A kind of transformable toy and mechanical fit form deformation toy thereof
Technical field
The utility model relates to toy technique field, particularly relates to a kind of transformable toy and mechanical fit form deformation toy thereof.
Background technology
Existing toy kind is less, also there is the problem that can not meet child's interest in automotive-type toy, existing automotive-type toy can only be run, and children are customary in life, both cannot cause the interest of child, in the process that child also cannot be allowed to be at play, further promote imagination.Therefore, need a kind of novel toy car of exploitation badly, greatly can promote the attraction to child, while child is at play, improve the perception to frame for movement change, have good recreational and educational.
Utility model content
An object of the present utility model is to propose a kind of transformable toy, and described toy, by distortion, promotes the attraction to child greatly, improves the perception to frame for movement change while child is at play, and has good recreational and educational.
Another object of the present utility model is to propose a kind of mechanical fit form deformation toy, utilize machine construction principle, two that can make independently toy while collision, complete fit and distortion two kinds of changes, improve the interest of child, improve the perception to frame for movement change while child is at play, have good recreational and educational.
For reaching this object, the utility model by the following technical solutions:
A kind of transformable toy, comprise standing part and crushed element, described crushed element is flexibly connected with between standing part, comprise self-locking connecting device and push rod tripper, described self-locking connecting device is arranged near push rod tripper, described push rod tripper comprises locking mechanism and push rod, described locking mechanism is used for the described standing part of locking that can unlock and described crushed element makes it mutually not move, and described push rod can link with locking mechanism with the locking of the mechanism that unlocks under external force drives.
Further technical scheme, described self-locking connecting device comprises snap close, return bar and stage clip, described stage clip is fixed on described toy, described return bar one end is connected with stage clip, and the other end is connected with described snap close, and described snap close comprises symmetrical two parts, described two parts snap close when its free end be squeezed or itself and return bar link by close to each other during pulling force, described snap close is stuck in the draw-in groove of other structures, completes self-locking and connects, the lower surface of described return bar is provided with the first projection.
Further technical scheme, described toy comprises standing part and crushed element, described standing part and crushed element are flexibly connected, described push rod tripper is arranged on described standing part, described locking mechanism comprises the wedge buckle be flexibly connected with push rod, before unlocking, described wedge buckle is inserted into described crushed element, cannot relative motion between described crushed element and standing part, touch described push rod, described wedge buckle departs from crushed element, relative motion between described crushed element and standing part, completes deformation process.
Further technical scheme, described toy is the first toy car, described standing part and crushed element are respectively the first headstock and the first car arm, be rotatably connected by rotating shaft between described first car arm and the first headstock, described rotating shaft is arranged with torsion spring, the front end of described first headstock is a projection, described projection is equipped with the first push rod, it is inner that described first push rod puts in the first headstock, described first push rod is connected with the first stage clip away from one end of the first headstock front end, and it is inner that described first stage clip is fixed on the first headstock rear end; Cylinder on described first push rod through the second through hole be located on two wedge buckles with two wedge buckle phase interlocks, before distortion, described two wedge buckles are inserted in the first car arm of the first headstock both sides respectively, during distortion, first push rod drives two wedge buckles to intermediary movements, described two wedge buckles depart from from the first car arm of both sides, mutually rotate under the effect of described first car arm and the first headstock torsion spring on the rotary shaft, complete deformation process.
Further technical scheme, described first toy car also comprises the first wing and first tailstock.
Further technical scheme, described toy comprises standing part and crushed element, described standing part and crushed element are flexibly connected, described push rod tripper is arranged on described standing part, described locking mechanism comprises the turn buckle contacted with push rod, before unlocking, described turn buckle is buckled in the junction between described crushed element and standing part, cannot relative motion between described crushed element and standing part, touch described push rod, described turn buckle departs from crushed element, relative motion between described crushed element and standing part, completes deformation process.
Further technical scheme, described toy is the second toy car, described standing part and crushed element are respectively the second headstock and second tailstock, be rotatably connected by end rotation axle between described second headstock and second tailstock, the front end of described second headstock is a groove, the second push rod is equipped with in described groove, described second push rod stretches into the inner end thereof contacts of turn buckle with being arranged on the second headstock inside of the second headstock, the other end of described turn buckle is connected with the second stage clip, described second stage clip is fixed on the inwall of the second headstock, before distortion, the other end of described turn buckle is buckled on end rotation axle, one end of second push rod touching turn buckle during distortion, the other end of described turn buckle departs from end rotation axle, the second headstock that described end rotation axle connects and second tailstock rotate mutually, complete deformation process.
