Patent Application
20190071816
The present disclosure relates to a washing machine control field, for example, relates to a device and a method for controlling automatic opening and closing of an upper cover of a washing machine.
Modes of opening or closing an upper cover of a washing machine include an automatic mode and a manual mode. In the automatic mode, a motor is used to drive the upper cover to open or close, protection measures are lacking in the closing process of the upper cover, and if fingers or other parts of a user are placed between a tray and the upper cover of the washing machine when the upper cover is closed, it is very likely to pinch the finger or the arm of the user, causing personal injury to the user.
If the upper cover is continuously opened or closed in an automatic mode when an obstacle exits on the upper cover of the washing machine or between the upper cover and the tray, the motor will be blocked when the motor encounters the obstacle. Then, a current of the coil in the motor becomes larger, and the motor may be burnt if the obstacle is not removed in time.
The disclosure provides a device and method for controlling automatic opening and closing of an upper cover of a washing machine, which prevent the user from being pinched when the upper cover is closed and the motor from being burnt when the obstacle is not removed in time during the opening or closing process of the upper cover.
A device for controlling automatic opening and closing of an upper cover of a washing machine includes a controller and a detector. The controller is configured to control the motor to rotate to drive the upper cover connected to the motor to open, close or stop at a current position. The detector is connected to the controller and is configured to collect a signal indicating an obstacle between the upper cover and the tray or on one side of the upper cover facing away from the tray, and send the signal indicating the obstacle to the controller. When determining the existence of the obstacle between the upper cover and the tray or on the one side of the upper cover facing away from the tray according to the signal indicating the obstacle, the controller controls the upper cover to stop at the current position or returns to an initial position.
In one embodiment, the controller is configured to control the motor to rotate clockwise, rotate counterclockwise or stop to drive the upper cover to open, close or stop at the current position respectively.
In one embodiment, the signal indicating the obstacle is a current signal of a coil in the motor during rotation of the motor.
In one embodiment, the device can further include an alarm device connected to the controller.
In one embodiment, the device can further include an angle measuring device connected to the controller.
A method for controlling automatic opening and closing of an upper cover of a washing machine includes the following:
S10: controlling the motor to drive the upper cover to open or close by the controller. S20: collecting a signal indicating an obstacle between the upper cover and the tray or on one side of the upper cover facing away from the tray by the detector, and sending the signal indicating the obstacle to the controller by the detector. S30: receiving the signal indicating the obstacle by the controller, determining, by the controller, whether the obstacle between the upper cover and the tray or on the one side of the upper cover facing away from the tray exists according to the signal indicating the obstacle. S40: when an existence of the obstacle between the upper cover and the tray or on the one side of the upper cover facing away from the tray is determined by the controller, controlling, by the controller, the motor to drive the upper cover to stop at the current position or return to the initial position and performing S50; when a non-existence of the obstacle between the upper cover and the tray or on the one side of the upper cover facing away from the tray is determined by the controller, controlling, by the controller, the motor to drive the upper cover to be continuously opened or closed until the upper cover is fully opened or closed. S50: performing operations in S10 to S40 after the upper cover stops at the current position or returns to the initial position for a duration T.
In one embodiment, in S20, the detector collects the current signal of the coil in the motor during rotation of the motor as the signal indicating the obstacle.
In one embodiment, in S30, the controller receives the current signal, calculates the corresponding current value I, and determine an existence of an obstacle between the upper cover and the tray or on the one side of the upper cover facing away from the tray when the current value I is greater than preset current value Ia.
In one embodiment, in S40, after the controller determines the existence of the obstacle between the upper cover and the tray or on the one side of the upper cover facing away from the tray, the method can further include: sending an alarm by the alarm device to remind the user to remove the obstacle.
