CN217978483U - Light-transmitting flexible plate and framework assembly for vehicle - Google Patents

Abstract

The utility model provides a printing opacity flexonics board and skeleton subassembly for vehicle, the printing opacity flexonics board includes flexible epidermal layer, flexible pattern layer, flexible leaded light layer, light source and flexible light source fixed layer, the printing opacity pattern has on the flexible pattern layer, the light source is located flexible leaded light inboard side, including the sub-light source of a plurality of distribution settings, a plurality of sub-light sources protrusion in the internal surface of flexible leaded light layer, flexible light source fixed layer includes a plurality of fixed orificess that correspond with a plurality of sub-light source position, and each sub-light source imbeds respectively in the fixed orifices that corresponds; the flexible light source fixing layer is used for being connected with a framework of the vehicle. The utility model provides a printing opacity flexonics, skeleton subassembly for vehicle have very strong suitability, and applicable in any position of any vehicle, and can obtain very pleasing to the eye, even and vivid interior trim decorative effect.

Description

Light-transmitting flexible plate and framework assembly for vehicle

Technical Field

The utility model relates to an interior trim technical field for the vehicle, in particular to a printing opacity flexographic plate and skeleton subassembly for vehicle.

Background

With the development of economic society, the materials are continuously flourishing, the requirements of people on traffic are not mainly limited to safety and economic considerations, and the attractiveness of the interior and exterior of the automobile is also increasingly emphasized. The existing vehicle interior trim can only be applied to specific parts inside specific types of vehicles generally, and is single in decorative effect, low in applicability and not vivid enough in decorative effect.

SUMMERY OF THE UTILITY MODEL

Based on above-mentioned current situation, the utility model discloses a main aim at provides a printing opacity flexographic plate and skeleton subassembly for vehicle, can overcome the above-mentioned defect among the prior art.

In order to achieve the above object, the utility model adopts the following technical scheme:

in a first aspect, the present invention provides a light-transmitting flexible board for a vehicle, including a flexible surface layer, a flexible pattern layer, a flexible light guide layer, a light source and a flexible light source fixing layer, wherein the flexible pattern layer has light-transmitting patterns thereon, the light source is located inside the flexible light guide layer, and includes a plurality of sub-light sources arranged in a distributed manner so as to protrude from an inner surface of the flexible light guide layer, the flexible light source fixing layer includes a plurality of fixing holes corresponding to a plurality of positions of the sub-light sources, and each sub-light source is embedded into the corresponding fixing hole; the flexible light source fixing layer is used for being connected with a framework of the vehicle.

Preferably, the arrangement positions and the arranged outlines of the sub-light sources in the light source correspond to the patterns on the flexible pattern layer.

Preferably, the flexible skin layer is colored artificial leather, the flexible skin layer presents the appearance of the artificial leather when the light source is turned off, and the flexible skin layer can penetrate the pattern of the flexible pattern layer after at least one sub-light source in the light source is turned on.

Preferably, the plurality of sub-light sources are separately controlled by respective control elements.

Preferably, the manner of the separate control is as follows: and respectively controlling the control element of each sub-light source through a PLC (programmable logic controller) so as to realize that the plurality of sub-light sources are separately controlled.

Preferably, the non-pattern area on the flexible pattern layer is a black light-blocking area.

Preferably, a flexible foaming layer and a flexible base fabric layer are further arranged between the flexible pattern layer and the flexible light guide layer.

Preferably, a surface treatment agent layer is arranged on the upper surface of the flexible skin layer.

In a second aspect, the utility model provides a skeleton subassembly for vehicle, including the skeleton, light source and the printing opacity flexible member of vehicle, the printing opacity flexible member includes flexible epidermal layer, flexible pattern layer and flexible leaded light layer, the printing opacity pattern has on the flexible pattern layer, the light source is located flexible leaded light in situ side, including the sub-light source of a plurality of distribution settings, a plurality of sub-light source protrusion in the internal surface on flexible leaded light layer, the skeleton of vehicle includes and is a plurality of fixed orificess that the sub-light source position corresponds, and every sub-light source imbeds respectively among the fixed orifices that corresponds.

