TW201441981A - Safety auxiliary system of automobiles - Google Patents

Safety auxiliary system of automobiles Download PDF

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Publication number
TW201441981A
TW201441981A TW102113427A TW102113427A TW201441981A TW 201441981 A TW201441981 A TW 201441981A TW 102113427 A TW102113427 A TW 102113427A TW 102113427 A TW102113427 A TW 102113427A TW 201441981 A TW201441981 A TW 201441981A
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Taiwan
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electrode
power supply
reticle
module
supply unit
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TW102113427A
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Chinese (zh)
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TWI474290B (en
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hui-ling Zhang
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Nat Univ Chin Yi Technology
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Abstract

The present invention discloses a safety auxiliary system of automobiles, which includes penetrating port and light mask device provided on two lateral pillars, power supply unit and control unit. The mask device masks the penetrating port and includes two electrodes and crystal complex film. The control unit controls the timing of supplied power from the power supply unit to the electrodes. The crystal complex film will be transparent when the electrodes produce electric field by electric power, so as to eliminate the dead space of vision of the lateral pillars.

Description

汽車前側視角之安全輔助系統 Safety auxiliary system for front view of car

本發明係關於一種汽車前側視角之安全輔助系統,尤指一種可以消除因汽車二邊柱遮蔽所致視覺死角的安全輔助技術。 The invention relates to a safety auxiliary system for a front view angle of a vehicle, in particular to a safety assisting technology capable of eliminating visual dead angle caused by the shielding of the two side columns of the automobile.

按,車輛各邊柱(例如車體A柱、B柱及C柱)雖然具備支撐車頂以及緩衝翻滾所致重力的安全功用,惟,卻也間接造成行車視覺死角的問題產生。其中,A柱係為車輛左、右前側方的二邊柱,當車輛於行車時,駕駛者左、右前側方的視線會被A柱所遮蔽。尤其是當車輛於轉向時,駕駛者左、右前側方視線被遮蔽的情況會更加嚴重,以致駕駛者較無法即時有效地掌握並注意道路的狀況,因而容易發生交通事故的情事,因此,如何降低行車視野死角實已成為相關業者所急欲克服的挑戰與難題。 According to the vehicle, the side columns of the vehicle (such as the A-pillar, B-pillar and C-pillars of the car body) have the safety function of supporting the roof and the gravity caused by the buffering, but they also indirectly cause the problem of the visual dead angle of the driving. Among them, the A-pillar is a two-sided column on the left and right front sides of the vehicle. When the vehicle is driving, the line of sight of the driver's left and right front sides is blocked by the A-pillar. Especially when the vehicle is turning, the driver's left and right front side lines of sight are blocked, so that the driver is less able to grasp and pay attention to the condition of the road immediately and effectively, so that traffic accidents are easy to occur, therefore, how Reducing the dead angle of driving vision has become a challenge and problem that the relevant industry is eager to overcome.

針對上述缺失,同領域業者已研發出一種如美國發明公告第6428087號所示的專利,其係於汽車其側方的A柱設置複數個呈三角形狀的鏤空槽,雖然駕駛者可藉由鏤空槽觀看原被A柱遮蔽的視線,惟,鏤空槽的尺寸過大,因而影響到A柱的整體結構強度。 In response to the above-mentioned deficiencies, the same industry has developed a patent as shown in U.S. Patent Publication No. 6428087, which is provided with a plurality of triangular shaped hollow slots in the A-pillar on the side of the car, although the driver can use the hollowing out. The trough looks at the line of sight that was originally obscured by the A-pillar. However, the size of the hollow trough is too large, thus affecting the overall structural strength of the A-pillar.

另有一種如本國發明公開第200619067號『使車輛A柱等同透明的裝置』、新型第M310830號『汽車A柱消除視障裝置』以及發明公開第200724421號『車用全景影像裝置』,該等專利係將攝影裝置分別設置在車輛的A柱上,並於A柱內面設置一顯示器,雖然該等專利可藉由影像處 理,使原本被A柱遮蔽的影像由顯示器做與外界影像連結的顯示,由於顯示器僅能在特定視線角度達到與外界影像連結的效果,故駕駛者在大多的情況下,僅能觀看失真或扭曲的影像畫面,因而較無法有效降低A柱所遮蔽的視線。 There is also a device for making a vehicle A column equivalent to transparency, a new type M310830 "automobile A-pillar elimination visually impaired device", and a disclosure of the invention No. 200724421 "a panoramic image device for a vehicle", such as the National Invention Publication No. 200619067. The patent system sets the photographic device on the A-pillar of the vehicle and sets a display on the inner surface of the A-pillar, although the patents can be used by the image. The image that is originally obscured by the A-pillar is displayed by the display to be connected to the external image. Since the display can only achieve the effect of connecting with the external image at a specific line of sight angle, the driver can only view the distortion or in most cases. The distorted image is less effective in reducing the line of sight obscured by the A-pillar.

