WO2019165945A1 - Lave-linge à trois cuves - Google Patents

Lave-linge à trois cuves Download PDF

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Publication number
WO2019165945A1
WO2019165945A1 PCT/CN2019/076080 CN2019076080W WO2019165945A1 WO 2019165945 A1 WO2019165945 A1 WO 2019165945A1 CN 2019076080 W CN2019076080 W CN 2019076080W WO 2019165945 A1 WO2019165945 A1 WO 2019165945A1
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WO
WIPO (PCT)
Prior art keywords
washing machine
washing unit
unit
cylinder
machine according
Prior art date
Application number
PCT/CN2019/076080
Other languages
English (en)
Chinese (zh)
Inventor
邓开平
王其建
李松辉
张新新
董红建
孔露露
刘文祥
邢兴
刘彦峰
湛国庆
刘振华
薛威海
王哲星
卢克雷
闫卓
周智博
毕波
Original Assignee
海信(山东)冰箱有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from CN201810167237.7A external-priority patent/CN108286166B/zh
Priority claimed from CN201810171291.9A external-priority patent/CN108149447A/zh
Priority claimed from CN201810440721.2A external-priority patent/CN108532212A/zh
Priority claimed from CN201810610454.9A external-priority patent/CN108560205A/zh
Priority claimed from CN201811557530.0A external-priority patent/CN109706705B/zh
Priority claimed from CN201811577812.7A external-priority patent/CN109402939B/zh
Priority claimed from CN201811573506.6A external-priority patent/CN109706703B/zh
Priority claimed from CN201822210460.3U external-priority patent/CN209368545U/zh
Priority claimed from CN201910008802.XA external-priority patent/CN109629169A/zh
Application filed by 海信(山东)冰箱有限公司 filed Critical 海信(山东)冰箱有限公司
Publication of WO2019165945A1 publication Critical patent/WO2019165945A1/fr

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    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F35/00Washing machines, apparatus, or methods not otherwise provided for
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F31/00Washing installations comprising an assembly of several washing machines or washing units, e.g. continuous flow assemblies

Definitions

  • the present application relates to the technical field of washing machines, and in particular to a three-cylinder washing machine.
  • the conventional single-cylinder washing machine cannot satisfy the above-mentioned user partition washing use requirements.
  • the three-cylinder washing machine provided by the present application comprises: a box body having a drum washing unit and a pulsator washing unit; wherein the drum washing unit and the pulsator washing unit are installed in the box body through the fixing component, and the pulsator washing machine The unit is located above the drum washing unit.
  • FIG. 1 is a schematic structural view of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 2 is a schematic structural view of the three-cylinder washing machine of FIG. 1 with the box removed;
  • FIG. 3 is a schematic structural view of a rigid connecting member of the three-cylinder washing machine of FIG. 1 according to the present application;
  • FIG. 4 is a schematic structural view showing a connection manner of a rigid connecting member of the three-cylinder washing machine of FIG. 1 according to the present application;
  • Figure 5 is a partial enlarged view showing the connection manner of the rigid connecting piece of the three-cylinder washing machine of Figure 1 of the present application;
  • FIG. 6 is a schematic structural view of a shock absorber of the three-cylinder washing machine of FIG. 1 according to the present application;
  • FIG. 7 is a schematic structural view of a first perspective view of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 8 is a schematic structural view of a second perspective view of the three-cylinder washing machine of FIG. 7 according to the present application;
  • FIG. 9 is a schematic structural view of a base of a three-cylinder washing machine according to some embodiments of the present application.
  • Figure 10 is a plan view of the base of the three-cylinder washing machine of some embodiments of the present application.
  • Figure 11 is an enlarged view of a portion A of Figure 10;
  • FIG. 12 is a schematic structural view of a plate before bending a base of a three-cylinder washing machine according to some embodiments of the present application;
  • FIG. 13 is a schematic structural view of a casing of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 14 is another schematic structural view of a casing of a three-cylinder washing machine according to some embodiments of the present application.
  • Figure 15 is a partial structural view showing the position of the three-cylinder washing machine on the position of turning the drawer according to some embodiments of the present application;
  • 16 is a schematic structural view of a flip drawer of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 17 is an exploded perspective view of a flip drawer of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 18 is a partial exploded perspective view of a front panel of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 19 is a schematic structural view showing a connection relationship between a flip drawer and a front panel of a three-cylinder washing machine according to some embodiments of the present application;
  • 20 is a schematic structural view of the three-cylinder washing machine after the flip drawer is closed according to some embodiments of the present application;
  • 21 is a partial structural schematic view showing a position of a door cover of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 22 is a partial structural schematic view showing the top cover of the three-cylinder washing machine opening the box body according to some embodiments of the present application.
  • FIG. 23 is a schematic structural view showing the hinge and the locking unit of the three-cylinder washing machine being disengaged according to some embodiments of the present application;
  • FIG. 24 is a schematic structural view showing a hinge and a locking unit of a three-cylinder washing machine according to some embodiments of the present application.
  • 25 is a schematic structural view showing the opening of a door cover of a three-cylinder washing machine according to some embodiments of the present application.
  • Figure 26 is a partial cross-sectional view of a three-cylinder washing machine in accordance with some embodiments of the present application.
  • Figure 27 is an exploded perspective view showing the door of the three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 28 is a schematic structural view of a three-cylinder washing machine with a door cover opened according to some embodiments of the present application;
  • 29 is a schematic view showing the position of a first angular limiting structure of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 30 is a schematic view showing the position of a second angular limit structure of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 31 is a schematic view showing the position of the second angular limit structure of the three-cylinder washing machine when the limit angle is not reached according to some embodiments of the present application;
  • 32 is a schematic view showing the position of the second angular limit structure of the three-cylinder washing machine at a limit angle according to some embodiments of the present application;
  • 33 is a schematic view showing the position of a reed switch of a three-cylinder washing machine according to some embodiments of the present application.
  • Figure 34 is a perspective view showing the three-tube washing machine of some embodiments of the present application.
  • 35 is a partial structural schematic view showing the door of the three-cylinder washing machine when the door cover is opened according to some embodiments of the present application;
  • 36 is a force analysis diagram of a door cover of a three-cylinder washing machine at a hovering angle according to some embodiments of the present application;
  • 37 is a comparative diagram of the door cover of the three-cylinder washing machine in the hovering angle and the limit angle respectively according to some embodiments of the present application;
  • FIG. 38 is a schematic structural view of a reinforcing plate of a three-cylinder washing machine according to some embodiments of the present application.
  • 39 is a schematic exploded view of a door cover of a three-cylinder washing machine according to some embodiments of the present application.
  • Figure 40 is a partial cross-sectional view showing a door cover of a three-cylinder washing machine according to some embodiments of the present application.
  • 41 is a schematic view showing a connection mechanism of a door cover of a three-cylinder washing machine according to some embodiments of the present application.