Preferably, the flexible skin layer is colored artificial leather, the flexible skin layer presents the appearance of the artificial leather when the light source is turned off, and the flexible skin layer can penetrate the pattern of the flexible pattern layer after at least one sub-light source in the light source is turned on.

The utility model provides a printing opacity flexible sheet, skeleton subassembly for vehicle, through adopting flexible epidermal layer, flexible pattern layer, flexible leaded light layer, the light source is fixed on the skeleton of vehicle again after cooperating with flexible light source fixed bed, perhaps directly regard the skeleton of vehicle as the light source fixed bed, and because the flexible characteristic of each layer material except light source, the skeleton of vehicle, make it can with the vehicle skeleton looks adaptation of arbitrary shape, so have very strong suitability, applicable in any position of any vehicle, need not make respectively with its appearance assorted interior trim to these suitable positions, the work production efficiency in interior trim field for the vehicle has been improved greatly; the light guide layer can further fully scatter the light emitted by the distributed sub-light sources, and the mode that the light source is set into the plurality of sub-light sources provides the precondition of an independent control mode for the light emission of each sub-light source, the light emission color, the light emission brightness level and the like, so that the interior decoration effect which is extremely attractive, uniform and vivid can be obtained.

Other advantages of the present invention will be described in the detailed description, and those skilled in the art can understand the technical advantages brought by the technical features and technical solutions through the descriptions of the technical features and the technical solutions.

Drawings

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. In the figure:

fig. 1 is a schematic structural diagram of an embodiment of a light-transmitting flexible board for a vehicle according to the present invention, which is fitted to a framework of the vehicle;

fig. 2 is a schematic structural diagram of an embodiment of a skeleton assembly for a vehicle according to the present invention.

The reference numbers indicate:

reference numerals	Name(s)	Reference numerals	Name(s)	Reference numerals	Name(s)
						100	Flexible skin layer	400	Light source	600	Framework of vehicle
200	Flexible pattern layer	410	Sub-light source	700	Flexible foam layer
						300	Flexible light guide layer	500	Flexible light source fixing layer	800	Flexible base cloth layer

Detailed Description

The present invention will be described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth in order to avoid obscuring the spirit of the present invention, well-known methods, procedures, flows, and components have not been described in detail.

Furthermore, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, what is meant is "including but not limited to".

In the description of the present invention, it is to be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

Description of the drawings: in the following, the direction from the flexible skin layer to the skeleton of the vehicle is from "outer" to "inner".

In a first aspect, referring to fig. 1, the present invention provides a light-transmitting flexible board for a vehicle, including a flexible skin layer 100, a flexible pattern layer 200, a flexible light guide layer 300, a light source 400 and a flexible light source fixing layer 500, wherein the flexible pattern layer 200 has light-transmitting patterns, the light source 400 is located inside the flexible light guide layer 300 and includes a plurality of sub-light sources 410 arranged in a distributed manner, the plurality of sub-light sources 410 protrude from the inner surface of the flexible light guide layer 300, the flexible light source fixing layer 500 includes a plurality of fixing holes corresponding to the positions of the plurality of sub-light sources 410, and each sub-light source 410 is respectively embedded into the corresponding fixing hole; the flexible light source fixing layer is used for being connected with a framework of a vehicle.

