WO2018186164A1 - Washing machine - Google Patents
Washing machine Download PDFInfo
- Publication number
- WO2018186164A1 WO2018186164A1 PCT/JP2018/010814 JP2018010814W WO2018186164A1 WO 2018186164 A1 WO2018186164 A1 WO 2018186164A1 JP 2018010814 W JP2018010814 W JP 2018010814W WO 2018186164 A1 WO2018186164 A1 WO 2018186164A1
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- WIPO (PCT)
- Prior art keywords
- water
- fine bubble
- water tank
- supply
- supply amount
- Prior art date
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F35/00—Washing machines, apparatus, or methods not otherwise provided for
- D06F35/002—Washing machines, apparatus, or methods not otherwise provided for using bubbles
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F33/00—Control of operations performed in washing machines or washer-dryers
- D06F33/30—Control of washing machines characterised by the purpose or target of the control
- D06F33/32—Control of operational steps, e.g. optimisation or improvement of operational steps depending on the condition of the laundry
- D06F33/34—Control of operational steps, e.g. optimisation or improvement of operational steps depending on the condition of the laundry of water filling
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F39/00—Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00
- D06F39/08—Liquid supply or discharge arrangements
- D06F39/088—Liquid supply arrangements
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F17/00—Washing machines having receptacles, stationary for washing purposes, wherein the washing action is effected solely by circulation or agitation of the washing liquid
- D06F17/12—Washing machines having receptacles, stationary for washing purposes, wherein the washing action is effected solely by circulation or agitation of the washing liquid solely by gases, e.g. air or steam, introduced into the washing liquid
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2103/00—Parameters monitored or detected for the control of domestic laundry washing machines, washer-dryers or laundry dryers
- D06F2103/14—Supply, recirculation or draining of washing liquid
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2103/00—Parameters monitored or detected for the control of domestic laundry washing machines, washer-dryers or laundry dryers
- D06F2103/16—Washing liquid temperature
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2103/00—Parameters monitored or detected for the control of domestic laundry washing machines, washer-dryers or laundry dryers
- D06F2103/28—Air properties
- D06F2103/32—Temperature
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2105/00—Systems or parameters controlled or affected by the control systems of washing machines, washer-dryers or laundry dryers
- D06F2105/02—Water supply
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2105/00—Systems or parameters controlled or affected by the control systems of washing machines, washer-dryers or laundry dryers
- D06F2105/56—Remaining operation time; Remaining operational cycles
Definitions
- the embodiment of the present invention relates to a washing machine.
- microbubbles called microbubbles and nanobubbles with a diameter of several tens of nanometers to several ⁇ m have attracted attention, and it is considered to use microbubble water containing a large number of microbubbles in a washing machine. . That is, the washing performance can be improved by dissolving the detergent in fine bubble water and washing the laundry.
- the washing machine is configured to be capable of executing a plurality of types of driving courses having different driving contents such as a standard course, a speed course, and a careful course. Therefore, simply applying fine bubble water to the washing machine may cause excess or deficiency in the supply amount of fine bubble water in each operation course. In such a case, the function of fine bubble water is effectively improved. It cannot be demonstrated.
- a washing machine configured to be able to execute a plurality of types of driving courses having different driving contents, a washing machine capable of effectively exerting the function of fine bubble water in each driving course is provided.
- the washing machine includes a water tank, a fine bubble water generation unit, and a water supply control means.
- the fine bubble water generation unit generates fine bubble water containing fine bubbles.
- the water supply control means controls the supply of the fine bubble water into the water tank. And the said water supply control means changes the supply amount of the said fine bubble water supplied in the said water tank according to an operation course.
- the longitudinal cross-sectional view which shows schematically the structural example of the washing machine which concerns on 1st Embodiment.
- the block diagram which shows roughly the structural example of the control system of the washing machine which concerns on 1st Embodiment.
- the figure which shows the example of control of the washing machine which concerns on 1st Embodiment (the 1)
- the figure which shows the example of control of the washing machine which concerns on 1st Embodiment schematically
- FIG. 3 schematically shows a control example of the washing machine according to the first embodiment (No. 3).
- the block diagram which shows roughly the structural example of the control system of the washing machine which concerns on 3rd Embodiment.
- the figure which shows the example of control of the washing machine which concerns on 3rd Embodiment roughly (the 1) The figure which shows the example of control of the washing machine which concerns on 3rd Embodiment schematically (the 2) The figure which shows the example of control of the washing machine which concerns on 4th Embodiment (the 1) The figure (the 2) showing roughly the example of control of the washing machine concerning a 4th embodiment The figure (the 1) which shows roughly the example of control of the washing machine concerning a 5th embodiment The figure which shows the example of control of the washing machine which concerns on 5th Embodiment schematically (the 2) The figure (the 1) showing roughly the example of control of the washing machine concerning a 6th embodiment The figure (the 2) showing roughly the example of control of the washing machine concerning a 6th embodiment The figure which shows schematically the structural example of the supply amount setting button which concerns on 7th Embodiment.
- the block diagram which shows roughly the structural example of the control system of the washing machine which concerns on 8th Embodiment.
- the figure (the 1) showing roughly the example of control of the washing machine concerning an 8th embodiment
- the figure (the 2) showing roughly the example of control of the washing machine concerning an 8th embodiment
- the washing machine 10 illustrated in FIG. 1 is a so-called vertical type washing machine in which the rotation axis of the rotation tub is oriented in the vertical direction, and includes an outer box 11, a top cover 12, a water tub 13, a rotation tub 14, a pulsator 15, A motor 16 and a water supply mechanism 17 are provided.
- the outer box 11 constitutes an outer shell of the washing machine 10 and is configured as a rectangular box as a whole by, for example, a steel plate.
- the top cover 12 is made of, for example, a synthetic resin and is provided on the upper portion of the outer box 11.
- the water tank 13 and the rotating tank 14 function as a washing tub and a dehydrating tub for storing laundry such as clothes to be cleaned.
- the water tank 13 is provided in the outer box 11.
- the water tank 13 and the rotating tank 14 are configured in a cylindrical shape with a bottom having an upper surface opened.
- the rotating tank 14 has a plurality of small holes 14a, and water passes between the rotating tank 14 and the water tank 13 through the small holes 14a.
- a drain port (not shown) is formed at the bottom of the water tank 13.
- a drainage mechanism (not shown) is connected to the drainage port of the water tank 13.
- the drainage mechanism includes a drainage valve and the like in the middle of a drainage path extending from the drainage port of the water tank 13 to the outside of the machine.
- the motor 16 is connected to the rotating tub 14 and the pulsator 15 via a clutch mechanism (not shown).
- the clutch mechanism selectively transmits the rotation of the motor 16 to the rotary tank 14 and the pulsator 15.
- the motor 16 and the clutch mechanism transmit the driving force of the motor 16 to the pulsator 15 in a state where the rotation of the rotating tub 14 is stopped during the washing process of washing the laundry in the rotating tub 14 and the rinsing process of the laundry.
- the pulsator 15 is directly rotated in the forward direction and the reverse direction at a low speed.
- the motor 16 and the clutch mechanism transmit the driving force of the motor 16 to the rotating tub 14 during the dehydration process for dehydrating the laundry in the rotating tub 14 so that the rotating tub 14 and the pulsator 15 are unidirectional. Drive at high speed.
- the water supply mechanism 17 is provided above the outer box 11 and inside the top cover 12.
- the water supply mechanism 17 includes a water injection case 19 in the middle of the water supply path 18.
- the water injection case 19 has a rectangular container shape, for example, and is disposed above the water tank 13.
- a washing treatment agent case (not shown) is accommodated in the water injection case 19 so that it can be taken in and out.
- the laundry treatment agent case is provided with a liquid detergent container for storing liquid detergent, a powder detergent container for storing powder detergent, a softener container for storing softener, and the like.
- a water inlet 19 a is provided at the bottom of the water injection case 19.
- the water injection port 19a communicates the internal space of the water injection case 19 with the outside.
- the water that has flowed into the water injection case 19 dissolves various laundry treatment agents via the laundry treatment agent case, and is poured into the water tank 13 from the water injection port 19a.
- the water injection port 19a is provided in the upper part of the water tank 13 and the rotary tank 14, and is provided at a position that can be visually recognized by the user when the user uses the washing machine 10.
- the water injection port 19a may be configured separately from the water injection case 19.
- a piping member such as a hose may be interposed between the water injection case 19 and the water injection port 19a.
- the proximal end portion of the water supply path 18 is connected to a water source (not shown) such as a water supply existing outside the outer box 11.
- a water source such as a water supply existing outside the outer box 11.
- the front end portion of the water supply path 18 is branched into a plurality of, in this case, a normal water supply path 18A and a fine bubble water supply path 18B.
- the tip of the normal water supply passage 18A and the tip of the fine bubble water supply passage 18B are connected to the water injection case 19, respectively.
- the normal water supply passage 18A includes a water supply valve 18A1.
- the normal water supply path 18A does not include the micro-bubble water generator 20 described later.
- the normal water supply path 18A supplies water supplied from a water source (not shown) as it is into the water injection case 19 as normal water that does not contain fine bubbles. That is, the normal water supply path 18 ⁇ / b> A can be defined as a general water supply path provided in the washing machine for supplying washing water into the water tank 13.
- the water supply path 18B for fine bubble water includes a water supply valve 18B1 and a fine bubble water generator 20.
- the fine bubble water generator 20 is an example of a fine bubble water generator that generates fine bubble water containing fine bubbles.
- the fine bubble water generator 20 includes a flow path having a throttle part and a protrusion part. The water flowing through this flow path is squeezed when passing through the throttle portion, and the flow velocity and pressure gradually increase, and collides with the protrusion in a state where the flow velocity and pressure are high. And if the water which became high flow velocity and high pressure collides with a projection part and passes the said projection part, the pressure of the water will fall rapidly.
- the fine bubbles generated in this way are called microbubbles, nanobubbles, ultrafine bubbles and the like.
- the fine bubbles are generally classified as follows according to the particle diameter of the bubbles.
- bubbles having a particle size of about several ⁇ m to 50 ⁇ m that is, micro-order bubbles are referred to as microbubbles or fine bubbles.
- bubbles having a particle size of several hundred nm to several tens of nm or less, that is, nano-order bubbles are called nanobubbles or ultrafine bubbles.
- the bubble particle size When the bubble particle size is several hundred nm to several tens of nm or less, it becomes smaller than the wavelength of light and cannot be visually recognized, and the liquid becomes transparent.
- the nano-order fine bubbles have characteristics such as a large total interface area, a low levitation speed, and a large internal pressure, as compared with bubbles of the micro-order or higher.
- bubbles having a particle size of the micro order rapidly rise in the liquid due to the buoyancy, and rupture and disappear on the liquid surface. Therefore, the residence time in the liquid is relatively short.
- microbubbles having a particle size of nano-order have a long residence time in a liquid because of their small buoyancy.
- the fine bubble water generated by the fine bubble water generator 20 has a function of improving the cleaning performance by the fine bubbles.
- the water supply path for fine bubble water 18B causes the fine bubble water generator 20 to generate fine bubble water by adding fine bubbles to water supplied from a water source (not shown).
- the fine bubble water supply path 18 ⁇ / b> B supplies the generated fine bubble water into the water injection case 19. That is, the water supply path 18B for fine bubble water can be defined as a water supply path for supplying fine bubble water provided separately from a general water supply path in order to supply fine bubble water into the water tank 13.
- the control device 30 controls the overall operation of the washing machine 10 by executing a control program.
- the control apparatus 30 implement
- the water supply control process part 31 may be comprised with a hardware, and may be comprised with the combination of software and hardware.
- the water supply control processing unit 31 is an example of a water supply control unit, and controls the supply of normal water into the water tank 13 by controlling the operation of the water supply valve 18A1, and also controls the operation of the water supply valve 18B1.
- the supply of fine bubble water into the water tank 13 is controlled.
- the water supply control processing unit 31 appropriately sets the time for supplying normal water into the water tank 13 and the time for supplying fine bubble water into the water tank 13 during the water supply operation in the washing process or the rinse process in various operation courses. By adjusting, the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 can be changed.
- the water supply control processing unit 31 may be configured to supply normal water into the water tank 13 first and then supply fine bubble water into the water tank 13 during the water supply operation. 13 may be configured such that fine bubble water is supplied into the water tank 13 and then normal water is supplied into the water tank 13, or normal water and fine bubble water may be supplied into the water tank 13 at the same time. Good.
- the water supply control processing unit 31 supplies fine bubble water into the water tank 13 in the initial stage during the water supply operation of the washing process or the rinsing process in various operation courses. Then, it is comprised so that control which supplies normal water in the water tank 13 is executable. Further, as illustrated in FIG. 4, the water supply control processing unit 31 supplies normal water into the water tank 13 in the first half of the initial stage during the water supply operation in the washing process or the rinse process in various operation courses. In the latter half, control for supplying fine bubble water into the water tank 13 is configured to be executable.
- the control example shown in FIG. 3 and the control example shown in FIG. 4 may be selected based on, for example, a selection operation by a user, or may be automatically performed by the control device 30 based on a control program. You may comprise.
- control device 30 is configured to be capable of executing a plurality of types of operation courses, and the water supply control processing unit 31 is adapted to each of the operation courses, and the microbubble water with respect to the total water supply amount supplied into the water tank 13
- the control for changing the supply amount in other words, the control for changing the concentration of fine bubbles contained in the water supplied into the water tank 13 is configured.
- concentration of the fine bubble supplied in the water tank 13 is calculated
- concentration of the microbubble supplied in the water tank 13 changes the supply ratio of the water other than the microbubble water supplied in the water tank 13 and the microbubble water supplied in the water tank 13, for example, normal water. Can be adjusted.
- concentration of the fine bubble supplied in the water tank 13, in other words, generation amount can be changed also by adjusting the water pressure of the water which flows through the water supply path 18B for fine bubble water.
- the water pressure of the water flowing through the fine bubble water supply path 18B is controlled, for example, by adjusting the opening of the water supply valve 18B1, the water pressure of the external water source itself, the flow path diameter of the fine bubble water supply path 18B, and the like. be able to.
