap close piece 163 also follow its to After move, the lower surface of snap close piece 163 is downwardly protrude to form the second latch portion 1631, and the cooperation of the second latch portion 1631 is in the second lock To lock the first flip piece 15 in button bit 152, the both ends of delayed elasticity part are connected to linkage board 162 and the first vehicle frame respectively 111.When linkage board 162 is locked in first position, the cooperation of the second latch portion 1631 is in the second lock position 152 with by first Flip piece 15 locks and the accumulation of energy by compression of delayed elasticity part, and when linkage board 162 is unlocked, delayed elasticity part is released can be with driving Linkage board 162 is slowly moved forward by first position, when linkage board 162 is moved to the second place, the second latch portion 1631 It is detached with the second lock position 152 to unlock the first flip piece 15.Linkage board 162 is equipped with the extension rod 1622 upwardly extended, prolongs The rear side in grafting position 13 and positioned at 141 upper end of lock-connecting piece is stretched into the upper end of boom 1622.

Movable part 17 can be set to the rear end of the first vehicle frame 111 movably forward and backward, and the rear end of movable part 17 is equipped with locking clasp 171, the both ends of return springs 18 are abutted with movable part 17 and the first vehicle frame 111 respectively, when the first flip piece 15 is overturn, shifting block 153 will push the forward movement of movable part 17 and 18 accumulation of energy by compression of return springs.

First expansion module 19 is set to the rear end of first vehicle frame 111 in which can take down the exhibits, and the first expansion module 19 includes making Type head 191 and two gun barrels 192, moulding head 191 are rotatably arranged in the upside of 111 rear end of the first vehicle frame, two gun barrels 192 are rotatably arranged in the left and right sides of 111 rear end of the first vehicle frame respectively, are equipped between moulding head 191 and the first vehicle frame 111 Torsional spring is equipped with torsional spring between gun barrel 192 and the first vehicle frame 111.When the first expansion module 19 is in collapse state, such as Fig. 5-figure 6, shown in Fig. 8 and Figure 11, moulding head 191 is fitted in the rear end of the first vehicle frame 111, and two gun barrels 192 are attached at respectively The left and right sides wall of first vehicle frame 111, when the first expansion module 19 be triggered and when being unfolded, as shown in Figure 12-Figure 13, moulding Head 191 is overturn forward, and two gun barrels 192 laterally rotate expansion.Moulding head 191 is equipped with locking button hole 1911 (as schemed Shown in 10), the cooperation of above-mentioned locking clasp 171 is interior moulding head 191 is locked in collapse state in locking button hole 1911, and In the collapse state, the torsional spring between moulding head 191 and the first vehicle frame 111 is in energy accumulating state, when the first flip piece 15 Triggered activity part 17 move forward when, locking clasp 171 and locking button hole 1911 detach, moulding head 191 is unlocked so that its It rotates forward and is unfolded under the effect of itself torsional spring.Gun barrel 192 is equipped with the left and right sides point of latch hook 1921, the first vehicle frame 111 The latch fitting 1113 that She You not can be moved forward and backward, latch hook 1921 and the latch fitting 1113 in left side on left side gun barrel 192 coordinate, right side big gun The latch fitting 1113 on latch hook 1921 and right side on cylinder 192 coordinates, and two gun barrels 192 are locked in collapse state respectively, and When the collapse state, the torsional spring between gun barrel 192 and the first vehicle frame 111 is in energy accumulating state.The left and right sides on moulding head 191 Be respectively equipped with protrude outward push away foot 1912, when rotating forward and being unfolded on moulding head 191, lock will be pushed by pushing away foot 1912 Part 1113 moves forward, so that latch fitting 1113 detaches with latch hook 1921 and unlocks gun barrel 192, gun barrel 192 is acted in itself torsional spring Under be turned out and be unfolded.

Second toy body 20 includes the second fixing piece 21, the second trigger member 22, plug socket 23, the overturning of plug connector 24, second Part 25, third flip piece 26, third trigger member 27 and the second expansion module 28.

