KR102318757B1 - Damping apparatus for Owashing machine - Google Patents

Abstract

A damping device for a washing machine according to an embodiment of the present invention includes: a suspension cap constrained to an outer tub of the washing machine; a lower spring accommodated in the suspension cap; a suspension shaft extending through the suspension cap; a snubber base coupled to a lower end of the suspension shaft to support the lower spring, and a periphery of the suspension cap rubs against an inner surface of the suspension cap when the suspension cap moves; an upper pivot passing through the suspension shaft and having a corresponding curved surface in contact with the curved surface of the pivot hanger fixed to the washing machine body and rotatably seated; an upper spring provided above the upper pivot to attach the upper pivot to the pivot hanger; It is fixedly mounted to the pivot hanger, and it characterized in that it comprises a spring bracket constraining the upper spring.

Description

Damping apparatus for washing machine { Damping apparatus for Owashing machine }

The present invention relates to a damping device for a washing machine.

In general, washing machines are for general laundry that automatically or semi-automatically washes, rinses, and spins dirty laundry due to complex actions such as friction between water and laundry by water flow, friction between inner tub and laundry, and emulsification of detergent. it's an electrical appliance.

The basic system of such a washing machine is classified into a washing cycle, a rinsing cycle, a drain cycle, and a dehydration cycle according to roles, and the washing and rinsing cycle is a process of washing or rinsing by the water flow generated by flowing the water supplied into the washing machine. And, the draining cycle is a process of discharging water contaminated by the washing and rinsing processes to the outside, and the dewatering cycle is a process of removing the water soaked in the laundry by centrifugal force caused by rotating the laundry at high speed.

1 shows an example of a washing machine having such a function, the configuration of which is an outer case 1, a top cover 2 coupled to an upper portion of the outer case, and a lower portion of the outer case. The outer shape is formed by the base 3 .

And, the outer tub 4 is elastically installed by the damper 5 inside the outer case 1, and the inner tub 6 is rotatably installed inside the outer tub 4, and the inner A pulsator 7 is rotatably installed under the tub 6 .

In addition, a drive motor 8 for generating rotational power is installed at the lower outer side of the outer tub 4, and the inner tub 6 and the inner tub 6 and The clutch 11 is connected and connected to the pulsator 7 by the washing shaft 10 is installed.

The operation process of the (fully automatic) washing machine configured as described above will be described in detail separately for each process.

First, in the washing cycle, the amount of load received by the pulsator 7 is checked by the weight load as the laundry is put into the inner tub 6, and the appropriate water level and washing time are automatically set therefor, and then water is supplied as much as the set water level. , the driving motor 8 is operated in this water supply process.

The power of the driven driving motor 8 is transmitted to the clutch 11 through the V-belt 12. At this time, the dehydration shaft 9 and the washing shaft 10 of the clutch 11 are separated and only the washing shaft is used. As the motor power is transmitted, the pulsator 7 connected to the washing shaft 10 rotates in the forward/reverse direction by the motor power to generate a water flow in the wash water already supplied in the outer tub 4 to perform washing. will do

In the rinsing cycle, the amount of load acting on the pulsator 7 is checked by the weight of the laundry contained in the inner tub 6, and an appropriate water level and rinsing time are automatically set therefor, and then rinsed by the same procedure as the washing process will proceed with

The draining process is a process of discharging contaminated water generated by the washing and rinsing processes to the outside by opening only the drain valve 13 while the other parts are stopped.

The spin-drying process is a process of discharging the residual water in the laundry to the outside of the washing machine after the draining process. When the inner tub 6 connected to the spin-drying shaft 9 and the pulsator 7 connected to the washing shaft 10 are simultaneously rotated in one direction by simultaneous rotation by the power of 8)

will grow Accordingly, the laundry contained in the inner tub 6 is also rotated at high speed and the residual water soaked in the laundry is discharged to the outside by the centrifugal force applied thereto.

Such a washing system proceeds for an initially set time, and when the set time comes, the machine is automatically stopped under the control of a microcomputer (not shown), and all washing systems are completed.

