• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A dial plate includes a marking layer that has translucency, the marking layer including a number of linear grooves that are formed on a surface of the marking layer, and a reflective layer that is arranged on a back side of the marking layer and which reflects the incident light incident from the side of the marking layer. The reflective layer includes a light transmitting region which allows light emitted from a light source which is arranged on the backside side to be transmitted therethrough to a front side, and displays a display pattern by means of the light that is transmitted through the light transmission zone when the light source is activated. At the reflective layer, at least the light transmitting region is composed of pearlescent ink.
    公开号:FR3049705A1
    申请号:FR1752612
    申请日:2017-03-29
    公开日:2017-10-06
    发明作者:Yasufumi Mochizuki;Tatsuya Hattori
    申请人:Yazaki Corp;
    IPC主号:
    专利说明:

    DIAL PLATE AND SPEED COUNTER DEVICE
    AUTOMOBILE
    REFERENCE TO RELEVANT PATENT APPLICATIONS
    The present patent application claims the right of priority attached to the full contents of the Japanese Patent Application No. 2016-067748 filed in Japan on March 30, 2016 and Japanese Patent Application No. 2017-048976 filed in Japan on January 20, 2016. March 14, 2017. BACKGROUND OF THE INVENTION 1. Field of the Invention
    The present invention relates to a dial plate and an automobile speedometer device. 2. Description of the prior art
    A metal dial plate on which fine grooves are formed is conventionally known. For example, Japanese Patent Application Publication No. 2012-37438 discloses a technique relating to a dial plate which comprises a transparent substrate which has a light transmission property, a marking portion which comprises an irregularity similar to the line of the hair and which is formed on the back side of the transparent substrate and a mirror layer which reflects the external light, which external light is the incident light incident from the front side of the transparent substrate which is arranged on the back side of the part marking. The mirror layer according to Japanese Patent Application Publication No. 2012-37438 is a cutout that corresponds to a display pattern.
    At the level of the dial plate according to Japanese Patent Application Publication No. 2012-37438, a lighting light incidental from the rear face of the dial plate reaches the eyes of an occupant at the front. of the dial plate after passing through the cutout that corresponds to the display pattern that is on the mirror layer. Therefore, the display pattern is illuminated and is visually recognized.
    Here, when a light source that is arranged on the rear face side of the dial plate is in a deactivated state, it is desirable that the display pattern be masked. The cut of the display pattern on the mirror layer is visible because the cut is, for example, viewed in a darkened visualization context when the light source is cut off. In order to improve the drawing property of the dial plate, it is desirable that the display pattern be invisible when the light source is cut off.
    SUMMARY OF THE INVENTION
    An object of the present invention is to provide a dial plate and an automobile speedometer device in which the display pattern is invisible when the light source is not activated.
    In order to achieve the object mentioned above, a dial plate according to one aspect of the present invention includes a marking layer which is configured to transmit light, the marking layer including a number of linear grooves which are formed on a surface of the marking layer; and a reflective layer which is arranged on a rear face side of the marking layer, the reflective layer being configured to reflect light incident from the side of the marking layer, wherein the reflective layer includes a a light transmitting region which is configured to allow light emitted from a light source which is arranged on the rear face side of the light transmitting area to be transmitted through the transmission area light to a front side of the light transmitting area, and displays a display pattern by means of the light that is transmitted through the light transmitting area when the source of light is on; and at least the light transmitting region in the reflective layer is composed of pearlescent ink.
    According to another aspect of the present invention, at the dial plate, it is preferable that an area other than the light transmitting region in the reflective layer is composed of a pearlescent ink.
    According to yet another aspect of the present invention, at the dial plate, it is preferable that an area other than the light transmitting region in the reflective layer is composed of a mirror ink.
    In yet another aspect of the present invention, an automobile speedometer device includes a dial plate that includes a marking layer that is configured to transmit light, the marking layer including a number of grooves which are formed on a surface of the marking layer, and a reflective layer which is arranged on a rear face side of the marking layer, the reflective layer being configured to reflect incident light from the side of the marking layer; the marking layer; and a light source which is arranged on the rear face side of the reflective layer, wherein the reflective layer includes a light transmitting region which is configured to allow light emitted from the light source is transmitted through the light transmitting area to a front side of the light transmitting area, and displays a display pattern by means of the light being transmitted through the area transmitting light when the light source is activated; and at least the light transmitting region in the reflective layer is composed of pearlescent ink.
    The objects, features and advantages as well as the technical and industrial signifiers that have been mentioned above as well as other objects, features and advantages as well as other technical and industrial signifiers of the present invention will be better understood following reading the following detailed description of presently preferred embodiments of the invention, which are to be considered in connection with the accompanying drawings.