Further technical scheme, described second toy car also comprises the second car arm and the second wing, described second car arm is divided into forearm and postbrachium, the surface that described forearm contacts with the second headstock is provided with the second projection, the corresponding site of described second headstock is provided with depression, before distortion, described second projection inserts in described depression.
A kind of mechanical fit form deformation toy, is comprised the first toy and the second toy, is connected as a single entity between described first toy and the second toy by self-locking connecting device, touch described push rod tripper simultaneously and unlock, complete deformation process.
Further technical scheme, when the projection of described first toy car is inserted in the groove of the second toy car measure-alike with it, described first toy car and the second toy car connect as one by described self-locking connecting device, first push rod and the second push rod touch unblock mutually simultaneously, and described first toy car and the second toy car complete fit distortion.
The beneficial effects of the utility model:
A kind of transformable toy that the utility model provides and mechanical fit form deformation toy, according to machine construction principle, make two independently structure can complete distortion while zoarium, according to the toy that the fit distressed structure of described machinery manufactures, by the cooperation of snap close and draw-in groove, manually connection can be collided, simultaneously because the collision of toy car touches the release mechanism of its inside, release mechanism unlocks, and makes to occur between the various piece of toy car mutually to rotate, and produces distortion.Described toy greatly can cause the interest of child, child can experience the mutual movement relation between each frame for movement while playing toy car simultaneously, improve the perception to frame for movement change while child is at play, have good recreational and educational.
Accompanying drawing explanation
Fig. 1 is the structural representation of the first toy car that the utility model detailed description of the invention provides;
Fig. 2 is the sectional view in the A-A face of the first toy car in Fig. 1;
Fig. 3 is the sectional view in the C-C face of the first toy car in Fig. 1;
The sectional view in C-C face when Fig. 4 is the first toy car shake-up push rod in Fig. 1;
Fig. 5 is the structural representation of the second toy car that the utility model detailed description of the invention provides;
Fig. 6 is the sectional view in the B-B face of the second toy car in Fig. 5;
Fig. 7 is a kind of structure graph that in Fig. 5, the second toy car forearm departs from the second headstock;
Fig. 8 is the another kind of structure graph that in Fig. 5, the second toy car forearm departs from the second headstock;
Fig. 9 is the structural representation of the self-locking connecting device that the utility model detailed description of the invention provides;
Figure 10 is the profile of the first toy car of providing of the utility model detailed description of the invention and the second toy car zoarium;
Figure 11 is the structural representation after the first toy car of providing of the utility model detailed description of the invention and the distortion of the second toy car zoarium;
Figure 12 is the upward view of the first toy car that the utility model detailed description of the invention provides;
Figure 13 is the upward view of the another kind of state of the first toy car in Figure 12.
Wherein, the 1, first toy car; 2, the first headstock; 3, the first car arm; 4, protruding; 5, the first push rod; 6, snap close; 7, to pull back bar; 8, stage clip; 9, wedge buckle; 10, the first stage clip; 11, rotating shaft; 12, the first wing; 13, first tailstock; 14, the second toy car; 15, the second headstock; 16, second tailstock; 17, groove; 18, the second push rod; 19, draw-in groove; 20, turn buckle; 21, the second stage clip; 22, end rotation axle; 23, the second wing; 24, the second car arm; 25, lateral groove; 26, cylinder; 27, the second through hole; 28, forearm; 29, postbrachium; 30, the second projection; 31, cave in; 32, the first projection; 33, the first through hole; 34, chassis.
Detailed description of the invention
The technical solution of the utility model is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.
