CN100371185C - Automobile steering synchronous light lamp - Google Patents
Automobile steering synchronous light lamp Download PDFInfo
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- CN100371185C CN100371185C CNB2005100503124A CN200510050312A CN100371185C CN 100371185 C CN100371185 C CN 100371185C CN B2005100503124 A CNB2005100503124 A CN B2005100503124A CN 200510050312 A CN200510050312 A CN 200510050312A CN 100371185 C CN100371185 C CN 100371185C
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Abstract
The present invention relates to an automobile steering synchronous illuminating lamp which comprises a lamp holder, wherein an illumination lamp is arranged in the lamp holder; the lamp holder is provided with an inner hole spherical cavity, and a spherical wick is glidingly embedded in the inner hole spherical cavity; a transversal drive mechanism is embedded in the lower part of the spherical wick, and the transversal drive mechanism synchronously turns along the turning of a steering gear of front wheels of an automobile; a back longitudinal chute and a front longitudinal chute which are arranged on a joint extending part of the lower part of the spherical wick and the transversal drive mechanism are slide spaces used for the spherical wick to rotate up and down; the spherical wick is provided with a U-shaped groove, a longitudinal drive mechanism is embedded in the U-shaped groove, and the longitudinal drive mechanism freely adjusts the up and down oscillation amplitude of the spherical wick according to road surface conditions; a left transversal chute and a right transversal chute which are arranged on a joint extending part of longitudinal drive mechanism and the spherical wick are slide spaces used for the spherical wick to rotate right and left. When the angle of the steering gear of the front wheels of the automobile is changed, a drag rope simultaneously pulls a transversal moving rack bar to move, and drives a transversal swinging gear to wing, the light irradiating angle is automatically changed, and the spherical wick swings up and down through a whole motor speed change of a micro motor.
Description
Technical field
The present invention relates to a kind of vehicle light, relate in particular to automobile steering synchronous light lamp.
Technical background
Headlight for motor-driven vehicles is fixed on the vehicle cab leading section usually, in the night fog during steering vehicle, be fixed on vehicle cab leading section illuminating lamp only can along with headstock forward to the position directional lighting, always turning to than the slow bat of bearing circle of houselights, just light slowly slides to the road surface, the place ahead that forwards the position to.If travel on crooked road surface, chaufeur can only rely on the scattering light of headlight and the detour face that experience is judged the place ahead; When the chaufeur steering wheel rotation, drive track adjusting wheel, the headlight irradiation area hysteresis track adjusting wheel zone of in advance turning at this moment, special in the mountain area or the more road surface of bend, chaufeur can not in time be seen the ground-surface dangerous situation of travelling clearly, and has an accident again and again.
Application number 92229186.1 Chinese utility model patents disclose and have turned to synchronous light lamp, its improvement to the power actuated vehicle Lighting System is intended that: postpone before direction machine spindle arm bulb is done when drawing divertical motion, driving the crank connecting link transmission device by ball head connecting rod rotates, make the hollow lamp stand and the lamp holder that assign into the transmission device hollow shaft, rotate synchronously with track adjusting wheel and do horizontal left-right rotation illumination.From its patent document, transmission device is too complicated coarse, and volume is big, can't be fitted on the automobile.
Summary of the invention
The objective of the invention is to provides precise structure, volume little at prior art, can be with the rotation of track adjusting wheel synchronous horizontal and in real time by the vertical automobile steering synchronous light lamp of rotation of electric machine control.
The present invention solves the problems of the technologies described above the technical scheme that is adopted: automobile steering synchronous light lamp, be provided with the lamp bracket of illuminating lamp in comprising, and the endoporus spherical cavity sliding gomphosis that lamp bracket has has the ball-type wick; Concrete technical measures comprise: described ball-type wick bottom is embedded with cross-drive mechanism, and this cross-drive mechanism turns to synchronously with the described ball-type wick of the deflector transmission of vehicle front; Described ball-type wick bottom engages the sliding space that back vertical chute that extended spot has, preceding vertical chute can rotate up and down for the ball-type wick with cross-drive mechanism; Described ball-type wick has U-lag, and this U-lag is embedded with vertical transmission device, and this vertical transmission device is regulated the described ball-type wick amplitude of oscillation up and down arbitrarily according to the road surface situation; Vertically transmission device engage left horizontal concrete chute that extended spot has with described ball-type wick, sliding space when right horizontal concrete chute can supply ball-type wick left rotation and right rotation.