    BRIEF DESCRIPTION OF THE DRAWINGS
    FIG. 1 is a plan view of an automobile speedometer according to a first embodiment; FIG. 2 is a sectional view of the automobile speedometer according to the first embodiment; FIG. 3 is a sectional view showing the activated state of a light source in the automobile speedometer according to the first embodiment; FIG. 4 is a view showing a layer structure of a dial plate according to a first modification of the first embodiment; FIG. 5 is a sectional view of an automobile speedometer according to a second modification of the first embodiment; FIG. 6 is a sectional view showing the activated state of the light source in the automobile speedometer according to the second modification of the first embodiment; FIG. 7 is a sectional view of an automobile speedometer according to a second embodiment; FIG. 8 is a sectional view showing the activated state of the light source in the automobile speedometer according to the second embodiment; FIG. 9 is a view showing a layer structure of a dial plate according to a modification of the second embodiment; and FIG. 10 is a view showing a layer structure of a dial plate according to another modification of the embodiments.
    DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
    Hereinafter, a dial plate and an automobile speedometer according to embodiments of the present invention will be specifically explained with reference to the drawings. Here, the present invention is not limited to these embodiments. Moreover, the constituent features according to the following embodiments include a portion that can be readily conceived by those skilled in the art, or portions that are substantially equivalent to one another.
    First embodiment
    A first embodiment is explained with reference to FIGs. 1 to FIG. 3. The first embodiment relates to a dial plate and an automobile speedometer. FIG. 1 is a plan view of the automobile speedometer according to the first embodiment, FIG. 2 is a sectional view of the automobile speedometer according to the first embodiment and FIG. 3 is a sectional view showing the activation state of a light source in the automobile speedometer according to the first embodiment. FIGs. 2 and FIG. 3 are sectional views each of which is taken along a line II-II of FIG. 1.
    As shown in FIG. 1, an automobile speedometer 100 according to the first embodiment comprises a housing 101 and a dial plate 1. As shown in FIG. 2, the automobile speedometer 100 further includes at least one light source 3. The automobile speedometer 100 is, for example, arranged inside a dashboard at the front of the vehicle. driver's seat. The housing 101 is attached to an automobile body side member such as the dashboard. The housing 101 has an opening that corresponds to the dial plate 1. The dial plate 1 is engaged with the opening of the housing 101 so as to close the opening. The automobile speedometer 100 according to the first embodiment is a combination speedometer which has a plurality of dial plates including the dial plate 1 which is shown in FIG. 1. The dial plate 1 according to the first embodiment is a dial plate of a speedometer which indicates the speed of movement of an automobile on which the automobile speedometer 100 is mounted.
    The dial plate 1 is a disk-shaped element. As shown in FIG. 1, a through hole 11 in which the indicator pointer rotating shaft (not shown in the drawings) is inserted into the central portion of the dial plate 1. The dial plate 1 includes an index 12 which is arranged in its outer edge portion. The index 12 includes a plurality of character indexes 13 and a plurality of scale indexes 14. Each of the scale indexes 14 is a speed index on which the indicator hand is intended to point. Each of the character indexes 13 is a numerical index of a speed value which corresponds to the scale index 14. The character indexes 13 and the scale indexes 14 are arranged according to predetermined intervals in the circumferential direction. The scale index 14 is arranged on the outside of the index in the form of characters 13 in the radial direction. Each of the indexes taken from the index in the form of characters 13 and the index in the form of scale 14 may, for example, be an index formed by printing, an index that emits light by means of the light that arrives in incidence from its back side, or a convex part or a concave part which is formed at the level of the dial plate 1.
    The dial plate 1 comprises a marking zone 15. At the level of the dial plate 1 according to the first embodiment, the marking zone 15 is provided on a front face of the dial plate 1. Here, in relation with the dial plate 1 and with the automobile speedometer device 100, the term "front side" indicates a driver's seat side, and typically this expression indicates the back side of a automobile. As a result, the front face 1a of the dial plate 1 is a surface that faces the driver's seat in an opposing manner. In connection with the dial plate 1 and with the automobile speedometer device 100, the term "backside side" indicates a side opposite to the driver's seat side, and typically this expression indicates the front side of the automobile. The marking zone 15 is an area between the through hole 11 and an outer boundary line 16 in the front face 1a of the dial plate 1. The outer boundary line 16 is formed in a circular shape which is concentric with respect to the through hole 11, and separates the index in the form of characters 13 from the scale index 14.
    The marking zone 15 has a marking 18 which is constituted by a number of linear grooves 17. At the marking 18 according to the first embodiment, the grooves 17 are arranged to extend radially around the through hole 11 which is defined as a center. The groove 17 is, in reality, extremely small in terms of width and depth, and the grooves 17 are arranged at extremely small intervals. As a result, it is difficult to visually recognize the grooves 17. The grooves 17, whose number is larger than that of the example shown in FIG. 1 or the like, are formed on the dial plate 1. The marking 18 is a sunrise-like marking which has a similar luster to a sunrise due to the number of grooves 17.
    As shown in FIG. 2, the dial plate 1 comprises a marking layer 21, a layer of base material 22, a reflective layer 23 and a protective layer vis-à-vis the light 24. The marking layer 21, the layer of base material 22, the reflective layer 23 and the light-shielding layer 24 are laminated towards the rear face side from the front face side of the dial plate 1, in that order. That is, at the dial plate 1, the marker layer 21 is a layer which is arranged to be the layer closest to the driver's seat.
