阅读说明：本技术 一种洗衣机 (Washing machine ) 是由 赵志强 许升 吕佩师 于 2019-08-20 设计创作，主要内容包括：本发明提供了一种洗衣机,包括：内筒,具有独立盛放洗涤水的洗涤腔室；内筒门,可开闭的安装在所述内筒的筒口；所述内筒门包括门体内壳、门体外壳以及门体内衬,所述的门体内衬被夹持固定在门体内壳与门体外壳之间。本发明提供一种内筒前开式滚筒洗衣机,内筒上设置内筒门,实现内筒封闭空间洗涤,避免内筒的衣物出来的可能,及衣物受压及摔打导致由内筒流出或者飞溅出水,避免了内、外筒之间污垢附着的可能,真正实现了滚筒的筒间无水。(The present invention provides a washing machine, including: an inner cylinder having a washing chamber for independently containing washing water; the inner cylinder door is arranged at the cylinder opening of the inner cylinder in an opening and closing way; the inner cylinder door comprises a door body inner shell, a door body outer shell and a door body inner liner, and the door body inner liner is clamped and fixed between the door body inner shell and the door body outer shell. The invention provides a front-opening inner drum type washing machine.A closed space of an inner drum is washed by arranging an inner drum door on the inner drum, the possibility of the clothes in the inner drum coming out is avoided, the water flows out or splashes out of the inner drum due to the fact that the clothes are pressed and beaten, the possibility of dirt adhesion between the inner drum and the outer drum is avoided, and the fact that no water exists between the drums of the drum is really realized.)

1. A washing machine, characterized by comprising:

an inner cylinder having a washing chamber for independently containing washing water;

the inner cylinder door is arranged at the cylinder opening of the inner cylinder in an opening and closing way;

the inner cylinder door comprises a door body inner shell, a door body outer shell and a door body inner liner,

the door body lining is clamped and fixed between the door body inner shell and the door body outer shell.

2. The washing machine as claimed in claim 1, wherein the door body lining includes a blocking portion matching with the shape of the opening of the inner drum and a connecting portion located at the outer periphery of the blocking portion, and the connecting portion is clamped and fixed between the door body inner casing and the door body outer casing.

3. The washing machine as claimed in claim 2, wherein the closing portion includes a closing surface and a transition wall extending from an outer periphery of the closing surface in an axial direction of the inner tub, and the connecting portion is an annular connecting wall formed by outwardly flanging an outer periphery of the transition wall.

4. The washing machine as claimed in claim 2, wherein the door inner casing includes a ring-shaped inner casing body, an inner casing connecting part and an inner casing pressing part provided on the inner casing body; the door body shell comprises an annular shell body, a shell connecting part and a shell extruding part, wherein the shell connecting part and the shell extruding part are arranged on the shell body;

the inner shell connecting part is fixedly connected with the outer shell connecting part through a connecting piece, and the inner shell extrusion part and the outer shell extrusion part clamp and fix the connecting part of the door body lining.

5. The washing machine as claimed in claim 4, wherein the door body casing includes a casing support part provided on the casing body, the support part extending to the blocking part along the axial direction of the inner drum for pressing support;

preferably, the support part extends to the plugging surface and/or the transition wall along the axial direction of the inner cylinder for extrusion support.

6. The washing machine as claimed in claim 2, wherein the inner tub door further comprises a sealing member mounted on an outer circumference of the blocking portion.

7. The washing machine as claimed in any one of claims 4 to 6, wherein the outer casing body has an annular groove, the inner peripheral wall of the inner casing body and the inner peripheral wall of the annular groove are spaced apart from each other, the inner casing pressing portion is an inner casing protrusion provided on the inner peripheral wall of the inner casing body, and the connecting portion of the door body liner is inserted into the annular groove of the outer casing body and is clamped and fixed between the inner casing protrusion and the bottom wall of the annular groove;

preferably, the bottom wall of the annular groove is provided with an outer shell bulge corresponding to the position of the inner shell bulge, and the connecting part of the door body lining extends into the annular groove of the outer shell body and is clamped and fixed between the inner shell bulge and the outer shell bulge.

8. The washing machine as claimed in claim 7, wherein the support portion is a support wall formed by extending an inner peripheral wall of the annular groove to the transition wall in the axial direction of the inner tub.

9. The washing machine as claimed in claim 7, wherein an installation space for clamping and fixing one end of the sealing element is provided between the inner side peripheral wall of the inner shell body and the transition wall of the door body lining, the periphery of the sealing surface of the door body lining extends outwards along the radial direction to form a stop ring, the other end of the sealing element is stopped and abutted against the stop ring, and at least one layer of sealing rib is arranged between the two ends of the sealing element.

10. The washing machine as claimed in claim 9, wherein the inner casing body is provided with an annular mounting groove, a mounting hole is arranged in the annular mounting groove, and the connecting member passes through the mounting hole and is fixedly connected with the outer casing body; the sealing element comprises a decoration part, and the decoration part extends to the upper part of the mounting groove and covers the notch of the mounting groove.

Technical Field

The invention relates to the technical field of washing equipment, in particular to a washing machine.

Background

The washing machine is used as a household appliance which is widely used in daily life of people, helps people get rid of the trouble of washing clothes, and brings great convenience to people. However, the existing washing machine generally comprises an inner cylinder and an outer cylinder, a plurality of dewatering holes are distributed on the wall of the inner cylinder, and in the washing process, the washing water between the inner cylinder and the outer cylinder cannot be utilized, so that the waste of the part of the washing water is caused, and the dirt generated in the washing process can be accumulated along with the water flow entering between the inner cylinder and the outer cylinder, and along with the long-time use, the accumulation of the dirt can influence the washing effect and reduce the use experience of users.

