CN201337822Y - Remote control drift toy car - Google Patents

Abstract

A remote control drift toy car comprises a car frame, and two front wheels, two rear wheels, a drive mechanism, a remote control circuit and a steering mechanism which are arranged on the car frame, wherein the remote control circuit is connected with the drive mechanism which is connected with the two rear wheels by a driven mechanism, and the two front wheels are respectively and rotatably fixed on the two sides of the front half part of the car frame and are connected by a rotating shaft, the rotating shaft is provided with a one-way clutch, and the drive mechanism is connected with the one-way clutch by the driven mechanism, the surfaces of the tires of the two front wheels and the two rear wheels are neat and smooth, and the two front wheels and the two rear wheels adopt the tires with smaller friction coefficient. The utility model has the advantages that since the one-way clutch is adopted, the electronic toy car is in four-wheel drive when moving forward, and is in rear-wheel drive when moving backward, so the player can switch different drive modes, thereby, the electronic toy car can bring about different feels when playing the toy car, and adds the enjoyment and playability for the electronic toy.

Description

Remote control drift toy car

Technical field

The utility model relates to a kind of toy car, can realize the remote control drift toy car that drifted about curved more specifically to a kind of.

Background technology

Existing true car, especially some racing cars when swerving, in order to pass through bend faster, are usually adopted the drift technology, make car that suitable sideslip be taken place, and promptly pass through bend.The principle of drift is: make the trailing wheel of car lose major part (perhaps whole) earth-grasping force, front-wheel is wanted to keep earth-grasping force (can only lose fraction at most simultaneously, preferably can obtain extra earth-grasping force), at this moment as long as front-wheel has certain cross force, car so just can produce sideslip with regard to whipping, and the circuit that breaks away is controlled accurately by the driver, be used for promptly by bend drift that Here it is.If the sideslip of car is out of control, then can not be called drift.In order to allow the driver can control the sideslip circuit of car accurately, it is curved to drift about accurately, and therefore the structure to car has special requirement, such as: preferably adopt rear wheel drive etc.And some professional driver reaches the curved purpose of drifting about accurately in order accurately to control the sideslip of car, need reequip accordingly car toward contact.

And existing remote control drift toy car, there are huge difference in its structure and true car, test discovery through the applicant, and existing remote control drift toy car all can't accurately be controlled the sideslip of car as true car, and it is curved to drift about accurately.Through applicant's discoverys that study for a long period of time, the problem that existing remote control drift toy car can't drift about goes out on the structural design of remote control drift toy car itself, and the drift about structural design of toy car of existing remote control can't satisfy the needs of drift.

At first, the power of motor of remote control drift toy car is fixed, and the kinetic energy at the remote control drift toy car rear portion of the remote control drift toy car body forward structure of employing rear wheel drive or employing front-wheel drive is not enough, therefore is difficult to the realization drift; Then there is same problem in the remote control drift toy car of 4 wheel driven with true car, is difficult to make that remote control drift toy car front-wheel and trailing wheel speed are inconsistent, therefore is difficult to realize drift more than genuine 4-wheel driven car.Secondly, the existing remote control drift tire that toy car adopted all is soft tire, and be carved with anti-skidding decorative pattern on the tire circumference face, the tire and the frictional force between the ground of remote control drift toy car are bigger, and this has just caused remote control drift toy car to be difficult to the phenomenon that occurs skidding.In a single day thirdly, the front-wheel of existing remote control drift toy car is vertical with ground, therefore swerves, the centrifugal force of remote control drift toy car causes remote control drift toy car to overturn easily.So existing remote control drift toy car turns over one rapidly and bends, in case skid then whole remote control drift toy car is out of control fully, turn-take while sliding on ground, if non-slip then might overturn, existing remote control drift toy car is difficult to finish the curved excessively action of drift as true car.