In one embodiment, before S10, the method can further include: manually opening or closing the upper cover, collecting an angle A between the upper cover and the tray in real time by the angle measuring device, and sending the angle A to the controller; and receiving, by the controller, the angle A sent by the angle measuring device, determining, by the controller, an angle β at which the upper cover currently opens or closes according to the angle A, comparing, by the controller, the angle β with a preset angle α to obtain a comparison result, and determining, by the controller whether to control the motor to drive the upper cover to be automatically opened or closed according to the comparison result.
In one embodiment, when the angle β is greater than the preset angle α, the controller controls the motor to drive the upper cover to open or close automatically.
In one embodiment, the preset angle α is in a range of 0°-30°.
A non-transitory computer-readable storage medium, which is configured to store computer-executable instructions for performing the method for controlling automatic opening and closing of an upper cover of a washing machine.
A device includes one or more controllers, a memory, and one or more programs that are stored in the memory. When the one or more programs are executed by the one or more controllers, any method for controlling automatic opening and closing of an upper cover of a washing machine described above is performed.
Through analyzing the changes of the current of the coil in the motor which drives the upper cover to move, it can be determined whether an obstacle exists between the upper cover and the tray or on one side of the upper cover facing away from the tray, which can prevent the user from being pinched accidently when the upper cover is closed and the motor from being burnt when it is blocked by the obstacle for a long time during the automatic opening and closing process of the upper cover. The disclosure further provides a method of a combination of a manual mode with an automatic mode to open or close an upper cover. When the function of automatically opening or closing the upper cover is enabled, the user is reminded to remove the finger, which can reduce the possibility of pinching the user and save the force used when the upper cover is opened or closed manually.
In the drawings:
1: Controller; 2: Detector; 3: Motor; 4: Upper cover; 5: Alarm; 6: Angle measuring device.
The solution of the present disclosure is further described in conjunction with the following embodiments and drawings. It should be understood that the embodiments described herein are intended to explain and not to limit the present disclosure. If not in collision, the embodiments described herein and the features thereof may be combined with each other.
The embodiment illustrated in
The controller 1 controls a motor 3 to rotate clockwise, rotate counterclockwise or stop to drive an upper cover 4 to open, close or stop at a current position.
The detector 2 is configured to collect a signal indicating an obstacle between the upper cover 4 and a tray or on one side of the upper cover 4 facing away from the tray during the opening or closing process of the upper cover 4, and send the signal indicating the obstacle to the controller 1.
In one embodiment, the signal indicating the obstacle can be a current signal of a coil in the motor 3 during rotation of the motor 3. When the upper cover 4 encounters an obstacle during the opening or closing process, the motor 3 will be blocked, which leads to changes in the current of the coil in the motor 3. The detector 2 collects the current signal of the coil in the motor 3, and sends the collected current signal to the controller 1. The controller 1 calculates the change of the electrical current value I to determine whether the upper cover 4 encounters an obstacle during the opening or closing process according to the received current signal, and controls the upper cover 4 to stop at a current position or return to an initial position when the existence of the obstacle is determined.
In one embodiment, the device for controlling automatic opening and closing of an upper cover of a washing machine can further include an alarm device 5 connected to the controller 1. When the existence of the obstacle in the opening or closing process of the upper cover 4 is determined by the controller 1, the alarm device 5 reports an alarm device to remind the user to remove the obstacle.
Based on the above-mentioned device for controlling automatic opening and closing of an upper cover of a washing machine, the present embodiment further provides a method for controlling automatic opening and closing of an upper cover of a washing machine. As shown in
In S10, controlling the motor 3 to drive the upper cover 4 to open or close by the controller 1.
In one embodiment, when the controller 1 controls the motor 3 to rotate clockwise, the motor 3 drives the upper cover 4 to open. When the controller 1 controls the motor 3 to rotate counterclockwise, the motor 3 drives the upper cover 4 to close. When the controller 1 controls the motor 3 to stop, the motor 3 drives the upper cover 4 to stop at the current position. When it is necessary to open or close the upper cover 4, the controller 1 sends a command signal to the motor 3 to control the motor 3 to rotate clockwise or counterclockwise so that the motor 3 drives the upper cover 4 to open or close automatically. The above is merely an example to illustrate the relationship between the rotation of the motor 3 and the movement of upper cover 4. In addition, when the controller 1 controls the motor 3 to rotate clockwise, the motor 3 can further drive the upper cover 4 to close. When the controller 1 controls the motor 3 to rotate counterclockwise, the motor 3 can further drive the upper cover 4 to open.
