CN102600620B - Amphibious remote-controlled toy - Google Patents
Amphibious remote-controlled toy Download PDFInfo
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- CN102600620B CN102600620B CN201110419091.9A CN201110419091A CN102600620B CN 102600620 B CN102600620 B CN 102600620B CN 201110419091 A CN201110419091 A CN 201110419091A CN 102600620 B CN102600620 B CN 102600620B
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- enclosure body
- housing
- axis
- bearing bracket
- remote
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- 239000004033 plastic Substances 0.000 claims description 12
- 229920003023 plastic Polymers 0.000 claims description 12
- WSNMPAVSZJSIMT-UHFFFAOYSA-N COc1c(C)c2COC(=O)c2c(O)c1CC(O)C1(C)CCC(=O)O1 Chemical compound COc1c(C)c2COC(=O)c2c(O)c1CC(O)C1(C)CCC(=O)O1 WSNMPAVSZJSIMT-UHFFFAOYSA-N 0.000 claims description 9
- 238000010030 laminating Methods 0.000 claims description 6
- 239000000463 material Substances 0.000 claims description 6
- 239000013536 elastomeric material Substances 0.000 claims description 3
- 238000009434 installation Methods 0.000 claims description 3
- 239000007769 metal material Substances 0.000 claims description 3
- 238000006243 chemical reaction Methods 0.000 abstract description 4
- 230000000149 penetrating effect Effects 0.000 abstract 1
- 230000033001 locomotion Effects 0.000 description 11
- 238000010586 diagram Methods 0.000 description 8
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 7
- 230000005484 gravity Effects 0.000 description 6
- 230000000694 effects Effects 0.000 description 3
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
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Abstract
The invention provides an amphibious remote-controlled toy applied to the field of the remote-controlled toy. The amphibious remote-controlled toy comprises a hollow cylinder housing body (1); a center shaft (4) penetrating a front end face (2) of the housing and a rear end face (3) of the housing is arranged inside the housing body (1); a middle gear (5) fixedly connected with the center shaft (4) is arranged on the center shaft (4); a battery (6) is fixed on the center shaft (4); the motor (7) is fixedly connected with the battery (6); a motor gear (8) of the motor (7) is meshed with the middle gear (5), and a controller (9) is also arranged in the housing body (1). The remote-controlled toy also comprises a remote controller (10) for remotely controlling the toy by controlling the controller (9). According to the amphibious remote-controlled toy provided by the invention, the toy can achieve the functions of advancing, retreating, turning and the like. Meanwhile, amphibious barrier-free conversion is achieved and the cost and structure complexity are greatly reduced.
Description
Technical field
The invention belongs to remote-control toy field, more particularly, relate to a kind of amphibious remote-control toy.
Background technology
In prior art, the patent document relevant to remote-control toy of the present invention has two kinds, and a kind of is the patent document of amphibian animal device, and also having a kind of is the patent document of coaxial two wheel apparatus.The patent (patent No. 200920053792.3) of the amphibious toy car in a kind of water route having in existing patent, this utility model by the car body design of common four-wheeled toy car become can be floating ship type, four wheels is contained in the both sides of ship type car body, when entering water, wheel is folded up.Rear bottom at ship type car body arranges thrust unit, and in car body both sides, water wheels being set provides thrust to realize aquatic sports, and the realization that this utility model toy is turned is the principle that adopts the Asynchrony of car body both sides water wheels; The patent (patent No. 200780004239.4) that also has vehicle of parallel two-wheeled inversion pendulum type, adopts coaxial form, and the parallel axes mode of this mode and bicycle is different.Coaxial two-wheeled vehicle is a kind of traffic means of transport, and when static and motion, center of gravity is above wheel axle for it, and it just must have electronic system to maintain balance so.
Summary of the invention
Technical problem to be solved by this invention is: for the deficiencies in the prior art, provide a kind of and can realize function of wireless remote control, also in conjunction with the amphibious forms of motion in water route, can advance, retreat, the amphibious remote-control toy of turning and the accessible conversion of amphibious motion.
Solve above-described technical problem, the technical scheme that the present invention takes is:
The present invention is a kind of amphibious remote-control toy, described amphibious remote-control toy comprises the cylinder shell body of hollow, the axis of centres that runs through housing front end face and housing rear end face is set in enclosure body, the idler gear being fixedly connected with the axis of centres is set on the described axis of centres, battery is fixed on the axis of centres, motor is fixedly connected with battery, the motor gear of motor and idler gear engagement, in enclosure body, be also provided with controller, described remote-control toy also comprises the remote controller that carrys out remote-control toy by steering controller.