- the control device 30 is configured to be capable of executing at least a standard course, a multi-supply short course, a small supply long course, and a high cleaning course.
- the water supply control processing unit 31 sets the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a standard level, for example, 50%, and the water tank 13.
- the supply time for supplying the fine bubble water is set to a standard level, for example, 7 minutes.
- the water supply control processing unit 31 sets the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a multi-level higher than the standard level described above.
- the supply time for supplying the fine bubble water into the water tank 13 is set to a short level shorter than the standard level. That is, simply increasing the amount of fine bubble water supplied into the water tank 13 increases the supply time.
- the flow velocity of water also falls by the flow-path resistance in the throttle part of the fine bubble water generator 20, when the supply amount of fine bubble water is increased, the supply time tends to be long.
- the amount of fine bubble water supplied into the water tank 13 is increased, and the stirring time of the pulsator 15 at the time of water supply is set shorter than the standard so that the overall requirement is reached.
- the course is shortened.
- the water supply control processing unit 31 sets the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a small level lower than the above-described standard level.
- the supply time for supplying the fine bubble water into the water tank 13 is set to a long level longer than the standard level. By reducing the supply amount of the fine bubble water supplied into the water tank 13, the supply time can be shortened. Therefore, in this small supply long time course, the stirring time of the pulsator 15 at the time of water supply can be set longer than the standard according to reducing the supply amount of the fine bubble water supplied in the water tank 13.
- the water supply control processing unit 31 is configured as high-concentration fine bubble water in which the concentration of fine bubble water contained in the fine bubble water is higher than the concentration of fine bubble water in the standard course. Supply into the water tank 13. Since the concentration of fine bubble water in the standard course is 50 percent, for example, in this high cleaning course, the water supply control processing unit 31 is at least a high concentration higher than the concentration in the standard course, for example, a high level of 100 percent. Concentrated fine bubble water is generated and supplied into the water tank 13. That is, the water supply control processing unit 31 executes water supply into the water tank 13 not using the normal water supply path 18A but using the fine bubble water supply path 18B.
- the supply time of the fine bubble water in this high washing course can be set suitably, for example, may be longer than the supply time in a standard course, may be short, and may be the same.
- the control device 30 supplies the total amount of water supplied into the water tank 13 according to each driving course.
- the supply amount of fine bubble water is changed. Thereby, the supply amount of fine bubble water can be optimized in each operation course, and the function of fine bubble water can be exhibited effectively.
- the control device 30 determines the concentration of fine bubbles supplied into the water tank 13 according to the operation course, in other words, fine bubble water supplied into the water tank 13 and water other than the fine bubble water, The supply ratio of normal water is changed.
- the factor that has the most influence on the effect of improving the cleaning performance by the fine bubble water is the “concentration” of the fine bubbles contained in the water supplied into the water tank 13. Therefore, by paying attention to the “concentration” of the fine bubbles and appropriately changing the concentration according to the operation course, it is possible to exhibit the cleaning performance suitable for each operation course.
- control device 30 increases the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 more than a predetermined amount, and the supply time for supplying the fine bubble water into the water tank 13 is shorter than the predetermined time.
- a multi-supply short-term course can be executed. According to this multi-supply short time course, a large amount of fine bubble water can be supplied into the water tank 13 in a short time, and the time required for supplying the fine bubble water can be shortened.
- control device 30 reduces the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 below a predetermined amount, and the supply time for supplying the fine bubble water into the water tank 13 is longer than the predetermined time. It is possible to carry out a small supply long time course. According to this small supply long time course, although the time required for supplying the fine bubble water becomes long, the fine bubble water can be gradually supplied into the aquarium 13, and the fine bubble water is brought into contact with the laundry treatment agent carefully. Can be supplied.
- control device 30 can execute a high cleaning course in which high-concentration fine bubble water in which the concentration of fine bubble water contained in the fine bubble water is higher than a predetermined concentration is supplied into the water tank 13. According to this high cleaning course, the laundry treatment agent can be dissolved and supplied into the water tank 13 with high-concentration fine bubble water. Therefore, the function of fine bubble water can be exhibited more effectively, and the cleaning performance can be further improved.
- the water supply control processing unit 31 sets the concentration of the fine bubble water supplied to the standard course to 100 percent, and the concentration of the fine bubble water in the other operation courses to a concentration lower than 100 percent, for example, 70 percent, 50 percent. You may set it.
- the water supply control processing unit 31 may set the concentration of the fine bubble water supplied to the short course to a concentration lower than the concentration of the fine bubble water in the other operation course. That is, the time required for the water supply operation can be further shortened by shortening the supply time of the fine bubble water and reducing the concentration of the supplied fine bubble water.
- a sufficient washing effect can be expected even if the supply amount of fine bubble water is reduced compared to washing laundry using a powder detergent. Therefore, in the case of using a liquid detergent, it is possible to exhibit a sufficient cleaning effect while shortening the water supply operation by shortening the supply time of the fine bubble water and reducing the concentration of the supplied fine bubble water. it can.
- the water supply control processing unit 31 can appropriately set the supply amount and supply time of the fine bubble water in each operation course. That is, for example, the supply amount of fine bubble water in the multi-supply short-time course can be set to the standard level, and the supply amount of fine bubble water in the other operation courses can be greater than, less than, or the same as the standard level. In addition, the supply amount of fine bubble water in the low supply long-time course can be set to the standard level, and the supply amount of fine bubble water in the other operation courses can be larger, less than or equal to the standard level.
- the supply time of the fine bubble water in the multi-supply short time course can be set to the standard level, and the supply time of the fine bubble water in the other operation courses can be made longer, shorter or the same as the standard level.
- the supply time of the fine bubble water in the low supply long time course can be set to the standard level, and the supply time of the fine bubble water in the other operation courses can be made longer, shorter or the same as the standard level.
- the water supply control processing unit 31 changes the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 according to the operation process, not the operation course.
- the standard course includes a washing process, a shower rinsing process, and a rinsing process.
- the washing process is a process in which water is supplied into the water tank 13 up to a predetermined water level for the washing process and the pulsator 15 is rotated to stir and wash the laundry in the rotating tank 14.
- the shower rinsing process is a process of rinsing the laundry in the rotating tub 14 while circulating the water in the water tub 13 through a circulation path (not shown) and returning the water from the upper part of the water tub 13 to the rotating tub 14 in a shower shape.
- the rinsing process is a process of supplying water to the water tank 13 up to a predetermined water level for the rinsing process and rotating the pulsator 15 to agitate the laundry in the rotating tub 14 for rinsing.
- the water level in the water tank 13 in the shower rinsing process can be set at a lower water level than the water level in the water tank 13 in the rinsing process.
- the water supply control processing unit 31 sets the supply amount of fine bubble water to the standard level with respect to the total water supply amount supplied into the water tank 13.
- the water supply control processing unit 31 sets the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a lower level than the standard level. Therefore, in the rinsing process, the water supply control processing unit 31 sets the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a multilevel higher than the standard level.
- the control device 30 changes the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 according to the operation stroke. Therefore, the supply amount of the fine bubble water can be optimized in each operation stroke, and the function of the fine bubble water can be effectively exhibited.
- the control example illustrated in FIG. 6 is merely an example, and the water supply control processing unit 31 can appropriately change and set the supply amount of fine bubble water in each operation process. That is, for example, the supply amount of the fine bubble water in the shower rinsing process can be set to the standard level, and the supply amount of the fine bubble water in the other operation processes can be made larger, smaller or the same as the standard level. In addition, the supply amount of the fine bubble water in the rinsing process can be set to the standard level, and the supply amount of the fine bubble water in the other operation processes can be made larger, smaller or the same as the standard level. Moreover, the water supply control processing part 31 can also change and set the supply time of the fine bubble water in each driving
- the control device 30 further realizes the temperature detection processing unit 32 virtually by software by executing a control program.
- the temperature detection processing unit 32 may be configured by hardware, or may be configured by a combination of software and hardware.
- the temperature detection processing unit 32 is an example of a temperature detection unit. In this case, the temperature detection processing unit 32 is configured to detect the temperature of water in the water tank 13. That is, a temperature detection sensor (not shown) is provided in the water tank 13, and the temperature detection processing unit 32 detects the temperature of the water in the water tank 13 through this temperature detection sensor.
- the water supply control processing part 31 adjusts the supply amount of the fine bubble water with respect to the total water supply amount supplied in the water tank 13 according to the temperature detected by the temperature detection processing part 32. That is, in the control example illustrated in FIG. 8, the water supply control processing unit 31 increases the supply amount of fine bubble water relative to the total water supply amount supplied into the water tank 13 as the temperature detected by the temperature detection processing unit 32 is lower. To do. In the control example illustrated in FIG. 9, the water supply control processing unit 31 decreases the supply amount of fine bubble water relative to the total water supply amount supplied into the water tank 13 as the temperature detected by the temperature detection processing unit 32 is lower. To do.
- the control device 30 adjusts the supply amount of fine bubble water relative to the total water supply amount supplied into the water tank 13 according to the temperature of the water in the water tank 13 detected by the temperature detection processing unit 32. To do. Thereby, according to the temperature of the water in the water tank 13, the supply amount of fine bubble water can be optimized, and the function of fine bubble water can be exhibited effectively.
- the cleaning performance is greatly influenced by the feed water temperature, but even if the feed water temperature is relatively low, the effect of improving the cleaning performance by about 10 to 20% due to the presence of fine bubble water is recognized. . Therefore, even if the water supply temperature is relatively low, at least for oily and dirt such as sebum dirt, cleaning performance equivalent to that when the water supply temperature is high can be expected.
- the washing machine 10 may include a temperature detection sensor on the outer surface of the outer box 11, and the temperature detection processing unit 32 may be configured to detect the temperature of the outside air of the washing machine 10 via this temperature detection sensor.
- the water supply control processing unit 31 adjusts the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 according to the temperature of the outside air detected by the temperature detection processing unit 32. According to this configuration, the supply amount of fine bubble water can be optimized according to the temperature of the outside air, and the function of fine bubble water can be effectively exhibited.
- the temperature detection processing unit 32 is configured to be able to detect both the temperature of the water in the water tub 13 and the temperature of the outside air of the washing machine 10, and the control device 30 is, for example, an average value of these two detection temperatures, a maximum It is good also as a structure which calculates a value, minimum value, etc., and adjusts the supply amount of fine bubble water based on the calculated value.
- the control apparatus 30 selects either one of the temperature of the water in the water tank 13, and the temperature of the external air of the washing machine 10, and adjusts the supply amount of fine bubble water based on the selected detection temperature It is good.
- the supply amount of the fine bubble water can be set to an optimum supply amount according to the temperature, and the function of the fine bubble water can be effectively exhibited.
- the control apparatus 30 is further comprised so that a high temperature water course can be performed.
- the high-temperature water course is an operation course in which water having a predetermined temperature, for example, a temperature higher than 20 ° C., that is, hot water is supplied into the water tank 13 and a washing process or a rinsing process is performed.
- hot water is configured such that, for example, the washing machine 10 is provided with a bath water pump (not shown) so that bath water can be supplied, or the washing machine 10 is provided with a hot water heater (not shown) so that hot water can be supplied. Can be obtained.
- the washing machine 10 and 11 show examples of control when the washing machine 10 is configured to be able to execute the high-temperature water course. That is, according to the control example illustrated in FIG. 10, when the high temperature water course is executed, the water supply control processing unit 31 supplies the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13 in the standard course. More than the amount. Further, according to the control example illustrated in FIG. 11, when executing the high temperature water course, the water supply control processing unit 31 supplies the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13 in the standard course. Less than the amount.
- the control device 30 when executing the high temperature water course, adjusts the supply amount of fine bubble water relative to the total water supply amount supplied into the water tank 13. Thereby, the supply amount of fine bubble water can be made into the supply amount suitable for the high temperature water which exists in the water tank 13, and the function of fine bubble water can be exhibited effectively.
- the control device 30 is configured to be able to adjust the strength of the water flow generated in the water in the water tank 13 in multiple stages, for example, three levels of a strong level, a standard level, and a weak level.
- the strength of the water flow generated in the water in the water tank 13 can be adjusted, for example, by controlling the rotation speed of the pulsator 15 and the rotation amount per unit time.
- the adjustment of the water flow may be performed based on the adjustment operation by the user, or the control device 30 may be configured to automatically perform based on the control program.
- FIGS. 12 and 13 show control examples when the washing machine 10 is configured to be able to adjust the strength of the water flow. That is, according to the control example illustrated in FIG. 12, when the strength of the water flow generated in the water in the water tank 13 is adjusted to a strong level, the water supply control processing unit 31 performs the entire supply to the water tank 13. Increase the supply amount of fine bubble water to the supply amount from the standard level. Further, when the strength of the water flow generated in the water in the water tank 13 is adjusted to a weak level, the water supply control processing unit 31 sets the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13 as a standard. Less than level.
- the water supply control processing unit 31 is configured to supply all the water supplied into the water tank 13 when the strength of the water flow generated in the water in the water tank 13 is adjusted to a high level. Reduce the amount of microbubble water supplied to the water supply below the standard level. Further, when the strength of the water flow generated in the water in the water tank 13 is adjusted to a weak level, the water supply control processing unit 31 sets the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13 as a standard. More than level.
- the control device 30 adjusts the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 when the strength of the water flow generated in the water in the water tank 13 is adjusted. To do. Thereby, the supply amount of fine bubble water can be made into the supply amount suitable for the water flow which generate
- the control device 30 is configured to be able to adjust the operation time of each operation course in multiple stages, for example, three levels of a long level, a standard level, and a short level.
- the adjustment of the operation time may be performed based on an adjustment operation by the user, or the control device 30 may be configured to automatically perform based on a control program.
- the washing machine 10 is configured to be able to adjust the driving time of the driving course. That is, according to the control example illustrated in FIG. 14, when the operation time is adjusted to a long level, the water supply control processing unit 31 sets the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13. More than the standard level. Further, when the operation time is adjusted to a short level, the water supply control processing unit 31 reduces the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 from the standard level. By reducing the amount of fine bubble water supplied and shortening the water supply time, the entire operation time can be shortened.
