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WO2005071155A1 - Drum type washing machine - Google Patents

Drum type washing machine Download PDF

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Publication number
WO2005071155A1
WO2005071155A1 PCT/JP2004/018386 JP2004018386W WO2005071155A1 WO 2005071155 A1 WO2005071155 A1 WO 2005071155A1 JP 2004018386 W JP2004018386 W JP 2004018386W WO 2005071155 A1 WO2005071155 A1 WO 2005071155A1
Authority
WO
WIPO (PCT)
Prior art keywords
tub
baffle
washing machine
rotary
type washing
Prior art date
Application number
PCT/JP2004/018386
Other languages
French (fr)
Japanese (ja)
Inventor
Hisao Tatsumi
Hiroshi Nishimura
Tatsuo Ioku
Original Assignee
Kabushiki Kaisha Toshiba
Toshiba Consumer Marketing Corporation
Toshiba Ha Products Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kabushiki Kaisha Toshiba, Toshiba Consumer Marketing Corporation, Toshiba Ha Products Co., Ltd. filed Critical Kabushiki Kaisha Toshiba
Priority to US10/587,072 priority Critical patent/US20070157677A1/en
Publication of WO2005071155A1 publication Critical patent/WO2005071155A1/en

Links

Classifications

    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/20Mountings, e.g. resilient mountings, for the rotary receptacle, motor, tub or casing; Preventing or damping vibrations
    • D06F37/22Mountings, e.g. resilient mountings, for the rotary receptacle, motor, tub or casing; Preventing or damping vibrations in machines with a receptacle rotating or oscillating about a horizontal axis
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F23/00Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement, the receptacle serving both for washing and for centrifugally separating water from the laundry 
    • D06F23/06Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement, the receptacle serving both for washing and for centrifugally separating water from the laundry  and rotating or oscillating about an inclined axis
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/02Rotary receptacles, e.g. drums
    • D06F37/04Rotary receptacles, e.g. drums adapted for rotation or oscillation about a horizontal or inclined axis
    • D06F37/06Ribs, lifters, or rubbing means forming part of the receptacle
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/26Casings; Tubs
    • D06F37/267Tubs specially adapted for mounting thereto components or devices not provided for in preceding subgroups
    • D06F37/268Tubs specially adapted for mounting thereto components or devices not provided for in preceding subgroups for suspension devices
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F39/00Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00 
    • D06F39/12Casings; Tubs
    • D06F39/125Supporting arrangements for the casing, e.g. rollers or legs
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16FSPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
    • F16F15/00Suppression of vibrations in systems; Means or arrangements for avoiding or reducing out-of-balance forces, e.g. due to motion
    • F16F15/02Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems
    • F16F15/022Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems using dampers and springs in combination
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B40/00Technologies aiming at improving the efficiency of home appliances, e.g. induction cooking or efficient technologies for refrigerators, freezers or dish washers

