JP2009095587A - Drum-type washing machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress vibration transfer to a washing machine body and effectively damp the vibration of a water tank unit. <P>SOLUTION: By mounting a liquid-filled cushion rubber 26 on the outer periphery of a support shaft 23, at least one of a lower cushion material 25 and an upper cushion material exerts a damping force in the direction of the rotation (inclination) of the support shaft or in procession motion, effectively damps and suppresses whirling vibration of the water tank unit 5, suppresses vibration transfer to the washing machine body 8 at the start of spin-drying operation, suppresses whirling vibration of the water tank unit 5 at the start of spin-drying operation, and realizes low vibration operation. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a drum-type washing machine that performs a washing, rinsing, and dewatering processes by rotating a rotating drum that contains laundry.

  A conventional drum type washing machine of this type will be described with reference to FIGS. FIG. 6 shows a support structure of the water tub unit 5 in the drum type washing machine 1, and FIG. 7 is a configuration diagram of the vibration damping damper. The water tank unit 5 houses the rotating drum 2 in the water tank 3, and supports the rotating shaft 2a of the rotating drum 2 by a bearing 6 provided on the back surface of the water tank 3, and a drum driving motor 7 on the rotating shaft 2a. Concatenated. The aquarium unit 5 is disposed in the washing machine main body 8 so as to be inclined upwardly, and its weight is supported by a pair of left and right vibration damping dampers 9 attached to the base portion 14 of the washing machine main body 8. The washing machine body 8 is elastically supported by coil springs 10 and 10a stretched on the front surface or the back surface.

  As shown in FIG. 7, the vibration damping damper 9 includes an oil damper mechanism 11 in which oil is sealed in a cylinder, and a coil spring mechanism 12 provided coaxially with the oil damper mechanism 11. 11 is fixed to the base portion 14 of the washing machine body 8 via a cushioning material 15. The support shaft 13 is fixed to the lower end of 11 and the coil spring mechanism 12 is disposed on the outer peripheral portion. Further, the second support shaft 13 a constituting the oil damper mechanism 11 is fixed to the lower support bracket 16 fixed to the lower part of the water tank 3 via the buffer material 15.

  In the above configuration, when the spin drum 2 is rotated and the dehydration process is performed, the rotary drum 2 is disposed in the water tank unit 5 with its rotational axis inclined in the horizontal direction or the horizontal direction. When the laundry is accommodated in the rotating drum 2 and rotated, the laundry is biased downward and unbalance occurs.

  When the laundry in the rotating drum 2 is in an unbalanced state, a large vibration is generated in the water tank unit 5 that houses the rotating drum 2. In order to suppress such vibration associated with the rotation of the rotating drum 2, the water tank unit 5 is supported by a vibration damping damper 9 having a large damping constant to reduce vibration amplitude and to suppress vibration. Is known (for example, see Patent Document 1).

Further, the aquarium unit 5 is supported from below by a vibration-proof damper 9 at a position closer to the front side than the center of gravity, and the upper part of the aquarium unit 5 is elastically biased to the front side by the first coil spring 10, or the second A method is known in which the lower part of the water tank unit 5 is elastically biased toward the back side by a coil spring 10a (see, for example, Patent Document 2).
Japanese Patent Laid-Open No. 06-327892 JP 2005-137463 A

  In the conventional configuration described above, there are many components, and for example, the addition of a vibration suppression weight, etc., leads to an increase in weight as a drum-type laundry, which leads to a large labor for transportation and a cost increase, and a space for stretching a coil spring. Etc. also had problems.

  Further, if the vibration of the aquarium unit is reduced by simply supporting it with the vibration proof damper 9 having a large damping constant, the vibration transmission rate to the washing machine body 8 at the time of steady dehydration (about 800 to 1200 r / min) increases. There was a problem of increasing the body vibration.