Meanwhile, as shown in FIG. 2 , the damper 5 includes a long rod-shaped suspension shaft 50 constituting a skeleton, coupled to the upper end of the suspension shaft, and formed in each upper inner corner of the outer case 1 . An upper pivot 51 in spherical contact with the upper corner 1a, a cup-shaped suspension cap 52 which is installed to be in surface contact with the lower outer circumferential surface of the suspension shaft and coupled to the outer tub 4; The soft material snubber base 53 is fixed to the lower end of the suspension shaft 50 and the outer circumferential surface rubs against the inner circumferential surface of the suspension cap 52, and the snubber base is press-fitted to the inner surface of the snubber base to restore the shape of the snubber base. It is composed of a restoration spring 54 that provides have.

A plurality (normally four) of the dampers 5 constructed as described above are provided between the outer case 1 as a fixed body and the outer tube 4 as a fluid, so that the outer tube 4 flows. When this is done, the transfer of the flow force to the outer case 1 is attenuated by the elastic force of the damping spring 55 and the frictional force between the suspension cap 52 and the snubber base 53 .

The vibration damping action will be described in more detail with reference to FIG. 3 as follows.

First, when the outer tube 4 flows due to the flow force of the wash water and the bias of the laundry during the washing and rinsing process or the dehydration process, the suspension shaft 50 is fixed to the outer case 1, so the damper 5 ), and the part that actually flows becomes the suspension cap 52 fixed to the outer tube 4 .

Accordingly, when the outer tube 4 flows, this flow force is transmitted to the suspension cap 52, and at this time, the suspension cap 52 compresses and tensions the damping spring 55 by the flow force. will reduce vibration. At the same time, as the damping spring is compressed and stretched, the snubber base 53 is inserted into the suspension cap 52 , and at this time, the inner circumferential surface of the suspension cap and the outer circumferential surface of the snubber base 53 come into contact with the friction force generated. vibration can be further reduced.

In addition, when the snubber base 53 is retracted into the suspension cap 52 by the restoration spring 54 press-fitted to the inner circumferential surface of the snubber base 53, it is elastically contracted and then withdrawn when the restoration spring 54 is withdrawn. By restoring the original shape by the elastic force of

However, in the damper having such a structure, the upper pivot 51 is easily rotated and flows by vibration generated during dehydration while in simple contact with the upper corner 1a, so that there is a problem in that the damping effect of vibration is deteriorated.

In addition, there is a problem that the upper pivot 51 may be separated from the upper corner 1a when excessive vertical vibration occurs.

It is an object of the present invention to provide a damping device for a washing machine that improves vibration reduction performance by increasing frictional force when an upper pivot is rotated.

Another object of the present invention is to provide a damping device for a washing machine that improves vibration reduction performance of vertical flow and prevents separation of the upper pivot due to vibration.

A damping device for a washing machine according to an embodiment of the present invention includes: a suspension cap constrained to an outer tub of the washing machine; a lower spring accommodated in the suspension cap; a suspension shaft extending through the suspension cap; a snubber base coupled to a lower end of the suspension shaft to support the lower spring, and a periphery of the suspension cap rubs against an inner surface of the suspension cap when the suspension cap moves; an upper pivot passing through the suspension shaft and having a corresponding curved surface in contact with the curved surface of the pivot hanger fixed to the washing machine body and rotatably seated; an upper spring provided above the upper pivot to attach the upper pivot to the pivot hanger; and a spring bracket fixedly mounted to the pivot hanger and constraining the upper spring.

The spring bracket may include a spring fixing part extending downward and penetrating an upper surface of the upper spring to prevent movement of the upper spring.

The spring bracket includes a pair of bracket support portions having a lower end fixed to the pivot hanger; a bracket connecting portion connecting the upper ends of the pair of brackets across the upper spring; and a spring fixing part penetrated by the bracket connection part and inserted into the inner side of the upper spring.

The spring bracket includes a pair of bracket support portions having a lower end fixed to the pivot hanger; a bracket connecting portion connecting the upper ends of the pair of brackets across the upper spring; It is characterized in that it extends downward from the bracket connection portion, it characterized in that it comprises a spring fixing portion inserted into the inner side of the upper spring.

The spring bracket is characterized in that both ends are fixed to the pivot hanger, and at least a portion is bent to be restrained in contact with the upper end of the upper spring.

The spring bracket may be disposed to be spaced apart from the upper end of the suspension shaft.

An upper bushing that supports the upper spring from below and through which an upper end of the suspension shaft passes is provided on the upper surface of the upper pivot.

The upper spring is characterized in that both ends are supported by the upper bushing and the spring bracket.