有鑑於此,本發明人認為該等專利確實未臻完善,仍然有再改善的必要性,因此,本發明人乃再深入研究,進而研發出如本發明所揭露的技術成果。 In view of the above, the inventors believe that the patents are not perfect, and there is still a need for further improvement. Therefore, the inventors have further studied and developed the technical results as disclosed in the present invention.

本發明之第一目的,在於提供一種可以有效降低A柱遮蔽區域的汽車前側視角之安全輔助系統,藉由大幅降低車輛A柱所造成的視線死角,以提升車輛行駛的安全性。達成本發明目的之技術手段,係包括設置於汽車前側之二邊柱的穿透部、光罩裝置、供電單元及一控制單元。光罩裝置罩設在穿透部上,光罩裝置包含第一電極、第二電極及介置在第一電極與第二電極之間的高分子分散液晶複合膜。控制單元用以控制供電單元對電極組的供電時機,當電極組獲得供電單元的供電時,第一電極與第二電極之間則產生電場,並驅使高分子分散液晶複合膜之液晶分子朝向與電場平行或垂直的方向排列,俾使光罩裝置呈現透明的狀態,藉以消除因二邊柱遮蔽所致的視覺死角。 A first object of the present invention is to provide a safety assisting system capable of effectively reducing the front view angle of an A-pillar shielding area, which can greatly improve the safety of driving of the vehicle by greatly reducing the line of sight dead angle caused by the A-pillar of the vehicle. The technical means for achieving the object of the present invention includes a penetration portion of a double-sided column provided on the front side of the automobile, a mask device, a power supply unit, and a control unit. The mask device is disposed on the penetrating portion, and the mask device includes a first electrode, a second electrode, and a polymer dispersed liquid crystal composite film interposed between the first electrode and the second electrode. The control unit is configured to control the power supply timing of the power supply unit to the electrode group. When the electrode group obtains the power supply of the power supply unit, an electric field is generated between the first electrode and the second electrode, and the liquid crystal molecules of the polymer dispersed liquid crystal composite film are driven to face. The electric fields are arranged in parallel or perpendicular directions, so that the reticle device is in a transparent state, thereby eliminating the visual dead angle caused by the shielding of the two side columns.

本發明之第二目的,在於提供一種依據車輛轉向狀態而自動降低其中一側A柱遮蔽區域的汽車前側視角之安全輔助系統。達成本發明目的之技術手段,係包括設置於汽車前側之二邊柱的穿透部、光罩裝置、供電單元及一控制單元。光罩裝置罩設在穿透部上,光罩裝置包含第一電 極、第二電極及介置在第一電極與第二電極之間的高分子分散液晶複合膜。控制單元用以控制供電單元對電極組的供電時機,當電極組獲得供電單元的供電時,第一電極與第二電極之間則產生電場,並驅使高分子分散液晶複合膜之液晶分子朝向與電場平行或垂直的方向排列,俾使光罩裝置呈現透明的狀態,藉以消除因二邊柱遮蔽所致的視覺死角。其中控制單元更包含至少一轉向感測模組及至少一驅動電路。該轉向感測模組用以感測該汽車的轉向狀態而產生二種感測訊號,該驅動電路則受該感測訊號的觸發而控制該供電單元對該光罩裝置的該電極組供電。 A second object of the present invention is to provide a safety assist system for automatically reducing the front view of a vehicle in which one side of the A-pillar is shielded according to the steering state of the vehicle. The technical means for achieving the object of the present invention includes a penetration portion of a double-sided column provided on the front side of the automobile, a mask device, a power supply unit, and a control unit. The reticle device is disposed on the penetrating portion, and the reticle device includes the first electricity a pole, a second electrode, and a polymer dispersed liquid crystal composite film interposed between the first electrode and the second electrode. The control unit is configured to control the power supply timing of the power supply unit to the electrode group. When the electrode group obtains the power supply of the power supply unit, an electric field is generated between the first electrode and the second electrode, and the liquid crystal molecules of the polymer dispersed liquid crystal composite film are driven to face. The electric fields are arranged in parallel or perpendicular directions, so that the reticle device is in a transparent state, thereby eliminating the visual dead angle caused by the shielding of the two side columns. The control unit further includes at least one steering sensing module and at least one driving circuit. The steering sensing module is configured to sense the steering state of the automobile to generate two kinds of sensing signals, and the driving circuit is controlled by the sensing signal to control the power supply unit to supply power to the electrode group of the photomask device.