Definitions

  • the present invention relates to a drum type washing machine having a rotating tub that rotates around a horizontal axis.
  • a drum-type washing machine has a rotary tub that rotates about a substantially horizontal axis and a water tub that houses the rotary tub.
  • An inner surface of a peripheral wall of the rotary tub is used to lift laundry.
  • the rotary tub is rotated at a low speed in a state where water is stored in the water tub and laundry is stored in the rotary tub.
  • the operation of lifting the laundry in the rotating tub and then dropping the laundry is repeated, so that the laundry is beat-washed.
  • the rotating tub is rotated at a low speed to remove water contained in the laundry to some extent, and then the rotating speed of the rotating tub is gradually increased to the maximum speed. Thereby, the laundry is centrifugally dehydrated.
  • auxiliary baffle is provided for the purpose of agitating the laundry in the inner part of the rotating tub which cannot be agitated by the conventional baffle. That is, even if the auxiliary baffle is provided, the washing operation is continued without removing the state in which the laundry is offset in the inner part of the rotating tub. For this reason, there was a problem that large vibrations and noises were easily generated during the dewatering process.
  • An object of the present invention is to provide a drum type washing machine capable of reducing generation of vibration and noise during a spin-drying step.
  • the present invention relates to a drum type washing machine including a water tub, a rotary tub provided in the water tub, and driven to rotate around a horizontal axis, and elastic supporting means for elastically supporting the water tub.
  • An auxiliary baffle is provided on the inner surface of the peripheral wall of the rotary tank.
  • the auxiliary baffle extends along the axial direction of the rotary tub, and is provided on the inner surface of the peripheral wall of the rotary tub so as to be close to one of the axial end plates of the rotary tub and separated from the other. ing.
  • the laundry in the rotating tub is configured to be moved near the center of gravity of the vibration system member that applies a load to the elastic support means.
  • the auxiliary baffle be configured so as to include an inclined surface that is inclined toward the peripheral wall portion with the force of one end plate of the rotating tub facing the other end plate.
  • FIG. 1 is an external perspective view showing an overall configuration of a drum type washing machine showing one embodiment of the present invention.
  • FIG. 2 is a vertical sectional side view of a drum-type washing machine.
  • FIG. 3 is a perspective view of a rotary tank with a drum lid omitted.
  • FIG. 4 is an enlarged perspective view of an auxiliary baffle.
  • FIG. 5 is a diagram for explaining the difference between the centrifugal force acting on the laundry located on the outer peripheral portion in the rotating tub and the centrifugal force acting on the laundry located on the inner peripheral portion.
  • Fig. 6 is a diagram for explaining the magnitude of the centrifugal force exerted on the laundry and the moment of inertia around the center of gravity.
  • FIG. 7 is a diagram showing a difference in cloth entanglement ratio at the end of drying depending on the presence or absence of an auxiliary baffle.
  • FIG. 8 is a view showing a difference in vibration generated during a dehydration step depending on the presence or absence of an auxiliary baffle and the size of the auxiliary baffle.
  • FIG. 9 is a diagram for explaining a difference in vibration amplitude due to a difference in height of the auxiliary baffle 23.
  • FIG. 10 is a diagram for explaining a difference in vibration amplitude due to a difference in axial length of the auxiliary baffle 23.
  • [0009] 1 is a drum-type washing machine
  • 10 is a water tub
  • 11 is a suspension (elastic support means)
  • 14 is a rotary tub
  • 15-mm tub shaft 20, 21, and 22 um main Knofle
  • 23 umbo Hosuke Nohle , 23a, 23bi are shown.
  • the washing machine 1 includes a base plate 2, an outer box 3 fixed on the base plate 2, and a top cover 5 mounted on the outer box 3 and having a laundry entrance 4.
  • the outer box 3 includes an outer box main body 6 and a front plate 7.
  • the top cover 5 is provided with an outer lid 8 for opening and closing the laundry entrance 4. It is.
  • the outer lid 8 is of a two-fold type including a front lid 8a and a rear lid 8a. At the right front of the top cover 5, an operation panel 9 is provided.
  • a substantially cylindrical water tank 10 is elastically supported via a plurality of suspensions 11 (corresponding to elastic support means).
  • the suspension 11 includes a damper 11a and a suspension panel ib.
  • An opening 13 which is opened and closed by an inner lid 12 is formed in an upper part of the water tank 10. When the opening 13 is closed by the inner lid 12, the space between the inner lid 12 and the opening 13 is sealed in a watertight manner.
  • a cylindrical rotary tank 14 is rotatably supported inside the water tank 10.
  • the diameter of the rotary tank 14 is set to about 520 mm, and the length in the axial direction is set to about 400 mm.
  • the rotary tub 14 functions as a washing tub, a dewatering tub, and a drying tub, and has a number of small holes (not shown) on its peripheral wall.
  • Tank shafts 15 (shown only in FIG. 5) extending substantially in the horizontal direction are provided on the left and right end plates of the rotary tank 14, and these shafts 15 are provided on bearings provided on the left and right end plates of the water tank 10. (Not shown) so as to be rotatable.
  • the tank shaft 15 extends in a substantially horizontal direction.
  • a motor (not shown) is provided on a left end plate of the water tank 10, and a rotation shaft of the motor is connected to an end of a tank shaft 15 supported on the left end plate of the water tank 10. That is, the rotary tank 14 is directly driven to rotate by the motor.
  • the point indicated by “0” in FIG. 2 indicates the center of the tank shaft 15 (that is, the rotation center axis of the rotary tank 14).
  • An opening 17 (see FIG. 3) that is opened and closed by a drum lid 16 is provided on a peripheral wall of the rotary tank 14.
  • the drum lid 16 is composed of a lid main plate 18 that rotates around a rotation fulcrum 18a in FIG. 2, and an auxiliary plate 19 that rotates around a rotation fulcrum 19a.
  • the lid main plate 18 and the auxiliary plate 19 are opened and closed in an interlocked manner by an interlocking mechanism (not shown).
  • the lid The main plate 18 is configured so that the front ends thereof overlap.
  • the closed state of the drum lid 16 is held by a lock means (not shown).
  • the opening 17 is configured to face the opening 13 of the water tank 10 when the rotary tank 14 is stopped.
  • a plurality of, for example, three main baffles 20 to 22 having a substantially triangular cross section are provided on the inner surface of the peripheral wall of the rotary tub 14.
  • Three main baffles 20—22 Are arranged at substantially equal intervals, of which two main baffles 20, 21 arranged on both sides of the opening 17 with the opening 17 interposed therebetween have lengths set to about 230 mm. ing.
  • the length of one main baffle 22 disposed at a position facing the opening 17 with the rotation center of the rotary tub 14 interposed therebetween is set to about 320 mm.
  • the height of the three main baffles 20-22 (the radial dimension of the rotary tank 14) is set to about 30 mm.
  • the main baffles 20 to 22 are arranged close to the center in the axial direction of the peripheral wall portion so as to be almost the same distance from both end plates of the rotary tank 14. Although not shown, a counterweight for taking balance with the drum lid 16 is accommodated inside the main baffle 22 having a large length.
  • auxiliary baffles are respectively provided between the main baffle 20 and the main baffle 22 and between the main baffle 21 and the main baffle 22 on the inner surface of the peripheral wall of the rotary tank 14.
  • Full 23 first and second baffles
  • the auxiliary baffles 23 of each pair are disposed at both left and right ends of the inner surface of the peripheral wall so as to face the rotating tank 14 in the axial direction.
  • Each auxiliary baffle 23 is in contact with the left end plate or the right end plate of the rotary tub 14, and is fixed to the peripheral wall by screws.
  • the auxiliary baffle 23 has a substantially triangular pyramid shape in which the end plate force of the rotary tub 14 also tapers toward the vicinity of the axial center of the peripheral wall portion.
  • the auxiliary field descending 23 has a narrow inclined surface 23a in which one of the two end plates of the rotary tub 14 also inclines toward the peripheral wall side toward the other, and a circumferential force is applied from the inclined surface 23a toward the peripheral wall. It has a triangular inclined surface 23b that is inclined on both sides.
  • the height of the portion of the auxiliary baffle 23 that comes into contact with the end plate of the rotary tub 14 is HI (see FIG. 4). Then, the height dimension HI is set to about 65 mm.
  • the length of the auxiliary baffle 23 in the peripheral wall of the rotary tank 14 is H2
  • the length H2 is set to about 100 mm.
  • An opening (not shown) is formed between the auxiliary baffle 23 and the main baffle 22 on the inner surface of the peripheral wall of the rotary tub 14.
  • the opening is for collecting laundry that has entered between the rotating tub 14 and the water tub 10, and is closed by a cover 25.
  • the outer box 3 has a water supply device for supplying water into the water tank 10, a drainage device for discharging water from the water tank 10, and dehumidification of air in the rotary tank 14. And A drying device and the like for drying the laundry by warming it and returning it to the rotating tub 14 are provided.
  • the center of gravity of the water tank 10 and the rotating tank 14 that apply a load to the suspension 11, and the vibration system member that also generates a force such as a motor is positioned in the axial direction of the rotating tank 14. It is configured to be centrally located.
  • the entire operation of the drum-type washing machine 1 is controlled by a control microcomputer (not shown) contained in the outer box 3! / ⁇ .
  • the control microcomputer executes each process according to a preset operation course. For example, when the washing operation is started with the standard operation course set, the control microcomputer sequentially executes a washing step, a rinsing step, a dehydrating step, and a drying step.
  • the control microcomputer drives the water supply device to supply the washing water to a predetermined water level in the water tub 10, and then drives the motor to rotate the rotating tub 14. Is rotated at low speed in the forward and reverse directions.
  • the control microcomputer controls the motor so that the opening 17 faces the opening 13 of the water tank 10 when the rotating tank 14 is stopped.
  • the laundry stored in the rotating tub 14 is repeatedly lifted by the main baffles 20-22 together with the water in the water tub 10 and then dropped. It is washed and rinsed.
  • the action of lifting the laundry by the triangular pyramid-shaped auxiliary baffle 23 is smaller than that of the main baffle 20--22 because the laundry contains water and is heavy, but the auxiliary baffle 23 causes the rotating tub 14 to rotate.
  • the laundry located at both ends in the axial direction can be moved to the vicinity of the main baffle 20-22.
  • the laundry located at both ends in the axial direction of the rotating tub 14 is moved by the auxiliary baffle 23 to the vicinity of the main baffles 20 to 22 so that a mechanical force is applied (push washing), so that the washing performance is improved.
  • the control microcomputer drives the drainage device to discharge the water in the water tank 10, it drives the motor to rotate the rotary tank 14 in one direction at a low speed of about 40 rpm.
  • the laundry that has become heavy and contains a large amount of water at the end of drainage is located in the lower part of the rotating tub 14. Therefore, when the rotating tub 14 is rotated at a low speed, the laundry is held by the main baffles 20-22. After being lifted, the operation of falling is repeated. As a result, water contained in the laundry is removed to some extent.
  • control microcomputer drives the motor to rotate the rotating tank 14 in one direction at a rotation speed of about 60 to 80 rpm.
  • the laundry in the rotating tub 14 is moved in the rotating tub 14 by the main baffles 20-22 and the auxiliary knotles 23, and is uniformly attached to the entire peripheral wall.
  • the laundry located near the center in the axial direction in the rotating tub 14 is a force that is lifted by the main baffles 20 to 22.
  • the laundry sticks to the peripheral wall and falls due to the magnitude of the centrifugal force acting on the laundry.
  • FIG. 5 is a diagram for explaining the centrifugal force acting on the laundry S in the rotating tub 14.
  • the distance from the center of rotation O of the rotating tub 14 to the center of gravity of the laundry S is:!
  • the mass of the laundry S is m
  • the rotational angular velocity is ⁇
  • the centrifugal force acting on the laundry S F is defined as follows.
  • the centrifugal force F is proportional to the distance r.
  • the distance rl between the center of gravity of the laundry item S1 located at the outer peripheral portion and the rotation center axis O is rl
  • the distance between the center of gravity of the laundry S2 located and the rotation center axis O is larger than r2 (rl> r2). Therefore, the centrifugal force acting on the laundry S1 is larger than the centrifugal force acting on the laundry S2.
  • the laundry located on both sides in the axial direction of the rotating tub 14 is lifted by the auxiliary baffle 23 because the laundry is lightened by removing moisture.
  • the auxiliary buffer 23 has a triangular pyramid shape
  • the laundry is positioned near the axial center of the rotary tub 14 by the inclined surface 23a, and is rotated by the inclined surface 23b from both sides in the circumferential direction of the auxiliary noodle 23.
  • Direction Moved near the center.
  • the laundry is collected near the axial center of the rotating tub 14.
  • the laundry collected near the center of the rotating tub in the axial direction is the main baffle 20-22 described above. It is evenly attached to the inner surface of the peripheral wall of the rotary tank 14 depending on the application.
  • the laundry in the rotating tub 14 is gradually dispersed over the entire inner surface of the peripheral wall, and the imbalance is reduced.
  • the amount of laundry existing near the center in the axial direction of the rotary tub 14 becomes larger than the amount of laundry existing near both ends (near the end plate).
  • the control microcomputer determines that the laundry has uniformly adhered to the peripheral wall of the rotating tub 14, it drives the motor to increase the rotation speed of the rotating tub 14 to about 100 rpm.
  • the determination as to whether or not the force that the laundry has uniformly adhered to the peripheral wall of the rotating tub is made, for example, by detecting a change in the rotation speed of the motor during one rotation of the rotating tub (that is, uneven rotation).
  • This rotation speed (100 rpm) is set to a rotation speed at which the centrifugal force applied to all the laundry in the rotating tub 14 exceeds the gravitational acceleration. Therefore, here, the rotary tub 14 rotates with all the laundry in the rotary tub 14 adhered to the peripheral wall portion.
  • the control microcomputer drives the motor to raise the rotating tank 14 to a maximum speed of 900 to 1200 rpm.
  • the laundry rotates together with the rotary tub 14 while being attached to the inner surface of the peripheral wall of the rotary tub 14, and is centrifugally dehydrated.
  • the control microcomputer reduces the rotating speed to reduce the laundry in the rotating tub 14. To perform an operation to correct the imbalance that is causing the resonance vibration. Then, after correcting the imbalance, the rotation speed of the rotary tank 14 is increased again to the maximum speed.
  • the magnitude of the vibration generated during dehydration is determined by the excitation force.
  • the magnitude of the excitation force is determined by the centrifugal force applied to the laundry S and the moment of inertia around the center of gravity acting on the laundry S.
  • the moment of inertia M is defined as follows, where G is a plane passing through the center of gravity of the vibration system and orthogonal to the rotation center axis O, and L is the distance from the plane G to the center of gravity of the laundry S.
  • F is the centrifugal force acting on the laundry.
  • the moment of inertia M is proportional to the distance r and the distance L.
  • the centrifugal force F is proportional to the distance r. Therefore, it is caused by the imbalance existing near the axial center of the rotary tank 14.
  • the vibration caused by the unbalance existing at both ends in the axial direction in the rotary tank 14 is smaller by J / J.
  • the control microcomputer drives the motor to rotate the rotary tub 14 at low speed in the forward and reverse directions, and also drives the drying device.
  • the warmed air is supplied into the rotating tub 14 to remove moisture contained in the laundry.
  • the air from which moisture has been removed is dehumidified, warmed, and returned to the rotating tank 14 again.
  • the laundry in the rotating tub 14 is dried by the circulation of the air.
  • the rotating tub 14 when the rotating tub 14 is rotated at a low speed in the forward and reverse directions, the laundry in the rotating tub 14 is lifted by the main baffles 20-22, and is heated by the hot air flowing through the rotating tub 14. Spreads into 14 and falls. Further, the auxiliary baffle 23 moves the laundry that has spread and fallen into the rotating tub 14 to a position near the axial center of the rotating tub 14. That is, the laundry in the rotating tub 14 moves in the rotating tub 14 while being dispersed or concentrated. Therefore, the warm air flowing through the rotating tub 14 and the laundry come into efficient contact with each other, and the drying efficiency is improved.
  • the laundry is agitated by the main baffle 20-22 and the auxiliary baffle 23, so that the laundry is less likely to be twisted or entangled at the end of drying. It turned out to be.
  • FIG. 7 shows a drum type washing machine having a main baffle 20-22 and an auxiliary baffle 23 (indicated by P in FIG. 7) and a drum type washing machine having only the main baffle 20-22 (indicated by Q in FIG. 7).
  • 5) is a bar graph comparing the cloth entanglement ratio at the end of drying in ()).
  • the horizontal axis indicates the laundry amount
  • the vertical axis indicates the cloth entanglement ratio.
  • T ⁇ (Tl-TO) / TO ⁇ X 100
  • TO and T1 represent one piece of laundry (composed of a plurality of bleached cotton fabrics) before and after the washing operation in accordance with the rhythm of the metronome. It shows the average time (seconds) required to remove all the laundry when 14 rotators were removed at a time.
  • the drum-type washing machine having the auxiliary baffle 23 has a lower cloth entanglement rate than the drum-type washing machine having no auxiliary baffle 23.
  • the following effects can be obtained. That is, by providing the auxiliary baffle 23 in the rotary tub 14, the laundry in the rotary tub 14 can be moved near the axial center, in other words, near the center of gravity of the vibration system during the spin-drying process. Therefore, generation of vibration and noise during the dehydration step can be suppressed. Further, the laundry located at both axial ends of the rotary tub 14 can be efficiently moved to the vicinity of the center in the axial direction by the auxiliary baffle 23, so that the operation time for correcting imbalance can be reduced. .
  • the washing material moves in the rotary tank 14 while repeating dispersion and concentration by cooperation of the main baffle 20-22 and the auxiliary baffle 23.
  • the main baffle 20-22 and the auxiliary baffle 23 are separated from each other, so that the main baffle 20-22 and the auxiliary baffle 23 can efficiently move the laundry in cooperation with each other. For this reason, the drying efficiency can be improved, and the cloth entanglement of the laundry can be reduced.
  • the amount of screen generated on the laundry at the end of drying is smaller in the drum type washing machine having the auxiliary baffle 23 than in the drum type washing machine having no holding baffle 23. Less was observed. This is due to the small cloth entanglement rate during the drying process. Therefore, according to the present embodiment, there is also obtained an effect that the laundry can be finished in a good condition.
  • FIG. 8 shows the results of an experiment performed by the inventors on the difference in the amplitude of vibration generated during dehydration depending on the presence or absence of the auxiliary baffle 23 and the size of the auxiliary baffle 23.
  • the horizontal axis represents the amount of laundry (kg), and the vertical axis represents the amplitude of vibration (mm).
  • broken lines P1 to P4 indicate a drum type washing machine having a main baffle 20-22 and an auxiliary baffle 23, and a broken line Q indicates a drum type washing machine having only a main baffle 20-22.
  • the combinations of the lengths (HI, H2) see FIG.
  • the drum type washing machine having the main baffle 20-22 and the auxiliary baffle 23 has a lower vibration than that of the drum type washing machine having only the main baffle 20-22.
  • the amplitude is small.
  • the amplitude of the drum type washing machine indicated by the broken line P4 that is, the drum type washing machine having the auxiliary baffle 23 according to the present embodiment, is the smallest. Therefore, in the present embodiment, the vibration generated during dehydration can be significantly reduced.
  • FIGS. 9 and 10 are diagrams for examining the difference in vibration amplitude due to the difference in height of the auxiliary baffle 23 and the difference in vibration amplitude due to the difference in the axial length of the auxiliary baffle 23.
  • 7 is a graph created based on the experimental results shown in FIG.
  • Fig. 9 is created based on the experimental results (corresponding to the broken lines P1 and P2 in Fig. 8) of the drum type washing machine having the auxiliary baffle 23 having the same axial length (60mm) and different heights. It was done.
  • the horizontal axis in Fig. 9 indicates the height (mm) of the auxiliary baffle 23, and the vertical axis indicates the amount of reduction (mm) relative to the amplitude of the drum type washing machine (corresponding to the polygonal line Q in Fig. 8) without the auxiliary baffle Is shown.
  • Fig. 10 is based on the experimental results (corresponding to the broken lines P1 and P3 in Fig.
  • FIG. 10 indicates the axial length (mm) of the auxiliary baffle 23, and the vertical axis indicates the reduction amount (mm) with respect to the amplitude of the drum type washing machine without the auxiliary baffle.
  • the polygonal lines K1 to K4 in FIGS. 9 and 10 are created based on the data when the laundry amount is 1 kg, 3 kg, 5 kg, and 8 kg.
  • the vibration reduction amount increases as the height of the auxiliary baffle 23 increases and as the length in the axial direction increases.
  • the vibration reduction effect becomes significant when the vibration reduction amount exceeds 0.5 mm. Therefore, the size of the auxiliary baffle with a vibration reduction of 0.5 mm or more in at least two of the four types of laundry in the experiment was about 30 mm or more in height and about 50 mm in axial length. That is all.
  • the height dimension of the auxiliary baffle affects the action of lifting the laundry, and is related to the thickness dimension of the laundry. Therefore, since the general thickness of the laundry is about 30 mm, the height of the auxiliary baffle is preferably 30 mm or more.
  • the axial length dimension of the auxiliary baffle affects the action of moving the laundry located at the axial end of the rotary tub to near the center of gravity of the vibration system, and the axial length of the rotary tub. It is related to the size and the distance from the end of the rotating tank to the center of gravity of the vibration system.
  • the axial direction of the auxiliary baffle 23 can provide a significant vibration reduction effect.
  • the length is one-eighth or more of the axial length of the rotary tank 14, and the end plate force is one-fourth or more of the distance to the center of gravity.
  • the auxiliary baffle 23 needs to be arranged in the area from the end plate of the rotary tank to the surface G (see FIG. 5) on the inner surface of the peripheral wall of the rotary tank.
  • auxiliary baffles provided on both axial sides of the rotary tub may not face each other.
  • auxiliary baffle need not be in contact with the end plate as long as it is provided on the peripheral wall so as to be close to the end plate of the rotary tank.
  • the laundry in the rotating tub is turned only at the front of the peripheral wall of the rotating tub in order to bias the laundry in the rotating tub toward the back (rear). It is preferable to provide an auxiliary baffle close to the front end plate of the transfer tank.
  • the pair of auxiliary baffles facing in the axial direction have different axial lengths. That is, when the center of gravity is located on one side of the axial center of the rotary tank, the auxiliary baffle disposed on one side in the axial direction of the peripheral wall portion is longer than the auxiliary baffle disposed on the other side in the axial direction. It is better to reduce the size.
  • each auxiliary baffle must be located in the area between the plane G passing through the center of gravity and the end plate.
  • the auxiliary baffle may be formed by press-molding a peripheral wall portion or an end plate of the rotary tank. According to the above configuration, the auxiliary baffle and the rotary tub can be integrally formed, and the number of assembling steps can be reduced.
  • the auxiliary baffle is not limited to a triangular pyramid shape, and may be, for example, a semi-conical shape.
  • the present invention can also be applied to a drum type washing machine having a laundry entrance at the front.
  • an auxiliary baffle which is close to the front end plate of the rotary tub may be provided only at the front of the peripheral wall of the rotary tub.
  • the rotating tank having an opening on the front rotates around a rotating shaft provided at the rear. For this reason, when the laundry is collected at the front part in the rotating tub, the vibration of the rotating tub increases and a large moment is applied to the rotating shaft and the bearing.
  • the auxiliary baffle is provided at the front of the peripheral wall of the rotating tub, it is possible to prevent the laundry from being concentrated on the front of the rotating tub, thereby suppressing the occurrence of vibration.
  • the drum type washing machine according to the present invention can suppress the occurrence of vibration, and is therefore useful as a general household washing machine used in a quiet environment.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
  • Aviation & Aerospace Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Main Body Construction Of Washing Machines And Laundry Dryers (AREA)