The pivot hanger is characterized in that at least two hanger coupling portions formed in intersecting directions extend upward and are fixedly mounted to the inner edge of the washing machine body.

The pivot hanger is recessed downwardly, and it characterized in that it includes a hanger base providing a surface on which the spring bracket and the upper pivot are seated.

In the damping device of a washing machine according to an embodiment of the present invention, an elastic member is provided above the upper pivot, and an elastic member bracket constraining the elastic member is mounted, so that the upper pivot can maintain a state in close contact with the pivot seat. let it be

Accordingly, it is possible to reduce the vibration of the outer tub by increasing the initial friction force during the rotational movement between the rotating part of the upper pivot and the seating surface of the pivot seating part.

In addition, even when vibration occurs in the vertical direction, the elastic member bracket restrains the elastic member, thereby preventing the elastic member from leaving the pivot seat.

In addition, a spring fixing part extends through the spring in the elastic member bracket, and the upper spring maintains a stable mounting state by the spring fixing part and provides a consistent elastic force.

In addition, the elastic member bracket has a structure in which the spring fixing part is formed between both ends in the shape of a wire bent at both ends, and has a simple structure as well as a very simple mounting structure, so that it is easy to manufacture and assemble.

In addition, by mounting the bushing, it is possible to support the elastic member more stably, and by varying the height of the bushing according to the model or vibration characteristics of the washing machine, the compression force of the upper pivot can be adjusted, so that it can be utilized in more various models. There is an advantage.

1 is a longitudinal sectional view showing an example of a general washing machine.
2 is a longitudinal cross-sectional view of a damper according to the prior art.
3 is a longitudinal cross-sectional view illustrating a damping state of the damper.
4 is a perspective view illustrating a state in which a damper according to an embodiment of the present invention is mounted on an outer tub.
5 is an exploded perspective view of the damper.
6 is a longitudinal cross-sectional view showing a lower structure of the damper.
7 is a longitudinal cross-sectional view showing an upper structure of the damper.
8 is a perspective view showing a coupling structure of an upper pivot and a pivot hanger according to an embodiment of the present invention.
9 is a longitudinal cross-sectional view illustrating a damping state of the damper.

Hereinafter, specific embodiments of the present invention will be described in detail with drawings. However, the present invention cannot be said to be limited to the embodiments in which the spirit of the present invention is presented, and other inventions that are degenerate by addition, changes, deletions, etc. of other components or other embodiments included within the scope of the present invention are easy can suggest

4 is a perspective view illustrating a state in which a damper according to an embodiment of the present invention is mounted on an outer tub.

As shown in the drawing, the outer tub 100 of the washing machine according to the embodiment of the present invention is formed in a cylindrical shape with an upper surface open, and an inner tub (not shown) is rotatably mounted therein. The inner tub is formed to accommodate laundry. In addition, the outer tub 100 is filled with water for washing, and when the inner tub is rotated, the laundry is rotated together in a state of being submerged in water so that washing can be performed while colliding with the wall of the inner tub.

Meanwhile, a damper 200 is provided on the outer surface of the outer tub 100 to prevent vibration when the outer tub 100 rotates. The damper 200 may be provided at each of four corners of the main body of the washing machine in which the outer tub 100 is accommodated.

In addition, the damper 200 may be configured to connect the upper edge of the main body and the lower portion of the outer tub 100 . To this end, a pivot hanger 260 is provided at an upper edge of the main body, and a mounting rib 110 is provided at a lower portion of the outer tub 100 .

The mounting rib 110 is formed at a position corresponding to the position where the damper 200 is mounted, and may be configured in the shape of a pair of ribs extending long in the vertical direction. The mounting rib 110 may be formed to have a predetermined width so that the damper 200 can be positioned therebetween. have.

In addition, a restraining portion 111 for restraining the damper 200 may be further formed on the inner surface of the mounting rib 110 . In detail, the restraining part 111 protrudes from the inner surface of the pair of mounting ribs 110 and is formed to surround the suspension cap 220 of the damper 200 . The gap between the restraining parts 111 is in contact with the outer surface of the first shaft fixing part 221 formed on the upper portion of the suspension cap 220 to prevent the suspension cap 220 from moving upward. In addition, when vibration and flow of the outer tub 100 occur, the restraining unit 111 presses the suspension cap 220 from above so that the suspension cap 220 moves downward along the suspension shaft 210 . is configured to

Meanwhile, a plurality of reinforcing ribs 112 are formed on the outer surface of the mounting rib 110 . The reinforcing rib 112 is to prevent deformation and damage of the mounting rib 110 , and extends in a direction crossing the mounting rib 110 , and the outer surface of the mounting rib 110 and the outer tub It may be formed to connect the outer surface of (100). A plurality of the reinforcing ribs 112 may be continuously arranged at regular intervals up and down, and the size of the reinforcing ribs 112 may be increased from the upper side to the lower side.