The light-transmitting flexible board for a vehicle provided by the present invention is fixed on the framework 600 of the vehicle by using the flexible skin layer 100, the flexible pattern layer 200, the flexible light guide layer 300, the light source 400 and the flexible light source fixing layer 500 to match with each other (as will be understood by those skilled in the art, the pattern layer and the light guide layer of the present invention do not necessarily contact with each other, and there may be other functional structural layers between the two layers, such as a flexible foaming layer, etc.), because the skin layer 100, the pattern layer 200, the light guide layer 300 and the light source fixing layer 500 are all flexible structures, and the light source 400 is in the form of a plurality of sub light sources 410 arranged in a distributed manner, embedded into a plurality of fixing holes corresponding to the positions of the sub light sources 410 in the light source fixing layer 500, and used as the sub light source of the interior light source of the vehicle, for example, can select to use microminiature light sources such as small-size LED bulb, so these sub-light sources are distributed to set up the back at light guide layer 300 inboard and are imbedded light source fixed layer 500 and also can not show the flexible speciality that influences light guide layer 300 and light source fixed layer 500, consequently the utility model discloses a printing opacity flexible sheet for vehicle has flexible speciality on the whole, so can with the skeleton 600 looks adaptation of the vehicle of arbitrary shape, have very strong suitability, applicable in any position of treating decoration of skeleton 600 of any vehicle, as long as treat according to these and treat the size of decorating the size of the suitable vehicle with the printing opacity flexible sheet size of cutting out, then with the vehicle with printing opacity flexible sheet fixed connection (for example, use transparent glue, like hot melt adhesive, PU glue, acrylic acid glue etc. to realize fixed connection with the mode of pasting) in treating the decoration position can. The utility model discloses need not treat the decoration position to the difference of different vehicles, remove respectively to make and treat the interior trim of the appearance assorted vehicle at decoration position with these, improved the work production efficiency in the interior trim field of vehicle greatly, also showing and practiced thrift manufacturing cost such as die sinking.

And simultaneously, the utility model discloses a set up the sub-light source 410 of a plurality of distribution settings in flexible leaded light layer 300 inboard, the sub-light source 410 of these distribution settings itself just can play the dispersion to the light source luminous effect to a certain extent, and can further scatter the light that a plurality of sub-light sources that have distributed the setting sent through leaded light layer 300 (for example, the leaded light membrane, the light that can send the pointolite into the area source) in these sub-light source 410 outsides, these light are backlight for flexible pattern layer 200, these are shaded and can shine the printing opacity pattern that sets up on the flexible pattern layer 200, these patterns are even because the backlight that obtains, so can not have the relative display effect darker in these patterns, do not even obtain the area that the backlight shines, so can make the personnel of taking vehicle see luminous even, the pattern that the display effect is homogeneous, obtain beautiful visual sensation.

Furthermore, the present invention sets the light source 400 as the plurality of sub-light sources 410, which provides the precondition of the individual control manner for the light emission of each sub-light source, the light emission color, the light emission brightness level, etc., thereby obtaining the very beautiful, uniform and vivid interior decoration effect for the vehicle. Further, because the utility model discloses a plurality of sub light sources 410 protrusion is behind the internal surface of flexible leaded light layer 300 (for example, set up through pasting and make a plurality of sub light sources paste the internal surface on leaded light layer and protrusion in this internal surface), imbed flexible light source fixed layer 500, after this a printing opacity flexbile plate for the vehicle is for the matching to wait to decorate the position and take place the bending entirely, a plurality of sub light sources 410 are along with the crooked back of light source fixed layer 500, respectively and the distance between leaded light layer 300 can not change, luminous decorative effect can not take place obvious change yet, have very strong decoration practicality.

Preferably, the arrangement position and the arrangement contour of the sub light sources 410 in the light source 400 correspond to the pattern on the flexible pattern layer 200.

In the case that the pattern on the flexible pattern layer 200 is determined, the arrangement position and the arranged outline of the plurality of sub light sources 410 in the light source 400 may be made to correspond to the pattern on the flexible pattern layer 200, and the sub light sources 410 are not disposed at the positions corresponding to the non-pattern regions. Therefore, the arrangement of ineffective light sources can be reduced, and energy can be saved.