The utility model content

The purpose of this utility model is that prior art is improved, and a kind of remote control drift toy car is provided, and it is curved to drift about, and the technical scheme of employing is as follows:

Remote control drift toy car of the present utility model, comprise vehicle frame, be installed in two front vehicle wheels on the vehicle frame, two rear wheels, driving mechanism, remote control circuit and steering mechanism, remote control circuit connects driving mechanism, driving mechanism connects two rear wheels by transmission mechanism, two rotating respectively preceding half section both sides of vehicle frame that are fixed on of front vehicle wheel, and connect by rotating shaft between two front vehicle wheels, it is characterized in that: in the described rotating shaft one-way clutch is installed, driving mechanism connects one-way clutch by transmission mechanism.This just makes driving mechanism to drive front vehicle wheel by transmission mechanism, one-way clutch and rotating shaft and rolls forward; When driving mechanism reversed, one-way clutch inner ring and outer ring broke away from automatically, so driving mechanism can't drive front vehicle wheel and rolls backwards.Above-mentioned front vehicle wheel rolls forward, just sees front vehicle wheel from the right side of remote control drift toy car, and front vehicle wheel rotates counterclockwise; And front vehicle wheel rolls backwards, then is to see front vehicle wheel from the right side of remote control drift toy car, and front vehicle wheel clockwise rotates.Like this, when the user controls remote control drift toy car and opens forward, remote control drift toy car is four-wheel drive, for remote control drift toy car provides enough kinetic energy, when will controlling remote control drift toy car, the user drifted about curved the time, driving mechanism quits work or reverses, remote control drift this moment toy car becomes rear wheel drive, therefore this moment, front-wheel can keep earth-grasping force, steering mechanism drives front-wheel and turns over suitable angle, just can allow remote control drift toy car whipping, remote control drift toy car just can produce sideslip like this, thereby realizes the purpose that remote control drift toy car drifted about and bends.

A kind of fairly simple scheme, described one-way clutch adopts Ratcheting one-way clutch, comprises outer ring, inner ring, and inner ring is fixed in the rotating shaft, the outer sheathed ratchet of inner ring, the outer ring is rotating to be enclosed within the rotating shaft, and the outer ring medial surface is provided with at least one ratchet, and ratchet one end is rotating to be fixed on the medial surface of outer ring, the ratchet other end connects the outer ring inner peripheral surface by spring, ratchet and ratchet engaged, the outer ring outer circumference surface is provided with annular rack, and annular rack connects transmission mechanism.When the outer ring rotates counterclockwise, ratchet and ratchet engaged, drive ratchet, inner ring rotate counterclockwise; When the outer ring clockwise rotated, ratchet was pushed open by ratchet, can't drive ratchet, inner ring clockwise rotates, and the relative inner ring in outer ring clockwise rotates, and inner ring is motionless.More than counterclockwise, the judgement that clockwise rotates, all be to see one-way clutch from the right side of remote control drift toy car, just be as the criterion and judge with the right view of remote control drift toy car.

In order to reduce the frictional force between front vehicle wheel, rear wheel and the ground, the outer circumference surface of described front vehicle wheel is equipped with tire, and the outer surface of tire of front vehicle wheel is smooth smooth, and the outer circumference surface of rear wheel also is equipped with tire, and the outer surface of tire of rear wheel is smooth smooth.That is to say that the outer surface of tire of front vehicle wheel and rear wheel does not have the structural design of meeting increase frictional force such as projection or groove, and the outer surface of tire of front vehicle wheel and rear wheel is smooth smooth, thereby reaches the purpose that reduces friction.

In order further to reduce the frictional force between front vehicle wheel, rear wheel and the ground, described front vehicle wheel can also adopt the less tire of coefficient of friction, and rear wheel also can adopt the less tire of coefficient of friction.Like this, remote control drift toy car just drifted about curved than being easier to realization.Adopt these technology, can effectively reduce the frictional force on wheel and ground, allow remote control drift toy car more be easy to generate sideslip, so that remote control drift toy car drifted about curved, remote control drift toy car can adapt to various ground, enlarged the scope of application of remote control drift toy car, so the user need not to look for the suitable curved place that drifted about.