Second fixing piece 21 includes the second vehicle frame 211 and the second wheel 212 on the second vehicle frame 211, the second vehicle frame 211 rear end inwardly concaves to form the second clamping position 2111, and the front end of the second vehicle frame 211 inwardly concaves to form third clamping position 2112, the second clamping position 2111 is interior to be equipped with the second magnetite, and third, which is clamped in position 2112, is equipped with third magnetite, the second vehicle frame 211 Front end is respectively arranged on the left side and the right side pivotal axis 2113.

Second trigger member 22 includes first movement part 221, the second moving member 222 and the third moving member that can be moved forward and backward 223 and multiple second elastic components 224, the second moving member 222 and third moving member 223 be arranged side by side in the up-down direction, One moving member 221 is set to the rear end of the second moving member 222 and third moving member 223, and the rear end of first movement part 221, which is formed, is touched Originator, the rear end of first movement part 221 are stretched into the second clamping position 2111, and the front end of first movement part 221 is moved with second respectively The rear end of moving part 222 and third moving member 223 abuts, and the both ends of at least one of multiple second elastic components 224 are respectively with the Two moving members 222 and the second vehicle frame 211 abut, and the both ends of at least one of multiple second elastic components 224 are moved with third respectively Moving part 223 and the second vehicle frame 211 abut, when first movement part 221 be triggered and when being moved to 211 front end of the second vehicle frame, first Moving member 221 will push the second moving member 222 and third moving member 223 to be moved towards 211 front end of the second vehicle frame, and the second elasticity 224 accumulation of energy by compression of part.The lock-joining part 2221 outwardly protruded is respectively formed at left and right sides of the front end of second moving member 222, Third moving member 223 is equipped with joint portion 2231.

Plug socket 23 is equipped with inserting column 231 and identification catching groove 232, and inserting column 231 is equipped with pivoting hole 2311, plug socket 23 by being sleeved on 2113 outside of pivotal axis outside pivoting hole 2311, and by fixing piece 2312 (such as screw etc.) by plug socket 23 It is fixed on pivotal axis 2113, torsional spring 242 is equipped between pivoting hole 2311 and pivotal axis 2113, identification catching groove 232 includes catching groove Portion 2321 and the first boss portion 2322 set on 2321 both sides of catching groove portion and second boss portion 2323, first boss portion 2322 it is upper End face is higher than the upper surface in second boss portion 2323.

Plug connector 24 includes articulated section 241, plug division 243 and sticking department 244, and inserting groove is formed on articulated section 241 2411 coordinate with identification clasp 2412, inserting groove 2411 with above-mentioned inserting column 231, and identification clasp 2412 includes hook part 24121 With the third boss portion 24122 and the 4th boss portion 24123 set on 24121 both sides of the hook part, third boss portion 24122 Lower face is higher than the lower face of the 4th boss portion 24123, and hook part 24121 coordinates with catching groove portion 2321, third boss portion 24122 Lower face be connected on the upper surface in first boss portion 2322, the lower face of the 4th boss portion 24123 is connected to second boss On the upper surface in portion 2323.Plug division 243 is set to the side (front side as shown in Figure 14-Figure 20) of the articulated section 241, inserts Socket part 243 is equipped with lock slots 2431 and stopper section 2432.When plug connector 24 and grafting position 13 are mating, plug division 243 It stretches into grafting position 13, upper end and the lock slots 2431 of lock-connecting piece 141 coordinate, and plug connector 24 are locked, and stopper section 2432 abut with the front end of elastic component 142 with compression elastic piece 142, and the front end of plug division 243 abuts and pushes away with extension rod 1622 Dynamic linkage board 162 moves backward, and linkage board 162 is locked in above-mentioned first position.The sticking department 244 is set to the pivot joint The other side (rear side as shown in Figure 14-Figure 20) in portion 241, sticking department 244 coordinates with lock-joining part 2221, by the second toy Body 20 is locked in the front end of the first toy body 10, and the second toy body 20 and the first toy body 10 pivot at this time at juxtaposition 242 flexible deformation of torsional spring between hole 2311 and pivotal axis 2113 and accumulation of energy.

