This application claims the benefit of Korean Patent Application No. 2009-0110375, filed on Nov. 16, 2009 in the Korean Intellectual Property Office, the disclosure of which is incorporated herein by reference.
1. Field
Embodiments relate to a washing machine and a laundry amount detection device thereof.
2. Description of the Related Art
A washing machine is an apparatus that washes clothing using mechanical force. The washing machine mainly uses a motor as a main power source, and performs washing, rinsing and spin-drying processes using detergent and water to remove contaminants from the clothing.
The washing machine measures an amount of clothing to adjust an amount of detergent, water and electricity to be used. The washing machine measures an amount of laundry and uses water and electricity in proportion to the measured amount of the laundry to efficiently use energy.
The washing machine may measure an amount of laundry using two methods. A first method is to use the change in inertia of a drum based on the weight of laundry. A second method is to use the change in weight of a tub based on the weight of laundry. The first method indirectly estimates the weight of laundry, whereas the second method directly measures the weight of laundry.
Therefore, it is an aspect to provide a washing machine including a device to accurately measure an amount of laundry.
Additional aspects of the invention will be set forth in part in the description which follows and, in part, will be apparent from the description, or may be learned by practice of the invention.
In accordance with one aspect, a washing machine includes a cabinet, a tub provided in the cabinet, an elastic member to elastically support the tub at the cabinet, and a laundry amount detection device to detect an amount of laundry placed in the tub using a deformation amount of the elastic member.
At least a portion of the laundry amount detection device may be configured to move relative to deformation of the elastic member.
The laundry amount detection device may include a deformation amount measurement unit to measure the deformation amount of the elastic member, and the deformation amount measurement unit may include a load cell having an elastically deformable body and a strain gauge and a position fixing member to fix the load cell to the elastic member.
The laundry amount detection device may further include a controller to transmit a value measured by the deformation amount measurement unit to a microprocessor of the washing machine, and the microprocessor may receive the measured value from the controller and calculate the amount of the laundry.
The laundry amount detection device may further include a controller to calculate the amount of the laundry using the value measured by the deformation amount measurement unit and to transmit the calculated amount of the laundry to a microprocessor of the washing machine.
The elastically deformable body may be deformed in proportion to deformation of the elastic member.
The elastically deformable body may be arranged in a longitudinal direction of the elastic member and may be formed in an arc shape.
The elastically deformable body may be disposed in a predetermined space inside the elastic member.
The position fixing member may include a stationary part coupled to the elastic member and a movable part coupled to the load cell, and the movable part may be pivotably coupled to the stationary part.
The stationary part may have an elastic member coupling part, and the elastic member coupling part may be threadedly coupled to the elastic member.
The movable part may have an elastically deformable body coupling part, and the elastically deformable body coupling part may be threadedly coupled to the elastically deformable body.
The stationary part and the movable part may be coupled to each other via a pin.
The position fixing member may include a first position fixing member and a second position fixing member, and the first position fixing member may connect one side of the load cell and one side of the elastic member while the second position fixing member may connect the other side of the load cell and the other side of the elastic member.
The elastic member may include a spring.
The washing machine may further include a control panel to display the amount of the laundry measured by the laundry amount detection device.
The washing machine may further include a control panel to display an amount of detergent or washing time previously set according to the amount of the laundry measured by the laundry amount detection device.
In accordance with another aspect, a laundry amount detection device includes an elastic member to elastically support a tub at a cabinet and a deformation amount measurement unit to measure a deformation amount of the elastic member to detect an amount of laundry placed in the tub.
At least a portion of the laundry amount detection device may be configured to move relative to deformation of the elastic member.
The laundry amount detection device may further include a controller to calculate the amount of the laundry using a value measured by the deformation amount measurement unit.
The deformation amount measurement unit may include a load cell having an elastically deformable body and a strain gauge and a position fixing member to fix the load cell to the elastic member.
The position fixing member may include a stationary part coupled to the elastic member and a movable part coupled to the load cell, and the movable part may be pivotably coupled to the stationary part.
The stationary part and the movable part may be coupled to each other via a pin.
The elastically deformable body may be disposed in a predetermined space inside the elastic member.
These and/or other aspects will become apparent and more readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.
As shown in
The tub 11 is supported at the cabinet 10 by at least one elastic member 14 and at least one damping member 18. The elastic member 14 may include a spring. The damping member 18 may include an oil damper. The elastic member 14 and the damping member 18 absorb vibration or impact generated from the tub 11 and the drum 12 during the operation of the drive unit 13.
The washing machine may further include a water supply unit 20, a drainage unit 21, and a detergent supply unit 22.
The water supply unit 20 is connected to a water supply source outside the washing machine to supply wash water into the tub 11. The drainage unit 21 drains wash water out of the washing machine during a rinsing cycle or a spin-drying cycle. The detergent supply unit 22 is connected to the water supply unit 20 to supply detergent together with the wash water supplied through the water supply unit 20.