本發明之第三目的,在於提供一種兼具降低A柱遮蔽區域以及顯示字元、圖像資訊的汽車前側視角之安全輔助系統,除了可以降低A柱遮蔽區域外,並可藉由密佈之光罩裝置的透光度控制,以實現顯示字元、圖像等資訊等功效,藉以達到行車資訊顯示、車輛指引、辨識以及警示等功能。達成本發明目的之技術手段,係包括設置於汽車前側之二邊柱的穿透部、光罩裝置、供電單元及一控制單元。光罩裝置罩設在穿透部上,光罩裝置包含第一電極、第二電極及介置在第一電極與第二電極之間的高分子分散液晶複合膜。控制單元用以控制供電單元對電極組的供電時機,當電極組獲得供電單元的供電時,第一電極與第二電極之間則產生電場,並驅使高分子分散液晶複合膜之液晶分子朝向與電場平行或垂直的方向排列,俾使光罩裝置呈現透明的狀態,藉以消除因二邊柱遮蔽所致的視覺死角。其中每一穿透部包含複數個呈矩形陣列佈設或是環形陣列的穿孔,每一該穿孔罩設該光罩裝置,該控制單元包含一訊號處理模組、一儲存至少一圖樣或字元資料的資料模組及至少一驅動模組,該訊號處理模組解讀該 圖樣或字元資料後輸出一用以觸發該驅動模組的控制訊號,進而控制該供電單元對該光罩裝置的該電極組供電,使各該光罩裝置一共同顯示出與該圖樣或字元資料相應的資訊。 A third object of the present invention is to provide a safety assisting system that combines the A-pillar shielding area and the front view angle of the display character and image information, and can reduce the A-pillar shielding area and can be covered by the light. The transparency of the cover device is controlled to achieve functions such as displaying characters, images, and the like, thereby achieving functions such as driving information display, vehicle guidance, identification, and warning. The technical means for achieving the object of the present invention includes a penetration portion of a double-sided column provided on the front side of the automobile, a mask device, a power supply unit, and a control unit. The mask device is disposed on the penetrating portion, and the mask device includes a first electrode, a second electrode, and a polymer dispersed liquid crystal composite film interposed between the first electrode and the second electrode. The control unit is configured to control the power supply timing of the power supply unit to the electrode group. When the electrode group obtains the power supply of the power supply unit, an electric field is generated between the first electrode and the second electrode, and the liquid crystal molecules of the polymer dispersed liquid crystal composite film are driven to face. The electric fields are arranged in parallel or perpendicular directions, so that the reticle device is in a transparent state, thereby eliminating the visual dead angle caused by the shielding of the two side columns. Each of the penetrating portions includes a plurality of perforations in a rectangular array or an annular array, and each of the perforations covers the photomask device, and the control unit includes a signal processing module, and at least one pattern or character data is stored. Data module and at least one driver module, the signal processing module interprets the a pattern or a character data outputting a control signal for triggering the driving module, thereby controlling the power supply unit to supply power to the electrode assembly of the reticle device, so that each of the reticle devices collectively displays the pattern or word The corresponding information of the metadata.

10‧‧‧汽車 10‧‧‧Car

11‧‧‧邊柱 11‧‧‧Side column

12‧‧‧穿透部 12‧‧‧ penetration

120‧‧‧穿孔 120‧‧‧Perforation

20‧‧‧光罩裝置 20‧‧‧Photomask device

21‧‧‧電極組 21‧‧‧Electrode group

210‧‧‧第一電極 210‧‧‧First electrode

211‧‧‧第二電極 211‧‧‧second electrode

22‧‧‧高分子分散液晶複合膜 22‧‧‧ Polymer dispersed liquid crystal composite film

23‧‧‧透明基板 23‧‧‧Transparent substrate

30‧‧‧供電單元 30‧‧‧Power supply unit

40‧‧‧控制單元 40‧‧‧Control unit

400‧‧‧轉向感測模組 400‧‧‧Steering Sensing Module

401‧‧‧驅動電路 401‧‧‧ drive circuit

402‧‧‧開關模組 402‧‧‧Switch Module

403‧‧‧訊號處理模組 403‧‧‧Signal Processing Module

404‧‧‧驅動模組 404‧‧‧Drive Module

405‧‧‧資料模組 405‧‧‧ data module

406‧‧‧設定模組 406‧‧‧Setting module

圖1為本發明第一實施例的功能方塊示意圖。 1 is a functional block diagram of a first embodiment of the present invention.