Because remote control drift toy car will adopt the drift technology curved excessively, if adopt the front-wheel design of existing remote control drift toy car, because the front-wheel of existing remote control drift toy car is vertical with ground, therefore in case swerve, remote control drift toy car overturns easily, so another purpose of the present utility model, it is the fixed structure that improves the front-wheel of remote control drift toy car, reduce the probability that remote control drift toy car overturns, the scheme that adopts is as follows: described front-wheel comprises holder, wheel hub, tire, connector, tire is fixed on the wheel hub outer circumference surface, and connector is positioned at holder, but and the rotation of connector relative fixed seat, connector one end passes holder and connects wheel hub, the connector other end connects rotating shaft, and holder is rotating to be fixed on the vehicle frame, and the spacing on two front-wheel tops is less than the spacing of two front-wheel bottoms.Because the spacing on two front-wheel tops less than the spacing of two front-wheel bottoms, therefore can suitably reduce the center of gravity of remote control drift toy car.When remote control drift toy car is turned, because action of centrifugal force, vehicle body can tilt to the direction opposite with turn direction, cause remote control drift toy car to overturn easily, therefore this design can reduce the influence of remote control drift toy car centrifugal force to remote control drift toy car, reduce vehicle body to the degree that the turning rightabout tilts, effectively avoid remote control drift toy car to overturn.

A kind of more excellent scheme, described holder top and bottom are equipped with a reference column, and two reference columns are positioned on the straight line, the left and right sides on vehicle frame top is respectively equipped with a locating ring, the left and right sides of vehicle frame bottom is respectively equipped with a locating ring, the reference column on holder top inserts in the locating ring of vehicle frame top correspondence, and the reference column of holder bottom inserts in the locating ring of vehicle frame bottom correspondence.

The two ends of described rotating shaft are respectively equipped with a spherical connector, the side of spherical connector is provided with two locating pieces, described connector is a gimbal suspension, one end of gimbal suspension passes holder and connects wheel hub, the gimbal suspension other end has connecting hole, have locating slot in the connecting hole, the spherical connector at rotating shaft two ends is rotating respectively to be located in the connecting hole of a front vehicle wheel gimbal suspension, and two locating pieces of spherical connector insert in the locating slot in the connecting holes.Like this, rotating shaft can drive gimbal suspension, wheel hub rotates around rotating shaft, and gimbal suspension, wheel hub can follow holder to swing, therefore steering mechanism can control front wheel shimmy accurately, allow remote-controlled toy vehicle rotate suitable angle, this drifted about curved to remote-controlled toy vehicle is very important.

Locating slot in a kind of scheme preferably, described connecting hole is similar " one " font, and two locating pieces of the spherical connector side of rotating shaft all are positioned on the straight line vertical with rotating shaft.Like this, two locating pieces can insert in the locating slot of similar " one " font in the connecting hole.

The holder of described two front vehicle wheels is equipped with fork, and fork is away from the straight line at reference column place, described steering mechanism comprises and turns to driving mechanism, gear train, tooth bar, turn to the output of driving mechanism to connect gear train, the output gear wheel and rack engagement of gear train, tooth bar and shaft parallel, the two ends of tooth bar have a swinging chute, swinging chute is vertical with rotating shaft, and the fork of two front vehicle wheel holders inserts respectively in the swinging chute of corresponding with it tooth bar.Turn to driving mechanism driven gear group to rotate, the output gear of gear train with rotation be converted to tooth bar along with the rectilinear motion of shaft parallel direction, the fork of rack drives front vehicle wheel holder makes front vehicle wheel turn to around the reference column swing of holder, thereby allows remote control drift toy car turn.

In order to protect the parts on the vehicle frame, also, the car shell is installed on the described vehicle frame in order to make remote control drift toy car more attractive in appearance.

Described driving mechanism adopts direct current generator, and the described driving mechanism that turns to adopts direct current generator.