  Furthermore, in particular, when the dewatering rotation starts and the whirling vibration at the time of dehydration start up to about 300 r / min (water tank unit 5 resonance frequency), the water tank unit 5 vibrates in a simple vertical direction, that is, with an arrow A in FIG. If the swing is as shown, it can be damped by the conventional vibration damping damper 9. However, in the case of vibrations in which the clothing imbalance is distributed forward and backward in the rotary drum 2 and gives a rotational motion to the center of gravity, that is, rocking wood swinging as indicated by arrows B or C in FIG. Since a sufficient damping effect cannot be obtained with respect to the movement direction, there are problems that abnormal sound of the aquarium unit 5 is generated or damage occurs due to contact with other members.

  The present invention solves the above-described conventional problems, and suppresses vibration transmission to the main body of the washing machine at the time of steady dehydration without adding parts or increasing weight, and whirling vibration of the water tank unit at the start of dehydration It is an object of the present invention to provide a drum-type washing machine that effectively reduces the above.

  In order to solve the above-described conventional problems, a drum-type washing machine according to the first invention of the present application includes a water tub unit rotatably including a drum containing laundry and elastically supported in a washing machine body, A motor for rotationally driving the drum; a damper mechanism for elastically supporting the water tank unit below to damp vibration; a support shaft provided coaxially with the damper mechanism; a coil spring mechanism disposed around the support shaft; and the damper A lower cushioning material that fixes the lower end of the mechanism to the base of the washing machine main body, and an upper cushioning material that fixes the upper end of the damper mechanism to the lower part of the water tank unit, and at least the lower cushioning material or the upper cushioning material One is one in which a liquid-filled buffer rubber is mounted on the outer periphery of the support shaft.

  As a result, since the buffer material is a liquid-filled buffer rubber, the support shaft in which the damping force of the vibration-proof damper is difficult to obtain is rotated (falls down) particularly when dehydration is started (about 0 to 300 r / min). In addition, it is possible to secure sufficient damping force even for the pulverized wood movement, effectively attenuate and suppress the vibration of the aquarium unit, and when the water tank in the dehydration steady state mainly moves up and down, While suppressing vibration transmission to the washing machine main body, it is possible to suppress the vibration of the water tank unit during dehydration activation, thereby realizing low vibration.

  The drum-type washing machine according to the second invention of the present application includes a water tub unit that rotatably includes a drum containing laundry and is elastically supported in the washing machine body, a motor that rotationally drives the drum, A damper mechanism that elastically supports the water tank unit below to damp vibrations, a support shaft provided coaxially with the damper mechanism, a coil spring mechanism disposed around the support shaft, and a lower end of the damper mechanism at the washing machine body A lower cushioning material that is fixed to the base of the water tank unit, and an upper cushioning material that fixes the upper end of the damper mechanism to the lower part of the water tank unit. The lower cushioning material and the upper cushioning material have a damping coefficient tanδ. = A rubber material of 0.7 ± 0.2.

  As a result, the conventional general rubber material (tan δ = 0.1 to 0.4) is high in the direction in which the support shaft is difficult to obtain a damping force in which the support shaft rotates (falls down) and the pulverized wood movement. Ensures damping force and effectively attenuates and suppresses the vibrations of the aquarium unit. Dehydration while suppressing vibration transmission to the main body of the washing machine when the aquarium is moving up and down during steady dehydration. The vibration of the aquarium unit during startup can be suppressed, and low vibration can be realized.

  According to the present invention, whirling vibration of a water tank unit containing a rotating drum at the start of dewatering is effectively suppressed while suppressing vibration transmission to the washing machine body at the time of steady dehydration without adding parts or increasing weight. The drum type washing machine can be configured to be reduced.

  A first invention includes a drum having a rotation center axis in a substantially horizontal direction and accommodating a laundry to perform a rotational motion, and a water tub unit that rotatably includes the drum and is elastically supported in a washing machine body A motor that rotationally drives the drum, a damper mechanism that elastically supports the water tank unit below to damp vibrations, a support shaft that is provided coaxially with the damper mechanism, and a coil spring mechanism that is disposed around the support shaft A lower cushioning material that fixes a lower end of the damper mechanism to a base portion of the washing machine main body, and an upper cushioning material that fixes an upper end of the damper mechanism to a lower portion of the water tank unit. At least one of the materials is provided with a liquid-filled buffer rubber on the outer periphery of the support shaft, so that the movement of the sealed liquid can move around the swing of the combined movement water tank unit at the start of dehydration. It can be realized attenuated low vibration due to the viscosity when.

