CN205706417U - A kind of lightweight anti-dazzle driving mirror - Google Patents

Abstract

This utility model provides a kind of lightweight anti-dazzle driving mirror, including housing, circuit board, liner plate and mirror body, described liner plate is the aluminium alloy central layer being wound with carbon fiber, described liner plate two ends are provided with breach, described circuit board is provided with control chip and light-sensitive element, described control chip is located at one end of circuit board, described light-sensitive element is located at the other end of circuit board, the breach at described liner plate two ends is corresponding with the position of the control chip at circuit board two ends and light-sensitive element, additionally provide the manufacture method of a kind of lightweight anti-dazzle driving mirror, including preparing liner plate, prepare the step of mirror body and assembling.

Description

A kind of lightweight anti-dazzle driving mirror

Technical field

This utility model relates to automobile rearview mirror technical field, is specifically related to the anti-glare vehicle rearview mirror that a kind of lightweight structure is arranged.

Background technology

Anti-dazzle driving mirror refers to the automobile rearview mirror with anti-dazzle function, is radiated on rearview mirror, makes driver produce and dazzle the eyes sense, affect the attention of driver, cause vehicle accident when mainly preventing the big lamp wiring of automobile below too strong.

Anti-dazzle driving mirror of the prior art mainly has manual anti-dazzle driving mirror and automatic anti-glare rearview mirror two kinds.

When a light source short range projection to piece section is in wedge of glass, will there be strong and weak two different reflection light.Manual anti-dazzle driving mirror is to utilize this principle, use one piece of upper thick and lower thin wedge of glass as eyeglass, being flush-mounted in mirror shell, this manual anti-dazzle driving mirror is connected in connecting rod, and connecting rod is fixed in vehicle on the carriage ceiling of driver's seat or on windshield.Gripper shoe is connected with connecting rod through the globe joint being located at connecting rod end.Mirror shell is pivotably mounted in gripper shoe.Direction adjusting rod is pivotably mounted in mirror shell after engaging with gripper shoe.When front vehicle has high light to project on eyeglass, will have two reflection light, one is strong reflection light, and another is weak reflection light.If now towards driver side to the direction adjusting rod pulling manual anti-dazzle driving mirror, just the downward-sloping effective angle of mirror shell can be made, it is flush-mounted in mirror shell eyeglass also with downward-sloping effective angle, the reflection angle of eyeglass changes therewith, reflex to the light on driver's eyes then for weak reflection light, will not be dazzling, thus realize anti-glare function.

Automatic anti-glare rearview mirror includes that one side is made up of upper and lower two-layer clear glass, centre is provided with the electrification mirror of layer, the light-sensitive element being located at mirror shell front and back end and the electronic controller composition being located in mirror shell, and wherein electronic controller is received before light-sensitive element is sent here by holding wire and penetrates light and rear incident light signal.When light-illuminating is on automatic anti-glare rearview mirror, if the brightness of rear light is more than the brightness of front light, electronic controller will export a voltage to conductive layer.This voltage on conductive layer i.e. changes the color of minute surface electrification layer, voltage is the highest, and the color of electrification layer is the deepest, even if the strongest irradiation light shines on automatic anti-glare rearview mirror, reflex to then show on driver's eyes half-light through automatic anti-glare rearview mirror, will not be dazzling.Minute surface electrification layer makes reflection light according to the incident intensity of rear light, and automatic continuous change is to prevent from dazzling the eyes.

Although the rearview mirror of both the above anti-glare function can play abblendbar function, but in place of there are still some shortcomings.Manual anti-dazzle driving mirror when driving, owing to going regulation with hands, safety exists the biggest hidden danger.And automatic anti-glare inner rear-view mirror is relative complex due to structure, internal part is more, and therefore the comparison of design is thick and heavy mostly, even if there being light-weighted structure to design, its intensity is also difficult to ensure that.

Summary of the invention

The purpose of this utility model is for the problems referred to above of the prior art, it is provided that a kind of frivolous anti-dazzle driving mirror and preparation method thereof.

For solving above-mentioned technical problem, this utility model adopts the following technical scheme that

A kind of lightweight anti-dazzle driving mirror, including housing, circuit board, liner plate and mirror body, described liner plate is light-weight metal central layer or the quilted plastic panel being wound with carbon fiber.