    The marking layer 21 is a layer that has a translucency. The marking layer 21 is, for example, formed of a synthetic resin material (acrylate resin, polycarbonate or the like). The marking 18 is formed on the front face 1a of the marking layer 21. The marking 18 is, for example, formed by means of a forming mold.
    The base material layer 22 is a main body portion of the dial plate 1. The base material layer 22 is a layer that is translucent, and is formed of a synthetic resin material or the like. The marking layer 21 and the base material layer 22 may be either a colorless layer or a colored layer, and may be either a clear layer or a semi-transparent layer. The marking layer 21 and the base material layer 22 are formed integrally with one another by adhesion, welding, two-color molding or the like. Here, the marking 18 may be formed by means of an impression molding which involves applying ultraviolet rays or heat to the base material layer 22.
    The reflective layer 23 is a layer which is arranged on the rear face side of the marking layer 21, and reflects the incident light from the side of the marking layer 21. The reflective layer 23 according to the first embodiment The reflective layer 23 has the ability to reflect at least incident light incident from its front face side. The reflective layer 23 according to the first embodiment is an ink layer which is printed on a rear face 22a of the base material layer 22. The reflective layer 23 according to the first embodiment is composed of pearlescent ink. The pearlescent ink is an ink that contains a pearlescent pigment, and exhibits a gloss and interference colors as a function of a viewing angle with respect to the dial plate 1. The pearlescent pigment is a pigment that contains mica, SiO 2, Al 2 O 3, or the like, which chemical bodies have a low refractive index, and is coated with a metal oxide (titanium oxide, iron oxide, or the like) which has a refractive index Student. The pearlescent ink is such that a pigment having a high refractive index and a pigment having a low refractive index are arranged in a layered manner so as to impart to the reflected light multiple reflections and color effects. 'interference. The beaded ink has both a reflection property and a transmission property. As a result, the reflective layer 23 reflects incident light from its front side, and generates a luster.
    When the marking layer 21 reflects light, an area of a portion of the marking 18 shines. Typically, at the marking 18, a region having a line shape, a strip shape or a sector shape in the radial direction shines. That is, the marking area at which light is incident has a similar luster to the sunrise. At the level of the dial plate 1 according to the first embodiment, the reflection of the light incident on the reflective layer 23, and the luster which is generated in a manner similar to the sunrise on the marking layer 21 ensure obtaining a metal dial plate that provides a metallic feel.
    As shown in FIG. 2, the reflective layer 23 has a light transmission zone 23a. The light transmitting area 23a is an area that allows transmission of light through at least from its back side to its front side. The reflective layer 23 according to the first embodiment is composed of pearlescent ink, and allows the transmission of light therethrough from its back side to its front side as well as from its front side. to his back side.
    The light-shielding layer 24 is formed on the rear-face side of the reflective layer 23. The light-shielding layer 24 according to the first embodiment is a layer of light-shielding. printing which is composed of black ink, the printing layer being printed on a rear face 23b of the reflecting layer 23. That is to say that the protective layer vis-à-vis the light 24 is laminated on the rear face 23b of the reflective layer 23. The protective layer vis-à-vis the light 24 covers an area (which is hereinafter called "other area") 23c which is other than the transmission area of the light 23a of the reflective layer 23 from the rear face side of the reflective layer 23. The other area 23c is an area which surrounds the light transmission zone 23a, as well as a zone with the exception of the light transmission zone 23a. The light-shielding layer 24 has a hollow zone 24a which is formed in a shape corresponding to that of the light-transmitting region 23a. The protective layer vis-à-vis the light 24 prevents that the light that is emitted from the light source 3 mentioned below does not affect the other area 23c.
    The light source 3 is arranged on the rear face side of the dial plate 1. The light source 3 is, for example, a light emitting diode (LED). The light source 3 is held by means of a support 4 which is arranged on the rear face side of the dial plate 1. The light source 3 is arranged in a position which is such that the light source 3 makes facing the light transmitting region 23a in an opposing manner. At the level of the support 4, for example, the light sources 3 are arranged so as to face the light transmission zones 23a according to a bijective relationship. The support 4 comprises a control circuit which controls the activation / deactivation of the light source 3.
    The shape of the light transmitting region 23a as viewed from the front face side of the dial plate 1 is in the form of a display pattern. That is, the shape of the hollow zone 24a in the light-shielding layer 24 is formed in the form of the display pattern. The display design is a design composed of characters or patterns based on warning information or the condition of an automobile. As a display pattern, there are various types of drawings indicated on the dial plate 1, such as a pattern that indicates an activated condition of an operative device such as a direction light and a pattern. which indicates an alarm for equipment such as a battery.
    As shown in FIG. 2, in a state in which the light source 3 is cut off, the light transmitting region 23a reflects an incident light Lt1 from the side of the marking layer 21 in the same manner as in the case of the light source. other area 23c. As a consequence, the light transmission zone 23a has a luster in the same manner as in the case of the other zone 23c, which ensures the metallic feel of the dial plate 1. light transmission 23a covers the space on its rear face side, which masks the existence of the hollow zone 24a in the protective layer vis-à-vis the light 24. That is to say that the light transmitting region 23a masks the display pattern in the state in which the light source 3 is cut off.