  According to a second aspect of the present invention, there is provided a drum having a central axis of rotation in a substantially horizontal direction and accommodating a laundry to perform a rotational movement, and a water tub unit that rotatably includes the drum and is elastically supported in a washing machine body. A motor that rotationally drives the drum, a damper mechanism that elastically supports the water tank unit below to damp vibrations, a support shaft that is provided coaxially with the damper mechanism, and a coil spring mechanism that is disposed around the support shaft A lower cushioning material that fixes the lower end of the damper mechanism to the base of the washing machine body, and an upper cushioning material that fixes the upper end of the damper mechanism to the lower part of the water tank unit. The material is made of a rubber material having a damping coefficient of tan δ = 0.7 ± 0.2, so that the vibration value of the water tank unit at the time of dehydration activation does not adversely affect the equipment. The limit of the vibration of the washing machine main body can be set, and both the prevention of the deterioration of the main body vibration and the suppression of the swinging of the water tank unit can be achieved.

  According to a third aspect of the present invention, in particular, the shock absorber of the second aspect of the present invention includes a first shock absorber on the inner peripheral side adjacent to the support shaft of the vibration damping damper, and a second shock absorber on the outer peripheral side of the first shock absorber. And the loss coefficient of the second buffer material on the outer peripheral side is larger than that of the first buffer material on the inner peripheral side or the hardness is increased, so that the direction of the water tank unit greatly rotating (falling), Only in the case of the pulverized wood movement, a large loss factor on the outside can act.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a configuration diagram of an anti-vibration damper according to the first embodiment of the present invention. FIG. 2 shows an operation diagram of the vibration-proof damper, and the other drum-type washing machine has the same general structure as that of the conventional example shown in FIG.

  In FIG. 1, an anti-vibration damper 20 includes an oil damper mechanism 21 in which oil is sealed in a cylinder, and a coil spring mechanism 22 provided coaxially with the oil damper mechanism 21, and a lower end of the oil damper mechanism 21. The support shaft 23, which is fixed to the outer peripheral portion and the coil spring mechanism 22 is disposed on the outer peripheral portion, is fixed to the base portion 14 on the fixing side of the washing machine body 8 via a liquid-filled lower cushioning material 25. Further, the second support shaft 23 a constituting the oil damper mechanism 21 is fixed to the lower support bracket 16 on the swinging side fixed to the lower portion of the water tank 3 through a cushioning material 15 such as a rubber material.

  The liquid-filled lower cushioning material 25 has a configuration in which the viscous oil 27 is sealed by the hollow portion of the liquid-filled cushioning rubber 26 made of an elastic body formed in a donut shape having a hollow portion.

  The operation of the above configuration will be described. When the dehydration process is started and dehydration is started up to about 300 r / min, the elastically supported water tank unit 5 has 6 degrees of freedom around the center of gravity (3 translational directions and 3 rotational directions around each axis). A resonant frequency is generated. Although the resonance frequencies are coupled to each other and have a complicated behavior, for example, a large vibration mode mainly including pitching (vertical rotation mode) is generally generated in the vicinity of about 250 r / min.

  In such a vibration mode, the lower support bracket 16 on the swing side hardly swings in the vertical direction, and the support shafts 23 and 23a rotate (fall down) as shown by arrows B and C in FIG. Or a circular or elliptical pulverized wood movement, or a combination of them.

  The operation and effect of this embodiment will be described below.

  The operation of the liquid filled buffer rubber 26 and the viscous oil 27 will be described with reference to the vibration damper operation diagram of FIG.