圖2為本發明第二實施例的功能方塊示意圖。 2 is a functional block diagram of a second embodiment of the present invention.

圖3為本發明第二實施例的另一功能方塊示意圖。 FIG. 3 is another functional block diagram of a second embodiment of the present invention.

圖4為本發明第三實施例的功能方塊示意圖。 4 is a functional block diagram of a third embodiment of the present invention.

圖5為本發明光罩裝置不透光的實施示意圖。 FIG. 5 is a schematic view showing the implementation of the reticle device of the present invention.

圖6為本發明光罩裝置透光的實施示意圖。 FIG. 6 is a schematic view showing the light transmission of the photomask device of the present invention.

圖7為本發明光罩裝置於車內不透光的實施示意圖。 FIG. 7 is a schematic view showing the implementation of the reticle device of the present invention in which light is opaque in the vehicle.

圖8為本發明光罩裝置於車內透光的實施示意圖。 FIG. 8 is a schematic view showing the implementation of the light-shielding device of the present invention in the vehicle.

圖9為本發明光罩裝置於車外的具體實施示意圖。 FIG. 9 is a schematic view showing a specific implementation of the reticle device of the present invention outside the vehicle.

壹.本發明第一具體實施例壹. First embodiment of the present invention

本實施例係為可以達成本發明第一目的之實施例,具體架構為圖1、5及圖6所示,係包括設置於汽車10前側之二邊柱11(邊柱11即A柱,亦即二邊柱11之間是前擋風玻璃)的穿透部12(如圖7~9所示)、光罩裝置20、供電單元30及一控制單元40。光罩裝置20罩設在穿透部12上, 光罩裝置20包含第一電極210、第二電極211及介置在第一電極210與第二電極211之間的高分子分散液晶複合膜22;此外,為絕緣及保護第一電極210與第二電極211之目的,本發明係於第一電極210與第二電極211表面的各自覆設一透明基板23。控制單元40用以控制供電單元30對電極組21的供電時機,當電極組21獲得供電單元30的供電時,第一電極210與第二電極211之間則產生電場,並驅使高分子分散液晶複合膜22之液晶分子朝向與電場平行或垂直的方向排列,俾使光罩裝置20呈現透明的狀態,藉以消除因二邊柱11遮蔽所致的視覺死角,如圖6所示;反之,當電極組21斷電時,由於第一電極210與第二電極211之間無法產生電場,故光罩裝置20呈現不透光的深色狀態,如圖5所示。此外,必須補充說明的是,為補強汽車10前側之二邊柱11的結構強度,本發明於具體組裝實施時,可將二邊柱11做加寬、加厚或是覆設一層補強結構體等之處理,如此即可達到等同或是超過未加設如本發明所述之穿透部12的結構強度。 The embodiment is an embodiment that can achieve the first object of the present invention. The specific structure is as shown in FIG. 1 , FIG. 5 and FIG. 6 , and includes a two-sided column 11 disposed on the front side of the automobile 10 (the side column 11 is an A-pillar, That is, between the two columns 11 is a penetration portion 12 of the front windshield (as shown in FIGS. 7-9), the mask device 20, the power supply unit 30, and a control unit 40. The mask device 20 is disposed on the penetrating portion 12, The photomask device 20 includes a first electrode 210, a second electrode 211, and a polymer dispersed liquid crystal composite film 22 interposed between the first electrode 210 and the second electrode 211. In addition, the first electrode 210 and the first electrode 210 are insulated and protected. For the purpose of the two electrodes 211, the present invention is characterized in that a transparent substrate 23 is disposed on each of the surfaces of the first electrode 210 and the second electrode 211. The control unit 40 is configured to control the power supply timing of the power supply unit 30 to the electrode group 21. When the electrode group 21 obtains the power supply from the power supply unit 30, an electric field is generated between the first electrode 210 and the second electrode 211, and the polymer dispersed liquid crystal is driven. The liquid crystal molecules of the composite film 22 are arranged in a direction parallel or perpendicular to the electric field, so that the photomask device 20 is in a transparent state, thereby eliminating the visual dead angle caused by the shielding of the two-sided column 11, as shown in FIG. 6; When the electrode group 21 is powered off, since the electric field cannot be generated between the first electrode 210 and the second electrode 211, the photomask device 20 exhibits an opaque dark state, as shown in FIG. In addition, it must be added that, in order to reinforce the structural strength of the two-sided column 11 on the front side of the automobile 10, the present invention can be widened, thickened or covered with a reinforcing structure when the concrete assembly is implemented. Alternatively, the structural strength of the penetrating portion 12 as described in the present invention may be equal or exceeded.