In order to solve the above problems, there is a drum washing machine having a non-porous inner tub, in which an inner tub door capable of being opened/closed is installed at a tub opening of the non-porous inner tub, thereby forming an inner chamber capable of independently containing washing water, so that the washing water is contained in the inner tub during washing and rinsing, and no water is present between the inner tub and the outer tub, thereby solving the problem of dirt between the inner tub and the outer tub and saving the amount of washing water. It can be known from the structural characteristics of the drum washing machine with the holeless inner drum that the maintenance of the tightness of the inner drum door is the key to form the inner chamber of the inner drum which can independently contain washing water in the washing and rinsing processes, and the locking of the inner drum door needs to be ensured in the dehydration process of the high-speed rotation of the inner drum, thus avoiding serious safety accidents.

In view of the above, the present application is directed to solving the problem of non-porous inner cylinder sealing to form an inner chamber for independently containing washing water, and particularly provides the present invention.

Disclosure of Invention

In order to solve the above problems, the present invention provides a washing machine, specifically, the following technical solutions are adopted:

a washing machine comprising:

an inner cylinder having a washing chamber for independently containing washing water;

the inner cylinder door is arranged at the cylinder opening of the inner cylinder in an opening and closing way;

the inner cylinder door comprises a door body inner shell, a door body outer shell and a door body inner liner,

the door body lining is clamped and fixed between the door body inner shell and the door body outer shell.

Furthermore, the door body lining comprises a plugging part matched with the shape of the opening of the inner cylinder and a connecting part positioned on the periphery of the plugging part, and the connecting part is clamped and fixed between the door body inner shell and the door body outer shell.

Furthermore, the plugging part comprises a plugging surface and a transition wall, the periphery of the plugging surface extends along the axial direction of the inner cylinder, and the connecting part is an annular connecting wall formed by flanging the periphery of the transition wall outwards.

Furthermore, the door body inner shell comprises an annular inner shell body, an inner shell connecting part arranged on the inner shell body and an inner shell extrusion part; the door body shell comprises an annular shell body, a shell connecting part and a shell extruding part, wherein the shell connecting part and the shell extruding part are arranged on the shell body;

the inner shell connecting part is fixedly connected with the outer shell connecting part through a connecting piece, and the inner shell extrusion part and the outer shell extrusion part clamp and fix the connecting part of the door body lining.

Furthermore, the door body shell comprises a shell supporting part arranged on the shell body, and the supporting part extends to the plugging part along the axial direction of the inner cylinder to be extruded and supported;

preferably, the support part extends to the plugging surface and/or the transition wall along the axial direction of the inner cylinder for extrusion support.

Further, the inner-tube door further includes a seal member mounted on an outer periphery of the blocking portion.

Furthermore, the outer shell body is provided with an annular groove, the inner side peripheral wall of the inner shell body and the inner side peripheral wall of the annular groove are arranged at intervals, the inner shell extrusion part is an inner shell bulge arranged on the inner side peripheral wall of the inner shell body, and the connecting part of the door body lining extends into the annular groove of the outer shell body and is clamped and fixed between the inner shell bulge and the bottom wall of the annular groove;

preferably, the bottom wall of the annular groove is provided with an outer shell bulge corresponding to the position of the inner shell bulge, and the connecting part of the door body lining extends into the annular groove of the outer shell body and is clamped and fixed between the inner shell bulge and the outer shell bulge.

Further, the supporting part is a supporting wall formed by extending the inner side peripheral wall of the annular groove to the transition wall along the axial direction of the inner cylinder.

Furthermore, an installation space for clamping and fixing one end of the sealing element is arranged between the inner side peripheral wall of the inner shell body and the transition wall of the door body lining, the periphery of the sealing surface of the door body lining extends outwards along the radial direction to form a stop ring, the other end of the sealing element abuts against the stop ring, and at least one layer of sealing rib is arranged between two ends of the sealing element.

Furthermore, an annular mounting groove is formed in the inner shell body, a mounting hole is formed in the annular mounting groove, and the connecting piece penetrates through the mounting hole and is fixedly connected with the outer shell body; the sealing element comprises a decoration part, and the decoration part extends to the upper part of the mounting groove and covers the notch of the mounting groove.

The invention provides a front-opening inner drum type washing machine.A closed space of an inner drum is washed by arranging an inner drum door on the inner drum, the possibility of the clothes in the inner drum coming out is avoided, the water flows out or splashes out of the inner drum due to the fact that the clothes are pressed and beaten, the possibility of dirt adhesion between the inner drum and the outer drum is avoided, and the fact that no water exists between the drums of the drum is really realized.

Drawings

FIG. 1 is a schematic view of a washing machine according to an embodiment of the present invention;

FIG. 2 is an exploded view of a drum door of a washing machine according to an embodiment of the present invention;

FIG. 3 is an exploded view of the drum door of the washing machine according to the first embodiment of the present invention;

FIG. 4 is a front view of an inner tub door of a washing machine according to an embodiment of the present invention;

FIG. 5 is a sectional view of a washing machine according to an embodiment of the present invention, taken along the line A-A of FIG. 4;

FIG. 6 is a first enlarged view of a washing machine according to an embodiment of the present invention;

FIG. 7 is a second enlarged view of a washing machine according to an embodiment of the present invention;

FIG. 8 is a third enlarged view of a washing machine according to an embodiment of the present invention;

FIG. 9 is a schematic view of a second washing machine according to an embodiment of the present invention;

FIG. 10 is a top view of the inner tub of a second washing machine in accordance with an embodiment of the present invention;