- the water supply control processing unit 31 sets the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13. Less than the standard level. Further, when the operation time is adjusted to a short level, the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 is increased from the standard level. By increasing the supply amount of the fine bubble water, for example, oily and dirt such as sebum dirt can be quickly washed out, so that the time required for the washing operation and thus the entire operation time can be shortened.
- the control device 30 supplies fine bubble water to the total amount of water supplied into the water tank 13 according to the adjusted operation time. Adjust the amount. Thereby, the supply amount of fine bubble water can be made into the supply amount suitable for the operation time of the operation course after adjustment, and the function of fine bubble water can be exhibited effectively.
- the washing machine 10 is provided with a plurality of, in this case, five supply amount setting buttons 70a to 70e, for example, on the operation panel.
- the supply amount setting buttons 70a to 70e are examples of supply amount setting means, and are buttons operated by the user when setting the supply amount of fine bubble water with respect to the total supply amount of water supplied into the water tank 13.
- the supply amount setting button 70a sets the supply amount of fine bubble water to the standard level with respect to the total water supply amount supplied into the water tank 13.
- the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B.
- the concentration of the fine bubble water to be adjusted is adjusted to 50%, for example.
- the supply amount setting button 70b is used to set the supply amount of fine bubble water to multiple levels with respect to the total water supply amount supplied into the water tank 13.
- the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B.
- the concentration of the fine bubble water is adjusted to 100%. That is, the control device 30 supplies only fine bubble water into the water tank 13 by fully closing the normal water supply passage 18A and fully opening the fine bubble water supply passage 18B.
- the supply amount setting button 70c sets the supply amount of fine bubble water to a small level with respect to the total water supply amount supplied into the water tank 13.
- the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B.
- the concentration of the fine bubble water is adjusted to 0 percent, for example. That is, the control device 30 supplies only normal water into the water tank 13 by fully opening the normal water supply path 18A and fully closing the fine bubble water supply path 18B.
- the supply amount setting button 70d is used to set the supply amount of fine bubble water to a slightly multi-level with respect to the total water supply amount supplied into the water tank 13.
- the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B. Adjust the concentration of microbubble water to be between 50 and 100 percent, for example 70 percent.
- the supply amount setting button 70e is used to set the supply amount of fine bubble water to a slightly small level with respect to the total water supply amount supplied into the water tank 13.
- the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B. Adjust the concentration of microbubble water to be between 0 and 50 percent, for example 20 percent.
- the user can select the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 by operating any of the supply amount setting buttons 70a to 70e.
- feed_rate of fine bubble water can be made into the supply amount according to a user's hope, and a laundry can be wash
- the supply amount setting means may accept a numerical value arbitrarily input by the user and linearly adjust the supply amount of the fine bubble water relative to the total water supply amount supplied into the water tank 13 according to the numerical value. .
- the control device 30 further virtually realizes the operation time adjustment processing unit 33 by software by executing a control program.
- the operation time adjustment processing unit 33 may be configured by hardware, or may be configured by a combination of software and hardware.
- the operation time adjustment processing unit 33 is an example of an operation time adjustment unit, and automatically adjusts the operation time of the operation course according to the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13. In this case, for example, when the supply amount of fine bubble water is set based on the operation of the supply amount setting buttons 70a to 70e described above, the operation time adjustment processing unit 33 operates according to the set supply amount. It is configured to automatically adjust the driving time of the course.
- FIG. 18 and FIG. 19 show a control example in the case where the operation time of the operation course is automatically adjusted according to the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13. That is, according to the control example illustrated in FIG. 18, the water supply control processing unit 31 has a large supply amount of fine bubble water supplied into the water tank 13 set based on the operation of the supply amount setting buttons 70a to 70e. The adjustment control for extending the driving time of the driving course is automatically executed. Further, according to the control example illustrated in FIG. 19, the water supply control processing unit 31 has a large supply amount of fine bubble water supplied into the water tank 13 set based on the operation of the supply amount setting buttons 70a to 70e. The adjustment control for shortening the driving time of the driving course is automatically executed.
- the control device 30 supplies the water into the water tank 13 according to the supply amount of the fine bubble water supplied into the water tank 13 set based on the operation of the supply amount setting buttons 70a to 70e. Control for adjusting the supply amount of fine bubble water with respect to the total water supply amount is automatically executed.
- the control amount setting buttons 70a to 70e the operation time corresponding to the supply amount of the fine bubble water selected by the operation is automatically set. Therefore, the function of the fine bubble water can be effectively exhibited, and the operation for adjusting the operation time by the user can be eliminated, and the user-friendly washing machine 10 can be provided.
- the present embodiment is not limited to the above-described embodiments, and may be expanded or changed as follows, for example. For example, you may implement combining the content of several embodiment mentioned above suitably.
- the present embodiment can also be applied to a so-called drum-type washing machine of a horizontal axis in which the rotation axis of the rotating tub is inclined downward or horizontally.
- the water supply control means for controlling the supply of fine bubble water into the water tank changes the supply amount of the fine bubble water supplied into the water tank according to the operation course. According to this configuration, in the washing machine configured to be able to execute a plurality of types of driving courses having different driving contents, the function of fine bubble water can be effectively exhibited in each driving course.
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Abstract
A washing machine (10) according to the present embodiment is provided with a water tank (13), a microscopic-bubble water generation unit that generates microscopic-bubble water containing microscopic bubbles, and a water supply control means that controls the supply of the microscopic-bubble water into the water tank (13). The water supply control means varies the supply amount of the microscopic-bubble water supplied into the water tank (13) in accordance with the operation course.
Description
本発明の実施形態は、洗濯機に関する。
The embodiment of the present invention relates to a washing machine.
近年、マイクロバブルやナノバブルと称される直径が数十nm~数μmサイズの微細気泡が注目されてきており、多数の微細気泡を含んだ微細気泡水を洗濯機に用いることが考えられている。即ち、微細気泡水に洗剤を溶解させて洗濯物を洗うことにより、洗浄性能の向上を図ることができる。
In recent years, microbubbles called microbubbles and nanobubbles with a diameter of several tens of nanometers to several μm have attracted attention, and it is considered to use microbubble water containing a large number of microbubbles in a washing machine. . That is, the washing performance can be improved by dissolving the detergent in fine bubble water and washing the laundry.
一般的に、洗濯機は、例えば、標準コース、スピードコース、念入りコースなど、その運転内容が異なる複数種類の運転コースを実行可能に構成される。そのため、単に微細気泡水を洗濯機に適用しただけでは、それぞれの運転コースにおいて、微細気泡水の供給量に過不足が生じる場合があり、このような場合、微細気泡水の機能を効果的に発揮させることができない。
Generally, the washing machine is configured to be capable of executing a plurality of types of driving courses having different driving contents such as a standard course, a speed course, and a careful course. Therefore, simply applying fine bubble water to the washing machine may cause excess or deficiency in the supply amount of fine bubble water in each operation course. In such a case, the function of fine bubble water is effectively improved. It cannot be demonstrated.
そこで、運転内容が異なる複数種類の運転コースを実行可能に構成される洗濯機に関し、それぞれの運転コースにおいて微細気泡水の機能を効果的に発揮させることができる洗濯機を提供する。
Therefore, regarding a washing machine configured to be able to execute a plurality of types of driving courses having different driving contents, a washing machine capable of effectively exerting the function of fine bubble water in each driving course is provided.
本実施形態に係る洗濯機は、水槽、微細気泡水生成部、給水制御手段を備える。微細気泡水生成部は、微細気泡を含む微細気泡水を生成する。給水制御手段は、前記水槽内への前記微細気泡水の供給を制御する。そして、前記給水制御手段は、運転コースに応じて前記水槽内に供給する前記微細気泡水の供給量を変化させる。
The washing machine according to the present embodiment includes a water tank, a fine bubble water generation unit, and a water supply control means. The fine bubble water generation unit generates fine bubble water containing fine bubbles. The water supply control means controls the supply of the fine bubble water into the water tank. And the said water supply control means changes the supply amount of the said fine bubble water supplied in the said water tank according to an operation course.
以下、洗濯機に係る複数の実施形態について図面を参照しながら説明する。なお、各実施形態において、実質的に同一の要素には同一の符号を付して説明を省略する。
(第1実施形態)
図1に例示する洗濯機10は、回転槽の回転軸が鉛直方向を向いた、いわゆる縦軸型の洗濯機であり、外箱11、トップカバー12、水槽13、回転槽14、パルセータ15、モータ16、給水機構17などを備えている。外箱11は、洗濯機10の外郭を構成するものであり、例えば鋼板によって全体として矩形箱状に構成されている。トップカバー12は、例えば合成樹脂製であって、外箱11の上部に設けられている。 Hereinafter, a plurality of embodiments according to a washing machine will be described with reference to the drawings. In each embodiment, substantially the same elements are denoted by the same reference numerals, and the description thereof is omitted.
(First embodiment)
Thewashing machine 10 illustrated in FIG. 1 is a so-called vertical type washing machine in which the rotation axis of the rotation tub is oriented in the vertical direction, and includes an outer box 11, a top cover 12, a water tub 13, a rotation tub 14, a pulsator 15, A motor 16 and a water supply mechanism 17 are provided. The outer box 11 constitutes an outer shell of the washing machine 10 and is configured as a rectangular box as a whole by, for example, a steel plate. The top cover 12 is made of, for example, a synthetic resin and is provided on the upper portion of the outer box 11.
(第1実施形態)
図1に例示する洗濯機10は、回転槽の回転軸が鉛直方向を向いた、いわゆる縦軸型の洗濯機であり、外箱11、トップカバー12、水槽13、回転槽14、パルセータ15、モータ16、給水機構17などを備えている。外箱11は、洗濯機10の外郭を構成するものであり、例えば鋼板によって全体として矩形箱状に構成されている。トップカバー12は、例えば合成樹脂製であって、外箱11の上部に設けられている。 Hereinafter, a plurality of embodiments according to a washing machine will be described with reference to the drawings. In each embodiment, substantially the same elements are denoted by the same reference numerals, and the description thereof is omitted.
(First embodiment)
The
水槽13および回転槽14は、洗浄対象となる衣類などの洗濯物を収容する洗濯槽および脱水槽として機能する。水槽13は、外箱11内に設けられている。水槽13および回転槽14は、上面が開口した有底円筒状の容器状に構成されている。回転槽14は、複数の小孔14aを有しており、この小孔14aを通して、回転槽14と水槽13との間で水が行き来する。また、水槽13の底部には、図示しない排水口が形成されている。水槽13の排水口には、図示しない排水機構が接続されている。排水機構は、水槽13の排水口から機外に延びる排水経路の途中に排水弁などを備えて構成されている。
The water tank 13 and the rotating tank 14 function as a washing tub and a dehydrating tub for storing laundry such as clothes to be cleaned. The water tank 13 is provided in the outer box 11. The water tank 13 and the rotating tank 14 are configured in a cylindrical shape with a bottom having an upper surface opened. The rotating tank 14 has a plurality of small holes 14a, and water passes between the rotating tank 14 and the water tank 13 through the small holes 14a. Further, a drain port (not shown) is formed at the bottom of the water tank 13. A drainage mechanism (not shown) is connected to the drainage port of the water tank 13. The drainage mechanism includes a drainage valve and the like in the middle of a drainage path extending from the drainage port of the water tank 13 to the outside of the machine.
モータ16は、図示しないクラッチ機構を介して回転槽14およびパルセータ15に接続されている。クラッチ機構は、モータ16の回転を回転槽14およびパルセータ15に選択的に伝達する。モータ16およびクラッチ機構は、回転槽14内の洗濯物を洗う洗い行程時および洗濯物をすすぐすすぎ行程時には、回転槽14の回転を停止させた状態でモータ16の駆動力をパルセータ15に伝達して、パルセータ15を低速で直接的に正転方向および逆転方向に回転させる。また、モータ16およびクラッチ機構は、回転槽14内の洗濯物を脱水する脱水行程時などには、モータ16の駆動力を回転槽14に伝達して、回転槽14およびパルセータ15を一方向に高速で回転駆動させる。
The motor 16 is connected to the rotating tub 14 and the pulsator 15 via a clutch mechanism (not shown). The clutch mechanism selectively transmits the rotation of the motor 16 to the rotary tank 14 and the pulsator 15. The motor 16 and the clutch mechanism transmit the driving force of the motor 16 to the pulsator 15 in a state where the rotation of the rotating tub 14 is stopped during the washing process of washing the laundry in the rotating tub 14 and the rinsing process of the laundry. Thus, the pulsator 15 is directly rotated in the forward direction and the reverse direction at a low speed. Further, the motor 16 and the clutch mechanism transmit the driving force of the motor 16 to the rotating tub 14 during the dehydration process for dehydrating the laundry in the rotating tub 14 so that the rotating tub 14 and the pulsator 15 are unidirectional. Drive at high speed.
給水機構17は、外箱11の上部にあってトップカバー12の内部に設けられている。給水機構17は、給水経路18の途中に注水ケース19などを備えて構成されている。注水ケース19は、例えば矩形の容器状をなしており、水槽13の上方に配置されている。注水ケース19内には、図示しない洗濯処理剤ケースが出し入れ可能に収容されている。洗濯処理剤ケースには、液体洗剤が収容される液体洗剤収容部、粉末洗剤が収容される粉末洗剤収容部、柔軟剤が収容される柔軟剤収容部などが設けられている。
The water supply mechanism 17 is provided above the outer box 11 and inside the top cover 12. The water supply mechanism 17 includes a water injection case 19 in the middle of the water supply path 18. The water injection case 19 has a rectangular container shape, for example, and is disposed above the water tank 13. A washing treatment agent case (not shown) is accommodated in the water injection case 19 so that it can be taken in and out. The laundry treatment agent case is provided with a liquid detergent container for storing liquid detergent, a powder detergent container for storing powder detergent, a softener container for storing softener, and the like.