Fig. 1 is the structural representation of the first toy car that the utility model detailed description of the invention provides.As shown in Figure 1, first toy car 1 comprises the first headstock 2, first car arm 3, first wing 12 and first tailstock 13, Fig. 2 is the sectional view in the A-A face of the first toy car in Fig. 1, as shown in Figure 2, between described first car arm 3 and the first headstock 2, rotating shaft 11 is rotatably connected, described rotating shaft 11 is arranged with torsion spring, the front end of described first headstock 2 is a projection 4, the first push rod 5 is equipped with on described protruding 4, it is inner that described first push rod 5 puts in the first headstock 2, described first push rod 5 is connected with the first stage clip 10 away from one end of the first headstock 2 front end, it is inner that described first stage clip 10 is fixed on the first headstock 2 rear end, cylinder 26 on described first push rod 5 be fed through two wedge buckles 9 the second through hole 27 and with two wedge buckle phase interlocks, the length direction of described two wedge buckles 9 is vertical with the direction, axis of the first toy car 1, and described two wedge buckles 9 are restricted and cannot produce displacement on the direction, axis of the first toy car 1, before distortion, described two wedge buckles 9 are inserted in the lateral groove 25 on the first car arm 3 of the first headstock 2 both sides respectively, make cannot mutually move between the first headstock 2 and the first car arm 3, Fig. 3 is the sectional view in the C-C face of the first toy car 1 in Fig. 1, as shown in Figure 3, the middle part of the first push rod 5 is provided with cylinder 26, described two wedge buckles 9 all offer the second through hole 27, described cylinder 26 inserts in the second through hole 27 of two wedge buckles 9 being inserted into mounted on top successively, wherein the shape of cross section of two the second through holes 27 is strip, the length direction of its cross section and the axis of the first toy car 1 angle all at 45 °, and mutual angle is therebetween in 90 ° is, particularly, Fig. 4 is the sectional view in C-C face when being the first toy car 1 zoarium in Fig. 1, as shown in Figure 4, during distortion when the first push rod 5 moves backward, the track that cylinder 26 is formed along two the second through holes 27 moves backward, due to the motion of cylinder 26, drive two wedge buckles 9 in left-right direction to intermediary movements, wedge buckle 9 is deviate from from the lateral groove 25 the first car arm 3.
Fig. 5 is the structural representation of the second toy car 14 that the utility model detailed description of the invention provides.Second toy car 14 comprises the second headstock 15, second tailstock 16, second car arm 24 and the second wing 23, Fig. 6 is the sectional view in the B-B face of the second toy car 14 in Fig. 5, as shown in Figure 6, be rotatably connected by end rotation axle 22 between described second headstock 15 and second tailstock 16, the front end of described second headstock 15 is a groove 17, the size of described groove 17 and described protruding 4 measure-alike, the second push rod 18 is equipped with in described groove 17, described second push rod 18 stretches into the inner end thereof contacts of turn buckle 20 with being arranged on the second headstock 15 inside of the second headstock 15, the other end of described turn buckle 20 is connected with the second stage clip 21, described second stage clip 21 is fixed on the inwall of the second headstock 15, before distortion, the other end of described turn buckle 20 is buckled on end rotation axle 22, make cannot mutually move between the second headstock 15 and second tailstock 16.Wherein, the second car arm 24 is divided into forearm 28 and postbrachium 29, is provided with torsion spring, can controls the mutual motion between postbrachium 29 and second tailstock 16 between described postbrachium 29 and second tailstock 16, as shown in Figure 5, the surface that both sides forearm 28 contacts with the second headstock 15 is provided with the second projection 30, the relevant position of the second headstock 15 is provided with depression 31, before second toy car 14 is out of shape, described second projection 30 inserts in described depression 31, the cross sectional shape of described second projection 30 is right-angled trapezium, limit above described second projection 30 is hypotenuse, the limit of below is right-angle side, the phenomenon that when can prevent from so not needing to be out of shape, the second projection 30 is easily deviate from from depression 31 occurs, and when can conveniently be out of shape, the second projection 30 is deviate from from depression 31 by upside hypotenuse, increase more deformed shape, during distortion, manually the second projection 30 on both sides forearm 28 is departed from from depression 31 by upside hypotenuse, as shown in Figure 7, namely forearm 28 and the second headstock 15 depart from, forearm 28 moves downward afterwards, as shown in Figure 8.
Fig. 9 is the structural representation of the self-locking connecting device that the utility model detailed description of the invention provides.Self-locking connecting device makes the structure that the first toy car 1 and the second toy car 14 can be fit, comprise the snap close 6 in the first toy car 1, return bar 7 and stage clip 8, described stage clip 8 is fixed on the first toy car 1, return bar 7 one end is connected with stage clip 8, the other end is rotatably connected with described snap close 6, described snap close 6 comprises symmetrical two parts, and described two parts snap close 6 to be squeezed or it to be subject to return bar 7 link to pass through during pulling force to rotate close to each other when its free end; Described self-locking connecting device also comprises the draw-in groove 19 in the second toy car 14, described draw-in groove 19 to be opened in the second toy car 14 front end groove 17 on two relative sidewalls, described snap close 6 be stuck in described draw-in groove 19 make between the first toy car 1 and the second toy car 14 fit.
