Patent Application
20160153132
The present invention relates to a method for displaying a wash cycle, and more particularly, to a method for vividly displaying the current operating status of a home appliance, such as a washing machine or drying machine, that carries out a dynamic operation.
A washing machine is an appliance that removes contaminants stuck to laundry by using emulsification of detergent, friction of a water stream caused by the rotation of a wash tub or washing blades, and impact applied to the laundry. The washing machine automatically carries out one or more of a series of wash, rinse, spin-dry, and dry cycles.
An operation part and a display part are installed at the front of the washing machine to set up operating conditions such as the amount of laundry, water level, washing intensity, number of runs of the rinse cycle, drying time, etc and display the current operating status when selecting one of many courses consisting of all or some of the washing, rinsing, spin-drying, and drying processes or carrying out each process or course.
As a washing machine offers many options to select or set, a knob (or dial) for selecting one of many courses, a plurality of buttons for setting various options, and a display for displaying the options and statuses set up for these options are laid out on the front of the washing machine in a complicated and disorganized manner, and only text information like the current ongoing state and the time remaining is displayed on a small-sized display screen or in the form of LED flashers.
With the widespread of smart devices such as smartphones or smart players, home appliances like washing machines and refrigerators tend to come with a neat design on the front in a similar fashion to the interface of a smart device, that is, by employing a touchscreen where input and screen output are both done.
Although a home appliance with a touchscreen employed in it has larger screen size and higher resolution than in the prior art, simply delivering the current washing status or the time remaining in text cannot make full use of the merits such as large screen size and high resolution.
The present invention has been made in view of the above circumstance, and an aspect of the present invention is to provide a method for vividly and efficiently showing ongoing statuses associated with washing machine's operations.
Another aspect of the present invention is to provide a display method which allows a user to intuitively find out the current ongoing status related to washings.
An exemplary embodiment of the present invention provides a method for displaying a wash cycle, the method sequentially outputting a plurality of images depicting a current course or a current cycle and having different shapes, each of the plurality of images including a plurality of particles, the plurality of images representing an operation related to the current course or cycle through the plurality of particles.
The plurality of images may represent a movement related to the current course or cycle by changing the number, size, position, and density of the particles in each image.
Each of the plurality of images may be displayed within a circle.
The plurality of images each may contain grid dots as the background.
The grid dots may be displayed darker than the plurality of particles.
The grid dots near the center of an image may be displayed sharper than the grid dots on the outer part of the image.
The grid dots may be displayed within a three-dimensional water drop, and a change in the three-dimensional shape of the water drop may be represented by varying the intervals between the grid dots.
One or more of the plurality of images may contain text indicative of the current course or cycle.
When two or more of the plurality of images contain text, the text in the two or more images may differ in lightness.
The text may be displayed within a three-dimensional water drop, and a change in the three-dimensional shape of the water drop may be expressed by distorting a part of the text.
One or more images each containing an icon associated with the current course or cycle and the plurality of images showing the plurality of particles may be cyclically output.
Two or more images each containing the icon may be sequentially output, and the icon in any image may be more blurry than the icon in the preceding image.
One or more first images showing the plurality of particles which are arranged output around the blurred icon may be output, and then one or more second images containing no icon and showing the plurality of particles may be output, wherein the plurality of particles in each of the first and second images may form a predetermined pattern to depict the operation related to the current course or cycle.
One of the plurality of images and a remaining time may be displayed together on a single screen.
The plurality of images may are represented such that the plurality of particles are arranged within a three-dimensional water drop.
The three-dimensional shape of the water drop may be expressed by the surface gloss, shadow, or outline of the water drop.
A change in the three-dimensional shape of the water drop may be expressed by changing at least one of the following: surface gloss, shade, shadow, degree of particle scattering, and outline.
The operation related to the current course or cycle may be dynamically displayed by adding one or more second water drops smaller than the water drop or changing the number, size, or position of the one or more second water drops.
Accordingly, the user can intuitively find out a washing status.