Preferably, described light-weight metal central layer is aluminium alloy central layer.

Preferably, described liner plate two ends are provided with breach, described circuit board is provided with control chip and light-sensitive element, described control chip is located at one end of circuit board, described light-sensitive element is located at the other end of circuit board, and the breach at described liner plate two ends is corresponding with the position of the control chip at circuit board two ends and light-sensitive element.

Preferably, described light-sensitive element is two, is separately positioned on the two sides of circuit board, housing and mirror body and is provided with loophole in light-sensitive element relevant position.

Preferably, described mirror body includes top glass substrate, lower glass substrate, upper conductive layer, lower conductiving layer, liquid crystal layer, and described lower glass substrate is coated with reflectance coating.

Preferably, described top glass substrate, the thickness of lower glass substrate are 0.2-1mm.

Preferably, described top glass substrate, the thickness of lower glass substrate are 0.8mm.

Preferably, described top glass substrate, lower glass substrate are and aluminize or silver-plated optical glass.

Preferably, described upper conductive layer, lower conductiving layer are transparent tin indium oxide ITO conducting film.

Preferably, described liquid crystal layer is negative liquid crystal.

The manufacture method of a kind of lightweight anti-dazzle driving mirror is provided simultaneously, comprises the following steps:

Step one, prepare liner plate, the unidirectional carbon laid fabric of impregnating resin is cut into required form according to warp direction, and be wrapped on aluminium alloy central layer, BOPP band is used to be wound again, fixing described unidirectional carbon laid fabric, then carry out cured, cut after having solidified and polish；

Step 2, prepare mirror body, inside top glass substrate, conductive layer and lower conductiving layer is plated respectively by the method for magnetron sputtering inside lower glass substrate, reflectance coating is plated outside lower glass substrate, liquid crystal layer is arranged between upper conductive layer and lower conductiving layer, and seal side with epoxide-resin glue, form mirror body；

Step 3, assembling illuminator, by shell, circuit board, liner plate, mirror body is sequentially connected with, and is assembled into illuminator.

Preferably, the dipping process of described unidirectional carbon laid fabric uses resin glue in two-step method, the first step is impregnation, i.e. gluing in release paper, second step is gluing, will release paper cover on carbon fiber yarn, by heating drying glue, extruding, forwarding on carbon fiber by the resin glue in release paper, it is ensured that resin glue is uniformly distributed on cloth cover, the consumption of resin glue is the 45-55% of fibre weight.

Preferably, the cutting temperature of described unidirectional carbon laid fabric is 21-23 DEG C.

Preferably, the winding process of described unidirectional carbon laid fabric is: keep flat on operating board by the aluminium alloy central layer brushing epoxide-resin glue, and be attached to straight for the long limit of monoblock unidirectional carbon laid fabric one cut out on aluminium alloy central layer, the end edge distance aluminium alloy central layer end of unidirectional carbon laid fabric keeps the distance of 1-2cm, laminating of quickly being plated further by the long edge aluminium alloy central layer of the unidirectional carbon laid fabric of laminating with electric cautery；The aluminium alloy central layer of hot unidirectional carbon laid fabric is put into pressing plate middle position, parallel with pressing plate, unidirectional carbon laid fabric is tiled, aluminium alloy central layer is pressed on carbon fibre fabric, at forcing press falling pressure 2-2.5kg , temperature 23 DEG C-25 DEG C, time delay advance time 1.5-1.8s state under paste the most straight for whole carbon fibre fabric on aluminium alloy central layer.

Preferably, the tape wrap rotating speed that BOPP band is wound around controls to control at 2kg at 1.5mm, tension force away from controlling at 2000r/min, band.

Preferably, cured carries out stage curing in curing oven, first paragraph: be at the uniform velocity warmed up to 80 DEG C from room temperature by the speed of 1.5 DEG C/min, is incubated 30min after 80 DEG C；Second segment: be at the uniform velocity warmed up to 140 DEG C in 40min from 80 DEG C, is incubated 60min after 140 DEG C, completes solidification.

While this utility model uses liquid crystal layer to realize rearview mirror automatic anti-glare, use ultra-thin glassy layer to reduce the volume of rearview mirror, use aluminium alloy central layer winding carbon fiber as liner plate simultaneously, solve the problem that light and thin type rearview mirror intensity is the highest.This utility model has that rearview mirror antiglare mesh function is excellent, and product is frivolous attractive in appearance, and intensity is high simultaneously, and lightweight advantage is suitable for being widely used in various vehicle.