    As shown in FIG. 3, in a state in which the light source 3 is activated, the light transmitting region 23a allows light Lt2 emitted from the light source 3 to be transmitted therethrough to the front side of the light. the light transmission zone 23a, as indicated by means of an arrow Y1. On the other hand, the light-shielding layer 24 prevents light from flowing to the other areas 23c from the back-side side, the light including light being emitted from the light source 3 The light that is transmitted through the light transmission zone 23a (this light is hereinafter simply called the "transmission light") displays the display pattern corresponding to the shape of the transmission area of the light. the light 23a on the dial plate 1. That is, the dial plate 1 displays a display pattern by means of the light that is transmitted through the light transmitting zone 23a when the light source 3 is activated.
    At the level of the dial plate 1 according to the first embodiment, the other zone 23c is protected by the protective layer vis-à-vis the light 24. As a result, in a state in which the source of 3 is activated, the contrast in terms of luminance of the light transmission zone 23a relative to the other zone 23c is improved. Therefore, the dial plate 1 according to the first embodiment improves the visibility of the display pattern.
    As has been explained so far, the dial plate 1 according to the first embodiment is configured to transmit light, the dial plate 1 including the marking layer 21, which has a number of linear grooves 17 formed on its surface, and the reflecting layer 23 which is arranged on the rear face side of the marking layer 21, and it reflects the light Ltl which arrives in incidence from the side of the marking layer 21. The reflective layer 23 comprises the light transmitting region 23a which allows the light Lt2 emitted from the light source 3 which is arranged on its rear face side to be transmitted therethrough to the front side. The reflective layer 23 displays the display pattern by means of light passing through the light transmitting area 23a when the light source 3 is turned on. At the reflective layer 23, at least the light transmitting region 23a is composed of pearlescent ink. At the dial plate 1 and the automobile speedometer device 100 which includes the dial plate 1 according to the first embodiment, the light transmitting zone 23a is composed of a beaded ink which exhibits transparency and reflectivity, thereby masking the display pattern when the light source 3 is cut off. As a result, the pattern property of the dial plate 1 is improved.
    Moreover, at the dial plate 1 according to the first embodiment, the other area 23c in the reflective layer 23 is also composed of pearlescent ink. Typically, the reflective layer 23 is entirely composed of pearlescent ink. The other zone 23c is also composed of pearlescent ink and it follows that the integrity or continuity in terms of external appearance of the reflective layer 23 is hardly lowered. In a state in which the light source 3 is cut off, the appearance of the light transmitting area 23a and the appearance of the other areas 23c coincide or coincide substantially with each other, or the area light transmission 23a and the other zones 23c have a similarity in appearance to such a degree that they are difficult to discriminate, thereby improving the property of display patterns of the dial plate 1.
    At the dial plate 1 according to the first embodiment, the marking 18 is formed on the front face of the marking layer 21. Alternatively, the marking 18 may be formed on the back side of the layer marking 21.
    First modification of the first embodiment
    The first modification of the first embodiment is explained. FIG. 4 is a view showing a layer structure of a dial plate according to the first modification of the first embodiment. As shown in FIG. 4, the dial plate 1 according to the first modification comprises an upper coating layer 31, a transparent smoke layer 32, a base material layer 33, a marking layer 34, a reflective layer 35 and a protective layer 36. The top coating layer 31 is a transparent coating layer that covers the front face of the dial plate 1. The transparent smoke layer 32 is a semi-transparent layer that adjusts the color tone. of the dial plate 1. The transparent smoke layer 32 is, for example, formed by means of a smoke print. The base material layer 33 is a main body portion that exhibits translucency, in the same manner as in the case of the base material layer 22 according to the first embodiment.
    The marking layer 34 has a translucency, and the marking 18 is formed on a surface of the marking layer 34. The marking 18 is, for example, a sunrise pattern marking which has a number of grooves 17 which are arranged to extend radially, in the same way as in the case of the marking 18 according to the first embodiment. The marking 18 may be formed on the front face of the marking layer 34, or it may be formed on a rear face 34a of the marking layer 34. The marking 18 according to the first modification is, for example, formed by means of impression molding using ultraviolet rays or heat.
    The reflective layer 35 is entirely composed of pearlescent ink, in the same manner as in the case of the reflective layer 23 according to the first embodiment. The reflective layer 35 is a printed beaded ink layer which is printed on the rear face 34a of the marking layer 34. The reflective layer 35 has a light transmission zone 35a. The light transmitting region 35a is an area that allows light to be transmitted to its front face side from its backside side.
    The light-shielding layer 36 is formed on the rear-face side of the reflective layer 35. The light-shielding layer 36 is, for example, a layer of ink printed layer which is printed on the back side of the reflective layer 35. The protective layer vis-à-vis the light 36 has at least one hollow zone 36a. The light-shielding layer 36 covers another area 35b in the reflective layer 35 from the rear-facing side of the reflective layer 35. The other area 35b is an area which is other than the transmission of the light 35a in the reflective layer 35. That is, in the reflective layer 35, the area which is covered by the protective layer vis-à-vis the light 36 constitutes a protective zone which substantially prevents the light from being transmitted through. In the reflective layer 35, the area which is exposed without being covered by the protective layer vis-à-vis the light 36 constitutes the light transmission zone 35a which allows the light to pass through.