Described enclosure body 1 comprises enclosure body I and enclosure body II, the axis of centres runs through enclosure body I and enclosure body II housing front end face and housing rear end face separately simultaneously, described idler gear comprises idler gear I and idler gear II, idler gear I and idler gear II are fixedly installed on respectively on the axis of centres that is positioned at enclosure body I and enclosure body II, described battery comprises battery I and battery II, on battery I and battery II, fixedly mount respectively motor I and motor II, described motor gear comprises motor gear I and motor gear II, motor gear I and motor gear II mesh with idler gear I and idler gear II respectively, described controller comprises controller I and controller II, described controller I and controller II are separately positioned in enclosure body I and enclosure body II.
Described amphibious remote-control toy also comprises strike cover I and the cover II that strikes being set on enclosure body I outer surface and enclosure body II outer surface, the outer surface of described strike cover I and the cover II that strikes arranges respectively the transverse slat I of a plurality of projections and the transverse slat II of a plurality of projections, described transverse slat I is set to along the axial arranged structure of cover I outer surface of striking, transverse slat II is set to along the axial arranged structure of cover II outer surface of striking, a plurality of transverse slat I and a plurality of transverse slat II arrange by gap along strike cover I and the cover II outer surface of striking respectively for one week, described controller I and controller II respectively comprise a circuit board, wireless receiving module is set respectively on each circuit board, single-chip microcomputer and motor-drive circuit.
The housing front end face II of the housing front end face I of described enclosure body I and enclosure body II is set to respectively drive end bearing bracket I and the drive end bearing bracket II of the cap-like structure that can dismantle, described amphibious remote-control toy also comprises housing axis I and the housing axis II of hollow structure, housing axis I is set to run through housing rear end face I and extends to the position of running through drive end bearing bracket I, housing axis II is set to run through housing rear end face II and extends to the position of running through drive end bearing bracket II, axis of centres one end is set to the termination portion that diameter dimension is greater than axis of centres body dimension, the axis of centres other end is helicitic texture, the axis of centres is simultaneously through housing axis I and housing axis II, the axis of centres arranges one end of helicitic texture and extends drive end bearing bracket I, and be screwed the screw knob coordinating with helicitic texture.
Described drive end bearing bracket I and drive end bearing bracket II coordinate installation by screw thread with threaded portion I and the threaded portion II of the housing edge I of portion and the housing edge II of portion respectively, on described enclosure body I and enclosure body II, be set with tire I and tire II, tire I and tire II are set in the position near drive end bearing bracket I and drive end bearing bracket II.
Described drive end bearing bracket I and the inner face of drive end bearing bracket II arrange respectively end cap cap I and the end cap cap II of projection, end cap cap I and end cap cap II respectively with drive end bearing bracket I and drive end bearing bracket II exterior, housing axis I and housing axis II are set to respectively extend to the structure in end cap cap I and end cap cap II, and housing axis I and housing axis II are set to respectively coordinate with end cap cap I and end cap cap II inwall the structure of suit.
In described end cap cap I, circular groove structure I is set, groove structure I end face and the laminating of housing axis I termination, end cap collision mat I is set in groove structure I, circular groove structure II is set in end cap cap II, groove structure II end face and the laminating of housing axis II termination, arrange end cap collision mat II in groove structure II.
Described battery I and battery II are fixedly mounted on respectively in battery case I cylindraceous and battery case II, battery case I and battery case II pass through respectively connecting portion I and connecting portion II movable set on housing axis I and housing axis II, and the position of housing axis I and housing axis II upper suit connecting portion I and connecting portion II is set to respectively the structure that diameter dimension is less than housing axis I body and housing axis II body diameter dimension.
Described enclosure body I, enclosure body II, drive end bearing bracket I, drive end bearing bracket II are plastic material and make, the described axis of centres is that metal material is made, described tire I and tire II are elastomeric material and make, difference filling foamed plastics in tire I and tire II, described cover I and the cover II that strikes of striking makes with rubber or plastic material, and strike cover I and the cover II that strikes are set in enclosure body I and the upper side near tire I and tire II of enclosure body II.
