JPH0743005B2 - Leg equipment for electrical equipment - Google Patents

Description

TECHNICAL FIELD The present invention relates to a leg device for electric equipment such as a washing machine.

(B) Conventional Technology As a conventional example, as shown in FIG. 6, a tubular leg body (52) is fixed to the bottom of an electric device body (51) such as a washing machine, and an elastic rubber leg (53) is provided in the leg body. ) Is slidably supported in the vertical direction,
The spring (54) always causes the elastic rubber leg (53) to project from the lower surface of the leg body (52), so that the elastic force of the elastic rubber leg (53), the elastic force of the spring (54) and the inside of the leg body (52). With the air damper effect of, the vibration of the device body (51) is dampened.
16F 3/10).

(C) Problems to be Solved by the Invention In the conventional example, there is a problem that the lower surface of the leg comes into contact with the floor surface when vibration is intense, rattling noise is generated, and the floor surface is damaged. .

Further, the elastic rubber leg may be buckled and deformed, and if the material is made hard to prevent this, the vibration absorption performance is deteriorated.

In view of such a problem, the present invention provides a leg device of an electric device having a high vibration damping effect.

(D) Means for Solving the Problems A leg device for an electric device according to the present invention includes a hollow hard leg provided at a bottom portion of an electric device body, a cylindrical body suspended from the hard leg, and a cylindrical body. A guide body integrally formed with a hard resin material or a metal, and a flange portion that receives a lower surface of the tubular body and a lower surface of the tubular body, and a convex portion and the flange portion that are inserted into the tubular portion from below. Applied to the underside of
In a state in which the support portion extending outward from the tubular body is integrally formed of a soft rubber material and the guide body and the elastic leg are overlapped, the tubular portion of the guide body is A support body that supports the guide body in a vertically movable manner and that has a regulation portion that regulates downward movement of the guide body beyond a predetermined level, and a spring that is disposed in the cylinder body and urges the guide body downward. The supporting body 20 includes a lower supporting body 20a attached to the convex portion 18a of the elastic leg 18, and a supporting hole extending upward from the lower supporting body 20a for locking the convex portion 18a. 19, the boss hole 16 of the guide body 14 and the engaging hole 17 of the hard leg 4 to penetrate into the hard leg 4 and become the restricting portion 20d that abuts on the edge of the engaging hole 17. And an upper support 20b having an engaging claw 20c.

(E) Action That is, normal vibration is absorbed by the vertical expansion and contraction of the spring and the elastic leg. And, like when dehydrating a washing machine,
If the equipment rattles and a heavy load is applied to the hard legs,
The lower surface of the tubular body is received by the flange portion of the guide body, and the support portion of the elastic leg provides a cushioning effect with the bottom surface. Furthermore, the guide body prevents buckling and deformation of the elastic leg.

(F) Example An example of the present invention will be described with reference to the drawings.

The structure of the two-tub type washing machine (1) will be briefly described with reference to FIGS. 3 and 4. (2) is a machine frame, (3) is a synthetic resin base that supports the machine frame (2), and hollow legs (4) ... Reference numeral (5) is an operation unit arranged in the upper rear portion of the machine casing (2), in which various electric components such as a timer are stored. (6) is a washing machine, and (7) is a dehydration outer tub, both of which are internally provided in the machine frame (2). (8) is a rotary blade disposed at the bottom of the washing tub (6), (9) is a drive motor for the rotary blade (8), and (10) is internally provided in the dehydration outer tub (7). Dehydrated tank,
Reference numeral (11) is a rotation driving motor for the dehydration tank (10), which is attached to the outer bottom of the dehydration outer tank (7) via a vibration isolator (12).

Next, a vibration absorbing structure which is a feature of the present invention will be described with reference to FIG.