此外,為增進行車的安全性,本發明更包含一警示裝置(本圖式例未示),該警示裝置包含二反射式光學感測器及一蜂鳴器,該二反射式光學感測器分別設於該汽車10前側的該二邊柱11上,當車輛接近該反射式光學感測器時,該反射式光學感測器則以訊號觸發該蜂鳴器,使該蜂鳴器發出警示的音頻。 In addition, in order to increase the safety of the vehicle, the present invention further includes a warning device (not shown in the figure), the warning device includes a two-reflection optical sensor and a buzzer, and the two-reflection optical sensor Separately disposed on the two side pillars 11 on the front side of the automobile 10, when the vehicle approaches the reflective optical sensor, the reflective optical sensor triggers the buzzer by a signal to cause the buzzer to issue a warning. Audio.

貳.本發明第二具體實施例第二. Second embodiment of the present invention

本實施例係為可以達成本發明第二目的之實施例。本實施例的實施架構如圖2、5及圖6所示,除了包括第一實施例的技術特徵之外,控制單元40更包含至少一轉向感測模組400及至少一驅動電路401。該轉 向感測模組400用以感測該汽車10的轉向狀態而產生二種感測訊號,該驅動電路401則受該感測訊號的觸發而控制該供電單元30對該光罩裝置20的該電極組21供電。具體而言,轉向感測模組400係指汽車10之左、右方向燈電性連結的訊號回授電路;或是設置在汽車10方向控制機構的磁簧感測器或是反射式光偵測器而言。當駕駛者操控車輛做左方轉向時,轉向感測模組400隨即產生左轉的感測訊號,此時,觸發驅動電路401受到觸發而控制供電單元30對左前側之光罩裝置20的電極組21供電,使左前側之光罩裝置20呈現透明的狀態,如此駕駛者即可穿透光罩裝置20而觀看原本被左側邊柱11遮蔽的影像動態。當駕駛者操控車輛做右方轉向時,轉向感測模組400隨即產生右轉的感測訊號,此時,觸發驅動電路401受到觸發而控制供電單元30對右前側之光罩裝置20的電極組21供電,使右前側之光罩裝置20呈現透明的狀態,如此駕駛者即可穿透光罩裝置20而觀看原本被右側邊柱11遮蔽的影像動態。 This embodiment is an embodiment in which the second object of the present invention can be achieved. As shown in FIG. 2, FIG. 5 and FIG. 6 , the control unit 40 further includes at least one steering sensing module 400 and at least one driving circuit 401 in addition to the technical features of the first embodiment. The turn The sensing module 400 is configured to sense the steering state of the automobile 10 to generate two kinds of sensing signals, and the driving circuit 401 is controlled by the sensing signal to control the power supply unit 30 to the photomask device 20 The electrode group 21 is powered. Specifically, the steering sensing module 400 refers to a signal feedback circuit in which the left and right lights of the automobile 10 are electrically connected; or a magnetic spring sensor or a reflective optical detector disposed in the direction control mechanism of the automobile 10 For the detector. When the driver controls the vehicle to turn to the left, the steering sensing module 400 then generates a left-turning sensing signal. At this time, the trigger driving circuit 401 is triggered to control the electrode of the power supply unit 30 to the left front side of the photomask device 20. The group 21 is powered, so that the reticle device 20 on the left front side is in a transparent state, so that the driver can penetrate the reticle device 20 to view the image motion originally blocked by the left side column 11. When the driver controls the vehicle to make a right turn, the steering sensing module 400 then generates a right-turning sensing signal. At this time, the trigger driving circuit 401 is triggered to control the electrode of the power supply unit 30 to the right front side of the photomask device 20. The group 21 is powered so that the reticle device 20 on the right front side is in a transparent state so that the driver can penetrate the reticle device 20 to view the image motion originally obscured by the right side sill 11.

再者,本實施例之另一種實施架構如圖3所示,除了包括第一實施例的技術特徵之外,控制單元40更包含至少一開關模組402及至少一驅動電路401。該開關模組402(例如設於車輛內部的手動開關)用以產生至少一種啟動訊號,該驅動電路401則受該啟動訊號的觸發而控制該供電單元30對該光罩裝置20的該電極組21供電。 In addition, another implementation architecture of the embodiment is shown in FIG. 3. In addition to the technical features of the first embodiment, the control unit 40 further includes at least one switch module 402 and at least one driving circuit 401. The switch module 402 (for example, a manual switch disposed inside the vehicle) is configured to generate at least one activation signal, and the driving circuit 401 is controlled by the activation signal to control the power supply unit 30 to the electrode assembly of the photomask device 20 21 power supply.