  As shown in FIG. 1, when the lower support fitting 16 (swing side) on the water tank unit side swings with an arrow B or C, the support shaft 23 is tilted at an angle θ. At that time, the liquid-filled buffer rubber 26 is elastically deformed, and the cross-sectional shape which is symmetrical is deformed into different shapes in the left space 27a and the right space 27b as shown in FIG. At this time, since the internal viscous oil 27 flows left and right or up and down, a damping action is generated by the flow resistance due to the viscosity, and the movement of the support shaft 23 in the tilt direction is attenuated and suppressed.

  Therefore, the liquid-filled buffer rubber 26 can secure a sufficient damping force in the rotation direction, and can effectively suppress the vibration of the water tank unit 5 from swinging.

  Here, the rotational and translational spring constants and damping constants of the liquid-filled buffer rubber 26 depend on the purpose depending on the viscosity of the viscous oil 27, the shape and hardness of the liquid-filled buffer rubber 26, and the like. It can be freely selected and set.

  In addition, in a dehydration steady state (800 r / min to 1200 r / min) in which a damping force is not necessary in principle, there is no swinging or rotating motion of the support shafts 23 and 23a as in the case of dehydration activation, Since the vertical motion is mainly shown by the arrow A in FIG. 1 where the vibration damping damper 20 acts, there is almost no increase in the vibration transmission rate to the washing machine body 8 due to the damping force of the liquid-filled buffer rubber 26. Therefore, whilst suppressing vibration transmission to the washing machine main body 8 at the time of steady dehydration (800 to 1200 r / min), the whirling vibration of the water tank unit 5 at the start of dehydration (0 to 300 r / min) can be suppressed. Low vibration can be realized.

  Here, the liquid-filled buffer rubber 26 is configured only on the base portion 14 side, but if applied to the buffer material 15 on the lower support bracket 16 side, a greater effect can be obtained.

(Embodiment 2)
FIG. 3 is a schematic configuration diagram of an anti-vibration damper 30 according to the second embodiment of the present invention, and FIG. 4 is a relationship diagram between a loss coefficient and each vibration value.

  The schematic structure of the other drum type washing machines is the same as that of the conventional example shown in FIG.

  The anti-vibration damper 30 includes an oil damper mechanism 31 in which oil is sealed in a cylinder, and a coil spring mechanism 32 provided coaxially with the oil damper mechanism 31.

  The support shaft 33 fixed to the lower end of the oil damper mechanism 31 and having the coil spring mechanism 32 disposed on the outer peripheral portion is fixed from above and below via the cushioning material 35 so as to sandwich the base portion 14 of the washing machine body 8. . Further, the second support shaft 33 a constituting the oil damper mechanism 31 is fixed via the upper and lower cushioning members 35 so as to sandwich the lower support bracket 16 fixed to the lower portion of the water tank 3. Here, the buffer material 35 is made of a rubber material having a loss coefficient tan δ = 0.7 ± 0.2.

  The operation and effect of the present embodiment configured as described above will be described below.

  The physical meaning of the loss factor and the reason for setting are described below.

  As shown in Equation 1 below, the loss coefficient is one of evaluation indexes of vibration damping characteristics, and is generally a ratio of storage shear modulus (G ′) to loss shear modulus (G ″), G ″. / G ′ is referred to as loss tangent (loss factor) and is represented by tan δ.

  It shows how much energy the material absorbs (transforms into heat) when the material deforms, and the measurement is done with a dynamic viscoelasticity measuring device. The larger the value of tan δ, the more energy is absorbed. In the shock buffer test, the rebound resilience becomes smaller, and in the vibration test, the resonance magnification becomes lower.

  In the case of the pitching vibration mode at the start of dehydration as described above, the direction in which the support shafts 23 and 23a rotate (fall down), the circular or elliptical groundwood movement indicated by arrows B and C in FIG. Alternatively, they perform a combined motion, do not make much stroke in the vertical direction, and it is difficult to obtain a damping force with the conventional oil damper mechanism 31 alone. Therefore, if the buffer material 35 is used, a large damping force can be ensured by a high internal damping action with respect to the rotation direction, and the whirling vibration of the water tank unit 5 can be effectively suppressed. However, in the case of a rubber material, the spring constant and the damping constant in the rotation direction and the translation direction are determined only by the material and simple shape, and substantially free adjustment is difficult.