Abstract

A drum type washing machine comprising a water tank (10), a rotary tank (14) disposed in the water tank (10) and driven for rotation around a horizontal axis, a suspension (11) which elastically supports the water tank (10), and auxiliary baffles (23) which is disposed on the inner surface of the peripheral wall of the rotary tank (14) so that they are close to one of the axial end plates of the rotary tank (14) and away from the other and which extends along the axial direction of the rotary tank (14). The auxiliary baffles (23) are arranged to move the washing in the rotary tank (14) toward the vicinity of the center of gravity of the vibration-system members which impose loads on the suspension (11).

Description

明 細 書  Specification
ドラム式洗濯機  Drum type washing machine
技術分野  Technical field
[0001] 本発明は、横軸回りに回転する回転槽を有するドラム式洗濯機に関する。  The present invention relates to a drum type washing machine having a rotating tub that rotates around a horizontal axis.
背景技術  Background art
[0002] ドラム式洗濯機は、略水平な横軸回りに回転する回転槽及び前記回転槽を収容す る水槽を有しており、前記回転槽の周壁部の内面には洗濯物を持ち上げるための複 数のノ ッフルが設けられている。洗い、すすぎ工程では、前記水槽内に水を貯留し 前記回転槽内に洗濯物を収容した状態で前記回転槽が低速で回転される。これに より、回転槽内の洗濯物は持ち上げられ、その後、落下するという動作が繰り返され、 以つて、前記洗濯物はたたき洗いされる。脱水工程では、回転槽を低速で回転させ て洗濯物に含まれる水分をある程度取り除いた後、回転槽の回転速度が徐々に最 高速度まで上昇される。これにより、洗濯物が遠心脱水される。  [0002] A drum-type washing machine has a rotary tub that rotates about a substantially horizontal axis and a water tub that houses the rotary tub. An inner surface of a peripheral wall of the rotary tub is used to lift laundry. There are multiple knotles. In the washing and rinsing steps, the rotary tub is rotated at a low speed in a state where water is stored in the water tub and laundry is stored in the rotary tub. Thus, the operation of lifting the laundry in the rotating tub and then dropping the laundry is repeated, so that the laundry is beat-washed. In the spin-drying process, the rotating tub is rotated at a low speed to remove water contained in the laundry to some extent, and then the rotating speed of the rotating tub is gradually increased to the maximum speed. Thereby, the laundry is centrifugally dehydrated.
[0003] ところで、ドラム式洗濯機では、洗濯物が回転槽内に片寄って投入される等により 洗濯運転開始時における洗濯物の配置が片寄っていると、その片寄った状態は洗 濯工程が進んでも解消され難いという事情がある。回転槽内のうち特に軸方向両端 部付近にアンバランスが存在すると、脱水工程時に大きな振動が発生する。このため 、従来のドラム式洗濯機では、アンバランスに起因する大きな振動や騒音の発生を抑 えるために、液体バランサを設けたり、アンバランスを修正するために脱水工程初期 に回転槽を低速で正逆回転させたりしている。しかし、上記した方法を採用しても、洗 濯容量が大き 、大型のドラム式洗濯機では振動や騒音を十分に抑制できな 、と 、う 問題があった。  [0003] In a drum-type washing machine, if the laundry is displaced at the start of the washing operation due to, for example, the laundry being displaced into the rotating tub, the washing process proceeds in the deviated state. But there is a situation that is difficult to be solved. If there is an imbalance in the rotating tank, especially near both ends in the axial direction, large vibrations occur during the dewatering process. For this reason, in a conventional drum type washing machine, a liquid balancer is provided to suppress generation of large vibration and noise due to imbalance, and a rotating tub is operated at a low speed in an early stage of the dehydration process in order to correct the imbalance. They rotate forward and backward. However, even if the above-mentioned method is adopted, there is a problem that the washing capacity is large and vibration and noise cannot be sufficiently suppressed in a large drum type washing machine.
[0004] これ【こ対して、曰本国特許公開 2002— 315985号公報 (JP—A— 2002— 31598)【こ は、前上がりに傾斜した回転槽を備えたドラム式洗濯機において、アンバランスに起 因する洗浄性能の低下を抑えるために、ノ ッフルに加えて回転槽の後端板に補助バ ッフルを設ける構成が提案されている。前記回転槽を前上がりに傾斜させると洗濯物 が奥部に片寄り易い。上記構成によれば、回転槽内の奥部に片寄って存在する洗 濯物を十分に撹拌できるため、洗いムラの発生を抑えることができる。 特許文献 1:特開 2002-315985号公報 [0004] On the other hand, in Japanese Patent Laid-Open Publication No. 2002-315985 (JP-A-2002-31598), this is an imbalance in a drum type washing machine having a rotating tub that is inclined forward. In order to suppress the deterioration of the cleaning performance caused by this, a configuration has been proposed in which an auxiliary baffle is provided on the rear end plate of the rotating tub in addition to the noodle. If the rotating tub is inclined forward and upward, the laundry tends to lean toward the back. According to the above configuration, the washing that is present in the inner part of the rotating tank in a one-sided manner. Since the rinse can be sufficiently stirred, the occurrence of uneven washing can be suppressed. Patent Document 1: Japanese Patent Application Laid-Open No. 2002-315985
発明の開示  Disclosure of the invention
発明が解決しょうとする課題  Problems to be solved by the invention
[0005] しかし、上記した補助バッフルは、従来のバッフルでは撹拌できな力つた回転槽内 の奥部の洗濯物を撹拌することを目的に設けられたものである。つまり、前記補助バ ッフルを設けても、回転槽内の奥部に洗濯物が片寄って存在する状態は解消されな いまま洗濯運転が継続される。このため、脱水工程時に大きな振動や騒音が発生し 易いという問題があった。 [0005] However, the above-mentioned auxiliary baffle is provided for the purpose of agitating the laundry in the inner part of the rotating tub which cannot be agitated by the conventional baffle. That is, even if the auxiliary baffle is provided, the washing operation is continued without removing the state in which the laundry is offset in the inner part of the rotating tub. For this reason, there was a problem that large vibrations and noises were easily generated during the dewatering process.
本発明の目的は、脱水工程時における振動や騒音の発生を低減することができる ドラム式洗濯機を提供することである。  An object of the present invention is to provide a drum type washing machine capable of reducing generation of vibration and noise during a spin-drying step.
課題を解決するための手段  Means for solving the problem
[0006] 本発明は、水槽と、前記水槽内に設けられ横軸回りに回転駆動される回転槽と、前 記水槽を弾性的に支持する弾性支持手段とを備えたドラム式洗濯機において、前記 回転槽の周壁部内面に補助バッフルを設けたものである。前記補助バッフルは、前 記回転槽の軸方向に沿って延びており、前記回転槽の軸方向両端板のうちの一方 に近接し他方と離間するように前記回転槽の周壁部内面に設けられている。前記補 助バッフルにより、回転槽内の洗濯物は、前記弾性支持手段に対して荷重をかける 振動系部材の重心付近に移動されるように構成されて 、る。 [0006] The present invention relates to a drum type washing machine including a water tub, a rotary tub provided in the water tub, and driven to rotate around a horizontal axis, and elastic supporting means for elastically supporting the water tub. An auxiliary baffle is provided on the inner surface of the peripheral wall of the rotary tank. The auxiliary baffle extends along the axial direction of the rotary tub, and is provided on the inner surface of the peripheral wall of the rotary tub so as to be close to one of the axial end plates of the rotary tub and separated from the other. ing. With the aid of the auxiliary baffle, the laundry in the rotating tub is configured to be moved near the center of gravity of the vibration system member that applies a load to the elastic support means.
この場合、前記補助バッフルは、回転槽の一方の端板力も他方の端板に向力つて 周壁部側に傾斜する傾斜面を備えるように構成すると良 、。  In this case, it is preferable that the auxiliary baffle be configured so as to include an inclined surface that is inclined toward the peripheral wall portion with the force of one end plate of the rotating tub facing the other end plate.
発明の効果  The invention's effect
[0007] 本発明のドラム式洗濯機は、洗濯運転時に回転槽が回転されると、回転槽の軸方 向両端部に位置する洗濯物が補助バッフルの作用により回転槽内の中央付近に移 動する。従って、脱水工程時に回転槽の軸方向両端部にアンバランスが発生するこ とが防止されるため、大きな振動の発生を抑えることができる。  [0007] In the drum type washing machine of the present invention, when the rotating tub is rotated during the washing operation, the laundry located at both axial ends of the rotating tub is moved to the vicinity of the center in the rotating tub by the action of the auxiliary baffle. Move. Therefore, it is possible to prevent the occurrence of imbalance at both ends in the axial direction of the rotating tub during the spin-drying step, thereby suppressing the occurrence of large vibration.
図面の簡単な説明 [0008] [図 1]図 1は本発明の一実施例を示すドラム式洗濯機の全体構成を示す外観斜視図 である。 Brief Description of Drawings FIG. 1 is an external perspective view showing an overall configuration of a drum type washing machine showing one embodiment of the present invention.
[図 2]図 2はドラム式洗濯機の縦断側面図である。  FIG. 2 is a vertical sectional side view of a drum-type washing machine.
[図 3]図 3はドラム蓋を省略して示す回転槽の斜視図である。  [FIG. 3] FIG. 3 is a perspective view of a rotary tank with a drum lid omitted.
[図 4]図 4は補助バッフルの拡大斜視図である。  FIG. 4 is an enlarged perspective view of an auxiliary baffle.
[図 5]図 5は回転槽内の外周部に位置する洗濯物に力かる遠心力と内周部に位置す る洗濯物に力かる遠心力の違いを説明するための図である。  FIG. 5 is a diagram for explaining the difference between the centrifugal force acting on the laundry located on the outer peripheral portion in the rotating tub and the centrifugal force acting on the laundry located on the inner peripheral portion.
[図 6]図 6は洗濯物に力かる遠心力及び重心回りの慣性モーメントの大きさを説明す るための図である。  [Fig. 6] Fig. 6 is a diagram for explaining the magnitude of the centrifugal force exerted on the laundry and the moment of inertia around the center of gravity.
[図 7]図 7は補助バッフルの有無による乾燥終了時における布絡み率の違いを示す 図である。  FIG. 7 is a diagram showing a difference in cloth entanglement ratio at the end of drying depending on the presence or absence of an auxiliary baffle.
[図 8]図 8は補助バッフルの有無及び補助バッフルの大きさによる脱水工程時に発生 する振動の違!、を示す図である。  [FIG. 8] FIG. 8 is a view showing a difference in vibration generated during a dehydration step depending on the presence or absence of an auxiliary baffle and the size of the auxiliary baffle.
[図 9]図 9は補助バッフル 23の高さ寸法の違いによる振動振幅の違いを説明するた めの図である。  FIG. 9 is a diagram for explaining a difference in vibration amplitude due to a difference in height of the auxiliary baffle 23.
[図 10]図 10は補助バッフル 23の軸方向長さ寸法の違いによる振動振幅の違いを説 明するための図である。  FIG. 10 is a diagram for explaining a difference in vibration amplitude due to a difference in axial length of the auxiliary baffle 23.
符号の説明  Explanation of symbols
