KR20130024832A - Washing machine - Google Patents

Abstract

PURPOSE: A washing machine is provided to firmly fix the location of a housing installed inside a cylinder, and store a bearing supporting one side of a damper rod inside the cylinder. CONSTITUTION: A washing machine comprises the following: a cylinder(22) including a suspension(7) with a damper(21) formed with a magnetic material; and a rod(23) also formed with the magnetic material. A magnetic force unit(38) is mounted o the rod, and includes a ring shaped middle yoke(39) and upper and lower bobbins(42, 43) connected to the middle yoke with O-rings(40, 41). The bobbins include upper and lower coils. The rod passes through each part for vertically moving, while magneto-rheological fluid inside a gap between upper and lower yokes applies damping force to the suspension. The damper reduces the vibration of a water tank(6) storing a drum(10).

Description

Washing machine {WASHING MACHINE}

The present invention relates to a washing machine.

Conventionally, in a washing machine, especially a drum type washing machine, a water tank exists inside an outer box, and a drum which is a rotating tank is accommodated inside the water tank, and the drum is configured to be driven by a motor outside the water tank. In addition, the water tank is elastically supported by suspension on the bottom plate of the outer box, and the suspension is provided with a damper for damping the vibration of the water tank due to the rotational vibration of the drum.

In this type of damper, the damping force is generally used invariably, but it is conceivable to use a variable damping force in recent years, and magnetic viscous fluid (MR fluid) is used as the working fluid.

A magnetic viscous fluid is a dispersion of ferromagnetic particles such as iron and carbonyl iron in oil, for example, and when magnetic force is applied, the ferromagnetic particles form chain clusters, thereby increasing their viscosity, thereby dehydrating stroke, for example. In the rotational speed range in which the water tank resonance occurs, the viscosity of the magnetic viscous fluid is increased to increase the damping force of the damper.

The damping force of the damper is increased to improve the starting performance of the dehydration rotation by avoiding the resonance of the tank, and in the dehydration steady state (high speed rotation) region after that, by lowering the viscosity of the magnetic viscous fluid and reducing the damping force, It is possible to avoid transmitting the vibration to the outer box and to avoid transmitting the vibration to the floor of the house where the washing machine is installed (see Patent Document 1, for example).

Japanese Unexamined Patent Publication No. 2010-184068

In the damper using the magnetic viscous fluid as the working fluid described in Patent Document 1, a coil and a yoke for inducing a magnetic field generated by the coil are accommodated inside the cylinder, and the rod is coiled in a space created by the coil and the yoke. And a small gap is inserted through the yoke.

The magnetic viscous fluid is filled in the gap between the rod, the coil and the yoke, and the magnetic force is applied to the magnetic viscous fluid through the yoke by the magnetic field generated by the coil.

Moreover, the housing which accommodated the bearing which supports one end side of a rod is provided in the inside of a cylinder. The housing has grooves formed around the outer periphery of the outer periphery, and positioning of the housing inside the cylinder is fixed by caulking the cylinder several times from the outside in a portion corresponding to the groove, and furthermore, a yoke, a coil, or a magnetic viscous fluid. Positioning fixed.

However, the groove of the housing provided inside the cylinder cannot be visually recognized from the outside of the cylinder, so that the cylinder may be cocked at a portion that is displaced from the groove of the housing.

If the cylinder is caulked at a portion deviated from the groove of the housing, the positioning fixing strength of the housing inside the cylinder is insufficient.

Particularly in long-term use, fatigue is caused by rattling of parts, and in the worst case, the housing deviates from the fixed position of the cylinder, thereby further causing the yoke and rod to slide relatively, which causes the yoke to stick to the rod. There was a fear of causing such problems.

Therefore, a washing machine capable of accommodating a bearing supporting one end of a rod of a damper using magnetic viscous fluid as a working fluid in a cylinder, and ensuring positioning fixing of a housing provided inside the cylinder, is provided.