  • Figure 42 is a partial cross-sectional view of a door cover of a three-cylinder washing machine in accordance with some embodiments of the present application.
  • FIG. 43 is a schematic diagram showing the principle of a water level detecting device of a three-cylinder washing machine according to some embodiments of the present application.
  • 44 is a partial structural schematic view of a three-cylinder washing machine according to some embodiments of the present application.
  • Figure 45 is an enlarged view of a portion B in Figure 44;
  • Figure 46 is a schematic structural view showing the air box of the three-cylinder washing machine fixed to the box body according to some embodiments of the present application.
  • 47 is a schematic structural view showing the connection of an air box and a drain valve of a three-cylinder washing machine according to some embodiments of the present application;
  • FIG. 48 is a schematic structural diagram of a touch panel assembly of a three-cylinder washing machine according to some embodiments of the present application.
  • 49 is a schematic exploded view of a touch panel assembly of a three-cylinder washing machine according to some embodiments of the present application.
  • FIG. 50 is a second exploded perspective view of a touch panel assembly of a three-cylinder washing machine according to some embodiments of the present application.
  • 51 is a schematic structural view of a light guiding assembly of a three-cylinder washing machine according to some embodiments of the present application.
  • Figure 52 is an enlarged view of a portion C in Figure 50;
  • 53 is a schematic structural view of a light guide assembly of a three-cylinder washing machine in accordance with some embodiments of the present application.
  • first and second are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, features defining “first” and “second” may include one or more of the features either explicitly or implicitly. In the description of the present application, "a plurality” means two or more unless otherwise stated.
  • Some embodiments of the present application provide a three-cylinder washing machine including a box body having at least one drum washing unit and at least one pulsator washing unit; at least one drum washing unit and/or at least one pulsator washing unit passing The fixing component is installed in the box body.
  • the three-cylinder washing machine includes two pulsator washing units and a drum washing unit, wherein the drum washing unit is disposed at a lower portion of the tank, and the two pulsator washing units are disposed in parallel at an upper portion of the tank.
  • At least one drum washing unit 2a and a plurality of pulsator washing units 3a are provided in the casing 1a, and a plurality of pulsator washing units 3a are arranged side by side, and a plurality of pulsators are arranged by the connecting members 4a.
  • the washing unit 3a is fixedly coupled as a unit, and the drum washing unit 2a and the pulsator washing unit 3a fixed as a whole are fixedly coupled by a rigid joint 5a and fixed to the inside of the casing 1a by a fixing assembly 6a.
  • the plurality of pulsator washing units are two, the connecting member 4a is disposed between the two pulsating washing units, the rigid connecting members 5a are distributed substantially in the horizontal direction, and the drum washing unit is located below the rigid connecting member 5a, two waves Both the wheel laundry unit and the connecting member 4a are disposed above the rigid connecting member 5a.
  • At least one drum washing unit 2a is provided to meet the general washing demand of the user, and the plurality of pulsator washing units 3a are provided to satisfy the user's partition washing of the inner and outer clothes and the like separately. Demand, as well as the need for a small amount of laundry to be washed in time.
  • a plurality of pulsator washing units 3a are arranged side by side; the pulsator washing unit 3a generates a centrifugal amplitude in the horizontal direction during operation, in order to avoid a plurality of pulsating laundry units 3a Collision with each other occurs, and in order to make the structure of the three-cylinder washing machine more compact, the occupied space of the pulsator washing unit 3a is reduced, and the plurality of pulsator washing units 3a are fixedly connected as a whole by the connecting member 4a.
  • the drum washing unit 2a and the pulsator washing unit 3a are fixedly connected as a whole by the rigid connecting member 5a, and constitute a three-tube washing machine with an integrated structure, so that the internal structure of the three-cylinder washing machine is more compact, and the occupied space of the three-cylinder washing machine is reduced;
  • the rigid connecting member 5a not only functions to fix the connection between the drum washing unit 2a and the pulsator washing unit 3a, but also increases the quality of the entire cylinder system, reduces the height of the center of gravity of the cylinder system, and increases the damping constraint of the cylinder system, thereby reducing The amplitude and noise of the three-cylinder washing machine during operation.
  • the rigid connection method has the following two advantages: on the one hand, when the drum washing unit and the pulsator washing unit of the three-cylinder washing machine work simultaneously, the vibration in the opposite direction between the drum washing unit and the pulsator washing unit can effectively weaken each other. And the vibration in the same direction will not be strengthened, so the vibration and noise of the three-cylinder washing machine can be well reduced; on the other hand, when the drum washing unit or the pulsator washing unit works alone, the non-working drum washing unit or The pulsator washing unit can increase the weight of the pulsator washing unit or the drum washing unit under the working state, thereby achieving the purpose of reducing vibration and noise.
  • the drum washing unit 2a and the pulsator washing unit 3a which are connected by the rigid connecting member 5a are integrally connected to the casing 1a via the fixing member 6a, so that the whole can be fixed inside the casing 1a.
  • the cylinder system refers to a general term of the entirety of at least one of the drum washing unit 2a and the plurality of the wheel washing units 3a, and includes all of the drum washing unit 2a and the pulsator washing unit 3a in the tank 1a.
  • the test results show that when the rigid connection is used to connect with the drum washing unit 2a and the pulsator washing unit 3a, the amplitude of the vibration of the three-cylinder washing machine in all directions is relatively small, and the overall noise generated is also small.
  • the rigid connecting member 5a for connecting the drum washing unit 2a and the pulsator washing unit 3a is a frame-shaped structure, as shown in FIG. 3, the frame-shaped structure is composed of two opposite frames.
  • the support beam 51a and the connecting beam 52a for connecting the two support beams 51a are composed; the drum washing unit 2a and the pulsator washing unit 3a are respectively fixedly connected with the support beam 51a of the rigid connecting member 5a, and the connecting beam 52a is used for two The support beams 51a are connected and fixed in a rigid whole.
  • the connecting beam 52a can increase the weight of the rigid connecting member 5a, thereby increasing the quality of the cylindrical system, reducing the height of the center of gravity of the tubular system, increasing the binding force of the tubular system, and reducing the amplitude and noise of the tubular system.
  • the rigid connecting member 5a connects the support beams 51a as a whole by the connecting beam 52a, and then serves as the drum washing unit 2a and the pulsator
  • the only connecting member between the washing units 3a in addition to increasing the quality of the rigid connecting member 5a, can prevent the pulsator washing unit 3a from undergoing a large displacement deformation due to eccentric vibration, thereby ensuring the strength of the outer cylinder of the pulsator washing unit 3a.
  • the following comparative test was conducted.
  • the two supporting beams 51a of the rigid connecting members 5a are separately provided with the drum washing unit 2a and the pulsator
  • the laundry unit 3a is rigidly connected; the two support beams 51a of the rigid connecting member 5 are connected as a whole by using the connecting beam 52a, and then rigidly connected to the drum washing unit 2a and the pulsator washing unit 3a, and the three-cylinder washing machine is tested in two cases.
