The present disclosure relates to a color panel used in home appliances, a home appliance including the same, and a method of manufacturing the color panel.
Home appliances such as refrigerators, clothes care apparatuses, dishwashers, and cooking apparatus generally include a main body to contain an object to be treated and a door to open and close the main body.
For example, a refrigerator is an apparatus for keeping food fresh by including a main body including storage compartments and a cooling air supply system configured to supply cooling air to the storage compartments. The storage compartments include a refrigerating compartment maintained at a temperature of approximately 0° C. to 5° C. to keep food in a refrigerated state and a freezing compartment maintained at a temperature of approximately −30° C. to 0° C. to keep food in a frozen state. In general, a storage compartment is provided such that a front side is opened to put and take food into/out of the storage compartment, and the open front side of the storage compartment is closed by a door.
In either case where a home appliance is used or not used, the most often visible part to a user is a door or other panels defining the appearance. Accordingly, it is expected to improve aesthetic satisfaction of a user when a color of a panel is realized in accordance with a user's taste.
The present disclosure provides a color panel having a customized color, a home appliance including the same, and a method of manufacturing the color panel.
One aspect of the present disclosure provides a color panel including a transparent substrate, a color layer having a color and disposed on a rear side of the transparent substrate so that the color is viewable through the transparent substrate, a transparent layer formed between the color layer and the transparent substrate to adhere a front side of the color layer to a rear side of the transparent substrate, and a white layer formed on the color layer to provide a background color for the color layer.
The color panel may further include a second transparent layer configured to prevent the color of the color layer from changing, where the transparent layer is a first transparent layer and the second transparent layer formed between the color layer and the white layer.
The color panel may further include a concealing layer formed on the white layer, wherein the concealing layer has a white color or a gray color.
The white layer may have a white color satisfying L*=90 to 100, a*=−5.0 to 5.0, and b*=−5 to 5 (where L* is brightness and a* and b* are chromaticity) in the CIE LAB color space.
The color layer may be formed by digital printing.
The color layer may be formed by inkjet printing.
The color layer may include an ink ejected from an inkjet printing device.
The color layer may include an ink ejected from the inkjet printing device and cured by UV light.
The color layer may include a toner ejected from a laser printing device.
The transparent substrate may include a transparent glass, the first transparent layer may include a polyester-based transparent ink, and the white layer may include a polyacryl-based white ink.
Another aspect of the present disclosure provides a home appliance including a main body, and a door to open and close the main body, wherein a color panel included in at least one of the main body and the door, and the color panel includes a transparent substrate disposed on a front side of the color panel, a color layer having a color and disposed on a rear side of the transparent substrate so that the color is viewable through the transparent substrate, a transparent layer formed between the color layer and the transparent substrate to adhere a front side of the color layer to the substrate, and a white layer formed on a rear side of the color layer to provide a background color for the color layer.
The home appliance may further include a second transparent layer configured to prevent the color of the color layer from changing, wherein the transparent layer is a first transparent layer and the second transparent layer is formed between the color layer and the white layer.
The home appliance may further include a concealing layer formed on the white layer, wherein the concealing layer has a white color or a gray color.
The color layer may be formed by digital printing.
The color layer may include an ink ejected from an inkjet printing device.
The color layer may include an ink ejected from an inkjet printing device and cured by UV light.
Another aspect of the present disclosure provides a method for manufacturing a color panel including receiving color information, forming a color layer having a color and disposed on a transparent layer formed on a surface of a transparent substrate by digital printing based on the color information, and forming a white layer on the color layer, the white layer providing a background color for the color layer.
The forming of the color layer may include printing a color corresponding to the color information on the first transparent layer using a digital printing device.
The digital printing device may include at least one of an inkjet printing device and a laser printing device.
The method may further include forming a second transparent layer on the color layer, wherein the transparent layer is a first transparent layer and the second transparent layer is configured to prevent the color of the color layer from changing and the white layer is formed on the second transparent layer.
The method may further include forming a concealing layer having a white color or a gray color on the white layer.
The method may further include forming the first transparent layer on the transparent substrate, the first transparent layer adhering the color layer to transparent substrate.
The forming of the white layer may include printing a white ink on the color layer by screen printing or digital printing.
The forming of the second transparent layer may include printing a transparent ink on the color layer by screen printing or digital printing.