  Further, if the damping constant is too large, there is a demerit that the vibration transmission rate to the washing machine body 8 is increased and the body vibration is deteriorated. The inventors were able to obtain the optimum attenuation constant experimentally.

  FIG. 4 shows the relationship between the loss factor and each vibration value. In FIG. 4, the vertical axis is the vibration value at the time of starting the dewatering operation of the water tank unit 5 and the vibration value indicating the amplitude of the dewatering operation character of the washing machine body 8, and the horizontal axis is the loss coefficient (that is, the damping constant). is there.

  As is clear from FIG. 4, when the loss factor (ie, the damping constant) is small, the touch around the water tank unit is large, but the vibration transmission to the washing machine body 8 is low. Vibration is small. On the other hand, when the loss factor increases, as shown in the right part of the horizontal axis, the movement of the water tub unit 5 is attenuated and becomes smaller, but the vibration and electric power transmission to the washing machine body 8 is increased, and the vibration of the washing machine body 8 is increased. Become.

  The vibration value of the aquarium unit 5 and the limit of allowable vibration of the washing machine body 8 are relatively compared in FIG. As a vibration damping characteristic, it was possible to conclude that the loss coefficient tan δ = 0.7 ± 0.2 is within the optimum range. In addition, on the structure which supports the water tank unit 5, what has extremely low rubber hardness is difficult to use, and 45 degrees (above) is assumed here.

  In addition, it has been experimentally confirmed that in the shape of the cushioning material of a general drum type washing machine (outer diameter Φ30 mm, thickness 10 mm), even if the outer shape and thickness are changed, this tendency generally does not change. Therefore, while suppressing the vibration transmission to the washing machine main body at the time of dehydration steady (800 to 1200 r / min), the vibration of the water tank unit 5 at the time of dehydration activation (0 to 300 r / min) can be suppressed. Vibration can be realized.

(Embodiment 3)
FIG. 5A is a partial configuration diagram of the vibration damping damper according to the third embodiment of the present invention, and FIG. 5B is an operation diagram of the vibration damping damper. Other configurations are the same as those in the first or second embodiment.

  In FIG. 5A, a cushioning material 36 is fixed to the lower end of the support shaft 33 of the vibration damping damper vertically so as to sandwich the base portion 14 between washers 37 inserted above and below the base portion 14. .

  The configuration of the buffer material 36 is formed in a double donut shape, and a first buffer material 36a is provided on the inner side of the support shaft 33 side, and a second buffer material 36b is provided on the outer peripheral side of the first buffer material, A double structure having different loss factors or hardnesses is used. Further, the inclined surface 36c is formed on the outer peripheral side so that the thickness of the second buffer material 36b becomes smaller as it goes outward.

  In addition, here, a configuration of (loss coefficient of the inner first buffer material 36a) <(loss coefficient of the outer second buffer material 36b), for example, the damping characteristic is expressed by a loss coefficient tan δ = 0.7 ± 0. By configuring the rubber material to be 2, the large loss factor on the outside can act only when the support shaft 33 is largely rotated (falls down) or when the crushed wood movement is caused.

  The inner first buffer material 36a is made of a conventional general rubber material having a loss coefficient of, for example, tan δ = 0.1 to 0.4.

  The operation and effect of the present embodiment configured as described above will be described with reference to the operation diagram of the vibration damping damper shown in FIG.

  When the vibration of the water tank unit causes a tilted swing, the support shaft 33 tilts at an angle θ. At that time, when an inclination greater than a predetermined value occurs, the outer peripheral portion of the washer 37 presses the second outer cushioning material 36b having a large loss coefficient, and a large damping action occurs.

  In the case of normal vertical vibration, since it is supported by the first first cushioning material 36a having a small loss coefficient, the damping action is low and the vibration transmission to the washing machine body 8 is small.

  That is, the spring constant and the damping constant in the rotation direction and the translation direction can be adjusted relatively easily.