  • the vibration and noise conditions, the test results show that when the two supporting beams 51a of the rigid connecting member 5a are connected as a whole by using the connecting beam 52a, the vibration and noise generated by the three-cylinder washing machine are smaller.
  • the rigid connecting member 5a functions to connect the drum washing unit 2a and the pulsator washing unit 3a, and the rigid connecting member 5a can be connected to the drum washing unit 2a and the pulsator washing unit 3a by welding, riveting or screwing.
  • the threaded connection can provide better connection and fixing strength, and is convenient for disassembly and assembly and post-maintenance of the three-cylinder washing machine; therefore, in the embodiment provided by the present application, as shown in FIG. 4, the rigid connecting member 5a is selected to be screwed.
  • the connection mode is fixedly connected to the drum washing unit 2a and the pulsator washing unit 3a, respectively.
  • the connecting manner of the screw connection requires opening the connecting hole 7a on the supporting beam 51a of the rigid connecting member 5a.
  • a plurality of connecting holes 7a are formed in the supporting beam 51a, and are connected and fixed to the drum washing unit 2a.
  • a first connecting hole 71a, and a second connecting hole 72a fixedly connected to the pulsator washing unit 3a.
  • the connecting hole 7a can be fitted with a fastener 8a.
  • the fastener 8a cooperates with the connecting hole 7a to press the drum washing unit 2a and the pulsator
  • the unit 3a is attached and fixed to the support beam 51a of the rigid joint 5a.
  • the threaded connection may be divided into a bolt connection, a stud connection and a screw connection, and the corresponding connection hole 7a may be provided as a through hole, a counterbore or a threaded hole, and the fastener 8a may select a bolt and a screw or other fastener;
  • the rigid connecting member 5a is selectively connected to the drum washing unit 2a by bolting, and the corresponding first connecting hole 71a is provided as a through hole, and the matching fastener 8a is a bolt 81a;
  • the rigid connecting member 5a and The connecting manner of the pulsator washing unit 3a is a screw connection, and the corresponding second connecting hole 72a is provided as a threaded counterbore, and the matching fastener 8a is a screw 82a.
  • the position corresponding to the first connecting hole 71a on the drum washing unit 2a, and the position corresponding to the second connecting hole 72a on the pulsator washing unit 3a are the drum washing unit 2a and the pulsator washing unit 3a.
  • the connection point is provided at the connection point of the drum washing unit 2a and the pulsator washing unit 3a with corresponding through holes or card slots or other suitable structures, through holes or card slots or other suitable structures for installation.
  • the fastener 8a is fixed.
  • the distance between the connection points of the drum washing unit 2a corresponding to the pulsator washing unit 3a is relatively long, and the orientation is set on the support beam 51a.
  • a first bump 511a of the drum washing unit 2a, and a second bump 512a facing the pulsator washing unit 3a (ie, protruding upward), and the first connecting hole 71a is disposed on the first bump 511a, and the second The connecting hole 72a is provided on the second bump 512a, and the bump structure can fill the space between the drum laundry unit 2a and the corresponding connecting point of the pulsator washing unit 3a.
  • the first bump 511a and the second bump 512a may be provided in a cylindrical or prismatic shape. In order to facilitate the mounting of the fastener 8a, the first bump 511a and the second bump 512a may be dislocated, and the misalignment means that the axes of the first bump 511a and the second bump 512a are not on the same vertical line.
  • the distance between the corresponding washing points on the drum washing unit 2a and the pulsator washing unit 3a is large, and the rigidity is rigidly connected.
  • the mounting positional relationship of the piece 5a is set between the first bump 511a and the connection of the drum washing unit 2a since the distance between the first bump 511a and the drum washing unit 2a is large.
  • the spacer 83a is provided with an internal thread at a position corresponding to the connection hole 71a, and is fixedly coupled to the bolt 81a of the fastener 8a, and the spacer 83a functions as a nut.
  • the portion of the support beam 51a between the adjacent two first connection holes 71a protrudes more toward the downward end surface of the first connection hole 71a, but the relative height of the protrusion is smaller than the thickness of the spacer 83a. Therefore, the protruding portion of the support beam 5a can position the drum washing unit in the axial direction of the drum unit through the spacer 83a, thereby reducing the force on the bolt 81a caused by the shaking in the axial direction of the drum unit, and the spacer can reduce the roller.
  • the vibration of the laundry unit is conducted to the housing along the support beam 5a.
  • the spacer 83a can also be connected and fixed at the connection point of the drum washing unit 2a by various connection methods, such as welding, riveting, and screwing.
  • connection methods such as welding, riveting, and screwing.
  • the spacer 83a is fixedly connected to the connection point of the drum washing unit 3a using the fixing screw 84a; and the position where the spacer 83a contacts the drum washing unit 3a is set as a slider structure, and the corresponding connection point of the drum laundry unit 2a is set as a rail structure
  • the pad 83a can only be slid and cannot be rotated at the connection point of the drum washing unit 2a, facilitating the attachment and detachment of the bolt 81a.
  • the first bump 511a and the second bump 512a of the rigid connecting member 5a of some embodiments of the present application have the same number, and may be disposed in plurality, symmetrically distributed on the two supporting beams 51a, in order to increase the stability of the connection, the first The number of the bumps 511a and the second bumps 512a is four, and is disposed on the four corners of the two support beams 51a of the rigid joint 5a, as shown in FIG. 3, two on each of the support beams 51a.
  • the corresponding first bump 511a and second bump 512a The four first bumps 511a are in the same plane, and the four second bumps 512a are in the other plane, respectively forming a joint surface to which the drum washing unit 2a and the pulsator washing unit 3a are connected.
  • the connecting beam 52a of the rigid connecting member 5a functions only to connect the supporting beam 51a, and does not contact the drum washing unit 2a, in order to make the inside of the three-cylinder washing machine
  • the structure is more compact, the occupied space of the rigid connecting member 5a is reduced, the connecting beam 52a is disposed close to the drum washing unit 2a, and the shape of the connecting beam 52a is adapted to the shape of the outer wall of the drum washing unit 2a.
  • the connecting beam 52a near the front side of the drum washing unit 2a is integrally formed in an arch shape
  • the connecting beam 52a near the rear side of the drum washing unit 2a is integrally formed in a straight shape.
  • the middle position of the connecting beam 52a near the front side of the drum washing unit 2a is convex upward with respect to both ends, so that the diameter of the first connecting beam to the vertical direction of the drum washing unit can be avoided, and the three-cylinder washing machine can be effectively reduced. Overall height.
  • the middle position of the first connecting beam is provided with a lifting spring. Since the intermediate position of the first connecting beam is convex upward with respect to both ends, the force is more easily dispersed to the supporting beam 51a, and the middle position of the first connecting beam is lightened. Force.