    The shape of each zone in the light transmission zone 35a and the hollow zone 36a is a shape that corresponds to a shape that constitutes a display pattern. The display drawing may be, for example, constituted by characters such as the numerals which are shown in FIG. 4. The light transmission zone 35a in FIG. 4 displays the display drawing which consists of two numeric characters "4" and "0."
    Second modification of the first embodiment
    The second modification of the first embodiment is explained. FIG. 5 is a sectional view of an automobile speedometer device according to the second modification of the first embodiment, and FIG. 6 is a sectional view showing the activation state of a light source in the automobile speedometer device of the second modification of the first embodiment. In a speedometer device 100 according to the second modification, a display pattern 2a is arranged on the backside side of the reflective layer 23.
    As shown in FIG. 5, in the automobile speedometer device 100 according to the second modification, a drawing dial plate 2 which has the display pattern 2a is arranged on the rear face side of the dial plate 1. The plate 2 is arranged in the vicinity of the dial plate 1. The dial face plate 2 receives in application on it a light blocking impression, except for the zone corresponding to the shape of the drawing of the dial. display 2a.
    The light sources 3 are arranged on the rear face side of the drawing dial plate 2. The light sources 3 are held by the support 4 which is arranged on the rear face side of the design dial plate 2 In the support 4, the light sources 3 are arranged to face respective display patterns 2a in a one-to-one relationship. The light sources 3 emit light on the display patterns 2a from the back side.
    The reflective layer 23 has the light transmitting zone 23a which faces the display pattern 2a and which allows the light to be transmitted therethrough. The light transmitting area 23a allows light incident from the side of the display pattern 2a to be transmitted through to the front side. Reflective layer 23 according to the second modification is a semi-transmissive layer which is composed of pearlescent ink, which transmits a portion of the light therethrough and which reflects a portion of the light. Accordingly, the light transmitting region 23a allows light that has been emitted from the light source 3 and passed through the display pattern 2a to be transmitted through to the side of the layer. of base material 22, as indicated by the arrow Y2 in FIG. 6. Due to this constitution, the display pattern 2a is projected towards the front side from the dial plate 1, and the pattern of the display pattern 2a can be visually recognized by a driver 5.
    In this way, at the level of the dial plate 1 according to the second modification, the reflective layer 23 is composed of pearlescent ink. The reflective layer 23 allows, when the light source 3 is turned on, that the light is transmitted through to the front side side after the light is passed through the display pattern 2a. The reflective layer 23 reflects, when the light source 3 is cut off, the incident light incident from the front side to mask the display pattern 2a, and the display pattern 2a becomes invisible. As a result, the dial plate 1 according to the second modification masks the display pattern 2a when the light source 3 is cut off, thereby improving the property of display patterns.
    Third modification of the first embodiment
    The marking pattern 18 is not limited to a sunrise pattern. The marking pattern 18 may be a spinning pattern or the like. The marking 18 which has the spinning pattern is formed such that grooves of a plurality of fine grooves extend in a pattern of concentric circular rings or in a pattern moving past a point of origin (the center of the marking area 15, for example) which is set in advance as a center. The marking pattern 18 may be a pattern of vertical banding of hair streaks which is constituted by a plurality of fine grooves which extend in a vertical direction, or a pattern of hair streaks in a vertical direction. horizontal strips which is constituted by a plurality of fine grooves which extend in a horizontal direction. Moreover, the marking pattern 18 may be a marking pattern in which vertical stripes and horizontal stripes intersect each other.
    Second embodiment
    A second embodiment is explained with reference to FIG. 7 and FIG. 8. According to the second embodiment, the constituent characteristics which have functions identical to those explained in the first embodiment mentioned above are given the same reference indexes, and the repetitions of their explanations are omitted. . FIG. 7 is a sectional view of an automobile speedometer device according to the second embodiment, and FIG. 8 is a sectional view showing the activated state of a light source within the automobile speedometer device according to the second embodiment.
    As shown in FIG. 7, a reflective layer 25 of the automobile speedometer device 100 according to the second embodiment comprises a mirror ink portion 251 and a pearlescent ink portion 252. The mirror ink portion 251 is a constituent portion laminate which is composed of mirror ink. The mirror ink portion 251 is formed by a mirror ink printing which is applied to the back side of the base material layer 22. The mirror ink contains non-transparent metal powder through which the light can not pass, and it has a high reflectance compared to the pearlescent ink.
    The mirror ink portion 251 has at least one hollow zone 251a. The shape of the hollow zone 251a corresponds to a shape of a display pattern. The mirror ink portion 251 is a high reflection area whose reflectance is higher than that of the beaded ink portion 252. The mirror ink portion 251 is, for example, a total reflection area which reflects completely. the light that comes into incidence from its front side.