The water supply unit 20, the drainage unit 21, and the detergent supply unit 22 each may include a valve and channels. The drainage unit 21 may further include a drainage pump 21a. The detergent supply unit 22 may further include a detergent box 22a to store detergent.
The washing machine may further include a door 30 to open and close the front of the cabinet 10.
When a user wishes to wash laundry, the user may open the door 30 and put the laundry into the drum 12. When the washing is completed, the user may open the door 30 and withdraw the laundry from the drum 12.
Also, the washing machine may further include a laundry amount detection device 40 to measure the amount of laundry.
The laundry amount detection device 40 includes a deformation amount measurement unit 41 to measure a deformation amount of the elastic member 14 and a controller 42 to calculate the amount of laundry using a value measured by the deformation amount measurement unit 41 or transmit the value measured by the deformation amount measurement unit 41 to a microprocessor (not shown) of the washing machine. The microprocessor may receive the value measured by the deformation amount measurement unit 41 from the controller 42 and calculate the amount of laundry.
As shown in
The elastic member 14 may be deformed in proportion to the amount of laundry. As laundry is placed in the tub 11, the weight of the tub 11 is changed. As a result, force applied to the elastic member 14 is changed, and therefore, the length of the elastic member 14 is increased. That is, since the elastic member 14 is deformed in proportion to the amount of laundry placed in the tub 11, the amount of laundry placed in the tub 11 may be detected by measuring a deformation amount of the elastic member 14.
The deformation amount measurement unit 41 may be configured to measure a deformation amount of the elastic member 14. To this end, the deformation amount measurement unit 41 is configured to move relative to the deformation of the elastic member 14. That is, since the deformation amount measurement unit 41 is deformed in proportion to the deformation of the elastic member 14, a deformation amount of the elastic member 14 may be measured by measuring a deformation amount of the deformation amount measurement unit 41.
The deformation amount measurement unit 41 may include a load cell 50 configured to be deformed in proportion to the deformation of the elastic member 14 and a position fixing member 60 to fix the load cell 50 to the elastic member 14.
The load cell 50 may include an elastically deformable body 51 and a strain gauge 52.
The elastically deformable body 51 may be provided at the elastic member 14 such that the elastically deformable body 51 is physically deformed by elastic deformation of the elastic member 14. The elastically deformable body 51 may be arranged in the longitudinal direction of the elastic member 14. An upper end 51a of the elastically deformable body 51 may be fixed to the first hook 16 of the elastic member 14 by a first position fixing member 61, and a lower end 51b of the elastically deformable body 51 may be fixed to the second hook 17 of the elastic member 14 by a second position fixing member 62. In this structure, the elastically deformable body 51 is supported at two points at the elastic member and thus is securely fixed to the elastic member 14. That is, since the elastically deformable body 51 is deformed in proportion to a deformation amount of the elastic member 14, the deformation amount of the elastic member 14 may be measured based on a deformation amount of the elastically deformable body 51.
The elastically deformable body 51 may be formed in an arc shape. The arc-shaped elastically deformable body 51 may be easily bent in the longitudinal direction of the elastic member 14 when the elastic member is deformed in the longitudinal direction thereof. Also, stress is prevented from being concentrated at a specific point of the arc-shaped elastically deformable body 51, whereby durability of the elastically deformable body 51 is improved.
The strain gauge 52 may be attached to the elastically deformable body 51. The strain gauge 52 may include electric wires 53 at opposite ends thereof. The strain gauge 52 outputs electric resistance corresponding to physical deformation of the elastically deformable body 51. That is, since an electric resistance output value of the strain gauge 52 is proportional to a deformation amount of the elastically deformable body 51, the deformation amount of the elastically deformable body 51 may be measured based on the electric resistance output value of the strain gauge 52.
Meanwhile, the controller 42 may be connected to the strain gauge 52 via the electric wires 53. The controller 42 inversely calculates the electric resistance output value of the strain gauge 52 to detect an amount of laundry. This is because the electric resistance output value of the strain gauge 52 is proportional to a deformation amount of the elastically deformable body 51, the deformation amount of the elastically deformable body 51 is proportional to a deformation amount of the elastic member 14, and the deformation amount of the elastic member 14 is proportional to an amount of laundry.
The controller 42 may be configured to control an output value of the strain gauge 52 to correspond to an amount of laundry placed in the tub 11 and to control the measured amount of the laundry or an appropriate amount of detergent and washing time based on the measured amount of the laundry to be displayed on a control panel (not shown). The controller 42 may include a microprocessor built in a machine body of the washing machine or an additional component different from the microprocessor built in the machine body of the washing machine.
In another construction example, the controller 42 may be configured to control the measured amount of the laundry to be transmitted to the microprocessor of the washing machine, and the microprocessor may be configured to control the amount of the laundry, transmitted to the microprocessor, or an appropriate amount of detergent and washing time based on the amount of the laundry, transmitted to the microprocessor, to be displayed on the control panel.