Moreover, the current washing status can be displayed vividly and vibrantly through a display screen with large screen size and high resolution.
In addition, input/output devices of a home appliance have integrity with those of a smart device, and the home appliance has a neat appearance.
Hereinafter, a method for displaying a wash cycle according to the present invention will be described with reference to the accompanying drawings.
Washing machines may be classified into a washing machine that removes contaminants on laundry such as clothing by the action of detergent and water, a drying machine that dries laundry with hot air, and a washer-dryer machine that performs both wash and dry in a single system, depending on their functionality.
Also, washing machines may be classified into a top-loading type machine that has a vertically mounted wash tub (or inner tube or drum) to load laundry from the top and rotates around a vertical axis and a front-loading type machine that has a horizontally mounted wash tub to load laundry through the front and rotates around a horizontal axis, depending on their structure.
The top-loading type machine may be classified into an agitator-type machine that performs wash by rotating an agitator rising from the center of the wash tub and a pulsator-type machine that performs wash by rotating a disc-shaped pulsator mounted below the wash tub or the wash tub. The front-loading type machine is commonly called a drum washing machine that has a lift placed on the inner peripheral surface of the drum which constitutes the wash tub and performs wash by lifting up laundry and dropping it by the lift as the drum rotates.
As described above, there are various types of washing machines, any of which has a water supply unit for supplying wash water into a water storage tank (or outer tank or tub) or the wash tub (or inner tank or drum) and a drainage unit for draining wash water from the outer tank after performing wash, rinse, and spin-dry actions.
Unless otherwise specified, exemplary embodiments of the present invention may apply to all of the above-mentioned machines.
First of all, the structure of a washing machine will be described.
A washing machine 100 includes a cabinet 110 forming the outer appearance, a rotatable door 115 at the front to load laundry, a water storage tank (tub or outer tank) 120 provided inside the cabinet 110 and containing wash water, a wash tub (drum or inner tank) 130 containing laundry in the water storage tank 120 and being rotatable, a driving unit 135 for applying torque to the wash tub 130 and washing, rinsing, and spin-drying the laundry loaded into the wash tub 130, an operation panel 150 for receiving various instructions for operating the washing machine from the user and indicating the operating status of the washing machine, and a controller (not shown) for controlling each of the components and operating the washing machine 100. The washing machine 100 with drying functionality may further include a dryer.
The water storage tank 120 is connected to the cabinet 110 through springs 121 in the upper portion and a damper 122 in the lower portion and reduces the vibration caused by the rotation of the wash tub 130 transmitted to the cabinet 110.
Above the water tank 120 are a water supply path 123 for supplying water from the outside into the tub 130, a water supply valve 124 mounted on the water supply path 123 to control the passage of water, and a detergent supply unit 125 for putting detergent, together with water supplied through the water supply path 123, into the water tank 120. Below the water tank 120 are a drainage path 126 and a drain pump 127 for draining out the wash water used for washing, rinsing, etc.
A plurality of holes 132 through which wash water passes are formed in the wash tub 130, and a plurality of lifts 134 for lifting up and then dropping the laundry loaded in the wash tub 130 when the wash tub 130 rotates are formed inside the wash tub 130. As laundry is moved by the lift 134, high washing performance can be achieved.
The washing machine 100 with drying functionality may have a circulating duct 140 for circulating air for a drying cycle mounted outside the water storage tank 120. The circulating duct 140 is configured to draw air from inside the water storage tank 120, heat the air, and blow it into the water storage tank 120.
The circulating duct 140 is divided into a drying duct 141 and a condensation duct 147, and a heater 143 and a blower fan 145 are mounted inside the drying duct 141 to blow hot air out into the water storage tank 120. An inlet port 128 for letting hot air in through the drying duct 141 and an outlet port 129 for letting air out to the condensation duct 147 are formed in the water storage tank 120. Moreover, a water feeder 149 for supplying cooling water is mounted at the condensation duct 147 to condensate moisture in the air.
