KR102624786B1 - Charging state display apparatus for electric vehicle - Google Patents

Abstract

The present invention relates to a charging display device for an electric vehicle, and more specifically, to a charging display device for an electric vehicle that can display the charging state of a battery of an electric vehicle.
A charging display device for an electric vehicle according to an embodiment of the present invention includes a state detector that detects the state of charge of a battery; a charging display unit that generates light to indicate the charging state of the battery; and a control unit that controls light emitted from the charging display unit according to the detected charging state of the battery, wherein the charging display unit includes: a first display unit generating light of a first brightness through a first display area; and a second display unit generating light of a second brightness different from the first brightness through a second display area.

Description

Charging state display apparatus for electric vehicle}

The present invention relates to a charging display device for an electric vehicle, and more specifically, to a charging display device for an electric vehicle that can display the charging state of a battery of an electric vehicle.

Recently, research on electric vehicles has been actively conducted as they are a promising alternative for solving environmental pollution and energy problems.

Electric vehicles are mainly vehicles that obtain power by driving a motor using battery power. They are broadly classified into battery-only electric vehicles and hybrid electric vehicles. Battery-only electric vehicles are powered by battery power. Power is obtained by driving the motor, and the battery is recharged when all power is used up. A hybrid electric vehicle uses an internal combustion engine as its main power and uses the power from the motor as auxiliary power.

When the battery power of these electric vehicles is low, the battery is charged at a charging station, and the driver waits near the charging station until the battery is fully charged.

The driver is required to periodically check the battery's charging status displayed on the instrument panel while waiting for the battery to be fully charged, which may cause inconvenience. Therefore, we make it easy for the driver to recognize the battery's charging status. A solution is being demanded.

Public Patent Publication No. 10-2010-0075392 (2010.07.02.)

The problem to be solved by the present invention is to provide a charging display device for an electric vehicle that allows the charging state of the battery to be easily checked from outside the electric vehicle when charging the battery of the electric vehicle.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, a charging display device for an electric vehicle according to an embodiment of the present invention includes a state detector that detects the state of charge of a battery; a charging display unit that generates light to indicate the charging state of the battery; and a control unit that controls light emitted from the charging display unit according to the detected charging state of the battery, wherein the charging display unit includes: a first display unit generating light of a first brightness through a first display area; and a second display unit generating light of a second brightness different from the first brightness through a second display area.

Other specific details of the invention are included in the detailed description and drawings.

According to the charging display device for an electric vehicle of the present invention as described above, one or more of the following effects are achieved.

Since the charging status of the battery is displayed through a plurality of display areas in which light of different brightness is generated, there is an effect of displaying a more diverse status.

In addition, lights of different colors are generated alternately while the battery is charging, and lights of a preset color are generated when the electric vehicle completes battery charging, making it easy to check the charging status of the battery from outside the electric vehicle. It works.

In addition, there is an effect of providing a visual effect by generating light having at least one color depending on the state of charge of the battery.

In addition, there is the effect of displaying the battery charge amount through the area corresponding to the vehicle emblem, providing a visual effect in which the shape of the vehicle emblem is gradually formed according to the battery charge amount.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a block diagram showing the configuration of a charging display device for an electric vehicle according to an embodiment of the present invention.
Figure 2 is a schematic diagram showing a charging display installed in a vehicle according to an embodiment of the present invention.
Figure 3 is a schematic diagram showing a first display unit according to an embodiment of the present invention.
Figure 4 is a schematic diagram showing an image formed by a first display unit according to an embodiment of the present invention.
Figure 5 is a schematic diagram showing a second display unit according to an embodiment of the present invention.
Figure 6 is a schematic diagram showing colors according to the brightness of light sources included in a light source group according to an embodiment of the present invention.
Figure 7 is a schematic diagram showing an image formed by light generated from a charging display unit according to an embodiment of the present invention.
Figure 8 is a block diagram showing the configuration of a charging display device for an electric vehicle according to another embodiment of the present invention.
Figure 9 is a schematic diagram showing an illumination sensor installed in a vehicle according to another embodiment of the present invention.

