CN104060433A - Fully Automatic Washing Machine - Google Patents

Abstract

A fully automatic washing machine capable of performing a stable driving at high speed during a spin-drying cycle by increasing the strength of a bowl part of a drum, the washing machine including a cabinet, a tub provided at an inside the cabinet, a drum rotatably provided at an inside the tub, a driving apparatus provided at a lower side portion of the drum to rotate the drum, and a flange shaft coupled to a lower portion of the drum to be connected to the driving apparatus, the drum includes a body part and a bowl part having a rim part provided with a lower end thereof, and a bottom part provided at a lower end portion of the rim part, and the flange shaft is provided to be bent while extending from the bottom part to the upper end portion of the rim part.

Description

Automatic washing machine

Technical field

Embodiment of the present disclosure relates to a kind of automatic washing machine that has flanged shaft and be attached to the improvement structure of cylinder.

Background technology

Automatic washing machine is the device by washing clothes with electric power, generally includes bucket for storing washings, is arranged on cylinder in bucket rotatably, is arranged on the impeller of cylinder bottom and motor and the clutch of head roll and impeller rotatably rotatably.

In the situation that clothing and washings are put into cylinder, in the time that cylinder and impeller are rotated, impeller stirs the clothing of putting into cylinder together with washings, thereby the dirt on clothing is removed.

Conventionally, the cylinder of automatic washing machine is incorporated into flanged shaft, in the time that flanged shaft is connected to motor and clutch and is rotated by rotating shaft, and drum rotating.

In the time of automatic washing machine High Rotation Speed, the intensity of the bowl portion being attached to due to flanged shaft is very weak, therefore needs to strengthen the intensity of bowl portion, and the intensity that improves bowl portion exists mechanical constraint.

Summary of the invention

Therefore, the disclosure provides on the one hand a kind of automatic washing machine, by strengthening the intensity of bowl portion of cylinder, at rotary dehydration circulation time, with stable mode high-speed driving.

Other aspect of the present disclosure will be partly articulated in the following description, and other part will be clearly by this description, or can be understood by enforcement of the present disclosure.

According to one side of the present disclosure, automatic washing machine comprises casing, bucket, cylinder, drive unit and flanged shaft.Bucket can be arranged in casing, for storing therein washings.Cylinder can be can be rotatably set in bucket; Drive unit can be arranged on the following side of cylinder, for making drum rotating.Flanged shaft can be attached to the bottom of cylinder, thereby is connected to drive unit, makes the revolving force of drive unit be delivered to cylinder.Described cylinder comprises main part and bowl portion.Main part can be cylindrical shape.Bowl portion can have edge part and bottom, to form the end of cylinder, the diameter that edge part is set to its end portion is less than the diameter of its upper part, the upper part of edge part is attached to the bottom of described main part, described bottom is arranged on the bottom of edge part, and the diameter of described bottom is less than the diameter of described main part.Flanged shaft can arrange with the upper end and the bending mode that extend to described edge part from described bottom.

Drive unit can comprise rotating shaft, and rotating shaft is connected to flanged shaft, and for making flanged shaft rotation, impeller can be arranged on the bottom of cylinder inner side, to rotate in the time being connected to rotating shaft.

Flanged shaft can be set to heart part therein and have through hole, and rotating shaft is attached to described through hole in the mode penetrating, and impeller therein heart part is provided with axle joint portion, and rotating shaft penetrates described through hole and is attached to described axle joint portion.

Can arrange porosely at the core of described bottom, the diameter in described hole is less than the diameter of impeller, and the rotating shaft that penetrates described through hole can be by being attached to axle joint portion through described hole.

Flanged shaft can comprise and is provided with the hub portion of described through hole and is attached to multiple flange parts of bowl portion from hub portion with radial stretching out.

Flange part can comprise horizontal part and extension, and horizontal part extends to the end of the bottom parallel with hub portion and is attached to described bottom from hub portion, thereby the upper end that extension extends upwardly to edge part from horizontal part is attached to edge part.

The first combined hole can be arranged on horizontal part and extension, and the second combined hole is arranged on bottom and the edge part position corresponding with the first combined hole, makes flanged shaft be attached to a bowl portion by screw.

Flanged shaft can injection moulding in bowl portion, thereby form with bowl portion.