Another aspect of the present disclosure provides a color panel including a transparent substrate, a transparent printed layer formed on the transparent substrate, a digital color printed layer having a color and formed on the a rear surface of the transparent printed layer so that the color is viewable through the transparent substrate, and a white printed layer formed on the digital color printed layer.
The color panel may further include a second transparent printed layer configured to prevent the color of the color layer from changing, wherein the transparent layer is a first printed transparent layer and the second transparent printer layer is formed between the digital color printed layer and the white printed layer.
The color panel may further include a concealing layer formed on the white printed layer, wherein the concealing layer has a white color or a gray color.
The digital color printed layer may be formed by inkjet printing.
The digital color printed layer may include an ink ejected from an inkjet printing device.
The above and other aspects, features, and advantages of certain embodiments of the present disclosure will be more apparent from the following description taken in conjunction with the accompanying drawings, in which:
Throughout the specification, like reference numerals refer to like elements throughout. This specification does not describe all elements of the embodiments of the present disclosure and detailed descriptions on what are well known in the art or redundant descriptions on substantially the same configurations may be omitted. The terms ‘unit, module, member, and block’ used herein may be implemented using a software or hardware component. According to an embodiment, a plurality of ‘units, modules, members, and blocks’ may also be implemented using an element and one ‘unit, module, member, and block’ may include a plurality of elements.
Throughout the specification, when an element is referred to as being “connected to” another element, it may be directly or indirectly connected to the other element and the “indirectly connected to” includes connected to the other element via a wireless communication network.
Also, it is to be understood that the terms “include” or “have” are intended to indicate the existence of elements disclosed in the specification, and are not intended to preclude the possibility that one or more other elements may exist or may be added.
Throughout the specification, it will be understood that when one element, is referred to as being “on” another element, it can be directly on the other element, or intervening elements may also be present therebetween.
Throughout the specification, it will be understood that when one element delivers or transmits a signal to another element, it is not intended to preclude the possibility that the signal is delivered or transmitted via an intervening element therebetween unless otherwise stated.
Throughout the specification, terms “first”, “second”, and the like are used to distinguish one component from another, without indicating alignment order, manufacturing order, or importance of the components.
An expression used in the singular encompasses the expression of the plural, unless otherwise indicated.
The reference numerals used in operations are used for descriptive convenience and are not intended to describe the order of operations and the operations may be performed in a different order unless the order of operations are clearly stated.
According to a color panel, a home appliance including the same, and a method for manufacturing the color panel according to an embodiment, by providing a home appliance including a color panel having a customized color, aesthetic satisfaction of a consumer may be improved and a decrease in productivity of the color panel may be prevented
Hereinafter, a color panel, a home appliance including the same, and a method of manufacturing the color panel according to an embodiment embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.
The home appliance according to an embodiment may include at least one of various home appliances such as a refrigerator, a clothes care apparatus, a dishwasher, and a cooking apparatus. Hereinafter, some examples of the home appliance according to an embodiment will be described.
In the embodiment to be described later, directions defined by X-axis, Y-axis, and Z-axis are described relative to the home appliance. A width direction of the home appliance is defined as the X-axis, a depth direction is defined as the Y-axis, and a height direction is defined as the Z-axis. In addition, an outward direction of the main body opening 10a is defined as +Y direction and an inward direction is defined as −Y direction.
Meanwhile, forward and backward direction of the home appliance may be defined by arrangement of the home appliance or a position relative to a consumer or user. In the embodiment, a consumer who purchases and uses a home appliance is defined as a user.
When a refrigerator 1 is arranged as shown in
Referring to
The main body 10 may include an inner cabinet 11 defining the storage compartment 13, an outer cabinet 12 coupled to outer sides of the inner cabinet 11 to define an appearance, and a main body insulation material (not shown) disposed between the inner cabinet 11 and the outer cabinet 12 to insulate the storage compartment 13.
The cooling air supply device may generate cooling air by using a cooling circulation cycle of compressing, condensing, expanding, and evaporating a refrigerant.
The storage compartment 13 may be divided into a plurality of regions by a partition 15, and a plurality of shelves 14 and storage containers 16 may be provided in the storage compartment 13 to store foods, or the like.