The advantages and features of the present invention and methods for achieving them will become clear by referring to the embodiments described in detail below along with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms. The present embodiments are merely provided to ensure that the disclosure of the present invention is complete and to be understood by those skilled in the art. It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Accordingly, in some embodiments, well-known process steps, well-known structures, and well-known techniques are not specifically described in order to avoid ambiguous interpretation of the present invention.

The terminology used herein is for describing embodiments and is not intended to limit the invention. As used herein, singular forms also include plural forms, unless specifically stated otherwise in the context. As used in the specification, comprises and/or comprising means the presence or addition of one or more other components, steps, operations and/or elements other than the mentioned elements, steps, operations and/or elements. It is used in a non-excluding sense. And, “and/or” includes each and every combination of one or more of the mentioned items.

Additionally, embodiments described in this specification will be described with reference to cross-sectional views and/or schematic diagrams that are ideal illustrations of the present invention. Accordingly, the form of the illustration may be modified depending on manufacturing technology and/or tolerance. Accordingly, embodiments of the present invention are not limited to the specific form shown, but also include changes in form produced according to the manufacturing process. Additionally, in each drawing shown in the present invention, each component may be shown somewhat enlarged or reduced in consideration of convenience of explanation. Like reference numerals refer to like elements throughout the specification.

Hereinafter, the present invention will be described with reference to drawings for explaining a charging display device for an electric vehicle according to embodiments of the present invention.

1 is a block diagram showing the configuration of a charging display device for an electric vehicle according to an embodiment of the present invention.

Referring to FIG. 1, the charging display device 1 for an electric vehicle according to an embodiment of the present invention may include a state detection unit 100, a charging display unit 200, and a control unit 300.

The charging display device 1 for an electric vehicle of the present invention displays on the outside the charging state of the battery 400 of an electric vehicle, which is mainly powered by driving a motor using the power of the battery 400, so that the driver can check the battery 400. ) can serve to easily check the charging status of the device.

The state detection unit 100 may serve to detect the charging state of the battery, such as whether the battery 400 is charged and the amount of charge of the battery 400.

For example, the state detection unit 100 may detect whether the battery 400 is charged through whether the connector for charging the battery 400 is electrically connected to the connector of the battery 400, and the battery ( The amount of charge of the battery 400 can be detected through detection of the voltage of the battery 400.

The charging display unit 200 may generate light having at least one color depending on the charging state of the battery 400 to form an image for displaying the charging state of the battery 400.

In an embodiment of the present invention, the charging indicator 200 will be described as an example in which light is generated according to the power supplied from the battery 400, which is the power source of the electric vehicle. However, the charging indicator 200 is not limited to this. ) may be supplied with power from a battery provided separately from the battery 400, which serves as a power source.

The charging indicator 200 can be installed between the headlamps 2 installed on both sides of the front of the vehicle as shown in Figure 2. Unlike internal combustion engine vehicles, battery-only electric vehicles omit the radiator grill for engine cooling, saving the space. This is because it is possible to utilize .

In the embodiment of the present invention, the case where the charging display unit 200 is installed in the central portion of the front of the vehicle is described as an example, but the case is not limited to this, and the charging display unit 200 facilitates the charging status of the battery 400 from the outside. It can be installed in various locations where it can be easily checked.

The charging display unit 200 may include a first display unit 210 and a second display unit 220, and the first display unit 210 and the second display unit 220 may generate light of different brightness.

The first display unit 210 may include a first display area 211 in which light of a first brightness is generated to form an image, and the second display unit 220 may display a second display area 211 of a second brightness different from the first brightness. It may include a second display area 221 in which light is generated to form an image.

