CN206973464U - Car light MEMS intelligent illuminating systems, vehicle lamp assembly and automobile - Google Patents

Abstract

It the utility model is related to automobile lamp technical field, more particularly to a kind of car light MEMS intelligent illuminating systems, vehicle lamp assembly and automobile.The car light includes light source and MEMS pixel array with MEMS intelligent illuminating systems, the light that light source is sent projects after MEMS pixel array transmission, MEMS pixel array includes multiple support bases for having light transmission passage and being distributed in array, is movably provided with a micro- catch of the MEMS that can be turned on and off light transmission passage on each support base and drives the micro- catch of the MEMS micro- catch drive circuits of MEMS movable on support base.The hunting frequency of the micro- catch of MEMS on single pixel point is individually controlled by the micro- catch drive circuits of MEMS, can be achieved to project the regulation of light gray scale, there is the advantages of pixel height, light modulation precision height, small volume, operational reliability and stability are good, integrated level is high.

Description

Car light MEMS intelligent illuminating systems, vehicle lamp assembly and automobile

Technical field

It the utility model is related to automobile lamp technical field, more particularly to a kind of car light MEMS intelligent illuminating systems, bag Include the vehicle lamp assembly of car light MEMS intelligent illuminating systems and the automobile including the vehicle lamp assembly.

Background technology

Car light is the important composition part of automobile, and illumination is provided for driver when it is travelled in night running or tunnel, Enable a driver to see front road conditions clearly, so as to ensure traffic safety.

With the development of automobile industry, the illuminator of automobile lamp is increasingly intelligent, disclosure satisfy that various photographs Bright demand.But there is optical power loss height in current intelligent automotive light illuminating system, pixel is low, volume is big, without gray scale adjustment Defect.Such as matrix form headlamp of the prior art, it can realize intelligent lighting, but pixel is low, bulky, is not easy Realize the miniaturization of Intelligent lamp.DLP (Digital Light Processing, digital light processing) technology can realize light fixture High pixel illumination, but its complicated optical system can cause huge loss to luminous power, and the utilization rate of light source is relatively low.

Utility model content

The technical problems to be solved in the utility model be to provide one kind can adjust gray scale, pixel height, small volume, operation can Include the vehicle lamp assembly of car light MEMS intelligent illuminating systems with MEMS intelligent illuminating systems by the good car light of property and stability And the automobile including the vehicle lamp assembly, to overcome the drawbacks described above of prior art.

In order to solve the above-mentioned technical problem, the utility model adopts the following technical scheme that：

A kind of car light MEMS intelligent illuminating systems, including light source and MEMS pixel array, the light warp that light source is sent Projected after MEMS pixel array transmission, MEMS pixel array includes multiple with light transmission passage and in the support of array distribution , movably it is provided with a micro- catch of the MEMS that can be turned on and off light transmission passage on each support base and driving MEMS is micro- The micro- catch drive circuits of catch MEMS movable on support base.

Preferably, support base is a frame-type support base, and the frame of frame-type support base surrounds a hollow region, hollow area Domain forms light transmission passage, and the micro- catch of MEMS is rotatably arranged on frame-type support base and in hollow region.

Preferably, the micro- catch of MEMS includes the actuating arm on frame-type support base and the micro mirror being connected with actuating arm, The micro- catch drive circuit driving actuating arms of MEMS deform and drive micro mirror to be rotated in hollow region.

Preferably, the micro- catch of MEMS includes the actuating arm on frame-type support base, the side of actuating arm and frame-type Support base connects, and opposite side can rotate under the driving of the micro- catch drive circuits of MEMS in hollow region.

Preferably, support base is a supporting plate, and through hole is offered in supporting plate, and through hole forms light transmission passage, the micro- gears of MEMS Piece is located in supporting plate in which can be slidably reciprocated along the radial direction of through hole.

Preferably, light source collimation lens is provided between light source and MEMS pixel array.

Preferably, light source is LASER Light Source, and fluorescent screen is provided between LASER Light Source and MEMS pixel array.

Preferably, light source is LED light source or xenon light source or halogen light source.

A kind of vehicle lamp assembly, including car light as described above MEMS intelligent illuminating systems.