Accompanying drawing explanation

Fig. 1 is the structural representation of the preferred embodiment according to lightweight anti-dazzle driving mirror of the present utility model；

Fig. 2 is the structural representation of a preferred embodiment of the circuit board according to lightweight anti-dazzle driving mirror of the present utility model；

Fig. 3 is the structural representation of a preferred embodiment of the liner plate according to lightweight anti-dazzle driving mirror of the present utility model；

Wherein, 1. housing, 2. circuit board, 3. liner plate, 4. mirror body, 5. control chip, 6. light-sensitive element.

Detailed description of the invention

Below in conjunction with the accompanying drawings the technical solution of the utility model is described in detail, so that those skilled in the art are more clearly understood from scheme of the present utility model.

Embodiment 1

With reference to accompanying drawing 1, a kind of lightweight anti-dazzle driving mirror described in the utility model, including housing 1, circuit board 2, liner plate 3 and mirror body 4, the outer shape of described housing 1, circuit board 2, liner plate 3 and mirror body 4 can be designed change according to the global design of car.Described shell 1 can use light-weight metal, such as aluminium alloy etc., or plastic material.Described liner plate 2 is the aluminium alloy central layer being wound with carbon fiber.Described circuit board 3 is provided with control chip 5 and light-sensitive element 6.Described control chip 5 is used for driving liquid crystal layer, controls to be input to the voltage swing of liquid crystal layer, thus the printing opacity degree of adjustable liquid crystal display layer, it is achieved abblendbar function.Described light-sensitive element 6 is arranged on the inner side of circuit board 2, it is used for detecting the intensity of rear illumination, by control chip 5, light intensity is judged, thus determine the output voltage to liquid crystal layer, control the transmittance of liquid crystal layer a suitable scope, driver will not be disturbed by dazzle, also will not cannot observe the situation at car rear because illuminator is too dark.Described mirror body 4 includes top glass substrate, lower glass substrate, upper conductive layer, lower conductiving layer and liquid crystal layer.Described top glass substrate and lower glass substrate all use ultra thin optical glass to make, its thickness is 0.2-1mm, preferably 0.8mm, and the optical glass of above-mentioned thickness is while ensureing some strength and optical property, the integral thickness of rearview mirror can be reduced so that rearview mirror is frivolous attractive in appearance as far as possible.Described optical glass can be to aluminize or silver-plated eyeglass, to meet the optical demands of rearview mirror.Upper conductive layer and lower conductiving layer are plated in the inner side of top glass substrate and lower glass substrate respectively by the method for magnetron sputtering, and i.e. near liquid crystal layer side, described conductive layer can be transparent tin indium oxide ITO conducting film.It is coated with reflectance coating in described lower glass substrate, is used for improving the reflectance of mirror body, reflects light.Described liquid crystal layer can be negative liquid crystal and colored dyes, when not having voltage to be applied to liquid crystal layer, the molecular long axis direction of negative liquid crystal is vertical with top glass substrate and lower glass substrate, light can be directly entered mirror body, and it is reflected film reflection, entering in driver's eye, now rearview mirror is as conventional mirror, does not have anti-glare function.When voltage is applied to liquid crystal layer, the molecule of negative liquid crystal deflects, and molecular long axis is angled with top glass substrate and lower glass substrate, and colored dyes can absorb a part of light simultaneously so that rearview mirror is dark-state.Control chip can adjust the voltage of supply liquid crystal layer according to the light intensity that light-sensitive element collects, and when light is stronger, then improves the voltage of supply liquid crystal layer, such that it is able to control the deflection angle of negative liquid crystal, reaches suitable antiglare effect.In order to ensure that light-sensitive element can accept light, mirror body 4 is provided with loophole in light-sensitive element relevant position.