In an embodiment of the present invention, a case where the first brightness is higher than the second brightness will be described as an example, and the second brightness is preferably 90% or less of the first brightness, which means that the second brightness is 90% of the first brightness. If it exceeds %, it is difficult to distinguish between images formed by light generated from the first display unit 210 and the second display unit 220 with the naked eye.

At this time, in the embodiment of the present invention, the case where the first brightness is higher than the second brightness is described as an example, but the case is not limited to this and the opposite case is also possible.

In an embodiment of the present invention, light of different brightness is generated from the first display unit 210 and the second display unit 220 so that more diverse states can be displayed by the charging display unit 200 of the present invention. The display unit 210 and the second display unit 220 are used to display different states, and a detailed description thereof will be provided later.

The first display area 211 and the second display area 221 are located adjacent to each other, and one of the first display area 211 and the second display area 221 may be formed to be smaller than the other.

In an embodiment of the present invention, the case where the first display area 211 is smaller than the second display area 221 and the first display area 211 is located within the second display area 221 will be described as an example. This is because the first display area 211 is an area corresponding to the vehicle emblem, and the second display area 221 is an area corresponding to the surrounding area of the vehicle emblem.

The first display unit 210 may serve to display the charge amount of the battery 400, and the first display unit 210 is an area where light is generated from the first display area 211 according to the charge amount of the battery 400. This may be variable.

For example, in the first display unit 210, as the charge amount of the battery 400 increases, the area where light is generated in the first display area 211 may gradually increase.

In an embodiment of the present invention, the first display area 211 may be divided into a plurality of divided areas 211a as shown in FIG. 3, and as the charge amount of the battery 400 increases, the first display area 211 may be divided into a plurality of divided areas 211a from each of the plurality of divided areas 211a. Light is generated sequentially, so that when the battery 400 is fully charged, light can be generated from the entire first display area 211.

At this time, when the first display area 211 is an area corresponding to the emblem of the vehicle, the plurality of divided areas 211a may be divided according to the shape of the emblem of the vehicle, and as the charge amount of the battery 400 increases, As shown in 4, light is sequentially generated from each of the plurality of divided areas 211a, and the area where light is emitted increases from some areas of the vehicle emblem to the entire area, thereby obtaining a visual effect in which the shape of the vehicle emblem is formed in stages. You can.

The number, size, and shape of the plurality of division areas 211a in FIG. 4 are merely examples to aid understanding of the present invention, and are not limited thereto, and the number, size, and shape may vary depending on the shape of the emblem of the vehicle, etc. can be changed.

The above-described first display unit 210 may include at least one light source and an optical member such as a light guide that allows light incident from at least one light source to be emitted through the first display area 211. When the first display area 211 is divided into a plurality of divided areas 211a as shown in FIG. 3, a light source corresponding to each divided area 211a may be provided.

The second display unit 220 may serve to display the charging state of the battery 400 by generating light having at least one color depending on the charging state of the battery 400.

The second display unit 220 generates light of different colors alternately while the battery 400 is charging, and when the battery 400 is fully charged, the light of the preset color is maintained to indicate the charging status of the battery 400. can be displayed.

FIG. 5 is a schematic diagram showing a second display unit according to an embodiment of the present invention, and FIG. 5 is an example in which the first display unit 210 is omitted.

Referring to FIG. 5, the second display unit 220 according to an embodiment of the present invention includes at least one light source group 222 including a plurality of light sources 222a and 222b that generate light of different colors, and at least one It may include an optical member 223 that emits light incident from the light source group 222 to form an image representing the charging state of the battery.

In an embodiment of the present invention, at least one light source group 222 includes a plurality of light sources 222a and 222b, including a first light source 222a that generates light of a first color and a second light source that generates light of a second color. The case including the light source 222b will be described as an example, but the number of light sources included in at least one light source group 222 is not limited to this, and the color of light required to indicate the charging state of the battery 400 It may change in various ways depending on.

At this time, the color of the light emitted from at least one light source group 222 may vary depending on the brightness of the light emitted from each of the first light source 222a and the second light source 222b. The brightness of light generated from each light source 222b may be determined depending on the intensity of power supplied to each of the first light source 222a and the second light source 222b.