The junction of described enclosure body I and threaded portion I arranges step I, the junction of enclosure body II and threaded portion II arranges step II, on described threaded portion I and threaded portion II, be set with housing waterproof jacket I and housing waterproof jacket II, when described drive end bearing bracket I and drive end bearing bracket II are arranged on respectively on enclosure body I and enclosure body II, housing waterproof jacket I is installed between step I and drive end bearing bracket I, and housing waterproof jacket II is installed between step II and drive end bearing bracket II.
Adopt technical scheme of the present invention, can obtain following beneficial effect:
Amphibious remote-control toy of the present invention, changed the form that existing most of remote-control toy is four-wheel design, do not affect again the exercise performance of traditional remote-control toy, can realize advance, retreat, the function such as turning, simultaneously, also, in conjunction with amphibious forms of motion, realize amphibious accessible conversion.
Compare with existing coaxial two wheel apparatus, the present invention, owing to adopting power source center of gravity under the strong point, forms the rock-steady structure on mechanics, thereby maintains gravity balance without the need for electronic system, and cost and complex structure degree reduce greatly.
Structure of the present invention, is comprised of two identical toy units, and each toy unit can also be unloaded down separately and play, and has strengthened the interest of toy.
Structure of the present invention, all adopts screw thread assembling between parts, substantially without screw, applicable children dismantle exploration, excite children's interest, temper children's manipulative ability, exploitation children's intelligence.
Accompanying drawing explanation
The expressed content of each accompanying drawing of this description and the mark in figure are made to brief description below:
Fig. 1 is the overall structure schematic diagram of amphibious remote-control toy of the present invention;
Fig. 2 is the internal structure schematic diagram of the amphibious remote-control toy described in Fig. 1;
Fig. 3 is the inside sectional structure schematic diagram of the amphibious remote-control toy described in Fig. 1;
Fig. 4 is the syndeton schematic diagram of the amphibious remote-control toy described in Fig. 1;
Fig. 5 is the structure for amplifying schematic diagram at the A position shown in Fig. 2;
Fig. 6 is the structure for amplifying schematic diagram at the B position shown in Fig. 2;
Fig. 7 is the structure for amplifying schematic diagram at the C position shown in Fig. 3;
Fig. 8 is the structure for amplifying schematic diagram at the D position shown in Fig. 3;
In figure, be labeled as: 1, enclosure body; 2, housing front end face; 3, housing rear end face; 4, the axis of centres; 5, idler gear; 6, battery; 7, motor; 8, motor gear; 9, controller; 10, remote controller; 11, enclosure body I; 12, enclosure body II; 13, end cap collision mat I; 14, end cap collision mat II; 15, idler gear I; 16, idler gear II; 17, battery I; 18, battery II; 19, motor I; 20, motor II; 21, motor gear I; 22, motor gear II; 23, controller I; 24, controller II; 25, strike and overlap I; 26, strike and overlap II; 27, transverse slat I; 28, transverse slat II; 29, circuit board; 30, wireless receiving module; 31, single-chip microcomputer; 32, motor-drive circuit; 33, housing axis I; 34, housing axis II; 35, housing front end face I; 36, housing rear end face I; 37, housing front end face II; 38, housing rear end face II; 39, termination portion; 40, screw knob; 41, drive end bearing bracket I; 42, drive end bearing bracket II; 43, the I of housing edge portion; 44, the II of housing edge portion; 45, threaded portion I; 46, threaded portion II; 47, tire I; 48, tire II; 49, battery case I; 50, battery case II; 51, connecting portion I; 52, connecting portion II; 53, step I; 54, step II; 55, housing waterproof jacket I; 56, housing waterproof jacket II; 57, helicitic texture; 58, end cap cap I; 59, end cap cap II; 60, groove structure I; 61, groove structure II.
The specific embodiment
Contrast accompanying drawing below, by the description to embodiment, the specific embodiment of the present invention is described in further detail as the effect of the mutual alignment between the shape of each related member, structure, each several part and annexation, each several part and operation principle etc.:
As accompanying drawing 1---as shown in accompanying drawing 8, the present invention is a kind of amphibious remote-control toy, described amphibious remote-control toy comprises the cylinder shell body 1 of hollow, the interior setting of enclosure body 1 runs through the axis of centres 4 of housing front end face 2 and housing rear end face 3, the idler gear 5 being fixedly connected with the axis of centres 4 is set on the axis of centres 4, battery 6 is fixed on the axis of centres 4, motor 7 is fixedly connected with battery 6, the motor gear 8 of motor 7 and idler gear 5 engagements, in enclosure body 1, be also provided with controller 9, described remote-control toy also comprises the remote controller 10 that carrys out remote-control toy by steering controller 9.