[0009] 1はドラム式洗濯機、 10は水槽、 11はサスペンション (弾性支持手段)、 14は回転 槽、 15ίま槽軸、 20, 21, 22ίま主ノッフノレ、 23 ίまネ甫助ノ ッフノレ、 23a, 23biま傾斜面 を示す。  [0009] 1 is a drum-type washing machine, 10 is a water tub, 11 is a suspension (elastic support means), 14 is a rotary tub, a 15-mm tub shaft, 20, 21, and 22 um main Knofle, and 23 umbo Hosuke Nohle , 23a, 23bi are shown.
発明を実施するための最良の形態  BEST MODE FOR CARRYING OUT THE INVENTION
[0010] 本発明をより詳細に説述するために、添付の図面に従ってこれを説明する。 [0010] In order to explain the present invention in more detail, the present invention will be described with reference to the accompanying drawings.
図 1ないし図 10は本発明の一実施例を示している。本実施例は、トップオープンタ イブのドラム式洗濯機に適用したものである。図 1及び図 2に示すように、洗濯機 1は 、台板 2、台板 2上に固定された外箱 3、前記外箱 3上に装着され洗濯物出入口 4を 有するトップカバー 5から構成されている。外箱 3は、外箱主体部 6と前板 7とから構成 されている。前記トップカバー 5には、前記洗濯物出入口 4を開閉する外蓋 8が設けら れている。前記外蓋 8は前蓋部 8aと後蓋部 8aとからなる二つ折りタイプに構成されて いる。トップカバー 5の右前部には操作パネル 9が設けられている。 1 to 10 show one embodiment of the present invention. This embodiment is applied to a top-open type drum type washing machine. As shown in FIGS. 1 and 2, the washing machine 1 includes a base plate 2, an outer box 3 fixed on the base plate 2, and a top cover 5 mounted on the outer box 3 and having a laundry entrance 4. Have been. The outer box 3 includes an outer box main body 6 and a front plate 7. The top cover 5 is provided with an outer lid 8 for opening and closing the laundry entrance 4. It is. The outer lid 8 is of a two-fold type including a front lid 8a and a rear lid 8a. At the right front of the top cover 5, an operation panel 9 is provided.
[0011] 外箱 3の内部には、略円筒状の水槽 10が複数のサスペンション 11 (弾性支持手段 に相当)を介して弾性支持されている。前記サスペンション 11は、ダンバ 11 a及びサ スペンションパネ l ibから構成されている。前記水槽 10の上部には内蓋 12により開 閉される開口部 13が形成されている。開口部 13が内蓋 12で閉鎖されているとき、前 記内蓋 12と開口部 13との間は水密にシールされるようになっている。  [0011] Inside the outer case 3, a substantially cylindrical water tank 10 is elastically supported via a plurality of suspensions 11 (corresponding to elastic support means). The suspension 11 includes a damper 11a and a suspension panel ib. An opening 13 which is opened and closed by an inner lid 12 is formed in an upper part of the water tank 10. When the opening 13 is closed by the inner lid 12, the space between the inner lid 12 and the opening 13 is sealed in a watertight manner.
[0012] 前記水槽 10の内部には、円筒状の回転槽 14が回転可能に支持されている。前記 回転槽 14の直径寸法は約 520mmに、軸方向の長さ寸法は約 400mmに設定されて いる。前記回転槽 14は洗濯槽、脱水槽、乾燥槽として機能し、その周壁部には多数 の小さな孔部(図示せず)が設けられている。前記回転槽 14の左右両端板には略水 平方向に延びる槽軸 15 (図 5にのみ示す)が設けられており、これら槽軸 15は水槽 1 0の左右両端板に設けられた軸受(図示せず)に回転可能に支持されている。前記 槽軸 15は、略水平方向に延びている。水槽 10の左端板にはモータ(図示せず)が設 けられており、前記水槽 10の左端板に支持された槽軸 15の端部に前記モータの回 転軸が連結されている。つまり、前記回転槽 14は前記モータにより直接的に回転駆 動される。図 2中「0」で示す点は槽軸 15の中心 (即ち、回転槽 14の回転中心軸)を 示している。  [0012] Inside the water tank 10, a cylindrical rotary tank 14 is rotatably supported. The diameter of the rotary tank 14 is set to about 520 mm, and the length in the axial direction is set to about 400 mm. The rotary tub 14 functions as a washing tub, a dewatering tub, and a drying tub, and has a number of small holes (not shown) on its peripheral wall. Tank shafts 15 (shown only in FIG. 5) extending substantially in the horizontal direction are provided on the left and right end plates of the rotary tank 14, and these shafts 15 are provided on bearings provided on the left and right end plates of the water tank 10. (Not shown) so as to be rotatable. The tank shaft 15 extends in a substantially horizontal direction. A motor (not shown) is provided on a left end plate of the water tank 10, and a rotation shaft of the motor is connected to an end of a tank shaft 15 supported on the left end plate of the water tank 10. That is, the rotary tank 14 is directly driven to rotate by the motor. The point indicated by “0” in FIG. 2 indicates the center of the tank shaft 15 (that is, the rotation center axis of the rotary tank 14).
[0013] 前記回転槽 14の周壁部には、ドラム蓋 16により開閉される開口部 17 (図 3参照)が 設けられている。前記ドラム蓋 16は、図 2における回動支点 18aを中心に回動する蓋 主板 18、回動支点 19aを中心に回動する補助板 19から構成されている。前記蓋主 板 18及び補助板 19は、図示しない連動機構により連動して開閉動作し、ドラム蓋 16 が閉鎖状態(図 2に示す状態)にあるとき、補助板 19の先端部の上に蓋主板 18の先 端部が重なるように構成されている。また、前記ドラム蓋 16の閉鎖状態は、図示しな いロック手段により保持されるようになっている。尚、前記回転槽 14が停止していると き、前記開口部 17は水槽 10の開口部 13と対向するように構成されている。  An opening 17 (see FIG. 3) that is opened and closed by a drum lid 16 is provided on a peripheral wall of the rotary tank 14. The drum lid 16 is composed of a lid main plate 18 that rotates around a rotation fulcrum 18a in FIG. 2, and an auxiliary plate 19 that rotates around a rotation fulcrum 19a. The lid main plate 18 and the auxiliary plate 19 are opened and closed in an interlocked manner by an interlocking mechanism (not shown). When the drum lid 16 is in a closed state (the state shown in FIG. 2), the lid The main plate 18 is configured so that the front ends thereof overlap. The closed state of the drum lid 16 is held by a lock means (not shown). The opening 17 is configured to face the opening 13 of the water tank 10 when the rotary tank 14 is stopped.
[0014] 図 2及び図 3に示すように、前記回転槽 14の周壁部内面には断面ほぼ三角形状の 複数、例えば 3個の主バッフル 20— 22が設けられている。 3個の主バッフル 20— 22 はほぼ等間隔に配置されており、そのうち前記開口部 17を挟んで前記開口部 17の 両側に配置されている 2個の主バッフル 20, 21は、その長さ寸法が約 230mmに設 定されている。また、回転槽 14の回転中心を挟んで前記開口部 17と対向する部位 に配置されている 1個の主バッフル 22は、その長さ寸法が約 320mmに設定されて いる。また、 3個の主バッフル 20— 22の高さ寸法(回転槽 14の径方向寸法)は、いず れも約 30mmに設定されている。前記主バッフル 20— 22は、いずれも回転槽 14の 両端板からほぼ同じ距離だけ離間するように周壁部の軸方向中心に寄せて配置され ている。尚、図示しないが、長さ寸法が大きい主バッフル 22の内部には、ドラム蓋 16 との釣り合 、を取るためのカウンタウェイトが収容されて 、る。 As shown in FIGS. 2 and 3, a plurality of, for example, three main baffles 20 to 22 having a substantially triangular cross section are provided on the inner surface of the peripheral wall of the rotary tub 14. Three main baffles 20—22 Are arranged at substantially equal intervals, of which two main baffles 20, 21 arranged on both sides of the opening 17 with the opening 17 interposed therebetween have lengths set to about 230 mm. ing. The length of one main baffle 22 disposed at a position facing the opening 17 with the rotation center of the rotary tub 14 interposed therebetween is set to about 320 mm. The height of the three main baffles 20-22 (the radial dimension of the rotary tank 14) is set to about 30 mm. The main baffles 20 to 22 are arranged close to the center in the axial direction of the peripheral wall portion so as to be almost the same distance from both end plates of the rotary tank 14. Although not shown, a counterweight for taking balance with the drum lid 16 is accommodated inside the main baffle 22 having a large length.
[0015] また、図 2ないし図 4に示すように、回転槽 14の周壁部内面のうち主バッフル 20と 主バッフル 22との間及び主バッフル 21と主バッフル 22の間には、それぞれ補助バッ フル 23 (第 1及び第 2のバッフル)がー対ずつ設けられている。各対の補助バッフル 2 3は、回転槽 14の軸方向に対向するように周壁部内面の左右両端部に配置されて いる。各補助バッフル 23は回転槽 14の左端板或いは右端板に接触しており、ねじに より周壁部に固定されている。前記補助バッフル 23は回転槽 14の端板力も周壁部 の軸方向中央付近に向かって先細となる略三角錐状を有している。また、前記補助 場降る 23は、回転槽 14の両端板のうちの一方力も他方に向かって周壁部側に傾斜 する幅狭な傾斜面 23a、前記傾斜面 23aから周壁部に向力つて周方向両側に傾斜 する三角形状の傾斜面 23bを有している。  As shown in FIGS. 2 to 4, auxiliary baffles are respectively provided between the main baffle 20 and the main baffle 22 and between the main baffle 21 and the main baffle 22 on the inner surface of the peripheral wall of the rotary tank 14. Full 23 (first and second baffles) are provided for each pair. The auxiliary baffles 23 of each pair are disposed at both left and right ends of the inner surface of the peripheral wall so as to face the rotating tank 14 in the axial direction. Each auxiliary baffle 23 is in contact with the left end plate or the right end plate of the rotary tub 14, and is fixed to the peripheral wall by screws. The auxiliary baffle 23 has a substantially triangular pyramid shape in which the end plate force of the rotary tub 14 also tapers toward the vicinity of the axial center of the peripheral wall portion. Also, the auxiliary field descending 23 has a narrow inclined surface 23a in which one of the two end plates of the rotary tub 14 also inclines toward the peripheral wall side toward the other, and a circumferential force is applied from the inclined surface 23a toward the peripheral wall. It has a triangular inclined surface 23b that is inclined on both sides.
[0016] 図 4に示すように、前記補助バッフル 23のうち回転槽 14の端板と接触する部分の 高さ寸法(回転槽 14の径方向における長さ寸法)を HI (図 4参照)とすると、高さ寸法 HIは約 65mmに設定されている。また、前記補助バッフル 23のうち回転槽 14の周 壁部における長さ寸法を H2とすると、長さ寸法 H2は約 100mmに設定されている。  As shown in FIG. 4, the height of the portion of the auxiliary baffle 23 that comes into contact with the end plate of the rotary tub 14 (the length in the radial direction of the rotary tub 14) is HI (see FIG. 4). Then, the height dimension HI is set to about 65 mm. When the length of the auxiliary baffle 23 in the peripheral wall of the rotary tank 14 is H2, the length H2 is set to about 100 mm.
[0017] また、回転槽 14の周壁部内面のうち補助バッフル 23と主バッフル 22との間には開 口(図示せず)が形成されている。前記開口は、回転槽 14と水槽 10との間に入り込 んだ洗濯物を回収するためのものであり、カバー 25によって閉鎖されている。  An opening (not shown) is formed between the auxiliary baffle 23 and the main baffle 22 on the inner surface of the peripheral wall of the rotary tub 14. The opening is for collecting laundry that has entered between the rotating tub 14 and the water tub 10, and is closed by a cover 25.
尚、詳しく図示しないが、前記外箱 3内には、水槽 10内に水を供給するための給水 装置、前記水槽 10内の水を排出するための排水装置、回転槽 14内の空気を除湿し 温風化して回転槽 14内に戻すことにより洗濯物を乾燥させる乾燥装置等が設けられ ている。 Although not shown in detail, the outer box 3 has a water supply device for supplying water into the water tank 10, a drainage device for discharging water from the water tank 10, and dehumidification of air in the rotary tank 14. And A drying device and the like for drying the laundry by warming it and returning it to the rotating tub 14 are provided.