    The beaded ink portion 252 is composed of beaded ink. The beaded ink portion 252 covers an area that corresponds to the hollow area 251a on a rear face 22b of the base material layer 22. At the dial plate 1 according to the second embodiment, the portion of mirror ink 251 is printed and then the beaded ink portion 252 is printed from the back side. The beaded ink portion 252 is formed by means of a pearlescent ink printing which is applied to the hollow zone 251a and to the zone in the vicinity of the hollow zone 251a. That is, the beaded ink portion 252 is printed on the mirror ink portion 251 and the base material layer 22 from the back side so that the hollow area 251a of the mirror ink portion 251 is filled with pearlescent ink.
    A light-shielding layer 26 is formed on the rear face of the mirror ink portion 251. The light-shielding layer 26 is, for example, a protective layer black ink printed. The light-shielding layer 26 is formed such that the protective layer vis-à-vis the light 26 is not overlapped with at least the hollow zone 251a. That is, the light shielding layer 26 covers the area other than the hollow area 251a in the mirror ink portion 251 from its backside side. The light-shielding layer 26 is, for example, printed on an area with the exception of the area corresponding to the beaded ink portion 252.
    The light source 3 is arranged on the rear face side of the dial plate 1, in the same manner as in the case of the automobile speedometer device 100 according to the first embodiment. The light source 3 is arranged at the position which is such that the light source 3 faces the hollow zone 251a in an opposing manner. The light sources 3 are, for example, arranged to face the respective hollow areas 251a in a one-to-one relationship.
    In the reflective layer 25, the beaded ink portion 252 is a light transmitting area 25a which allows light emitted from the light source 3 to be passed therethrough to the front side. The light transmitting region 25a is a portion corresponding to the hollow zone 251a in the pearlescent ink portion 252. In the reflecting layer 25, a zone 25b other than the light transmitting region 25a is formed by the Mirror ink portions 251. The zone 25b other than the light transmission zone 25a is composed of a mirror ink which is of high reflectance, which improves the appearance of the dial plate 1 as a metal dial plate. The protective layer vis-à-vis the light 26 covers the rear face of the mirror ink portion 251. At the level of the dial plate 1 according to the second embodiment, the protective layer vis-à-vis light 26 is formed on the rear face of the mirror ink portion 251, and it follows that the mirror ink portion 251 is protected from incident light from its front side. back. Because of this constitution, the metal powder that is contained in the mirror ink is prevented from being observed, as if it were masked.
    At the dial plate 1 according to the second embodiment, each ink portion taken from the mirror ink portions 251 and the pearlescent ink portions 252 has a reflection property. As a result, when the light source 3 is cut off, each ink portion taken from the mirror ink portion 251 and the bead ink portion 252 has a luster. The reflective layer 25 uniformly reflects the light in its entirety or reflects the light substantially uniformly, or the pearly ink portion 252 shines in the same manner as in the case of the mirror ink portion 251, where the masking of the display drawing. In a state in which the light source 3 is activated, the light transmitting region 25a of the beaded ink portion 252 allows light emitted from the light source 3 to be transmitted through to the side front face, as indicated by the arrow Y3 in FIG. 8. Due to this constitution, the display pattern corresponding to the shape of the hollow zone 251a is displayed.
    Here, at the dial plate 1 according to the second embodiment, the protective layer vis-à-vis the light 26 can be omitted. The dial plate 1 may be provided with a metal film which is formed by vapor deposition or the like in place of the mirror ink portion 251.
    Modification of the second embodiment
    The modification of the second embodiment is explained. FIG. 9 is a view showing a layer structure of a dial plate according to the modification of the second embodiment. As shown in FIG. 9, the dial plate 1 according to the modification of the second embodiment comprises an upper cover layer 41, a transparent smoke layer 42, a base material layer 43, a marking layer 44, a reflective layer 48 and a layer 47. The upper cover layer 41, the transparent smoke layer 42, the base material layer 43 and the marking layer 44 are respectively, for example, the same layers as the layer. upper cover 31, the transparent smoke layer 32, the base material layer 33 and the marking layer 34 according to the first modification of the first embodiment.
    The reflective layer 48 includes a mirror ink portion 45 and a beaded ink portion 46. The mirror ink portion 45 is an ink layer which is composed of mirror ink, the ink layer being formed on the rear face side of the marking layer 44. The mirror ink portion 45 has at least one hollow zone 45a. The shape of the hollow zone 45a corresponds to a shape of a display pattern. That is, the mirror ink portion 45 is a mirror ink layer that is formed by a mirror ink print that is applied to the marking layer 44 in a manner that is such as mirror ink printing is not applied to the area that corresponds to the shape of the display pattern.
    The beaded ink portion 46 is an ink layer which is composed of pearlescent ink, the ink layer being formed on the backside side of the marking layer 44. The beaded ink portion 46 covers the hollow region 45a of the mirror ink portion 45. That is, the mirror ink portion 45 is formed and then the bead ink portion 46 is formed. In the reflective layer 48, the beaded ink portion 46 corresponds to a light transmission zone, and the mirror ink portion 45 corresponds to a zone other than the light transmission zone.