Second flip piece 25 is articulated in the top of the second toy body 20, and the second flip piece 25 is equipped with clamping portion 251, clamping Portion 251 and joint portion 2231 coordinate, and the second flip piece 25 is locked, third movement be triggered and to before the second vehicle frame 211 When end is mobile, clamping portion 251 is detached with joint portion 2231 to unlock the second flip piece 25.

Third flip piece 26 is articulated in the bottom of the second vehicle frame 211, and third trigger member 27 is set to the front end of the second vehicle frame 211 And can be moved forward and backward, third trigger member 27 coordinates with third flip piece 26 to lock third flip piece 26, third trigger member 27 Front end forms the end that is triggered, and the front end of third trigger member 27 is stretched into third clamping position 2112, when third trigger member 27 is triggered When, the rear end movement of third trigger member 27 towards the second vehicle frame 211 makes it be detached with third flip piece 26, is turned over to unlock third Turn part 26.

Second expansion module 28 is set to the top of second toy body 20 in which can take down the exhibits, and the third flip piece 26 is overturn When will trigger second expansion module 28 and be unfolded.

It should be noted that when the second flip piece 25 and supporting surface are opposite, and when the second flip piece 25 is unlocked, second turns over Turning part 25 can drive the second toy body 20 to overturn 180 °.When third flip piece 26 and supporting surface are opposite, and 26 quilt of third flip piece When unlock, third flip piece 26 can drive the second toy body 20 to overturn 360 °.

Toy coin 30 is magnetic part that can be attracting with magnetite, and toy coin 30 is for triggering above-mentioned first trigger member 12, second Trigger member 22 and third trigger member 27, when sandwiching toy coin 30 in the first clamping position 1112, before toy coin 30 and impeller 121 End collision is moved backward with triggering impeller 121, when sandwiching toy coin 30 in the second clamping position 2111, toy coin 30 and first 221 rear end collision of moving member is moved with triggering impeller 121 to 211 front end of the second vehicle frame, is sandwiched when in third clamping position 2112 When toy coin 30, the front end crash of toy coin 30 and third trigger member 27 is to trigger third trigger member 27 to the second vehicle frame 211 It moves rear end.

It should be noted that toy coin 30 enters in clamping position, can be clamped in position by being manually inserted into toy coin 30, Can also by towards be clamped position in toss, projectile toy coin 30, or by toy coin 30 place on the support surface, pass through direction Toy coin 30 pushes toy 100, and the suction of toy coin 30 is sandwiched in clamping position, so that 100 playing method of toy has diversification Characteristic can temper the hand brain coordination ability of child, improve the control ability of the sense of direction and dynamics sense etc. of child.

Certain toy coin 30 is not accessory necessary to the toy 100, such as some daily necessitiess may be used in player Instead of, such as toy coin 30 replaced by iron plate, the first above-mentioned trigger member 12, the second trigger member 22 are triggered by iron plate With third trigger member 27.

Below with reference to Fig. 1-Figure 20 describe in above-mentioned specific example overturning meccano 100 a specific playing method and with And the specific action process of 100 each section of toy.

In the playing method being described below, toy coin 30 is positioned on supporting surface, the object for appreciation is pushed towards toy coin 30 Tool 100 is so that the toy 100 illustrates for being clamped to the toy coin 30, it is of course possible to understand ground, the toy 100 Playing method be not limited to that.

First, the toy coin 30 that first is clamped in position 1112 is removed, the first elastic component, which is released, can drive impeller 121 and lock Stop member 122 is moved forward and is resetted, and the first flip piece 15 to be fastened on the bottom of the first vehicle frame 111 by the first flip piece 15 of overturning (the first latch portion 1221 is fastened in the first lock position 151) is set to the first flip piece after the overturning of the first flip piece 15 fastens Shifting block 153 on 15 is detached with movable part 17, and return springs 18, which are released, can drive movable part 17 to move backward and reset.