The storage compartment 13 may be divided into a plurality of storage compartments 13a and 13b by the partition 15 and the partition 15 includes a first partition 17 arranged in a horizontal direction to vertically divide the interior of the storage compartment 13, and a second partition 19 arranged in the longitudinal direction to horizontally divide the interior of the storage compartment 13.
The division of the storage compartment 13 is given as an example, and the storage compartment 13 may also be divided in any method other than the above-described example.
The storage compartment 13 may be opened or closed by the door 100. The door 100 may include a pair of first doors (or upper doors) 101 to open and close an upper storage compartment 13a and a pair of second doors (or lower doors) 102 to open and close a lower storage compartment 13b.
The pair of the first doors 101 and the pair of second door 102 may open and close the main body opening 10a of the open main body 10. Handles may be provided at the first door 101 and the second door 102 and a user may open the first door 101 and the second door 102 using the handles respectively provided at the first door 101 and the second door 102.
Door shelves 105 to store foods may be provided at the rear surface of the first door 101. The door shelves 105 may include shelve supports 107 extending in a direction perpendicular to the first door 101 to support the door shelves 105 at both sides of each door shelf 105. The shelve supports 107 may be detachably provided to the first doors 101 as separate components and in the present embodiment, the shelve supports 107 are provided to vertically extend in a form protruding from the rear surfaces of the first door 101.
A first gasket 109 may be provided on the rim of the rear surface of the first door 101 to seal a gap between the first doors 101 and the main body 10 when the first door 101 is closed. The first gasket 109 may be provided in a loop shape along the rim of the rear surface of the first door 101 and may include a first magnet (not shown).
The lower storage compartment 13b may be opened and closed by the second doors 102 pivotally coupled to the main body 10. A second gasket 106 may be provided on the rim of the rear surface of the second door 102 to seal a gap between the second door 102 and the main body 10 when the second door 102 is closed. The second gasket 106 may be provided in a loop shape along the rim of the rear surface of the second door 102 and may include a second magnet (not shown).
Referring to
The door panel 110 may be provided on the front side of the door 100, and the door body 120 may be provided on the rear side of the door 100, i.e., to face the inside of the main body 10. The front side of the door 100 may refer to a side shown to the user when the door 100 is closed. The rear side of the door 100 may refer to a side facing the storage compartment 13 when the door 100 is closed.
The door body 120 provided on the rear side of the door 100 may include various components to define an appearance of the door 100 such as a chassis, a door cap, a cover, and a case and components to seal the storage compartment 13 in the main body 10 from the outside.
Referring to
The door 200 may open and close the clothes care chamber provided inside the main body 20. The door 200 may include a door panel 210 and a door body 220, and the door panel 210 may be detachably coupled to the door body 220. As shown in
Referring to
A washing chamber (not shown) to contain dishes may be provided in the main body 30. The dishwasher 3 may include various components such as a plurality of nozzles to wash dishes contained in the washing chamber, a driving device configured to drive the plurality of nozzles, and a controller configured to control the driving device. The door 300 may open and close the washing chamber disposed inside the main body 30.
The door 300 may include a door panel 310 and a door body 320, and the door panel 310 may be detachably coupled to the door body 320. As shown in
Referring to
The door 400 may open and close the cooking chamber disposed in the main body 40. The door 400 may include a door panel 410 and a door body 420, and the door panel 410 may be detachably coupled to the door body 420. As shown in
Although an oven is exemplarily described as an example of the cooking apparatus 4 in the present embodiment, an induction range for heating a cooking utensil positioned on a plate by magnetic induction may also be included as the cooking apparatus 4. When the cooking apparatus 4 is implemented by an induction range, a color panel 500 may be applied to a control panel or a plate provided with a user interface.
All of the home appliances 1, 2, 3, and 4 according to the above-described embodiments include the doors 100, 200, 300, and 400 used to open and close interior space of the main bodies 10, 20, 30, and 40, and the doors 100, 200, 300, and 400 include the door panels 110, 210, 310, and 410 defining the appearances thereof, respectively. That is, the door panels 110, 210, 310, and 410 are shown to the user in a state where the doors 100, 200, 300, and 400 are closed.