According to another aspect of the present disclosure, automatic washing machine comprises casing, bucket, cylinder, drive unit and flanged shaft.Bucket can be arranged in casing, for storing washings.Cylinder can be can be rotatably set in bucket, and cylinder comprises main part and bowl portion, and main part is cylindrical shape, arranges thereby described bowl portion supports the mode of described main part to have the diameter reducing from described main part downwards.Drive unit can be arranged on the following side of cylinder, for making drum rotating.Flanged shaft can be attached to a bowl portion, thereby is connected to drive unit, makes the revolving force of drive unit be delivered to cylinder.Flanged shaft comprises hub portion and multiple flange part, and hub portion is with the round-shaped core that is arranged on flanged shaft, and multiple flange parts stretch out and are attached to a bowl portion with radial from hub portion.Flange part can be set to the upper end of bowl portion that extends to and the form bending corresponding with the shape of bowl portion.Bowl portion can comprise edge part and bottom, to form the end of cylinder, the diameter that described edge part is set to its end portion is less than the diameter of its upper part, upper part is attached to the bottom of main part, and the mode that bottom is less than the diameter of main part at the end portion of edge part with the diameter of described bottom arranges.

Hub portion can be formed with through hole, and the rotating shaft of drive unit is attached to described through hole in the mode penetrating.

Flange part can comprise horizontal part and extension, thereby the end that horizontal part extends to the bottom parallel with hub portion from hub portion is attached to bottom, thereby the upper part that extension extends upwardly to edge part from horizontal part is attached to edge part.

The first combined hole can be arranged on horizontal part and extension, and the second combined hole can be arranged on bottom and the edge part position corresponding with the first combined hole, makes flanged shaft be attached to a bowl portion by screw.

Flanged shaft can injection moulding in bowl portion, thereby arrange integratedly with bowl portion.

Brief description of the drawings

In conjunction with the drawings, from the description of embodiment below, these and/or other aspect of the present disclosure will become clear, and be easier to understand, wherein:

Fig. 1 is according to the cutaway view of the automatic washing machine of disclosure embodiment;

Fig. 2 is the decomposed perspective view illustrating according to the automatic washing machine of disclosure embodiment;

Fig. 3 is according to the bowl portion of disclosure embodiment and the decomposition diagram of flanged shaft;

Fig. 4 is the diagram illustrating according to the shovel shape body that is arranged on bowl portion of disclosure embodiment;

Fig. 5 illustrates the diagram that is attached to bowl portion according to the flanged shaft of disclosure embodiment by screw;

Fig. 6 illustrates the diagram forming by injection moulding and bowl portion according to the flanged shaft of another embodiment of the disclosure.

Detailed description of the invention

To describe now embodiment of the present disclosure in detail, its example is shown in the drawings, and wherein, identical label represents identical parts all the time.

Fig. 1 is the schematic side elevational cutaway view according to the automatic washing machine of embodiment of the present disclosure.

As shown in Figure 1, thus washing machine comprise form washing machine outer surface casing 10, be arranged in casing 10 bucket 20 for storing washings, can be rotatably set in the cylinders 30 for accommodating laundry in bucket 20, the following side that is arranged on cylinder 30 is for the drive unit 40 that makes cylinder 30 and rotate and be attached to the flanged shaft 100 of the bottom of cylinder 30 to be attached to the revolving force of drive unit 40 is delivered to cylinder 30 by drive unit 40 mode.

Be provided with the upper cover 13 with clothing entrance 11 at the upper lateral part of casing 10, this clothing entrance 11, for clothing being put into cylinder 30, can arrange door 15, for ON/OFF clothing entrance 11 on upper cover 13.

Bucket 20 arranges in the mode that stores washings, and bucket 20 can be arranged in casing 10 in the mode being supported by casing 10 by suspension arrangement 21.

Cylinder 30 is set to its inside and is approximately the shape of hollow cylinder, and can be rotatably set in bucket 20.

Can arrange and make the multiple through holes 37 of washings in circulation between cylinder 30 inside and outside at the side surface of cylinder 30, at the upper lateral part of cylinder 30, balancer 38 can be set.

Impeller 39 is rotatably installed in the bottom of cylinder 30, and impeller 39 plays the effect that the clothing of putting into cylinder 30 inside is stirred together with washings.

Be arranged on the upper lateral part of cylinder 30 for washings being fed to the water supply installation 50 of bucket in 20.

Water supply installation 50 comprises that detergent supply device 60 will be described subsequently for controlling the feed water valve 53 that water supplies with and feed water valve 53 being connected to the water supply pipe 51 of detergent supply device 60.