Described enclosure body 1 comprises enclosure body I11 and enclosure body II12, the axis of centres 4 runs through enclosure body I11 and enclosure body II12 housing front end face 2 and housing rear end face 3 separately simultaneously, described idler gear 5 comprises idler gear I15 and idler gear II16, idler gear I15 and idler gear II16 are fixedly installed on respectively on the axis of centres 4 that is positioned at enclosure body I11 and enclosure body II12, described battery 6 comprises battery I17 and battery II18, on battery I17 and battery II18, fixedly mount respectively motor I 19 and motor II 20, described motor gear 8 comprises motor gear I21 and motor gear II22, motor gear I21 and motor gear II22 mesh with idler gear I15 and idler gear II16 respectively, described controller 9 comprises controller I23 and controller II24, described controller I23 and controller II24 are separately positioned in enclosure body I11 and enclosure body II12.
Described amphibious remote-control toy also comprises strike cover I25 and the cover II26 that strikes being set on enclosure body I11 outer surface and enclosure body II12 outer surface, the outer surface of described strike cover I25 and the cover II26 that strikes arranges respectively the transverse slat I27 of a plurality of projections and the transverse slat II28 of a plurality of projections, described transverse slat I27 is set to along the axial arranged structure of cover I25 outer surface of striking, transverse slat II28 is set to along the axial arranged structure of cover II26 outer surface of striking, a plurality of transverse slat I27 and a plurality of transverse slat II28 arrange by gap along strike cover I25 and the cover II26 outer surface of striking respectively for one week, described controller I23 and controller II24 respectively comprise a circuit board 29, on each circuit board 29, wireless receiving module 30 is set respectively, single-chip microcomputer 31 and motor-drive circuit 32.
The housing front end face II37 of the housing front end face I35 of described enclosure body I11 and enclosure body II12 is set to respectively drive end bearing bracket I41 and the drive end bearing bracket II42 of the cap-like structure that can dismantle, described amphibious remote-control toy also comprises housing axis I33 and the housing axis II34 of hollow structure, described housing axis I33 is set to run through housing rear end face I36 and extends to the position of running through drive end bearing bracket I41, housing axis II34 is set to run through housing rear end face II38 and extends to the position of running through drive end bearing bracket II42, the axis of centres 4 one end are set to the termination portion 39 that diameter dimension is greater than the axis of centres 4 body dimensions, the axis of centres 4 other ends are helicitic texture, the axis of centres 4 is simultaneously through housing axis I33 and housing axis II34, the axis of centres 4 arranges one end of helicitic texture 57 and extends drive end bearing bracket I41, and be screwed the screw knob 40 coordinating with helicitic texture 57.
Described drive end bearing bracket I41 and drive end bearing bracket II42 coordinate installation by screw thread with I45He threaded portion, the threaded portion II46 of the housing edge I43 of portion and the housing edge II44 of portion respectively, on described enclosure body I11 and enclosure body II12, be set with tire I47 and tire II48, tire I47 and tire II48 are set in the position near drive end bearing bracket I41 and drive end bearing bracket II42.
Described drive end bearing bracket I41 and the inner face of drive end bearing bracket II42 arrange respectively end cap cap I58 and the end cap cap II59 of projection, end cap cap I58 and end cap cap II59 respectively with drive end bearing bracket I41 and drive end bearing bracket II42 exterior, housing axis I33 and housing axis II34 are set to respectively extend to the structure in end cap cap I58 and end cap cap II59, and housing axis I33 and housing axis II34 are set to respectively coordinate with end cap cap I58 and end cap cap II59 inwall the structure of suit.
In described end cap cap I58, circular groove structure I60 is set, groove structure I60 end face and the laminating of housing axis I33 termination, end cap collision mat I13 is set in groove structure I60 (not to be shown on figure, identical with end cap collision mat II14 structure), circular groove structure II61 is set in end cap cap II59, groove structure II61 end face and the laminating of housing axis II34 termination, arrange end cap collision mat II14 in groove structure II61.
Described battery I17 and battery II18 are fixedly mounted on respectively in battery case I49 cylindraceous and battery case II50, battery case I49 and battery case II50 pass through respectively connecting portion I51 and connecting portion II52 movable set on housing axis I33 and housing axis II34, and the position of housing axis I33 and housing axis II34 upper suit connecting portion I51 and connecting portion II52 is set to respectively the structure that diameter dimension is less than housing axis I33 body and housing axis II34 body diameter dimension.