FIG. 11 is an exploded view of the drum door of the second washing machine according to the embodiment of the present invention;

FIG. 12 is a schematic view of the structure of the door of the inner tub of the washing machine according to the second embodiment of the present invention;

FIG. 13 is an assembly view of a handle and a latch of a washing machine according to a second embodiment of the present invention;

FIG. 14 is a schematic perspective view of a lock seat of a second washing machine according to an embodiment of the present invention;

FIG. 15 is a schematic perspective view of a latch of a washing machine according to a second embodiment of the present invention;

FIG. 16 is a schematic view of a third washing machine according to an embodiment of the present invention;

FIG. 17 is an enlarged view of a portion of FIG. 16 of a third washing machine according to an embodiment of the present invention;

FIG. 18 is a schematic structural view of an electromagnetic heating device of a third washing machine according to an embodiment of the present invention;

FIG. 19 is a schematic view of a fourth washing machine according to an embodiment of the present invention;

FIG. 20 is a first cross-sectional view of a fourth washing machine according to an embodiment of the present invention, taken along the plane C-C of FIG. 19;

FIG. 21 is a second sectional view of the fourth washing machine according to the embodiment of the present invention, taken along the plane C-C of FIG. 19;

FIG. 22 is an assembly view, in cross section, of the tub, drum and drum door of a fifth washing machine according to an embodiment of the present invention;

FIG. 23 is an enlarged partial view of the fifth washer of the embodiment of the present invention shown in FIG. 22 (with the inner cylinder door locked in place);

fig. 24 is a partially enlarged view of fig. 22 of a fifth washing machine according to an embodiment of the present invention (inner tub door locked out-of-position/unlocked state).

Detailed Description

A washing machine of the present invention will be described in detail with reference to the accompanying drawings:

as shown in fig. 1 to 24, the present embodiment provides a drum washing machine with a non-porous inner drum front opening structure, which has a simple structure, and can greatly reduce the amount of washing water of the washing machine without filling washing/rinsing water between the inner drum and the outer drum. The possibility of dirt adhesion between the inner cylinder and the outer cylinder is avoided. The user health and user experience are greatly improved, and water resources are greatly saved.

The drum washing machine of the present embodiment has a cabinet 1, and the cabinet 1 includes: a top deck 2, a front panel, a back panel and a bottom panel. The bottom plate is provided with feet 9 for supporting the whole washing machine. The casing 1 has an outer cylinder 19 inside, and an inner cylinder 18 is coaxially disposed inside the outer cylinder 19. The outer cylinder 19 is mainly used for collecting the drainage of the inner cylinder 18 and the drainage of the inner cylinder 18 by high-speed centrifugal dehydration. The drum 18 rotates, preferably with the lifting ribs 10, and is continuously lifted to drop and beat the laundry, so as to wash the laundry. The inner cylinder 18 is of imperforate construction and the outer cylinder 19 has a central mounting hole into which the bearing 11 is mounted and secured. An inner cylinder shaft 12, which is fixedly connected to the inner cylinder 18, passes through the illustrated bearing 11 and is connected to a drive motor 15. An openable/closable inner cylinder door 6 is installed on a front cylinder opening of the inner cylinder 18, thereby realizing that the inner cylinder 18 is of a sealed cabin structure.

In order to realize water inlet into the imperforate inner cylinder of the embodiment, the driving motor 15 of the drum washing machine of the embodiment is in transmission connection with the inner cylinder 18 through the inner cylinder shaft 12 to drive the inner cylinder 18 to rotate, a hollow channel communicated with the inside of the inner cylinder 18 is arranged in the inner cylinder shaft 12, and the water inlet pipeline 17 is communicated with the hollow channel of the inner cylinder shaft 12.

The inner cylinder 18 of this embodiment is provided with an air pressure balancing mechanism for communicating the inner cylinder 18 with the external environment to balance the air pressure inside the inner cylinder.

When water enters, the air in the sealed cabin of the inner cylinder is pressurized and can overflow through the balancing mechanism, so that the air pressure balance is ensured.

When water is cut off suddenly, external atmosphere can enter the sealed cabin of the inner barrel rapidly, suck back is damaged, air pressure balance is guaranteed, and washing water is prevented from being sucked into a tap water pipe network.

Other air pressure balancing mechanisms can also ensure the air pressure balance of the inner cylinder during dehydration.

As an implementation manner of this embodiment, the air pressure balancing mechanism includes a pressure equalizing hole provided on the inner barrel 18, and one end of the pressure equalizing hole, which is communicated with the inside of the inner barrel 18, is provided on the inner barrel 18 at a position close to the central rotation axis and is always higher than the highest water level position in the inner barrel 18.

Specifically, the pressure equalizing pore passage is formed on the inner cylinder shaft 12 to communicate the inside of the inner cylinder 18 with the external environment, and the highest water level in the inner cylinder 18 is lower than the inner cylinder shaft 12. This prevents water in the inner cartridge 18 from flowing out of the pressure equalization passage.

In this embodiment, the pressure equalizing channel includes a first channel section and a second channel section, the first channel section is disposed in parallel with the hollow channel, one end of the first channel section is communicated with the inside of the inner cylinder, one end of the second channel section is communicated with the first channel section, and the other end of the second channel section extends to the outer peripheral wall of the inner cylinder shaft and is communicated with the inside of the outer cylinder. Preferably, the second pore channel section and the first pore channel section are vertically arranged to form an L-shaped pressure equalizing pore channel.

The embodiment provides an open drum type washing machine before inner tube, sets up the inner tube door on the inner tube, realizes the washing of inner tube enclosure space, avoids the clothing of inner tube to come out the possibility, and the clothing pressurized and beat lead to by the inner tube outflow or splash the play water, has avoided the adnexed possibility of dirt between the interior, urceolus, has really realized that the bucket of cylinder is anhydrous.