In addition, a horizontal damper 120 may be provided above the outer tub 100 . The horizontal damper 120 connects the outer tub 100 and the suspension shaft 210, and is configured to extend in a direction crossing the extension direction of the damper 200, that is, in a direction horizontal to the ground. do.

The horizontal damper 120 is configured such that an elastic member 122 is provided between the suspension shaft 210 and the horizontal shaft 121 connecting the outer tub 100 to the outer tub when the washing machine is initially driven. It is possible to prevent the vibration from being generated or fluctuating in (100).

Hereinafter, the structure of the damper 200 will be described in more detail with reference to the drawings.

5 is an exploded perspective view of the damper.

As shown in the drawing, the damper 200 is elongated in the vertical direction to connect the outer tub 100 and the pivot hanger 260 on the upper part of the body as a whole. In addition, the damper includes a suspension shaft 210 extending vertically and long, a suspension cap 220 and a lower spring 290 provided under the suspension shaft 210 , a snubber base 230 , and the suspension shaft. It may be configured to include an upper pivot 240 provided on the upper portion of the 210 , an upper bushing 250 , an upper spring 270 , and a spring bracket 280 .

6 is a longitudinal cross-sectional view showing a lower structure of the damper.

As shown in the drawing, the suspension shaft 210 is formed in a shaft shape extending up and down. In addition, a suspension cap 220 is provided under the suspension shaft 210 . The suspension cap 220 is formed so that the suspension shaft 210 passes therethrough, and the first shaft fixing part 221 in contact with the suspension shaft 210 and a spring receiving part 222 in which the lower spring 290 is accommodated. ) can be composed of

The first shaft fixing part 221 is formed to have an inner diameter corresponding to that of the suspension shaft 210 , and allows the suspension cap 220 to be mounted on the suspension shaft 210 . In this case, the first shaft fixing part 221 may be moved in a vertical direction along the suspension shaft 210 when the suspension cap 220 is vertically moved.

The first shaft fixing part 221 may include an outer rib 221a protruding outward of the spring receiving part 222 and an inner rib 221b protruding inward of the spring receiving part 222 . have. In addition, when the suspension cap 220 moves up and down, the inner rib 221b is configured to be inserted into the lower spring 290 so that the suspension cap 220 is stably mounted on the suspension shaft 210 . to keep the status quo.

In addition, the spring receiving part 222 is formed at the lower end of the first shaft fixing part 221 , and is formed to have an inner diameter larger than the outer diameter of the lower spring 290 , and the pair of mounting ribs 110 . ) may be formed to be accommodated between.

In addition, the outer diameter of the spring accommodating part 222 may be formed to be larger than the outer diameter of the first shaft fixing part 221 , and is fixed between the restraining parts 111 so that the upper and lower parts of the outer tub 100 are fixed. It is configured to flow in the vertical direction together with the outer tub 100 when flowing.

The suspension shaft 210 extends downward through the suspension cap 220 , and a lower spring 290 is accommodated in the suspension cap 220 . The lower spring 290 is disposed to penetrate by the suspension shaft 210 and is configured to be supported by the snubber base 230 .

The snubber base 230 is fixedly mounted to the lower end of the suspension shaft 210 . The snubber base 230 may be formed in a circular shape corresponding to the cross-section of the suspension cap 220, and may be formed to have an outer diameter that is slightly larger than or equal to the cross-sectional area of the open cross-section of the suspension cap 220. have.

And, at least the outer circumference of the snubber base 230 is formed of an elastic material or a rubber material. Accordingly, when the suspension cap 220 moves downward, the snubber base 230 moves inside the suspension cap 220 to compress the lower spring 290 , and at this time, the The circumferential surface is frictionally in contact with the inner surface of the suspension cap 220 to reduce vibration of the outer tub 100 .

7 is a longitudinal cross-sectional view showing an upper structure of the damper. And, Figure 8 is a perspective view showing the coupling structure of the upper pivot and the pivot hanger according to an embodiment of the present invention.