A washing machine 200 of
Two or more suspensions 221, such as springs, for suspending the water storage tank 220 on the top cover of the cabinet 210 may be provided to absorb vibration that is generated when the wash tub 230 rotates.
A water supply path 223, a water supply valve 224, and a detergent box 225 serve as a water supply unit for supplying water to the water storage tank 220. Water is let in through the water supply path 223 connected to an external water resource like a tap, and the water flowing through the water supply path 223 is mixed with a detergent contained within the detergent box 225 and additives such as a fabric softener or bleach and supplied as wash water into the wash tub 230.
A drainage path 226 and a drain pump 227 serve as a drainage unit for draining the wash water in the water storage tank 220 for draining out the wash water used for washing, rinsing, etc. The wash water in the water storage tank 220 may be drained out through the water supply path 226 when the water supply valve 227 is opened, or may be pumped by a drain pump (not shown) provided on the drainage path 226.
The washing machine 100 may include a controller 160 for regulating the wash cycle of the washing machine and controlling the options, an actuator 135 for rotating the wash tub 130 under the control of the controller 160, a water supply valve 124 for supplying water to the water storage tank 120, a drain pump for draining out the wash water in the water storage tank 120, a sensor 165 such as a laundry amount sensor for sensing the amount of laundry contained in the wash tub 130 loaded in the wash 130, a water level sensor for measuring the water level in the wash tub, a temperature sensor, a vibration sensor, etc, and an operation panel 150 including an input part 151 for receiving user instructions to select operations of the washing machine and an output part 152 for outputting various washing information such as the operating status of the washing machine or the time remaining as sound or on the screen. The controller 160 may be mounted on a board where the operation panel 150 is attached.
The controller 160 controls the overall operations of the washing machine according to instructions input through the input part 151. The controller 160 determines whether to carry out each cycle or not, and which of the actions like water supply, wash, rinse, drain, spin-dry, and dry should be done in each cycle and how long and how many times the actions should be run according to the optimum washing pattern or course automatically set based on the type and amount of laundry and how dirty the laundry is or according to a washing course selected by the user, and performs each action as determined.
The controller 160 may incorporate storage (not shown) such as a nonvolatile memory that stores laundry type information and washing methods. The storage may store information on materials, fabrics, etc for various types of clothing in a database, prestore the optimum washing pattern for each laundry type, that is, the method, sequence, length of time, number of runs, etc for washing, rinsing, spin-drying, etc and further store a program for actuating the washing machine and information related to the cycles of washing, drying, spin-drying, etc.
A wash cycle is a cycle in which contaminants are removed from laundry by soaking the laundry in wash water mixed with a detergent and rotating the wash tub 130. The wash cycle is run in the order of water supply, wash, drain, and simple spin-dry. The wash cycle may further include a laundry distribution process to prevent laundry from being one-sided within the wash tub 130.
When the wash cycle begins, the controller 160 may display through the output part 152 that the wash cycle is in progress.
Water supply involves supplying water from an external water supply source (tap) into the water storage tank 120.
When the water storage tank 120 is filled with water up to a target water level, the controller 160 shuts off the water supply valve 124 to complete water supply.
Washing involves actuating the actuator 135 to rotate the wash tub 130 containing the laundry soaked in wash water mixed with a wash detergent. During washing, the controller 160 may control the actuator 135 to rotate the wash tub 130 at different speeds or directions and stop the operation of the actuator 135 at intervals of a few seconds or minutes in order to prevent overheating.
Draining involves draining the wash water in the water storage tank 120 out of the cabinet 110. The controller 160 operates the drain pump 127 (or drain valve) so that the wash water in the wash tub 130 is let out through the drainage path 126.
Simple spin-dry involves rotating the wash tub 130 at high speeds to make the wash water exit from the laundry. The controller 160 may intermittently operate the drain pump 127 during the simple spin-dry process so that the wash water in the water storage tank 120 is let out through the drainage path 126.
A laundry distribution process involves distributing laundry by changing the rotation speed of the wash tub 130, i.e., inducing repeated accelerations and decelerations in rotation speed.