  • the three-cylinder washing machine of some embodiments of the present application except for the casing 1a, the drum washing unit 2a, the pulsator washing unit 3a, and the rigidity for connecting the drum washing unit 2a and the pulsator washing unit 3a
  • a fixing assembly 6a for connecting and fixing the above-mentioned components to the casing 1a, and a suspension beam 11a provided on the left and right sides of the casing 1a are fixed, and the suspension beam 11a is fixedly coupled to the casing 1a.
  • the fixing assembly 6a includes a hanging spring 61a and a damper 62a.
  • the hanging spring 61a is disposed above the damper 62a, and one end of the hanging spring 61a is fixedly coupled to the suspension beam 11a on the side of the casing 1a, and the other end is fixedly connected at Above the side of the drum washing unit 2a, the hanging spring 61a is in a stretched state, and the hanging spring 61a in the stretched state can provide a binding force for the cylinder system, increase the damping coefficient of the cylinder system, and reduce the vibration and noise of the cylinder system; one end of the shock absorber 62a It is fixed under the side of the drum washing unit 2a, and the other end is fixedly connected to the bottom of the box body 1a.
  • the damper 62a supports the entire barrel system, and the shock absorber 62a has better shock absorbing performance, which can reduce the vibration caused by the barrel system.
  • the vibration of the box increases the overall stability of the three-tube washing machine.
  • the number of the dampers 62a is plural.
  • the number of the three-cylinder washer dampers 62a of some embodiments of the present application is set to four, and is fixed at the four corners of the box 1a to support the cylinder system and the shock absorbing function. .
  • the damper 62a of some embodiments of the present application includes a main damper rod 621a and a secondary damper rod 622a.
  • One end of the main damper rod 621a is fixed to the bottom of the box body 1a, and the other end is fixed to the drum.
  • one end of the auxiliary damper lever 622a is fixed to the side of the drum washing unit 2a, and the other end is connected to the middle of the main damper rod 621a via a connecting device 623a.
  • the drum washing unit 2a and the pulsator washing unit 3a are integrally fixed by the rigid connecting member 5a, the lateral amplitude of the drum washing unit 2a is increased, and the auxiliary damper rod 622a of the damper 62a can be added to the lateral direction of the cylinder. Constraint to reduce the lateral amplitude of the cylinder.
  • the three-cylinder washing machine of some embodiments of the present application may be provided with different numbers of the drum washing unit 2a and the pulsator washing unit 3a. If the number of the drum washing units 2a is larger than one, it will be largely Increasing the space occupied by the washing machine, or reducing the size and capacity of the drum washing unit 2a, and setting a drum washing unit 2a can meet the general washing needs of the general user, so the three-cylinder washing machine of some embodiments of the present application is provided with a drum washing unit.
  • the sum of the widths of the pulsator washing unit 3a should be similar to the diameter of the outer cylinder of the drum washing unit 2a, and the space size is constant.
  • the capacity of the pulsator washing unit 3a can be maximized; if a larger number of pulsating washing units are provided 3a, it will increase the difficulty of installation, and will also reduce the volume and capacity of each pulsator washing unit 3a, increasing the manufacturing difficulty.
  • a pulsator laundry two units 3a In order to make better use of the lateral space of the casing 1a, the two pulsator washing units 3a are placed side by side. At the same time, in order to facilitate the rigid connection of the drum washing unit 2a and the pulsator washing unit 3a, the two pulsator washing units 3a are fixedly connected as a whole through the connecting piece 4a, and the pulsator washing unit 3a connected as a whole can also reduce the mounting parts. The cost is reduced, and the installation and fixing of the pulsator washing unit 3a are more convenient.
  • the structural arrangement in the box 1a may be arranged in a horizontal direction or a vertical direction, and the same in the installation.
  • the horizontal arrangement increases the floor space of the three-cylinder washing machine; when the vertical direction is arranged, the floor space of the three-cylinder washing machine can be reduced, The volume of the three-cylinder washing machine can be reduced, and the space utilization rate is improved. Therefore, in some embodiments of the present application, the three-cylinder washing machine adopts a vertical arrangement. As shown in FIG.
  • the drum washing unit 2a Since the capacity, volume, and quality of the drum washing unit 2a are larger than that of the pulsator washing unit 3a, the inertia is larger.
  • the pulsator washing unit When the drum washing unit 2a is located at the lower portion of the casing 1a, the pulsator washing unit When the 3a is located at the upper portion of the casing 1a, the center of gravity of the three-cylinder washing machine can be effectively reduced, thereby improving the stability of the three-cylinder washing machine. Therefore, the drum washing unit 2a is placed at the lower portion of the casing 1, and the pulsator washing unit 3 is provided. It is placed on the upper part of the casing 1a.
  • the pulsator washing unit 3b and the drum washing unit 2b are secured to the casing by means of a boom.
  • the drum washing unit 2b is fixed to the casing 1b by the fixing assembly 4b
  • the pulsator washing unit 3b is fixed to the casing 1b by a plurality of booms 5b and a plurality of elastic connecting members 6b, and a plurality of cranes
  • the upper end of the rod 5b is fixed to the casing 1b
  • the lower ends of the plurality of booms 5b are connected to the pulsator washing unit 3b
  • the evasive gap is provided between the drum washing unit 2b and the pulsator washing unit 3b.
  • the drum washing unit 2b is fixed inside the washing machine casing 1b by the fixing assembly 4b, and the pulsator washing unit 3b is fixed to the washing machine cabinet through a plurality of booms 5b and a plurality of elastic connecting members 6b.
  • a plurality of booms 5b for hanging the pulsator washing unit 3b inside the casing 1b the upper end of the boom 5b is fixed to the upper portion of the casing 1b, and the lower end of the boom 5b is fixed at the bottom of the pulsator washing unit 3b;
  • the pulsator washing unit 3b is smoothly suspended in the casing 1b, the number of the booms 5b is set to be plural, and the plurality of booms 5b are evenly distributed around the pulsator washing unit 3b.
  • the connection is made by the boom 5b, which has better tensile strength, can effectively reduce the vibration amplitude of the pulsator washing unit 3b inside the box b1, thereby reducing the need between the pulsator washing unit 3b and the drum washing unit 2b.
  • the pulsator washing unit 3b can have a certain vibration amplitude inside the box 1b, which can attenuate the generation of the pulsator washing unit 3b.
  • the elastic connecting member 6b is configured as an auxiliary boom 5b for fixing the pulsator washing unit 3b to the inside of the casing 1b, and the elastic connecting member 6b can not only serve to fix the connection, but also It plays a good buffering role, increases the binding force of the pulsator washing unit 3b, and reduces the amplitude of the pulsator washing unit 3b to reduce the vibration and noise generated when the three-cylinder washing machine works.
  • the vibration generated by the drum washing unit 2b has an amplitude component in the vertical direction
  • the vibration generated by the pulsator washing unit 3b also has an amplitude component in the vertical direction, in order to prevent the two from occurring due to vibration. Collision and damage to the components inside the washing machine casing 1b requires a sufficient size of the avoidance gap between the drum washing unit 2b and the pulsator washing unit 3b.