When the home appliances 1, 2, 3, and 4 is not in use, the doors 100, 200, 300, and 400 are closed, and the user need to approach and open the doors 100, 200, 300, and 400 to use the home appliances 1, 2, 3, and 4. Therefore, it can be seen that the door panels 110, 210, 310, and 410 are one of the parts affecting aesthetic satisfaction of the user.
As a factor capable of improving aesthetic satisfaction of the user without affecting the functions of the doors 100, 200, 300, and 400, color of the door panels 110, 210, 310, and 410 may be used. Therefore, when the door panels 110, 210, 310, and 410 are implemented to have a color as desired by the user, user's aesthetic satisfaction with the home appliances 1, 2, 3, and 4 may be improved.
To this end, the color panel 500 (see
Meanwhile, the above-described home appliances are merely examples of the home appliance according to an embodiment. Therefore, any other home appliances including the color panel 500 to be described below may also be included in the embodiments of the present disclosure as well as the above-described home appliances.
In addition, the color panel 500 is not necessarily used only as the door panel. The color panel 500 may also be implemented as a panel included in the main bodies 10, 20, 30, and 40 or any panel defining the appearance of the home appliance and shown to the user as well as the main bodies 10, 20, 30, and 40.
Hereinafter, a color panel 500 and a method of manufacturing the same according to an embodiment of the present disclosure will be described in detail.
Referring to
However, these elements may also be referred to as a transparent printed layer 520, a digital color printed layer 530, and a white printed layer 540 according to a method of forming each element.
When the color panel 500 is applied to the home appliances 1, 2, 3, and 4, the substrate 510 may be disposed to be located on the front side of the home appliances 1, 2, 3, and 4. That is, as shown in
The user sees the color panel 500 in front of the substrate 510 and recognizes a color of the color layer 530 disposed behind the substrate 510 as a color of the color panel 500.
Therefore, the substrate 510 may be formed of a transparent material. For example, a transparent glass may be used as the material of the substrate 510. Because glass is strong against scratches and impact and is not easily deformed, the substrate 510 formed of glass may have excellent durability and abrasion resistance. However, examples of the color panel 500 are not limited thereto, and any other material such as a transparent plastic material may also be used to form the substrate 510 in accordance with intended use of the home appliance to which the color panel 500 is applied.
In addition, the substrate 510 may have a flat rectangular shape. However, it is obvious that the substrate 510 may have any shape other than the flat rectangular shape in accordance with intended use of the color panel 500.
As shown in
Hereinafter, the configuration and a manufacturing method of the color panel 500 will be described with reference to the flowchart of
To manufacture the color panel 500 of
For descriptive convenience, formation of the color layer 530 will be described first. The color layer 530 may be formed by digital printing. In the present embodiment, the digital printing is a printing method distinguished from screen printing (or silk screen printing).
Screen printing is a printing technique where a desired color is printed on an object to be printed by disposing a screen formed of silk or the like on the object to be printed, applying a pre-mixed ink to the screen, squeezing and drying the applied ink. This method is suitable for mass production of small items because the ink should be mixed in advance.
In the case where color information according to the CMYK color system or the RGB color system is input to a digital printing device such as an inkjet printer or a laser printer, a desired color may be printed onto an object to be printed by spraying inks or toners respectively having cyan, magenta, yellow, and block colors through a plurality of nozzles of the digital printing device. The type of inks may vary in accordance with the color system used in the digital printing device. Digital printing is a printing technique using such a digital printing device.
In the method of manufacturing the color panel 500 according to an embodiment, a digital printing device is used to form the color layer 530. In the case of using the digital printing device, there is no need to previously mix inks or toners because a plurality of color inks or toners are sprayed in an appropriate ratio in accordance with color information input whenever printing is performed. Also, various colors may be easily printed because the color information may be changed in every printing process, and high productivity may be obtained even when printing is performed in a small amount.
Therefore, it is possible to maintain high productivity even when the color panel 500 having an ordered color is produced in an ordered amount whenever an order for the color panel 500 is received.
In the following embodiment, an inkjet printer will be described as an example of the digital printing device for detailed description.
Inks used in inkjet printers are liquids including a solvent, a pigment, a binder, and other additives. The pigment adheres to the surface of the object to be printed by the binder, and fluidity, surface energy, plasticization of the binder, and the like may be adjusted by the additives.