First expansion module 19 is folded, specifically, the position shown in Fig. 4 of moulding head 191 is turned over so that It is bonded with the rear end of the first vehicle frame 111, and the locking button hole 1911 for making moulding head 191 and the locking clasp on movable part 17 171 cooperations by moulding head 191 to be locked in collapse state (as shown in Figure 1-Figure 3), and moulding head 191 and the first vehicle at this time Torsional spring between frame 111 is in energy accumulating state, then by the position shown in Fig. 4 of gun barrel 192 in the left side of the first vehicle frame 111 to Turn right dynamic so that it is bonded with the left side wall of the first vehicle frame 111, and the latch hook 1921 on the gun barrel 192 of left side is made to be buckled in the first vehicle On the latch fitting 1113 in the left side of frame 111, the position shown in Fig. 4 of gun barrel 192 on 111 right side of the first vehicle frame is turned left so that It is bonded with the right side wall of the first vehicle frame 111, and the latch hook 1921 on the gun barrel 192 of right side is made to be buckled in 111 right side of the first vehicle frame Latch fitting 1113 on, to which gun barrel 192 is locked in collapse state (as shown in Figure 1-Figure 3).

The toy coin 30 that third is clamped in position 2112 is removed, third trigger member 27 is moved towards 211 front end of the second vehicle frame And reset, then overturn third flip piece 26 so that third flip piece 26 and third trigger member 27 coordinate and by third flip piece 26 It is locked in the bottom of the second vehicle frame 211, then the second expansion module 28 is folded and is locked in 211 top of the second vehicle frame.

The toy coin 30 that second is clamped in position 2111 is removed, the second elastic component 224 is released can be to drive first movement part 221, the second moving member 222 and third moving member 223 are resetted to the movement of 211 rear end of the second vehicle frame, then overturn the second overturning Part 25 is so that the second flip piece 25 and the cooperation of third moving member 223 (clamping portion 251 and joint portion 2231 coordinate), the second flip piece 25 are locked in the top of the second vehicle frame 211.

Then the plug connector 24 on the second toy body 20 is rotated so that the sticking department 244 and the second moving member of plug connector 24 Lock-joining part 2221 on 222 coordinates (as shown in figure 14), the torsional spring 242 being set at this time between pivotal axis 2113 and pivoting hole 2311 Positioned at energy accumulating state.

Then downward and front end is positioned on supporting surface forward by the bottom of the first toy body 10, it is set to the first toy at this time The first flip piece 15 and supporting surface of 10 bottom of body are opposite, and the first clamping position 1112 for being set to 111 front end of the first vehicle frame is facing forward；It will Second toy body 20 it is bottom-up, top down and rear end forward, front end be positioned on supporting surface backwards, at this time be set to second Second clamping position 2111 of 211 rear end of vehicle frame is facing forward, and the third clamping position 2112 for being set to 211 front end of the second vehicle frame backwards, is set to Second flip piece 25 and supporting surface at 211 top of the second vehicle frame are opposite, and the second toy body 20 is positioned over the first toy body 10 Front, the i.e. front end of the second toy body 20 are opposite with the front end of the first toy body 10 (as shown in Figure 7).

The position for adjusting the first toy body 10 and the second toy body 20 makes the front end direction of the plug division 243 of plug connector 24 Then plug division 243 is inserted into grafting position 13, the upper end of lock slots 2431 and lock-connecting piece 141 by the insert port 131 of grafting position 13 Cooperation is plug division 243 to be locked in grafting position 13, and the front end of the stopper section 2432 and elastic component 142 on plug division 243 It only supports so that elastic component 142 is in compressive state, the front end of plug division 243 abuts with extension rod 1622 and pushes linkage board 162 It moves backward, linkage board 162 is locked in above-mentioned first position.By 243 inserting of plug division in the grafting position 13 after, described the Two toy bodies 20 link into an integrated entity with first toy body 10 and are in juxtaposition (as shown in Figure 1), 20 quilt of the second toy body It is locked in the front end of the first toy body 10.