  • the upper end of the elastic connecting member 6b is fixed to the bottom surface of the pulsator washing unit 3b, and the lower end of the elastic connecting member 6b is fixedly connected to the inner wall of the box body 1b for increasing the binding force of the lower end of the pulsator washing unit 3b, and reducing the pulsator washing unit The vibration amplitude of 3b working, so as to achieve the purpose of shock absorption and noise reduction.
  • the elastic connecting member 6b may have two mounting states when connecting the case 1b and the pulsator washing unit 3b, respectively, in a compressed state and a stretched state.
  • the elastic connecting member 6b is installed in a compressed state, on the one hand, the pulsator washing unit 3b is provided with an upward elastic force, which is disadvantageous to the stability of the pulsator washing unit 3b in the vertical direction, and on the other hand, in a compressed state.
  • the elastic connecting member 6b is susceptible to bending deformation, which is disadvantageous for maintaining the shape of the elastic connecting member 6b itself, which is disadvantageous for the elastic connecting member 6b to provide a stable binding force for the pulsator washing unit 3b; when the elastic connecting member 6b is mounted for stretching,
  • the downward force directed to the bottom of the pulsator washing unit 3b and the outward force directed toward the inner wall of the tank may be provided for the pulsator washing unit 3b, which may increase the binding force of the pulsator washing unit 3b in the vertical and horizontal directions, Thereby, the stability of the lower end of the pulsator washing unit 3b is increased, the vibration amplitude of the lower end of the pulsator washing unit 3b is lowered, and the noise generated by the pulsator washing unit 3b is reduced; therefore, the elastic connecting member 6b is mounted in a stretched state.
  • the pulsator washing unit 3b is suspended in the casing 1b by means of the boom 5b, and the vibration of the pulsator washing unit 3b is reduced by the elastic connecting member 6b.
  • the selection of the elastic connecting member 6b is mainly for the purpose of attenuating the vibration and noise of the pulsator washing unit 3b.
  • the elastic connecting member 6b which may be a spring, a shock absorber or a rubber, etc.; when the elastic connecting member 6b selects a spring, the spring can provide the required binding force for the pulsator washing unit 3b, and the pulsator is lowered.
  • the vibration generated by the washing unit 3b also has high structural reliability; the rubber can not only provide the binding force required by the pulsator washing unit 3b, but also has a good cushioning effect, so that the vibration generated by the pulsator washing unit 3b is not easy.
  • the elastic connecting member 6b of the three-cylinder washing machine in some embodiments of the present application selects the rubber material when it is transmitted to the casing 1b, and the noise generated when the rubber is vibrated is small, and the rubber material cost is low.
  • the elastic connecting member 6b of some embodiments of the present application is arranged in a plurality of positions around the pulsator washing unit 3b, which can increase the binding force of the pulsator washing unit 3b as a whole, improve the stability thereof, and reduce the vibration of the pulsator washing unit 3b.
  • the amplitude, the plurality of elastic connecting members 6b are uniformly symmetrically arranged around the bottom of the pulsator washing unit 3b, so that the pulsator washing unit 3b is subjected to force balance in the horizontal direction.
  • the three-cylinder washing machine of some embodiments of the present application fixes the drum washing unit 2b to the inside of the casing 1b by means of a fixing assembly 4b, and the fixing assembly 4b includes a hanging spring 41b and a damper 42b.
  • the upper end of the damper 42b is fixedly connected under the drum washing unit 2b, the lower end is fixed at the bottom of the box body 1b, which can provide better supporting force for the drum washing unit 2b, and the shock absorber 42b has better shock absorption. Performance; in order to increase the stability of the operation of the drum washing unit 2b, a hanging spring 41b is disposed above the damper 42b, the upper end of the hanging spring 41b is connected to the inner wall of the casing 1b, and the lower end is connected above the drum washing unit 2b, and The hanging spring 41b is in a stretched state, and the hanging spring 41b cooperates with the damper 42b to increase the circumferential binding force of the drum washing unit 2b, reduce the vibration amplitude of the drum washing unit, and reduce the noise generated by the drum washing unit 2b.
  • the number of the damper 42b and the hanging spring 41b are both multiple.
  • the three-cylinder washing machine and the shock absorber of some embodiments of the present application are provided.
  • the number of 42b is set to four, and the number of the hanging springs 41b is two.
  • two pulsator washing units 3b are disposed at an upper portion of the casing 1b and arranged side by side, and the outer cylinders of the two pulsator washing units 3b are connected through the connecting member 7b.
  • the connection is integrated, which reduces the installation components required for the separate installation of the two pulsator washing units 3b, reduces the manufacturing cost, and facilitates the installation and fixing of the pulsator washing unit 3b; at the same time, the two pulsator washing units 3b can be eliminated.
  • the avoidance gap between the brackets makes it easier to achieve a compact design.
  • Fixing the two pulsator washing units 3b as a whole can increase the mass of the pulsator washing unit 3b, increase the inertia of the pulsator washing unit 3b, and can effectively reduce the vibration and noise generated when the pulsator washing unit 3b operates.
  • the three-cylinder washing machine of some embodiments of the present application is also mounted on the side of the box with a suspension beam 11b between the drum washing unit 2b and the pulsator washing unit 3b for mounting and fixing.
  • the lower end of the elastic connecting member 6b and the upper end of the hanging spring 41b that is, the lower end of the elastic connecting member 6b are mounted and fixed on the suspension beam 11b of the casing 1b, and the upper end of the hanging spring 41b is also mounted with a hanging beam fixed to the casing 1b.
  • the suspension beam 11b also functions to reinforce the casing 1b.
  • the box body in order to provide a more stable force performance of the box, in the embodiment provided by the present application, referring to FIG. 9, the box body includes a base 1c, and the frame structure of the box body can refer to FIG. 13 including the base 1c. Or Figure 14.
  • the base 1c includes a bottom plate 11c and a plurality of side plates 12c disposed around the bottom plate 11c.
  • the bottom plate 11c and the plurality of side plates 12c are integrally formed.
  • the adjacent two side plates 12c are welded or riveted by the connecting ears 13c, and the connecting ears 13c and the phase are connected.
  • One of the adjacent two side plates 12c is integrally formed, and the other of the connecting ears 13c and the adjacent two side plates 12c overlap each other and is welded at the lap joint.
  • the connection process is simple, and the base 1c is formed into an integrated structure, which ensures the overall structural strength of the base 1c while enhancing the strength of the whole machine, thereby reducing the washing machine.
  • the overall vibration amplitude reduces operating noise.
  • the connection of the side plates 12c of the base 1c is fixed to control the deformation amount of the base 1c, which prolongs the service life of the case.
  • the connecting lug 13c can be formed by one of the adjacent side panels 12c by a bending process, and the connecting lug 13c and the other side panel of the adjacent two side panels 12c are formed.