One side of water supply pipe 51 is connected to outside watering (not shown), and the opposite side of water supply pipe 51 is connected to detergent supply device 60.

Detergent supply device 60 comprises box body 61 and detergent container 63, and box body 61 is arranged on upper cover 13 inner sides, and detergent container 63 is removably mounted on box body 61, holds various washing agent in detergent container 63.

Outlet 65 is formed on the bottom of box body 61, and outlet 65 is discharged the washings that are dissolved with washing agent.

The water of supplying by water supply pipe 51 is by detergent supply device 60 and be fed to together with washing agent in cylinder 30.

Drainage arrangement 70 and drive unit 40 are arranged on the following side of cylinder 30, and after wash cycle or rotary dehydration have circulated, washings are discharged to casing 10 outsides by drainage arrangement 70, and drive unit 40 is for rotating cylinder 30.

Drainage arrangement 70 comprises drainpipe 71 and draining valve 73, and drainpipe 71 is connected to the bottom of bucket 20, and for guiding water water is disposed to outside, draining valve 73 is arranged on drainpipe 71, for ON/OFF drainpipe 71.

Drive unit 40 is arranged on the following side of bucket 20, by produce revolving force after reception electric power, the cylinder 30 that is connected to drive unit 40 is rotated.

Drive unit 40 comprises the clutch 41 that optionally makes cylinder 30 and impeller 39 rotate, for the drive motors 43 of driving clutch 41, be connected to the rotating shaft 45 of flanged shaft 100, rotating shaft 45 is attached to the bottom of cylinder 30, is used for making flanged shaft 100 to rotate.

, will describe the structure of flanged shaft in detail below, make drum rotating thereby flanged shaft is attached to the bottom of cylinder with the revolving force that transmits drive unit.

As shown in Figure 1 to Figure 3, the following side that cylinder 30 comprises columnar main part 31 and is arranged on main part 31 is used for the bowl portion 32 of supportive body portion 31.

Main part 31 is set to the cylindrical shape of inner hollow, and each of its upper surface and lower surface is all opened, and multiple through holes 37 are set to make the washings can be in circulation between cylinder 30 inside and outside.

By the unlimited upper surface of main part 31, clothing can be put into cylinder 30 or from cylinder 30 taking-ups, the unlimited lower surface of main part 31 can be capped by bowl portion 32.

Bowl portion 32 comprises edge part 33 and bottom 34, be used for forming the end of cylinder 30, edge part 33 is attached to the edge of the unlimited lower surface of main part 31 by joint, and the diameter that is set to its end portion is less than the diameter of its upper part, thereby its upper part is attached to the bottom of main part 31, bottom 34 is arranged on the bottom of marginal portion 33, has the diameter less than the diameter of main part 31 simultaneously.

Edge part 33 is set to the diameter of the lower part of the corresponding main part 31 of diameter of its upper part, the diameter of its end portion is less than the diameter of its upper part, thereby the upper part of edge part 33 is attached to the lower part of main part 31, and bottom 34 is arranged on the end portion of edge part 33.

In the drawings, the diameter of the end portion of edge part 33 is shown as the diameter of the upper part that is less than edge part 33, but is not limited to this, and the upper part of edge part 33 and the diameter of end portion can be set to roughly the same.

At the core of bottom 34, porose 34a is set, the diameter of hole 34a is less than the diameter of impeller 39, and the rotating shaft 45 of drive unit 40 is connected to impeller 39 by hole 34a.

Owing to being arranged on the diameter of impeller 39 of bottom 34 upper part and being greater than the diameter of hole 34a, therefore hole 34a is covered by impeller 39, thereby the washings in cylinder 30 can not be discharged into outside by hole 34a.

At the core of impeller 39, axle joint portion 39a is set, rotating shaft 45 is attached to axle joint portion 39a, and the impeller 39 that is attached to rotating shaft 45 rotates by drive unit 40.

On edge part 33, can form at least one opening 33a, the washings outside cylinder 30 can be flowed in cylinder 30, shovel shape body 36 can be set on opening 33a, shovel shape body 36 is upwards extracted into the washings of cylinder 30 outsides in cylinder 30.

Along with cylinder 30 rotates, shovel shape body 36 can upwards be extracted into the washings outside cylinder 30 in cylinder 30.

As shown in Figure 4, shovel shape body 36 can comprise rake 36a and support portion 36b, and rake 36a has the slope of upwards taking out washings, and support portion 36b is used for supporting rake 36a, and rake 36a can be set to be approximately the panel-shaped of rectangle.