Of course, the plurality of sub-light sources 410 may be uniformly distributed, so that the sub-light sources can be adapted to different patterns of pattern layers, and the flexible pattern layer 200 can be replaced without changing other structures of the light-transmitting flexible board for a vehicle.

Preferably, the flexible skin layer 100 is colored artificial leather, the flexible skin layer 100 takes on the appearance of the artificial leather when the light source is turned off, and the flexible skin layer 100 can transmit the pattern of the flexible pattern layer 200 after at least one sub-light source 410 of the light source 400 is turned on.

By the above arrangement, the outer surface of the light-transmitting flexible sheet for a car exhibits the texture of artificial leather when the light sources 400 are not turned on, and the patterns on the flexible pattern layer 200 can be transmitted through the skin layer 100 after at least one sub-light source 410 of the light sources 400 is turned on. In order to ensure the light transmission of the flexible skin layer 100, the pattern on the surface of the flexible skin layer is clearer as much as possible, the thickness of the flexible skin layer 100 can be reduced as much as possible while the strength and toughness of the flexible skin layer are ensured, and the light transmission of the opaque toner on the skin layer can be ensured by enhancing the dispersibility of the toner in the skin layer raw material, reducing the particle size of the toner (for example, setting the particle size of the toner to be in the nanometer range, such as 0.3-20 nm) and other means so as to reduce the light transmission of the skin layer as low as possible. The sub-light sources 410 are selected in light emitting intensity and are matched with the light transmission capacity of the flexible skin layer 100, so that when the light sources 400 are turned off, the flexible skin layer 100 presents the appearance of the artificial leather, and after at least one sub-light source 410 in the light sources 400 is turned on, the flexible skin layer 100 can transmit the pattern of the flexible pattern layer 200.

In combination with the top view of the flexible pattern layer 200 shown on the right side of fig. 1, the flexible pattern layer 200 may be formed by printing opaque ink with a certain thickness (the opaque effect is achieved by selecting the color of the ink and the appropriate printing thickness) on the corresponding portion of the inner surface of the flexible skin layer 100, and the transparent pattern is formed by not printing any ink; the flexible pattern layer 200 may also be formed by using a piece of light-blocking paper disposed on the inner side of the flexible skin layer 100, and cutting a hollow pattern on the light-blocking paper to form a light-transmitting pattern region on the flexible pattern layer; furthermore, the flexible pattern layer 200 may also be a film disposed inside the flexible skin layer 100, the film itself is transparent, opaque ink is printed on the non-pattern area of the film to a certain thickness, and the area without black ink is the pattern area. The method for forming the flexible pattern layer by printing is most convenient and feasible, and can obviously improve the production efficiency of the flexible light-transmitting plate for the automobile vehicle.

Preferably, the plurality of sub-light sources 410 are separately controlled by respective control elements.

Preferably, the manner of the separate control is as follows: and respectively controlling the control element of each sub-light source through a PLC (programmable logic controller) so as to realize that the plurality of sub-light sources are separately controlled.

It is understood that each sub-light source 410 in the light-transmitting flexible board for a vehicle needs to be connected with an external power supply, an external control element, and the like, and is not isolated, otherwise, the normal light-emitting decoration effect cannot be realized. Each sub-light source and an external power source, an external control element, etc. may be connected through a connection line to realize power supply, control signal transmission, etc., and these connection lines may be arranged in a manner of slotting on the light source fixing layer, or may be directly sandwiched between the flexible light source fixing layer 500 and the flexible light guide layer 300.

Each of the sub-light sources 410 has its own control element, so that whether each sub-light source emits light, the emission color, the emission brightness level, and the like can be individually controlled. It is understood that these control elements are integrated in a control system of the vehicle, which can be operated by a person in the vehicle, for example, there is a PLC controller in the control system, and various keys are arranged on an operation interface outside the operation system, so that the person in the vehicle can select which sub-light source/sub-light sources emit light and which color/brightness light, respectively, by operating the corresponding keys, and of course, the keys may also indicate different light-emitting effects instead of which sub-light sources emit light, and the person in the vehicle can select different light-emitting effects by operating the corresponding keys, and the PLC controller receives the corresponding light-emitting effect instruction, and controls the light-emitting color and light-emitting brightness of the corresponding sub-light source/sub-light sources, and so on.