注水ケース19の底部には、注水口19aが設けられている。注水口19aは、注水ケース19の内部空間と外部とを連通している。注水ケース19内に流入した水は、洗濯処理剤ケースを経由して各種の洗濯処理剤を溶解し、注水口19aから水槽13内へ注水される。注水口19aは、水槽13および回転槽14の上部にあって、ユーザが洗濯機10を使用する際にそのユーザから視認可能な位置に設けられている。なお、注水口19aは、注水ケース19と別体に構成されていてもよい。また、注水ケース19と注水口19aとの間に、ホースなどの配管部材を介在させてもよい。
A water inlet 19 a is provided at the bottom of the water injection case 19. The water injection port 19a communicates the internal space of the water injection case 19 with the outside. The water that has flowed into the water injection case 19 dissolves various laundry treatment agents via the laundry treatment agent case, and is poured into the water tank 13 from the water injection port 19a. The water injection port 19a is provided in the upper part of the water tank 13 and the rotary tank 14, and is provided at a position that can be visually recognized by the user when the user uses the washing machine 10. The water injection port 19a may be configured separately from the water injection case 19. A piping member such as a hose may be interposed between the water injection case 19 and the water injection port 19a.
給水経路18の基端部は、外箱11の外部に存在する例えば水道などの図示しない水源に接続される。一方、給水経路18の先端部は、複数、この場合、通常水用給水経路18Aおよび微細気泡水用給水経路18Bに分岐している。通常水用給水経路18Aの先端部および微細気泡水用給水経路18Bの先端部は、それぞれ注水ケース19に接続されている。
The proximal end portion of the water supply path 18 is connected to a water source (not shown) such as a water supply existing outside the outer box 11. On the other hand, the front end portion of the water supply path 18 is branched into a plurality of, in this case, a normal water supply path 18A and a fine bubble water supply path 18B. The tip of the normal water supply passage 18A and the tip of the fine bubble water supply passage 18B are connected to the water injection case 19, respectively.
通常水用給水経路18Aは、給水弁18A1を備えている。なお、通常水用給水経路18Aは、後述する微細気泡水生成器20を備えていない。通常水用給水経路18Aは、図示しない水源から供給される水を、そのまま、微細気泡を含まない通常水として注水ケース19内に供給する。即ち、通常水用給水経路18Aは、洗濯用の水を水槽13内に供給するために洗濯機に備えられる一般的な給水経路として定義することができる。
The normal water supply passage 18A includes a water supply valve 18A1. The normal water supply path 18A does not include the micro-bubble water generator 20 described later. The normal water supply path 18A supplies water supplied from a water source (not shown) as it is into the water injection case 19 as normal water that does not contain fine bubbles. That is, the normal water supply path 18 </ b> A can be defined as a general water supply path provided in the washing machine for supplying washing water into the water tank 13.
一方、微細気泡水用給水経路18Bは、給水弁18B1および微細気泡水生成器20を備えている。微細気泡水生成器20は、微細気泡を含む微細気泡水を生成する微細気泡水生成部の一例である。詳しい図示は省略するが、微細気泡水生成器20は、絞り部および突起部を有する流路を備えている。この流路を流れる水は、絞り部を通過する際に絞られて徐々に流速および圧力が増加し、高流速かつ高圧力となった状態で突起部に衝突する。そして、高流速かつ高圧力となった水が突起部に衝突して当該突起部を通過すると、その水の圧力が急激に低下する。この急激な圧力低下により生じるキャビテーション効果により、水の中に、直径が数十nm~数μmサイズ、例えば直径50μm以下の微細な気泡が、多数、例えば106個以上/ml、発生する。
On the other hand, the water supply path 18B for fine bubble water includes a water supply valve 18B1 and a fine bubble water generator 20. The fine bubble water generator 20 is an example of a fine bubble water generator that generates fine bubble water containing fine bubbles. Although detailed illustration is omitted, the fine bubble water generator 20 includes a flow path having a throttle part and a protrusion part. The water flowing through this flow path is squeezed when passing through the throttle portion, and the flow velocity and pressure gradually increase, and collides with the protrusion in a state where the flow velocity and pressure are high. And if the water which became high flow velocity and high pressure collides with a projection part and passes the said projection part, the pressure of the water will fall rapidly. Due to the cavitation effect caused by this rapid pressure drop, a large number of fine bubbles having a diameter of several tens nm to several μm, for example, a diameter of 50 μm or less, for example, 10 6 or more / ml are generated in water.
このように発生する微細な気泡は、マイクロバブル、ナノバブル、ウルトラファインバブルなどと称されている。ここで、一般に微細気泡は、その気泡の粒子径によって次のように分類されている。例えば、粒子径が数μmから50μm程度つまりマイクロオーダーの気泡は、マイクロバブルまたはファインバブルなどと称されている。これに対し、粒子径が数百nm~数十nm以下つまりナノオーダーの気泡は、ナノバブルまたはウルトラファインバブルなどと称されている。
The fine bubbles generated in this way are called microbubbles, nanobubbles, ultrafine bubbles and the like. Here, the fine bubbles are generally classified as follows according to the particle diameter of the bubbles. For example, bubbles having a particle size of about several μm to 50 μm, that is, micro-order bubbles are referred to as microbubbles or fine bubbles. On the other hand, bubbles having a particle size of several hundred nm to several tens of nm or less, that is, nano-order bubbles are called nanobubbles or ultrafine bubbles.
気泡の粒子径が数百nm~数十nm以下になると、光の波長よりも小さくなるため視認することができなくなり、液体は透明になる。そして、ナノオーダーの微細気泡は、マイクロオーダー以上の気泡に比べて、総界面面積が大きいこと、浮上速度が遅いこと、内部圧力が大きいこと等の特性を有している。例えば、粒子径がマイクロオーダーの気泡は、その浮力によって液体中を急速に上昇し、液体表面で破裂して消滅するため、液体中の滞在時間が比較的短い。一方、粒子径がナノオーダーの微細気泡は、浮力が小さいため液体中での滞在時間が長い。
When the bubble particle size is several hundred nm to several tens of nm or less, it becomes smaller than the wavelength of light and cannot be visually recognized, and the liquid becomes transparent. The nano-order fine bubbles have characteristics such as a large total interface area, a low levitation speed, and a large internal pressure, as compared with bubbles of the micro-order or higher. For example, bubbles having a particle size of the micro order rapidly rise in the liquid due to the buoyancy, and rupture and disappear on the liquid surface. Therefore, the residence time in the liquid is relatively short. On the other hand, microbubbles having a particle size of nano-order have a long residence time in a liquid because of their small buoyancy.
そして、このような微細な気泡を含む水は、界面活性作用に優れており、洗濯物の洗浄性能、特に、皮脂汚れをはじめとする油脂汚れに対する洗浄性能の向上に寄与する。即ち、微細気泡水生成器20により生成される微細気泡水は、微細な気泡による洗浄性能の向上機能を有する。
And such water containing fine bubbles is excellent in surface active action, and contributes to the improvement of washing performance of laundry, in particular, washing performance of oily dirt including sebum dirt. That is, the fine bubble water generated by the fine bubble water generator 20 has a function of improving the cleaning performance by the fine bubbles.
微細気泡水用給水経路18Bは、微細気泡水生成器20により、図示しない水源から供給される水に微細気泡を含ませて微細気泡水を生成する。そして、微細気泡水用給水経路18Bは、生成した微細気泡水を注水ケース19内に供給する。即ち、微細気泡水用給水経路18Bは、水槽13内に微細気泡水を供給するために、一般的な給水経路とは別に設けられた微細気泡水供給用の給水経路として定義することができる。
The water supply path for fine bubble water 18B causes the fine bubble water generator 20 to generate fine bubble water by adding fine bubbles to water supplied from a water source (not shown). The fine bubble water supply path 18 </ b> B supplies the generated fine bubble water into the water injection case 19. That is, the water supply path 18B for fine bubble water can be defined as a water supply path for supplying fine bubble water provided separately from a general water supply path in order to supply fine bubble water into the water tank 13.
図2に例示する制御装置30は、例えばマイクロコンピュータを主体として構成されており、例えば、外箱11の上部に設けられている図示しない操作パネルの裏面に設けられている。制御装置30は、制御プログラムを実行することにより、洗濯機10の動作全般を制御する。また、制御装置30は、制御プログラムを実行することにより、給水制御処理部31をソフトウェアにより仮想的に実現する。なお、給水制御処理部31は、ハードウェアにより構成してもよいし、ソフトウェアとハードウェアの組み合わせにより構成してもよい。
2 is composed mainly of a microcomputer, for example, and is provided, for example, on the back surface of an operation panel (not shown) provided in the upper portion of the outer box 11. The control device 30 controls the overall operation of the washing machine 10 by executing a control program. Moreover, the control apparatus 30 implement | achieves the water supply control process part 31 virtually by software by running a control program. In addition, the water supply control process part 31 may be comprised with a hardware, and may be comprised with the combination of software and hardware.
給水制御処理部31は、給水制御手段の一例であり、給水弁18A1の動作を制御することにより水槽13内への通常水の供給を制御し、また、給水弁18B1の動作を制御することにより水槽13内への微細気泡水の供給を制御する。給水制御処理部31は、各種の運転コースにおける洗い行程またはすすぎ行程の給水動作時において、水槽13内に通常水を供給する時間と、水槽13内に微細気泡水を供給する時間と、を適宜調整することにより、水槽13内に供給する全給水量に対する微細気泡水の供給量を変化させることができる。また、給水制御処理部31は、給水動作時において、まず、水槽13内に通常水を供給し、その後、水槽13内に微細気泡水を供給するように構成してもよいし、まず、水槽13内に微細気泡水を供給し、その後、水槽13内に通常水を供給するように構成してもよいし、水槽13内に通常水と微細気泡水を同時に供給するように構成してもよい。
The water supply control processing unit 31 is an example of a water supply control unit, and controls the supply of normal water into the water tank 13 by controlling the operation of the water supply valve 18A1, and also controls the operation of the water supply valve 18B1. The supply of fine bubble water into the water tank 13 is controlled. The water supply control processing unit 31 appropriately sets the time for supplying normal water into the water tank 13 and the time for supplying fine bubble water into the water tank 13 during the water supply operation in the washing process or the rinse process in various operation courses. By adjusting, the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 can be changed. Further, the water supply control processing unit 31 may be configured to supply normal water into the water tank 13 first and then supply fine bubble water into the water tank 13 during the water supply operation. 13 may be configured such that fine bubble water is supplied into the water tank 13 and then normal water is supplied into the water tank 13, or normal water and fine bubble water may be supplied into the water tank 13 at the same time. Good.
図3に例示するように、給水制御処理部31は、各種の運転コースにおける洗い行程またはすすぎ行程の給水動作時において、初期段階では微細気泡水を水槽13内に供給し、中期段階および後期段階では通常水を水槽13内に供給する制御を実行可能に構成されている。さらに、図4に例示するように、給水制御処理部31は、各種の運転コースにおける洗い行程またはすすぎ行程の給水動作時において、初期段階の前半では通常水を水槽13内に供給し、初期段階の後半では微細気泡水を水槽13内に供給する制御を実行可能に構成されている。図3に示す制御例および図4に示す制御例の選択は、例えば、ユーザによる選択操作に基づいて行うように構成してもよいし、制御装置30が制御プログラムに基づいて自動的に行うように構成してもよい。
As illustrated in FIG. 3, the water supply control processing unit 31 supplies fine bubble water into the water tank 13 in the initial stage during the water supply operation of the washing process or the rinsing process in various operation courses. Then, it is comprised so that control which supplies normal water in the water tank 13 is executable. Further, as illustrated in FIG. 4, the water supply control processing unit 31 supplies normal water into the water tank 13 in the first half of the initial stage during the water supply operation in the washing process or the rinse process in various operation courses. In the latter half, control for supplying fine bubble water into the water tank 13 is configured to be executable. The control example shown in FIG. 3 and the control example shown in FIG. 4 may be selected based on, for example, a selection operation by a user, or may be automatically performed by the control device 30 based on a control program. You may comprise.
また、制御装置30は、複数種類の運転コースを実行可能に構成されており、給水制御処理部31は、それぞれの運転コースに応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を変化させる制御、換言すれば、水槽13内に供給する水に含まれる微細気泡の濃度を変化させる制御を実行可能に構成されている。なお、水槽13内に供給される微細気泡の濃度は、例えば、水槽13内に供給される微細気泡水の水量を、水槽13内に供給される通常水を含む全水量により除算することにより求められる。また、水槽13内に供給される微細気泡の濃度は、水槽13内に供給される微細気泡水と、水槽13内に供給される微細気泡水以外の水、例えば通常水の供給割合を変化させることにより調整することができる。また、水槽13内に供給される微細気泡の濃度、換言すれば、発生量は、微細気泡水用給水経路18Bを流れる水の水圧を調整することによっても変化させることができる。なお、微細気泡水用給水経路18Bを流れる水の水圧は、例えば、給水弁18B1の開度、外部の水源そのものの水圧、微細気泡水用給水経路18Bの流路径を調整することなどにより制御することができる。
In addition, the control device 30 is configured to be capable of executing a plurality of types of operation courses, and the water supply control processing unit 31 is adapted to each of the operation courses, and the microbubble water with respect to the total water supply amount supplied into the water tank 13 The control for changing the supply amount, in other words, the control for changing the concentration of fine bubbles contained in the water supplied into the water tank 13 is configured. In addition, the density | concentration of the fine bubble supplied in the water tank 13 is calculated | required by dividing the amount of fine bubble water supplied in the water tank 13 by the total amount of water containing the normal water supplied in the water tank 13, for example. It is done. Moreover, the density | concentration of the microbubble supplied in the water tank 13 changes the supply ratio of the water other than the microbubble water supplied in the water tank 13 and the microbubble water supplied in the water tank 13, for example, normal water. Can be adjusted. Moreover, the density | concentration of the fine bubble supplied in the water tank 13, in other words, generation amount can be changed also by adjusting the water pressure of the water which flows through the water supply path 18B for fine bubble water. The water pressure of the water flowing through the fine bubble water supply path 18B is controlled, for example, by adjusting the opening of the water supply valve 18B1, the water pressure of the external water source itself, the flow path diameter of the fine bubble water supply path 18B, and the like. be able to.