A kind of automobile, including vehicle lamp assembly as described above.

Compared with prior art, the utility model has significant progressive：

After the light that light source is sent is projected on MEMS pixel array, light transmission passage that can be through being opened on support base transmits Cross MEMS pixel array and project, on each pixel of MEMS pixel array, can pass through the micro- catch drive circuits of MEMS The micro- catch of corresponding MEMS is individually controlled, on the one hand, by individually controlling the micro- catch of MEMS on single pixel point to open The light transmission passage for opening or closing on support base, the control of light entirety bright-dark degree projected from MEMS pixel array transmission can be achieved System regulation；On the other hand, the micro- catch of MEMS on single pixel point opened by the way that light transmission passage is operated alone is on support base Swing, and control its hunting frequency, can be achieved to project the regulation of light gray scale.With pixel height, light modulation precision height, small volume, The advantages of operational reliability and stability are good, integrated level is high.

Brief description of the drawings

Fig. 1 is the structural representation of the car light MEMS intelligent illuminating systems of the utility model embodiment.

Fig. 2 is that the car light of the utility model embodiment is matched with the support base of MEMS intelligent illuminating systems with the micro- catch of MEMS The first structural representation closed.

Fig. 3 is that the car light of the utility model embodiment is matched with the support base of MEMS intelligent illuminating systems with the micro- catch of MEMS Second of the structural representation closed.

Fig. 4 is that the car light of the utility model embodiment is matched with the support base of MEMS intelligent illuminating systems with the micro- catch of MEMS The third structural representation closed.

Fig. 5 is that the car light of the utility model embodiment is used with the support base of MEMS intelligent illuminating systems with the micro- catch of MEMS When mode shown in Fig. 3 or Fig. 4 is engaged, schematic diagram when light transmission passage fully opens.

Fig. 6 is that the car light of the utility model embodiment is used with the support base of MEMS intelligent illuminating systems with the micro- catch of MEMS When mode shown in Fig. 3 or Fig. 4 is engaged, schematic diagram when light transmission passage completely closes.

Fig. 7 is that the car light of the utility model embodiment is matched with the support base of MEMS intelligent illuminating systems with the micro- catch of MEMS The 4th kind of structural representation closed.

Fig. 8 is the structural representation when car light of the utility model embodiment is provided with lens with MEMS intelligent illuminating systems.

In figure：

1st, light source 2, fluorescent screen

3rd, MEMS pixel array 4, support base

41st, frame-type support base 410, hollow region

42nd, supporting plate 420, through hole

5th, the micro- catch 51 of MEMS, actuating arm

52nd, micro mirror 6, light source collimation lens

7th, projection lens

Embodiment

Specific embodiment of the present utility model is described in further detail below in conjunction with the accompanying drawings.These embodiments are only For illustrating the utility model, and it is not limitation of the utility model.

, it is necessary to explanation in description of the present utility model, term " " center ", " longitudinal direction ", " transverse direction ", " on ", " under ", The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer " are Based on orientation shown in the drawings or position relationship, it is for only for ease of description the utility model and simplifies description, rather than instruction Or imply that signified device or element must have specific orientation, with specific azimuth configuration and operation, therefore be not understood that For to limitation of the present utility model.In addition, term " first ", " second " be only used for describe purpose, and it is not intended that instruction or Imply relative importance.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, on can understanding as the case may be State concrete meaning of the term in the utility model.

In addition, in description of the present utility model, unless otherwise indicated, " multiple " are meant that two or more.

It should be noted that MEMS (Micro-Electro-Mechanical System, MEMS) refers to by half Conductor material or other controllable micro mechanical structure systems formed suitable for micro-machined material, the original substantially of the micro- catch of MEMS Reason be by the effect of electrostatic (or magnetic force, or electric heating) make can micro- catch of activity rotate or translation.

As shown in Figures 1 to 8, car light of the present utility model a kind of embodiment of MEMS intelligent illuminating systems.