The technical scheme of further taking also comprises:
Above-mentioned cross-drive mechanism comprises wobble gear, horizontal tooth bar, horizontal drag-line, this wobble gear pendulum end embeds described ball-type wick bottom, wobble gear is that circular-arc external tooth end face meshes horizontal tooth bar, described horizontal drag-line is fixed on the tooth bar through fix screw, this horizontal drag-line is with two ends outward and is separately fixed on the transmission bracket, tooth bar moves the transmission through gear cluster, the drive tooth bar moves, the described horizontal drag-line and the drag-line overcoat bearing fit that is fixed on the transmission bracket that is fixed on tooth bar; Laterally other two ends of drag-line overcoat are fixed on the lamp bracket, laterally the drag-line center fixed is on horizontal tooth bar, horizontal drag-line and overcoat slide displacement, drive is positioned at the horizontal tooth bar left and right displacement on the lamp bracket, the wobble gear that drive is meshed is that the center of circle swings synchronously with the center pin, ball-type wick and illuminating lamp are that center-point swings synchronously with the ball-type wick center of circle, and horizontal drag-line of this illuminating lamp and vehicle front deflector angle are synchronous.
Above-mentioned vertical transmission device comprises wobble gear, longitudinal rack, vertical drag-line, and this wobble gear pendulum end embeds described ball-type wick U-lag, and wobble gear is circular-arc external tooth end face engagement longitudinal rack, and described vertical drag-line is controlled by miniature motor; The vertical drag-line displacement of miniature motor control pulling, longitudinal rack, wobble gear, ball-type wick are that the center of circle swings up and down with the round core point of ball-type wick, the teeter gear embeds ball-type wick one end can vertical chute, preceding vertical chute make the front and back sliding space along the back, and the width of described forward and backward vertical chute equals the width of described teeter gear pendulum termination; When swinging up and down transmission ball-type wick, the longitudinal oscillation gear swings up and down.
Above-mentioned cross-drive mechanism comprises center pin, wobble gear, horizontal tooth bar, horizontal drag-line, described center pin one end embeds described wobble gear, this center pin other end embeds described ball-type wick top, the termination portion of this center pin is rectangle, wobble gear is that circular-arc external tooth end face meshes horizontal tooth bar, described horizontal drag-line is fixed on the tooth bar through fix screw, this horizontal drag-line is with two ends outward and is separately fixed on the transmission bracket, tooth bar moves the transmission through gear cluster, the drive tooth bar moves, the described horizontal drag-line and the drag-line overcoat bearing fit that is fixed on the transmission bracket that is fixed on tooth bar; Laterally other two ends of drag-line overcoat are fixed on the lamp bracket, and it is to rotate angle changing by center pin that described ball-type wick left rotation and right rotation angle changes; Described vertical transmission device comprises flexible axle, connecting pin, connection worm screw, transmission swing worm gear swings up and down, swing worm gear one end embeds described ball-type wick U-lag, and the swing worm gear is that circular-arc outer face connects the connection worm screw, and described flexible axle is controlled by miniature motor; The rotation of miniature motor control turn flexible axle, connection worm screw, swing worm gear, ball-type wick are that the center of circle swings up and down with the round core point of ball-type wick; Center pin embeds ball-type wick upper end can be along sliding space before and after the vertical chute in back, the preceding vertical chute work, and the width of described forward and backward vertical chute equals the width of described center pin termination; Swing worm drive ball-type wick swings up and down.
The globoid of above-mentioned ball-type wick is selected for use large-scale, its inner bulb, lampshade installed; The ball-type wick is up and down or when swinging, all the time in the lamp bracket slides within.
The globoid of above-mentioned ball-type wick is selected for use small-sized, and bulb, lampshade are installed in its outside; The ball-type wick up and down or when swinging, its lampshade position can be in bigger space swing.