Described enclosure body I11, enclosure body II12, drive end bearing bracket I41, drive end bearing bracket II42 are plastic material and make, the described axis of centres 4 is metal material making, described tire I47 and tire II48 are elastomeric material and make, difference filling foamed plastics in tire I47 and tire II48, described cover I25 and the cover II26 that strikes of striking makes with rubber or plastic material, and strike cover I25 and the cover II26 that strikes are set in enclosure body I11 and the upper side near tire I47 and tire II48 of enclosure body II12.
The junction of described enclosure body I11 and threaded portion I45 arranges step I53 (not shown), the junction of enclosure body II12 and threaded portion II46 arranges step II54, on described I45He threaded portion, threaded portion II46, be set with housing waterproof jacket I55 and housing waterproof jacket II56, when described drive end bearing bracket I41 and drive end bearing bracket II42 are arranged on respectively on enclosure body I11 and enclosure body II12, housing waterproof jacket I55 is installed between step I53 and drive end bearing bracket I41, and housing waterproof jacket II56 is installed between step II54 and drive end bearing bracket II42.
Operation principle and the course of work of amphibious remote-control toy of the present invention are as described below:
The present invention arranges an axis of centres 4 that simultaneously runs through enclosure body I11 and enclosure body II12 in enclosure body I11 cylindraceous and enclosure body II12, two Power Components are set on the axis of centres 4, two Power Components are separately positioned in enclosure body I11 and enclosure body II12, each Power Component is by motor, battery, battery case, circuit board forms, motor gear I21 and motor gear II22 are set respectively in motor I 19 and motor II 20, the axis of centres 4 is arranged in housing axis I33 and housing axis II34, idler gear I15 and idler gear II16 with motor gear I21 and motor gear II22 engagement are set respectively on housing axis I33 and housing axis II34.Housing axis I33 and housing axis II34 are respectively by connecting portion I51 and movable battery case I49 and the battery case II50 of installing of connecting portion II52, also can with the position that housing axis I33 is connected with housing axis II34, a metallic cylinder be respectively set with connecting portion II52 at connecting portion I51, two metallic cylinder are connected with housing axis II34 with housing axis I33 respectively, make like this between connecting portion I51 and connecting portion II52 and housing axis I33 and housing axis II34 frictional force can be less (housing axis I33 and housing axis II34 are plastics, coefficient of friction between metal and plastics is little).
When motor I 19 and motor II 20 rotation, power passes to idler gear I15 and idler gear II16 by motor gear I21 and motor gear II22, because idler gear I15 and idler gear II16 are fixed on housing axis I33 and housing axis II34, when remote controller 10 is controlled controller I23 and controller II24, motor I 19 and motor II 20 are rotated, like this, motor gear I21 and motor gear II22 drive enclosure body I11 cylindraceous and enclosure body II12 to rotate by idler gear I15 and idler gear II16 respectively, and two Power Components are owing to being subject to the effect of gravity, just below energy relatively stable ground " hanging over " housing axis I33 and housing axis II34, so just can continuously provide the power advancing for enclosure body I11 and enclosure body II12.
When needs toy of the present invention is turned, because enclosure body I11 and enclosure body II12 link together by an axis of centres 4, like this, as long as by controlling respectively enclosure body I11 and enclosure body II12 movement velocity separately, can realize toy and turn, for example, such as, when enclosure body I11 is faster than the rotating speed of enclosure body II12 at the average speed of a certain very short period (as 0.5 second), toy turns round to the right.Turn round left, spin in original place etc. moved and also by similar principle, realized.
Because toy is when turning round, the friction on enclosure body I11 and enclosure body II12 and ground is very serious, reason is exactly enclosure body I11 and enclosure body II12 is one long " line " with the contact-making surface on ground, while turning round, there is unavoidably friction, the present invention is directed to this way to solve the problem is: the outer surface at enclosure body I11 and enclosure body II12 is set with tire I47 and tire II48, because the width of tire I47 and tire II48 is little, therefore, the contact-making surface on tire I47 and tire II48 and ground is exactly one very short " line ", like this, toy advances, retreat, friction while turning round just reduces a lot.