A rinse cycle is a cycle in which the detergent remaining on laundry is removed by soaking laundry in wash water mixed with fabric softener and then rotating the wash tub 130. Rinsing may be done twice in the order of water supply, rinse, drain, simple spin-dry, water supply, and rinse. Otherwise, rinsing may not be done or may be done three times or more.
When the rinse cycle begins, the controller 160 may display through the output part 152 that the rinse cycle is in progress.
The laundry distribution process may be done once again at the end of the rinse cycle.
The spin-dry cycle is a cycle in which water is removed from laundry by rotating the wash tub 130 at high speeds, which may include draining and main spin-dry.
When the spin-dry cycle begins, the controller 160 may display through the output part 152 that the spin-dry cycle is in progress. Main spin-dry involves rotating the wash tub 130 at high speeds, faster than the simple spin-dry step in the wash cycle or rinse cycle, to make the wash water exit from the laundry, and intermittently operating the drain pump 127 so that the wash water in the water storage tank 120 is let out through the drainage path 126.
The washing machine with a drying function may further run a dry cycle for drying laundry by supplying hot air into the wash tub 130 after the main spin-dry step.
In recent years, the laundry capacity of washing machines has been increasing and the technology of controlling the rotation of the wash tub has been developed, this allows adding many functions, e.g., dry, steam, and water stream control, to the washing machines, offers various wash courses, and allows the user to select or set a larger number of options for each of the wash, rinse, spin-dry, and dry cycles.
New machines of larger capacity come with many preprogrammed courses, including Regular Wash, Functional Clothing, Silent Mode Wash, Color Care, Lingerie/Wool, Bedding, Rinse+Spin-dry, Steam Clean, Allergy Care, Quick Wash, Energy Saving/Boiling Temperature Wash, Baby Sanitize, and Encrusted Dirt. When the user selects one of these courses, all or some of the wash, rinse, spin-dry, and dry cycles are automatically run according to the selected course.
When selecting and running the wash cycle, the user may select one of the options including Steam Wash, Soak, Pre-wash, Strong, Normal, and Weak and the optimal wash action and the subsequent rinse and spin-dry actions may be performed according to the selected option. The dry cycle has the options including Jeans, Cotton/Towels, Regular Dry, Synthetic, Shirts, Lingerie, Quick Dry, Cooling, Shoes, Wrinkle Care Dry, Sanitize, and Set Timer for Damp Dry for Ironing from which the user can select one.
As washing machines offer more courses for wash and dry, the user interfaces of the input part and output part where the user can choose one of the courses using a dial have to indicate all of these courses around the dial, which makes the user interfaces look complicated. Therefore, it is not easy to tell which course has been selected when viewed from a distance, and the size of text displayed within a small display is limited, making it difficult to identify the selected course or the current cycle on the display.
Input/output devices with a similar interface to the interface of a smart device, which have been put into use in keeping with the recent trend, are capable of providing various information using graphics and animations, as well as text, because they have a large display screen and high resolution.
Accordingly, a preprogrammed course or the current operation step (cycle) can be vividly displayed on the large-sized output screen of a display device with both user input and output functions by using animations or video. The icons associated with courses or cycles may be displayed to allow the user to intuitively know which course is being run or how the current cycle is running, and the features of these courses or cycles can be dynamically displayed based on the movement of particles.
In
A touch screen used for a smart device is able to display images, animations, or video, as well as text, because it offers a high-resolution display. Therefore, the present invention is applied to a washing machine or drying machine using a high-resolution touch screen, and images or animations can be output through a large-sized, high-resolution display to vividly display each operation step, thereby stirring the user's visual senses.
The current operation step (or cycle) or a course selected by the user (or automatically) can be delivered in a video or animation format in which an image continuously changes, as well as in an image containing text and/or graphics (icon). Using the icon, text, and animation showing the movement of particles, the current cycle can be illustrated, or the operation of the current cycle can be visually displayed.