The washing machine of this embodiment has the lock detection device that the inner tube lock was locked to target in place, ensures that the inner tube lock is locked to target in place, ensures that the locking judges rate of accuracy 100%, because cylinder dehydration rotational speed can reach 1600 revolutions per minute, if the inner tube door on the inner tube fails to lock well, will take place the incident, very big improvement the security of machine, user health and user experience.

Example one

As shown in fig. 1 to 8, a washing machine of the present embodiment includes:

an inner tub 18 having a washing chamber for independently containing washing water;

an inner cylinder door 6 openably and closably attached to a cylinder opening of the inner cylinder 18;

the inner cylinder door 6 comprises a door body inner shell 603, a door body outer shell 601 and a door body inner liner 604,

the door body lining 604 is clamped and fixed between the door body inner shell 603 and the door body outer shell 601.

In this embodiment, the inner tub door 6 is attached to the mouth of the inner tub 18 so as to be openable and closable, thereby sealing the inner tub 18 and forming a washing chamber for containing washing water.

As an embodiment of this embodiment, the door body lining 604 according to this embodiment includes a plugging portion matching the shape of the cylindrical opening of the inner cylinder 18 and a connecting portion 615 located on the outer periphery of the plugging portion, and the connecting portion 615 is clamped and fixed between the door body inner shell 603 and the door body outer shell 601.

Further, the blocking portion includes a blocking surface 613 and a transition wall 614 extending from the outer periphery of the blocking surface 613 in the axial direction of the inner tube 18, and the connecting portion 615 is an annular connecting wall formed by outwardly flanging the outer periphery of the transition wall 614.

In order to realize the fixed installation of the door body lining 604, the door body inner shell 603 described in this embodiment includes an annular inner shell body, an inner shell connecting portion and an inner shell pressing portion 611 provided on the inner shell body; the door body shell 601 comprises an annular shell body, a shell connecting part arranged on the shell body and a shell extrusion part 612; the inner shell connecting part and the outer shell connecting part are fixedly connected through a connecting piece, and the inner shell extrusion part 611 and the outer shell extrusion part 612 clamp and fix the connecting part 615 of the door body lining 604.

Further, the door body housing 601 of the present embodiment includes a housing support portion 610 disposed on the housing body, and the support portion 610 extends to the blocking portion along the axial direction of the inner cylinder for pressing and supporting.

The door body lining 604 of the embodiment is fixed by the inner shell pressing part 611 and the outer shell pressing part 612 in a pressing manner, and the door body lining 604 is supported by the support part 610 to ensure the stability of the door body lining 604.

Preferably, the support portion 610 extends in the axial direction of the inner cylinder to the blocking surface 613 and/or the transition wall 614 for compressive support.

The inner tube door 6 of the present embodiment further includes a seal 605 attached to the outer periphery of the closing portion for maintaining the tube opening sealability of the inner tube 18 when the inner tube door 6 is closed.

In order to realize the fixed installation of the sealing member 605, the outer shell body 601 of this embodiment has an annular groove, the inner peripheral wall of the inner shell body and the inner peripheral wall of the annular groove are arranged at an interval, the inner shell pressing portion 611 is an inner shell protrusion arranged on the inner peripheral wall of the inner shell body, and the connecting portion 615 of the door body liner 604 extends into the annular groove of the outer shell body and is clamped and fixed between the inner shell protrusion and the bottom wall of the annular groove.

The door body lining 604 and the sealing part 605 are fixedly installed in a clamping mode through the door body outer shell 601 and the door body inner shell 603, the door body outer shell 601 and the door body inner shell 603 are assembled at one time, the problem of fixing and installing the door body lining 604 and the sealing part 605 is solved, and the door body lining and the sealing part are simple and convenient to install and high in efficiency.

Preferably, the outer shell pressing portion 612 is provided with an outer shell protrusion at a position corresponding to the inner shell protrusion on the bottom wall of the annular groove, and the connecting portion 615 of the door body lining 604 extends into the annular groove of the outer shell body to be clamped and fixed between the inner shell protrusion and the outer shell protrusion.

The support portion 610 described in this embodiment is a support wall formed by extending the inner peripheral wall of the annular groove to the transition wall in the inner cylinder axial direction.

An installation space for clamping and fixing one end of the sealing element is arranged between the inner side peripheral wall of the inner shell body and the transition wall 614 of the door body lining 604, the outer periphery of the blocking surface 613 of the door body lining 604 extends outwards along the radial direction to form a stop ring 609, the other end of the sealing element 605 abuts against the stop ring 609, and at least one layer of sealing ribs 608 is arranged between the two ends of the sealing element 605.

An annular mounting groove is formed in the inner shell body, a mounting hole 602 is formed in the annular mounting groove, and the connecting piece penetrates through the mounting hole 602 and is fixedly connected with the outer shell body; the sealing member 605 comprises a decoration part 607, the decoration part 607 extends to the upper part of the mounting groove and covers the notch of the mounting groove, and the door body shell is provided with a mounting hole 606 corresponding to the mounting hole 602.

In order to further increase the stability of the integral assembly of the inner cylinder door 6, the embodiment provides the barb structure 616 on the door body inner shell 603 and/or the door body outer shell 601 and/or the door body inner lining 604, and the barb structure 616 is exemplarily provided on the door body inner shell 603 in the figure.

Example two

As shown in fig. 9 to 15, a washing machine of the present embodiment includes:

an inner tub 18 having a washing chamber for independently containing washing water;

an inner cylinder door 6 openably and closably attached to a cylinder opening of the inner cylinder 18;

and the inner cylinder door 6 is rotatably arranged on the cylinder opening of the inner cylinder 18 through the rotating shaft structure.