參.本發明第三具體實施例Reference to the third embodiment of the present invention

本實施例係為可以達成本發明第三目的之實施例。本實施例的實施架構如圖4及圖6~9所示,除了包括第一實施例的技術特徵之外,每一穿透部12包含複數個呈矩形陣列佈設或是環形陣列的穿孔120,每一 該穿孔120罩設該光罩裝置20。本發明穿透部12密佈穿孔120的實施形態,除了結構強度可以高於美國發明公告第6428087號專利之外,並可做為字元或是圖樣資訊的顯示用途,甚至可做為車輛轉向的指示用途,如圖7所示光罩裝置20陣列為不透光的深色狀態;如圖8所示光罩裝置20陣列則為透光的透明狀態。於此,控制單元40則包含一訊號處理模組403(如微處理器)、一儲存至少一圖樣或字元資料(如十六進位碼)的資料模組405(如記憶體)、至少一驅動模組404及一用以設定會更新圖樣或字元資料的設定模組406。訊號處理模組403可以解讀預先儲存或是使用者重新寫入之圖樣或字元資料,並且輸出一用以觸發驅動模組404的控制訊號(如二進位碼),進而控制該供電單元30對該光罩裝置20的該電極組21供電,使各該光罩裝置20一共同顯示出與該圖樣或字元資料相應的資訊。 This embodiment is an embodiment in which the third object of the present invention can be achieved. As shown in FIG. 4 and FIG. 6 to FIG. 9 , each of the penetrating portions 12 includes a plurality of perforations 120 arranged in a rectangular array or in an annular array, in addition to the technical features of the first embodiment. Each The perforation 120 covers the reticle device 20. The embodiment of the penetrating portion 12 of the present invention is densely covered with the perforation 120, and the structural strength can be higher than that of the U.S. Patent Publication No. 6428087, and can be used as a character or graphic information display, and can even be used as a vehicle steering. For the purpose of indicating, as shown in FIG. 7, the array of the mask device 20 is in a dark state that is opaque; as shown in FIG. 8, the array of the mask device 20 is in a transparent state of light transmission. The control unit 40 includes a signal processing module 403 (such as a microprocessor), a data module 405 (such as a memory) that stores at least one pattern or character data (such as a hexadecimal code), at least one. The driving module 404 and a setting module 406 for setting a pattern or character data are updated. The signal processing module 403 can interpret the pattern or character data stored in advance or rewritten by the user, and output a control signal (such as a binary code) for triggering the driving module 404 to control the power supply unit 30. The electrode assembly 21 of the reticle device 20 is powered, so that each of the reticle devices 20 collectively displays information corresponding to the pattern or the character data.

此外,必須說明的是,圖樣或字元資訊顯示的原理,即是藉由控制矩陣或環形陣列佈設之各光罩裝置20的供電與否來決定各光罩裝置20的光穿透效應為何。明確的說,是將欲顯示圖樣或字元的複數光罩裝置20控制為不供電的狀態,使上述光罩裝置20呈現出不透光的黑色影像區塊;另一方面,再配合其他光罩裝置20因獲得供電而呈現透明的影像區塊,如此即可達成顯示圖樣或字元資訊之目的。再者,本實施例亦可搭配第二實施例所界定的技術特徵,當汽車10直線行駛時,則於各光罩裝置20上顯示所設定的圖樣或字元資訊;當汽車10轉向時,則控制使其中一邊柱11上的複數光罩裝置20呈現出完全透明的狀態,如此即可達成消除邊柱11遮蔽所致的視線死角以及顯示圖樣或字元資訊等雙重目的。 In addition, it must be noted that the principle of pattern or character information display is to determine the light penetration effect of each mask unit 20 by the power supply of the mask unit 20 disposed by the control matrix or the annular array. Specifically, the plurality of reticle devices 20 for displaying patterns or characters are controlled to be in a state of no power supply, so that the reticle device 20 exhibits an opaque black image block; The cover device 20 presents a transparent image block by obtaining power supply, so that the purpose of displaying the pattern or the character information can be achieved. Furthermore, the embodiment can also be combined with the technical features defined in the second embodiment. When the automobile 10 is traveling straight, the set pattern or character information is displayed on each reticle device 20; when the car 10 is turned, Then, the multi-mask device 20 on the one side column 11 is controlled to be in a completely transparent state, so that the double purpose of eliminating the line of sight dead angle caused by the side column 11 shielding and displaying the pattern or character information can be achieved.