Embodiment 2

With reference to accompanying drawing 2-3, a kind of lightweight anti-dazzle driving mirror, including housing 1, circuit board 2, liner plate 3 and mirror body 4, the outer shape of described housing 1, circuit board 2, liner plate 3 and mirror body 4 can be designed change according to the global design of car.Described shell 1 can use light-weight metal, such as aluminium alloy etc., or plastic material.Described liner plate 2 is the aluminium alloy central layer being wound with carbon fiber.Described liner plate 2 two ends are provided with breach, and described circuit board 3 is provided with control chip 5 and light-sensitive element 6.Described control chip 5 is used for driving liquid crystal layer, controls to be input to the voltage swing of liquid crystal layer, thus the printing opacity degree of adjustable liquid crystal display layer, it is achieved abblendbar function.Generally speaking, it is exactly control chip and light-sensitive element than more prominent parts on circuit board, on the circuit board 2 of the application, described control chip 5 is located at one end of circuit board 2, and described light-sensitive element 6 is located at the other end of circuit board 2, the breach at described liner plate 3 two ends is corresponding with the position of the control chip 5 at circuit board 2 two ends and light-sensitive element 6.Use said structure, by increasing capacitance it is possible to increase the space utilization rate of inside rear-view mirrors, so that rearview mirror thickness reduces further, simultaneously as circuit board 2 contacts with liner plate 3 closely, it is also possible to by liner plate 3 fixing circuit board 2, increase overall construction intensity, prevent circuit board damage.Described light-sensitive element 6 is arranged on the inner side of circuit board 2, it is used for detecting the intensity of rear illumination, by control chip 5, light intensity is judged, thus determine the output voltage to liquid crystal layer, control the transmittance of liquid crystal layer a suitable scope, driver will not be disturbed by dazzle, also will not cannot observe the situation at car rear because illuminator is too dark.Described mirror body 4 includes top glass substrate, lower glass substrate, upper conductive layer, lower conductiving layer and liquid crystal layer.Described top glass substrate and lower glass substrate all use ultra thin optical glass to make, its thickness is 0.2-1mm, preferably 0.8mm, and the optical glass of above-mentioned thickness is while ensureing some strength and optical property, the integral thickness of rearview mirror can be reduced so that rearview mirror is frivolous attractive in appearance as far as possible.Described optical glass can be to aluminize or silver-plated eyeglass, to meet the optical demands of rearview mirror.Upper conductive layer and lower conductiving layer are plated in the inner side of top glass substrate and lower glass substrate respectively by the method for magnetron sputtering, and i.e. near liquid crystal layer side, described conductive layer can be transparent tin indium oxide ITO conducting film.It is coated with reflectance coating in described lower glass substrate, is used for improving the reflectance of mirror body, reflects light.Described liquid crystal layer can be negative liquid crystal and colored dyes, when not having voltage to be applied to liquid crystal layer, the molecular long axis direction of negative liquid crystal is vertical with top glass substrate and lower glass substrate, light can be directly entered mirror body, and it is reflected film reflection, entering in driver's eye, now rearview mirror is as conventional mirror, does not have anti-glare function.When voltage is applied to liquid crystal layer, the molecule of negative liquid crystal deflects, and molecular long axis is angled with top glass substrate and lower glass substrate, and colored dyes can absorb a part of light simultaneously so that rearview mirror is dark-state.Control chip can adjust the voltage of supply liquid crystal layer according to the light intensity that light-sensitive element collects, and when light is stronger, then improves the voltage of supply liquid crystal layer, such that it is able to control the deflection angle of negative liquid crystal, reaches suitable antiglare effect.In order to ensure that light-sensitive element can accept light, mirror body 4 is provided with loophole in light-sensitive element relevant position.