The inner cylinder door 6 of the embodiment is rotatably arranged on the opening of the inner cylinder 18 through a rotating shaft structure to realize the closing and opening of the inner cylinder.

Specifically, the rotating shaft structure of the present embodiment includes a rotating shaft seat 24, a rotating shaft 23 and a connecting arm 49, the rotating shaft seat 24 is fixedly installed on the wall of the opening of the inner cylinder 18, the rotating shaft 23 is installed on the rotating shaft seat 24, the connecting arm 49 is rotatably installed on the rotating shaft 23, and the connecting arm 49 is fixedly connected with the inner cylinder door 6.

Further, the rotating shaft seat 24 includes a first rotating shaft seat 42 and a second rotating shaft seat 43 respectively fixed on the wall of the opening of the inner cylinder 18, and the rotating shaft 24 is fixedly installed between the first rotating shaft seat 42 and the second rotating shaft seat 43.

Preferably, the rotating shaft 24 is a cylindrical rotating shaft, the first rotating shaft seat 42 and the second rotating shaft seat 43 are respectively provided with a special-shaped hole 45, and two ends of the cylindrical rotating shaft are respectively and fixedly installed in the special-shaped holes 45 of the first rotating shaft seat 42 and the second rotating shaft seat 43.

The rotating shaft 24 of the present embodiment includes a cylindrical shaft body 47 and rotating shaft profile portions 46 at both ends of the cylindrical shaft body 47 to be respectively engaged with the profile holes 45.

Further, the rotating shaft structure of the present embodiment further includes a rotating shaft seat lining plate 41 and a rotating shaft seat connecting piece, the rotating shaft seat lining plate 41 and the rotating shaft seat 24 are respectively located on two sides of the tube opening wall of the inner tube 18; a rotating shaft seat lining plate fixing hole 40 is formed in the rotating shaft seat lining plate 41, a rotating shaft fixing hole 38 is formed in the barrel mouth wall of the inner barrel 18, and a rotating shaft seat fixing hole 39 is formed in the rotating shaft seat 24; the rotating shaft seat connecting piece passes through the rotating shaft seat lining plate fixing hole 40, the rotating shaft fixing hole 38 and the rotating shaft seat fixing hole 39 to fixedly connect the rotating shaft seat connecting piece with the rotating shaft seat lining plate fixing hole 40, the rotating shaft fixing hole 38 and the rotating shaft seat fixing hole 39. The function of this embodiment pivot seat welt 41 is in order to strengthen the intensity of inner tube pivot seat position, avoids warping.

Preferably, a sealing member is disposed between the rotating shaft seat connecting member and the rotating shaft seat lining plate fixing hole 40 and/or between the rotating shaft seat connecting member and the rotating shaft fixing hole 38, so as to prevent the washing water in the inner tub 18 from seeping out from the connecting position and keep the inner tub 18 closed.

The connecting arm 49 of this embodiment includes an axle hole portion 48 and a connecting portion 50, the axle hole portion 48 has an axle hole, the axle 47 passes through the axle hole 48 and can freely rotate relative to the axle hole 48, and the connecting portion 50 is fixedly connected with the inner door 6.

Preferably, the inner drum door 6 is provided with an inner drum door installation avoiding area 608 corresponding to the connecting arm 49.

Further preferably, the inner cylinder door mounting avoiding area 608 is arranged on the door body inner shell 603.

It is known from the structural characteristics of the drum washing machine with the inner drum without holes that the maintenance of the tightness of the inner drum door is the key to form the inner chamber of the inner drum which can independently contain washing water during the washing and rinsing processes, and that serious safety accidents can be caused if the inner drum door is not locked or not locked in place during the dehydration process of the high-speed rotation of the inner drum. Therefore, the washing machine of the embodiment further comprises a drum door lock, the drum door lock comprises a lock seat assembly 22 and a lock tongue assembly 21, the lock seat assembly 22 is fixed on the wall of the opening of the drum 18, the lock tongue assembly 21 is fixed on the drum door 6, and the lock tongue assembly 21 is matched with the lock seat assembly 22 in a locking mode to lock the drum door.

Further, the lock seat assembly 22 includes a seat body 33, a lock hook 32, a lock seat liner 36 and a lock seat connector, the lock hook 32 is disposed on the seat body 33, and the lock seat liner 36 and the seat body 33 are respectively located on two sides of the barrel mouth wall of the inner barrel 18; the lock base lining plate 36 is provided with a lock base lining plate fixing hole 35, the tube mouth wall of the inner tube 18 is provided with a lock base fixing hole, and the seat body 33 is provided with a lock base fixing hole 34; the lock seat connecting piece passes through the lock seat lining plate fixing hole 35, the lock seat fixing hole and the lock seat fixing hole 34 to fixedly connect the lock seat lining plate fixing hole, the lock seat fixing hole and the lock seat fixing hole.

Preferably, a sealing element is arranged between the lock seat connecting piece and the lock seat lining plate fixing hole 35 and/or between the lock seat connecting piece and the lock seat fixing hole.

Further, the latch bolt assembly 21 of this embodiment includes a latch bolt 30, a latch bolt rotating shaft 29 and a handle 25, the latch bolt rotating shaft 29 is fixedly installed on the inner cylinder door 18, the latch bolt 30 and the handle 25 are respectively rotatably installed on the latch bolt rotating shaft 29, and the handle 25 is matched with the latch bolt 30 to drive the latch bolt to rotate so as to lock/unlock the inner cylinder door.