As shown in figure 1, the car light of the present embodiment includes light source 1 and MEMS pixel array 3, light with MEMS intelligent illuminating systems The light that source 1 is sent projects after the transmission of MEMS pixel array 3, and MEMS pixel array 3 includes multiple branch in array distribution Seat 4 is supportted, each support base 4 is respectively provided with light transmission passage, and being movably provided with one on each support base 4 can be turned on and off The micro- catch 5 of MEMS of the optical channel MEMS micro- catch drive circuit movable on support base 4 with the driving micro- catch 5 of MEMS is (in figure It is not shown).That is, one of each support base 4 and the micro- composition MEMS pixel of catch 5 arrays 3 of MEMS on the support base 4 Pixel, the micro- catch 5 of MEMS on each pixel is individually connected with the micro- catch drive circuits of a MEMS, single so as to realize The independent control of the micro- catch 5 of MEMS on pixel.On the single pixel point of MEMS pixel array 3, when the micro- catch 5 of MEMS will prop up When light transmission passage on support seat 4 all blocks, the light transmission passage on the support base 4 is closed, then light can not be saturating from the pixel Penetrate；When the micro- catch 5 of MEMS not exclusively blocks the light transmission passage on support base 4, the light transmission passage on the support base 4 is opened, then Light can transmit from the pixel.The original state of the micro- catch 5 of MEMS can be made on each pixel in the present embodiment State that optical channel is opened or the state for closing light transmission passage, the initial shape of the micro- catch 5 of MEMS on all pixels point State can all, can also be different.

The car light of the present embodiment MEMS intelligent illuminating systems, the light that light source is sent are projected on MEMS pixel array 3 Afterwards, can the light transmission passage through being opened on support base 4 projected transmitted through MEMS pixel array 3, in the every of MEMS pixel array 3 On individual pixel, the micro- catch of corresponding MEMS 5 can be individually controlled by the micro- catch drive circuits of MEMS, on the one hand, By individually controlling the micro- catch 5 of MEMS on single pixel point to be turned on and off the light transmission passage on support base 4, can be achieved from The control and regulation for the light entirety bright-dark degree that the transmission of MEMS pixel array 3 is projected；On the other hand, led to by the way that printing opacity is operated alone The micro- catch 5 of MEMS on single pixel point that road is opened is swung on support base 4, and controls its hunting frequency, can be achieved to project The regulation of light gray scale.With pixel height, light modulation precision height, small volume, operational reliability and that stability is good, integrated level is high is excellent Point.

The micro- catch 5 of support base 4 and MEMS in the present embodiment does not limit in the mode of the activity of support base 4.

As shown in Figures 2 to 4, in one embodiment, support base 4 can be frame-type support base 41, frame-type branch It can be rectangular frame to support seat 41, or other shapes of framework.The frame of frame-type support base 41 surrounds a hollow area Domain 410, hollow region 410 forms light transmission passage, during the micro- catch 5 of MEMS is rotatably arranged on frame-type support base 41 and is located at In dummy section 410, and the size of the size and hollow region 410 of the micro- catch 5 of MEMS matches.By the micro- catch drive circuits of MEMS Drive the micro- catch 5 of corresponding MEMS to be rotated on frame-type support base 41, the micro- catch of MEMS 5 can be achieved and all block or not exclusively Hollow region 410 is blocked, that is, realizes turning off or on for light transmission passage.When the micro- catch 5 of MEMS not exclusively blocks hollow region 410 When, the micro- catch drive circuit driving micro- catch 5 of MEMS of MEMS rotates around it axis and swung back and forth, and controls the micro- catch 5 of MEMS Hunting frequency, so as to realize the regulation for projecting light gray scale.