The current cycle can be displayed in an animation showing the movement of particles by sequentially outputting an image of an icon indicating the current cycle, an image of particles appearing near the icon as the icon becomes blurry, and a plurality of images showing the current cycle in a predetermined pattern of particles after the icon disappears, within a circle, which is the shape of the washing machine when viewed from the top. By adding text to an image with a predetermined pattern of particles, the current cycle can be displayed more clearly.
The operation of the current cycle may appear in between the sequentially-displayed images showing particles by changing at least one of the number, size, position, and density of the particles in each image.
The first image may contain an icon displayed in the center to indicate laundry soaked in slopping wash water, the second image may show a plurality of semitransparent particles of different sizes appearing near the icon as if wash water for a wash is poured onto the laundry from the top, and the third to sixth images may show the particles scattering and fluctuating up and down as the icon disappears. Text indicative of wash may be added to the image with the icon gone, and text may differ in lightness from image to image. The six images of
The first image may contain an icon displayed in the center to indicate laundry soaked in wash water slopping more gently than in the wash cycle, the second image may show a plurality of semi-transparent particles of different sizes appearing near the icon as if wash water for a rinse is creating waves around the laundry, and the third to fifth images may show the particles fluctuating horizontally as the icon disappears. Like in
The wrinkle care course can be expressed by an icon of partially-wrinkled laundry placed under an iron, and consecutive images can be output to indicate that the wrinkles decrease with the gradually decreasing amplitude of a sine-wave pattern of particles.
The tub clean cycle can be expressed by an icon of a sparkling and rotating U-shaped tub, and the tub dry cycle may be expressed by an icon of hot air delivered to the rotating U-shaped tub. The tub clean cycle and the tube dry cycle are illustrated in consecutive images that are output to indicate that water is moving inward or outward as the brightness or density of particles arranged in a concentric pattern along the outer part of a circle changes in a radial direction. In the tub clean cycle, the sparkles on the tub are illustrated using the movement of particles, and in the tube dry cycle, the air blown into the tub is also illustrated using the movement of particles.
As illustrated in
When displaying two or more consecutive images each containing an icon associated with the current course or the current cycle, the icon becomes blurry. The icon in any image is more blurry than the icon in the preceding image. Also, a plurality of particles may appear near the icons in some of the images that have been blurred.
Some of the plurality of particles forming a predetermined pattern and containing a plurality of images that illustrate the operation of the current course or cycle may further contain a blurred icon, and the others may contain no icon.
In this way, the three-dimensional shape of the water drop of
The light coming through a window is illustrated as casting shadows next to the water drop and the leaf, and the three-dimensional shape of the water drop is illustrated as having a curved distortion in the shadow of the window and the shadow of the leaf within the water drop. Also, the three-dimensional shape of the water drop can be expressed by varying the surface gloss, shadow, or outline of the water drop depending on the direction from which light enters.
The image of
The images of
Moreover, text can be inserted into the big water drop to indicate that the current cycle is the spin cycle. The text also looks distorted, rather than looking regular, to show that the three-dimensional shape of the water drop is changing. In addition, text may differ in lightness from image to image.
Similarly to the embodiment of
The memory of the controller 160 stores image data constituting the output screen according to the present invention. The controller 160 may extract multiple image data for depicting the current cycle or course from the memory, and create an output screen containing images, text, etc based on the multiple image data and display it through the output part 152. A plurality of images depicting the current cycle may be sequentially and cyclically output.
The plurality of images of the cycles shown in
Although
The exemplary embodiments of the present invention described above have been provided for illustrative purposes. Therefore, those skilled in the art will appreciate that various modifications, alterations, substitutions, and additions are possible without departing from the scope and spirit of the invention as disclosed in the accompanying claims and such modifications, alterations, substitutions, and additions fall within the scope of the present invention.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10-2013-0061766 | May 2013 | KR | national |
| 10-2013-0089776 | Jul 2013 | KR | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/KR2014/004748 | 5/28/2014 | WO | 00 |