Further, the lock tongue assembly 21 of this embodiment further includes a torsion spring 28, the torsion spring 28 is sleeved on the lock tongue rotating shaft 29, one end of the torsion spring 28 is fixedly connected to the inner cylinder door 6, and the other end is fixedly connected to the lock tongue 30.

Preferably, the inner cylinder door 6 is provided with a torsion spring fixing hole or a torsion spring fixing groove for assembling the torsion spring 28, and the locking tongue 30 is provided with a torsion spring fixing hole or a torsion spring fixing groove for assembling the torsion spring 28.

The torsion spring 28 of the present embodiment includes a torsion spring inner door fixing portion 27 connected to the inner door 6 and a torsion spring latch fixing portion 31 connected to the latch 30.

As an implementation manner of this embodiment, the inner barrel door 6 is provided with a mounting area 607 for mounting the latch bolt assembly.

Preferably, the inner tube door 6 includes a door inner shell 603, a door outer shell 601 and a door inner liner 604, the door inner liner 604 is clamped and fixed between the door inner shell 603 and the door outer shell 601, and the mounting region 607 is arranged on the door outer shell 601.

Preferably, the mounting region 607 is a mounting groove provided on the door body housing 601.

EXAMPLE III

As shown in fig. 16 to 18, a washing machine of the present embodiment includes:

an inner tub 18 having a washing chamber for independently containing washing water;

the outer cylinder 19 is sleeved outside the inner cylinder 18;

and the electromagnetic heating device is arranged on the side wall of the outer cylinder 19 and corresponds to the side wall of the heating inner cylinder 18.

The embodiment provides a washing machine, which has an electromagnetic heating device, the electromagnetic heating device heats the side wall of the inner drum 18, the side wall of the inner drum 18 is heated by the electromagnetic heating device, and then the heat is transferred to the washing water in the inner drum 18, so as to heat the washing water.

Electromagnetic heating is also called Electromagnetic induction heating (EH) technology, and the principle of Electromagnetic heating is that an alternating magnetic field is generated by an electronic circuit board component, when a ferrous container is placed on the iron-containing container, the surface of the container cuts alternating magnetic lines of force to generate alternating current (eddy current) on a metal part at the bottom of the container, the eddy current enables carriers at the bottom of the container to move randomly at a high speed, and the carriers collide with atoms and rub to generate heat energy. Thereby achieving the effect of heating the article. Since the iron vessel itself generates heat, the heat conversion is particularly high, and up to 95% is a direct heating method. Therefore, the pulsator washing machine of the present embodiment heats the washing water using the electromagnetic heating device, and has a higher heating efficiency.

In addition, because the electromagnetic heating is a non-contact heating mode, the installation requirement of the electromagnetic heating device is lower, and the installation of the electromagnetic heating device is not required to consider the sealing performance in the traditional electric heating wire heating mode, so that the installation of the washing machine adopting the electromagnetic heating device is more simplified. In addition, in order to install the electric heating wire, the installation position and the installation structure of the electric heating wire are required to be designed in the outer barrel in a specific mode, the electromagnetic heating device can be directly installed on the inner wall or the outer wall of the outer barrel, even installed in the box body, the structure of the outer barrel is simplified, the volume of the inner barrel can be expanded to a certain extent, and capacity expansion is achieved.

Moreover, the resistance wire heating mode that current washing machine adopted, the resistance wire submergence directly heats in water, because the quality of water environment is comparatively complicated, along with the increase of time, deposit incrustation scale on the resistance wire, and because the reason of mounted position is difficult for cleaning to cause heating efficiency to reduce gradually, damage even. In the embodiment, the electromagnetic heating device is adopted to realize non-contact heating, so that the problems can be avoided, the service life is greatly prolonged, and long-term high-efficiency heating can be kept.

To sum up, the washing machine of this embodiment adopts electromagnetic heating device to realize the heating function, has promoted the efficiency of heating, has simplified heating device's installation, has simplified the structure of urceolus, has prolonged heating device's life.

The inner cylinder of the embodiment is made of ferrous materials and can cut alternating magnetic lines generated by the electromagnetic heating device to generate alternating current (namely eddy current 55), the eddy current 55 enables carriers on the side wall of the inner cylinder to move randomly at a high speed, and the carriers collide and rub with each other to generate heat energy.

Further, the electromagnetic heating device of the present embodiment is disposed on the inner sidewall of the outer tub.

Preferably, the electromagnetic heating device is disposed at the lowest position of the inner side wall of the outer tub 19. The advantage is that the water is concentrated at the bottom of the inner cylinder 18, and no matter how the inner cylinder 18 rotates, the washing water in the inner cylinder 18 is collected at the bottom, so that the heating inner cylinder 18 can immediately transfer heat and supply water, and the heating safety and the heating high efficiency of the inner cylinder 18 are realized.

In addition, the electromagnetic heating device is arranged at the bottom, certain residual water is generated during each drainage, and the electromagnetic coil of the electromagnetic heating device is used for heat dissipation.

As an implementation manner of this embodiment, the electromagnetic heating device of this embodiment includes an electromagnetic coil 59 and a mounting bracket 58, the electromagnetic coil 59 is fixed on the mounting bracket 58, and the mounting bracket 58 is fixed on the inner side wall of the outer cylinder 19.

Preferably, the mounting bracket 58 includes a mounting housing made of a non-metallic material, and the electromagnetic coil 59 is enclosed within the mounting housing.

Further, the mounting frame 58 includes a fixing portion, and an assembling portion matched with the fixing portion is provided on the inner side wall of the outer cylinder 19, and the fixing portion and the assembling portion are fixedly connected through a connecting member 56.