(13) is a cylindrical body with an open bottom surface, which is hung vertically from the outer bottom of each of the legs (4), and (14) is a cylindrical part (14a) with an open bottom surface, which is inserted into the cylindrical body (13) from below. ) And the cylindrical body (1
A guide body integrally formed with the annular groove (14b) into which 3) is inserted, and is formed of a hard resin material or a metal material such as iron. (15) is a spring receiver formed on the upper surface of the cylindrical portion (14a), (16) is a boss hole opened in the center of the cylindrical portion (14a), and (17) is a bottom portion of the leg body (4). (4a) Engagement hole portion provided in the center, (18) is an outer bottom portion of the annular groove (14b) at the same time as fitting with a convex portion (18a) fitted into the cylindrical portion (14a) from below. Elastic legs integrally formed with an annular support part (18b) applied to the, a (19) locking hole formed at the center of the convex part (18a), and (20) a lower support ( 20a) and the upper support (20b), the convex portion (18
The support is attached to the center of the projection (18a) so as to hold the upper surface of (a), and extends upward to the upper support (20b) and has an engaging claw ( An elastic restriction body (20d) having 20c) is formed. (21) is a screw that connects the upper and lower supports (20b) (20a), (22) is formed on the outer bottom surface of the annular groove (14b), and abuts on the peripheral edge of the support part (18b), An annular rib (23) for restricting the lateral movement of the support portion (18b) is provided in the cylindrical body (13).
The spring is disposed between the outer bottom of the leg (4) and the spring receiver (15) of the cylindrical portion (14a).

Then, the convex portion (18a) of the elastic leg (18) is fitted into the cylindrical portion (14a) of the guide body (14), and the regulating body (20d) is inserted into the boss hole (16). And in this state,
The cylindrical portion (14a) is attached to the cylindrical body (13) by a spring (2
3), and at the same time, the regulating body (20d) is inserted into the engaging hole (17). At this time, the spring (23)
The elongation of the engaging claw (20c) is regulated by the engaging claw (20c) contacting the hole edge of the engaging claw (17).

Here, the elastic leg (18) will be described. The elastic leg (18) is formed of a soft rubber material such as polynorbornene (polynorbornene) rubber or IIR (isoprene-isobutyl-rubber).

And, these polynorbornene rubber and IIR are
As shown in 1, compared to NR (natural rubber) and SBR (styrene-butadiene-rubber) that are commonly used in the past,
It is known that the impact resilience coefficient is small and the shock and vibration absorbing performance is good as shown in FIG.

It should be noted that the test for obtaining the impact resilience coefficient is already well known, so it will not be described in detail, but simply a predetermined weight is allowed to fall freely on the surface of the rubber to be tested, and this weight jumps up by the repulsive force of the rubber. The percentage of the height is shown as a percentage (for details, see Japanese Standards Association, "JIS Handbook Rubber 1988 Edition", page 118).

The operation based on such a configuration will be described.

Under normal load (water in the washing tub (6)), the spring (23) is compressed by its own weight as shown in FIG. 1, and the lower end of the cylindrical body (13) contacts the annular groove (14b). Touching.

Now, in the washing machine, when the clothes in the dehydration tank (10) are unevenly distributed during dehydration by rotating the dehydration tank (10) at high speed, the dehydration tank (10) vibrates sideways. , The washing machine body may rattle back and forth and left and right.

In this way, when the main body rattles, for example, the front side of the device is lifted and lands as shown in FIG.
Therefore, in the present embodiment, the amplitude at the time of rattling is buffered by the vertical expansion and contraction action of the spring (23) and the convex portion (18a), and the impact at the time of landing is particularly affected by the elastic leg (18). It is absorbed by the support (18b). Further, since the support portion (18b) is extended and applied to the lower surface of the flange portion (14b) outwardly of the cylindrical body (13), the cylindrical body (13) can be easily supported when landing during buffering. Even if the lower end presses the flange portion (14b), it is buffered by the support portion (18b) on the lower surface of the flange portion (14b) to prevent deformation of the flange portion (14b) and prevent the generation of impact noise with the floor surface. Further, at this time, since the convex portion (18a) is inserted in the cylindrical portion (14a), the elastic leg (18) is prevented from being displaced or deformed from the guide body (14). Moreover, even if the floor surface is inclined due to the loose fitting relationship between the guide body (14) and the cylindrical body (13), the guide body (14) is appropriately inclined and conforms to the inclination.