Compared with prior art, as the slip wick, bulb is installed in the middle of the slip wick with ball-type in the present invention, when vehicle front deflector angle changes, the side travel of drag-line pulling simultaneously tooth bar, transmission teeter gear (about) swing, conversion light-illuminating angle automatically.Light swings up and down by the logical machine speed change of micromotor, and flexible axle is transferred to worm and wormwheel swings up and down the ball-type wick, and this lamp light swing up and down is to regulate as required and voluntarily according to the different situations of road surface uphill/downhill or far and near light.Irradiation is that variation syn according to car front-wheel direction carries out about it, has changed orthodox car houselights angle like this and can not change, and car can not clearly be observed the road surface that needs driving in advance and influence traffic safety before turning.This lamp can be according to front-wheel steering angle synchronous change light-illuminating position, when automobile need be turned and before vehicle body also do not turn to, the road surface situation when light just can shine automobile turning was in advance understood the road surface situation so ahead of time, guarantees traffic safety.
Description of drawings
Fig. 1 is the embodiment of the invention one cross-sectional schematic;
Fig. 2 is that the A-A of Fig. 1 is to cross-sectional schematic;
Fig. 3 is Fig. 1 central cross cross-sectional schematic;
Fig. 4 is that deflector of the present invention is connected partial schematic sectional view with driver;
Fig. 5 is Fig. 4 schematic top plan view;
Fig. 6 is the embodiment of the invention two cross-sectional schematic;
Fig. 7 is that Fig. 6 overlooks partial schematic sectional view;
Fig. 8 is the embodiment of the invention three cross-sectional schematic;
Fig. 9 is that Fig. 8 overlooks partial schematic sectional view.
The specific embodiment
Embodiment describes in further detail the present invention below in conjunction with accompanying drawing.
Extremely shown in Figure 9 as Fig. 1.
Automobile steering synchronous light lamp is provided with the lamp bracket 4 of illuminating lamp 7 in comprising, the endoporus spherical cavity sliding gomphosis that lamp bracket 4 has has ball-type wick 5; Ball-type wick 5 bottoms are embedded with cross-drive mechanism, and this cross-drive mechanism turns to synchronously with the deflector transmission ball-type wick of vehicle front; Ball-type wick 5 bottoms engage the sliding space that back vertical chute VI, preceding vertical chute VII that extended spot has can rotate up and down for ball-type wick 5 with cross-drive mechanism; Ball-type wick 5 has U-lag, and this U-lag is embedded with vertical transmission device, and this vertical transmission device is regulated the ball-type wick amplitude of oscillation up and down arbitrarily according to the road surface situation; Sliding space when vertically transmission device engages left horizontal concrete chute III, right horizontal concrete chute IV that extended spot has and can supply ball-type wick 5 left rotation and right rotation with ball-type wick 5.
Fig. 1 selects for use large-scale to the globoid of ball-type wick 5 shown in Figure 3, its inner bulb, lampshade installed; The ball-type wick is up and down or when swinging, all the time in lamp bracket 4 slides within; And for example Fig. 6 is to shown in Figure 7, and the globoid of ball-type wick 5 is selected for use small-sized, and bulb, lampshade are installed in its outside; Ball-type wick 5 up and down or when swinging, its lampshade position can be in bigger space swing.
Cross-drive mechanism comprises wobble gear 10, horizontal tooth bar 11, horizontal drag-line 24, these wobble gear 10 pendulum ends embed ball-type wick 5 bottoms, wobble gear 10 meshes horizontal tooth bar 11 for circular-arc external tooth end face, Fig. 4 is to shown in Figure 5, laterally drag-line 24 is fixed on the tooth bar 20 through fix screw 25, being with two ends outside this horizontal drag-line 24 is separately fixed on the transmission bracket 21, tooth bar 15 moves the transmission through gear cluster, drive tooth bar 20 and move, be fixed on the horizontal drag-line 24 and the drag-line overcoat bearing fit that is fixed on the transmission bracket 21 of tooth bar 20; Laterally other two ends of drag-line 24 overcoats are fixed on the lamp bracket, laterally drag-line 24 center fixed are on horizontal tooth bar 11, horizontal drag-line 24 and overcoat slide displacement, drive is positioned at horizontal tooth bar 11 left and right displacement on the lamp bracket, the wobble gear 10 that drive is meshed is that the center of circle swings synchronously with center pin 9, ball-type wick 5 is that center-point swings synchronously with illuminating lamp 7 with the ball-type wick center of circle, and the horizontal drag-line 24 of this illuminating lamp is synchronous with vehicle front deflector angle; Vertically transmission device comprises wobble gear 3, longitudinal rack 2, vertical drag-line 1, and these wobble gear 3 pendulum ends embed ball-type wick 5U shape grooves, and wobble gear 3 is circular-arc external tooth end face engagement longitudinal rack 2, and vertical drag-line 1 is controlled by miniature motor; Vertical drag-line 1 displacement of miniature motor control pulling, longitudinal rack 2, wobble gear 3, ball-type wick 5 are that the center of circle swings up and down with the round core point of ball-type wick 5, wobble gear 10 embeds ball-type wick 5 one ends can vertical chute VI, preceding vertical chute VII make the front and back sliding space along the back, and the width of forward and backward vertical chute equals the width of wobble gear 10 pendulum terminations; Wobble gear 3 swings up and down transmission ball-type wick 5 and swings up and down.