Specifically, an installation groove is formed in the inner side wall of the outer cylinder 19, the mounting frame 58 is installed in the installation groove, and the mounting frame 58 has a transition curved surface in transition connection with the inner side wall of the outer cylinder 19. In this way, dirt accumulation at the mounting groove is avoided.

As another implementation manner of this embodiment, the electromagnetic heating device includes an electromagnetic coil, an installation groove is formed on an inner side wall of the outer cylinder, the electromagnetic coil is disposed in the installation groove, and a sealing plate made of a non-metal material is hermetically mounted on a notch of the installation groove.

The coil distance is the distance H between the surface of the wound electromagnetic coil and the surface of the inner cylinder, and the distance cannot be too far or too close to achieve high heating efficiency. Specifically, the distance between the upper surface of the electromagnetic coil and the outer side wall surface of the inner cylinder is H, and the H satisfies the following conditions: h is more than or equal to 0.4cm and less than or equal to 10 cm;

preferably, H satisfies: 1 cm-3 cm;

further preferably, H satisfies: 2 + -0.5 cm.

Further, the electromagnetic heating device of this embodiment includes the radiating piece that is used for the solenoid coil heat dissipation, realizes the better heat dissipation of coiling coil.

Preferably, the heat sink is disposed on the mounting bracket or the sealing plate.

The present embodiment also provides a control method of a washing machine, which controls an electromagnetic heating device to start and simultaneously controls an inner drum to rotate to heat washing water during washing and/or rinsing processes of the washing machine.

Further, the washing machine of the present embodiment includes a temperature detection device for detecting a temperature of the washing water, and controls the electromagnetic heating device to stop operating when the temperature detection device detects that the temperature of the washing water reaches a set temperature;

or, the washing machine comprises a water inlet pipe, a water outlet pipe and a water inlet pipe, wherein the water inlet pipe is used for detecting water inlet quantity Q and water inlet initial temperature T0, the washing machine receives target heating temperature T set by a user, calculates heating time T of the washing machine, and controls the electromagnetic heating device to stop working when the working time of the electromagnetic heating device reaches the heating time T.

Example four

As shown in fig. 19 to 21, a washing machine of the present embodiment includes:

an inner tub 18 having a washing chamber for independently containing washing water;

an inner cylinder door 6 openably and closably attached to a cylinder opening of the inner cylinder 18;

a casing 1, a throwing opening is arranged corresponding to the opening of the inner cylinder 18;

a machine door 5 which can be opened and closed and is arranged on the input opening of the machine shell 1;

and a door opening mechanism 62 for realizing the linkage opening and closing of the inner cylinder door 6 and the machine door 5 by triggering the door opening mechanism 62 to act.

The linkage switching of section of thick bamboo door 6 and quick-witted door 5 in this embodiment is realized through mechanism 62 that opens the door, avoids the loaded down with trivial details of section of thick bamboo door 6 and quick-witted door 5 in the user's independent switching respectively, has made things convenient for user's operation, has promoted user's use and has experienced.

Specifically, the door opening mechanism 62 includes a trigger having at least two motion/position states, which correspond to the sequential linkage opening and closing of the control door and the inner tube door.

As an implementation manner of this embodiment, the triggering element includes a deformation portion, and the deformation displacement is generated by pressing the deformation portion to control sequential linkage unlocking of the machine door and the inner cylinder door; and the deformation displacement corresponding to the unlocking of the machine door is smaller than that corresponding to the unlocking of the inner cylinder door.

As an implementation manner of the embodiment, the trigger includes a moving part, and controls the moving part to generate displacement so as to control sequential linkage unlocking of the machine door and the inner cylinder door; and the displacement corresponding to the unlocking of the machine door is smaller than that corresponding to the unlocking of the inner cylinder door.

Furthermore, the machine door 5 is provided with a through channel, the trigger piece is arranged in the through channel, and the trigger piece is provided with a deformation part or a displacement part;

the machine door is provided with a machine door trigger piece for triggering the machine door to unlock, and the inner cylinder door is provided with an inner cylinder door trigger piece for triggering the inner cylinder door to unlock;

the state of the position of the deformation part or the displacement part of the trigger piece is switched in the through channel by pressing, and the machine door trigger piece and the inner cylinder door trigger piece are sequentially triggered to act.

An inner cylinder door lock is arranged on the inner cylinder door 6, and the inner cylinder door trigger 65 triggers the inner cylinder door lock to unlock; the machine door 5 is provided with a machine door lock 63, and the machine door trigger piece triggers the machine door lock to unlock.

Specifically, the inner cylinder door lock comprises an inner cylinder door lock seat and an inner cylinder door lock tongue, the inner cylinder door trigger is an inner cylinder door handle linked with the inner cylinder door lock tongue, and the trigger triggers the inner cylinder door handle to act to drive the inner cylinder door lock tongue to be linked for unlocking.

The machine door lock comprises a machine door lock seat and a machine door lock tongue, wherein the machine door trigger part is linked with the machine door lock tongue, and the trigger part triggers the machine door trigger part to act to drive the machine door lock tongue to be linked for unlocking;

or, the machine door lock is an electromagnetic lock, the machine door trigger piece is a trigger switch, and the trigger piece triggers the trigger switch to act to generate a control signal for controlling the unlocking/locking of the electromagnetic lock.

Furthermore, the washing machine of the embodiment further comprises an inner cylinder locking device for locking the inner cylinder at a determined position, and the inner cylinder door trigger is arranged corresponding to the position of the through channel of the inner cylinder in a state of being locked by the inner cylinder locking device.