    The light-shielding layer 47 is formed on the rear-face side of the reflective layer 48. The light-shielding layer 47 is, for example, a layer of ink printed black which is printed on the back side of the reflective layer 48. The light-shielding layer 47 has at least one hollow zone 47a. The shape of the hollow zone 47a corresponds to a shape of a display pattern. The light-shielding layer 47 covers the mirror ink portion 45, and exposes the back side of the pearl ink portion 46. The light-shielding layer 47 protects the rear face of the mirror ink portion 45, and limits the incoming incident light from the back side toward the mirror ink portion 45.
    Another modification of the embodiments
    Another modification of the first embodiment and the second embodiment is explained. FIG. 10 is a view showing a layer structure of a dial plate according to another modification of the embodiments. At the dial plate according to this modification, a transparent smoke layer 63 is formed between a base material layer 62 and a reflective layer 64. As shown in FIG. 10, the dial plate 1 according to the present modification comprises a marking layer 61, the base material layer 62, the transparent smoke layer 63, the reflecting layer 64 and a protective layer with respect to the light 65 The marking layer 61, the base material layer 62, the transparent smoke layer 63, the reflecting layer 64 and the light-shielding layer 65 are, for example, the same layers as the marking layer 34, the base material layer 33, the transparent smoke layer 32, the reflecting layer 35 and the light-shielding layer 36 of the first modification of the first embodiment. The marking layer 61, the base material layer 62, the transparent smoke layer 63, the reflective layer 64 and the light-shielding layer 65 are stacked towards the rear face side from the front side.
    The transparent smoke layer 63 is a semi-transparent layer that adjusts the hue of the dial plate 1. The transparent smoke layer 63 is, for example, formed by means of a smoke print. The transparent smoke layer 63 may be either a colorless layer or a colored layer. The color of the transparent smoke layer 63 may be blue, brown or black.
    The reflective layer 64 is, for example, entirely composed of pearlescent ink. The reflective layer 64 of the present modification is a printed beaded ink layer which is printed on the back face 63a of the transparent smoke layer 63. The reflective layer 64 has a light transmission zone 64a. The light transmitting region 64a is an area that allows light to be transmitted to its front face side from its backside side.
    The light-shielding layer 65 is formed on the rear-face side of the reflective layer 64. The light-shielding layer 65 is, for example, a layer of ink printed black which is printed on the back side of the reflective layer 64. The protective layer vis-à-vis the light 65 has at least one hollow zone 65a. The shape of the hollow zone 65a is formed in a form of a display pattern. The light-shielding layer 65 overlies another area 64b in the reflective layer 64. The other area 64b is an area other than the light-transmitting area 64a in the reflecting layer 64.
    The disclosed contents according to the embodiments mentioned above and according to the modifications mentioned above can be practically implemented by optionally combining the embodiments and the modifications one with the others.
    The dial plate according to the embodiment is provided with the marking layer which is configured to transmit light and includes a number of linear grooves which are formed on its surface, and the reflecting layer which is arranged on a surface. the rear side of the marking layer and which reflects the incident light incident from the marking layer side. The reflective layer includes a light transmitting region which allows light emitted from a light source which is arranged on the back side to be transmitted therethrough towards the front side, and displays a pattern display by means of the light which is transmitted through the light transmission zone when the light source is activated. In the reflective layer, at least the light transmission zone is composed of pearlescent ink. The dial plate and the automobile speedometer device which includes the dial plate according to the embodiment make it possible to obtain the advantageous effect that the display pattern is invisible when the light source is cut.
    Although the invention has been described with reference to specific embodiments for the purpose of presenting complete and clear disclosure, the appended claims are not intended to be so limited but should be construed as allowing the implementation of all the modifications and alternative constructions that may come to the mind of those skilled in the art provided they fit into the basic teaching put here in the foreword.
    权利要求:
    Claims (4)
    [1" id="c-fr-0001]
    A dial plate comprising: a marking layer which is configured to transmit light, the marking layer including a number of linear grooves which are formed on a surface of the marking layer; and a reflective layer which is arranged on a backside side of the marking layer, the reflective layer being configured to reflect incident light from the side of the marking layer, wherein: the reflective layer includes a light transmitting region which is configured to allow light emitted from a light source which is arranged on the rear face side of the light transmission area to be transmitted through the light transmission zone; transmitting light to a front side of the light transmitting area, and displaying a display pattern by means of the light that is transmitted through the light transmitting area when the source of light is activated; and at least the light transmitting region in the reflective layer is composed of pearlescent ink.
    [2" id="c-fr-0002]
    The dial plate according to claim 1, wherein: an area other than the light transmitting region in the reflective layer is composed of pearlescent ink.
    [3" id="c-fr-0003]
    The dial plate of claim 1, wherein: an area other than the light transmitting region in the reflective layer is composed of mirror ink.
    [4" id="c-fr-0004]
    An automobile speedometer device comprising: a dial plate which includes a marking layer which is configured to transmit light, the marking layer including a number of linear grooves which are formed on a surface of the marking layer, and a reflective layer which is arranged on a backside side of the marking layer, the reflective layer being configured to reflect incident light from the side of the marking layer; and a light source which is arranged on the rear face side of the reflective layer, wherein: the reflective layer includes a light transmitting region which is configured to allow light that is emitted from the light source to light is transmitted through the light transmission zone to a front side of the light transmitting area, and displays a display pattern by means of the light that is transmitted through the light transmission zone. light transmission zone when the light source is activated; and at least the light transmitting region in the reflective layer is composed of pearlescent ink.