図5に例示するように、本実施形態では、制御装置30は、少なくとも、標準コース、多供給短時間コース、少供給長時間コース、高洗浄コースを実行可能に構成されている。
制御装置30により標準コースが実行される場合、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベル、例えば、50パーセントに設定するとともに、水槽13内に微細気泡水を供給する供給時間を標準レベル、例えば7分に設定する。 As illustrated in FIG. 5, in the present embodiment, thecontrol device 30 is configured to be capable of executing at least a standard course, a multi-supply short course, a small supply long course, and a high cleaning course.
When the standard course is executed by thecontrol device 30, the water supply control processing unit 31 sets the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a standard level, for example, 50%, and the water tank 13. The supply time for supplying the fine bubble water is set to a standard level, for example, 7 minutes.
制御装置30により標準コースが実行される場合、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベル、例えば、50パーセントに設定するとともに、水槽13内に微細気泡水を供給する供給時間を標準レベル、例えば7分に設定する。 As illustrated in FIG. 5, in the present embodiment, the
When the standard course is executed by the
制御装置30により多供給短時間コースが実行される場合、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を上述の標準レベルよりも多い多レベルに設定するとともに、水槽13内に微細気泡水を供給する供給時間を上述の標準レベルよりも短い短レベルに設定する。即ち、単純に、水槽13内に供給する微細気泡水の供給量を多くしただけでは、その供給時間が長くなってしまう。また、微細気泡水生成器20の絞り部における流路抵抗により水の流速も低下するため、微細気泡水の供給量を多くした場合、その供給時間が長くなりやすい。そこで、この多供給短時間コースでは、水槽13内に供給する微細気泡水の供給量を多くしつつも、給水時におけるパルセータ15の攪拌時間を標準よりも短く設定することにより、全体としての所要時間を短くしたコースとなっている。
When the multi-supply short-time course is executed by the control device 30, the water supply control processing unit 31 sets the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a multi-level higher than the standard level described above. In addition, the supply time for supplying the fine bubble water into the water tank 13 is set to a short level shorter than the standard level. That is, simply increasing the amount of fine bubble water supplied into the water tank 13 increases the supply time. Moreover, since the flow velocity of water also falls by the flow-path resistance in the throttle part of the fine bubble water generator 20, when the supply amount of fine bubble water is increased, the supply time tends to be long. Therefore, in this multi-supply short-time course, the amount of fine bubble water supplied into the water tank 13 is increased, and the stirring time of the pulsator 15 at the time of water supply is set shorter than the standard so that the overall requirement is reached. The course is shortened.
制御装置30により少供給長時間コースが実行される場合、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を上述の標準レベルよりも少ない少レベルに設定するとともに、水槽13内に微細気泡水を供給する供給時間を上述の標準レベルよりも長い長レベルに設定する。水槽13内に供給する微細気泡水の供給量を少なくすることにより、その供給時間を短くすることができる。そのため、この少供給長時間コースでは、水槽13内に供給する微細気泡水の供給量を少なくすることに応じて、給水時におけるパルセータ15の攪拌時間を標準よりも長く設定することができる。
When the small supply long time course is executed by the control device 30, the water supply control processing unit 31 sets the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a small level lower than the above-described standard level. In addition, the supply time for supplying the fine bubble water into the water tank 13 is set to a long level longer than the standard level. By reducing the supply amount of the fine bubble water supplied into the water tank 13, the supply time can be shortened. Therefore, in this small supply long time course, the stirring time of the pulsator 15 at the time of water supply can be set longer than the standard according to reducing the supply amount of the fine bubble water supplied in the water tank 13.
制御装置30により高洗浄コースが実行される場合、給水制御処理部31は、微細気泡水に含まれる微細気泡水の濃度を標準コースにおける微細気泡水の濃度よりも高くした高濃度微細気泡水として水槽13内に供給する。上述の標準コースにおける微細気泡水の濃度は、例えば、50パーセントであるから、この高洗浄コースにおいて、給水制御処理部31は、少なくとも標準コースにおける濃度よりも高い高濃度、例えば、100パーセントの高濃度微細気泡水を生成して水槽13内に供給する。即ち、給水制御処理部31は、水槽13内への給水を、通常水用給水経路18Aを用いず、全て微細気泡水用給水経路18Bを用いて実行する。なお、この高洗浄コースにおける微細気泡水の供給時間は、適宜設定可能であり、例えば、標準コースにおける供給時間よりも長くてもよいし、短くてもよいし、同じでもよい。
When the high cleaning course is executed by the control device 30, the water supply control processing unit 31 is configured as high-concentration fine bubble water in which the concentration of fine bubble water contained in the fine bubble water is higher than the concentration of fine bubble water in the standard course. Supply into the water tank 13. Since the concentration of fine bubble water in the standard course is 50 percent, for example, in this high cleaning course, the water supply control processing unit 31 is at least a high concentration higher than the concentration in the standard course, for example, a high level of 100 percent. Concentrated fine bubble water is generated and supplied into the water tank 13. That is, the water supply control processing unit 31 executes water supply into the water tank 13 not using the normal water supply path 18A but using the fine bubble water supply path 18B. In addition, the supply time of the fine bubble water in this high washing course can be set suitably, for example, may be longer than the supply time in a standard course, may be short, and may be the same.
本実施形態によれば、運転内容が異なる複数種類の運転コースを実行可能に構成される洗濯機10において、制御装置30は、それぞれの運転コースに応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を変化させる。これにより、それぞれの運転コースにおいて微細気泡水の供給量を最適化することができ、微細気泡水の機能を効果的に発揮させることができる。
According to the present embodiment, in the washing machine 10 configured to be able to execute a plurality of types of driving courses having different driving contents, the control device 30 supplies the total amount of water supplied into the water tank 13 according to each driving course. The supply amount of fine bubble water is changed. Thereby, the supply amount of fine bubble water can be optimized in each operation course, and the function of fine bubble water can be exhibited effectively.
この場合、制御装置30は、運転コースに応じて、水槽13内に供給する微細気泡の濃度、換言すれば、水槽13内に供給する微細気泡水と、微細気泡水以外の水、この場合、通常水と、の供給割合を変化させる。ここで、微細気泡水による洗浄性能の向上効果に最も影響を与える要素は、水槽13内に供給される水に含まれる微細気泡の「濃度」である。そのため、微細気泡の「濃度」に着目して、その濃度を運転コースに応じて適宜変化させることにより、それぞれの運転コースに適した洗浄性能を発揮させることができる。
In this case, the control device 30 determines the concentration of fine bubbles supplied into the water tank 13 according to the operation course, in other words, fine bubble water supplied into the water tank 13 and water other than the fine bubble water, The supply ratio of normal water is changed. Here, the factor that has the most influence on the effect of improving the cleaning performance by the fine bubble water is the “concentration” of the fine bubbles contained in the water supplied into the water tank 13. Therefore, by paying attention to the “concentration” of the fine bubbles and appropriately changing the concentration according to the operation course, it is possible to exhibit the cleaning performance suitable for each operation course.
また、制御装置30は、水槽13内に供給する全給水量に対する微細気泡水の供給量を所定量よりも多くするとともに、水槽13内に微細気泡水を供給する供給時間を所定時間よりも短くする多供給短時間コースを実行可能である。この多供給短時間コースによれば、多量の微細気泡水を短時間で水槽13内に供給することができ、微細気泡水の供給に要する時間を短くすることができる。
Further, the control device 30 increases the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 more than a predetermined amount, and the supply time for supplying the fine bubble water into the water tank 13 is shorter than the predetermined time. A multi-supply short-term course can be executed. According to this multi-supply short time course, a large amount of fine bubble water can be supplied into the water tank 13 in a short time, and the time required for supplying the fine bubble water can be shortened.
また、制御装置30は、水槽13内に供給する全給水量に対する微細気泡水の供給量を所定量よりも少なくするとともに、水槽13内に微細気泡水を供給する供給時間を所定時間よりも長くする少供給長時間コースを実行可能である。この少供給長時間コースによれば、微細気泡水の供給に要する時間は長くなるものの、微細気泡水を少しずつ水槽13内に供給することができ、洗濯処理剤に微細気泡水をじっくりと接触させながら供給することができる。
Further, the control device 30 reduces the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 below a predetermined amount, and the supply time for supplying the fine bubble water into the water tank 13 is longer than the predetermined time. It is possible to carry out a small supply long time course. According to this small supply long time course, although the time required for supplying the fine bubble water becomes long, the fine bubble water can be gradually supplied into the aquarium 13, and the fine bubble water is brought into contact with the laundry treatment agent carefully. Can be supplied.
また、制御装置30は、微細気泡水に含まれる微細気泡水の濃度を所定濃度よりも高くした高濃度微細気泡水を水槽13内に供給する高洗浄コースを実行可能である。この高洗浄コースによれば、高濃度の微細気泡水により洗濯処理剤を溶解して水槽13内に供給することができる。よって、微細気泡水の機能を一層効果的に発揮させることができ、洗浄性能の一層の向上を図ることができる。
Further, the control device 30 can execute a high cleaning course in which high-concentration fine bubble water in which the concentration of fine bubble water contained in the fine bubble water is higher than a predetermined concentration is supplied into the water tank 13. According to this high cleaning course, the laundry treatment agent can be dissolved and supplied into the water tank 13 with high-concentration fine bubble water. Therefore, the function of fine bubble water can be exhibited more effectively, and the cleaning performance can be further improved.
また、給水制御処理部31は、標準コースに供給する微細気泡水の濃度を100パーセントとし、その他の運転コースにおける微細気泡水の濃度を、100パーセントよりも低い濃度、例えば、70パーセント、50パーセントなどに設定してもよい。
Further, the water supply control processing unit 31 sets the concentration of the fine bubble water supplied to the standard course to 100 percent, and the concentration of the fine bubble water in the other operation courses to a concentration lower than 100 percent, for example, 70 percent, 50 percent. You may set it.
また、給水制御処理部31は、短時間コースに供給する微細気泡水の濃度を、他の運転コースにおける微細気泡水の濃度よりも低い濃度に設定してもよい。即ち、微細気泡水の供給時間を短くするとともに、供給する微細気泡水の濃度も低くすることで、給水動作に要する時間を一層短縮することができる。特に、液体洗剤を用いて洗濯物を洗う場合には、粉末洗剤を用いて洗濯物を洗う場合に比べ、微細気泡水の供給量を少なくしても、十分な洗浄効果が期待できる。そのため、液体洗剤を用いる場合において、微細気泡水の供給時間を短縮するとともに、供給する微細気泡水の濃度を低くすることにより、給水動作の短縮を図りつつ、十分な洗浄効果を発揮させることができる。
Further, the water supply control processing unit 31 may set the concentration of the fine bubble water supplied to the short course to a concentration lower than the concentration of the fine bubble water in the other operation course. That is, the time required for the water supply operation can be further shortened by shortening the supply time of the fine bubble water and reducing the concentration of the supplied fine bubble water. In particular, when washing laundry using a liquid detergent, a sufficient washing effect can be expected even if the supply amount of fine bubble water is reduced compared to washing laundry using a powder detergent. Therefore, in the case of using a liquid detergent, it is possible to exhibit a sufficient cleaning effect while shortening the water supply operation by shortening the supply time of the fine bubble water and reducing the concentration of the supplied fine bubble water. it can.
なお、図5に例示した制御例は一例に過ぎず、給水制御処理部31は、各運転コースにおける微細気泡水の供給量や供給時間を適宜変更して設定することができる。即ち、例えば、多供給短時間コースにおける微細気泡水の供給量を標準レベルとし、他の運転コースにおける微細気泡水の供給量を標準レベルよりも多く、少なく、または、同じとすることができる。また、少供給長時間コースにおける微細気泡水の供給量を標準レベルとし、他の運転コースにおける微細気泡水の供給量を標準レベルよりも多く、少なく、または、同じとすることができる。
Note that the control example illustrated in FIG. 5 is merely an example, and the water supply control processing unit 31 can appropriately set the supply amount and supply time of the fine bubble water in each operation course. That is, for example, the supply amount of fine bubble water in the multi-supply short-time course can be set to the standard level, and the supply amount of fine bubble water in the other operation courses can be greater than, less than, or the same as the standard level. In addition, the supply amount of fine bubble water in the low supply long-time course can be set to the standard level, and the supply amount of fine bubble water in the other operation courses can be larger, less than or equal to the standard level.
また、多供給短時間コースにおける微細気泡水の供給時間を標準レベルとし、他の運転コースにおける微細気泡水の供給時間を標準レベルよりも長く、短く、または、同じとすることができる。また、少供給長時間コースにおける微細気泡水の供給時間を標準レベルとし、他の運転コースにおける微細気泡水の供給時間を標準レベルよりも長く、短く、または、同じとすることができる。
Also, the supply time of the fine bubble water in the multi-supply short time course can be set to the standard level, and the supply time of the fine bubble water in the other operation courses can be made longer, shorter or the same as the standard level. Moreover, the supply time of the fine bubble water in the low supply long time course can be set to the standard level, and the supply time of the fine bubble water in the other operation courses can be made longer, shorter or the same as the standard level.
(第2実施形態)
図6に例示するように、本実施形態では、給水制御処理部31は、運転コースではなく、運転行程に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を変化させる。即ち、例えば、標準コースには、洗い行程、シャワーすすぎ行程、ためすすぎ行程が含まれている。洗い行程は、水槽13内に所定の洗い行程用の水位まで水を供給し、パルセータ15を回転させることにより回転槽14内の洗濯物を攪拌して洗う行程である。シャワーすすぎ行程は、図示しない循環経路を介して、水槽13内の水を循環して水槽13の上部から回転槽14内にシャワー状に戻しながら回転槽14内の洗濯物をすすぐ行程である。ためすすぎ行程は、水槽13内に所定のすすぎ行程用の水位まで水を供給し、パルセータ15を回転させることにより回転槽14内の洗濯物を攪拌してすすぐ行程である。なお、シャワーすすぎ行程における水槽13内の水位は、ためすすぎ行程における水槽13内の水位よりも低い水位で設定することができる。 (Second Embodiment)
As illustrated in FIG. 6, in the present embodiment, the water supplycontrol processing unit 31 changes the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 according to the operation process, not the operation course. . That is, for example, the standard course includes a washing process, a shower rinsing process, and a rinsing process. The washing process is a process in which water is supplied into the water tank 13 up to a predetermined water level for the washing process and the pulsator 15 is rotated to stir and wash the laundry in the rotating tank 14. The shower rinsing process is a process of rinsing the laundry in the rotating tub 14 while circulating the water in the water tub 13 through a circulation path (not shown) and returning the water from the upper part of the water tub 13 to the rotating tub 14 in a shower shape. The rinsing process is a process of supplying water to the water tank 13 up to a predetermined water level for the rinsing process and rotating the pulsator 15 to agitate the laundry in the rotating tub 14 for rinsing. In addition, the water level in the water tank 13 in the shower rinsing process can be set at a lower water level than the water level in the water tank 13 in the rinsing process.