As an implementation manner of this embodiment, the door opening mechanism include a linkage assembly, the linkage assembly be connected with quick-witted door, inner tube door linkage respectively, trigger the linkage assembly and drive the linkage unblock/locking in proper order of quick-witted door, inner tube door.

EXAMPLE five

As shown in fig. 22 to 24, a washing machine of the present embodiment includes:

an inner tub 18 having a washing chamber for independently containing washing water;

an inner cylinder door 6 openably and closably attached to a cylinder opening of the inner cylinder 18;

the inner cylinder door lock is used for locking the inner cylinder door 6 to keep a closed state;

and a door lock detection device 66 for detecting whether the inner cylinder door lock is locked.

The present embodiment discloses a drum washing machine with a front opening structure of a holeless inner drum, wherein the inner drum 18 has a holeless structure, and as can be seen from the structural characteristics of the drum washing machine with the holeless inner drum, the maintenance of the tightness of the door of the inner drum is the key to form an inner chamber of the inner drum which can independently contain washing water during the washing and rinsing processes, and in the dehydration process of the high-speed rotation of the inner drum, if the door of the inner drum is not locked or is not locked in place, serious safety accidents can be caused. The washing machine of the embodiment adopts the door lock detection device to detect the inner cylinder door lock, and whether the inner cylinder door is locked or not is directly related to whether the inner cylinder door is closed in place or not, so that the door lock detection device 66 can more directly detect the state of the inner cylinder door, and the situation that the inner cylinder door is not closed in place is fundamentally avoided.

Further, the inner cylinder door lock of the embodiment comprises a bolt 30 installed on the inner cylinder door 6 and a lock seat 24 installed on the cylinder opening of the inner cylinder 18; the washing machine comprises an outer cylinder 19 coaxially arranged outside an inner cylinder 18, and a door lock detection device 66 is arranged on the outer cylinder 19 and used for detecting whether a bolt 30 is locked in a lock seat 24.

This embodiment is according to the concrete structure of inner tube lock, and whether the spring bolt 30 that lock detection device direct detection inner tube lock locked in lock seat 24 to can accurately judge whether locking of inner tube door 6, very big promotion inner tube lock accuracy that targets in place, avoid the potential safety hazard that the locking does not target in place and cause.

Further, because the displacement difference of the lock tongue 30 in the two states of locking and unlocking the inner cylinder door is small, the requirement on the detection precision of the door lock detection device is high for accurately detecting the action of the lock tongue, but the cost of the door lock detection device is certainly increased.

This embodiment is through setting up lock trigger device, takes place the linkage with the spring bolt when inner tube lock locking, and lock trigger device can enlarge the displacement of spring bolt when inner tube lock locking, changes to be detected by lock detection device 66, ensures the accuracy that detects.

As an embodiment of the present embodiment, the door lock triggering device according to the present embodiment includes a movable element 68 installed in the lock base 24 in a reciprocating manner, and an elastic element 70 disposed between the movable element 68 and the lock base 24; a sensing element 67 which can be detected by the door lock detection device 66 is arranged on the movable element 68; the movable element 68 is linked with the bolt 30 in the locking process of the inner cylinder door lock, and the door lock detection device 66 generates a detection signal after detecting the induction element 67 in the entering detection range.

The moving part 68 of the door lock triggering device of the embodiment can amplify the smaller displacement of the bolt along with the linkage of the bolt when the inner cylinder door lock is locked, or extend the displacement generation position of the bolt to the detection range of the door lock detection device 66, thereby realizing the accurate detection of the locking state of the inner cylinder door lock.

In the locking process of the inner cylinder door lock, the elastic element 70 of the door lock triggering device of the embodiment compresses the elastic element 70 through linkage of the moving element and the lock tongue, the elastic element 70 is elastically deformed, when the inner cylinder door lock is unlocked, the moving element is not supported by the lock tongue 30 any more, and the elastic element 70 recovers to be deformed to push the moving element 68 to reset so as to detect the next locking process.

Further, the lock base 24 of the present embodiment includes a base body and a locking member disposed in the base body, one end of the elastic member 70 is fixed in the base body, the other end is connected to the movable member 68 and extends to the locking member, and the latch 30 is locked in the locking member and abuts against the movable member 68 to push the latch to move into the detection range of the door lock detection device 66.

The locking member of this embodiment is provided with an opening through which at least a portion of the movable member 68 extends into the locking member under the action of the resilient member 70.

The door lock triggering device of the present embodiment includes a stopper 69 provided on the movable member for preventing the movable member 68 from coming out of the lock housing.

Preferably, the limiting member 69 is a limiting protrusion disposed on the movable member 68, one end of the movable member 68 extends into the locking member from the opening, and the other end is limited outside the opening by the limiting protrusion.

As an implementation manner of this embodiment, the sensing element 67 is a permanent magnet, and the door lock detection device 66 includes a magnetic sensing element capable of sensing the permanent magnet; preferably, the permanent magnet is a magnet, and the magnetic induction element is a reed pipe.

The range of the sensing distance of the reed switch of the embodiment is L.

As shown in fig. 23, the inner cylinder door 6 of the present embodiment is locked in place, the latch 30 is in place, the latch 30 presses the movable member 68 and the magnet toward the outer cylinder wall, the distance between the magnet and the reed pipe is H, H is less than or equal to L, the reed pipe is attracted, and the door body is determined to be locked in place by the passage.

As shown in fig. 24, the inner cylinder door 6 of the present embodiment cannot be locked or opened, the latch 30 cannot be locked, the elastic element 70 presses the movable element 68 to a direction away from the outer cylinder wall, the distance between the magnet and the reed pipe is H + H, H + H > L, the reed pipe is not attracted, the circuit is broken, and it is determined that the door body cannot be locked in place.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.