As shown in the drawing, a pivot hanger 260 is provided at an upper corner of the washing machine body. The pivot hanger 260 fixes the upper end of the damper 200 so that the damper 200 can be fixed in a suspended form.

The pivot hanger 260 may be formed by bending or press processing of a metal material, or may be formed by injection of a plastic material. In addition, the pivot hanger 260 includes a hanger base 262 forming a bottom surface, a hanger coupling part 261 for fixing the pivot hanger 260 , and a pivot seat on which the upper pivot 240 is seated. It may be configured to include a portion 263 .

In detail, the hanger base 262 is formed to have at least one edge so as to be in close contact with the edge of the body, and forms a plane horizontal with the ground so that the upper pivot 240 and the spring bracket 280 are It provides a surface that can be mounted.

The hanger coupling parts 261 are formed to extend upwardly from both ends forming the corners of the hanger base 262 , and a pair of the hanger coupling parts 261 may be formed in a vertically intersecting direction.

At the upper end of the hanger coupling part 261, a hooking part 261a bent downward to be caught and constrained to the body may be formed. In addition, a hook 261b coupled to one side of the main body may be further formed in the hanger coupling part 261 .

The hanger base 262 may form a flat recessed downward step. In addition, a pivot seating portion 263 is formed in the center of the hanger base 262 , and a plurality of bracket fixing holes 264 may be formed outside the pivot seating portion 263 .

The bracket fixing hole 264 may be formed in a position facing each other with respect to the pivot seating portion 263 , and may be opened so that an end of the spring bracket 280 can be fixed.

The pivot seating portion 263 may be formed to be depressed downwardly from the hanger base 262 . The pivot seating part 263 includes a seating surface 265 in contact with the outer surface of the upper pivot 240 and a second shaft fixing part 241 of the upper pivot 240 at the center of the seating surface 265 . It may be configured to include a through-hole 266 through.

The seating surface of the pivot seating part 263 may be recessed to have a predetermined curvature, and may be formed in a hemispherical shape to allow the upper pivot 240 to be rotatably mounted.

In addition, the through hole 266 is formed to have an inner diameter greater than the outer diameter of the second shaft fixing part 241 so as not to interfere with the rotation of the upper pivot 240 . In addition, the through hole 266 is formed in a shape that slightly extends downward to guide the second shaft fixing part 241 .

The upper pivot 240 is coupled to the upper end of the suspension shaft 210 . The upper pivot 240 may include a second shaft fixing part 241 through which the suspension shaft 210 is fixed and a rotating part 242 rotating in the pivot seating part 263 .

The second shaft fixing part 241 is penetrated by the suspension shaft 210 and allows the upper pivot 240 to be fixed to the suspension shaft 210 . In addition, the second shaft fixing part 241 is formed to extend downward through the through hole 266 of the pivot hanger 260 .

In addition, the rotating part 242 is formed in a curved shape having a predetermined curvature, and may be formed in a shape such as a hemisphere. The curved surface of the rotating part 242 is formed to be in contact with the curved surface of the pivot seating part 263 .

Accordingly, in a state in which the upper pivot 240 is mounted on the pivot hanger 260 , the rotating part maintains a state in contact with the pivot seating part 263 . In such a state, when vibration of the outer tub 100 occurs, the suspension shaft 210 may rotate. will rotate In addition, the rotational amount of the suspension shaft 210 may be reduced by a friction force generated when the rotating part 242 and the pivot seating part 263 are rotated in contact with each other, and as a whole, the outer tub 100 ) can be attenuated.

Meanwhile, an extension part 243 extending upward along the circumference of the rotating part 242 is further formed at the upper end of the rotating part 242 . The extension part 243 forms a space 244 in which the upper bushing 250 can be mounted, and a plurality of extension parts 243 may be arranged at regular intervals. That is, it may be formed to extend upwardly from the outer end of the rotating part 242 , and may be formed to extend upwardly from an inner position somewhat distant from the outer end of the rotating part 242 .

In addition, an elastically deformable portion 245 recessed downward may be further formed on the upper surface of the rotating portion 242 . The elastically deformable part 245 is the rotating part 242 or the pivot hanger (242) or the pivot hanger ( 260 is not damaged and the rotating part 242 can be positively deformed. The elastically deformable part 245 may be formed in plurality, and may be formed to have a predetermined length along the rotating part 242 .