The utility model beneficial effect against existing technologies is, owing to adopted one-way clutch, when therefore remote control drift toy car advances is four-wheel drive, for remote control drift toy car provides enough kinetic energy, become rear wheel drive when retreating, make front-wheel can keep earth-grasping force, steering mechanism drives front-wheel and turns over suitable angle, just can allow remote control drift toy car drift about curved; The surface of four wheels is all smooth smooth, and all adopt the less tire of coefficient of friction, can effectively reduce the frictional force on wheel and ground, allow remote control drift toy car more be easy to generate sideslip, so that remote control drift toy car drifted about curved, remote control drift toy car can adapt to various ground, has enlarged the scope of application of remote control drift toy car; The spacing on two front-wheel tops is less than the spacing of two front-wheel bottoms, can suitably reduce the center of gravity of remote control drift toy car, can reduce of the influence of remote control drift toy car centrifugal force to remote control drift toy car, reduce vehicle body to the degree that the turning rightabout tilts, effectively avoid remote control drift toy car to overturn; The structure that rotating shaft and gimbal suspension are worked in coordination, make that rotating shaft can drive gimbal suspension, wheel hub rotates around rotating shaft, and gimbal suspension, wheel hub can follow holder to swing, so that steering mechanism controls front wheel shimmy accurately, make that the turning of remote-controlled toy vehicle can accurately be controlled.

Description of drawings

Fig. 1 is the vehicle frame and the car shell separated structures schematic diagram of the utility model preferred embodiment;

Fig. 2 is the vertical view of vehicle frame;

Fig. 3 is the structural representation of one-way clutch;

Fig. 4 is the structural representation of front vehicle wheel;

Fig. 5 is the front view of front vehicle wheel;

Fig. 6 is the exploded view of front vehicle wheel;

Fig. 7 is the left view of vehicle frame;

Fig. 8 is the exploded view of vehicle frame and front vehicle wheel part;

Fig. 9 is the decomposing schematic representation of front vehicle wheel and rotating shaft;

Figure 10 is the vertical view of steering mechanism;

Figure 11 is the upward view of steering mechanism;

Figure 12 is the exploded view of steering mechanism.

The specific embodiment

Shown in Fig. 1-12, remote control drift toy car in this preferred embodiment, comprise vehicle frame 1, be installed in car shell 2 on the vehicle frame 1, two front vehicle wheels 3, two rear wheels 4, driving mechanism 5, remote control circuit (not shown) and steering mechanism 6, remote control circuit connects driving mechanism 5.Vehicle frame 1 is made up of loam cake 101 and underframe 102, and loam cake 101 is installed on the underframe 102.In order to see other mechanism clearly, Fig. 2 has removed loam cake 101.Driving mechanism 5 adopts direct current generator.Transmission mechanism 7 comprises first travelling gear 701, first output gear 702, second output gear 703, connecting rod 704, second output gear 703 is fixed on the front end of connecting rod 704, and first travelling gear 701, first output gear 702 are fixed on the rear end of connecting rod 704.

As shown in Figure 2, two rear wheel 4 rotating being fixed on the vehicle frame 1 connect by connecting axle 8 between two rear wheels 4, and rotating disk 9 is installed on the connecting axle 8, and the periphery of rotating disk 9 is provided with annular rack 901.The output shaft of driving mechanism 5 is equipped with output gear 501, output gear 501 and 701 engagements of first travelling gear, and first output gear 702 and annular rack 901 engagements are given two rear wheels 4 with the transmission of power of driving mechanism 5 outputs.

Two front vehicle wheels 3 are rotating respectively to be fixed on the preceding half section both sides of vehicle frame 1, and connects by rotating shaft 10 between two front vehicle wheels 3, in the described rotating shaft 10 one-way clutch 11 is installed.