Fig. 8 is to shown in Figure 9, cross-drive mechanism comprises center pin 9, wobble gear 10, horizontal tooth bar 11, horizontal drag-line 24, center pin 9 one ends embed wobble gear 10, these center pin 9 other ends embed ball-type wick 5 tops, the two ends head of this center pin 9 is rectangle, wobble gear 10 meshes horizontal tooth bar 11 for circular-arc external tooth end face, laterally drag-line 24 is fixed on the tooth bar 20 through fix screw 25, being with two ends outside this horizontal drag-line 24 is separately fixed on the transmission bracket 21, tooth bar 15 moves the transmission through gear cluster, drives tooth bar 20 and moves, the described horizontal drag-line 24 and the drag-line overcoat bearing fit that is fixed on the transmission bracket 21 that is fixed on tooth bar 20; Laterally other two ends of drag-line 24 overcoats are fixed on the lamp bracket, when horizontal drag-line 24 slides, laterally drag-line 24 embeds the E portion of horizontal tooth bar 11, and laterally tooth bar 11 swings drive the swing of wobble gear 10, come angle changing ball-type wick 5 left rotation and right rotation angles by center pin 9 rotations; Vertically transmission device comprises flexible axle 1A, connecting pin 31, connects worm screw 2A, transmission swing worm gear 3A swings up and down, swing worm gear 3A one end embeds ball-type wick 5U shape groove, and swing worm gear 3A is that circular-arc outer face connects connection worm screw 2A, and flexible axle 1A is controlled by miniature motor; Miniature motor control turn flexible axle 1A rotation, connection worm screw 2A, swing worm gear 3A, ball-type wick 5 are that the center of circle swings up and down with the round core point of ball-type wick 5; Center pin 9 embeds ball-type wick 5 upper ends can vertical chute VI, preceding vertical chute VII make the front and back sliding space along the back, and the width of forward and backward vertical chute equals the width of center pin 9 terminations; Swing worm gear 3A transmission ball-type wick 5 swings up and down.
Working process: as Fig. 4, transmission changer angle bar 14 of the present invention is fixed on the tooth bar 13 of deflector, make transmission bracket 21, be fixed on steering gear housing 23, when automobile need turn to hour rack 13 and relative the changing in housing 23 positions, identical variation has also taken place with the position of transmission bracket 21 on being fixed on steering gear housing 23 in the tooth bar 15 that is fixed on simultaneously on the angle bar 14, tooth bar 15 and transmission bracket 21 slide relative, and gear 16 rolls on tooth bar 15.Transmission by gear 16,17,18,19 changes, and tooth bar 20 is according to sliding in transmission bracket 21 slideway X, Y after the speed change.Because fix screw 25 is fixed on tooth bar 20 with 24 2 of drag-lines, drag-line 24 overcoats two ends are separately fixed on transmission bracket A1, the B1, when tooth bar 15 moves, transmission by gear 16,17,18,19, tooth bar 20 also will move simultaneously, the drag-line overcoat is fixed on the transmission bracket 21 because drag-line 24 is fixed on tooth bar 20, and the also relative occurrence positions with the drag-line overcoat of drag-line changes.Other two ends of drag-line 24 overcoats are fixed on Fig. 2 C, D two ends, the drag-line center fixed is in the E position of horizontal tooth bar 11, when drag-line 24 and overcoat position change, laterally sway also takes place in tooth bar 11 positions, Fig. 1 wobble gear 10 is that the center of circle swings simultaneously with center pin 9, wobble gear 10 is embedded in the bottom of ball-type wick, and ball-type wick 5 is that center-point swings synchronously with illuminating lamp 7 with the ball-type wick center of circle, and it is synchronous with the vehicle front steering angle that this lamp just reaches.