Embodiment 3

A kind of lightweight anti-dazzle driving mirror, including housing 1, circuit board 2, liner plate 3 and mirror body 4, the outer shape of described housing 1, circuit board 2, liner plate 3 and mirror body 4 can be designed change according to the global design of car.Described shell 1 can use light-weight metal, such as aluminium alloy etc., or plastic material.Described liner plate 2 is the aluminium alloy central layer being wound with carbon fiber.Described liner plate 2 two ends are provided with breach, and described circuit board 3 is provided with control chip 5 and light-sensitive element 6.Described control chip 5 is used for driving liquid crystal layer, controls to be input to the voltage swing of liquid crystal layer, thus the printing opacity degree of adjustable liquid crystal display layer, it is achieved abblendbar function.Generally speaking, it is exactly control chip and light-sensitive element than more prominent parts on circuit board, on the circuit board 2 of the application, described control chip 5 is located at one end of circuit board 2, and described light-sensitive element 6 is located at the other end of circuit board 2, the breach at described liner plate 3 two ends is corresponding with the position of the control chip 5 at circuit board 2 two ends and light-sensitive element 6.Use said structure, by increasing capacitance it is possible to increase the space utilization rate of inside rear-view mirrors, so that rearview mirror thickness reduces further, simultaneously as circuit board 2 contacts with liner plate 3 closely, it is also possible to by liner plate 3 fixing circuit board 2, increase overall construction intensity, prevent circuit board damage.Described light-sensitive element 6 is two, it is separately positioned on the two sides of circuit board 2, it is used for detecting intensity and the intensity of rear illumination of front illumination, by control chip 5, above-mentioned two light intensity is compared, thus determine the output voltage to liquid crystal layer, control the transmittance of liquid crystal layer a suitable scope so that driver will not be disturbed by dazzle, also will not cannot observe the situation at car rear because illuminator is too dark.Described mirror body 4 includes top glass substrate, lower glass substrate, upper conductive layer, lower conductiving layer and liquid crystal layer.Described top glass substrate and lower glass substrate all use ultra thin optical glass to make, its thickness is 0.2-1mm, preferably 0.8mm, and the optical glass of above-mentioned thickness is while ensureing some strength and optical property, the integral thickness of rearview mirror can be reduced so that rearview mirror is frivolous attractive in appearance as far as possible.Described optical glass can be to aluminize or silver-plated eyeglass, to meet the optical demands of rearview mirror.Upper conductive layer and lower conductiving layer are plated in the inner side of top glass substrate and lower glass substrate respectively by the method for magnetron sputtering, and i.e. near liquid crystal layer side, described conductive layer can be transparent tin indium oxide ITO conducting film.It is coated with reflectance coating in described lower glass substrate, is used for improving the reflectance of mirror body, reflects light.Described liquid crystal layer can be negative liquid crystal and colored dyes, when not having voltage to be applied to liquid crystal layer, the molecular long axis direction of negative liquid crystal is vertical with top glass substrate and lower glass substrate, light can be directly entered mirror body, and it is reflected film reflection, entering in driver's eye, now rearview mirror is as conventional mirror, does not have anti-glare function.When voltage is applied to liquid crystal layer, the molecule of negative liquid crystal deflects, and molecular long axis is angled with top glass substrate and lower glass substrate, and colored dyes can absorb a part of light simultaneously so that rearview mirror is dark-state.Control chip can adjust the voltage of supply liquid crystal layer according to the light intensity that light-sensitive element collects, and when light is stronger, then improves the voltage of supply liquid crystal layer, such that it is able to control the deflection angle of negative liquid crystal, reaches suitable antiglare effect.It is provided with loophole in light-sensitive element relevant position to ensure light-sensitive element can accept on light, housing 1 and mirror body 4.

Embodiment 4

The application provides the manufacture method of a kind of lightweight anti-dazzle driving mirror simultaneously, comprises the following steps:

Step one, prepare liner plate 3, liner plate 3 includes aluminium alloy plate and the carbon fibre fabric being wrapped on aluminium alloy plate, described carbon fibre fabric is that rectangular patch is without latitude pre-soaked resin carbon fibre fabric, the dipping process of described unidirectional carbon laid fabric uses resin glue in two-step method, the first step is impregnation, i.e. gluing in release paper, second step is gluing, will release paper cover on carbon fiber yarn, by heating drying glue, extruding, resin glue in release paper is forwarded on carbon fiber, ensure that resin glue is uniformly distributed on cloth cover, the consumption of resin glue is the 45-55% of fibre weight.Then carbon fibre fabric is carried out cutting, carbon fibre fabric is placed on fabric frame, by the size that the cutting of carbon fiber direction is given, control cutting temperature and be 21-23 DEG C.The aluminium alloy central layer brushing epoxide-resin glue is kept flat on operating board, and be attached to straight for the long limit of monoblock unidirectional carbon laid fabric one cut out on aluminium alloy central layer, the end edge distance aluminium alloy central layer end of unidirectional carbon laid fabric keeps the distance of 1-2cm, laminating of quickly being plated further by the long edge aluminium alloy central layer of the unidirectional carbon laid fabric of laminating with electric cautery；The aluminium alloy central layer of hot unidirectional carbon laid fabric is put into pressing plate middle position, parallel with pressing plate, unidirectional carbon laid fabric is tiled, aluminium alloy central layer is pressed on carbon fibre fabric, at forcing press falling pressure 2-2.5kg , temperature 23 DEG C-25 DEG C, time delay advance time 1.5-1.8s state under paste the most straight for whole carbon fibre fabric on aluminium alloy central layer.Using BOPP band to be wound again, tape wrap rotating speed controls to control at 2kg at 1.5mm, tension force at 2000r/min, band away from controlling, and tape wrap terminates, and cuts off BOPP band, is sealed by BOPP belt end with adhesive tape, and fixing described carbon fibre fabric forms liner plate.Twine the liner plate carried to be suspended in curing oven, shut fire door, carry out stage curing, first paragraph: be at the uniform velocity warmed up to 80 DEG C from room temperature by the speed of 1.5 DEG C/min, after 80 DEG C, be incubated 30min；Second segment: be at the uniform velocity warmed up to 140 DEG C in 40min from 80 DEG C, is incubated 60min after 140 DEG C, completes solidification, cut and polish after having solidified；