Preferably, the non-pattern area on the flexible pattern layer 200 is a black light blocking area.

In order to improve the contrast of pattern display, the non-pattern area on the flexible pattern layer 200 may be set as a black light-blocking area, so that the display boundary of the pattern on the flexible pattern layer 200 is clearer and the display effect of the pattern is clearer.

Preferably, a flexible foaming layer 700 and a flexible base fabric layer 800 are further provided between the flexible pattern layer 200 and the flexible light guide layer 300.

In order to strengthen the hand feeling of the light-transmitting flexible board for vehicles of the present invention, a flexible foaming layer 700 can be further disposed between the flexible pattern layer 200 and the flexible light guide layer 300, and those skilled in the art can understand that the thickness of the flexible foaming layer 700 should be as thin as possible and the foaming rate should be as low as possible on the premise of satisfying certain softness and strength requirements, so as to reduce the covering influence on the light source to be luminous as much as possible. Preferably, the thickness of the flexible foaming layer can be 0.1mm-1mm, and the foaming rate is 1.2-1.7.

The function of the flexible base fabric layer 800 is primarily to provide mechanical support for the light-transmitting flexible sheet as a whole for a vehicle. The flexible foam layer 700 and the flexible base fabric layer 800 may be fixed to each other by hot pressing or adhesion, and a glue layer (not shown) is disposed between the flexible foam layer 700 and the flexible base fabric layer 800 when the two are combined by adhesion. Further, one of the fixing methods of the flexible base fabric layer 700 and the flexible light guide layer 800 may be adhesion, that is, a glue layer (not shown) is also disposed between the flexible base fabric layer 700 and the flexible light guide layer 800.

When the effect of the softness demand of this a flexible light-transmitting board for vehicle is satisfied more than, compare in all setting up flexible foaming layer 700 and flexible base cloth layer 800 in the technical scheme in the outside of flexible pattern layer 200, all set up flexible foaming layer 700 and flexible base cloth layer 800 at flexible pattern layer 200 inboardly, can make flexible pattern layer 200 be closer to flexible epidermal layer 100, like this, the process light behind the flexible pattern layer 200 is when going out through flexible epidermal layer 100, and the scattering of light is obvious littleer to the influence of formation of image, and the pattern of observing from the external world is just more clear.

Preferably, a surface treatment agent layer (not shown) is further provided on the outer surface of the flexible skin layer 100.

Through the setting on surface treatment agent layer, can play effects such as resistant scraping, wear-resisting, resistant chemical reagent, heat-resisting and ageing-resistant, further, this surface treatment agent layer can be the glossy coating of utensil, can give the utility model discloses a vehicle with printing opacity flexible board surface gloss sense.

In a second aspect, referring to fig. 2, the utility model also provides a skeleton subassembly for vehicle, including skeleton 600, light source 400 and the printing opacity flexible component of vehicle, the printing opacity flexible component includes flexible epidermal layer 100, flexible pattern layer 200 and flexible leaded light layer 300, the printing opacity pattern has on the flexible pattern layer 200, light source 400 is located flexible leaded light layer 300 inboard, including the sub-light source 410 of a plurality of distribution settings, a plurality of sub-light source 410 protrusion in the internal surface of flexible leaded light layer 300, the skeleton 600 of vehicle includes and is a plurality of fixed orificess that the sub-light source position corresponds, and every sub-light source 410 imbeds respectively among the fixed orificess that corresponds.