As shown in Figure 1 to Figure 3, drive unit 40 is arranged on the following side of cylinder 30, and for cylinder 30 is rotated, drive unit 40 is connected to the flanged shaft 100 of the bottom that is attached to cylinder 30, and for flanged shaft 100 is rotated, thereby cylinder 30 rotates.

The rotating shaft 45 of drive unit 40 is connected to flanged shaft 100 and is arranged on the impeller 39 of the bottom of cylinder 30, for flanged shaft 100 and impeller 39 are rotated, optionally makes flanged shaft 100 and impeller 39 rotate by the clutch 41 of drive unit 40.

Therefore, the revolving force producing by drive motors 43 is delivered to clutch 41, and the revolving force that is delivered to clutch 41 optionally makes the flanged shaft 100 and the impeller 39 that connect by rotating shaft 45 rotate by rotating shaft 45.

In the time flanged shaft 100 being rotated by clutch 41, the cylinder 30 that is attached to flanged shaft 100 rotates, and in the time impeller 39 being rotated by clutch 41, flanged shaft 100 does not rotate, and the cylinder 30 that is therefore attached to flanged shaft 100 does not rotate.

The flanged shaft 100 that is attached to the bottom of cylinder 30 comprises hub portion 110 and multiple flange part 120, hub portion 110 is arranged on the core of flanged shaft 100, and there is through hole 111, rotating shaft 45 is attached to hub portion 110 in the mode penetrating, multiple flange parts 120 from hub portion 110 with the radial bowl portion 32 that stretches out and be attached to cylinder 30.

Hub portion 110 is attached to through the rotating shaft 45 of through hole 111 that is formed on hub portion 110, therefore, by rotating shaft 45, hub portion 110 is rotated, and is attached to the axle joint portion 39a of impeller 39 through the rotating shaft 45 of through hole 111.

The mode that flange part 120 extends with the radial outside part along hub portion 110 is set to multiple, comprise horizontal part 121 and extension 123, horizontal part 121 extends to the end of the bottom 34 of bowl portion 32 from hub portion 110 in the mode of level, extension 123 extends upwardly to the upper end of the edge part 33 of bowl portion 32 from horizontal part 121.

The mode of extension 123 shape of correspondence bowl portion 32 to be bent upwards from horizontal part 121 arranges.

Because the flange part 120 of flanged shaft 100 comprises horizontal part 121 and the extension 123 from horizontal part 121 bendings, horizontal part 121 is attached to the bottom 34 of bowl portion 32, extension 123 is attached to the edge part 33 of bowl portion 32, thereby flanged shaft 100 is attached to bowl portion 32 around bottom 34 and the extension 123 of bowl portion 32 around the mode of the edge part 33 of bowl portion 32 with horizontal part 121.

As shown in Figures 3 to 5, the first combined hole 125 that is attached to bowl portion 32 is set in each of extension 123 and horizontal part 121, be attached in each of the bottom 34 of bowl portion 32 of flanged shaft 100 and edge part 33, the second combined hole 35 is arranged on the position corresponding with the position of the first combined hole 125.

Flanged shaft 100 for example, is attached to the bowl portion 32 of cylinder 30 by securing member (screw), securing member is through the first combined hole 125 and the second combined hole 35.

As shown in Figure 6, flanged shaft 100 inserts moulding in the bowl portion 32 of cylinder 30, thereby arranges integratedly with bowl portion 32.

Because flanged shaft 100 arranges (described bowl portion 32 corresponding with the lower part of cylinder 30) in the mode of the bottom 34 around bowl portion 32 and edge part 33, therefore, the intensity of bowl portion 32 is strengthened by flanged shaft 100, thereby when in the situation of cylinder 30 High Rotation Speeds, bowl portion 32 can keep enough intensity, by like this, the driving of automatic washing machine can move by stable mode.

By being described clearly above, according to embodiment of the present disclosure, be arranged on the intensity of the bowl portion of part under cylinder by enhancing, even under high speed, also can realize the stabilized driving of cylinder, therefore, rotary dehydration performance and energy efficiency can be enhanced.

Although shown and described embodiment more of the present disclosure, but be apparent that to those skilled in the art, in the situation that not departing from principle of the present disclosure and spirit, can make change to these embodiment, the scope of the present disclosure is limited by claim and equivalent thereof.