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    同族专利:
    公开号 | 公开日
    DE102017205342A1|2017-10-05|
    FR3049705B1|2021-01-29|
    DE102017205342B4|2020-07-02|
    US10717357B2|2020-07-21|
    US20170282716A1|2017-10-05|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE3023905C2|1980-06-26|1982-09-09|Adam Opel AG, 6090 Rüsselsheim|Instrument panel for vehicles, in particular motor vehicles, and methods for producing the same|
    JPH05216123A|1992-02-07|1993-08-27|Toppan Printing Co Ltd|Reflection type screen|
    DE19630734C2|1995-07-31|2001-01-25|Toyoda Gosei Kk|LED display device|
    DE19758383A1|1997-12-23|1999-06-24|Mannesmann Vdo Ag|Display unit|
    JP3971529B2|1999-03-03|2007-09-05|日本カーバイド工業株式会社|Retroreflective sheet|
    DE10024232A1|2000-05-17|2001-11-22|Volkswagen Ag|Vehicle dashboard display has a light source arranged behind the indicator needles with a frosted display panel arranged over the needles and light source to prevent shadow or bright external lights obscuring the display|
    JP3305297B2|2000-06-30|2002-07-22|日本精機株式会社|Pointer-type instrument|
    JP3584908B2|2000-10-18|2004-11-04|セイコーエプソン株式会社|Decorative plate, method of manufacturing the same, and decorative article and clock using this decorative plate|
    US6520654B2|2000-12-29|2003-02-18|Visteon Global Technologies, Inc.|Thin panel lit cluster|
    US7079452B2|2002-04-16|2006-07-18|Harrison Shelton E|Time display system, method and device|
    JP4251292B2|2005-01-31|2009-04-08|日本精機株式会社|Display device|
    US20080123473A1|2005-08-10|2008-05-29|Seiko Epson Corporation|Electronic component and electronic device|
    JP4675746B2|2005-10-26|2011-04-27|株式会社デンソー|Instrument dial|
    US7949148B2|2006-01-23|2011-05-24|Digimarc Corporation|Object processing employing movement|
    JP5256603B2|2006-10-03|2013-08-07|株式会社デンソー|Indicator dial|
    JP2008134164A|2006-11-29|2008-06-12|Nippon Seiki Co Ltd|Panel|
    JP5029904B2|2008-01-30|2012-09-19|日本精機株式会社|Instrument dial and manufacturing method thereof|
    JP4683069B2|2008-04-25|2011-05-11|ソニー株式会社|Display device|
    AU2010327762B2|2009-12-01|2015-08-20|Toppan Printing Co., Ltd.|Display body and labeled article|
    JP5570344B2|2010-08-10|2014-08-13|矢崎総業株式会社|Dial and method for manufacturing dial|
    JP6068862B2|2012-08-02|2017-01-25|矢崎総業株式会社|Indicator dial|
    CN103278459B|2013-05-28|2015-09-16|上海烟草集团有限责任公司|Gravure pearly-luster ink hue detection method|
    WO2015080074A1|2013-11-26|2015-06-04|矢崎総業株式会社|Radial line dial plate, and automobile meter provided with said radial line dial plate|
    JP5875659B1|2014-09-30|2016-03-02|京楽産業.株式会社|Game machine|
    JP5748930B1|2015-03-06|2015-07-15|矢崎総業株式会社|Metal-tone decorative part for vehicle display device and vehicle display device|
    JP6655915B6|2015-09-03|2020-04-08|京都和光純薬株式会社|Heating equipment|
    JP5887014B1|2015-10-19|2016-03-16|矢崎総業株式会社|Metal-tone decorative part for vehicle display device and vehicle display device|
    JP5913714B1|2015-10-19|2016-04-27|矢崎総業株式会社|Metal-tone decorative part for vehicle display device and vehicle display device|
    JP2017144824A|2016-02-16|2017-08-24|矢崎総業株式会社|Decorative component for vehicle display device, and vehicle display device|WO2015080074A1|2013-11-26|2015-06-04|矢崎総業株式会社|Radial line dial plate, and automobile meter provided with said radial line dial plate|
    DE112014005633T5|2013-12-12|2016-09-08|Yazaki Corporation|Circular scale plate with radial lines and vehicle indicating instrument with a circular scale plate with radial lines|
    US9909906B2|2016-04-22|2018-03-06|Denso International America, Inc.|Indicating device with dial plate having grooves|
    JP2020085977A|2018-11-17|2020-06-04|アルパイン株式会社|Display device|
    法律状态:
    2018-03-29| PLFP| Fee payment|Year of fee payment: 2 |
    2020-03-31| PLFP| Fee payment|Year of fee payment: 4 |
    2020-05-29| PLSC| Publication of the preliminary search report|Effective date: 20200529 |
    2021-03-30| PLFP| Fee payment|Year of fee payment: 5 |
    2022-02-09| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    JP2016067748|2016-03-30|
    JP2017048976A|JP6556176B2|2016-03-30|2017-03-14|Dial and automobile meter|
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