As Fig. 2, shown in 3, driving mechanism 5 connects one-way clutch 11 by transmission mechanism 7, described one-way clutch 11 adopts Ratcheting one-way clutch, comprise outer ring 111, inner ring 112, inner ring 112 is fixed in the rotating shaft 10, inner ring 112 outer sheathed ratchets 113, outer ring 111 rotating being enclosed within the rotating shaft 10, outer ring 111 medial surfaces are provided with three ratchets 114, ratchet 114 1 ends are rotating to be fixed on 111 medial surfaces of outer ring, and ratchet 114 other ends connect outer ring 111 inner peripheral surfaces by spring 115, ratchet 114 and ratchet 113 engagements, outer ring 111 outer circumference surfaces are provided with annular rack 116, annular rack 116 and 703 engagements of second output gear.When outer ring 111 rotates counterclockwise, ratchet 114 and ratchet 113 engagements, drive ratchet 113, inner ring 112 rotate counterclockwise; When outer ring 111 clockwise rotated, ratchet 114 was pushed open by ratchet 113, can't drive ratchet 113, inner ring 112 clockwise rotates, and outer ring 111 relative inner rings 112 clockwise rotate, and inner ring 112 is motionless.More than counterclockwise, the judgement that clockwise rotates, all be to see one-way clutch 11 from the right side of remote control drift toy car, just be as the criterion and judge with the right view of remote control drift toy car.

Driving mechanism 5 can pass through transmission mechanism 7, one-way clutch 11 and rotating shaft 10 drive front vehicle wheels 3 and roll forward; In the time of driving mechanism 5 counter-rotating, one-way clutch 11 inner rings 112 break away from automatically with outer ring 111, so driving mechanism 5 can't drive front vehicle wheel 3 and rolls backwards.Above-mentioned front vehicle wheel 3 rolls forward, just sees front vehicle wheel from the right side of remote control drift toy car, and front vehicle wheel 3 rotates counterclockwise; And front vehicle wheel 3 rolls backwards, then is to see front vehicle wheel 3 from the right side of remote control drift toy car, and front vehicle wheel 3 clockwise rotates.Like this, when the user controls remote control drift toy car and opens forward, remote control drift toy car is four-wheel drive, for remote control drift toy car provides enough kinetic energy, when will controlling remote control drift toy car, the user drifted about curved the time, driving mechanism 5 quits work or reverses, remote control drift this moment toy car becomes rear wheel drive, therefore this moment, front-wheel 3 can keep earth-grasping force, steering mechanism 6 drives front-wheel 3 and turns over suitable angle, just can allow remote control drift toy car whipping, remote control drift toy car just can produce sideslip like this, thereby realizes the purpose that remote control drift toy car drifted about and bends.

Shown in Fig. 4-6, described front-wheel 3 comprises holder 303, wheel hub 302, tire 301, connector 304, tire 301 is fixed on wheel hub 302 outer circumference surfaces, connector 304 is positioned at holder 303, and but connector 304 relative fixed seats 303 rotate, connector 304 1 ends pass holder 303 and connect wheel hub 302, connector 304 other ends connect rotating shaft 10, holder 303 rotating being fixed on the vehicle frame 1, and the spacing on two front-wheel 3 tops (tire 301 tops just) can suitably reduce the center of gravity of remote control drift toy car like this less than the spacing of two front-wheel 3 bottoms (tire 301 bottoms just).When remote control drift toy car is turned, because action of centrifugal force, vehicle body can tilt to the turning rightabout, cause remote control drift toy car to overturn easily, therefore this design can reduce the influence of remote control drift toy car centrifugal force to remote control drift toy car, reduce vehicle body to the degree that the turning rightabout tilts, effectively avoid remote control drift toy car to overturn.

As Fig. 7, shown in 8, the left and right sides on described holder 303 tops is respectively equipped with first reference column 3031, the left and right sides of holder 303 bottoms is respectively equipped with second reference column 3032, and first reference column 3031, second reference column 3032 is positioned on the straight line, loam cake 101 tops of vehicle frame 1 are provided with first locating ring 1011, underframe 102 bottoms are provided with second locating ring 1021, first reference column 3031 on holder 303 tops inserts in first locating ring 1011 on loam cake 101 tops, and second reference column 3032 of holder 303 bottoms inserts in second locating ring 1021 of underframe 102 bottoms.