図6に例示するように、本実施形態では、給水制御処理部31は、運転コースではなく、運転行程に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を変化させる。即ち、例えば、標準コースには、洗い行程、シャワーすすぎ行程、ためすすぎ行程が含まれている。洗い行程は、水槽13内に所定の洗い行程用の水位まで水を供給し、パルセータ15を回転させることにより回転槽14内の洗濯物を攪拌して洗う行程である。シャワーすすぎ行程は、図示しない循環経路を介して、水槽13内の水を循環して水槽13の上部から回転槽14内にシャワー状に戻しながら回転槽14内の洗濯物をすすぐ行程である。ためすすぎ行程は、水槽13内に所定のすすぎ行程用の水位まで水を供給し、パルセータ15を回転させることにより回転槽14内の洗濯物を攪拌してすすぐ行程である。なお、シャワーすすぎ行程における水槽13内の水位は、ためすすぎ行程における水槽13内の水位よりも低い水位で設定することができる。 (Second Embodiment)
As illustrated in FIG. 6, in the present embodiment, the water supply
そして、洗い行程においては、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルに設定する。シャワーすすぎ行程においては、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも少ない少レベルに設定する。ためすすぎ行程においては、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも多い多レベルに設定する。
In the washing process, the water supply control processing unit 31 sets the supply amount of fine bubble water to the standard level with respect to the total water supply amount supplied into the water tank 13. In the shower rinsing process, the water supply control processing unit 31 sets the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a lower level than the standard level. Therefore, in the rinsing process, the water supply control processing unit 31 sets the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 to a multilevel higher than the standard level.
本実施形態によれば、制御装置30は、運転行程に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を変化させる。これにより、それぞれの運転行程において微細気泡水の供給量を最適化することができ、微細気泡水の機能を効果的に発揮させることができる。
According to the present embodiment, the control device 30 changes the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 according to the operation stroke. Thereby, the supply amount of the fine bubble water can be optimized in each operation stroke, and the function of the fine bubble water can be effectively exhibited.
なお、図6に例示した制御例は一例に過ぎず、給水制御処理部31は、各運転行程における微細気泡水の供給量を適宜変更して設定することができる。即ち、例えば、シャワーすすぎ行程における微細気泡水の供給量を標準レベルとし、他の運転行程における微細気泡水の供給量を標準レベルよりも多く、少なく、または、同じとすることができる。また、ためすすぎ行程における微細気泡水の供給量を標準レベルとし、他の運転行程における微細気泡水の供給量を標準レベルよりも多く、少なく、または、同じとすることができる。また、給水制御処理部31は、微細気泡水の供給量と同様に、各運転行程における微細気泡水の供給時間も適宜変更して設定することができる。
Note that the control example illustrated in FIG. 6 is merely an example, and the water supply control processing unit 31 can appropriately change and set the supply amount of fine bubble water in each operation process. That is, for example, the supply amount of the fine bubble water in the shower rinsing process can be set to the standard level, and the supply amount of the fine bubble water in the other operation processes can be made larger, smaller or the same as the standard level. In addition, the supply amount of the fine bubble water in the rinsing process can be set to the standard level, and the supply amount of the fine bubble water in the other operation processes can be made larger, smaller or the same as the standard level. Moreover, the water supply control processing part 31 can also change and set the supply time of the fine bubble water in each driving | operation process suitably similarly to the supply amount of the fine bubble water.
(第3実施形態)
図7に例示するように、制御装置30は、制御プログラムを実行することにより、さらに温度検知処理部32をソフトウェアにより仮想的に実現する。なお、温度検知処理部32は、ハードウェアにより構成してもよいし、ソフトウェアとハードウェアの組み合わせにより構成してもよい。温度検知処理部32は、温度検知手段の一例であり、この場合、水槽13内の水の温度を検知するように構成されている。即ち、水槽13内には図示しない温度検知センサが設けられており、温度検知処理部32は、この温度検知センサを介して、水槽13内の水の温度を検知する。 (Third embodiment)
As illustrated in FIG. 7, thecontrol device 30 further realizes the temperature detection processing unit 32 virtually by software by executing a control program. The temperature detection processing unit 32 may be configured by hardware, or may be configured by a combination of software and hardware. The temperature detection processing unit 32 is an example of a temperature detection unit. In this case, the temperature detection processing unit 32 is configured to detect the temperature of water in the water tank 13. That is, a temperature detection sensor (not shown) is provided in the water tank 13, and the temperature detection processing unit 32 detects the temperature of the water in the water tank 13 through this temperature detection sensor.
図7に例示するように、制御装置30は、制御プログラムを実行することにより、さらに温度検知処理部32をソフトウェアにより仮想的に実現する。なお、温度検知処理部32は、ハードウェアにより構成してもよいし、ソフトウェアとハードウェアの組み合わせにより構成してもよい。温度検知処理部32は、温度検知手段の一例であり、この場合、水槽13内の水の温度を検知するように構成されている。即ち、水槽13内には図示しない温度検知センサが設けられており、温度検知処理部32は、この温度検知センサを介して、水槽13内の水の温度を検知する。 (Third embodiment)
As illustrated in FIG. 7, the
そして、給水制御処理部31は、温度検知処理部32により検知される温度に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を調整する。即ち、図8に例示する制御例では、給水制御処理部31は、温度検知処理部32により検知される温度が低いほど、水槽13内に供給する全給水量に対する微細気泡水の供給量を多くする。また、図9に例示する制御例では、給水制御処理部31は、温度検知処理部32により検知される温度が低いほど、水槽13内に供給する全給水量に対する微細気泡水の供給量を少なくする。
And the water supply control processing part 31 adjusts the supply amount of the fine bubble water with respect to the total water supply amount supplied in the water tank 13 according to the temperature detected by the temperature detection processing part 32. That is, in the control example illustrated in FIG. 8, the water supply control processing unit 31 increases the supply amount of fine bubble water relative to the total water supply amount supplied into the water tank 13 as the temperature detected by the temperature detection processing unit 32 is lower. To do. In the control example illustrated in FIG. 9, the water supply control processing unit 31 decreases the supply amount of fine bubble water relative to the total water supply amount supplied into the water tank 13 as the temperature detected by the temperature detection processing unit 32 is lower. To do.
本実施形態によれば、制御装置30は、温度検知処理部32により検知される水槽13内の水の温度に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を調整する。これにより、水槽13内の水の温度に応じて、微細気泡水の供給量を最適化することができ、微細気泡水の機能を効果的に発揮させることができる。
According to the present embodiment, the control device 30 adjusts the supply amount of fine bubble water relative to the total water supply amount supplied into the water tank 13 according to the temperature of the water in the water tank 13 detected by the temperature detection processing unit 32. To do. Thereby, according to the temperature of the water in the water tank 13, the supply amount of fine bubble water can be optimized, and the function of fine bubble water can be exhibited effectively.
また、一般に、洗浄性能は、給水温度の影響を大きく受けるが、仮に給水温度が比較的低い場合であっても、微細気泡水の存在により洗浄性能が10~20%ほど向上する効果が認められる。そのため、仮に給水温度が比較的低い場合であっても、少なくとも皮脂汚れ等の油脂汚れについては、給水温度が高い場合と同等の洗浄性能を期待できる。
In general, the cleaning performance is greatly influenced by the feed water temperature, but even if the feed water temperature is relatively low, the effect of improving the cleaning performance by about 10 to 20% due to the presence of fine bubble water is recognized. . Therefore, even if the water supply temperature is relatively low, at least for oily and dirt such as sebum dirt, cleaning performance equivalent to that when the water supply temperature is high can be expected.
なお、温度検知処理部32は、洗濯機10の機外の温度を検知するように構成してもよい。即ち、洗濯機10は、例えば外箱11の外面に温度検知センサを備え、温度検知処理部32は、この温度検知センサを介して、洗濯機10の外気の温度を検知する構成としてもよい。そして、給水制御処理部31は、温度検知処理部32により検知される外気の温度に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を調整する。この構成によれば、外気の温度に応じて、微細気泡水の供給量を最適化することができ、微細気泡水の機能を効果的に発揮させることができる。
In addition, you may comprise the temperature detection process part 32 so that the temperature outside the machine of the washing machine 10 may be detected. That is, for example, the washing machine 10 may include a temperature detection sensor on the outer surface of the outer box 11, and the temperature detection processing unit 32 may be configured to detect the temperature of the outside air of the washing machine 10 via this temperature detection sensor. Then, the water supply control processing unit 31 adjusts the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 according to the temperature of the outside air detected by the temperature detection processing unit 32. According to this configuration, the supply amount of fine bubble water can be optimized according to the temperature of the outside air, and the function of fine bubble water can be effectively exhibited.
また、温度検知処理部32は、水槽13内の水の温度および洗濯機10の外気の温度の何れも検知可能な構成とし、制御装置30は、例えば、これら2つの検知温度の平均値、最大値、最小値などを算出し、その算出値に基づいて微細気泡水の供給量を調整する構成としてもよい。また、制御装置30は、水槽13内の水の温度および洗濯機10の外気の温度の何れか一方の温度を選択し、その選択した検出温度に基づいて微細気泡水の供給量を調整する構成としてもよい。これらの構成例によっても、微細気泡水の供給量を温度に応じた最適な供給量とすることができ、微細気泡水の機能を効果的に発揮させることができる。
In addition, the temperature detection processing unit 32 is configured to be able to detect both the temperature of the water in the water tub 13 and the temperature of the outside air of the washing machine 10, and the control device 30 is, for example, an average value of these two detection temperatures, a maximum It is good also as a structure which calculates a value, minimum value, etc., and adjusts the supply amount of fine bubble water based on the calculated value. Moreover, the control apparatus 30 selects either one of the temperature of the water in the water tank 13, and the temperature of the external air of the washing machine 10, and adjusts the supply amount of fine bubble water based on the selected detection temperature It is good. Also according to these configuration examples, the supply amount of the fine bubble water can be set to an optimum supply amount according to the temperature, and the function of the fine bubble water can be effectively exhibited.
(第4実施形態)
本実施形態では、制御装置30は、さらに、高温水コースを実行可能に構成されている。高温水コースは、所定温度、例えば、20℃よりも高い温度の水つまり温水を水槽13内に供給して洗い行程あるいはすすぎ行程を実行する運転コースである。このような温水は、例えば、洗濯機10に図示しない風呂水ポンプを備えて風呂水を給水可能に構成することにより、あるいは、洗濯機10に図示しない給湯器を備えて温水を供給可能に構成することにより得ることができる。 (Fourth embodiment)
In this embodiment, thecontrol apparatus 30 is further comprised so that a high temperature water course can be performed. The high-temperature water course is an operation course in which water having a predetermined temperature, for example, a temperature higher than 20 ° C., that is, hot water is supplied into the water tank 13 and a washing process or a rinsing process is performed. Such hot water is configured such that, for example, the washing machine 10 is provided with a bath water pump (not shown) so that bath water can be supplied, or the washing machine 10 is provided with a hot water heater (not shown) so that hot water can be supplied. Can be obtained.
本実施形態では、制御装置30は、さらに、高温水コースを実行可能に構成されている。高温水コースは、所定温度、例えば、20℃よりも高い温度の水つまり温水を水槽13内に供給して洗い行程あるいはすすぎ行程を実行する運転コースである。このような温水は、例えば、洗濯機10に図示しない風呂水ポンプを備えて風呂水を給水可能に構成することにより、あるいは、洗濯機10に図示しない給湯器を備えて温水を供給可能に構成することにより得ることができる。 (Fourth embodiment)
In this embodiment, the
図10および図11には、洗濯機10が高温水コースを実行可能に構成されている場合における制御例を示している。即ち、図10に例示する制御例によれば、高温水コースを実行する場合において、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準コースにおける供給量よりも多くする。また、図11に例示する制御例によれば、高温水コースを実行する場合において、給水制御処理部31は、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準コースにおける供給量よりも少なくする。
10 and 11 show examples of control when the washing machine 10 is configured to be able to execute the high-temperature water course. That is, according to the control example illustrated in FIG. 10, when the high temperature water course is executed, the water supply control processing unit 31 supplies the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13 in the standard course. More than the amount. Further, according to the control example illustrated in FIG. 11, when executing the high temperature water course, the water supply control processing unit 31 supplies the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13 in the standard course. Less than the amount.
本実施形態によれば、制御装置30は、高温水コースを実行する場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を調整する。これにより、微細気泡水の供給量を、水槽13内に存在する高温の水に適した供給量とすることができ、微細気泡水の機能を効果的に発揮させることができる。
According to the present embodiment, when executing the high temperature water course, the control device 30 adjusts the supply amount of fine bubble water relative to the total water supply amount supplied into the water tank 13. Thereby, the supply amount of fine bubble water can be made into the supply amount suitable for the high temperature water which exists in the water tank 13, and the function of fine bubble water can be exhibited effectively.
(第5実施形態)
本実施形態では、制御装置30は、水槽13内の水に発生させる水流の強さを多段階、例えば、強レベル、標準レベル、弱レベルの3段階で調整可能に構成されている。水槽13内の水に発生させる水流の強さは、例えばパルセータ15の回転速度や、単位時間あたりの回転量を制御することにより調整することができる。なお、水流の調整は、ユーザによる調整操作に基づいて行うように構成してもよいし、制御装置30が制御プログラムに基づいて自動的に行うように構成してもよい。 (Fifth embodiment)
In the present embodiment, thecontrol device 30 is configured to be able to adjust the strength of the water flow generated in the water in the water tank 13 in multiple stages, for example, three levels of a strong level, a standard level, and a weak level. The strength of the water flow generated in the water in the water tank 13 can be adjusted, for example, by controlling the rotation speed of the pulsator 15 and the rotation amount per unit time. The adjustment of the water flow may be performed based on the adjustment operation by the user, or the control device 30 may be configured to automatically perform based on the control program.