  Therefore, vibration transmission to the washing machine main body 8 can be suppressed at the time of steady dehydration (800 to 1200 r / min), and the vibration of the water tank unit 5 at the start of dehydration (0 to 300 r / min) can be suppressed. Can be suppressed, and low vibration can be realized.

  As described above, according to the present invention, in the configuration in which the vibration damping damper is fixed via the buffer material, the buffer material uses a liquid-filled buffer rubber, so that the dehydration constant can be prevented without adding parts and increasing the weight. A drum type washing machine that effectively reduces the vibration of the water tank unit that houses the rotating drum at the start of dehydration can be configured while suppressing vibration transmission to the washing machine main body at all times.

  In addition, since the configuration in which the damping coefficient (loss coefficient) of the cushioning material becomes an optimum value can be set, a cushioning material that can achieve both suppression of dehydration rising vibration and allowable steady vibration can be obtained.

  In addition, the buffer material can be provided with a simple buffer material structure that can cope with a plurality of vibration conditions including dehydration rising vibration and steady vibration.

  As described above, in the drum type washing machine according to the present invention, the damping effect corresponding to the vibration of the water tub unit in the cushioning material can cope with a plurality of vibration conditions of dehydration rising vibration and steady vibration, It can also be applied to applications such as dehydrators and centrifuges.

The block diagram of the vibration proof damper in the drum type washing machine in Embodiment 1 of this invention Operation diagram of anti-vibration damper in the drum type washing machine The block diagram of the vibration proof damper in the drum type washing machine in Embodiment 2 of this invention Relationship diagram of loss factor and each vibration value in the drum type washing machine (A) Partial configuration diagram of vibration-proof damper in drum-type washing machine according to Embodiment 3 of the present invention (b) Operation diagram of vibration-proof damper in drum-type washing machine Sectional drawing which shows the support structure in the conventional drum type washing machine Configuration diagram of the above-mentioned anti-vibration damper

Explanation of symbols

DESCRIPTION OF SYMBOLS 2 Drum 5 Water tank unit 7 Motor 8 Washing machine main body 14 Base part 15 Upper shock absorbing material 20 Anti-vibration damper 22 Coil spring 23 Support shaft 23a Second support shaft 25 Lower shock absorbing material 26 Liquid-filled buffer rubber 36a First shock absorbing material 36b Second cushioning material

Claims (3)

A drum having a central axis of rotation in a substantially horizontal direction for accommodating laundry and rotating, a water tub unit rotatably enclosing the drum and elastically supported in the washing machine body, and rotating the drum A motor for driving, a damper mechanism for elastically supporting the water tank unit below to damp vibrations, a support shaft provided coaxially with the damper mechanism, a coil spring mechanism disposed around the support shaft, and a lower end of the damper mechanism A lower cushioning material that fixes the upper end of the damper mechanism to the lower part of the water tank unit, and at least one of the lower cushioning material or the upper cushioning material is A drum-type washing machine having a liquid-filled buffer rubber mounted on the outer periphery of the support shaft. A drum having a central axis of rotation in a substantially horizontal direction for accommodating laundry and rotating, a water tub unit rotatably enclosing the drum and elastically supported in the washing machine body, and rotating the drum A motor for driving, a damper mechanism for elastically supporting the water tank unit below to damp vibrations, a support shaft provided coaxially with the damper mechanism, a coil spring mechanism disposed around the support shaft, and a lower end of the damper mechanism A lower cushioning material that fixes the upper end of the damper mechanism to the lower part of the water tank unit, and the lower cushioning material and the upper cushioning material are provided with vibration damping thereof. A drum-type washing machine having a characteristic loss factor tan δ = 0.7 ± 0.2. The lower cushioning material and the upper cushioning material are provided with a first cushioning material on the inner circumferential side adjacent to the support shaft of the damper mechanism, and a second cushioning material on the outer circumferential side of the first cushioning material. The drum type washing machine according to claim 2, wherein a loss coefficient of the second cushioning material is set larger or higher than that of the first cushioning material on the inner peripheral side.