Claims (14)

1. an automatic washing machine, comprising:

Casing;

Bucket, is arranged in casing, for storing washings;

Cylinder, can be rotatably set in bucket;

Drive unit, is arranged on the following side of cylinder, for making drum rotating;

Flanged shaft, is attached to the bottom of cylinder, to be connected to drive unit, makes the revolving force of drive unit be delivered to cylinder,

Wherein, cylinder comprises:

Main part is cylindrical shape;

Bowl portion, there is edge part and bottom, to form the end of cylinder, the diameter that edge part is set to its end portion is less than the diameter of its upper part, the upper part of edge part is attached to the bottom of described main part, described bottom is arranged on the bottom of edge part, and the diameter of described bottom is less than the diameter of described main part

Wherein, flanged shaft arranges with the upper part and the bending mode that extend to described edge part from described bottom.

2. automatic washing machine as claimed in claim 1, wherein:

Drive unit comprises rotating shaft, and rotating shaft is connected to flanged shaft, and for making flanged shaft rotation, impeller is arranged on the bottom of cylinder inner side, to rotate in the time being connected to rotating shaft.

3. automatic washing machine as claimed in claim 2, wherein:

Flanged shaft is set to heart part therein and has through hole, and rotating shaft is attached to described through hole in the mode penetrating, and impeller is set to heart part therein and has axle joint portion, and rotating shaft penetrates described through hole and is attached to described axle joint portion.

4. automatic washing machine as claimed in claim 3, wherein:

Arrange porosely at the core of described bottom, the diameter in described hole is less than the diameter of impeller, penetrates the rotating shaft of described through hole by being attached to axle joint portion through described hole.

5. automatic washing machine as claimed in claim 3, wherein:

Flanged shaft comprises and is provided with the hub portion of described through hole and is attached to multiple flange parts of bowl portion from hub portion with radial stretching out.

6. automatic washing machine as claimed in claim 5, wherein:

Flange part comprises horizontal part and extension, and horizontal part extends and is attached to described bottom from hub portion, thereby the upper part that extension extends upwardly to edge part from horizontal part is attached to edge part.

7. automatic washing machine as claimed in claim 6, wherein:

The first combined hole is arranged on horizontal part and extension, and the second combined hole is arranged on bottom and the edge part position corresponding with the first combined hole, makes flanged shaft be attached to a bowl portion by securing member.

8. automatic washing machine as claimed in claim 1, wherein:

Flanged shaft is injected moulding in bowl portion, thereby forms with bowl portion.

9. an automatic washing machine, comprising:

Casing;

Bucket, is arranged in casing, for storing washings;

Cylinder, can be rotatably set in bucket, and cylinder comprises main part and bowl portion, and main part is cylindrical shape, and described bowl portion has the diameter reducing from described main part downwards, thereby supports described main part;

Drive unit, is arranged on the following side of cylinder, for making drum rotating;

Flanged shaft, is attached to a bowl portion, to be connected to drive unit, makes the revolving force of drive unit be delivered to cylinder;

Wherein, flanged shaft comprises:

Hub portion, with the round-shaped core that is arranged on flanged shaft;

Multiple flange parts, stretch out and are attached to a bowl portion with radial from hub portion, and flange part is bending, extends to the upper part of bowl portion with the shape corresponding to bowl portion simultaneously.

10. automatic washing machine as claimed in claim 9, wherein:

Bowl portion comprises edge part and bottom, to form the end of cylinder, the diameter that described edge part is set to its end portion is less than the diameter of its upper part, and upper part is attached to the bottom of main part, bottom is arranged on the end portion of edge part, and the diameter of described bottom is less than the diameter of main part.

11. automatic washing machines as claimed in claim 10, wherein:

Hub portion is formed with through hole, and the rotating shaft of drive unit is attached to described through hole in the mode penetrating.

12. automatic washing machines as claimed in claim 11, wherein:

Flange part comprises horizontal part and extension, thereby horizontal part is attached to bottom from hub portion horizontal-extending, thereby the upper part that extension extends upwardly to edge part from horizontal part is attached to edge part.

13. automatic washing machines as claimed in claim 12, wherein:

The first combined hole is arranged on horizontal part and extension, and the second combined hole is arranged on bottom and the edge part position corresponding with the first combined hole, makes flanged shaft be attached to a bowl portion by securing member.

14. automatic washing machines as claimed in claim 9, wherein:

Flanged shaft is injected moulding in bowl portion, thereby arranges integratedly with bowl portion.