In the washing machine of this embodiment, in the washing machine which has a damper which damps the vibration of the water tank which accommodates a rotating tank, the damper is a cylinder, the coil accommodated in the inside of the cylinder, and the coil accommodated in the cylinder, A yoke for inducing a magnetic field, a rod inserted into the cylinder through the yoke with a small gap between the yoke, a magnetic viscous fluid filled in the gap between the rod and the yoke, and the rod And a housing provided in the cylinder for accommodating a bearing for supporting one end of the cylinder, the protrusion being formed in the inner circumference of the cylinder in the circumferential direction, and the housing being formed in the axial direction of the cylinder by the protrusion. It is characterized by positioning.

Thereby, the bearing which supports the one end side of the rod of a damper can be accommodated in a cylinder, and the positioning fixing of the housing provided in the inside of a cylinder can be ensured.

1 is a longitudinal sectional view of a suspension unit including a damper, showing an embodiment;
Fig. 2 is a longitudinal sectional side view showing the whole of the washing machine with partial breakage.

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment is described with reference to drawings.

First, the whole structure of the drum type washing machine is shown in FIG. 2, and the outer box 1 is made into the outer shell. The outer box 1 has a rectangular parallelepiped shape, of which a laundry entrance 2 is formed slightly above the front part (right side in FIG. 2), and the door 3 for opening and closing the laundry entrance 2 is opened. It is installed in the outer box 1.

The operation panel 4 is provided in the upper part of the front part of the outer box 1, and the control device 5 for operation control is provided in the back surface side (in the outer box 1).

The water tank 6 is provided inside the outer box 1. The water tank 6 has a horizontal axis cylindrical shape in the axial direction of the front and rear (left and right in FIG. 2), and the water tank 6 is placed on the bottom plate portion 1a in the outer box 1 (one side only). It is elastically supported in the inclined state so that it may go up by the suspension 7 of the front. Details of the suspension 7 will be described later.

The motor 8 is attached to the distribution of the water tank 6. The motor 8 is made of, for example, a brushless motor of a direct current, and is of an outer rotor type, and has a rotating shaft (not shown) attached to the center of the rotor 8a through the bearing housing 9 of the water tank 6. Inserted inside.

The drum 10 is provided inside the water tank 6. The drum 10 also has a horizontal cylindrical shape whose axial direction is forward and backward. The drum 10 is attached to the distal end of the rotation shaft of the motor 8 at the center of the rear portion so as to rise forward concentrically with the water tank 6. I support it in an inclined state.

The drum 10 is configured to be rotated by the motor 8, so that the drum 10 is a rotating tub and the motor 8 is configured to function as a rotating tub drive for rotating the drum 10.

The small periphery 11 is formed in the circumferential side part (body part) of the drum 10 over the whole. In addition, both the drum 10 and the water tank 6 have openings 12 and 13 in the front part, and among them, an annular bellows 14 between the opening 13 and the laundry entrance 2 of the water tank 6. ).

As a result, the laundry entrance 2 is connected to the inside of the drum 10 through the bellows 14, the opening 13 of the water tank 6, and the opening 12 of the drum 10.

A drain hose 16 connected to the outside of the outer box 1 is connected to the rear of the bottom of the bottom of the water tank 6 via a drain valve 15. In addition, a drying unit 17 is provided above and forward from the distribution of the water tank 6.

The drying unit 17 has a dehumidifier 18, a blower 19, and a heater 20, and draws air in the drum 10 by dehumidifying and dehumidifying and then heating to return to the drum 10. It is made to dry laundry by carrying out.

Here, the details of the suspension 7 will be described. The suspension 7 has a damper 21, which has a cylinder 22 made of magnetic material as a main member and a rod 23 made of magnetic material as shown in FIG. 1. Doing.

Among them, the cylinder 22 has a cylindrical shape and has an attachment portion 24 at its lower end, and the attachment portion 24 is attached to the bottom plate portion 1a of the outer box 1 as shown in FIG. , Mainly by an attachment plate 25, cushions 26 and 27, and a nut 28.

The rod 23 has a circular rod shape, and the upper end portion is mainly below the left and right sides of the water tank 6 and in the middle portion in the front-rear direction, mainly the attachment plate 29, the cushions 30, 31 and the nut 32. ) Is attached.