Step 2, prepare mirror body 4, inside top glass substrate, conductive layer and lower conductiving layer is plated respectively by the method for magnetron sputtering inside lower glass substrate, reflectance coating is plated outside lower glass substrate, liquid crystal layer is arranged between upper conductive layer and lower conductiving layer, and seal side with epoxide-resin glue, form mirror body.

Step 3, assembling illuminator, by shell 1, circuit board 2, liner plate 3, mirror body 4 is sequentially connected with, and is assembled into illuminator.Described shell 1 can be connected by screw with circuit board 2, it would however also be possible to employ glueds joint；Described circuit board 2 uses screw to be connected with described liner plate 3 or snaps connection；Described liner plate 3 uses with described mirror body 4 and glueds joint.Described glue can be epoxy glue.

While this utility model uses liquid crystal layer to realize rearview mirror automatic anti-glare, use ultra-thin glassy layer to reduce the volume of rearview mirror, use aluminium alloy central layer winding carbon fiber as liner plate simultaneously, solve the problem that light and thin type rearview mirror intensity is the highest.This utility model has that rearview mirror antiglare mesh function is excellent, and product is frivolous attractive in appearance, and intensity is high simultaneously, and lightweight advantage is suitable for being widely used in various vehicle.

Claims (10)

1. a lightweight anti-dazzle driving mirror, including housing, circuit board, liner plate and mirror body, it is characterised in that: described liner plate is light-weight metal central layer or the quilted plastic panel being wound with carbon fiber.

2. rearview mirror as claimed in claim 1, it is characterised in that: described light-weight metal central layer is aluminium alloy central layer.

3. rearview mirror as claimed in claim 1 or 2, it is characterized in that: described liner plate two ends are provided with breach, described circuit board is provided with control chip and light-sensitive element, described control chip is located at one end of circuit board, described light-sensitive element is located at the other end of circuit board, and the breach at described liner plate two ends is corresponding with the position of the control chip at circuit board two ends and light-sensitive element.

4. rearview mirror as claimed in claim 3, it is characterised in that: described light-sensitive element is two, is separately positioned on the two sides of circuit board, housing and mirror body and is provided with loophole in light-sensitive element relevant position.

5. rearview mirror as claimed in claim 4, it is characterised in that: described mirror body includes top glass substrate, lower glass substrate, upper conductive layer, lower conductiving layer, liquid crystal layer, and described lower glass substrate is coated with reflectance coating.

6. rearview mirror as claimed in claim 5, it is characterised in that: described top glass substrate, the thickness of lower glass substrate are 0.2-1mm.

7. rearview mirror as claimed in claim 6, it is characterised in that: described top glass substrate, the thickness of lower glass substrate are 0.8mm.

8. rearview mirror as claimed in claim 5, it is characterised in that: described top glass substrate, lower glass substrate are aluminizes or silver-plated optical glass.

9. rearview mirror as claimed in claim 5, it is characterised in that: described upper conductive layer, lower conductiving layer are transparent tin indium oxide ITO conducting film.

10. rearview mirror as claimed in claim 5, it is characterised in that: described liquid crystal layer is negative liquid crystal.