Shown in Fig. 4-6, described front vehicle wheel 3 tires 301 outer surfaces are smooth smooth.As shown in Figure 1, 2, rear wheel 4 outer surface of tire are smooth smooth.That is to say that front vehicle wheel 3 and rear wheel 4 outer surface of tire do not have projection or groove etc. can increase the structural design of frictional force, and front vehicle wheel 3 and rear wheel 4 outer surface of tire are smooth smooth, thereby reach the purpose that reduces friction.

Described front vehicle wheel 3 adopts the less tire 301 of coefficient of friction, and rear wheel 4 adopts the less tire of coefficient of friction (just hard tire).Like this, remote control drift toy car just drifted about curved than being easier to realization.Adopt these technology, can effectively reduce the frictional force on wheel and ground, allow remote control drift toy car more be easy to generate sideslip, so that remote control drift toy car drifted about curved, remote control drift toy car can adapt to various ground, enlarged the scope of application of remote control drift toy car, so the user need not to look for the suitable curved place that drifted about.

As Fig. 4-6, shown in 9, the two ends of described rotating shaft 10 are provided with spherical connector 1001, the side of spherical connector 1001 is provided with first locating piece 1002, second locating piece 1003, described connector 304 is a gimbal suspension, one end of connector 304 passes holder 303 and connects wheel hub 302, connector 304 other ends have connecting hole 3041, have locating slot 3042 in the connecting hole 3041, the spherical connector 1001 at rotating shaft 10 two ends is rotating respectively to be located in the connecting hole 3041 of front vehicle wheel 3 connectors 304 first locating piece 1002 of spherical connector 1001, in the locating slot 3042 that second locating piece 1003 inserts in the connecting hole 3041.Like this, rotating shaft 10 can drive connector 304, wheel hub 302 and rotate around rotating shaft 10, and connector 304, wheel hub 302 can follow holder 303 to swing, so steering mechanism 6 can control the front vehicle wheel swing, allows remote-controlled toy vehicle turn.

Locating slots 3042 in the described connecting hole 3041 are similar " one " font, and first locating piece 1002 of spherical connector 1001 sides of rotating shaft 10, second locating piece 1003 all are positioned on the straight line vertical with rotating shaft 10.First locating piece 1002, second locating piece 1003 can insert in the locating slot 3042 of similar " one " font in the connecting hole 3041.

Shown in Figure 10-12, the holder 303 of described two front vehicle wheels 3 is equipped with fork 3033, fork 3033 is away from first reference column 3031, the straight line at second reference column, 3032 places, described steering mechanism 6 comprises and turns to driving mechanism 602, gear train, tooth bar 601, turn to driving mechanism 602 to be direct current generator, gear train comprises co-axially fixed gear wheel 604, pinion 605, turn to the output of driving mechanism 602 that output gear 603 is installed, output gear 603 and gear wheel 604 engagements, pinion 605 and tooth bar 601 engagements, tooth bar 601 is parallel with rotating shaft 10, the two ends of tooth bar 601 have a swinging chute 6011, swinging chute 6011 is vertical with rotating shaft 10, and the fork 3033 of two front vehicle wheel 3 holders 303 inserts respectively in the swinging chute 6011 of corresponding with it tooth bar 601.Turn to driving mechanism 602 driven gear groups to rotate, the output gear of gear train with rotation be converted to tooth bar 601 along with the rectilinear motion of rotating shaft 10 parallel directions, tooth bar 601 drives the fork 3033 of front vehicle wheel 3 holders 303 around first reference column 3031 of holder 303, the swing of second reference column, 3032 place straight lines, make front vehicle wheel 3 turn to, thereby allow remote control drift toy car turn.

The above is preferred embodiment of the present utility model only, is not to be used for limiting practical range of the present utility model; Be all equivalents of being done according to claim scope of the present utility model, be the utility model claim scope and cover.