For example, when power of a certain intensity is supplied to the first light source 222a and power supplied to the second light source 222b is cut off, light having the first color is emitted from at least one light source group 222. Conversely, when the power supplied to the first light source 222a is cut off and power of a certain intensity is supplied to the second light source 222b, the second color is displayed from at least one light source group 222. Light can be generated.

In addition, when power is supplied to both the first light source 222a and the second light source 222b, light having a third color mixed with the first color and the second color is generated from at least one light source group 222. The third color may vary depending on the brightness determined according to the intensity of power supplied to each of the first light source 222a and the second light source 222b.

For example, in a state where power of a certain intensity is supplied to the first light source 222a and power supplied to the second light source 222b is cut off, the intensity of power supplied to the first light source 222a gradually increases. decreases, and when the intensity of power supplied to the second light source 222b gradually increases, the brightness of the light of the first color gradually decreases and the brightness of the light of the second color gradually increases, which causes at least one The color of light emitted from the light source group 222 can gradually change from the first color through the third color where the first color and the second color are mixed to the second color.

The optical member 223 is a type of light guide that internally guides and emits light incident from at least one light source group 222. In the embodiment of the present invention, the optical member 223 emits light in a direction toward the front of the vehicle. The case where the surface 223a is formed and the incident surface 223b on which light generated from at least one light source group 222 is incident is formed on the side of the emission surface 223a will be described as an example.

At this time, the emission surface 223a of the optical member 223 is an area through which light is emitted to form an image, and may be understood as corresponding to the second display area 221 of the second display unit 220.

In an embodiment of the present invention, a case where at least one light source group 222 is composed of a plurality and is disposed along the edge of the exit surface 223a of the optical member 223 where the entrance surface 223b is formed will be described as an example. However, the number or position of at least one light source group 222 may be changed in various ways depending on the size or shape of the optical member 223, etc., but is not limited thereto.

The control unit 300 may function to generate light having at least one color from the charging display unit 200 according to the charging state of the battery detected by the state detection unit 100.

The control unit 300 may cause light of a predetermined color to be generated from the first display unit 210 according to the charge level of the battery 400.

In an embodiment of the present invention, the control unit 300 divides the first display area 211 into a plurality of divided areas 211a, and sequentially divides the same divided areas 211a from each of the plurality of divided areas 211a according to the charge level of the battery 400. A case where colored light is generated will be described as an example, but the control unit 300 is not limited to this so that different colored lights are generated from the entire area of the first display area 211 according to the charge level of the battery. You may.

Additionally, the control unit 300 may control the color of the light emitted from the second display unit 220 to vary depending on the charging state of the battery 400. In this case, the control unit 300 controls at least one light source group. By controlling the intensity of power supplied to each of the first light source 222a and the second light source 222b of 222, the color of light emitted from the second display unit 220 can be varied.

When charging the battery 400, the control unit 300 controls the second display unit 220 to emit light of the first color and the second color alternately for a certain period to indicate that the battery 400 is being charged. A dynamic image can be formed for the purpose.

At this time, the control unit 300 controls the light in the transition section where one of the first color and the second color is converted to the other so that a visual effect can be added in the process of alternating the light of the first color and the second color. You can make the color change gradually.

For example, as shown in FIG. 6, the control unit 300 supplies power of a certain intensity to the first light source 222a, cuts off the power supplied to the second light source 222b, and displays the first light source 220 from the second display unit 220. In a state in which colored light is generated, the brightness of the light emitted from the first light source 222a gradually decreases, and the brightness of the light emitted from the second light source 222b is supplied to the first light source 222a so as to gradually increase. The intensity of the power supplied to the second light source 222b is gradually reduced, and the intensity of the power supplied to the second light source 222b is gradually increased to generate light of a third color in the transition section, so that the power supplied to the first light source 222a This is blocked, and power of a certain intensity is supplied to the second light source 222b so that the color of the light gradually changes until light of the second color is generated from the second display unit 220.