When described first toy car 1 and the second toy car 14 carry out zoarium distortion, manually that the first toy car 1 is relative with the front end of the second toy car 14, projection 4 on first toy car 1 is aimed at the groove 17 on the second toy car 14, firmly grafting, wherein symmetrical snap close 6 is owing to being subject to the extruding of groove 17 sidewall, symmetrical snap close 6 is drawn close to centre, return bar 7 moves to the direction of stage clip 8 by the effect of snap close 6, distance between symmetrical snap close 6 reach can by groove 17 opening part time, return bar 7 is subject to the forward of elastic force effect to the first toy car 1 of stage clip 8, thus promote the groove 17 that snap close 6 enters into the second toy car 14, due to two of groove 17 relative sidewalls having draw-in groove 19, distance between two symmetrical snap closes 6 increases, until be stuck in described draw-in groove 19, first toy car 1 and the second toy car 14 zoarium complete.
Figure 10 is the profile of the first toy car 1 of providing of the utility model detailed description of the invention and the second toy car 14 zoarium.Projection 4 in first toy car 1 is inserted in the groove 17 in the second toy car 14, the first push rod 5 now in the first toy car 1 and the second push rod 18 in the second toy car 14 touch mutually, first push rod 5 and the second push rod 18 respectively relative first toy car 1 and the second toy car 14 move backward, on the one hand, first push rod 5 drives two wedge buckles 9 to intermediary movements, described two wedge buckles 9 depart from from the first car arm 3 of both sides, mutually rotate under the effect of described first car arm 3 and the torsion spring of the first headstock 2 on rotating shaft 11, torsion spring drives the first headstock 2 to move upward around rotating shaft 11, first wing 12 is also because the reason of torsion spring is upturned around rotating shaft 11 simultaneously, first toy car 1 completes distortion, on the other hand, second push rod 18 promotes one end of turn buckle 20, the other end of turn buckle 20 departs from end rotation axle 22, due to gravity, whole second tailstock 16 of the second toy car 14 moves downward, while second tailstock 16 moves downward, manually the second projection 30 on both sides forearm 28 is departed from from depression 31 by upside hypotenuse, namely forearm 28 and the second headstock 15 depart from, and forearm 28 moves downward afterwards, and the second toy car 14 completes distortion.Completing distortion while described first toy car 1 and the second toy car 14 zoarium, as shown in figure 11, is the structural representation after the first toy car 1 and the second toy car 14 complete fit distortion.
The upward view of the first toy car 1 as shown in figure 12, the lower surface of the return bar 7 of the first toy car 1 is provided with the first projection 32, on the chassis 34 of described first toy car 1 relative first projection 32 position on be provided with strip first through hole 33 along direction, axis, described first projection 32 protrudes the chassis 34 of the first toy car 1, can the position of Non-follow control first projection 32 in the first through hole 33.
When separating two toy cars, now the first toy car 1 and the second toy car 14 zoarium, the position of the first projection 32 is in the front end of described first through hole 33, correspondingly the position of snap close 6 as shown in figure 12, first projection 32 is manually stirred to the rear end of the first through hole 33, described return bar 7 moves thereupon backward, snap close 6 is subject to the pulling force effect of return bar 7, two parts snap close 6 departs from draw-in groove 19 to middle shrinkage, as shown in figure 13, now the first toy car 1 can successfully be deviate from from the second toy car 14, two toy cars are separated, the return effect that first push rod 5 of the first toy car 1 and the second push rod 18 of the second toy car 14 are respectively freed from the first stage clip 10 and the second stage clip 21 automatically resets, manually second after two distortion is recovered former state one by one again.
The utility model makes an explanation to the structure of the toy provided and mechanical fit form deformation toy and principle for toy car; but be not limited to toy car, make use of other transformable toys of structure of the present utility model and principle also in protection domain of the present utility model.
Above-mentionedly only the specific embodiment of the utility model to be illustrated; but can not as protection domain of the present utility model; every according to the change of the equivalence done by design spirit in the utility model or to modify or equal proportion zooms in or out, all should think and fall into protection domain of the present utility model.