肆.結論Conclusion

因此,藉由上述之具體實施例說明,可歸納本發明具有下列幾點優點: Therefore, it can be summarized from the above specific embodiments that the present invention has the following advantages:

1.本發明確實可以有效降低A柱遮蔽的區域,藉由大幅降低車輛A柱所造成的視線死角,以提升車輛行駛的安全性。 1. The invention can effectively reduce the area covered by the A-pillar, and greatly reduce the line-of-sight dead angle caused by the A-pillar of the vehicle, so as to improve the safety of driving the vehicle.

2.本發明確實可以依據車輛轉向狀態而自動降低其中一側A柱遮蔽的區域,藉以降低車輛A柱所造成的視線死角,進而提升車輛行駛的安全性。 2. The invention can automatically reduce the area covered by one side A column according to the steering state of the vehicle, thereby reducing the line of sight dead angle caused by the A-pillar of the vehicle, thereby improving the safety of driving the vehicle.

3.本發明除了可以降低A柱遮蔽區域外,並可藉由密佈之光罩裝置的透光度控制,以實現顯示字元、圖像等資訊等功效,藉以達到行車資訊顯示、車輛指引、辨識以及警示等功能。 3. In addition to reducing the A-pillar shielding area, the present invention can realize the functions of displaying characters, images and the like by means of the transparency control of the dense mask device, thereby achieving driving information display, vehicle guidance, Identification and warning functions.

以上所述,僅為本發明之可行實施例,並非用以限定本發明之專利範圍,凡舉依據下列請求項所述之內容、特徵以及其精神而為之其他變化的等效實施,皆應包含於本發明之專利範圍內。本發明所具體界定於請求項之結構特徵,未見於同類物品,且具實用性與進步性,已符合發明專利要件,爰依法具文提出申請,謹請 鈞局依法核予專利,以維護本申請人合法之權益。 The above is only a possible embodiment of the present invention, and is not intended to limit the scope of the patents of the present invention, and the equivalent implementations of other changes according to the contents, features and spirits of the following claims should be It is included in the patent of the present invention. The invention is specifically defined in the structural features of the request item, is not found in the same kind of articles, and has practicality and progress, has met the requirements of the invention patent, and has filed an application according to law, and invites the bureau to approve the patent according to law to maintain the present invention. The legal rights of the applicant.

20‧‧‧光罩裝置 20‧‧‧Photomask device

30‧‧‧供電單元 30‧‧‧Power supply unit

40‧‧‧控制單元 40‧‧‧Control unit

Claims (8)