The object of moving on the water surface in order to realize toy, solution of the present invention is: on the surface of enclosure body I11 and enclosure body II12, be set with strike cover I25 and the cover II26 that strikes, the cover I25 that strikes is all cylindrical structures with the cover II26 that strikes, the cover I25 that strikes arranges respectively transverse slat I27 and transverse slat II28 with the outer surface of the cover II26 that strikes, when enclosure body I11 and enclosure body II12 rotate under the control of motor I 19 and motor II 20, transverse slat I27 and transverse slat II28 just can realize and striking, thereby be reached for the effect that enclosure body I11 and enclosure body II12 provide onward impulse, because interior of the present invention is hollow structure, and enclosure body I11 and enclosure body II12 are all made of plastics, this makes global density of the present invention less, can swim on the water surface.
Toy of the present invention, by 10 pairs of remote controllers, be positioned at that the control of the circuit board 29 of enclosure body I11 and enclosure body II12 completes, concrete principle is as follows: when needs are handled toy motion, remote controller 10 sends movement instruction to the wireless receiving module 30 in enclosure body I11 and enclosure body II12 respectively, the signal of wireless receiving module 30 is delivered to circuit board 29 by single-chip microcomputer 31, circuit board 29 is handled motor I 19 and motor II 20 motions by motor-drive circuit 32, if while needing toy of the present invention to keep straight on, enclosure body I11 handled by remote controller 10 simultaneously and enclosure body II12 advances with constant speed, when needs turn round, enclosure body I11 controlled by remote controller 10 and enclosure body II12 moves ahead with different speed, so just realized toy of the present invention in the object of land route motion.Motor I 19 in the present invention and motor II 20 are respectively enclosure body I11 and enclosure body II12 provides moment, and when the speed of motor I 19 average speed within a certain very short time is during faster than motor II 20, toy is turned right curved; Motor I 19 forwards, motor II 2 reversings, when speed is identical, toy original place spins; The principle of turning left with turn right mutually contrary.Like this, toy has been realized flexible motion exactly, and the control of motor I 19 and motor II 20 is by a remote control, 10 realizations.
Amphibious remote-control toy of the present invention, changed the form that existing most of remote-control toy is four-wheel design, do not affect again the exercise performance of traditional remote-control toy, can realize advance, retreat, the function such as turning, simultaneously, also, in conjunction with amphibious forms of motion, in the situation that not changing toy structure, realize amphibious accessible conversion.
Compare with existing coaxial two wheel apparatus, the present invention, owing to adopting power source center of gravity under the strong point, forms the rock-steady structure on mechanics, thereby maintains gravity balance without the need for electronic system, and cost and complex structure degree reduce greatly.
Structure of the present invention, is comprised of two identical enclosure body I11 and enclosure body II12, and enclosure body I11 and enclosure body II12 can unload down separately and play, and have strengthened the interest of toy.
Structure of the present invention, all adopts screw thread assembling between parts, substantially without screw, applicable children dismantle exploration, excite children's interest, temper children's manipulative ability, exploitation children's intelligence.
By reference to the accompanying drawings the present invention has been carried out to exemplary description above; obviously the concrete realization of the present invention is not subject to the restrictions described above; as long as the various improvement that adopted method design of the present invention and technical scheme to carry out; or without improving, design of the present invention and technical scheme are directly applied to other occasions, all in protection scope of the present invention.
Claims (9)
1. an amphibious remote-control toy, described amphibious remote-control toy comprises the cylinder shell body (1) of hollow, the axis of centres (4) that runs through housing front end face (2) and housing rear end face (3) is set in enclosure body (1), the upper idler gear (5) being fixedly connected with the axis of centres (4) that arranges of the axis of centres (4), battery (6) is fixed on the axis of centres (4), motor (7) is fixedly connected with battery (6), the motor gear (8) of motor (7) and idler gear (5) engagement, in enclosure body (1), be also provided with controller (9), described remote-control toy also comprises the remote controller (10) that carrys out remote-control toy by steering controller (9),
It is characterized in that: described enclosure body (1) comprises enclosure body I (11) and enclosure body II (12), the axis of centres (4) runs through enclosure body I (11) and enclosure body II (12) housing front end face (2) and housing rear end face (3) separately simultaneously, described idler gear (5) comprises idler gear I (15) and idler gear II (16), idler gear I (15) and idler gear II (16) are fixedly installed on respectively on the axis of centres (4) that is positioned at enclosure body I (11) and enclosure body II (12), described battery (6) comprises battery I (17) and battery II (18), in battery I (17) and battery II (18), fixedly mount respectively motor I (19) and motor II (20), described motor gear (8) comprises motor gear I (21) and motor gear II (22), motor gear I (21) and motor gear II (22) mesh with idler gear I (15) and idler gear II (16) respectively, described controller (9) comprises controller I (23) and controller II (24), described controller I (23) and controller II (24) are separately positioned in enclosure body I (11) and enclosure body II (12).