そして、本実施例では、ドラム式洗濯機 1を構成する部材のうちサスペンション 11に 対して荷重をかける水槽 10や回転槽 14、モータ等力もなる振動系部材の重心が回 転槽 14の軸方向中心に位置するように構成されて 、る。  In this embodiment, among the members constituting the drum type washing machine 1, the center of gravity of the water tank 10 and the rotating tank 14 that apply a load to the suspension 11, and the vibration system member that also generates a force such as a motor is positioned in the axial direction of the rotating tank 14. It is configured to be centrally located.
[0018] 次に、上記構成の作用について説明する。前記ドラム式洗濯機 1は、外箱 3内に収 容された制御用マイコン(図示せず)により運転全般が制御されるようになって!/ヽる。 回転槽内に洗濯物が収容され、運転開始の指示がなされると、前記制御用マイコン は予め設定された運転コースに従って各工程を実行する。例えば、標準的な運転コ ースが設定された状態で洗濯運転が開始されると、制御用マイコンは洗い工程、す すぎ工程、脱水工程、乾燥工程を順次実行する。  Next, the operation of the above configuration will be described. The entire operation of the drum-type washing machine 1 is controlled by a control microcomputer (not shown) contained in the outer box 3! / ヽ. When laundry is stored in the rotating tub and an instruction to start operation is given, the control microcomputer executes each process according to a preset operation course. For example, when the washing operation is started with the standard operation course set, the control microcomputer sequentially executes a washing step, a rinsing step, a dehydrating step, and a drying step.
[0019] 具体的には、洗!、工程及びすすぎ工程では、制御用マイコンは給水装置を駆動し て水槽 10内に所定の水位まで洗濯水を供給した後、モータを駆動し、回転槽 14を 正逆方向に低速回転させる。尚、前記制御用マイコンは、回転槽 14の停止時には、 開口部 17が水槽 10の開口部 13と対向するように前記モータを制御する。回転槽 14 が低速で正逆回転されることにより、回転槽 14内に収容された洗濯物は、水槽 10内 の水と共に主バッフル 20— 22により持ち上げられた後、落下するという動作が繰り返 され、洗い、すすぎが行われる。この場合、洗濯物が水分を含んでおり重くなつてい るため、三角錐状の補助バッフル 23の洗濯物を持ち上げる作用は主バッフル 20— 2 2よりも小さいが、補助バッフル 23により回転槽 14の軸方向両端部に位置する洗濯 物を主バッフル 20— 22の近傍に移動させることができる。また、回転槽 14の軸方向 両端部に位置する洗濯物は補助バッフル 23によって主バッフル 20— 22の近傍に移 動されることにより機械力が付与される(押し洗いされる)ため、洗浄性能が向上する  [0019] Specifically, in the washing, washing and rinsing steps, the control microcomputer drives the water supply device to supply the washing water to a predetermined water level in the water tub 10, and then drives the motor to rotate the rotating tub 14. Is rotated at low speed in the forward and reverse directions. Note that the control microcomputer controls the motor so that the opening 17 faces the opening 13 of the water tank 10 when the rotating tank 14 is stopped. By rotating the rotating tub 14 forward and backward at a low speed, the laundry stored in the rotating tub 14 is repeatedly lifted by the main baffles 20-22 together with the water in the water tub 10 and then dropped. It is washed and rinsed. In this case, the action of lifting the laundry by the triangular pyramid-shaped auxiliary baffle 23 is smaller than that of the main baffle 20--22 because the laundry contains water and is heavy, but the auxiliary baffle 23 causes the rotating tub 14 to rotate. The laundry located at both ends in the axial direction can be moved to the vicinity of the main baffle 20-22. In addition, the laundry located at both ends in the axial direction of the rotating tub 14 is moved by the auxiliary baffle 23 to the vicinity of the main baffles 20 to 22 so that a mechanical force is applied (push washing), so that the washing performance is improved. Improve
[0020] 脱水工程では、制御用マイコンは排水装置を駆動して水槽 10内の水を排出した後 、モータを駆動して回転槽 14を 40rpm程度の低速で一方向に回転させる。排水終 了時に多量の水分を含み重くなつていた洗濯物は、回転槽 14内の下部に位置する 。従って、回転槽 14が低速で回転されると、洗濯物は主バッフル 20— 22によって持 ち上げられた後、落下するという動作を繰り返す。これにより、洗濯物に含まれる水分 は、ある程度取り除かれる。 In the dehydration step, after the control microcomputer drives the drainage device to discharge the water in the water tank 10, it drives the motor to rotate the rotary tank 14 in one direction at a low speed of about 40 rpm. The laundry that has become heavy and contains a large amount of water at the end of drainage is located in the lower part of the rotating tub 14. Therefore, when the rotating tub 14 is rotated at a low speed, the laundry is held by the main baffles 20-22. After being lifted, the operation of falling is repeated. As a result, water contained in the laundry is removed to some extent.
[0021] 続いて、制御用マイコンはモータを駆動して、回転槽 14を 60ないし 80rpm程度の 回転速度で一方向に回転させる。このとき、回転槽 14内の洗濯物は主バッフル 20— 22及び補助ノ ッフル 23によって回転槽 14内を移動され、周壁部全体に均一に張り 付いていく。  Subsequently, the control microcomputer drives the motor to rotate the rotating tank 14 in one direction at a rotation speed of about 60 to 80 rpm. At this time, the laundry in the rotating tub 14 is moved in the rotating tub 14 by the main baffles 20-22 and the auxiliary knotles 23, and is uniformly attached to the entire peripheral wall.
即ち、回転槽 14内の軸方向中央付近に位置する洗濯物は主バッフル 20— 22によ つて持ち上げられる力 その洗濯物に作用する遠心力の大きさによって、周壁部に 張り付くものと落下するものとに分かれる。  That is, the laundry located near the center in the axial direction in the rotating tub 14 is a force that is lifted by the main baffles 20 to 22. The laundry sticks to the peripheral wall and falls due to the magnitude of the centrifugal force acting on the laundry. Divided into
[0022] 図 5は、回転槽 14内の洗濯物 Sに作用する遠心力を説明するための図である。図 5 において、回転槽 14の回転中心軸 Oカゝら洗濯物 Sの重心までの距離を!:、洗濯物 S の質量を m、回転角速度を ωとすると、洗濯物 Sに作用する遠心力 Fは、次のように 定義される。 FIG. 5 is a diagram for explaining the centrifugal force acting on the laundry S in the rotating tub 14. In Fig. 5, the distance from the center of rotation O of the rotating tub 14 to the center of gravity of the laundry S is:!, The mass of the laundry S is m, and the rotational angular velocity is ω, the centrifugal force acting on the laundry S F is defined as follows.
F = m-r- ω " ' { lj  F = m-r- ω "'{lj
上記式(1)に示すように、遠心力 Fは距離 rに比例する。例えば、図 6に示すように、 回転槽 14内に多数の洗濯物 Sが存在する場合、外周部に位置する洗濯物 S1の重 心と回転中心軸 Oまでの距離 rlは、内周部に位置する洗濯物 S2の重心と回転中心 軸 Oまでの距離 r2よりも大きい (rl >r2)。従って、洗濯物 S1に作用する遠心力は洗 濯物 S2に作用する遠心力よりも大きくなる。このため、主バッフル 20— 22で持ち上 げられた洗濯物のうち外周部に位置する洗濯物は落下することなく周壁部に張り付 き、内周部に位置する洗濯物は落下することになる。この結果、回転槽 14内の洗濯 物は、徐々に分散され、周壁部全体に均一に張り付いていく。  As shown in the above equation (1), the centrifugal force F is proportional to the distance r. For example, as shown in FIG. 6, when a large number of laundry items S exist in the rotating tub 14, the distance rl between the center of gravity of the laundry item S1 located at the outer peripheral portion and the rotation center axis O is rl The distance between the center of gravity of the laundry S2 located and the rotation center axis O is larger than r2 (rl> r2). Therefore, the centrifugal force acting on the laundry S1 is larger than the centrifugal force acting on the laundry S2. Therefore, of the laundry picked up by the main baffles 20-22, the laundry located on the outer periphery is stuck to the peripheral wall without falling, and the laundry located on the inner periphery is dropped. Become. As a result, the laundry in the rotating tub 14 is gradually dispersed and adheres uniformly to the entire peripheral wall.
[0023] これに対して、回転槽 14の軸方向両側に位置する洗濯物は、水分が取り除かれて 軽くなつているため、補助バッフル 23によって持ち上げられる。このとき、補助バッフ ル 23が三角錐状であるため、洗濯物は傾斜面 23aによって回転槽 14の軸方向中央 付近に、傾斜面 23bによって補助ノ ッフル 23の周方向両側から回転槽 14の軸方向 中央付近に移動される。この結果、回転槽 14の軸方向中央付近に洗濯物が集まる。 回転槽の軸方向中央付近に集められた洗濯物は、上記した主バッフル 20— 22の作 用によって回転槽 14の周壁部内面に均等に張り付いていく。 On the other hand, the laundry located on both sides in the axial direction of the rotating tub 14 is lifted by the auxiliary baffle 23 because the laundry is lightened by removing moisture. At this time, since the auxiliary buffer 23 has a triangular pyramid shape, the laundry is positioned near the axial center of the rotary tub 14 by the inclined surface 23a, and is rotated by the inclined surface 23b from both sides in the circumferential direction of the auxiliary noodle 23. Direction Moved near the center. As a result, the laundry is collected near the axial center of the rotating tub 14. The laundry collected near the center of the rotating tub in the axial direction is the main baffle 20-22 described above. It is evenly attached to the inner surface of the peripheral wall of the rotary tank 14 depending on the application.
[0024] このようにして、回転槽 14内の洗濯物は次第に周壁部内面の全体に分散され、ァ ンバランスが低減する。尚、上記した動作により、回転槽 14の軸方向中央付近に存 在する洗濯物量は、両端付近 (端板付近)に存在する洗濯物量よりも多くなる。 [0024] In this way, the laundry in the rotating tub 14 is gradually dispersed over the entire inner surface of the peripheral wall, and the imbalance is reduced. By the above-described operation, the amount of laundry existing near the center in the axial direction of the rotary tub 14 becomes larger than the amount of laundry existing near both ends (near the end plate).
[0025] 制御用マイコンは、洗濯物が回転槽 14の周壁部に均一に張り付いたと判断すると 、モータを駆動して回転槽 14の回転速度を約 lOOrpmに上昇させる。尚、洗濯物が 回転槽の周壁部に均一に張り付いた力否かの判断は、例えば回転槽が一回転する 間におけるモータの回転速度の変動(即ち回転ムラ)を検出することによって行う。こ の回転速度(lOOrpm)は、回転槽 14内の全ての洗濯物に加わる遠心力が重力加 速度を超える回転速度に設定されている。従って、ここでは、回転槽 14内の全ての 洗濯物が周壁部に張り付いた状態で回転槽 14は回転する。 When the control microcomputer determines that the laundry has uniformly adhered to the peripheral wall of the rotating tub 14, it drives the motor to increase the rotation speed of the rotating tub 14 to about 100 rpm. The determination as to whether or not the force that the laundry has uniformly adhered to the peripheral wall of the rotating tub is made, for example, by detecting a change in the rotation speed of the motor during one rotation of the rotating tub (that is, uneven rotation). This rotation speed (100 rpm) is set to a rotation speed at which the centrifugal force applied to all the laundry in the rotating tub 14 exceeds the gravitational acceleration. Therefore, here, the rotary tub 14 rotates with all the laundry in the rotary tub 14 adhered to the peripheral wall portion.