Inside the cylinder 22, as shown in FIG. 1, a convex portion 33 is formed at a portion near the lower end portion, and a protrusion 34 is disposed at the periphery of the upper and lower middle portions, and a portion immediately above it. The convex part 35 is formed in the.

Among these, the convex part 33 and the convex part 35 are formed by half-cutting each corresponding part of the cylinder 22 inward from the radial direction outward.

On the other hand, the protrusion part 34 is formed in the inner peripheral part of the corresponding part of the cylinder 22 in the circumferential direction, and forms the groove | channel 36 from the outer side inward to the inner periphery of the cylinder 22, and thus the inner side of the cylinder 22. Protruded to form.

In addition, the groove 36 is formed by rolling caulking which rotates both the cylinder 22 and the groove-shaped molding member which is not shown in figure, Although the cross section is V-shaped, other shape, such as a U-shaped cross section, may be sufficient as it.

Moreover, the U-shaped cutout 37 is formed in one part of the upper end part of the cylinder 22 in the axial direction below from the open end part of the cylinder 22. As shown in FIG.

The magnetic field unit 38 is fitted to the rod 23. The magnetic field unit 38 arranges the upper and lower bobbins 42 and 43 via the ring-shaped intermediate yoke 39 and the O-rings 40 and 41 above and below the intermediate yoke 39.

The upper and lower coils 44 and 45, which are wound in advance, are disposed on the two bobbins 42 and 43, respectively.

Above and below the two bobbins 42 and 43, two upper and lower yokes 48 and 49 arranged through the O-rings 46 and 47 are arranged.

The lead wire 50 provided from the lower coil 45 to the upper coil 44 on the outside thereof and the lead portion 50 of the lead wire 50 are covered to cover the bush 51. The bush 51 is covered with the mold resin 52 to cover the lead wire 50. The 52 is integrated by solidifying.

In addition, the middle yoke 39 and the two upper and lower yokes 48 and 49 are made of a magnetic material, and the yokes 39, 48 and 49 have grooves 53 and 54 for evenly spreading the mold resin 52. 55 and 56).

In addition, the lead wire 50 is for energizing the two upper and lower coils 44 and 45, and is configured to energize the two coils 44 and 45 in series.

There is a small gap 57 between the middle yoke 39 in the magnetic field unit 38, the two upper and lower bobbins 42 and 43, and the two upper and lower yokes 48 and 49, and the rod 23. The rod 23 penetrates the middle yoke 39, the upper and lower bobbins 42 and 43, and the upper and lower yokes 48 and 49 with a small gap 57 therebetween.

In addition, upper and lower oil seals 58 and 59 are tightly inserted into the upper part of the upper yoke 48 and the lower part of the lower yoke 49, which are upper and lower parts of the magnetic field unit 38, and the rod 23 has the two oil seals. They adhere to (58, 59) and penetrate them, and in this state, the gap (57) is filled with a magnetic viscous fluid (MR fluid) 60.

As described above, the magnetic viscous fluid 60 disperses ferromagnetic particles, such as iron and carbonyl iron, in oil, and when the magnetic force is applied, the ferromagnetic particles form chain clusters to increase the viscosity.

The upper and lower oil seals 58 and 59 function to prevent the magnetic viscous fluid 60 from leaking from the magnetic field unit 38.

The upper and lower two oil seals (58, 59) of the upper and lower, the rod 23, the case 63 accommodated the second upper oil seal 61 and the upper bearing 62 and the lower bearing 64 is accommodated The housing 65 is fitted.

The upper bearing 62 and the lower bearing 64 are all made of a sintered-containing metal, and the lower bearing 64 has one end (lower) side than the magnetic field unit 38 of the rod 23 and the upper bearing 62. Is functioning to support the other end (upper end) side of the rod 23 so that an axial direction (up-down direction) can be moved, respectively.

In the lower yoke 49, projections 66 projecting downward are formed in advance. Corresponding to the projections 66, recesses 67 are formed in the housing 65, and the projections 66 are recessed. The lower yoke 49 is prevented from being rotated by the housing 65 by engaging with the portion 67.

In the housing 65, a concave portion 68 corresponding to the convex portion 35 of the cylinder 22 is formed.