In S20, collecting a signal indicating an obstacle between the upper cover 4 and the tray or on one side of the upper cover 4 facing away from the tray by the detector 2, and sending the signal indicating the obstacle to the controller 1 by the detector 2.
In one embodiment, the signal indicating the obstacle may be the current value I of the coil in the motor 3 during rotation of the motor 3. The detector 2 collects the current signal of the coil in the motor 3 during rotation of the motor 3, and sends the detected current signal to the controller 1. Then the controller 1 processes the data of the current signal.
In S30, receiving the signal indicating the obstacle by the controller 1, and determining, by the controller 1, whether an obstacle between the upper cover 4 and the tray or on one side of the upper cover facing away from the tray exists.
The controller 1 receives the current signal and calculates the corresponding current value I, and compares the current value I with a preset current value Ia. The preset current value Ia may be the current value of the coil in the motor 3 during the normal closing or opening process of the upper cover 4. When the upper cover 4 encounters an obstacle during the opening or closing process, the motor 3 will be blocked, leading to a larger current value of the coil in the motor 3. Therefore, if I>Ia, an obstacle exists during the opening or closing process of the upper cover 4. If I≤Ia, no obstacle exists during the opening or closing process of the upper cover 4.
In S40, when the existence of an obstacle during the opening or closing process of the upper cover 4 is determined by the controller 1, controlling the motor 3 to drive the upper cover 4 to stop at the current position or return to the initial position by the controller 1 and performing S50, when a non-existence of the obstacle during the opening or closing process of the upper cover 4 is determined by the controller 1, controlling the motor 3 to drive the upper cover 4 to be continuously opened or closed until it is fully opened or closed.
When the existence of an obstacle during the opening or closing process of the upper cover 4 is determined, the controller 1 controls the motor 3 to drive the upper cover 4 to stop at the current position or return to the initial position. In one embodiment, when determining that an obstacle exists in the opening or closing process of the upper cover 4, the controller 1 controls the motor 3 to drive the upper cover 4 to stop at the current position. In one embodiment, when determining that an obstacle exists in the opening or closing process of the upper cover 4, the controller 1 controls the motor 3 to drive the upper cover 4 to stop at the current position and sends the command signal to the alarm device 5 at the same time, and the alarm device 5 reports an alarm device to remind the user to remove the obstacle, thus preventing the motor 3 from being burnt for being blocked continuously in the continued opening or closing process of the upper cover 4 and the user from being pinched in the continued closing process of the upper cover 4.
In one embodiment, an alarm sent from the alarm device 5 may be a sound alarm.
In S50, performing operations from S10 to S40 after the upper cover 4 stops at the current position or returns to the initial position for a duration T.
Certain time should be given to the user to remove the obstacle, and then the upper cover 4 is continuously opened or closed and the operations in S10 to S40 are repeated until the upper cover 4 is fully opened or closed. When confirming that an obstacle exists in the opening or closing process of the upper cover 4, the controller 1 controls the motor 3 to drive the upper cover 4 to stop at the current position, and since it takes a duration T1 for the upper cover 4 to return from the current position to the initial position and return to the current position again, it should be guaranteed that T is greater than or equal to T1.
On the basis of the embodiment of
As shown in
An angle at which the upper cover 4 opens or closes is set to β. When the upper cover 4 is opened, the angle A between the upper cover 4 and the tray is an angle β at which the upper cover 4 opens, that is, β equals A. When the upper cover 4 is closed, β at which the upper cover 4 closes equals to 90°−A.