It needs explanatorily, in the juxtaposition, as shown in Figure 1, the front end of the first toy body 10 and the second toy body 20 front end is opposite, so that the first clamping position 1112 set on 10 front end of the first toy body is blocked by the second toy body 20, Third clamping position 2112 set on 20 front end of the second toy body is blocked by the first toy body 10, i.e., the first clamping position 1112 and third It is hidden state that position 2112, which is clamped, and the second clamping position 2111 is forward and in state is appeared at this time, so that described When juxtaposition, only the second trigger member 22 can be triggered.

At least three toy coin 30 are placed in the front of toy 100, then push the object for appreciation in the juxtaposition forward Tool 100, when the second clamping position 2111 folder is drawn onto a toy coin 30, the toy coin 30 and the into the second clamping position 2111 Thus the rear end collision of one moving member 221 second is moved with driving first movement part 221 to be moved towards the front end of the second vehicle frame 211 Moving part 222 and third moving member 223 are moved towards the front end of the second vehicle frame 211 under the driving of first movement part 221.Second The front end of moving member 222 towards the second vehicle frame 211 moves so that sticking department 244 and lock-joining part 2221 detach, the second toy body 20 are unlocked, the torsional spring 242 before pivotal axis 2113 and pivoting hole 2311 release can, third moving member 223 is towards the second vehicle The front end of frame 211 moves so that joint portion 2231 and clamping portion 251 detach, and the second flip piece 25 is unlocked, the second flip piece 25 overturnings.Energy is released by torsional spring 242 and the overturning of the second flip piece 25 drives the second toy body 20 to be rotated relative to plug connector 24, with Making in its overturning to receiving position 1111 of 10 upper end of the first toy body, the second toy body 20 is located at the top of the first toy body 10, As shown in Figure 2, toy 100 is in overlaying state.In addition, being triggered and court in the second moving member 222 and third moving member 223 When being moved to 211 front end of the second vehicle frame, 224 accumulation of energy by compression of the second elastic component.

In above-mentioned overlaying state, as shown in Fig. 2, the top of the second toy body 20 upward, bottom downward, front end is towards forward and backward Backwards, third flip piece 26 and the first toy body 10 for being set to 20 bottom of the second toy body at this time are opposite at end.In addition, as in Fig. 2 It is shown, in overlaying state, it is set to the third clamping position 2112 of 211 front end of the second vehicle frame and set on 111 front end of the first vehicle frame First clamping position 1112 forward and reveals, and the first clamping position 1112 can press from both sides the toy coin 30 inhaled on supporting surface at this time.

After the overturning to the top of the first toy body 10 of the second toy body 20, when set on the two of 111 front end of the first vehicle frame When any one folder in a first clamping position 1112 is drawn onto toy coin 30, as shown in Fig. 3, Fig. 8 and Fig. 9, into the first clamping Toy coin 30 in position 1112 will be collided with impeller 121, to push impeller 121 to move backward, the rear end of impeller 121 The inclined plane part 1213 in left side pushes the lower end for the lock-connecting piece 141 for being set to 111 left side of the first vehicle frame, the lock-connecting piece 141 in left side it is upper End turns left, so that the plug connector 24 of the upper end of the lock-connecting piece 141 in 10 left side of the first toy body and 20 left side of the second toy body On lock slots 2431 detach, to unlock the plug connector 24 in the left side of the second toy body 20, similarly, the right side of 121 rear end of impeller The inclined plane part 1213 of side pushes the lower end for the lock-connecting piece 141 for being set to 111 right side of the first vehicle frame, the upper end of the lock-connecting piece 141 on right side It turns right, so that on the plug connector 24 on 20 right side of the upper end of the lock-connecting piece 141 on 10 right side of the first toy body and the second toy body Lock slots 2431 detach, to unlock the plug connector 24 on the right side of the second toy body 20.The plug connector 24 of the left and right sides is unlocked Afterwards, elastic component 142 releases energy and the second toy body 20 is bounced off forward the first toy body 10, as shown in Figure 3, the second toy body 20 It is drop to supporting surface after being popped up a distance forward, when the second toy body 20 drop to supporting surface, the top of the second toy body 20 Portion still upward, bottom still downward, front end it is still facing forward, i.e. the third flip piece 26 and supporting surface of the second toy body 20 at this time In opposite directions, third clamping position 2112 can press from both sides the toy coin 30 inhaled on supporting surface forward.