During using said frame formula support base 41, the micro- catch 5 of MEMS is rotatably arranged on frame-type support base 41 and position Do not limit in the mode in hollow region 410.It is for instance possible to use set-up mode as shown in Figure 2：The micro- phases of catch 5 of MEMS The middle part and frame-type support base 41 of both sides are rotatably coupled, the micro- catch drive circuits of MEMS are by way of electromagnetic drive The driving micro- catch 5 of MEMS swings back and forth.Set-up mode as shown in Figure 3, the side of the micro- catch 5 of MEMS and framework can also be used Formula support base 41 is rotatably coupled, and the opposite side of the micro- catch 5 of MEMS is then under the driving of the micro- catch drive circuits of MEMS in Carry out back rotation in dummy section 410.Specifically, the micro- catch 5 of MEMS include actuating arm 51 on the frame-type support base 41 and with The micro mirror 52 that actuating arm 51 connects, the micro- catch drive circuits of MEMS drive actuating arm 51 to deform by way of electrothermal drive And micro mirror 52 is driven to carry out back rotation in hollow region 410.Certainly, as shown in figure 4, the micro- catch 5 of MEMS can also be not provided with it is micro- Mirror 52, and the size of actuating arm 51 is lengthened, the size of the size and hollow region 410 of actuating arm 51 is matched, actuating arm 51 side is connected with frame-type support base 41, the opposite side of actuating arm 51 then under the driving of the micro- catch drive circuits of MEMS Rotated in hollow region 410, micro mirror 52 is substituted by actuating arm 51 so as to realize.

As shown in figure 5, the micro- catch 5 of the MEMS of the present embodiment is arranged on frame-type branch by the way of as shown in Figure 3 or Figure 4 When supportting on seat 41, drive actuating arm 51 to deform by way of electrothermal drive by the micro- catch drive circuits of MEMS, can make The micro- catch 5 of MEMS turns to the position for not blocking the hollow region 410 of frame-type support base 41, so that on frame-type support base 41 Light transmission passage fully open.

As shown in fig. 6, the micro- catch 5 of the MEMS of the present embodiment is arranged on frame-type branch by the way of as shown in Figure 3 or Figure 4 When supportting on seat 41, drive actuating arm 51 to deform by way of electrothermal drive by the micro- catch drive circuits of MEMS, can make The micro- catch 5 of MEMS turns to the position for all blocking the hollow region 410 of frame-type support base 41, so that frame-type support base Light transmission passage on 41 completely closes.

As shown in fig. 7, in another embodiment, support base 4 can be supporting plate 42, and through hole is offered in supporting plate 42 420, through hole 420 forms light transmission passage, and the micro- catch 5 of MEMS is located in supporting plate 42 in which can be slidably reciprocated along the radial direction of through hole 420, And the area of the micro- catch 5 of MEMS is not less than the area of through hole 420.The corresponding micro- gears of MEMS are driven by the micro- catch drive circuits of MEMS Piece 5 slides in supporting plate 42, and the micro- catch 5 of MEMS can be achieved and all block or not exclusively block through hole 420, that is, realize that printing opacity leads to Road turns off or on.When the micro- catch 5 of MEMS not exclusively blocks through hole 420, the micro- catch drive circuit driving MEMS of MEMS are micro- Radial direction of the catch 5 along through hole 420 is slidably reciprocated, and controls the sliding frequency of the micro- catch 5 of MEMS, and light gray scale is projected so as to realize Regulation.

The micro- catch drive circuits of MEMS in the present embodiment can use MEMS drive circuits of the prior art, and it drives The principle that the micro- catch 5 of MEMS rotates or driven the micro- catch 5 of MEMS to be slided in supporting plate 42 on frame-type support base 41 is also Prior art, it will not go into details herein.

Further, as shown in figure 8, the present embodiment can be provided with light source collimation thoroughly between light source 1 and MEMS pixel array 3 Mirror 6, the light that light source 1 is sent transmit through light source collimation lens 6, are projected again on MEMS pixel array 3 after adjusting light type. Projection lens 7 can also be provided with after MEMS pixel array 3, the light transmitted through MEMS pixel array 3 projects projection lens 7 On, projected after the transmission of projection lens 7.

Further, the light source in the present embodiment can use LASER Light Source.When using LASER Light Source, as shown in figure 1, Fluorescent screen 2 is provided between LASER Light Source and MEMS pixel array 3, the light that LASER Light Source is sent is converted into after fluorescent screen 2 Meet the white light of vehicle light illumination needs, then projected transmitted through MEMS pixel array 3.

Certainly, the light in the present embodiment can also use LED light source or xenon light source or halogen light source.

Based on above-mentioned car light MEMS intelligent illuminating systems, the present embodiment additionally provides a kind of vehicle lamp assembly, the present embodiment Vehicle lamp assembly include car light as described above MEMS intelligent illuminating systems.