In S09, the controller 1 calculates the angle β at which the upper cover 4 currently opens or closes, compares β with a preset angle α, and determines whether to control the motor 3 to drive the upper cover 4 to open or close automatically according to the comparison result. The preset angle α can be any value in a range of 0°-90°. In one embodiment, the preset angle α is in a range of 0°-30°, for example, any value in a range of 0°-15°.
In this embodiment, when β is greater than or equal to α, the controller 1 controls the motor 3 to drive the upper cover 4 to open or close automatically. When β is smaller than α, the upper cover 4 continues being opened or closed manually. The upper cover 4 can continue opening or closing automatically at a certain angle it opens by using the above-mentioned method. When the function of automatically opening or closing the upper cover is enabled, the alarm device reminds the user to remove the finger, which can reduce the possibility of pinching the user and save the force used when the upper cover 4 is opened or closed manually.
Various embodiments can provide a non-transitory computer-readable storage medium, which is configured to store computer-executable instructions for performing any method for controlling automatic opening and closing of an upper cover of a washing machine described above.
Various embodiments can provide a device.
This device may further include an input device 30 and an output device 40.
The controller 10, the memory 20, the input device 30 and the output device 40 of the device may be connected by a bus or other means. Bus connection is taken as an example in
As a non-transitory computer-readable storage medium, the memory 20 can be used for storing software programs, computer-executable programs and modules. The controller 10 performs different functional applications and data processing by executing software programs, instructions and modules stored in the memory 20, thereby implementing any method for controlling automatic opening and closing of an upper cover of a washing machine described above. For example, the controller 10 can control a motor 3 to rotate, receive a signal indicating an obstacle sent by a detector 2 and analyze the signal indicating the obstacle to determine whether an obstacle exists between an upper cover 4 and a tray or on one side of the upper cover 4 facing away from the tray, and receive an angle A sent by the angle measuring device 6 and analyze the angle A to determine whether to control the motor 3 to drive the upper cover 4 to open or close automatically.
The memory 20 may include a storage program area and a storage data area. The storage program area can store Operating System (OS) and application programs needed by at least one function. The storage data area can store data created according to the use of the device. In addition, the memory 20 may include a high speed random access memory, and may further include a non-volatile memory, for example, at least one disk storage, flash memory or any other non-volatile solid-state memory. In some embodiments, the memory 20 includes memories arranged remote relative to the controller 10. These memories can be connected to the device over the network. Instances of this network include but are not limited to the Internet, Intranet, Local Area Network (LAN), mobile communication network and a combination of them.
The input device 30 is used for receiving input digital or character information and key signals associated with user settings and function control of the device. For example, the input device 30 is an operation panel of the washing machine. The output device 40 may include display equipment such as a display screen or a sound output device such as an alarm device. For example, the output device 40 is an alarm device 5.
Finally, it is should be understood by those skilled in the art that all or part of the processes in the methods described in the above embodiments may be implemented by related hardware executed through computer programs. The computer programs may be stored in a non-transitory computer-readable storage medium. When being executed, the programs may include the processes in the methods described in the above embodiments. The computer-readable storage medium may be a magnetic disk, an optical disk, a read only memory (ROM) or a random access memory (RAM), etc.
Embodiments of the present disclosure provide a device and method for controlling automatic opening and closing of an upper cover of a washing machine, which can solve the problem in which the user is pinched during the opening or closing process of the upper cover and the motor is burnt because of being blocked for a long time, reduce the possibility of accidently pinching the user, and save the force used when the upper cover is opened or closed manually.
| Number | Date | Country | Kind |
|---|---|---|---|
| 201610072731.6 | Feb 2016 | CN | national |
This is a National Stage Application, filed under 35 U.S.C. 371, of International Patent Application No. PCT/CN2017/072737, filed on Jan. 26, 2017, which claims priority to Chinese patent application No. 201610072731.6 filed on Feb. 2, 2016, contents of both of which are incorporated herein by reference in their entireties.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/CN2017/072737 | 1/26/2017 | WO | 00 |