It is by motor Fig. 1 drag-line 1 to be moved up and down drag-line to drive tooth bar 2 that the far and near optic angle degree of light changes, transmission wobble gear 3, wobble gear one end embeds the U position of ball-type wick 5, when wobble gear swung up and down, ball-type wick 5 was that the center swings up and down the variation that reaches the far and near light of illuminating lamp with the sphere center of circle.
When sliding, the horizontal drag-line 24 of Fig. 2 drives transverse teeth bar 11, wobble gear 10, ball-type wick 5, laterally (about) during the conversion light angle, wobble gear 3 embeds ball-type wick 5U place among Fig. 3, and III, VI are left and right sides slideway, and this slideway is spacing up and down, so the ball-type wick can only left and right sides angle change along slideway, non-angular changes up and down.
If when motor is shifted 1 pulling of Fig. 1 drag-line, tooth bar 2, wobble gear 3, ball-type wick 5 are that the center of circle swings up and down with the round core point of ball-type wick 5, Fig. 1 is because an end of wobble gear 10 embeds ball-type wick 5 bottoms, when the ball-type wick slides up and down, wobble gear 3 embeds ball-type wick 5 one ends can make the front and back sliding space along VI, VII, Fig. 2 wobble gear about 10 is because ball-type wick 5 is placed restrictions on by the position, so when wobble gear swings up and down, (far and near light change) swing about the ball-type wick can only be done can not made left and right sides angle and change.Realized turning to the automatic tracking illumination like this, far and near light is regulated as required voluntarily.
Fig. 1, Fig. 6 and Fig. 8 are for three kinds is wick with the ball-type, is rotation center with the ball center, laterally swings with drag-line, tooth bar, wobble gear equally.And its different Fig. 6 and the variation of Fig. 8 ball-type wick 5 left rotation and right rotation angles are to come angle changing by center pin 9 rotations.
After (far and near light variation) swing is the miniature motor speed change about it, Fig. 8 is by driving snake 1A transmission, driving snake 1A connects worm screw 2A through connecting pin 31, transmission swing worm gear 3A swings up and down, swing worm gear 3A one end embeds ball-type wick 5, when the swing worm gear swung up and down, ball-type wick 5 was that the center of circle swings up and down with the center of ball, realized that far and near light changes.Connect worm screw 2A two ends and be respectively equipped with end face spin 32,33 and bearing 40,34, be used to connect worm screw 2A and roll, screw 35 is used for installing laterally swing wobble gear, tooth bar; Screw 36 mounting center pins 9, center pin 9 outer circumference surfaces are with bearing 38, and center pin 9 two ends are provided with steel ball 39 and cooperate rotation with bearing 38.
Less according to Fig. 6 and its ball-type of Fig. 8, bulb, lampshade are installed on the ball-type, when the ball-type wick up and down or when swinging, will there be bigger swing space at its lampshade position.And Fig. 1 ball-type wick is bigger, and bulb, lampshade all are installed in ball-type inside, when ball-type wick up and down or when swinging, all the time in lamp bracket 4 slides within.
Though the present invention illustrates and describes by the reference preferred embodiment, but, those skilled in the art should understand, and under the situation of the spirit and scope of the present invention that do not deviate from claims and limited, can carry out various variations in form and details.