2. amphibious remote-control toy according to claim 1, it is characterized in that: described amphibious remote-control toy also comprises strike cover I (25) and the cover II (26) of striking being set on enclosure body I (11) outer surface and enclosure body II (12) outer surface, the outer surface of described strike cover I (25) and the cover II (26) of striking arranges respectively the transverse slat I (27) of a plurality of projections and the transverse slat II (28) of a plurality of projections, described transverse slat I (27) is set to along the axial arranged structure of cover I (25) outer surface of striking, transverse slat II (28) is set to along the axial arranged structure of cover II (26) outer surface of striking, a plurality of transverse slat I (27) and a plurality of transverse slat II (28) are arranged by gap along strike cover I (25) and cover II (26) outer surface of striking respectively for one week, described controller I (23) and controller II (24) respectively comprise a circuit board (29), wireless receiving module (30) is set respectively on each circuit board (29), single-chip microcomputer (31) and motor-drive circuit (32).
3. amphibious remote-control toy according to claim 1 and 2, it is characterized in that: the housing front end face I (35) of described enclosure body I (11) and the housing front end face II (37) of enclosure body II (12) are set to respectively drive end bearing bracket I (41) and the drive end bearing bracket II (42) of the cap-like structure that can dismantle, described amphibious remote-control toy also comprises housing axis I (33) and the housing axis II (34) of hollow structure, described housing axis I (33) is set to run through housing rear end face I (36) and extends to the position of running through drive end bearing bracket I (41), housing axis II (34) is set to run through housing rear end face II (38) and extends to the position of running through drive end bearing bracket II (42), the axis of centres (4) one end is set to the termination portion (39) that diameter dimension is greater than the axis of centres (4) body dimension, the axis of centres (4) other end is helicitic texture (57), the axis of centres (4) is simultaneously through housing axis I (33) and housing axis II (34), the axis of centres (4) arranges one end of helicitic texture (57) and extends drive end bearing bracket I (41), and be screwed the screw knob (40) coordinating with helicitic texture (57).
4. amphibious remote-control toy according to claim 3, it is characterized in that: described drive end bearing bracket I (41) and drive end bearing bracket II (42) coordinate installation by screw thread with threaded portion I (45) and the threaded portion II (46) of housing edge portion I (43) and housing edge portion II (44) respectively, in described enclosure body I (11) and enclosure body II (12), be set with tire I (47) and tire II (48), tire I (47) and tire II (48) are set in the position near drive end bearing bracket I (41) and drive end bearing bracket II (42).
5. amphibious remote-control toy according to claim 4, it is characterized in that: described drive end bearing bracket I (41) and the inner face of drive end bearing bracket II (42) arrange respectively end cap cap I (58) and the end cap cap II (59) of projection, end cap cap I (58) and end cap cap II (59) respectively with drive end bearing bracket I (41) and drive end bearing bracket II (42) exterior, housing axis I (33) and housing axis II (34) are set to respectively extend to the structure in end cap cap I (58) and end cap cap II (59), housing axis I (33) and housing axis II (34) are set to respectively coordinate with end cap cap I (58) and end cap cap II (59) inwall the structure of suit.
6. amphibious remote-control toy according to claim 5, it is characterized in that: circular groove structure I (60) is set in described end cap cap I (58), groove structure I (60) end face and the laminating of housing axis I (33) termination, end cap collision mat I (13) is set in groove structure I (60), circular groove structure II (61) is set in described end cap cap II (59), groove structure II (61) end face and the laminating of housing axis II (34) termination, arrange end cap collision mat II (14) in groove structure II (61).
7. amphibious remote-control toy according to claim 6, it is characterized in that: described battery I (17) and battery II (18) are fixedly mounted on respectively in battery case I cylindraceous (49) and battery case II (50), battery case I (49) and battery case II (50) are passed through respectively connecting portion I (51) and connecting portion II (52) movable set in housing axis I (33) and housing axis II (34), the position of housing axis I (33) and housing axis II (34) upper suit connecting portion I (51) and connecting portion II (52) is set to respectively the structure that diameter dimension is less than housing axis I (33) body and housing axis II (34) body diameter dimension.