  • 122c is welded by a spot welding process. Therefore, when the base 1c is manufactured, the connecting ears 13c at the end portions of the bottom plate 11c, the side plates 121c and the side plates 122c can be bent by one plate, and the manufacturing process is simple and the connection is stable, so that the base 1c is integrated as a whole.
  • the structure ensures the overall structural strength of the base 1c, and the spot welding process is convenient to operate, fast, economical and practical.
  • the bottom plate 11c of the base 1c may be a square plate, and four side plates 12c are formed at four sides of the bottom plate 11c in a direction perpendicular to the bottom plate 11c, and the bottom plate 11c and the four side plates 12c may be formed by a cross plate Bending and forming.
  • the structure of the cross-shaped plate can be as shown in FIG. 12, and the cross-shaped plate can be folded up along the dotted line in the figure to form the shape of the base 1c.
  • connection position of the connecting ear 13c can be variously selected.
  • one connecting ear 13c can be disposed at one end of each side plate 12c, and the four side walls can be sequentially welded through the connecting ear 13c.
  • all of the four connecting ears 13c on a pair of opposite side walls, that is, in a pair of opposite side walls, each of the side walls is integrally formed with a connecting ear 13c, another pair of opposite side walls, each end of each side wall is welded with the connecting ear 13c, the solution can connect the four side walls into one body and the manufacturing process is simpler, and the connecting structure is more stable.
  • the casing further includes a frame 2c connected to the base 1c, the frame 2c includes a plurality of mutually parallel vertical beams 21c, and the vertical beams 21c are disposed in a direction perpendicular to the bottom plate 11c. And respectively disposed at the vertical direct seams of the adjacent two side panels 12c, and the adjacent two vertical beams 21c are connected by the cross beam 22c; thereby forming an overall support structure of the washing machine box body, and then adjacent two A support plate is formed on the support surface formed by the vertical beams 21c, so that the components mounted in the casing can be supported.
  • the vertical beam 21c of the frame 2c can be supported by a strip steel plate, an angle steel or an I-beam; since the corner angle of the angle steel can be matched with the corners of the adjacent two side walls, the angle steel can be coated and welded adjacently.
  • a hanging hole for attaching the hanging spring may be disposed on the beam 22c.
  • the drum washing unit or the pulsator washing unit is installed in the casing by a hanging spring; thereby, the vibration transmitted from the drum to the casing can be reduced, thereby further reducing noise.
  • the beam 22c includes a middle beam 221c and an upper beam 222c; the middle beam 221c is disposed at a position opposite to the position between the drum washing unit and the pulsator washing unit.
  • the middle beam 221c may correspond to the suspension beam 11a and the suspension beam 11b mentioned in the above embodiments.
  • the casing 1a further includes a casing 1d, and the casing 1d is disposed outside the frame 2c.
  • the casing 1d includes a front panel 101d disposed on the front panel of the washing machine.
  • the front panel 101d of the casing 1d is provided with an opening 102d in addition to the opening at the door of the drum washing unit, and the opening 102d is The horizontal position is located above the drum washing unit, and the opening 102d is provided with a flip drawer 2d.
  • the flip drawer 2d includes a rotating plate 201d having an outer side wall as a washing machine appearance surface, a storage box 202d disposed on the inner surface of the rotating plate 201d, and
  • the limiting structure for restricting the movement of the storage box 202d toward the bottom of the casing 1d, the rotating plate 201d and the front panel 101d are hinged by the hinge 3d, and the storage box 202d is detachably mounted on the rotating plate 201d, when the inverted drawer 2d is opened At this time, the storage box 202d can be taken out from the opening between the rotating plate 201d and the front panel 101d.
  • the storage box 202d is detachably connected to the rotating plate 201d instead of being fixedly connected, the storage box 202d can be detached from the rotating plate 201d, and at the same time, the inverting drawer 1d has a limiting structure capable of defining the storage box. 202d moves toward the bottom of the casing 1d, so that when the inverting drawer 2d is opened, the storage box 202d can be taken out from the opening between the rotating plate 201d and the front panel 101d.
  • the washing machine When the washing machine is used, if the inner wall of the storage box 202d has foreign matter to be cleaned, the storage box 202d can be directly taken out, and the storage box 202d can be separately cleaned, and the cleaning is convenient, and it is not necessary to stand beside the washing machine for cleaning.
  • the washing machine disclosed in the present application has better practicability and further improves the use performance of the washing machine.
  • the limit of the storage box 202d can be achieved by the following structure, and a slider is disposed on the wall surface of the storage box 202d in contact with the rotating plate 201d, on the inner surface of the rotating plate 201d.
  • the sliding slot is matched with the sliding block, and the extending direction of the sliding block and the sliding slot are directed to the bottom of the casing 1d, so that the storage box 202d is along the inner wall of the rotating plate 201d by the cooperation of the sliding block and the sliding slot.
  • the chute Moving toward the bottom of the casing 1d, at the same time, the chute is disposed at a position close to the lower edge of the rotating plate 201d, and the sliding position of the storage box 202d on the rotating plate 201d is defined by the stopper, thereby defining the storage box 202d. It is not possible to continue moving toward the bottom of the casing 1d along the rotating plate 201d.
  • the limiting structure is a first limiting structure 203d.
  • the first limiting structure 203d includes a limiting block 2031d having a mounting hole 2032d and an insert 2033d that can be disposed in the mounting hole 2032d.
  • One of the stoppers 2031d and the inserts 2033d is mounted at the bottom of the storage box 202d, and the other is mounted on the inner surface of the rotating plate 201d. That is, when the stopper block 2031d is disposed at the bottom of the storage box 202d, the insert member 2033d is disposed on the inner surface of the rotating plate 201d; in addition, as shown in Fig.
  • the stopper block 203d1 is disposed on the inner surface of the rotating plate 201d.
  • the insert 2033d is disposed at the bottom of the storage box 202d. With the first limiting structure 203d as shown in FIG. 17, when the removed storage box 202d is placed back on the rotating plate 201d, the insert 2033d can be easily inserted into the mounting hole 2032d, which is convenient to operate.
  • the structure of the insert 2033d is not limited, and may be an insert having a circular cross section, an insert having a rectangular cross section, or an insert having a triangular cross section.
  • the bottom end of the insert 2033d is designed as a pointed structure, and the insert is easily passed through the pointed structure.
  • the 2033d is aligned with the mounting hole 2032d to quickly insert the insert 2033d into the mounting hole 2032d.
  • the mounting hole 2032d may be a waist hole.
  • the length direction of the waist hole coincides with the X-axis direction of the limiting block 2031d, and may also coincide with the Y-axis direction of the limiting block 2031d.
  • the limiting structure is a second limiting structure 204d
  • the second limiting structure 204d includes: a baffle 2041d disposed opposite to the inner surface of the rotating plate 201d and having a card slot 2042d, and A block 2043d is disposed on the side of the storage box 202d and mates with the card slot 2042d.