In this embodiment, the vibration absorption performance becomes better by increasing the dimensions a, b and c in FIG.

Further, by adopting IIR as the material of the elastic leg (18), according to the experiment, the vibration absorbing performance is about 4 times as much as the rattling in the horizontal direction and the rattling in the vertical direction is larger than that of the conventional one. It was about 3 times better.

In this experiment, the amplitude of rattling in the front-back direction of the washing machine main body is a (mm) and the amplitude of rattling in the left-right direction is b (mm) in FIG. Combined value Is the horizontal rattling absorption performance, and the value comparing the amplitude of the vertical movement of the upper surface of the operating part (5) in FIG. 4 is the vertical rattling absorption performance. As the measurement conditions, the clothes were dehydrated under an eccentric load of 1.5 kg. In addition, a product supported only by the resin legs was used as a comparative product.

According to such an experiment, in addition to IIR, the impact resilience coefficient is about 2
If it is 0% or less, good vibration absorption performance can be obtained.

In this embodiment, the washing machine has been described as an example, but it goes without saying that it can be applied to other electric appliances such as a refrigerator.

(G) Effect of the Invention In the leg device of the electric device of the present invention, the cylindrical portion of the guide body is inserted into the cylindrical body hung from the leg body, and the lower surface of the flange portion that receives the lower surface of the cylindrical body is a cylinder. Since the elastic leg support is extended outward from the body and applied, it is possible to suppress the degree of rattling of the device body and prevent rattling noise of the floor surface and the leg device. it can.

Moreover, since the convex portion of the elastic leg is inserted into the cylindrical portion of the guide body, the elastic leg is prevented from being deformed or displaced, so that the durability of the elastic leg is improved and the elastic leg can be made soft and the vibration absorbing performance is improved. Is good.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a leg portion of a washing machine as an electric device of the present invention, FIG. 2 is a similar operation explanatory diagram, FIG. 3 is a plan view of the washing machine, FIG. 4 is a similar internal mechanism diagram, and FIG. FIG. 6 is a diagram of impact absorption characteristics of various rubbers, and FIG. 6 is a diagram corresponding to FIG. 1 in the conventional example. (4) …… Leg body (hard leg), (13) …… Cylinder body, (14)
...... Guide body, (14a) …… Cylinder part, (14b) …… Annular groove (flange part), (18) …… Elastic leg, (18a) …… Projection part, (18b) …… Support part, ( 20) …… Support, (20d)…
… Elasticity regulator (regulator), (23) …… Spring.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Masahiro Chikazawa 2-18 Keihan Hondori, Moriguchi City, Osaka Sanyo Electric Co., Ltd. (56) Reference JP-A-46-5662 (JP, A) -142434 (JP, U) Actual public Sho 57-57239 (JP, Y2)

Claims (1)

[Claims] 1. A hollow hard leg provided at a bottom portion of an electric device body, a cylindrical body vertically extending from the hard leg, a cylindrical portion inserted into the cylindrical body from below, and a lower surface of the cylindrical body. A guide body whose flange portion to be received is integrally formed of a hard resin material or a metal, a convex portion inserted into the cylindrical portion from below and a lower surface of the flange portion, and extends outward from the cylindrical body. In a state in which the installed support portion is integrally formed of a soft rubber material and the guide body and the elastic leg are overlapped with each other, the tubular portion of the guide body is vertically movably supported in the tubular body. And a support body having a regulation portion that regulates downward movement of the guide body by a predetermined amount or more, and a spring that is disposed in the cylindrical body and urges the guide body downward. Reference numeral 20 denotes a lower support 20a attached to the convex portion 18a of the elastic leg 18, and the lower support 20a. 20a extending upward, penetrating through the locking hole 19 of the convex portion 18a, the boss hole 16 of the guide body 14, and the engaging hole 17 of the hard leg 4 into the hard leg 4, Engagement claw 2 that serves as the restriction portion 20d that abuts the hole edge of the dowel hole 17
A leg device of an electric device, comprising: an upper support 20b having 0c.