8. amphibious remote-control toy according to claim 7, it is characterized in that: described enclosure body I (11), enclosure body II (12), drive end bearing bracket I (41), drive end bearing bracket II (42) is plastic material and makes, the described axis of centres (4) is metal material making, described tire I (47) and tire II (48) are elastomeric material and make, difference filling foamed plastics in tire I (47) and tire II (48), the described cover I (25) and strike and overlap II (26) and make with rubber or plastic material of striking, the cover I (25) of striking and the cover II (26) of striking are set in enclosure body I (11) and the upper side near tire I (47) and tire II (48) of enclosure body II (12).
9. amphibious remote-control toy according to claim 8, it is characterized in that: described enclosure body I (11) arranges step I (53) with the junction of threaded portion I (45), enclosure body II (12) arranges step II (54) with the junction of threaded portion II (46), in described threaded portion I (45) and threaded portion II (46), be set with housing waterproof jacket I (55) and housing waterproof jacket II (56), when described drive end bearing bracket I (41) and drive end bearing bracket II (42) are arranged on respectively in enclosure body I (11) and enclosure body II (12), housing waterproof jacket I (55) is installed between step I (53) and drive end bearing bracket I (41), housing waterproof jacket II (56) is installed between step II (54) and drive end bearing bracket II (42).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110419091.9A CN102600620B (en) | 2011-12-15 | 2011-12-15 | Amphibious remote-controlled toy |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110419091.9A CN102600620B (en) | 2011-12-15 | 2011-12-15 | Amphibious remote-controlled toy |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN102600620A CN102600620A (en) | 2012-07-25 |
| CN102600620B true CN102600620B (en) | 2014-04-09 |
Family
ID=46518619
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201110419091.9A Expired - Fee Related CN102600620B (en) | 2011-12-15 | 2011-12-15 | Amphibious remote-controlled toy |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102600620B (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104492091A (en) * | 2014-12-04 | 2015-04-08 | 东莞龙昌数码科技有限公司 | Amphibiousvehicle toy |
Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CA960860A (en) * | 1971-12-30 | 1975-01-14 | Rouben T. Terzian | Motor operated toy vehicle |
| US4902260A (en) * | 1988-03-08 | 1990-02-20 | Bando Sports, Ltd. | Amphibian toy car |
| JP2000042256A (en) * | 1998-07-29 | 2000-02-15 | Bandai Co Ltd | Driving device, boat device, and pedalling device |
| US6439948B1 (en) * | 1997-08-19 | 2002-08-27 | Mattel, Inc. | Two-wheeled amphibious toy vehicle |
| CN2657741Y (en) * | 2003-06-12 | 2004-11-24 | 开泰实业有限公司 | Four-wheel driven amphibious remote control toy vehicle |
| CN201735180U (en) * | 2010-05-12 | 2011-02-09 | 祝鹤松 | Positive and negative amphibious toy car |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20030040254A1 (en) * | 2001-08-23 | 2003-02-27 | Michael Greenberg | Self-propelled toy vehicle having an auxiliary water jet propulsion system |
| US7364490B2 (en) * | 2001-10-16 | 2008-04-29 | New Bright Industrial Co., Ltd. | Drive shaft assembly for toy vehicles |
-
2011
- 2011-12-15 CN CN201110419091.9A patent/CN102600620B/en not_active Expired - Fee Related
Patent Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CA960860A (en) * | 1971-12-30 | 1975-01-14 | Rouben T. Terzian | Motor operated toy vehicle |
| US4902260A (en) * | 1988-03-08 | 1990-02-20 | Bando Sports, Ltd. | Amphibian toy car |
| US6439948B1 (en) * | 1997-08-19 | 2002-08-27 | Mattel, Inc. | Two-wheeled amphibious toy vehicle |
| JP2000042256A (en) * | 1998-07-29 | 2000-02-15 | Bandai Co Ltd | Driving device, boat device, and pedalling device |
| CN2657741Y (en) * | 2003-06-12 | 2004-11-24 | 开泰实业有限公司 | Four-wheel driven amphibious remote control toy vehicle |
| CN201735180U (en) * | 2010-05-12 | 2011-02-09 | 祝鹤松 | Positive and negative amphibious toy car |
Also Published As
| Publication number | Publication date |
|---|---|
| CN102600620A (en) | 2012-07-25 |
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