  • the block 2043d can be locked in the card slot 2042d, and the card block 2043d is clamped in the card slot 2042d, thereby defining The degree of freedom of movement of the storage box 202d toward the bottom of the casing 1d, and the opening of the card slot 2042d toward the upper edge of the rotating plate 201d, so that the storage box 202d can be moved upward along the rotating plate 201d, away from the rotating plate 201d .
  • the card slot 2042d is defined on the baffle 2041d, and the card slot 2042d is formed on a side of the baffle 2041d facing the upper end of the rotating plate 201d.
  • the baffle 2041d may be integrated with the rotating plate 201d or may be installed. On the rotating plate 201d.
  • the baffle 2042d When the washing machine is in the laundry, in order to prevent the storage box 201d from shaking left and right, the baffle 2042d extends to the bottom of the storage box 202d, the number of the baffles 2042d is two, and the two baffles 2042d are sandwiched on both sides of the storage box 202d. This limits the freedom of movement of the storage box to the left and right.
  • the material of the storage box 202d is plastic.
  • a buffer structure is disposed on the wall surface of the baffle 2042d contacting the storage box 202d, and the buffer structure may be a cushion or a cushion. It is another structure.
  • the card slot 2042d has a generally arcuate or dovetail configuration. Because the card slot 2042d of the superior arc structure and the dovetail structure has a specific locking function, that is, the card block 2043d is caught in the card slot 2042d, when the storage box 202d is rocked up and down, the card slot 2042d of the superior arc structure and the dovetail structure The card will be snapped up by 2043d to prevent it from falling out of the card slot 2042d.
  • the cross-section of the block 2043d is a circular structure, a rectangular structure, or other structure.
  • the storage box 202d In order to prevent the block 2043d from shaking left and right in the card slot 2042d, the storage box 202d also swayes left and right.
  • the end surface of the card 2043d has a convex edge, and the outer diameter of the convex edge is larger than the outer diameter of the card slot 2042d, and is stuck by the convex edge.
  • the block 2043d On the baffle 2041d, the block 2043d can be defined to move left and right along the card slot 2042d.
  • the limiting structure may include only one of the first limiting structure 203d and the second limiting structure 204d, and may also include the first limiting structure 203d and the second limiting structure 204d.
  • the first limiting structure 203d and the second limiting structure 204d are included to enable the storage box 202d to be stably mounted on the rotating plate 201d.
  • the rotating plate 201d is movably hinged to the front panel 101d by the following structure. Referring to FIG. 19, the rotating plate 201d is movably hinged to the front panel 101d via the connecting member 603d, and the first end of the connecting member 603d passes through the first rotating shaft 604d and the rotating plate. 201d is hinged, the second end of the connecting member 603d is hinged to the front panel 101d by the second rotating shaft 605d, and the first rotating shaft 604d and the second rotating shaft 605d are horizontally disposed and are both parallel to the front panel 101d, when the rotating plate 201d is opened and closed.
  • the connecting member 603d is rotatable about the second rotating shaft 605d to move the flip drawer 2d up and down relative to the front panel 101d.
  • the connecting member 603d may be a connecting rod or a connecting plate, which is not limited herein.
  • the structure in which the first end of the connecting member 603d is hinged to the rotating plate 201d may be the structure shown in FIG. 19: the rotating plate 201d is provided with a first hook 606d, and the first rotating shaft 604d is disposed at the first end of the connecting member 603d. A hook 606d is rotatably coupled to the first rotating shaft 604d. This can facilitate the disassembly between the first end of the connecting member 603d and the rotating plate 201d. When the connecting member 603d or the rotating plate 201d is damaged, the replacement and maintenance of the rotating plate 201d or the connecting member 603d can be facilitated, thereby reducing the maintenance cost. .
  • the structure in which the second end of the connecting member 603d is hinged to the front panel 101d may be the structure shown in FIG. 19: the front panel 101d is mounted with a fixing block 602d, the fixing block 602d is provided with a cavity, and the second rotating shaft 605d is disposed at the connecting member. The second end of the 603d, the second rotating shaft 605d is rotatably engaged with the cavity, and the fixing block 601d is detachably mounted on the front panel 101d by bolts or screws.
  • a guide structure for guiding the vertical movement of the reverse drawer 2d when it is rotated is provided between the rotating plate 201d and the front panel 102d.
  • the rotating plate 201d When the rotating plate 201d is opened, the lower edge of the rotating plate 201d rotates into the casing 1d, and the guiding structure guides the rotating plate 201d and the storage box 202d to move upward; when the rotating plate 201d is closed, the lower edge of the rotating plate 201d faces the casing 1d is rotated externally, and the guiding structure guides the rotating plate 201d and the storage box 202d to move downward.
  • the guiding structure includes a guiding block disposed at the opening 102d.
  • the guiding block has a guiding surface 601d.
  • the guiding surface 601d is inclined with respect to the lower side of the opening 102d, and the end of the guiding surface 601d near the casing 1d is higher than the guiding surface. 601d is near one end of the casing 1d, and during the flipping of the flip drawer 2d, the flip drawer 2d is movable along the guiding surface 601d.
  • the guiding structure further includes a rolling shaft 608d disposed at a lower edge of the rotating plate 201d, and the rolling shaft 608d slides along the guiding surface 601d during the turning of the turning drawer 2d.
  • the rotating plate 201d is provided with a second hook 607d, and the rolling shaft 608d and the second hook 607d are rotatably engaged.
  • the second hook 607d is rotatably engaged with the rolling shaft 608d, and the rolling shaft 608d can be rotated relative to the second hook 607d or conveniently removed from the second hook 607d.
  • the rotating plate 201d is locked to the front panel 101d by the locking structure 4d, wherein the locking structure 4d is not unique.
  • the locking structure 4d may be a snap-fit structure, and the rotating plate 201d is provided with a card.
  • a claw is provided on the front panel 101d.
  • the locking structure 4d can also be a push-type door lock structure.
  • the locking structure 4d can be a touch, infrared sensing locking structure.
  • the specific structure of the locking structure 4d is not limited herein, and any structure is within the protection scope of the present disclosure.
  • the three-cylinder washing machine further includes an auxiliary opening structure 5d for pushing the reversing drawer 2d away from the front panel 101d during the opening of the rotating plate 201d.
  • the auxiliary opening structure 5d may have various structures.
  • the auxiliary opening structure 5d includes a first connecting portion, a second connecting portion, and a telescopic portion for connecting the first connecting portion and the second connecting portion, and the first portion is adjustable by the telescopic portion.
  • An angle between the connecting portion and the second connecting portion, one end of the first connecting portion is fixed to the front panel 101d, and one end of the second connecting portion abuts against the rotating plate 201d or the storage box 202d, when the rotating plate 201d is rotated and opened
  • the expansion portion is elongated to increase the angle between the first connecting portion and the second connecting portion such that the second connecting portion pushes the rotating plate 201d or the storage box 202d to rotate.