For stable adhesion of the ink onto the surface of the object to be printed, the surface needs to have a certain degree of printability or more and the printability is determined by factors such as surface tension, roughness, and porosity of the surface.
According to the method of manufacturing the color panel 500 according to an embodiment, the transparent layer 520 may be formed on the substrate 510 and the color layer 530 may be formed on the transparent layer 520 to improve printability. Therefore, although the substrate 510 is formed of a material having a smooth surface such as glass, the color layer 530 may stably adhere to the substrate 510 through the transparent layer 520.
A material used to form the transparent layer 520 may be selected in consideration of adhesive strength to the substrate 510 and the color layer 530. For example, the transparent layer 520 may be formed using a polyester-based transparent resin having excellent adhesive strength.
The transparent layer 520 may be formed by using one of various printing methods. For example, the transparent layer 520 may be formed by screen printing or digital printing. The types of inks used to form the transparent layer 520 may vary according to the printing method. As described above, any transparent ink stably adhering to the substrate 510 and the color layer 530 may be included in the embodiment of the present disclosure.
Also, the transparent layer 520 may be formed by using any one of various coating methods. For example, the transparent layer 520 may be formed by plasma coating or UV coating.
When the color layer 530 is formed, the white layer 540 is formed on the color layer 530 (1030). Referring back to
When a user purchases a home appliance 1, 2, 3, or 4, the color of the color panel 500 may be identified via a computer, a mobile device, or a display provided in a digital signage or a kiosk installed in a shop. Because the color output through the display is also a color disposed on a white background, a visual color difference between the color identified by the user and a real color of the color panel 500 may be minimized by arranging the white layer 540 behind the color layer 530.
As an example for implementing the above-described effect, the white color of the white layer 540 may satisfy L*=90 to 100, a*=−5.0 to 5.0, and b*=−5 to 5 in the CIE LAB color space (L* for brightness and a* and b* for chromaticity indicating color and chroma). In addition, a visible light transmittance may be limited to 10% or less for concealment effect.
Like the transparent layer 520, the white layer 540 may be formed by using one of various printing methods. For example, the white layer 540 may be formed by screen printing or digital printing. The types of inks used to form the white layer 540 may vary according to the printing method. For example, a polyacryl-based white ink that is quickly dried and is easy to adjust viscosity may be used.
Also, the white layer 540 may be formed by any one of various coating methods. For example, the white layer 540 may be formed by plasma coating or UV coating.
As described above, the color of the color panel 500 may vary for each order, but the transparent layer 520 may be formed on the substrate 510 using a transparent ink regardless of the ordered color.
Therefore, in another example of the method of manufacturing the color panel according to an embodiment, a substrate 510 having one surface on which a transparent layer 520 is previously formed may be prepared. The transparent layer 520 may be previously formed on the substrate 510 by using a manufacturing equipment for the color panel 500 or the substrate 510 provided with the transparent layer 520 may be supplied from the outside.
Upon receiving an order for the color panel 500, the color layer 530 may be formed on the transparent layer 520 formed on the substrate 510 (1120), and the white layer 540 may be formed on the color layer 530 (1130).
The manufacturing method is the same as that described above with reference to
In this manner, when the color panel 500 is manufactured using the substrate 510 provided with the transparent layer 520 previously formed thereon, manufacturing times and processes may be reduced.
A case in which the transparent layer 520 is previously formed on the substrate 510 will be exemplarily described in the following embodiment.
Referring to
For example, types of the inks ejected through the plurality of nozzles may include cyan ink, magenta ink, yellow ink, and black ink. However, some inks may be added or omitted, if necessary. For example, white ink or transparent ink may further be added and black ink may be omitted.
Referring together with
According to an embodiment of the color panel 500, the color layer 530 may be implemented by a solid color or an image having various colors. In this regard, the image may include text. In the case where the color layer 530 is implemented by an image, the color information may include image information, and the digital printing device 600 may form an image corresponding to the received image information on the transparent layer 520.
The color information may be received in the form of a color code corresponding to a color selected by the consumer. However, types of the printing data received by the digital printing device 600 are not limited thereto, and any information indicating CMYK values or RGB values may also be used as color information received by the digital printing device 600 regardless of the types.