In other words, the control unit 300 creates an effect in which the color of light generated from the second display unit 220 gradually changes from the first color to the third color to the second color as shown in FIG. 7, that is, a visual effect such as a gradient effect. It becomes possible to grant.

While the battery 400 is charging, the control unit 300 changes the light generated from the second display unit 220 from the first color to the third color to the second color, and then changes the light from the second color to the third color to the first color. The process of changing color can be repeated.

At this time, it is preferable that the transition section, that is, the section in which the third color light is generated from the second display unit 220, is at least 100 ms or longer, and this is based on the power supplied to each of the first light source 222a and the second light source 222b. This is to enable the naked eye to perceive a gradient effect in which color gradually changes when the intensity gradually increases or decreases.

Meanwhile, when the battery 400 is fully charged, the control unit 300 generates light of any one of the first color, second color, and third color to form a static image, and the battery 400 When light of a third color is generated upon completion of charging, it may have a color depending on the intensity of power supplied to the first light source 222a and the second light source 222b.

As such, in an embodiment of the present invention, the charge amount of the battery 400 is displayed through the first display unit 210 and at the same time, while the battery 400 is being charged from the second display unit 220, lights of different colors are alternately displayed. When the charging of the battery 400 is completed, light of a preset color is generated so that the driver can easily recognize the charging state of the battery 400 from the outside, while also providing a visual effect. It will exist.

Figure 8 is a block diagram showing the configuration of a charging display device for an electric vehicle according to another embodiment of the present invention.

Referring to FIG. 8, the charging display device 1 for an electric vehicle according to another embodiment of the present invention may include a status detection unit 100, a charging display unit 200, a control unit 300, and an illumination detection unit 500. In other embodiments of the present invention, components that play the same role as those in the above-described embodiments will use the same reference numerals, and detailed descriptions thereof will be omitted.

In another embodiment of the present invention, the illuminance detection unit 500 may serve to detect the illuminance around the vehicle, and the control unit 300 may adjust the brightness of the light generated from the charging display unit 200 according to the detected illuminance. there is.

At this time, the illuminance detection unit 500 can transmit the average value of the illuminance detected over a certain period of time to the control unit 300. This is to reduce the influence of a temporary increase in illuminance due to external factors.

The control unit 300 adjusts the brightness of the light emitted from the charging display unit 200 according to the illumination around the vehicle. When the illumination around the vehicle is high, the brightness of the light emitted from the charging display unit 200 is relatively low, thereby reducing visibility. This is to prevent inconveniences such as glare from occurring to surrounding vehicles or pedestrians due to the relatively high brightness of the light generated from the charging display unit 200 when the illumination around the vehicle is low.

As the surrounding illumination of the vehicle increases, the control unit 300 increases the brightness of the light emitted from the charging display unit 200 to prevent deterioration of visibility. Conversely, as the surrounding illumination of the vehicle decreases, the charging display unit 200 increases the brightness of the light generated from the charging display unit 200 to prevent glare. The brightness of the light emitted from the light is lowered.

At this time, the illuminance detection unit 500 may be located in the direction in which light is generated from the charging display unit 200, as shown in FIG. 9, which determines the illuminance in the direction in which the light generated from the charging display unit 200 can be recognized. This is to enable detection and brightness control.

That is, when the illuminance detection unit 500 is located in a direction different from the direction in which the charging display unit 200 is installed, the illuminance detected by the illuminance detection unit 500 recognizes the light generated from the charging display unit 200. Since it does not directly affect the brightness, more accurate brightness control is possible by positioning the illuminance detection unit 500 in the direction in which light is generated from the charging display unit 200.