[0026] この後、制御用マイコンは、モータを駆動して回転槽 14を 900ないし 1200rpmの 最高速度まで上昇させる。この結果、洗濯物は回転槽 14の周壁部の内面に張り付 いた状態で回転槽 14と共に回転し、遠心脱水される。尚、制御用マイコンは、回転 槽 14の回転速度を lOOrpm力 最高速度まで上昇させる間に現れる複数の共振点 で大きな振動が発生した場合は、回転速度を低下させて回転槽 14内の洗濯物を移 動させ、共振振動の原因となっているアンバランスを修正する動作を実行する。そし て、アンバランスを修正した後、再び、最高速度まで回転槽 14の回転速度を上昇さ せるようになっている。 Thereafter, the control microcomputer drives the motor to raise the rotating tank 14 to a maximum speed of 900 to 1200 rpm. As a result, the laundry rotates together with the rotary tub 14 while being attached to the inner surface of the peripheral wall of the rotary tub 14, and is centrifugally dehydrated. If a large vibration is generated at a plurality of resonance points appearing while increasing the rotation speed of the rotating tub 14 to the maximum speed of the lOOrpm, the control microcomputer reduces the rotating speed to reduce the laundry in the rotating tub 14. To perform an operation to correct the imbalance that is causing the resonance vibration. Then, after correcting the imbalance, the rotation speed of the rotary tank 14 is increased again to the maximum speed.
[0027] ここで、脱水時に発生する振動について図 5を参照して説明する。脱水時に発生す る振動の大きさは加振力によって決まる。加振力の大きさは、洗濯物 Sに加わる遠心 力及び洗濯物 Sに作用する重心回りの慣性モーメントから決まる。慣性モーメント M は、振動系の重心を通り前記回転中心軸 Oと直交する面を G、面 Gから洗濯物 Sの重 心までの距離を Lとすると次のように定義される。  Here, the vibration generated during dehydration will be described with reference to FIG. The magnitude of the vibration generated during dehydration is determined by the excitation force. The magnitude of the excitation force is determined by the centrifugal force applied to the laundry S and the moment of inertia around the center of gravity acting on the laundry S. The moment of inertia M is defined as follows, where G is a plane passing through the center of gravity of the vibration system and orthogonal to the rotation center axis O, and L is the distance from the plane G to the center of gravity of the laundry S.
M=F'L=m'r' co 2'L · · · (2) M = F'L = m'r 'co 2 ' L
上述したように Fは洗濯物に作用する遠心力である。上記式(2)に示すように、慣性 モーメント Mは距離 r及び距離 Lに比例する。また、上述したように、遠心力 Fは距離 r に比例する。従って、回転槽 14の軸方向中心付近に存在するアンバランスに起因す る振動は、回転槽 14内の軸方向両端部に存在するアンバランスに起因する振動より ち/ J、さくなる。 As described above, F is the centrifugal force acting on the laundry. As shown in the above equation (2), the moment of inertia M is proportional to the distance r and the distance L. Further, as described above, the centrifugal force F is proportional to the distance r. Therefore, it is caused by the imbalance existing near the axial center of the rotary tank 14. The vibration caused by the unbalance existing at both ends in the axial direction in the rotary tank 14 is smaller by J / J.
[0028] 本実施例では、回転槽 14の軸方向中央付近に洗濯物が寄せられるため、回転槽 14内の軸方向中央付近、つまり振動系の重心付近にアンバランスが存在することに なる。従って、回転槽の軸方向端部にアンバランスが発生していた従来のドラム式洗 濯機に比べて、脱水工程時に発生する振動を小さくすることができる。  [0028] In the present embodiment, since the laundry is brought near the axial center of the rotating tub 14, imbalance exists near the axial center of the rotating tub 14, that is, near the center of gravity of the vibration system. Therefore, compared to a conventional drum-type washing machine in which imbalance occurs at the axial end of the rotary tub, the vibration generated during the spin-drying process can be reduced.
[0029] 乾燥工程では、制御用マイコンはモータを駆動して回転槽 14を正逆方向に低速回 転させると共に乾燥装置を駆動する。これにより、温風化された空気が回転槽 14内 に供給され洗濯物に含まれる水分が奪われる。また、水分を奪った空気は除湿され、 温風化された後、再び回転槽 14内に戻される。このような空気の循環により回転槽 1 4内の洗濯物は乾燥される。  In the drying step, the control microcomputer drives the motor to rotate the rotary tub 14 at low speed in the forward and reverse directions, and also drives the drying device. As a result, the warmed air is supplied into the rotating tub 14 to remove moisture contained in the laundry. The air from which moisture has been removed is dehumidified, warmed, and returned to the rotating tank 14 again. The laundry in the rotating tub 14 is dried by the circulation of the air.
[0030] また、回転槽 14が正逆方向に低速回転されることにより、回転槽 14内の洗濯物は 主バッフル 20— 22によって持ち上げられ、回転槽 14内を流通する温風によって回 転槽 14内に広がって落下する。更に、補助バッフル 23は、回転槽 14内に広がって 落下した洗濯物を回転槽 14の軸方向中央付近に移動させる。つまり、回転槽 14内 の洗濯物は、分散したり集中したりしながら回転槽 14内を移動する。このため、回転 槽 14内を流通する温風と洗濯物とが効率良く接触し、乾燥効率が向上する。  Further, when the rotating tub 14 is rotated at a low speed in the forward and reverse directions, the laundry in the rotating tub 14 is lifted by the main baffles 20-22, and is heated by the hot air flowing through the rotating tub 14. Spreads into 14 and falls. Further, the auxiliary baffle 23 moves the laundry that has spread and fallen into the rotating tub 14 to a position near the axial center of the rotating tub 14. That is, the laundry in the rotating tub 14 moves in the rotating tub 14 while being dispersed or concentrated. Therefore, the warm air flowing through the rotating tub 14 and the laundry come into efficient contact with each other, and the drying efficiency is improved.
[0031] 更に、発明者の実験によれば、主バッフル 20— 22及び補助バッフル 23により洗濯 物を撹拌させるようにしたことにより、乾燥終了時に洗濯物が捩れたり絡みあったりす ることが少なくなることがわかった。  [0031] Further, according to the experiment of the inventor, the laundry is agitated by the main baffle 20-22 and the auxiliary baffle 23, so that the laundry is less likely to be twisted or entangled at the end of drying. It turned out to be.
[0032] 図 7は、主バッフル 20— 22及び補助バッフル 23を有するドラム式洗濯機(図 7中 P で示す)及び主バッフル 20— 22のみを有するドラム式洗濯機(図 7中 Qで示す)の乾 燥終了時における布絡み率を比較した棒グラフである。図 7において横軸は洗濯物 量を、縦軸は布絡み率を示している。  FIG. 7 shows a drum type washing machine having a main baffle 20-22 and an auxiliary baffle 23 (indicated by P in FIG. 7) and a drum type washing machine having only the main baffle 20-22 (indicated by Q in FIG. 7). 5) is a bar graph comparing the cloth entanglement ratio at the end of drying in ()). In FIG. 7, the horizontal axis indicates the laundry amount, and the vertical axis indicates the cloth entanglement ratio.
[0033] 布絡み率 T(%)は次の式から求められる。  [0033] The cloth entanglement rate T (%) is obtained from the following equation.
T= { (Tl-TO) /TO} X 100  T = {(Tl-TO) / TO} X 100
上記式において、 TO及び T1は、それぞれ洗濯運転前及び洗濯運転後の洗濯物( 晒し木綿製の複数枚の布力 構成されて 、る)をメトロノームのリズムに合わせて 1枚 ずつ回転槽 14力も取出したときに全ての洗濯物を取出すのに要した平均時間(秒) を示している。 In the above formula, TO and T1 represent one piece of laundry (composed of a plurality of bleached cotton fabrics) before and after the washing operation in accordance with the rhythm of the metronome. It shows the average time (seconds) required to remove all the laundry when 14 rotators were removed at a time.
[0034] 図 7から明らかなように、補助バッフル 23を有するドラム式洗濯機の方が補助バッフ ル 23を有しないドラム式洗濯機よりも布絡み率が低くなる。  As is clear from FIG. 7, the drum-type washing machine having the auxiliary baffle 23 has a lower cloth entanglement rate than the drum-type washing machine having no auxiliary baffle 23.
本実施例によれば次の効果を奏する。即ち、回転槽 14に補助バッフル 23を設けた ことにより、脱水工程時に回転槽 14の洗濯物を軸方向中心付近、言い換えると振動 系の重心付近に移動させることができる。このため、脱水工程時における振動や騒音 の発生を抑えることができる。また、前記補助バッフル 23により回転槽 14の軸方向両 端部に位置する洗濯物を効率良く軸方向中央付近に移動させることができるため、 アンバランス修正のための動作時間を短縮することができる。  According to this embodiment, the following effects can be obtained. That is, by providing the auxiliary baffle 23 in the rotary tub 14, the laundry in the rotary tub 14 can be moved near the axial center, in other words, near the center of gravity of the vibration system during the spin-drying process. Therefore, generation of vibration and noise during the dehydration step can be suppressed. Further, the laundry located at both axial ends of the rotary tub 14 can be efficiently moved to the vicinity of the center in the axial direction by the auxiliary baffle 23, so that the operation time for correcting imbalance can be reduced. .
[0035] また、乾燥工程においては、主バッフル 20— 22と補助バッフル 23の協働により洗 濯物が分散及び集中を繰り返しながら回転槽 14内を移動する。特に本実施例では、 主バッフル 20— 22と補助バッフル 23とを離間させたため、主バッフル 20— 22と補助 ノ ッフル 23とが効率良く協働して洗濯物を移動させることができる。このため、乾燥 効率の向上を図ることができると共に洗濯物の布絡みを低減することができる。更に 、発明者らの実験によれば、補助バッフル 23を有するドラム式洗濯機の方が保持バ ッフル 23を有しないドラム式洗濯機よりも、乾燥終了時に洗濯物に発生するシヮの量 が少なくなることが観察された。これは、乾燥工程時の布絡み率が小さいことに起因 する。従って、本実施例によれば、洗濯物を良好な状態で仕上げることができるという 効果も得られる。  [0035] In the drying step, the washing material moves in the rotary tank 14 while repeating dispersion and concentration by cooperation of the main baffle 20-22 and the auxiliary baffle 23. Particularly, in this embodiment, the main baffle 20-22 and the auxiliary baffle 23 are separated from each other, so that the main baffle 20-22 and the auxiliary baffle 23 can efficiently move the laundry in cooperation with each other. For this reason, the drying efficiency can be improved, and the cloth entanglement of the laundry can be reduced. Further, according to experiments by the inventors, the amount of screen generated on the laundry at the end of drying is smaller in the drum type washing machine having the auxiliary baffle 23 than in the drum type washing machine having no holding baffle 23. Less was observed. This is due to the small cloth entanglement rate during the drying process. Therefore, according to the present embodiment, there is also obtained an effect that the laundry can be finished in a good condition.
[0036] ところで、図 8は補助バッフル 23の有無及び補助バッフル 23の大きさによる脱水時 に発生する振動の振幅の違 ヽにつ 、て発明者らが行った実験結果を示して 、る。図 8において横軸は洗濯物量 (kg)を、縦軸は振動の振幅 (mm)を示している。また、 図 8中、折れ線 P1— P4は主バッフル 20— 22及び補助バッフル 23を有しているドラ ム式洗濯機を、折れ線 Qは主バッフル 20— 22のみを有するドラム式洗濯を示して!/ヽ る。更に、折れ線 P1— P4に対応するドラム式洗濯機の補助バッフルの長さ寸法 (HI , H2) (図 4参照)の組み合わせは、それぞれ(60mm、 40mm)、 (60mm, 65mm) 、(100mm、 40mm)、 (100mm, 65mm)である。 [0037] 図 8から明らかなように、主バッフル 20— 22及び補助バッフル 23を有するドラム式 洗濯機は、いずれも主バッフル 20— 22のみを有するドラム式洗濯機よりも脱水時に 発生する振動の振幅が小さい。また、補助バッフル 23を有するドラム式洗濯機の中 では、折れ線 P4で示すドラム式洗濯機、即ち、本実施例に係る補助バッフル 23を有 するドラム式洗濯機における振幅が最も小さくなる。従って、本実施例では、脱水時 に発生する振動を大きく低減することができる。 FIG. 8 shows the results of an experiment performed by the inventors on the difference in the amplitude of vibration generated during dehydration depending on the presence or absence of the auxiliary baffle 23 and the size of the auxiliary baffle 23. In FIG. 8, the horizontal axis represents the amount of laundry (kg), and the vertical axis represents the amplitude of vibration (mm). In FIG. 8, broken lines P1 to P4 indicate a drum type washing machine having a main baffle 20-22 and an auxiliary baffle 23, and a broken line Q indicates a drum type washing machine having only a main baffle 20-22. / ヽFurther, the combinations of the lengths (HI, H2) (see FIG. 4) of the auxiliary baffles of the drum type washing machine corresponding to the polygonal lines P1 to P4 are (60 mm, 40 mm), (60 mm, 65 mm), (100 mm, 40mm) and (100mm, 65mm). As is apparent from FIG. 8, the drum type washing machine having the main baffle 20-22 and the auxiliary baffle 23 has a lower vibration than that of the drum type washing machine having only the main baffle 20-22. The amplitude is small. Further, among the drum type washing machines having the auxiliary baffle 23, the amplitude of the drum type washing machine indicated by the broken line P4, that is, the drum type washing machine having the auxiliary baffle 23 according to the present embodiment, is the smallest. Therefore, in the present embodiment, the vibration generated during dehydration can be significantly reduced.