In addition, the received color information may be color information defined by the same color system as that applied to the digital printing device 600 or a color system different therefrom. For example, when the digital printing device 600 employs the CMYK color system, the received color information may be color information indicating CMYK values or color information indicating RGB values. In the latter case, the processor 610 may convert the color information indicating the RGB values into color information corresponding to the CMYK color system.
Print setting is performed based on the received color information (1112). The processor 610 may perform various data processing or data conversion processes to perform printing based on the received color information and these operations are referred to as print setting in the present embodiment.
For example, the processor 610 may determine concentration data of the cyan ink, the magenta ink, the yellow ink, and the black ink based on the received color information and resolution.
In addition, the processor 610 may set resolution data and the resolution data may be set as a high resolution greater than a predetermined reference value in the manufacturing process of the color panel 500.
The processor 610 may transmit a print signal to the print head 640 based on concentration data and resolution data, and the print head 640 may form the color layer 530 having a color corresponding to the received color information by ejecting inks onto the transparent layer 520 through the plurality of nozzles in accordance with the received print signal (1120). That is, a color corresponding to the received color information may be printed onto the transparent layer 520 by using the digital printing device 600.
As described above, a white layer may be formed on the color layer 530 by screen printing or digital printing (1130).
Referring to the example shown in
The print head 640 may move in the X-axis direction (lateral direction) and in the Z-axis direction (longitudinal direction) above the substrate 510 located on the bed B. For example, as shown in
The print head moving assembly 650 configured to move the print head 640 may include a support 651 to support the print head 640 and a guide rail 652 to guide the support 651 to move in the Z-axis direction. In addition, although not shown in the drawings, the print head moving assembly 650 may further include a motor configured to provide power for movement of the support 651 in the Z-axis direction and movement of the print head 640 in the X-axis direction and a driving circuit configured to drive the same.
However, examples of the method of manufacturing the color panel are not limited to the structures illustrated in
Regions printable by the print head 640 moving from the left end to the right end of the substrate 510 without moving in the Z-axis direction may be divided on the basis of line.
In this case, when the print head 640 has completed printing in a first line, the print head 640 may moves in the Z-axis direction and then perform printing in a next line in the X-axis direction as shown in
When printing of a previous line is performed while moving to the right (+X-axis direction), printing of a next line may be performed while moving to the left (−X-axis direction). That is, printing may be performed while moving in a zigzag direction.
Alternatively, the print head 640 may move to the left without ejecting inks and then perform printing while moving to the right.
Alternatively, printing may be performed on the same line multiple times while moving opposite directions along the same line.
Lines on which printing is performed may or may not overlap each other. When the lines overlap each other, printing is performed multiple times on the overlapped region so that the color may be developed more clearly in the region.
Meanwhile, when the digital printing device 600 uses an UV-cured ink, the ink ejected from the print head 640 needs to be cured by UV light. Therefore, as shown in
Referring to
Referring to
However, the expression ‘simultaneously curing’ does not mean that a time point at which the ink is ejected onto the transparent layer 520 is accurately the same as a time point at which UV light is emitted to the ejected ink. For example, an error of a time taken for the UV lamp 660 moves to a position corresponding to the ejected ink may be allowed. When the UV curing is not performed separately from the ejection of the ink, the process may be expressed as ‘simultaneously curing’ although there is a time difference between ink ejection and UV curing.
Both the UV lamps 660 may be turned on regardless of a moving direction of the print head 640, or the UV lamps 660 may be selectively turned on in accordance with the moving direction of the print head 640.
For example, as shown in
Also, when the print head 640 completes ejection of the inks while moving to the right, moves forward in the Z-axis direction, and ejects the ink while moving to the left, the UV lamp 662 mounted on the right side of the print head 640 may be turned on and the UV lamp 661 mounted on the left side thereof may be turned off.
That is, the ejected inks may be cured by turning on the UV lamp 660 mounted at a position opposite to the moving direction of the print head 640.
As described above, by selectively turning on/off the UV lamps 661 and 662 in accordance with the moving direction of the print head 640, unnecessary power consumption may be reduced.
Although a case in which one UV lamp 660 is mounted on each of the left and right sides of the print head 640 is described in the above-described example, the position and number of the UV lamps 660 are not limited thereto. For example, at least one UV lamp 660 may be mounted on each of the left and right sides of the print head 640, and the UV lamp 660 may be mounted only on the left side or only on the right side of the print head 640.