When impeller 121 is triggered and moves backward, impeller 121 will drive lock piece 122 to move backward, so that first Latch portion 1221 and first latches position 151 and detaches, and lock piece 122 releases the locking effect of the first flip piece 15.I.e. first When trigger member 12 is triggered, not only so that the second toy body 20 bounces off the first toy body 10, while the first trigger member 12 is to first The locking effect of flip piece 15 is released from.But it should be recognized that when the first latch portion 1221 and first lock position 151 detaches (when i.e. the first trigger member 12 unlocks to the first flip piece 15), the first flip piece 15 will not also be overturn, and be postponed at this time Device 16 does not release the locking effect of the first flip piece 15 also.In addition, being triggered backward in impeller 121 and lock piece 122 When mobile, first elastic component accumulation of energy by compression.

Be triggered in the first above-mentioned trigger member 12 and when so that the second toy body 20 bouncing off the first toy body 10, plug division 243 detach with the extension rod 1622 of linkage board 162, and linkage board 162 is unlocked, and linkage board 162 is under the action of delayed elasticity part The above-mentioned second position is moved forward to, due to the mating reaction between damping gear 161 and linkage board 162,162 meeting of linkage board It slowly moves forward, since snap close piece 163 and linkage board 162 are connected, snap close piece 163 also slowly moves forward, and works as linkage board 162 when moving to the second position, and the second latch portion 1631 is detached with the second lock position 152, so that deferred mount 16 is to the The unlock effect of one flip piece 15 releases, and the first flip piece 15 is rotatably to drive 10 somersault of the first toy body, and first When flip piece 15 rotates, shifting block 153 pushes the forward movement of movable part 17 and 18 accumulation of energy by compression of return springs, locks clasp 171 detach with locking button hole 1911, and the first expansion module 19 is unlocked and is unfolded, so that the first toy body 10 is after overturning It deforms.The specific expansion process of first expansion module 19 has hereinbefore elaborated, and which is not described herein again.

Make the first flip piece 15 in the first trigger member 12 by the cooperation between deferred mount 16 and the first flip piece 15 Delay a period of time is unlocked after being triggered.I.e. after the second toy body 20 is bounced off the first toy body 10, when postponing one section Between, the first flip piece 15 is just rotatable and drives 10 somersault of the first toy body.

And after the second toy body 20 is bounced off the first toy body 10, it can continue to move forward under effect of inertia, when When its third clamping position 2112 folder is drawn onto toy coin 30, third trigger member 27 is triggered and is moved towards the rear end of the second vehicle frame 211 Dynamic, third trigger member 27 is detached with third flip piece 26, and third flip piece 26 is unlocked and rotates, to drive the second toy body 20 empty overturning, and when third flip piece 26 is overturn, the second expansion module 28 is triggered and is unfolded, so that the second toy Body 20 deforms after overturning.

It is to be appreciated that making the first flip piece 15 by the cooperation between deferred mount 16 and the first flip piece 15 Delay a period of time is unlocked after one trigger member 12 is triggered, and the second toy body 20 is bounced off when the first trigger member 12 is triggered First toy body 10, that is to say, that postpone a period of time, the first flip piece after the second toy body 20 bounces off the first toy body 10 15 ability are unlocked completely, and the third that this period postponed can be the second toy body 20 be clamped position 2112 press from both sides coin it is reserved when Between, so that the third clamping position 2112 of the second toy body 20 presss from both sides coin and the first flip piece 15 and is synchronized by complete unlock, to make Obtaining the first toy body 10 and the second toy body 20 can overturn in synchronization, and the interest of toy 100 is strong.