Claims (10)

1, a kind of remote control drift toy car, comprise vehicle frame, be installed in two front vehicle wheels on the vehicle frame, two rear wheels, driving mechanism, remote control circuit and steering mechanism, remote control circuit connects driving mechanism, driving mechanism connects two rear wheels by transmission mechanism, two rotating respectively preceding half section both sides of vehicle frame that are fixed on of front vehicle wheel, and connect by rotating shaft between two front vehicle wheels, it is characterized in that: in the described rotating shaft one-way clutch is installed, driving mechanism connects one-way clutch by transmission mechanism.

2, remote control drift toy car as claimed in claim 1, it is characterized in that: described one-way clutch adopts Ratcheting one-way clutch, comprise outer ring, inner ring, inner ring is fixed in the rotating shaft, the outer sheathed ratchet of inner ring, the outer ring is rotating to be enclosed within the rotating shaft, the outer ring medial surface is provided with at least one ratchet, ratchet one end is rotating to be fixed on the medial surface of outer ring, the ratchet other end connects the outer ring inner peripheral surface by spring, ratchet and ratchet engaged, the outer ring outer circumference surface is provided with annular rack, and annular rack connects transmission mechanism.

3, remote control drift toy car as claimed in claim 1 or 2, it is characterized in that: the outer circumference surface of described front vehicle wheel is equipped with tire, the outer surface of tire of front vehicle wheel is smooth smooth, and the outer circumference surface of rear wheel also is equipped with tire, and the outer surface of tire of rear wheel is smooth smooth.

4, remote control drift toy car as claimed in claim 1 or 2, it is characterized in that: described front vehicle wheel comprises holder, wheel hub, tire, connector, tire is fixed on the wheel hub outer circumference surface, connector is positioned at holder, but and the rotation of connector relative fixed seat, connector one end passes holder and connects wheel hub, and the connector other end connects rotating shaft, holder is rotating to be fixed on the vehicle frame, and the spacing on two front vehicle wheel tops is less than the spacing of two front vehicle wheel bottoms.

5, remote control drift toy car as claimed in claim 4, it is characterized in that: described holder top and bottom are equipped with a reference column, and two reference columns are positioned on the straight line, the left and right sides on vehicle frame top is respectively equipped with a locating ring, the left and right sides of vehicle frame bottom is respectively equipped with a locating ring, the reference column on holder top inserts in the locating ring of vehicle frame top correspondence, and the reference column of holder bottom inserts in the locating ring of vehicle frame bottom correspondence.

6, remote control drift toy car as claimed in claim 5, it is characterized in that: the two ends of described rotating shaft are respectively equipped with a spherical connector, the side of spherical connector is provided with two locating pieces, described connector is a gimbal suspension, one end of gimbal suspension passes holder and connects wheel hub, the gimbal suspension other end has connecting hole, have locating slot in the connecting hole, the spherical connector at rotating shaft two ends is rotating respectively to be located in the connecting hole of a front vehicle wheel gimbal suspension, and two locating pieces of spherical connector insert in the locating slot in the connecting holes.

7, remote control drift toy car as claimed in claim 6, it is characterized in that: the locating slot in the described connecting hole is similar " one " font, and two locating pieces of the spherical connector side of rotating shaft all are positioned on the straight line vertical with rotating shaft.

8, remote control drift toy car as claimed in claim 7, it is characterized in that: the holder of described two front vehicle wheels is equipped with fork, and fork is away from the straight line at reference column place, described steering mechanism comprises and turns to driving mechanism, gear train, tooth bar, turn to the output of driving mechanism to connect gear train, the output gear wheel and rack engagement of gear train, tooth bar and shaft parallel, the two ends of tooth bar have a swinging chute, swinging chute is vertical with rotating shaft, and the fork of two front vehicle wheel holders inserts respectively in the swinging chute of corresponding with it tooth bar.

9, remote control drift toy car as claimed in claim 1 is characterized in that: the car shell is installed on the described vehicle frame.

10, remote control drift toy car as claimed in claim 9, it is characterized in that: described driving mechanism adopts direct current generator, and the described driving mechanism that turns to adopts direct current generator.

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