Claims (6)
1. automobile steering synchronous light lamp is provided with the lamp bracket (4) of illuminating lamp (7) in comprising, the endoporus spherical cavity sliding gomphosis that lamp bracket (4) has has ball-type wick (5); It is characterized in that: described ball-type wick (5) bottom is embedded with cross-drive mechanism, and this cross-drive mechanism turns to synchronously with the described ball-type wick of the deflector transmission of vehicle front; Described ball-type wick (5) bottom engages the sliding space that back vertical chute (VI) that extended spot has, preceding vertical chute (VII) can rotate up and down for ball-type wick (5) with cross-drive mechanism; Described ball-type wick (5) has U-lag, and this U-lag is embedded with vertical transmission device, and this vertical transmission device is regulated the described ball-type wick amplitude of oscillation up and down arbitrarily according to the road surface situation; Vertically transmission device engage left horizontal concrete chute (III) that extended spot has with described ball-type wick (5), sliding space when right horizontal concrete chute (IV) can supply ball-type wick (5) left rotation and right rotation.
2. automobile steering synchronous light lamp according to claim 1, it is characterized in that: described cross-drive mechanism comprises wobble gear (10), horizontal tooth bar (11), horizontal drag-line (24), this wobble gear (10) pendulum end embeds described ball-type wick (5) bottom, wobble gear (10) meshes horizontal tooth bar (11) for circular-arc external tooth end face, described horizontal drag-line (24) is fixed on the tooth bar (20) through fix screw (25), being with two ends outside this horizontal drag-line (24) is separately fixed on the transmission bracket (21), tooth bar (15) moves the transmission through gear cluster, drive tooth bar (20) and move, the described horizontal drag-line (24) and the drag-line overcoat bearing fit that is fixed on the transmission bracket (21) that is fixed on tooth bar (20); Laterally other two ends of drag-line (24) overcoat are fixed on the lamp bracket, laterally drag-line (24) center fixed is on horizontal tooth bar (11), horizontal drag-line (24) and overcoat slide displacement, drive is positioned at horizontal tooth bar (11) left and right displacement on the lamp bracket, the wobble gear that drive is meshed (10) is that the center of circle swings synchronously with center pin (9), ball-type wick (5) is that center-point swings synchronously with illuminating lamp (7) with the ball-type wick center of circle, and the horizontal drag-line of this illuminating lamp (24) is synchronous with vehicle front deflector angle.
3. automobile steering synchronous light lamp according to claim 1 and 2, it is characterized in that: described vertical transmission device comprises wobble gear (3), longitudinal rack (2), vertical drag-line (1), this wobble gear (3) pendulum end embeds described ball-type wick (5) U-lag, wobble gear (3) is circular-arc external tooth end face engagement longitudinal rack (2), and described vertical drag-line (1) is controlled by miniature motor; The miniature motor control vertical drag-line of pulling (1) displacement, longitudinal rack (2), wobble gear (3), ball-type wick (5) are that the center of circle swings up and down with the round core point of ball-type wick (5), wobble gear (3) embeds ball-type wick (5) one ends can vertical chute (VI), preceding vertical chute (VII) make the front and back sliding space along the back, and the width of described forward and backward vertical chute equals the width of described wobble gear (10) pendulum termination; Wobble gear (3) swings up and down transmission ball-type wick (5) and swings up and down.
4. automobile steering synchronous light lamp according to claim 1, it is characterized in that: described cross-drive mechanism comprises center pin (9), wobble gear (10), horizontal tooth bar (11), horizontal drag-line (24), described center pin (9) one ends embed described wobble gear (10), this center pin (9) other end embeds described ball-type wick (5) top, the termination portion of this center pin (9) is rectangle, wobble gear (10) meshes horizontal tooth bar (11) for circular-arc external tooth end face, described horizontal drag-line (24) is fixed on the tooth bar (20) through fix screw (25), being with two ends outside this horizontal drag-line (24) is separately fixed on the transmission bracket (21), tooth bar (15) moves the transmission through gear cluster, drive tooth bar (20) and move, the described horizontal drag-line (24) and the drag-line overcoat bearing fit that is fixed on the transmission bracket (21) that is fixed on tooth bar (20); Laterally other two ends of drag-line (24) overcoat are fixed on the lamp bracket, and it is to come angle changing by center pin (9) rotation that described ball-type wick (5) left rotation and right rotation angle changes;
Described vertical transmission device comprises flexible axle (1A), connecting pin (31), connects worm screw (2A), transmission swing worm gear (3A) swings up and down, swing worm gear (3A) end embeds described ball-type wick (5) U-lag, swing worm gear (3A) connects worm screw (2A) for circular-arc outer face connects, and described flexible axle (1A) is controlled by miniature motor; Miniature motor control turn flexible axle (1A) rotation, connection worm screw (2A), swing worm gear (3A), ball-type wick (5) they are that the center of circle swings up and down with the round core point of ball-type wick (5); Center pin (9) embeds ball-type wick (5) upper end can be along sliding space before and after the vertical chute (VI) in back, preceding vertical chute (VII) work, and the width of described forward and backward vertical chute equals the width of described center pin (9) termination; Swing worm gear (3A) transmission ball-type wick (5) swings up and down.