The utility model provides a flexible leaded light layer 300 (can be understood by the technical personnel in the field, the utility model discloses a be unnecessary between pattern layer and the leaded light layer to have contact of each other between these two-layers, also can have other functional structure layers like the existence of flexible foaming layer etc.) to constitute printing opacity flexible component through adopting flexible epidermis 100, flexible pattern layer 200, internal surface to be equipped with a plurality of sub-light sources 410, will again printing opacity flexible component fixes on vehicle's skeleton 600, because epidermis 100, pattern layer 200, leaded light layer 300 are flexible structure, and microminiature light sources such as small-size LED bulb are as sub-light source, so these sub-light sources 410 can not show the flexible speciality that influences layer 300 after light guide layer 300 internal surface is laid separately, consequently the utility model discloses a skeleton subassembly for vehicle, flexible epidermis 100, flexible pattern layer 200 and internal surface protrusion are provided with the flexible leaded light layer 300 of a plurality of sub-light sources 410 have flexible speciality, so can with the skeleton 600 looks adaptation of vehicle of arbitrary shape, therefore the concrete shape of vehicle's skeleton 600, why flexible skeleton 100, flexible pattern layer 200 and internal surface are equipped with the flexible light source 200 and the flexible luminous source can be the corresponding flexible luminous source 600 of these sub-light sources 600 when these flexible skeleton layers 600 are equipped with the flexible skeleton 600 of flexible luminous source, the general shape of the flexible luminous source 600 of the flexible layer, and can be joined in the form of vehicle.

And simultaneously, the utility model discloses a with sub-light source 410 at the setting of leaded light layer 300 internal surface distribution, played the dispersion to the light source luminous effect to a certain extent, and through leaded light layer 300 (for example, the leaded light membrane) in these sub-light source 410 outsides, can change the light that the pointolite sent into the area source) can further fully scatter the light that a plurality of sub-light sources 410 that have distributed the setting sent, these light is backlight for flexible pattern layer 200, these backlight can shine the printing opacity pattern that sets up on the flexible pattern layer 200, these patterns are even because the backlight that obtains, so can not have the relative display effect in these patterns darker, do not obtain the region that the backlight shines even, so can make the personnel of taking vehicle see luminous even, the pattern of display effect homogeneity, visual experience is very beautiful.

Furthermore, the present invention provides the precondition of the independent control of the lighting color, the lighting brightness level, etc. for each sub-light source 410, if it is lighted, by setting the light source as a plurality of sub-light sources 410, so as to obtain the very beautiful, uniform and vivid decoration effect of the interior of the vehicle. Further, because the utility model discloses a plurality of sub-light sources 410 protrusion is behind the internal surface of leaded light layer 300 (for example, set up through pasting and make a plurality of sub-light sources paste the internal surface on leaded light layer and protrusion in this internal surface), imbeds the skeleton of vehicle, follows on flexible leaded light layer 300 after the appearance of the skeleton 600 of vehicle is crooked, a plurality of sub-light sources 410 along with the crooked of flexible leaded light layer 300, separately and the distance between the leaded light layer 300 can not change, luminous decorative effect can not take place obvious change yet, has very strong decoration practicality.

Preferably, the flexible skin layer 100 is colored artificial leather, the flexible skin layer 100 takes on the appearance of the artificial leather when the light source is turned off, and the flexible skin layer 100 can transmit the pattern of the flexible pattern layer 200 after at least one sub-light source 410 of the light source 400 is turned on.

With the above arrangement, the outer surface of the skeleton assembly of the vehicle exhibits the texture of artificial leather when the light source 400 is turned off, and the pattern on the flexible pattern layer 200 can be penetrated through the skin layer 100 after the light source is turned on. In order to ensure the light transmission of the flexible skin layer 100, the pattern on the surface of the flexible skin layer can be clearer as much as possible, the thickness of the flexible skin layer can be reduced as much as possible while the strength and toughness of the flexible skin layer are ensured, and the light transmission of the opaque toner on the skin layer can be ensured by enhancing the dispersibility of the toner in the skin layer raw material, reducing the particle size of the toner (for example, setting the particle size of the toner to be in the nanometer range, such as 0.3-20 nm) and the like. The light emitting intensity of the sub-light sources 410 is selected to match with the light transmittance of the flexible skin layer 100, so that when the light sources 400 are turned off, the flexible skin layer 100 has the appearance of artificial leather, and when at least one sub-light source 410 of the light sources 400 is turned on, the flexible skin layer 100 can transmit the pattern of the flexible pattern layer 200.