According to the overturning meccano 100 of the utility model above-described embodiment, the second toy body 20 can be in overturning to first The first toy body 10 is bounced off after toy body 10, and after the second toy body 20 bounces off the first toy body 10, the first toy Body 10 and the second toy body 20 can also be overturn and be deformed respectively simultaneously, and the sense of movement of toy 100 is strong, interesting higher.

It needs explanatorily, the "upper" anticipated shown in Fig. 1-Figure 13, "lower", "front", "rear" are respectively directed to the first toy body 10 Top, bottom, front-end and back-end.

The "upper" anticipated shown in Figure 14-Figure 21, "lower", "front", "rear" are respectively directed to top, the bottom of the second toy body 20 Portion, front-end and back-end.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that： Can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and objective, modification, replaced And modification, the scope of the utility model are limited by claim and its equivalent.

Claims (14)

1. a kind of overturning meccano, which is characterized in that including：

First toy body, first toy body are equipped with the first trigger member, grafting position and functor, and first trigger member can live It is set on first toy body dynamicly, the grafting position is fixed on first toy body, the functor and described the One trigger member matches, and the functor can trigger the second toy body and execute corresponding function；

Second toy body, second toy body are equipped with the second trigger member and plug connector, and second trigger member is movably set In on second toy body, the plug connector is rotatably arranged on second toy body；

When the plug connector plugs cooperation with the grafting position, second toy body connects into one with first toy body Body and be in juxtaposition；

When second trigger member is triggered, the relatively described plug connector of the second toy body is overturn to first toy body Upper end be in overlaying state；

When first trigger member is triggered, drives the functor to trigger second toy body and execute corresponding function.

2. overturning meccano according to claim 1, which is characterized in that the functor is deformation trigger member, described The second expansion module is correspondingly provided on second toy body, when first trigger member is triggered, the deformation trigger member is driven And second expansion module is made to be unfolded.

3. overturning meccano according to claim 1, which is characterized in that the functor is ejection part, the ejection Part is set on first toy body or in the grafting position, and when first trigger member is triggered, the ejection part is by band It moves and second toy body is bounced off into first toy body.

4. overturning meccano according to claim 3, which is characterized in that the ejection part includes lock-connecting piece and elasticity Part, the lock-connecting piece are movably arranged on first toy body, and one end of the lock-connecting piece is matched with first trigger member It closes, the other end of the lock-connecting piece stretches into the grafting position, and the elastic component is set in the grafting position, when the plug connector When plugging cooperation with the grafting position, the elastic component flexible deformation and accumulation of energy, and the plug connector and the lock-connecting piece are matched It closes so that the plug connector to be locked in the grafting position, when first trigger member is triggered, the lock-connecting piece is driven And activity is so that the plug connector and lock-connecting piece separation, the plug connector are unlocked and make under the driving of the elastic component It obtains second toy body and bounces off first toy body.

5. overturning meccano according to claim 4, which is characterized in that the lock-connecting piece is rotatably arranged in described On one toy body, there is first trigger member inclined plane part, the inclined plane part to be abutted with the lock-connecting piece, in first triggering When part is triggered, the inclined plane part drives the lock-connecting piece rotation and the lock-connecting piece and the plug connector is made to detach.

6. overturning meccano according to claim 1, which is characterized in that the plug connector includes：

Articulated section, the articulated section are pivotally connected with second toy body；

Torsional spring, the torsional spring are set between the articulated section and second toy body；

Plug division, the plug division are set to the side of the articulated section, and the plug division is suitable for mating with the grafting position；

Sticking department, the sticking department are set to the other side of the articulated section, and second trigger member is equipped with and the sticking department The lock-joining part of cooperation, when the sticking department and lock-joining part cooperation, second toy body is locked in described and column-shaped State and the torsional spring flexible deformation and accumulation of energy, when second trigger member is triggered, the lock-joining part and the lock part From the torsional spring, which is released, can drive second toy body to overturn to the overlaying state.