The stop ring 69 is attached to the lower end of the rod 23 to prevent the rod 23 from being pulled out.

After the configuration as described above, the housing 65, the magnetic field unit 38, and the case 63 together with the rod 23 are inserted into the cylinder 22 from above the cylinder 22 and the housing 65. Contact the protrusion 34 of the cylinder 22.

As a result, the housing 65 is positioned in the axial direction of the cylinder 22, and the magnetic field unit 38 and the case 63 are also positioned in the axial direction of the cylinder 22.

In addition, at that time, the housing 65 prevents rotation by engaging the recessed part 67 with the protrusion 66 of the lower yoke 49 previously, and the recessed part 68 of the said housing 65 is prevented from rotating. ) Is fitted to the convex portion 35.

Thereby, the housing 65, the magnetic field unit 38, and the case 63 are prevented from rotating to the cylinder 22, and at the same time the portion of the bush 51 of the lead portion 50 of the lead wire 50 in the magnetic field unit 38 is prevented. The position coincides with the position of the cutout portion 37 of the cylinder 22, and the bush 51 is inserted into the cutout portion 37.

Thereafter, the upper open end of the cylinder 22, which is a portion in which the case 63 is housed, is caulked from the outside in the radial direction, and the case 63 is fastened and fixed by the open end of the cylinder 22. .

The cap 70 covering the caulking portion is fitted into the caulking portion of the open end of the cylinder 22. This prevents the case 63, the magnetic field unit 38, and the housing 65 from being pulled out and prevents the bush 51 inserted into the cutout 37 of the cylinder 22 from being removed. The damper 21 is formed.

In addition, the convex part 33 of the cylinder 22 is for attaching the holder (not shown) which moores the middle part of the lead wire 50. As shown in FIG.

The cap 70 has a hole 71 at the center, while the case 63 has a protrusion 63a protruding upward by receiving the upper bearing 62 at the center, and as a caulking portion of the cylinder 22. As the cap 70 is fitted, the protrusion 63a penetrates through the hole 71 to protrude out of the cap 70, and the protrusion 70a is inserted so as to cover one end of the spring 72. The spring 72 is a compression coil spring.

Moreover, the spring sheet 73 is attached to the part of the rod 23 by the predetermined distance above the damper 21, The other end of the spring 72 is fixed to the said spring sheet 73, and the spring sheet ( The spring 72 is interposed between 73 and the cap 70, and thus the suspension 7 is constituted.

By attaching one side of the suspension 7 to the bottom plate portion 1a of the outer box 1, and attaching the other side to the water tank 6, the water tank 6 on the bottom plate portion 1a of the outer box 1. The elastic support is made.

Next, the effect of the washing machine of the said embodiment is demonstrated.

In the washing machine of the said structure, when rotating the drum 10 at the time of washing | cleaning, dehydration, or drying, the water tank 6 vibrates up and down mainly by the rotation of the drum 10. As shown in FIG.

In response to the up and down vibration of the water tank 6, in the suspension 7, the rod 70 of the damper 21 attached to the water tank 6 expands and contracts the spring 72 and the cap 70 and the upper bearing 62. , Upper oil seals 61 and 58, upper yoke 48, upper bobbin 42 (upper coil 44), middle yoke 39, lower bobbin 43 (lower coil 45), lower yoke (49), the lower oil seal 59, and the lower bearing 64 reciprocate in the cylinder 22 in the vertical direction (axial direction).

In this way, when the rod 23 reciprocates in the vertical direction through each component, the magnets filled in the gap 57 between the rod 23 and the two upper and lower yokes 48 and 49 and the intermediate yoke 39 are filled. The viscous fluid 60 imparts a damping force to the suspension 7 with frictional resistance due to its viscosity, and attenuates the amplitude of the water tank 6.

At this time, among these, when the water tank 6 resonates, the upper and lower coils 44 and 45 of the damper 21 are energized (direct current) through the lead wires 50. As a result, a magnetic field is generated by the two coils 44 and 45, and a magnetic force is applied to the magnetic viscous fluid 60, thereby increasing the viscosity of the magnetic viscous fluid 60.