With reference to the schematic top view of the flexible pattern layer 200 shown on the right side of fig. 2, the flexible pattern layer 200 may be formed by printing opaque ink with a certain thickness (the opaque effect is achieved by selecting the color of the ink and the appropriate printing thickness) on the corresponding portion of the inner surface of the flexible skin layer 100, and the transparent pattern is formed by not printing any ink; the flexible pattern layer 200 may also be formed by using a piece of light-blocking paper disposed on the inner side of the flexible skin layer 100, and cutting a hollow pattern on the light-blocking paper to form a light-transmitting pattern region on the flexible pattern layer 200; furthermore, the flexible pattern layer 200 may also be a film disposed inside the flexible skin layer 100, the film itself is transparent, opaque ink is printed on the non-pattern area of the film to a certain thickness, and the area without black ink is the pattern area. The method for forming the flexible pattern layer by printing is most convenient and feasible, and the production efficiency of the framework component for the vehicle can be obviously improved.

In addition, the method for manufacturing a light-transmitting flexible board for a vehicle according to an embodiment of the present invention may include the steps of:

s100, forming or attaching a flexible pattern layer 200 on an inner surface of the flexible skin layer 100 by printing;

s200, fixing the flexible skin layer 100 and the flexible pattern layer S200 obtained in step S100 on the outer side of the flexible light guide layer 300;

s300, bonding the plurality of sub light sources 410 at corresponding positions on the inner surface of the flexible light guide layer 300 to obtain a first semi-finished product, and coating an adhesive layer on the part, which is not bonded with the sub light sources, on the inner surface of the flexible light guide layer;

s400, forming a plurality of fixing holes in the flexible light source fixing layer 500;

and S500, covering the semi-finished product obtained in the step S300 on the flexible light source fixing layer 500, enabling the plurality of sub light sources 410 to be respectively embedded into the corresponding fixing holes, and enabling the part, which is not bonded with the sub light sources, of the inner surface of the flexible light guide layer to bond the semi-finished product and the flexible light source fixing layer 500 into a whole through the adhesive layer.

It will be understood by those skilled in the art that the above-mentioned steps S100-S500 do not represent the order of actual production steps, for example, since S400 "forming a plurality of fixing holes on the light source fixing layer" is not dependent on the steps S100-S300 being performed, at least step S400 may be performed simultaneously with at least one of the steps S100/S200/S300, or the step S400 may be performed over a time span spanning at least two of the steps S100, S200, S300.

Furthermore, the manufacturing method of the framework component for vehicle of an embodiment of the present invention may include the following steps:

s100, printing or adhering a flexible pattern layer 200 on an inner surface of the flexible skin layer 100;

s200, fixing the flexible skin layer 100 and the flexible pattern layer S200 obtained in step S100 on the outer side of the flexible light guide layer 300;

s300, bonding the sub light sources 410 at corresponding positions on the inner surface of the flexible light guide layer 300 to obtain a second semi-finished product, and coating an adhesive layer on the parts, which are not bonded with the sub light sources, on the inner surface of the flexible light guide layer;

s400, arranging a plurality of fixing holes on a framework 600 of the vehicle;

s500, covering the second semi-finished product obtained in step S300 on the skeleton 600 of the vehicle, so that the sub-light sources 410 are respectively embedded into the corresponding fixing holes, and bonding the semi-finished product and the skeleton 600 of the vehicle together through the adhesive layer, so that the sub-light sources are not bonded to the inner surface of the flexible light guide layer 300.