In the case where the UV lamp 660 is mounted only on the left or right side of the print head 640, a printing direction of the print head 640 may be limited to one direction. For example, when the UV lamp 660 is mounted only on the left side of the print head 640, the print head 640 may eject the inks while moving to the right. When the UV lamp 660 is mounted only on the right side of the print head 640, the print head 640 may eject the inks while moving to the left.
Referring to
According to another example of the method of manufacturing the color panel, after the inks are ejected onto the transparent layer 520 (1122), UV curing may be performed (1123). When the UV curing is performed after the inks are ejected, a time during which ink droplets of different colors are mixed may be obtained to realize a desired color.
In this case, as shown in
For example, when the print head 640 completes ejection of the inks onto one line while moving in the X-axis direction, UV curing may be performed on the same line while the print head 640 is moving in the X-axis direction opposite to the moving direction of ink ejection without moving forward in the Y-axis direction.
As another example, after the print head 640 completes ejection of the ink over the entire surface of the entire substrate 510, the UV lamp 660 may be turned on and perform UV curing over the substrate 510 while moving again.
As described above, two or more UV lamps 660 may be mounted, or the UV lamp 660 may be mounted only on the left or right side of the print head 640.
Referring to
In the present embodiment, the white layer 540 is not directly formed on the color layer 530, and a second transparent layer 550 is formed (1230), and then the white layer 540 may be formed on the second transparent layer 550 (1240).
For distinguishment from the second transparent layer 550 formed between the color layer 530 and the white layer 540, the transparent layer 520 interposed between the substrate 510 and the color layer 530 is referred to as a first transparent layer 520.
In some cases, empty space may be formed between ink droplets constituting the color layer 530. As in the present embodiment, by forming the second transparent layer 550 between the color layer 530 and the white layer 540, the white ink constituting the white layer 540 permeates into the empty space between the ink droplets constituting the color layer 530 to prevent color change.
The second transparent layer 550 may also be formed by using one of various printing methods. For example, the second transparent layer 550 may be formed by screen printing or digital printing. To form the second transparent layer 550, various types of inks may be used according to the printing method. For example, a polyester-based transparent ink or a polyacryl-based transparent ink may be used.
Also, the second transparent layer 550 may be formed by using any one of various coating methods. For example, the second transparent layer 550 may be formed by plasma coating or UV coating.
Referring to
In the embodiment, a concealing layer 560 may be formed on the white layer 540 (1350). The concealing layer 560 may be formed of an ink or resin composition having a concealing effect, such as white ink and gray ink.
As described above, the color panel 500 according to an embodiment may be used as the doors 100, 200, 300, and 400 of the home appliances 1, 2, 3, and 4 or other panels defining the appearance thereof. In this regard, the substrate 510 is disposed on the front side of the color panel 510 to be exposed to the outside, and the white layer 540 is disposed behind the color panel 500 to face the inside of the home appliances 1, 2, 3, and 4.
As described above, various structures are arranged in the home appliances 1, 2, 3, and 4. For example, when the color panel 500 is used in the doors 100, 200, 300, and 400 of the home appliances 1, 2, 3, and 4, a buffer member provided to absorb impact or inner structures such as the door bodies 120, 220, 320, and 420 may be arranged behind the color panel 500.
Therefore, when the concealing layer 560 is formed on the white layer 540 as shown in this embodiment, it is possible to prevent the inner structures of the home appliances 1, 2, 3, and 4 from being seen to the outside through the transparent substrate 510.
The concealing layer 560 may also be formed by using one of various printing methods. For example, the concealing layer 560 may be formed by screen printing or digital printing. To form the concealing layer 560, various types of inks may be used according to the printing method. For example, a polyester-based transparent ink or a polyacryl-based transparent ink may be used.
Also, the concealing layer 560 may be formed by using any one of various coating methods. For example, the concealing layer 560 may be formed by plasma coating or UV coating.
Meanwhile, each of the layers constituting the color panel 500 described above may be provided as a single layer or, if required, may be provided as multiple layers by performing printing or coating plural times.
According to the color panel 500 and the manufacturing method thereof as described above, the color layer 530 of the color panel 500 is formed by receiving color information desired by a consumer, and performing digital printing based on the received color information. The process of receiving color information is described above in detail.