5. automobile steering synchronous light lamp according to claim 3 is characterized in that: inner bulb, the lampshade installed of the globoid of described ball-type wick (5); The ball-type wick is up and down or when swinging, all the time in lamp bracket (4) slides within.
6. automobile steering synchronous light lamp according to claim 4 is characterized in that: the globoid of described ball-type wick (5) is selected for use small-sized, and bulb, lampshade are installed in its outside; Ball-type wick (5) up and down or when swinging, its lampshade position can be in bigger space swing.
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CNB2005100503124A CN100371185C (en) | 2005-05-12 | 2005-05-12 | Automobile steering synchronous light lamp |
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CNB2005100503124A CN100371185C (en) | 2005-05-12 | 2005-05-12 | Automobile steering synchronous light lamp |
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CN1686739A CN1686739A (en) | 2005-10-26 |
CN100371185C true CN100371185C (en) | 2008-02-27 |
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CN102341647B (en) * | 2009-03-06 | 2015-06-17 | 皇家飞利浦电子股份有限公司 | Peak/flat adjustment |
CN103032842B (en) * | 2012-12-24 | 2014-05-07 | 广东永强奥林宝国际消防汽车有限公司 | Vehicle lamp support, vehicle device, and fire vehicle |
US9188302B2 (en) * | 2013-12-19 | 2015-11-17 | GM Global Technology Operations LLC | Vehicle and a headlamp assembly for the vehicle |
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CN2176284Y (en) * | 1992-08-08 | 1994-09-07 | 罗安定 | Light synchronized with direction turning |
US5453914A (en) * | 1992-08-29 | 1995-09-26 | Robert Bosch Gmbh | Arrangement with at least two structural parts adjustably connectable by an adjusting screw |
US5567035A (en) * | 1994-06-17 | 1996-10-22 | Robert Bosch Gmbh | Headlight for vehicles with reflector adjusting device |
JPH09180510A (en) * | 1995-12-12 | 1997-07-11 | Robert Bosch Gmbh | Headlight of vehicle |
JPH10228804A (en) * | 1997-02-14 | 1998-08-25 | Honda Motor Co Ltd | Head light device for vehicle |
JP2003168306A (en) * | 2001-11-29 | 2003-06-13 | Ichikoh Ind Ltd | Vehicular headlamp |
JP2003212035A (en) * | 2002-01-24 | 2003-07-30 | Stanley Electric Co Ltd | Head lamp for two-wheeled vehicle |
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2005
- 2005-05-12 CN CNB2005100503124A patent/CN100371185C/en not_active Expired - Fee Related
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2176284Y (en) * | 1992-08-08 | 1994-09-07 | 罗安定 | Light synchronized with direction turning |
US5453914A (en) * | 1992-08-29 | 1995-09-26 | Robert Bosch Gmbh | Arrangement with at least two structural parts adjustably connectable by an adjusting screw |
US5567035A (en) * | 1994-06-17 | 1996-10-22 | Robert Bosch Gmbh | Headlight for vehicles with reflector adjusting device |
JPH09180510A (en) * | 1995-12-12 | 1997-07-11 | Robert Bosch Gmbh | Headlight of vehicle |
JPH10228804A (en) * | 1997-02-14 | 1998-08-25 | Honda Motor Co Ltd | Head light device for vehicle |
JP2003168306A (en) * | 2001-11-29 | 2003-06-13 | Ichikoh Ind Ltd | Vehicular headlamp |
JP2003212035A (en) * | 2002-01-24 | 2003-07-30 | Stanley Electric Co Ltd | Head lamp for two-wheeled vehicle |
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