[0038] 尚、本発明は上記実施例に限定されるものではなく次のような変形が可能である。  [0038] The present invention is not limited to the above embodiment, and the following modifications are possible.
補助バッフル 23の高さ寸法 (HI)及び軸方向長さ寸法 (H2)は上記実施例に示し た寸法に限定されるものではない。図 9及び図 10は、補助バッフル 23の高さ寸法の 違 ヽによる振動振幅の違 、、補助バッフル 23の軸方向長さ寸法の違 、による振動振 幅の違 、を調べるために、図 8に示す実験結果に基づき作成したグラフである。  The height dimension (HI) and the axial length dimension (H2) of the auxiliary baffle 23 are not limited to the dimensions shown in the above embodiment. FIGS. 9 and 10 are diagrams for examining the difference in vibration amplitude due to the difference in height of the auxiliary baffle 23 and the difference in vibration amplitude due to the difference in the axial length of the auxiliary baffle 23. 7 is a graph created based on the experimental results shown in FIG.
[0039] 即ち、図 9は軸方向長さ寸法が同じ (60mm)で高さ寸法が異なる補助バッフル 23 を有するドラム式洗濯機の実験結果(図 8の折れ線 P1及び P2に対応)に基づき作成 したものである。図 9の横軸は補助バッフル 23の高さ寸法 (mm)を、縦軸は補助バッ フルを有しな ヽドラム式洗濯機(図 8の折れ線 Qに対応)の振幅に対する低減量 (mm )を示している。また、図 10は高さ寸法が同じ (40mmm)で軸方向寸法が異なる補 助バッフル 23を有するドラム式洗濯機の実験結果(図 8の折れ線 P1及び P3に対応) に基づき作成したものである。図 10の横軸は補助バッフル 23の軸方向長さ寸法 (m m)を、縦軸は補助バッフルを有しな ヽドラム式洗濯機の振幅に対する低減量 (mm) を示している。更に、図 9及び図 10の折れ線 K1一 K4は、洗濯物量が lkg、 3kg、 5k g、 8kgのときのデータに基づき作成したものである。  [0039] That is, Fig. 9 is created based on the experimental results (corresponding to the broken lines P1 and P2 in Fig. 8) of the drum type washing machine having the auxiliary baffle 23 having the same axial length (60mm) and different heights. It was done. The horizontal axis in Fig. 9 indicates the height (mm) of the auxiliary baffle 23, and the vertical axis indicates the amount of reduction (mm) relative to the amplitude of the drum type washing machine (corresponding to the polygonal line Q in Fig. 8) without the auxiliary baffle Is shown. Fig. 10 is based on the experimental results (corresponding to the broken lines P1 and P3 in Fig. 8) of a drum-type washing machine having auxiliary baffles 23 with the same height (40mmm) and different axial dimensions. . The horizontal axis in FIG. 10 indicates the axial length (mm) of the auxiliary baffle 23, and the vertical axis indicates the reduction amount (mm) with respect to the amplitude of the drum type washing machine without the auxiliary baffle. Further, the polygonal lines K1 to K4 in FIGS. 9 and 10 are created based on the data when the laundry amount is 1 kg, 3 kg, 5 kg, and 8 kg.
[0040] 図 9及び図 10から明らかなように、補助バッフル 23の高さ寸法が大きいほど、また 軸方向長さ寸法が大きいほど、振動低減量が大きくなる。尚、一般に、脱水工程時に 発生する振動振幅には 0. 5mm程度のバラつきがみられることを考慮すると、振動低 減量が 0. 5mmを超えた場合に、その振動低減効果は有意となる。従って、実験を 行った 4種類の洗濯物量のうち少なくとも 2種類において振動低減量が 0. 5mm以上 となる補助バッフルのサイズは、高さ寸法が約 30mm以上、軸方向長さ寸法が約 50 mm以上である。 [0041] 補助バッフルの高さ寸法は、洗濯物を持ち上げる作用に影響を及ぼすものであり、 洗濯物の厚み寸法に関係する。従って、洗濯物の一般的な厚み寸法が約 30mmで あることからも、補助バッフルの高さ寸法は 30mm以上とすることが好まし 、。 As is clear from FIGS. 9 and 10, the vibration reduction amount increases as the height of the auxiliary baffle 23 increases and as the length in the axial direction increases. In general, considering that the vibration amplitude generated during the dehydration step has a variation of about 0.5 mm, the vibration reduction effect becomes significant when the vibration reduction amount exceeds 0.5 mm. Therefore, the size of the auxiliary baffle with a vibration reduction of 0.5 mm or more in at least two of the four types of laundry in the experiment was about 30 mm or more in height and about 50 mm in axial length. That is all. [0041] The height dimension of the auxiliary baffle affects the action of lifting the laundry, and is related to the thickness dimension of the laundry. Therefore, since the general thickness of the laundry is about 30 mm, the height of the auxiliary baffle is preferably 30 mm or more.
[0042] 補助バッフルの軸方向長さ寸法は、回転槽の軸方向端部に位置する洗濯物を振 動系の重心付近に移動させる作用に影響を及ぼすものであり、回転槽の軸方向長さ 寸法や回転槽の端部から振動系の重心までの距離と関係する。上記実施例では、 回転槽 14の軸方向長さ寸法は 400mm、回転槽 14の端板力も重心までの距離は 2 OOmmであることから、有意な振動低減効果が得られる補助バッフル 23の軸方向長 さ寸法は、回転槽 14の軸方向長さ寸法の 8分の 1以上、端板力も重心までの距離の 4分の 1以上となる。但し、補助バッフル 23は、回転槽の周壁部内面のうち回転槽の 端板から面 G (図 5参照)までの領域に配置する必要がある。  [0042] The axial length dimension of the auxiliary baffle affects the action of moving the laundry located at the axial end of the rotary tub to near the center of gravity of the vibration system, and the axial length of the rotary tub. It is related to the size and the distance from the end of the rotating tank to the center of gravity of the vibration system. In the above embodiment, since the axial length of the rotary tub 14 is 400 mm and the end plate force of the rotary tub 14 is 2 OO mm from the center of gravity, the axial direction of the auxiliary baffle 23 can provide a significant vibration reduction effect. The length is one-eighth or more of the axial length of the rotary tank 14, and the end plate force is one-fourth or more of the distance to the center of gravity. However, the auxiliary baffle 23 needs to be arranged in the area from the end plate of the rotary tank to the surface G (see FIG. 5) on the inner surface of the peripheral wall of the rotary tank.
[0043] また、回転槽の軸方向両側に設けられた補助バッフルは対向していなくても良い。  [0043] Further, the auxiliary baffles provided on both axial sides of the rotary tub may not face each other.
更に、補助バッフルは、回転槽の端板に近接するように周壁部に設けられていれば 良ぐ前記端板と接触していなくても良い。  Further, the auxiliary baffle need not be in contact with the end plate as long as it is provided on the peripheral wall so as to be close to the end plate of the rotary tank.
回転槽の回転中心軸が前上がりに傾斜しているドラム式洗濯機においては、回転 槽内の洗濯物を奥部(後部)に片寄らせるために、回転槽の周壁部の前部にのみ回 転槽の前端板に近接する補助バッフルを設けると良い。  In a drum-type washing machine in which the rotation center axis of the rotating tub is inclined upward, the laundry in the rotating tub is turned only at the front of the peripheral wall of the rotating tub in order to bias the laundry in the rotating tub toward the back (rear). It is preferable to provide an auxiliary baffle close to the front end plate of the transfer tank.
[0044] 振動系部材の重心が回転槽の軸方向中心力 ずれているドラム式洗濯機におい ては、軸方向に対向する一対の補助バッフルの軸方向長さ寸法を異ならせることが 好ましい。即ち、重心が回転槽の軸方向中心よりも一方側に位置する場合には、周 壁部の軸方向一方側に配置される補助バッフルを他方側に配置される補助バッフル よりも軸方向長さ寸法を小さくすると良い。但し、各補助バッフルは重心を通る面 Gと 端板との間の領域に配置する必要がある。  [0044] In a drum type washing machine in which the center of gravity of the vibration system member is shifted in the axial center force of the rotary tub, it is preferable that the pair of auxiliary baffles facing in the axial direction have different axial lengths. That is, when the center of gravity is located on one side of the axial center of the rotary tank, the auxiliary baffle disposed on one side in the axial direction of the peripheral wall portion is longer than the auxiliary baffle disposed on the other side in the axial direction. It is better to reduce the size. However, each auxiliary baffle must be located in the area between the plane G passing through the center of gravity and the end plate.
[0045] 補助バッフルは、回転槽の周壁部或いは端板をプレス成形することにより形成して も良い。上記構成によれば、補助バッフルと回転槽とを一体的に構成することができ 、組み立て工程を少なくすることができる。  [0045] The auxiliary baffle may be formed by press-molding a peripheral wall portion or an end plate of the rotary tank. According to the above configuration, the auxiliary baffle and the rotary tub can be integrally formed, and the number of assembling steps can be reduced.
[0046] 補助バッフルは、三角錐形状に限らず、例えば半円錐形状でも良い。  The auxiliary baffle is not limited to a triangular pyramid shape, and may be, for example, a semi-conical shape.
本発明は、前面に洗濯物出入口を有するドラム式洗濯機にも適用できる。この場合 は、前記回転槽の周壁部の前部にのみ回転槽の前端板に近接する補助バッフルを 設けても良い。前面に開口を有する回転槽は、後部に設けられた回転軸を中心に回 転する。このため、回転槽内の前部に洗濯物が集まると、回転槽の振動が大きくなる と共に回転軸や軸受に大きなモーメントがかかる。これに対して、回転槽の周壁部の 前部に補助バッフルを設けると、回転槽内の前部に洗濯物が集中することを防止で きるため、振動の発生を抑えることができる。 The present invention can also be applied to a drum type washing machine having a laundry entrance at the front. in this case In the above, an auxiliary baffle which is close to the front end plate of the rotary tub may be provided only at the front of the peripheral wall of the rotary tub. The rotating tank having an opening on the front rotates around a rotating shaft provided at the rear. For this reason, when the laundry is collected at the front part in the rotating tub, the vibration of the rotating tub increases and a large moment is applied to the rotating shaft and the bearing. On the other hand, if the auxiliary baffle is provided at the front of the peripheral wall of the rotating tub, it is possible to prevent the laundry from being concentrated on the front of the rotating tub, thereby suppressing the occurrence of vibration.
産業上の利用可能性 Industrial applicability
以上のように、本発明に力かるドラム式洗濯機は、振動の発生を抑えることができる ため、静かな環境で使用される一般家庭用の洗濯機として有用である。  As described above, the drum type washing machine according to the present invention can suppress the occurrence of vibration, and is therefore useful as a general household washing machine used in a quiet environment.