First, the consumer may select a color of a home appliance using a consumer terminal 700. The selectable color of the home appliance may include a color of the door or the main body.
The consumer terminal 700 may be an electronic device including an input/output interface such as a computer and a mobile device used by the consumer, or a computer, a mobile device, a digital signage, or a kiosk installed in a shop for selling the home appliance.
The consumer terminal 700 includes a user interface 740 including a display and an input device, at least one processor 710 configured to control the consumer terminal 700, a memory 720, and a transceiver 730.
The user interface 740 may display a screen for guiding selection of a color of the home appliance and receive an input of a color selected by the user. For example, the user interface 740 may display various types of colors selectable for each home appliance.
The processor 710 may store information on the selected color (hereinafter, referred to as color information) in the memory 720, and the transceiver 730 may transmit the color information stored in the memory 720 to a server 800 via a network. In this case, information on the home appliance to which the selected color is applied may also be transmitted.
A transceiver 830 of the server 800 may receive the color information and home appliance information from the consumer terminal 700 and the received information may be stored in the memory 820.
The processor 810 may transmit the stored color information and home appliance information to a manufacturing system of the color panel 500 via the transceiver 830. The transmitted color information and home appliance information may be received by a computer of the manufacturing system, and the received color information may be transmitted to the digital printing device 600 of the manufacturing system.
Operations performed by the digital printing device 600 are as described above with reference to
In this way, the color information of the home appliance selected by the consumer terminal 700 is transmitted to the digital printing device 600 via the server 800, and thus the color panel 500 of the home appliance may be prepared in the make-to-order manufacturing method. Because color panels of the same color are not previously manufactured in large quantities, an inventory problem may be solved, thereby providing a consumer with various options for the color of the home appliance.
Meanwhile, the color information transmitted from the consumer terminal 700 to the server 800 and the color information transmitted from the server 800 to the manufacturing system may be the same type or different types of information. For example, when the color information received from the consumer terminal 700 does not correspond to the color system used in the digital printing device 600, the external server 800 or the manufacturing system may convert the color information into information corresponding to the color system used in the digital printing device 600.
According to the embodiments described above, a color of a color panel used in home appliances may be realized by digital printing such as inkjet printing. Therefore, whenever printing is performed, a plurality of color inks are ejected in an appropriate ratio in accordance with the input color information, and thus there is no need to previously mix inks or toners. Also, because the color information may be changed every printing process, various colors may be easily printed, and high productivity may be obtained even when printing is performed in a small amount.
Due to the above-described advantages, the make-to-order manufacturing method by which the color panel is manufactured upon receiving an order for the home appliance from the consumer may be applied. Because color panels of the same color are not previously manufactured in large quantities, an inventory problem may be solved, and thus a consumer may be provided with various options for the color of the home appliance.
The foregoing description of the invention illustrates and describes the present invention. Additionally, the disclosure shows and describes only the preferred embodiments of the invention but, as mentioned above, it is to be understood that the invention is capable of use in various other combinations, modifications, and environments and is capable of changes or modifications within the scope of the inventive concept as expressed herein, commensurate with the above teachings and/or the skill or knowledge of the relevant art. The embodiments described hereinabove are further intended to explain best modes known of practicing the invention and to enable others skilled in the art to utilize the invention in such, or other, embodiments and with the various modifications required by the particular applications or uses of the invention. Accordingly, the description is not intended to limit the invention to the form disclosed herein. Also, it is intended that the appended claims be construed to include alternative embodiments.
Number | Date | Country | Kind |
---|---|---|---|
10-2021-0024326 | Feb 2021 | KR | national |
10-2021-0041470 | Mar 2021 | KR | national |
This application is based on and claims priority under 35 U.S.C. § 111(a) of International Application No. PCT/KR2022/002612, filed on Feb. 22, 2022, which claims priority under 35 U.S.C. § 119 to Korean Patent Application No. 10-2021-0024326, filed on Feb. 23, 2021 and Korean Patent Application No. 10-2021-0041470, filed on Mar. 30, 2021, in the Korean Intellectual Property Office, the disclosures of which are incorporated by reference herein in its entirety.
Number | Date | Country | |
---|---|---|---|
Parent | PCT/KR2022/002612 | Feb 2022 | US |
Child | 17901392 | US |