Specifically, by energizing the two coils 44 and 45, the rod 23-magnetic viscous fluid 60-upper yoke 48-cylinder 22-intermediate yoke 39-magnetic viscous fluid 60- At the same time as the magnetic circuit of the rod 23 occurs, the rod 23-magnetic viscous fluid 60-middle yoke 39-cylinder 22-lower yoke 49-magnetic viscous fluid 60-rod The magnetic circuit of (23) occurs, and the viscosity of the magnetic viscous fluid 60 in the portion through which the magnetic flux passes respectively becomes high.

In particular, the magnetic viscous fluid 60 between the rod 23 and the upper yoke 48 having high magnetic flux density, between the middle yoke 39 and the rod 23, and between the lower yoke 49 and the rod 23. As the viscosity increases, the frictional resistance increases.

In this way, when the rod 23 vibrates in the vertical direction through each component, in particular, the upper and lower two coils 44 and 45, the upper yoke 48, the middle yoke 39, and the lower yoke 49, Among them, the frictional resistance when the water tank 6 resonates can be increased, and the damping force is increased. Thereby, the generation | occurrence | production of the vibration of the water tank 6 can be prevented.

In addition, in the high-speed rotational region after the rotational speed region where resonance of the water tank 6 occurs, the damping force of the damper 21 is reduced by not energizing the two coils 44 and 45 or by reducing the energization amount thereof. By this, the vibration of the water tank 6 can be avoided from being transmitted to the outer box 1, and the vibration of the water tank 6 can be avoided from being transmitted to the bottom surface of the house where the washing machine is installed.

Thus, in the washing machine of the said embodiment, the upper and lower coils 44 and 45 which the damper 21 which damps the vibration of the water tank 6 which accommodates the drum 10 which is a rotating tub | route accommodated in the cylinder 22 generate | occur | produce. By applying a magnetic field to the magnetic viscous fluid 60 between the rod 23, the upper and lower yoke 48, 49 and the middle yoke 39, the magnetic viscosity of the magnetic viscous fluid 60 is increased, The frictional resistance to the reciprocating motion of (23) is increased to increase the damping force, thereby preventing vibration of the water tank (6).

Among them, the projecting portion 34 in the inner circumference of the cylinder 22 as a positioning structure of the housing 65 installed in the cylinder 22 and accommodating the lower bearing 64 for supporting one end of the rod 23. Is formed in the circumferential direction, and the housing 65 is positioned in the axial direction of the cylinder 22 by the protruding portion 34.

Therefore, the positioning fixation of the housing 65 inside the cylinder 22 can be ensured.

In a structure in which the cylinder is caulked from the outside in a portion corresponding to the groove formed in the outer circumference of the housing, which has been conventionally employed, and the housing is positioned within the cylinder, the cylinder is caulked at the portion that is displaced from the groove of the housing. This may cause problems such as a lack of positioning fixing strength of the housing inside the cylinder, occurrence of rattling, and deviation of the housing from the fixing position of the cylinder.

However, in the washing machine of the embodiment, since the yokes 49, 39, 48 do not slide on the rod 23, there is no fear of occurrence of problems such as slippage of the yokes 49, 39, 48 with respect to the rod 23. Can be.

Moreover, in the washing machine of the said embodiment, the protrusion part 34 of the cylinder 22 is formed by protruding inward of the cylinder 22 by forming the groove | channel 36 from the outer side of the cylinder 22 from the outer side.

Thereby, more accurate and slanting etc. which form the protrusion part 34 by the cylinder 22 by scattering can be formed, and the positioning high accuracy of the housing 65 in the cylinder 22 is thereby formed. Precision can be improved. In addition, the formation of the protrusion 34 itself can be facilitated.

Moreover, the case 63 which accommodated the upper bearing 62 which supports the other end side of the rod 23 is accommodated in the inside of the cylinder 22, and the case 63 was caulked the cylinder 22, It is fixed by the caulking part.

Thereby, the axial load which suppresses the magnetic field unit 38 and the housing 65 from the case 63 to the protrusion part 34 side of the cylinder 22 acts, and the positioning of the housing 65 is fixed, and more. Furthermore, positioning fixation from the magnetic field unit 38 to the case 63 can be made firmer.