On the other hand, the upper bushing 250 is mounted in the space above the rotating part 242 formed by the extension part 243 . The upper bushing 250 is formed in a size that can be mounted inside the space formed by the extension part 243 and is formed so that the suspension shaft 210 can pass therethrough.

In addition, a lower surface of the upper bushing 250 may be in contact with an upper surface of the rotating part 242 , and an upper surface of the upper bushing 250 may be formed to protrude more than an upper end of the extension part 243 . In addition, the lower end of the upper spring 270 may be supported on the upper surface of the upper bushing 250 . In this case, the suspension shaft 210 may further extend upward through the center of the upper bushing 250 , and the upper end of the suspension shaft 210 passes through the lower end of the upper spring 270 , and the upper It extends inwardly of the spring 270 . Accordingly, the upper spring 270 is not detached to the outside, and the mounting position can be fixed by the upper bushing 250 and the upper end of the suspension shaft 210 .

Meanwhile, a spring bracket 280 may be mounted on the upper surface of the pivot hanger 260 . The spring bracket 280 supports the upper spring 270 from above to maintain the upper pivot 240 in close contact with the pivot seat 263 .

The spring bracket 280 includes a pair of bracket support parts 281 extending upward from the lower end of the hanger base 262, a bracket connection part 282 connecting the upper end of the bracket support part 281, and the bracket connection part. It may be composed of a spring fixing portion 283 extending downwardly from the center of the 282 .

In detail, both ends of the spring bracket 280 may be vertically bent toward the hanger base 262 , and may be formed to pass through the spring fixing part 283 . The bracket support portion 281 has a fixing groove 284 recessed inward at the bottom thereof, and the fixing groove 284 is inserted into the bracket fixing hole 264 formed in the hanger base 262 to be fixed. have.

That is, the bracket support part 281 may be fixed in such a way that it is press-fitted into the bracket fixing hole 264 , and the fixing groove 284 may be caught in the bracket fixing hole 264 . Meanwhile, the lower end of the bracket support 281 may be more firmly fixed to the hanger base 262 by additional processing such as melting point or riveting.

Meanwhile, the spring fixing part 283 is disposed at the center of the bracket connection part 282 as shown in FIG. 7 , and may be configured to be penetrated by the bracket connection part 282 . The spring fixing part 283 may be formed to extend downward, and is formed to correspond to the inner diameter of the upper spring 270 and inserted into the upper spring 270 through the upper surface of the upper spring 270 . can be

Therefore, the lower end of the upper spring 270 is fixed by the upper bushing 250 and the suspension shaft 210 , and the upper end is fixed by the spring fixing unit, so that the upper spring 270 is in its original position during compression. be able to maintain And, it is configured to stably support the upper pivot 240 even in a situation where an excessive load is applied momentarily.

Meanwhile, the spring fixing part 285 may be integrally formed with the spring bracket 280 as shown in FIG. 8 , and may be formed to extend downwardly from the center of the bracket connection part 282 .

In this case, the spring bracket 280 may be injection-molded of a plastic material, or, when formed of a metal material, the spring fixing part may be joined to the bracket connection part by welding or the like.

Of course, even at this time, the spring fixing part may extend downward to pass through the upper surface of the upper spring, so that the upper spring 270 does not deviate or separate from its original position.

Hereinafter, the operation of the damper device of the washing machine according to the embodiment of the present invention having the above structure will be described with reference to the drawings.

9 is a longitudinal cross-sectional view illustrating a damping state of the damper.

As shown, the damper 200 can attenuate vibrations generated during the operation of the washing machine, particularly during spin-drying.

In detail, when vibration or flow occurs in the outer tub 100 , the suspension cap 220 is pressed downward by the mounting rib 110 and the restraining part 111 . Accordingly, the suspension cap 220 moves downward along the suspension shaft 210 , and the lower spring 290 can be compressed.

In addition, the snubber base 230 provided at the lower end of the suspension shaft 210 is in contact with the inner surface of the suspension cap 220 , the outer circumference of the snubber base 230 and the suspension cap 220 . Friction occurs as the inner surfaces of the surfaces move relative to each other in contact.

Therefore, in the lower part of the damper 200, the vibration of the outer tub 100 is attenuated by the elastic force of the lower spring 290 and the frictional force between the suspension cap 220 and the snubber base 230. be able to

Meanwhile, in the outer tub 100 , flow in the vertical direction may be further generated due to imbalance of laundry during washing or dehydration, and rotational force is generated so that the upper pivot 240 moves to the pivot hanger 260 . It can be rotated while mounted.