Claims

請求の範囲 The scope of the claims
[1] 水槽 (10)と、  [1] an aquarium (10),
前記水槽(10)内に設けられ横軸回りに回転駆動される回転槽(14)と、 前記水槽 (10)を弾性的に支持する弾性支持手段(11)とを備えたドラム式洗濯機 において、  A drum type washing machine comprising: a rotary tub (14) provided in the water tub (10) and driven to rotate around a horizontal axis; and elastic support means (11) for elastically supporting the water tub (10). ,
前記回転槽(14)の軸方向両端板のうちの一方に近接し他方と離間するように前記 回転槽(14)の周壁部内面に設けられ、前記回転槽(14)の軸方向に沿って延びる 補助バッフル (23)を備え、  The rotary tub (14) is provided on the inner surface of the peripheral wall of the rotary tub (14) so as to be close to one of the axial end plates and apart from the other, and along the axial direction of the rotary tub (14). With an extended auxiliary baffle (23),
前記補助バッフル (23)は、前記弾性支持手段(11)に対して荷重をかける振動系 部材の重心付近に前記回転槽(14)内の洗濯物を移動させるように構成されて!、る ことを特徴とするドラム式洗濯機。  The auxiliary baffle (23) is configured to move the laundry in the rotating tub (14) to near the center of gravity of a vibration system member that applies a load to the elastic support means (11). A drum type washing machine characterized by the following.
[2] 請求項 1のドラム式洗濯機において、 [2] The drum-type washing machine according to claim 1,
前記補助バッフル(23)は、前記回転槽(14)の一方の端板側から他方の端板側に 向かって周壁部側に傾斜する傾斜面(23b)を有して 、ることを特徴とする。  The auxiliary baffle (23) has an inclined surface (23b) that is inclined from one end plate side of the rotary tub (14) toward the other end plate side toward the peripheral wall side. I do.
[3] 請求項 1のドラム式洗濯機において、 [3] The drum-type washing machine according to claim 1,
前記回転槽の回転軸は、両端部のうちの一方が他方よりもやや上方に位置する傾 斜軸から構成され、  The rotation axis of the rotary tank is constituted by an inclined axis in which one of both ends is located slightly above the other,
前記補助バッフルは、前記回転槽の両端板のうち上方に位置する端板に近接する ように前記回転槽の周壁部内面に設けられて 、ることを特徴とする。  The auxiliary baffle is provided on an inner surface of a peripheral wall portion of the rotary tub so as to approach an upper end plate of both end plates of the rotary tub.
[4] 請求項 1のドラム式洗濯機において、 [4] The drum-type washing machine according to claim 1,
前記補助バッフル(23)は、前記回転槽(14)の両端板のうちの一方に近接する第 1のノ ッフルと、他方の端板に近接する第 2のバッフルとから構成され、  The auxiliary baffle (23) is composed of a first baffle near one of both end plates of the rotary tub (14) and a second baffle near the other end plate,
前記第 1及び第 2のバッフルは前記回転槽の軸方向に対向配置されていることを特 徴とする。  It is characterized in that the first and second baffles are arranged to face each other in the axial direction of the rotary tank.
[5] 請求項 4のドラム式洗濯機において、  [5] The drum-type washing machine according to claim 4,
前記振動系部材は、その重心が前記回転槽の軸方向中心よりも一方の端板側に ずれるように構成され、  The vibration system member is configured such that its center of gravity is shifted to one end plate side from the axial center of the rotary tank,
前記第 1のバッフルよりも前記第 2のノ ッフルの方が大きく構成されていることを特 徴とする。 The second baffle is larger than the first baffle. Sign.
[6] 請求項 1のドラム式洗濯機において、  [6] The drum-type washing machine according to claim 1,
前記回転槽の周壁部内面のうち軸方向中央に設けられ、前記回転槽の軸方向に 沿って延びる主バッフル(20, 21, 22)を備え、  A main baffle (20, 21, 22) provided at the axial center of the inner surface of the peripheral wall of the rotary tub and extending along the axial direction of the rotary tub;
前記回転槽(14)の周方向における前記補助バッフル(23)の位置と前記回転槽 ( 14)の周方向における前記主バッフル(20, 21, 22)の位置とが異なるように構成さ れていることを特徴とする。  The position of the auxiliary baffle (23) in the circumferential direction of the rotating tub (14) is different from the position of the main baffle (20, 21, 22) in the circumferential direction of the rotating tub (14). It is characterized by having.
[7] 請求項 6のドラム式洗濯機において、 [7] The drum-type washing machine according to claim 6,
前記補助バッフル(23)と前記主バッフル(20, 21, 22)とは、前記回転槽(14)の 周方向に離間するように配置されて 、ることを特徴とする。  The auxiliary baffle (23) and the main baffle (20, 21, 22) are arranged so as to be separated from each other in the circumferential direction of the rotary tub (14).
[8] 請求項 1のドラム式洗濯機において、 [8] The drum-type washing machine according to claim 1,
前記補助バッフル(23)は、一方の端板側力も他方の端板側に向力つて先細にな るように構成されて 、ることを特徴とする。  The auxiliary baffle (23) is characterized in that one end plate side force is also tapered toward the other end plate side.
[9] 請求項 1のドラム式洗濯機において、 [9] The drum-type washing machine according to claim 1,
前記補助バッフル(23)の前記回転槽の径方向に沿う長さ寸法は 30mm以上に設 定されて!/ヽることを特徴とする。  The length of the auxiliary baffle (23) along the radial direction of the rotary tub is set to 30 mm or more, and the length is set to! / Mm.
[10] 請求項 1のドラム式洗濯機において、 [10] The drum-type washing machine according to claim 1,
前記補助バッフル(23)は、前記回転槽(14)の周壁部のうち一方の端板力も前記 振動系部材の重心までの領域に配置されて 、ると共に、前記補助バッフル(23)の 前記回転槽(14)の軸方向に沿う長さ寸法は前記回転槽(14)の軸方向長さ寸法の 8分の 1以上に設定されていることを特徴とする。  In the auxiliary baffle (23), one end plate force of the peripheral wall portion of the rotary tank (14) is also arranged in a region up to the center of gravity of the vibration system member, and the rotation of the auxiliary baffle (23) The length of the tank (14) along the axial direction is set to one-eighth or more of the axial length of the rotary tank (14).
PCT/JP2004/018386 2004-01-23 2004-12-09 Drum type washing machine WO2005071155A1 (en)

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US10/587,072 US20070157677A1 (en) 2004-01-23 2004-12-09 Drum washing machine

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WO (1) WO2005071155A1 (en)

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US8434334B2 (en) 2004-07-20 2013-05-07 Lg Electronics Inc. Drum-type washing machine and bearing housing structure thereof
US8887537B2 (en) 2002-12-27 2014-11-18 Lg Electronics Inc. Drum-type washing machine

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US8887537B2 (en) 2002-12-27 2014-11-18 Lg Electronics Inc. Drum-type washing machine
US8434334B2 (en) 2004-07-20 2013-05-07 Lg Electronics Inc. Drum-type washing machine and bearing housing structure thereof
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Also Published As

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TWI260356B (en) 2006-08-21
KR100790630B1 (en) 2008-01-02
CN1906348A (en) 2007-01-31
KR20060114367A (en) 2006-11-06
US20070157677A1 (en) 2007-07-12
JP4387812B2 (en) 2009-12-24
JP2005204969A (en) 2005-08-04
TW200532068A (en) 2005-10-01

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