In addition, although the protrusion width of the protrusion 34 in the inside of the cylinder 22 may be slightly different in the axial position of the housing 65, it may be considered that the deviation is caused by the case 63. ) Can be absorbed in the fixed structure by caulking, and positioning of the housing 65 can be performed without difficulty.

The caulking portion of the cylinder 22 is covered with the cap 70.

Thereby, even when fatigue by long-term use arises in the cylinder 22 which fixed the case 63 by caulking, and the fixing strength falls, the cylinder 22 is not loosened by the fastening action of the cap 70, Fixing of the case 63 and further, fixing from the magnetic field unit 38 to the housing 65 can be held more firmly, and the reliability can be improved.

Moreover, the cap 70 also exhibits the effect of preventing the opening of the cutout 37 of the cylinder 22 and the detachment of the bush 51.

In addition, the cap 70 has a hole 71 at the center thereof, and the protrusion 63a of the case 63 protrudes out of the cap 70 through the hole 71 so that the spring 72 is provided at the protrusion. The suspension 7 which fits and elastically supports the water tank 6 is assembled.

Thereby, centering of the spring 72 can be performed easily and accurately using the case 63. FIG.

Then, the spring sheet 73 is attached to the rod 23, and the suspension 7 is assembled through the spring 72 between the spring sheet 73 and the cap 70.

As a result, even if fatigue caused by long-term use occurs in the cap 70 and rattling occurs, the spring 72 of the suspension 7 that elastically supports the water tank 6 is suppressed by the cap 70. Since the cap 70 is fixed, it is possible to fix the cap 70 from the case 63 to the magnetic field unit 38 and the housing 65 more firmly and to improve the reliability.

The washing machine described above is not limited to only the above-described embodiments, and the washing machine as a whole is not limited to a drum type. You don't have to.

Moreover, only one pair of coils and bobbins may be provided, and one yoke may be arranged just above and below each other, and it can change suitably and implement in the range which does not deviate from the summary of this invention.

In addition, although some embodiments of the present invention have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the inventions. These novel embodiments can be implemented in various other forms, and various omissions, substitutions, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications fall within the scope and spirit of the invention and are included in the scope of the invention as defined in the claims and their equivalents.

6: water tank 10: drum (rotating tank)
21: damper 22: cylinder
23: rod 34: protrusion
36: Home 39: Middle York
44: upper coil 45: lower coil
48: upper yoke 49: lower yoke
57: gap 60: magnetic viscous fluid
62: upper bearing 63: case
63a: protrusion 64: lower bearing
65: housing 70: cap
71: hole 72: spring 73: spring sheet

Claims (6)

A washing machine having a damper for damping vibration of a water tank accommodating a rotating tank,
The damper is,
cylinder,
A coil housed inside the cylinder,
A yoke received inside the cylinder and inducing a magnetic field generated by the coil,
A rod inserted into the cylinder through the yoke with a small gap between the yoke, and
A magnetic viscous fluid filled in the gap between the rod and the yoke, and
And a housing installed inside the cylinder for receiving a bearing for supporting one end of the rod,
And a protrusion formed in the circumferential direction on the inner circumference of the cylinder, and the protrusion is positioned so that the housing is positioned in the axial direction of the cylinder. The method of claim 1,
The protrusion of the said cylinder is formed in the front circumference | surroundings of the said cylinder, The washing machine protrudes in the inner side of the said cylinder, and is formed. 3. The method according to claim 1 or 2,
The damper includes a case for accommodating a bearing supporting the other end side of the rod and installed inside the cylinder, wherein the case is fixed by a caulking portion for caulking the cylinder. The method of claim 3, wherein
The damper is provided with a cap covering the caulking portion of the cylinder. The method of claim 4, wherein
The cap has a hole in the center portion, the washing machine penetrates the hole so that the protrusion of the case protrudes out of the cap, and the spring is fitted into the protrusion to assemble a suspension for elastically supporting the water tank. The method of claim 5, wherein
A spring seat is mounted to said rod, and said spring is interposed between said spring seat and said cap to assemble a suspension for elastically supporting a water tank.

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