一種汽車前側視角之安全輔助系統,其包括:至少二穿透部,其分別設置於汽車前側的二邊柱上;至少二光罩裝置,其罩設在該穿透部上,該光罩裝置包含一電極組,其包含透明之一第一電極、一第二電極及一高分子分散液晶複合膜,其介置在該第一電極與該第二電極之間;一供電單元;及一控制單元,其用以控制該供電單元對該電極組的供電時機,當該電極組獲得該供電單元的供電時,該第一電極與該第二電極之間則產生電場,並驅使該高分子分散液晶複合膜之液晶分子朝向與該電場平行或垂直的方向排列,進而使該光罩裝置呈現透明的狀態。 A safety assisting system for a front view of a vehicle includes: at least two penetrating portions respectively disposed on two side pillars on a front side of the automobile; at least two photomask devices disposed on the penetrating portion, the mask device The invention comprises an electrode group comprising a transparent first electrode, a second electrode and a polymer dispersed liquid crystal composite film interposed between the first electrode and the second electrode; a power supply unit; and a control a unit for controlling a power supply timing of the power supply unit to the electrode group. When the electrode group obtains power supply from the power supply unit, an electric field is generated between the first electrode and the second electrode, and the polymer is dispersed. The liquid crystal molecules of the liquid crystal composite film are arranged in a direction parallel or perpendicular to the electric field, thereby causing the mask device to assume a transparent state. 如請求項1所述之汽車前側視角之安全輔助系統,其中,該控制單元包含至少一轉向感測模組及至少一驅動電路,該轉向感測模組用以感測該汽車的轉向狀態而產生二種感測訊號,該驅動電路則受該感測訊號的觸發而控制該供電單元對該光罩裝置的該電極組供電。 The safety assistance system of the front view of the vehicle of claim 1, wherein the control unit comprises at least one steering sensing module and at least one driving circuit, wherein the steering sensing module is configured to sense the steering state of the automobile. Two kinds of sensing signals are generated, and the driving circuit is controlled by the sensing signal to control the power supply unit to supply power to the electrode group of the reticle device. 如請求項1所述之汽車前側視角之安全輔助系統,其中,該控制單元包含至少一開關模組及至少一驅動電路,該開關模組用以產生至少一種啟動訊號,該驅動電路則受該啟動訊號的觸發而控制該供電單元對該光罩裝置的該電極組供電。 The security assistance system of the front view of the vehicle of claim 1, wherein the control unit comprises at least one switch module and at least one drive circuit, wherein the switch module is configured to generate at least one start signal, and the drive circuit is The triggering of the activation signal controls the power supply unit to supply power to the electrode assembly of the reticle device. 如請求項2所述之汽車前側視角之安全輔助系統,其中,該感測訊號包含左轉感測訊號及右轉感測訊號,當該左轉感測訊號產生時,該驅動電 路則控制該供電單元對左前側之該光罩裝置的該電極組供電,使左前側之該光罩裝置呈現透明的狀態,當該右轉感測訊號產生時,該驅動電路則控制該供電單元對右前側之該光罩裝置的該電極組供電,使右前側之該光罩裝置呈現透明的狀態。 The safety assistance system of the front view of the vehicle of claim 2, wherein the sensing signal comprises a left turn sensing signal and a right turn sensing signal, and when the left turn sensing signal is generated, the driving power is The circuit controls the power supply unit to supply power to the electrode group of the reticle device on the left front side, so that the reticle device on the left front side is in a transparent state, and when the right-turn sensing signal is generated, the driving circuit controls the power supply. The unit supplies power to the electrode assembly of the reticle device on the right front side such that the reticle device on the right front side assumes a transparent state. 如請求項1所述之汽車前側視角之安全輔助系統,其中,該光罩裝置更包含二分別覆設於該第一電極與該第二電極表面的透明基板。 The safety assistance system for a front view of a vehicle according to claim 1, wherein the reticle device further comprises two transparent substrates respectively disposed on the surfaces of the first electrode and the second electrode. 如請求項1所述之汽車前側視角之安全輔助系統,其中,該穿透部包含複數個呈矩形陣列佈設的穿孔,每一該穿孔罩設該光罩裝置,該控制單元包含一訊號處理模組、一儲存至少一圖樣或字元資料的資料模組及至少一驅動模組,該訊號處理模組解讀該圖樣或字元資料後輸出一用以觸發該驅動模組的控制訊號,進而控制該供電單元對該光罩裝置的該電極組供電,使各該光罩裝置一共同顯示出與該圖樣或字元資料相應的資訊。 The safety assistance system for a front view of a vehicle according to claim 1, wherein the penetration portion comprises a plurality of perforations arranged in a rectangular array, each of the perforations is provided with the photomask device, and the control unit comprises a signal processing module a data module storing at least one pattern or character data and at least one driving module, the signal processing module interpreting the pattern or the character data and outputting a control signal for triggering the driving module, thereby controlling The power supply unit supplies power to the electrode assembly of the reticle device, so that each of the reticle devices collectively displays information corresponding to the pattern or the character data. 如請求項1所述之汽車前側視角之安全輔助系統,其中,該穿透部包含複數個呈環形陣列佈設的穿孔,每一該穿孔罩設該光罩裝置,該控制單元包含一訊號處理模組、一儲存至少一圖樣或字元資料的資料模組及至少一驅動模組,該訊號處理模組解讀該圖樣或字元資料後輸出一用以觸發該驅動模組的控制訊號,進而控制該供電單元對該光罩裝置的該電極組供電,使各該光罩裝置一共同顯示出與該圖樣或字元資料相應的資訊。 The safety assistance system for a front view of a vehicle according to claim 1, wherein the penetration portion comprises a plurality of perforations arranged in an annular array, each perforation masking the photomask device, the control unit comprising a signal processing module a data module storing at least one pattern or character data and at least one driving module, the signal processing module interpreting the pattern or the character data and outputting a control signal for triggering the driving module, thereby controlling The power supply unit supplies power to the electrode assembly of the reticle device, so that each of the reticle devices collectively displays information corresponding to the pattern or the character data. 如請求項1所述之汽車前側視角之安全輔助系統,其更包含一警示裝置,該警示裝置包含二反射式光學感測器及一蜂鳴器,該二反射式光學感測器分別設於該汽車前側的該二邊柱上,當車輛接近該反射式光學感測器 時,該反射式光學感測器則以訊號觸發該蜂鳴器,使該蜂鳴器發出警示的音頻。 The safety assistance system for a front view of a vehicle according to claim 1, further comprising a warning device, wherein the warning device comprises a two-reflection optical sensor and a buzzer, wherein the two reflective optical sensors are respectively disposed on On the two side pillars on the front side of the car, when the vehicle approaches the reflective optical sensor The reflective optical sensor then triggers the buzzer with a signal to cause the buzzer to sound an alert audio.
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