本実施形態では、制御装置30は、水槽13内の水に発生させる水流の強さを多段階、例えば、強レベル、標準レベル、弱レベルの3段階で調整可能に構成されている。水槽13内の水に発生させる水流の強さは、例えばパルセータ15の回転速度や、単位時間あたりの回転量を制御することにより調整することができる。なお、水流の調整は、ユーザによる調整操作に基づいて行うように構成してもよいし、制御装置30が制御プログラムに基づいて自動的に行うように構成してもよい。 (Fifth embodiment)
In the present embodiment, the
図12および図13には、洗濯機10が水流の強さを調整可能に構成されている場合における制御例を示している。即ち、図12に例示する制御例によれば、給水制御処理部31は、水槽13内の水に発生させる水流の強さが強レベルに調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも多くする。また、給水制御処理部31は、水槽13内の水に発生させる水流の強さが弱レベルに調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも少なくする。
FIGS. 12 and 13 show control examples when the washing machine 10 is configured to be able to adjust the strength of the water flow. That is, according to the control example illustrated in FIG. 12, when the strength of the water flow generated in the water in the water tank 13 is adjusted to a strong level, the water supply control processing unit 31 performs the entire supply to the water tank 13. Increase the supply amount of fine bubble water to the supply amount from the standard level. Further, when the strength of the water flow generated in the water in the water tank 13 is adjusted to a weak level, the water supply control processing unit 31 sets the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13 as a standard. Less than level.
また、図13に例示する制御例によれば、給水制御処理部31は、水槽13内の水に発生させる水流の強さが強レベルに調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも少なくする。また、給水制御処理部31は、水槽13内の水に発生させる水流の強さが弱レベルに調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも多くする。
Further, according to the control example illustrated in FIG. 13, the water supply control processing unit 31 is configured to supply all the water supplied into the water tank 13 when the strength of the water flow generated in the water in the water tank 13 is adjusted to a high level. Reduce the amount of microbubble water supplied to the water supply below the standard level. Further, when the strength of the water flow generated in the water in the water tank 13 is adjusted to a weak level, the water supply control processing unit 31 sets the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13 as a standard. More than level.
本実施形態によれば、制御装置30は、水槽13内の水に発生させる水流の強さが調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を調整する。これにより、微細気泡水の供給量を、水槽13内に発生する水流に適した供給量とすることができ、微細気泡水の機能を効果的に発揮させることができる。
According to the present embodiment, the control device 30 adjusts the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 when the strength of the water flow generated in the water in the water tank 13 is adjusted. To do. Thereby, the supply amount of fine bubble water can be made into the supply amount suitable for the water flow which generate | occur | produces in the water tank 13, and the function of fine bubble water can be exhibited effectively.
(第6実施形態)
本実施形態では、制御装置30は、各運転コースの運転時間を多段階、例えば、長レベル、標準レベル、短レベルの3段階で調整可能に構成されている。なお、運転時間の調整は、ユーザによる調整操作に基づいて行うように構成してもよいし、制御装置30が制御プログラムに基づいて自動的に行うように構成してもよい。また、回転槽14内の洗濯物の重量を検知する周知の重量センシング処理により特定された洗濯物の重量に基づいて、制御装置30が自動的に運転時間を調整するように構成してもよい。 (Sixth embodiment)
In the present embodiment, thecontrol device 30 is configured to be able to adjust the operation time of each operation course in multiple stages, for example, three levels of a long level, a standard level, and a short level. Note that the adjustment of the operation time may be performed based on an adjustment operation by the user, or the control device 30 may be configured to automatically perform based on a control program. Moreover, you may comprise so that the control apparatus 30 may adjust driving | running time automatically based on the weight of the laundry specified by the well-known weight sensing process which detects the weight of the laundry in the rotating tub 14. .
本実施形態では、制御装置30は、各運転コースの運転時間を多段階、例えば、長レベル、標準レベル、短レベルの3段階で調整可能に構成されている。なお、運転時間の調整は、ユーザによる調整操作に基づいて行うように構成してもよいし、制御装置30が制御プログラムに基づいて自動的に行うように構成してもよい。また、回転槽14内の洗濯物の重量を検知する周知の重量センシング処理により特定された洗濯物の重量に基づいて、制御装置30が自動的に運転時間を調整するように構成してもよい。 (Sixth embodiment)
In the present embodiment, the
図14および図15には、洗濯機10が運転コースの運転時間を調整可能に構成されている場合における制御例を示している。即ち、図14に例示する制御例によれば、給水制御処理部31は、運転時間が長レベルに調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも多くする。また、給水制御処理部31は、運転時間が短レベルに調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも少なくする。微細気泡水の供給量を少なくして給水時間を短くすることにより、運転時間全体の短縮を図ることができる。
14 and 15 show control examples when the washing machine 10 is configured to be able to adjust the driving time of the driving course. That is, according to the control example illustrated in FIG. 14, when the operation time is adjusted to a long level, the water supply control processing unit 31 sets the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13. More than the standard level. Further, when the operation time is adjusted to a short level, the water supply control processing unit 31 reduces the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 from the standard level. By reducing the amount of fine bubble water supplied and shortening the water supply time, the entire operation time can be shortened.
また、図15に例示する制御例によれば、給水制御処理部31は、運転時間が長レベルに調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも少なくする。また、運転時間が短レベルに調整された場合には、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルよりも多くする。微細気泡水の供給量を多くすることにより、例えば皮脂汚れなどの油脂汚れを素早く洗い落すことができるため、洗い動作に要する時間、ひいては、運転時間全体を短縮することができる。
Further, according to the control example illustrated in FIG. 15, when the operation time is adjusted to a long level, the water supply control processing unit 31 sets the supply amount of fine bubble water to the total water supply amount supplied into the water tank 13. Less than the standard level. Further, when the operation time is adjusted to a short level, the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13 is increased from the standard level. By increasing the supply amount of the fine bubble water, for example, oily and dirt such as sebum dirt can be quickly washed out, so that the time required for the washing operation and thus the entire operation time can be shortened.
本実施形態によれば、制御装置30は、運転コースの運転時間が調整された場合には、その調整後の運転時間に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を調整する。これにより、微細気泡水の供給量を、調整後の運転コースの運転時間に適した供給量とすることができ、微細気泡水の機能を効果的に発揮させることができる。
According to this embodiment, when the operation time of the operation course is adjusted, the control device 30 supplies fine bubble water to the total amount of water supplied into the water tank 13 according to the adjusted operation time. Adjust the amount. Thereby, the supply amount of fine bubble water can be made into the supply amount suitable for the operation time of the operation course after adjustment, and the function of fine bubble water can be exhibited effectively.
(第7実施形態)
図16に例示するように、本実施形態では、洗濯機10は、例えば、操作パネルに、複数、この場合、5つの供給量設定ボタン70a~70eを設けている。供給量設定ボタン70a~70eは、それぞれ供給量設定手段の一例であり、水槽13内に供給する全給水量に対する微細気泡水の供給量を設定する場合にユーザが操作するボタンである。 (Seventh embodiment)
As illustrated in FIG. 16, in this embodiment, thewashing machine 10 is provided with a plurality of, in this case, five supply amount setting buttons 70a to 70e, for example, on the operation panel. The supply amount setting buttons 70a to 70e are examples of supply amount setting means, and are buttons operated by the user when setting the supply amount of fine bubble water with respect to the total supply amount of water supplied into the water tank 13.
図16に例示するように、本実施形態では、洗濯機10は、例えば、操作パネルに、複数、この場合、5つの供給量設定ボタン70a~70eを設けている。供給量設定ボタン70a~70eは、それぞれ供給量設定手段の一例であり、水槽13内に供給する全給水量に対する微細気泡水の供給量を設定する場合にユーザが操作するボタンである。 (Seventh embodiment)
As illustrated in FIG. 16, in this embodiment, the
このうち、供給量設定ボタン70aは、水槽13内に供給する全給水量に対する微細気泡水の供給量を標準レベルに設定するものである。この供給量設定ボタン70aが操作された場合、制御装置30は、通常水用給水経路18Aからの給水量および微細気泡水用給水経路18Bからの給水量を制御することにより、水槽13内に供給される微細気泡水の濃度を、例えば、50パーセントに調整する。
Among these, the supply amount setting button 70a sets the supply amount of fine bubble water to the standard level with respect to the total water supply amount supplied into the water tank 13. When the supply amount setting button 70a is operated, the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B. The concentration of the fine bubble water to be adjusted is adjusted to 50%, for example.
供給量設定ボタン70bは、水槽13内に供給する全給水量に対する微細気泡水の供給量を多レベルに設定するものである。この供給量設定ボタン70bが操作された場合、制御装置30は、通常水用給水経路18Aからの給水量および微細気泡水用給水経路18Bからの給水量を制御することにより、水槽13内に供給される微細気泡水の濃度を、例えば、100パーセントに調整する。即ち、制御装置30は、通常水用給水経路18Aを全閉とし、且つ、微細気泡水用給水経路18Bを全開とすることにより、水槽13内に微細気泡水のみを供給する。
The supply amount setting button 70b is used to set the supply amount of fine bubble water to multiple levels with respect to the total water supply amount supplied into the water tank 13. When the supply amount setting button 70b is operated, the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B. For example, the concentration of the fine bubble water is adjusted to 100%. That is, the control device 30 supplies only fine bubble water into the water tank 13 by fully closing the normal water supply passage 18A and fully opening the fine bubble water supply passage 18B.
供給量設定ボタン70cは、水槽13内に供給する全給水量に対する微細気泡水の供給量を少レベルに設定するものである。この供給量設定ボタン70cが操作された場合、制御装置30は、通常水用給水経路18Aからの給水量および微細気泡水用給水経路18Bからの給水量を制御することにより、水槽13内に供給される微細気泡水の濃度を、例えば、0パーセントに調整する。即ち、制御装置30は、通常水用給水経路18Aを全開とし、且つ、微細気泡水用給水経路18Bを全閉とすることにより、水槽13内に通常水のみを供給する。
The supply amount setting button 70c sets the supply amount of fine bubble water to a small level with respect to the total water supply amount supplied into the water tank 13. When the supply amount setting button 70c is operated, the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B. The concentration of the fine bubble water is adjusted to 0 percent, for example. That is, the control device 30 supplies only normal water into the water tank 13 by fully opening the normal water supply path 18A and fully closing the fine bubble water supply path 18B.
供給量設定ボタン70dは、水槽13内に供給する全給水量に対する微細気泡水の供給量をやや多レベルに設定するものである。この供給量設定ボタン70dが操作された場合、制御装置30は、通常水用給水経路18Aからの給水量および微細気泡水用給水経路18Bからの給水量を制御することにより、水槽13内に供給される微細気泡水の濃度を、50パーセントと100パーセントの間である、例えば、70パーセントに調整する。
The supply amount setting button 70d is used to set the supply amount of fine bubble water to a slightly multi-level with respect to the total water supply amount supplied into the water tank 13. When the supply amount setting button 70d is operated, the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B. Adjust the concentration of microbubble water to be between 50 and 100 percent, for example 70 percent.
供給量設定ボタン70eは、水槽13内に供給する全給水量に対する微細気泡水の供給量をやや少レベルに設定するものである。この供給量設定ボタン70eが操作された場合、制御装置30は、通常水用給水経路18Aからの給水量および微細気泡水用給水経路18Bからの給水量を制御することにより、水槽13内に供給される微細気泡水の濃度を、0パーセントと50パーセントの間である、例えば、20パーセントに調整する。
The supply amount setting button 70e is used to set the supply amount of fine bubble water to a slightly small level with respect to the total water supply amount supplied into the water tank 13. When the supply amount setting button 70e is operated, the control device 30 supplies the water into the water tank 13 by controlling the water supply amount from the normal water supply passage 18A and the water supply amount from the fine bubble water supply passage 18B. Adjust the concentration of microbubble water to be between 0 and 50 percent, for example 20 percent.
本実施形態によれば、ユーザは、供給量設定ボタン70a~70eの何れかを操作することにより、水槽13内に供給する全給水量に対する微細気泡水の供給量を選択することができる。これにより、微細気泡水の供給量を、ユーザの希望に応じた供給量とすることができ、ユーザの好みに応じた微細気泡水による洗浄効果により洗濯物を洗浄することができる。
According to this embodiment, the user can select the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13 by operating any of the supply amount setting buttons 70a to 70e. Thereby, supply_amount | feed_rate of fine bubble water can be made into the supply amount according to a user's hope, and a laundry can be wash | cleaned by the washing | cleaning effect by the fine bubble water according to a user preference.
なお、供給量設定ボタンの数、換言すれば、水槽13内に供給する全給水量に対する微細気泡水の供給量の段数は、適宜変更して実施することができる。また、供給量設定手段は、ユーザが任意に入力する数値を受け付けて、その数値に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量をリニアに調整する構成としてもよい。
In addition, the number of supply amount setting buttons, in other words, the number of steps of the supply amount of fine bubble water with respect to the total supply amount of water supplied into the water tank 13 can be changed as appropriate. The supply amount setting means may accept a numerical value arbitrarily input by the user and linearly adjust the supply amount of the fine bubble water relative to the total water supply amount supplied into the water tank 13 according to the numerical value. .