7. overturning meccano according to claim 1 or 6, which is characterized in that second toy body is turned over equipped with second Turn part, second flip piece is pivotally connected with second toy body, in the juxtaposition described in the second flip piece be located at The opposite position of supporting surface, and second flip piece can be matched with second trigger member so that at second flip piece In lock-out state,

When second trigger member is triggered, second flip piece is detached with second trigger member, so that described second Flip piece rotates and the second toy body aerial is driven to go to the overlaying state.

8. overturning meccano according to claim 1, which is characterized in that the plug connector and second toy body are logical Plug socket is crossed detachably to be connected, the plug socket pivotly be set to second toy body on, the plug socket and it is described insert One of fitting is equipped with inserting column and another is equipped with the inserting groove being adapted to the inserting column, and the plug connector It is equipped with identification clasp with one of the plug socket and another is equipped with and identifies catching groove.

9. overturning meccano according to claim 1, which is characterized in that first toy body is equipped with the first overturning Part, first flip piece are pivotally connected with first toy body, and first flip piece is located at the position opposite with supporting surface, and First flip piece can coordinate with first trigger member so that first flip piece is in the lock state,

When first trigger member is triggered, first trigger member is detached with first flip piece, so that described first Flip piece is unlocked and rotates to drive first toy body to empty overturning.

10. overturning meccano according to claim 9, which is characterized in that first toy body is equipped with deferred mount, The deferred mount coordinates with first flip piece, so that first flip piece prolongs after first trigger member is triggered Overturning late.

11. overturning meccano according to claim 10, which is characterized in that the deferred mount includes：

Damping gear, the damping gear are rotatably arranged on first toy body；

Linkage board, the linkage board are movably disposed between the first position and the second position on first toy body, institute It states linkage board and is equipped with tooth-strip part, the damping gear and tooth-strip part engagement；

Snap close piece, the snap close piece are movably arranged on first toy body and are connected with the linkage board, the lock Fastener can coordinate with first flip piece to lock first flip piece；

The both ends of delayed elasticity part, the delayed elasticity part are connected to first toy body and the linkage board respectively, described Linkage board is after first trigger member is triggered under the driving of the delayed elasticity part described in the direction of the first position The second position is moved, when the linkage board is located at the first position, the cooperation of the snap close piece and first flip piece and The delayed elasticity part flexible deformation and energy storage, when the linkage board is located at the second position, the snap close piece with it is described First flip piece is detached to unlock first flip piece.

12. overturning meccano according to claim 9, which is characterized in that first toy body includes first solid Determine part and the first expansion module, the front end of first fixing piece is formed with the open receiving position in top in the overlaying state Second toy body described in Shi Rongna, the grafting position include two and are respectively arranged on the both sides for accommodating position, first exhibition It is set to the rear end of first fixing piece with opening component and can take down the exhibits, first flip piece is set to the bottom of first fixing piece Portion, first trigger member are movably arranged on the front side of first fixing piece, and first flip piece will touch when overturning Expansion of sending out the first expansion module described.

13. overturning meccano according to claim 3, which is characterized in that second toy body includes that third is turned over Turn part and third trigger member, the third trigger member is movably arranged on second toy body, the third flip piece with The second toy body pivot joint, and the third flip piece can coordinate with the third trigger member so that at the third flip piece In lock-out state, after second toy body is ejected, the third flip piece is located at the position opposite with supporting surface, in institute State after the pop-up of the second toy body and the third trigger member when being triggered the third flip piece detached with the third trigger member, So that the third flip piece is unlocked and rotates to drive second toy body to empty overturning.

14. overturning meccano according to claim 13, which is characterized in that second toy body further includes the second exhibition Component is opened, second expansion module is set on second toy body in which can take down the exhibits, and the third flip piece will touch when overturning Expansion of sending out the second expansion module described.