It will be understood by those skilled in the art that the above-mentioned steps S100-S500 do not represent the order of actual production steps, for example, since S400 "opening a plurality of fixing holes on the skeleton of the vehicle" is not dependent on the steps S100-S300 being performed, at least step S400 may be performed simultaneously with at least one of the steps S100/S200/S300, or the step S400 may be performed over a time span spanning at least two of the steps S100, S200, S300.

It will be appreciated by those skilled in the art that the above-described preferred embodiments may be freely combined, superimposed, without conflict.

It will be understood that the above-described embodiments are illustrative only and not restrictive, and that various obvious and equivalent modifications and substitutions may be made in the details described herein by those skilled in the art without departing from the basic principles of the invention.

Claims (10)

1. A light-transmitting flexible board for a vehicle includes a flexible skin layer (100), a flexible pattern layer (200), a flexible light guide layer (300), a light source (400), and a flexible light source fixing layer (500), the flexible pattern layer (200) having a light-transmitting pattern thereon,

it is characterized in that the preparation method is characterized in that,

the light source (400) is positioned on the inner side of the flexible light guide layer (300) and comprises a plurality of sub light sources (410) which are distributed, the sub light sources (410) protrude out of the inner surface of the flexible light guide layer (300), the flexible light source fixing layer (500) comprises a plurality of fixing holes corresponding to the sub light sources (410), and each sub light source (410) is embedded into the corresponding fixing hole; the flexible light source fixing layer (500) is used for being connected with a framework of the vehicle.

2. The light-transmitting flexible board according to claim 1, wherein the light sources (400) are arranged in a position and have a profile corresponding to the pattern on the flexible pattern layer (200).

3. A light-transmitting flexible board according to claim 2, wherein the flexible skin layer (100) is a colored artificial leather, the flexible skin layer (100) presents the appearance of the artificial leather when the light sources (400) are turned off, and the flexible skin layer (100) can transmit the pattern of the flexible pattern layer (200) after at least one sub-light source (410) in the light sources (400) is turned on.

4. Light-transmissive flexible sheet according to claim 1, wherein the plurality of sub-light sources (410) are separately controlled by respective control elements.

5. The optically transparent flexible sheet of claim 4, wherein said separate control is by: the control elements of each sub-light source (410) are controlled separately by a PLC controller to achieve that the plurality of sub-light sources (410) are controlled separately.

6. The light-transmitting flexible sheet according to claim 1, wherein the non-pattern area on the flexible pattern layer (200) is a black light-blocking area.

7. The light-transmitting flexible board of claim 1, wherein there are also a flexible foam layer (700) and a flexible base fabric layer (800) between the flexible pattern layer (200) and the flexible light guiding layer (300).

8. A light-transmitting flexible sheet according to claim 1, wherein a surface treatment agent layer is further provided on the upper surface of the flexible skin layer (100).

9. A skeleton assembly for a vehicle, comprising a skeleton (600) of the vehicle, a light source (400) and a light-transmitting flexible member, the light-transmitting flexible member comprising a flexible skin layer (100), a flexible pattern layer (200) and a flexible light guide layer (300), the flexible pattern layer (200) having a light-transmitting pattern thereon,

it is characterized in that the preparation method is characterized in that,

the light source (400) is located on the inner side of the flexible light guide layer (300) and comprises a plurality of sub light sources (410) which are distributed, the sub light sources (410) protrude out of the inner surface of the flexible light guide layer (300), the framework (600) of the vehicle comprises a plurality of fixing holes corresponding to the sub light sources (410), and each sub light source (410) is embedded into the corresponding fixing hole.

10. Skeletal assembly according to claim 9, characterized in that the flexible skin layer (100) is a colored artificial leather, the flexible skin layer (100) assumes the appearance of the artificial leather when the light sources are switched off, and the flexible skin layer (100) is able to show through the pattern of the flexible pattern layer (200) after at least one sub-light source (410) in the light sources (400) is switched on.

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