(第8実施形態)
図17に例示するように、制御装置30は、制御プログラムを実行することにより、さらに、運転時間調整処理部33をソフトウェアにより仮想的に実現する。なお、運転時間調整処理部33は、ハードウェアにより構成してもよいし、ソフトウェアとハードウェアの組み合わせにより構成してもよい。運転時間調整処理部33は、運転時間調整手段の一例であり、水槽13内に供給される全給水量に対する微細気泡水の供給量に応じて、運転コースの運転時間を自動的に調整する。この場合、運転時間調整処理部33は、例えば、上述した供給量設定ボタン70a~70eの操作に基づいて微細気泡水の供給量が設定されると、その設定された供給量に応じて、運転コースの運転時間を自動的に調整するように構成されている。 (Eighth embodiment)
As illustrated in FIG. 17, thecontrol device 30 further virtually realizes the operation time adjustment processing unit 33 by software by executing a control program. The operation time adjustment processing unit 33 may be configured by hardware, or may be configured by a combination of software and hardware. The operation time adjustment processing unit 33 is an example of an operation time adjustment unit, and automatically adjusts the operation time of the operation course according to the supply amount of fine bubble water with respect to the total water supply amount supplied into the water tank 13. In this case, for example, when the supply amount of fine bubble water is set based on the operation of the supply amount setting buttons 70a to 70e described above, the operation time adjustment processing unit 33 operates according to the set supply amount. It is configured to automatically adjust the driving time of the course.
図17に例示するように、制御装置30は、制御プログラムを実行することにより、さらに、運転時間調整処理部33をソフトウェアにより仮想的に実現する。なお、運転時間調整処理部33は、ハードウェアにより構成してもよいし、ソフトウェアとハードウェアの組み合わせにより構成してもよい。運転時間調整処理部33は、運転時間調整手段の一例であり、水槽13内に供給される全給水量に対する微細気泡水の供給量に応じて、運転コースの運転時間を自動的に調整する。この場合、運転時間調整処理部33は、例えば、上述した供給量設定ボタン70a~70eの操作に基づいて微細気泡水の供給量が設定されると、その設定された供給量に応じて、運転コースの運転時間を自動的に調整するように構成されている。 (Eighth embodiment)
As illustrated in FIG. 17, the
図18および図19には、水槽13内に供給される全給水量に対する微細気泡水の供給量に応じて、運転コースの運転時間を自動的に調整する場合の制御例を示している。即ち、図18に例示する制御例によれば、給水制御処理部31は、供給量設定ボタン70a~70eの操作に基づいて設定される水槽13内に供給される微細気泡水の供給量が多いほど、運転コースの運転時間を長くする調整制御を自動的に実行する。また、図19に例示する制御例によれば、給水制御処理部31は、供給量設定ボタン70a~70eの操作に基づいて設定される水槽13内に供給される微細気泡水の供給量が多いほど、運転コースの運転時間を短くする調整制御を自動的に実行する。
FIG. 18 and FIG. 19 show a control example in the case where the operation time of the operation course is automatically adjusted according to the supply amount of the fine bubble water with respect to the total water supply amount supplied into the water tank 13. That is, according to the control example illustrated in FIG. 18, the water supply control processing unit 31 has a large supply amount of fine bubble water supplied into the water tank 13 set based on the operation of the supply amount setting buttons 70a to 70e. The adjustment control for extending the driving time of the driving course is automatically executed. Further, according to the control example illustrated in FIG. 19, the water supply control processing unit 31 has a large supply amount of fine bubble water supplied into the water tank 13 set based on the operation of the supply amount setting buttons 70a to 70e. The adjustment control for shortening the driving time of the driving course is automatically executed.
本実施形態によれば、制御装置30は、供給量設定ボタン70a~70eの操作に基づいて設定される水槽13内に供給される微細気泡水の供給量に応じて、水槽13内に供給する全給水量に対する微細気泡水の供給量を調整する制御を自動的に実行する。これにより、ユーザが供給量設定ボタン70a~70eを操作することに伴い、その操作により選択された微細気泡水の供給量に応じた運転時間が自動的に設定される。そのため、微細気泡水の機能を効果的に発揮させることができ、且つ、ユーザが運転時間を調整する操作を不要とすることができ、使い勝手の良い洗濯機10を提供することができる。
According to the present embodiment, the control device 30 supplies the water into the water tank 13 according to the supply amount of the fine bubble water supplied into the water tank 13 set based on the operation of the supply amount setting buttons 70a to 70e. Control for adjusting the supply amount of fine bubble water with respect to the total water supply amount is automatically executed. Thus, as the user operates the supply amount setting buttons 70a to 70e, the operation time corresponding to the supply amount of the fine bubble water selected by the operation is automatically set. Therefore, the function of the fine bubble water can be effectively exhibited, and the operation for adjusting the operation time by the user can be eliminated, and the user-friendly washing machine 10 can be provided.
(その他の実施形態)
本実施形態は、上述した複数の実施形態に限られるものではなく、例えば、次のように拡張または変更してもよい。例えば、上述した複数の実施形態の内容を適宜組み合わせて実施してもよい。また、本実施形態は、回転槽の回転軸が水平または後方へ向かって下降傾斜する横軸型の、いわゆるドラム式の洗濯機にも適用することができる。 (Other embodiments)
The present embodiment is not limited to the above-described embodiments, and may be expanded or changed as follows, for example. For example, you may implement combining the content of several embodiment mentioned above suitably. The present embodiment can also be applied to a so-called drum-type washing machine of a horizontal axis in which the rotation axis of the rotating tub is inclined downward or horizontally.
本実施形態は、上述した複数の実施形態に限られるものではなく、例えば、次のように拡張または変更してもよい。例えば、上述した複数の実施形態の内容を適宜組み合わせて実施してもよい。また、本実施形態は、回転槽の回転軸が水平または後方へ向かって下降傾斜する横軸型の、いわゆるドラム式の洗濯機にも適用することができる。 (Other embodiments)
The present embodiment is not limited to the above-described embodiments, and may be expanded or changed as follows, for example. For example, you may implement combining the content of several embodiment mentioned above suitably. The present embodiment can also be applied to a so-called drum-type washing machine of a horizontal axis in which the rotation axis of the rotating tub is inclined downward or horizontally.
本実施形態に係る洗濯機によれば、水槽内への微細気泡水の供給を制御する給水制御手段は、運転コースに応じて、水槽内に供給する微細気泡水の供給量を変化させる。この構成によれば、運転内容が異なる複数種類の運転コースを実行可能に構成される洗濯機において、それぞれの運転コースにおいて微細気泡水の機能を効果的に発揮させることができる。
According to the washing machine according to the present embodiment, the water supply control means for controlling the supply of fine bubble water into the water tank changes the supply amount of the fine bubble water supplied into the water tank according to the operation course. According to this configuration, in the washing machine configured to be able to execute a plurality of types of driving courses having different driving contents, the function of fine bubble water can be effectively exhibited in each driving course.
なお、本実施形態は、例として提示したものであり、発明の範囲を限定することは意図していない。これら新規な実施形態は、その他の様々な形態で実施されることが可能であり、発明の要旨を逸脱しない範囲で、種々の省略、置き換え、変更を行うことができる。本実施形態およびその変形は、発明の範囲および要旨に含まれるとともに、請求の範囲に記載された発明とその均等の範囲に含まれる。
Note that this embodiment is presented as an example and is not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.
Claims (16)
- 水槽と、
微細気泡を含む微細気泡水を生成する微細気泡水生成部と、
前記水槽内への前記微細気泡水の供給を制御する給水制御手段と、を備え、
前記給水制御手段は、運転コースに応じて前記水槽内に供給する前記微細気泡水の供給量を変化させる洗濯機。 A tank,
A fine bubble water generating section for generating fine bubble water containing fine bubbles;
Water supply control means for controlling the supply of the fine bubble water into the water tank,
The said water supply control means is a washing machine which changes the supply amount of the said fine bubble water supplied in the said water tank according to a driving | running course. - 前記給水制御手段は、運転コースに応じて前記水槽内に供給する前記微細気泡水の濃度を変化させる請求項1に記載の洗濯機。 The washing machine according to claim 1, wherein the water supply control means changes a concentration of the fine bubble water supplied into the water tank according to an operation course.
- 前記給水制御手段は、前記水槽内に、微細気泡を含まない通常水を供給可能であり、運転コースに応じて前記水槽内に供給する前記微細気泡水と前記微細気泡水以外の水の供給割合を変化させる請求項1または2に記載の洗濯機。 The water supply control means can supply normal water not containing fine bubbles into the water tank, and supply ratio of the water other than the fine bubble water and the fine bubble water supplied into the water tank according to the operation course. The washing machine according to claim 1, wherein the washing machine is changed.
- 前記給水制御手段は、前記水槽内に供給する前記微細気泡水の供給量を所定量よりも多くするとともに、前記水槽内に前記微細気泡水を供給する供給時間を所定時間よりも短くする運転コースを備える請求項1から3の何れか1項に記載の洗濯機。 The water supply control means is an operation course in which the supply amount of the fine bubble water supplied into the water tank is made larger than a predetermined amount, and the supply time for supplying the fine bubble water into the water tank is made shorter than the predetermined time. The washing machine according to any one of claims 1 to 3, further comprising:
- 前記給水制御手段は、前記水槽内に供給する前記微細気泡水の供給量を所定量よりも少なくするとともに、前記水槽内に前記微細気泡水を供給する供給時間を所定時間よりも長くする運転コースを備える請求項1から4の何れか1項に記載の洗濯機。 The water supply control means is an operation course in which the supply amount of the fine bubble water supplied into the water tank is less than a predetermined amount and the supply time for supplying the fine bubble water into the water tank is longer than a predetermined time. The washing machine according to any one of claims 1 to 4, further comprising:
- 前記給水制御手段は、前記微細気泡水に含まれる前記微細気泡水の濃度を所定濃度よりも高くした高濃度微細気泡水を前記水槽内に供給する運転コースを備える請求項1から5の何れか1項に記載の洗濯機。 The said water supply control means is provided with the driving course which supplies the high concentration fine bubble water which made the density | concentration of the said fine bubble water contained in the said fine bubble water higher than predetermined density | concentration in the said water tank. The washing machine according to Item 1.
- 前記給水制御手段は、運転行程に応じて前記水槽内に供給する前記微細気泡水の供給量を変化させる請求項1から6の何れか1項に記載の洗濯機。 The washing machine according to any one of claims 1 to 6, wherein the water supply control means changes a supply amount of the fine bubble water supplied into the water tank according to an operation stroke.
- 外気または水の温度を検知する温度検知手段をさらに備え、
前記給水制御手段は、前記温度検知手段により検知される温度に応じて、前記水槽内に供給する前記微細気泡水の供給量を多くする請求項1から7の何れか1項に記載の洗濯機。 It further comprises a temperature detection means for detecting the temperature of the outside air or water,
The washing machine according to any one of claims 1 to 7, wherein the water supply control means increases a supply amount of the fine bubble water supplied into the water tank according to a temperature detected by the temperature detection means. . - 外気または水の温度を検知する温度検知手段をさらに備え、
前記給水制御手段は、前記温度検知手段により検知される温度に応じて、前記水槽内に供給する前記微細気泡水の供給量を少なくする請求項1から7の何れか1項に記載の洗濯機。 It further comprises a temperature detection means for detecting the temperature of the outside air or water,
The washing machine according to any one of claims 1 to 7, wherein the water supply control means reduces the supply amount of the fine bubble water supplied into the water tank in accordance with the temperature detected by the temperature detection means. . - 前記給水制御手段は、所定温度よりも高い温度の水を前記水槽内に供給する高温水コースを実行する場合には、前記水槽内に供給する前記微細気泡水の供給量を多くする請求項1から9の何れか1項に記載の洗濯機。 The said water supply control means increases the supply amount of the said fine bubble water supplied in the said water tank, when performing the high temperature water course which supplies the water of temperature higher than predetermined temperature in the said water tank. The washing machine according to any one of 1 to 9.
- 前記給水制御手段は、所定温度よりも高い温度の水を前記水槽内に供給する高温水コースを実行する場合には、前記水槽内に供給する前記微細気泡水の供給量を少なくする請求項1から9の何れか1項に記載の洗濯機。 The said water supply control means reduces the supply amount of the said fine bubble water supplied in the said water tank, when performing the high temperature water course which supplies the water of temperature higher than predetermined temperature into the said water tank. The washing machine according to any one of 1 to 9.
- 前記給水制御手段は、前記水槽内の水に発生させる水流の強さが調整された場合、または、運転時間が調整された場合には、前記水槽内に供給する前記微細気泡水の供給量を多くする請求項1から11の何れか1項に記載の洗濯機。 When the strength of the water flow generated in the water in the water tank is adjusted, or when the operation time is adjusted, the water supply control means determines the supply amount of the fine bubble water supplied into the water tank. The washing machine according to any one of claims 1 to 11, which is increased.
- 前記給水制御手段は、前記水槽内の水に発生させる水流の強さが調整された場合、または、運転時間が調整された場合には、前記水槽内に供給する前記微細気泡水の供給量を少なくする請求項1から11の何れか1項に記載の洗濯機。 When the strength of the water flow generated in the water in the water tank is adjusted, or when the operation time is adjusted, the water supply control means determines the supply amount of the fine bubble water supplied into the water tank. The washing machine according to any one of claims 1 to 11, wherein the washing machine is reduced.
- 前記水槽内に供給する前記微細気泡水の供給量を設定する供給量設定手段をさらに備える請求項1から13の何れか1項に記載の洗濯機。 The washing machine according to any one of claims 1 to 13, further comprising supply amount setting means for setting a supply amount of the fine bubble water to be supplied into the water tank.
- 前記水槽内に供給される前記微細気泡水の供給量に応じて運転時間を長くする運転時間調整手段をさらに備える請求項1から14の何れか1項に記載の洗濯機。 The washing machine according to any one of claims 1 to 14, further comprising operation time adjusting means for extending an operation time according to a supply amount of the fine bubble water supplied into the water tank.
- 前記水槽内に供給される前記微細気泡水の供給量に応じて運転時間を短くする運転時間調整手段をさらに備える請求項1から14の何れか1項に記載の洗濯機。 The washing machine according to any one of claims 1 to 14, further comprising an operation time adjusting means for shortening an operation time according to a supply amount of the fine bubble water supplied into the water tank.
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DE112018001910.1T DE112018001910T5 (en) | 2017-04-05 | 2018-03-19 | Washing machine |
US16/576,117 US20200011001A1 (en) | 2017-04-05 | 2019-09-19 | Washing machine |
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EP4083299A1 (en) * | 2019-12-04 | 2022-11-02 | Qingdao Haier Washing Machine Co., Ltd. | Water inlet method of washing device and washing device using water inlet method |
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