Based on above-mentioned vehicle lamp assembly, the present embodiment additionally provides a kind of automobile, and the automobile of the present embodiment is included as described above Vehicle lamp assembly.

In summary, the car light of the present embodiment MEMS intelligent illuminating systems including car light MEMS intelligent lightings system The vehicle lamp assembly of system and the automobile including the vehicle lamp assembly, can after the light that light source is sent is projected on MEMS pixel array 3 Projected with the light transmission passage through being opened on support base 4 transmitted through MEMS pixel array 3, in each picture of MEMS pixel array 3 On vegetarian refreshments, the micro- catch of corresponding MEMS 5 can be individually controlled by the micro- catch drive circuits of MEMS, on the one hand, pass through Individually the micro- catch 5 of MEMS on control single pixel point is turned on and off the light transmission passage on support base 4, can be achieved from MEMS pictures The control and regulation for the light entirety bright-dark degree that the transmission of pixel array 3 is projected；On the other hand, opened by the way that light transmission passage is operated alone Single pixel point on the micro- catch 5 of MEMS swung on support base 4, and control its hunting frequency, can be achieved to project light ash The regulation of degree.With pixel height, light modulation precision height, small volume, operational reliability and stability are good, integrated level is high the advantages of.

Described above is only preferred embodiment of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of the utility model technical principle is not departed from, some improvement and replacement can also be made, these change Enter and replace and also should be regarded as the scope of protection of the utility model.

Claims (10)

1. a kind of car light MEMS intelligent illuminating systems, it is characterised in that described including light source (1) and MEMS pixel array (3) The light that light source (1) is sent projects after the MEMS pixel array (3) transmits, and the MEMS pixel array (3) includes multiple , each movably can provided with one on the support base (4) with light transmission passage and in the support base (4) of array distribution It is turned on and off the micro- catch of MEMS (5) of the light transmission passage and drives the micro- catch of MEMS (5) on the support base (4) The micro- catch drive circuits of MEMS of activity.

2. car light according to claim 1 MEMS intelligent illuminating systems, it is characterised in that the support base (4) is one Frame-type support base (41), the frame of the frame-type support base (41) surround a hollow region (410), the hollow region (410) light transmission passage is formed, the micro- catch of MEMS (5) is rotatably arranged on the frame-type support base (41) and position In the hollow region (410).

3. car light according to claim 2 MEMS intelligent illuminating systems, it is characterised in that the micro- catch of MEMS (5) Including the actuating arm (51) on the frame-type support base (41) and the micro mirror (52) being connected with the actuating arm (51), institute Stating the micro- catch drive circuits of MEMS drives the actuating arm (51) to deform and drive the micro mirror (52) in the hollow area Rotated in domain (410).

4. car light according to claim 2 MEMS intelligent illuminating systems, it is characterised in that the micro- catch of MEMS (5) Including the actuating arm (51) on the frame-type support base (41), side and the frame-type branch of the actuating arm (51) Seat (41) connection is supportted, and opposite side can be under the driving of the micro- catch drive circuits of the MEMS in the hollow region (410) Interior rotation.

5. car light according to claim 1 MEMS intelligent illuminating systems, it is characterised in that the support base (4) is one Supporting plate (42), through hole (420) is offered on the supporting plate (42), the through hole (420) forms the light transmission passage, described The micro- catch of MEMS (5) is located in the supporting plate (42) in which can be slidably reciprocated along the radial direction of the through hole (420).

6. car light according to claim 1 MEMS intelligent illuminating systems, it is characterised in that in the light source (1) and institute State and be provided with light source collimation lens (6) between MEMS pixel array (3).

7. car light according to claim 1 MEMS intelligent illuminating systems, it is characterised in that the light source (1) is laser Light source, fluorescent screen (2) is provided between the LASER Light Source and the MEMS pixel array (3).

8. car light according to claim 1 MEMS intelligent illuminating systems, it is characterised in that the light source (1) is LED light Source or xenon light source or halogen light source.

9. a kind of vehicle lamp assembly, it is characterised in that including the MEMS intelligence of the car light as described in any one in claim 1-8 Illuminator.

10. a kind of automobile, it is characterised in that including vehicle lamp assembly as claimed in claim 9.