In a further construction example, the controller 42 may transmit the electric resistance output value of the strain gauge 52, i.e., the deformation amount of the elastic member 14, to the microprocessor. At this time, the microprocessor may control an output value of the strain gauge 52 to correspond to an amount of laundry placed in the tub 11 to measure the amount of the laundry. Subsequently, the microprocessor may control the measured amount of the laundry or an appropriate amount of detergent and washing time based on the measured amount of the laundry to be displayed on the control panel.
Meanwhile, as previously described, the position fixing member 60 may include the first position fixing member 61 coupled to the first hook 16 of the elastic member 14 and the second position fixing member 62 coupled to the second hook 17 of the elastic member 14.
The first position fixing member 61 may include a stationary part 63 and a movable part 64. The stationary part 63 may have an elastic member coupling part 63a. The elastic member coupling part 63a may be formed in a U shape. The elastic member coupling part 63a may be provided with a screw coupling hole H. The first position fixing member 61 is securely fixed to the elastic member 14 by fitting the elastic member coupling part 63a of the stationary part 63 on the first hook 16 of the elastic member and inserting a screw S into the screw coupling hole H.
The movable part 64 may include an elastically deformable body coupling part 64a. The elastically deformable body coupling part 64a may have a predetermined gap G into which the upper end 51a of the elastically deformable body 51 is inserted. The elastically deformable body coupling part 64a may be provided with a screw coupling hole H. When the upper end 51a of the elastically deformable body 51 is inserted into the predetermined gap G of the elastically deformable body coupling part 64a, a screw coupling hole H of the upper end 51a of the elastically deformable body 51 may be aligned with the screw coupling hole H of the elastically deformable body coupling part 64a of the movable part 64. At this time, a screw S is inserted into the screw coupling holes H, with the result that the elastically deformable body 51 is fixed by the first position fixing member 61.
Meanwhile, the stationary part 63 and the movable part 64 are coupled to each other via a pin 65. The movable part 64 may be pivotably coupled to the stationary part 63 via the pin 65. That is, the movable part 64 may freely pivot about the pin 65 functioning as a pivot shaft. When vibration or impact generated from the tub 11 is absorbed by the elastic member 14 during a washing process, the vibration or impact is transmitted to the deformation amount measurement unit 41. At this time, the vibration or impact may be dispersed or decreased by the pivoting motion of the movable part 64. The pin 65 coupling structure of the stationary part 63 and the movable part 64 may prevent damage to the elastically deformable body 51 and secure durability of the elastically deformable body 51.
The second position fixing member 62 may also include a stationary part 63 and a movable part 64. The stationary part 63 may have an elastic member coupling part 63a. The movable part 64 may include an elastically deformable body coupling part 64a. The coupling between the stationary part 63 and the movable part 64 of the second position fixing member 62 is performed in the same manner as in the first position fixing member 61, and therefore, a detailed description thereof is omitted.
Hereinafter, the operation of the washing machine according to the embodiment of the present invention will be described in detail.
As shown in
Subsequently, when laundry is placed in the drum 12, the laundry amount detection device 40 measures the amount of the laundry (S2).
The controller 42 may detect a deformation amount of the elastic member 14 based on the increase in weight of the tub 11 after the laundry is placed in the drum 12, as shown in
The microprocessor of the washing machine may perform the function of the controller 42. That is, the microprocessor calculates the deformation amount of the elastic member 14 to measure the amount of the laundry (S3). At this time, the microprocessor may use an estimation table in which a deformation amount of the elastic member 14 corresponds to an amount of laundry.
Subsequently, the controller 42 controls the measured amount of the laundry to be displayed on the control panel (S4), or controls an amount of detergent and washing time corresponding thereto to be displayed on the control panel (S5).
Subsequently, the washing machine performs washing based on the amount of detergent and washing time set according to the amount of the laundry measured by the laundry amount detection device 40 (S6). The amount of detergent and washing time may be used in proportion to the amount of the laundry, thereby saving water and electricity.
Consequently, the washing machine accurately measures the amount of the laundry using the laundry amount detection device 40 and uses water and electricity in proportion to the amount of the laundry, thereby maximizing energy use efficiency.
As shown in
In the washing machine as shown in
Also, the laundry amount detection device 40 very accurately measures force applied to the elastic member 14, whereby the amount of laundry is accurately measure, which reduces energy consumption.
In the previous embodiments, the washing machine was described as an example; however, embodiments are not limited thereto. Embodiments relate to a device to accurately measure an amount of laundry, and therefore, embodiments may be applied to various electric home appliances, such as a clothing dryer, which may detect an amount of clothing.
As is apparent from the above description, water and electricity are supplied in proportion to an amount of laundry, thereby improving energy use efficiency of the washing machine.
Although a few embodiments have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.
Number | Date | Country | Kind |
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10-2009-110375 | Nov 2009 | KR | national |