In detail, when a rotational force is applied to the suspension shaft 210 , the upper pivot 240 connected to the suspension shaft 210 may also be rotated. In addition, even when a force is applied to the suspension shaft 210 in the lateral direction, the upper pivot 240 may be rotated.

When a force to rotate the upper pivot 240 is applied, the upper pivot 240 is rotated while in contact with the pivot seat 263 . At this time, the outer surface of the upper pivot 240 and the seating surface 265 of the pivot seating part 263 are formed to have curved surfaces corresponding to each other, so that the upper pivot 240 can freely rotate.

Meanwhile, the upper pivot 240 has a structure supported by the upper spring 270 fixed by the spring fixing portions 283 and 285 of the spring bracket 280 and the bracket connecting portion 282, and the upper spring 270 ) is pressed so as to maintain a state in close contact with the inner surface of the pivot seat 263 by the elastic force provided.

That is, the upper pivot 240 maintains a state in close contact with the pivot seat 263 by the upper spring 270, and in such a situation, when a rotational force is applied, the upper pivot 240 rotates in a press-contact state. . At this time, the frictional force between the upper pivot 240 and the pivot seating part 263 is increased to limit the rotation of the suspension shaft 210 and to attenuate the vibration of the outer tub 100 .

In addition, even when the sudden flow of the outer tub 100 occurs, shock and vibration can be attenuated by the elasticity of the upper spring 270 . Therefore, the upper pivot 240 continuously maintains a state in close contact with the pivot seat 263, and the upper pivot 240 is not separated even by a sudden external shock or vibration, and a stable mounting state can be maintained. there will be

In this way, even in the case of vibration and septum generated in the outer tub 100, the damper 200 has a structure capable of attenuating such vibrations and shocks at the upper and lower portions, respectively.

Claims (10)

Suspension cap restraining the outer tub of the washing machine;
a lower spring accommodated in the suspension cap;
a suspension shaft extending through the suspension cap;
a snubber base coupled to the lower end of the suspension shaft to support the lower spring, the periphery of the suspension cap rubbing against the inner surface of the suspension cap when the suspension cap is moved;
an upper pivot passing through the suspension shaft and having a corresponding curved surface in contact with the curved surface of the pivot hanger fixed to the washing machine body and rotatably seated;
an upper spring provided above the upper pivot to attach the upper pivot to the pivot hanger;
and a spring bracket fixedly mounted to the pivot hanger and constraining the upper spring,
The spring bracket is
extending downward from the top and passing through the upper surface of the upper spring;
and a spring fixing part inserted into the upper spring to prevent the upper spring from flowing.
delete The method of claim 1,
The spring bracket is
a pair of support brackets whose lower ends are fixed to the pivot hanger; and
Including; a bracket connecting portion for connecting the upper ends of the pair of brackets across the upper spring,
The damping device of a washing machine, characterized in that the spring fixing part is penetrated by the bracket connection part.
The method of claim 1,
The spring bracket is
a pair of support brackets whose lower ends are fixed to the pivot hanger; and
Including; a bracket connecting portion for connecting the upper ends of the pair of brackets across the upper spring,
The spring fixing part extends downward from the bracket connection part.
The method of claim 1,
The damping device of a washing machine, wherein both ends of the spring bracket are fixed to the pivot hanger and bent so that at least a part of the spring bracket is in contact with the upper end of the upper spring and is restrained.
The method of claim 1,
The spring bracket is a damping device for a washing machine, wherein the spring bracket is disposed to be spaced apart from an upper end of the suspension shaft.
The method of claim 1,
A damping device for a washing machine, wherein an upper bushing is provided on an upper surface of the upper pivot to support the upper spring from below and through which an upper end of the suspension shaft passes.
8. The method of claim 7,
The damping device of the washing machine, characterized in that both ends of the upper spring are supported by the upper bushing and the spring bracket.
The method of claim 1,
In the pivot hanger, at least two hanger coupling portions formed in intersecting directions extend upward and are fixedly mounted on the inner edge of the washing machine body.
The method of claim 1,
and a hanger base recessed downwardly in the pivot hanger and providing a surface on which the spring bracket and the upper pivot are seated.

Images