As described above, the charging display device 1 of the electric vehicle of the present invention displays the charge amount of the battery 400 through the first display unit 210, and displays the first color and the second color from the second display unit 220. Light is generated alternately and the first color and the second color are gradually changed to form a dynamic image, and when the battery 400 is fully charged, the first color and the second color are displayed from the second display unit 220. By forming a static image by generating light having one of the second colors and the third color, the charging state of the battery 400 can be easily recognized and a visual effect can be provided. .

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing its technical idea or essential features. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive. The scope of the present invention is indicated by the claims described below rather than the detailed description above, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

100: Status detection unit
200: Charging indicator
210: first display unit
211: first display area
220: second display unit
221: second display area
222: Light source group
222a, 222b: light source
223: Optical member
223a: exit surface
223b: entrance plane
300: Control unit
400: Battery
500: Illuminance detection unit

Claims (18)

a state detection unit that detects the battery charge amount and the charging state of the battery;
A charging display unit that generates light to indicate the battery charge amount and the charging state of the battery; and
A control unit that controls light emitted from the charge display unit according to the detected battery charge amount and battery charge state,
The charging indicator,
a first display unit generating light to display an image corresponding to the battery charge level through a first display area; and
a second display unit that generates light to display an image corresponding to the charging state of the battery through a second display area that is positioned separately from the first display area so as not to overlap the first display area;
The control unit,
When an image is formed simultaneously by the first display unit and the second display unit, light of a first brightness is generated from the first display unit, and light of a second brightness lower than the first brightness is generated from the second display unit. As much as possible,
The first display area is,
Located in the center in the vehicle width direction,
The second display area is,
A charging display device for an electric vehicle positioned adjacent to the first display area so as to surround the first display area. delete delete delete delete According to claim 1,
The second brightness is,
A charging display device for an electric vehicle with a brightness of 90% or less of the first brightness. According to claim 1,
The first display area is,
This is the area corresponding to the vehicle emblem,
The second display area is,
A charging display device for an electric vehicle that is a surrounding area of the area corresponding to the emblem. According to claim 1,
The first display area is,
A charging display device for an electric vehicle in which the area where light is generated varies depending on the charge level of the battery. According to claim 1,
The second display unit,
At least one light source group including a plurality of light sources that generate light of different colors; and
A charging display device for an electric vehicle including an optical member that emits light incident from the at least one light source group. According to clause 9,
The at least one light source group is,
a first light source generating light of a first color; and
It includes a second light source that generates light of a second color,
The control unit,
Depending on the state of charge of the battery, light having at least one color among the first color, the second color, and a third color that is a mixture of the first color and the second color is generated from the at least one light source group. A charging display device for an electric vehicle that controls the intensity of power supplied to the first light source and the second light source as much as possible. According to claim 10,
The third color is,
A charging display device for an electric vehicle including at least one color determined according to the intensity of power supplied to each of the first light source and the second light source. According to claim 10,
The control unit,
While the battery is charging, light of the first color and the second color are alternately generated for a certain period from the at least one light source group,
In a transition section where one of the first color and the second color is switched to the other, the intensity of the light source supplied to each of the first light source and the second light source is gradually increased and decreased to generate light of the third color. A charging display device for electric vehicles. According to claim 12,
The transition section is,
Charging indicator for electric vehicles > 100 ms. According to claim 10,
The control unit,
A charging display device for an electric vehicle that causes light of any one of the first color, the second color, and the third color to be generated from the at least one light source group when the battery is fully charged. According to claim 1,
The charging indicator,
A charging display device for an electric vehicle located between the headlamps installed on both sides of the front of the vehicle. According to claim 1,
It further includes an illuminance detection unit that detects the illuminance around the vehicle,
The control unit,
A charging display device for an electric vehicle that adjusts the brightness of light emitted from the charging display unit according to the detected illuminance. According to claim 16,
The illuminance detection unit,
A charging display device for an electric vehicle located in the direction in which the charging display unit is installed. According to claim 16,
The control unit,
A charging display device for an electric vehicle that increases the brightness of light emitted from the charging display unit as the illuminance increases.

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