  • the auxiliary opening structure 5d includes: a torsion spring 501d and a torsion spring shaft 502d, wherein the torsion spring shaft 502d is disposed on the torsion spring 501d, and one of the two arms of the torsion spring 501d is installed in front On the panel 101d, when the flip drawer is in the closed state, the other arm abuts the flip drawer. During the flipping of the drawer, the arm abutting the flip drawer pushes the flip drawer, and the two ends of the torsion spring shaft 502d Also mounted on the front panel.
  • the torsion spring 501d When the rotating plate 201d is in the closed state, the torsion spring 501d is in a compressed state, and during the opening process of the rotating plate 201d, the compressive force in the torsion spring 501d is released, and the rotating plate 201d or the storage box 202d is pushed to rotate, thereby assisting the locking structure. 4d will flip the drawer 2d open.
  • the torsion spring 501d may be a double torsion spring, or may be a torsion spring of other structures.
  • the rotating plate 201d When the rotating plate 201d is rotated and opened, in order to limit the angle of rotation of the rotating plate 201d, the rotation angle is prevented from being excessively large.
  • the rotating plate 201d is hinged to the front panel 101d by the angle limiting member 3d, and the inverted drawer 2d is opened.
  • the angle limiter 3d defines the angle of the rotating plate 201d from the front panel 101d.
  • the angle limiting member 3d comprises: at least two hinges hinged in sequence, one end of the at least two hinged hinges hinged to the rotating plate 201d, and the other end of the at least two hinged hinges
  • the front panel 101d is hinged.
  • the specific working process of the angle limiting member 3d when the rotating plate 201d is rotated and opened, the two connected hinge members also rotate, from the folded state to the unfolded state, and conversely, when the rotating plate 201d is rotated and closed. During the process, the two connected hinges are rotated from the unfolded state to the folded state.
  • the number of the specific hinges needs to be determined according to the angle at which the rotating plate 201d is rotated. If the angle at which the rotating plate 201d is allowed to rotate is large, the number of the hinges is large, and if the angle at which the rotating plate 201d is allowed to rotate is small, the hinges are The number is small.
  • the number of hinges 3d is two, respectively a first hinge 301d and a second hinge 302d, the first hinge 301d and the second hinge 302d are hinged, and the other end of the first hinge 301d, The other end of the second hinge 302d is rotatably coupled to the corresponding rotating plate 201d and the front panel 101d via pins 303d, respectively.
  • a sealing structure is provided at a position where the rotating plate 201d is in contact with the front panel 101d.
  • a sealing weather strip 2011d is provided at the edge of the rotating plate 201d, and is sealedly connected to the front panel 101d by the sealing strip 2011d.
  • the storage box 202d is provided with a pulling structure for pulling up the storage box 202d.
  • the pulling structure has a plurality of different structures.
  • the pulling structure can be provided with a pulling ring on the side of the storage box 202d, and the number of lifting rings is two, and the two pulling rings are symmetrically disposed in the storage box 202d.
  • the two sides of the storage box 202d are also symmetrically opened on the two sides of the storage box 202d.
  • a protective cover is attached to the lifting hole.
  • the storage box 202d may have a placement area therein, or may have a plurality of isolated placement areas. If there is only one placement area, the solid clothing or machine cleaning cloth can be stored in the placement area; if there are multiple placement areas, the solid clothing or machine cleaning cloth can be stored in the partial placement area, and some of the storage area memory A liquid detergent.
  • a detachable cover is arranged on the placement area, and a liquid outlet is provided at the bottom of the storage area where the detergent can be stored, and the liquid outlet passes through the extension tube and the washing machine.
  • the inner cylinder of the drum washing unit or the pulsator washing unit is connected, so that the detergent can be directly introduced into the inner cylinder, and if the residual detergent is accumulated in the storage area for storing the detergent, the storage box 202d can be directly taken out. Wash it.
  • the top of the box body 1e is further provided with an opening at an opening position of the corresponding pulsator washing unit, and the washing machine is further provided with a door at a corresponding position.
  • the cover 2e is rotatably coupled to the case 1e via a hinge 3e to open or close the door cover 2e, thereby enabling opening or closing of the washing space.
  • the washing machine further includes a locking unit 5e and a guiding unit 6e
  • the locking unit 5e includes a locking member 51e for locking the rotation of the door cover 2e
  • the hinge 3e is provided with a locking hole 301e for connecting the locking member 51e.
  • the driving member 52e and the guiding unit 6e are provided on the case 1e, and when the door cover 2e is closed, the lock The stopper 51e is driven by the driving member 52e and inserted into the locking hole 301e under the guidance of the guiding unit 6e to lock the door cover 2e to the casing 1e.
  • a three-cylinder washing machine includes a locking unit 5e and a guiding unit 6e.
  • the locking unit 5e includes a locking member 51e for locking the rotation of the door cover 2e and a movement for driving the locking member 51e.
  • the driving member 52e when the door cover 2e of the washing machine is closed and closed, the driving member 52e can drive the locking member 51e to move, so that the locking member 51e is inserted into the locking hole 301e under the guiding action of the guiding unit 6e, and is assembled and locked by the receiving member.
  • the locking member 51e in the hole 301e locks the hinge 3e, restricts the range of rotation or rotation of the hinge 3e, and the door cover 2e is not opened by mistake, thereby reducing safety hazards and improving the safety of the washing machine. 6e ensures that the locking member 51e can be accurately inserted into the locking hole 301e, and the locking member 51e has a high reliability of the locking function; when the washing machine is not in operation, the driving member 52e can drive the locking member 51e to move, so that the locking member 51e Disengaged from the hinge 3e, the door cover 2e can be freely opened or closed.
  • the locking member 51e can transmit the force to the casing 1e through the guiding unit 6e, guided by The unit 6e unlocks part of the torque that the single piece is subjected to, and reduces the damage of the locking unit 5e due to excessive force, thereby improving the working reliability of the washing machine.
  • the locking unit 5e may further include only the locking member 51e.
  • the locking member 51e When the door cover 2e is closed, the locking member 51e may be manually pushed to move, and the locking member 51e is locked with the hinge 3e.
  • the above-described driving member 52e may also be disposed on the door cover 2e.
  • the three-cylinder washing machine of some embodiments of the present application may be a pulsator washing machine, a drum washing machine, or a washing machine with a pulsator washing unit and a drum washing unit.
  • the upper portion of the casing 1e of the washing machine is provided with two pulsator washing units 11e
  • the lower portion of the casing 1e is provided with a drum washing unit 12e
  • the capacity of the two pulsator washing units 11e Smaller, the drum laundry unit 12e has a larger capacity, and the three laundry units can be used for washing adult underwear, socks, and other clothes, respectively, or for washing adult clothes and children's clothing, respectively, to achieve careful classification and care of different clothes, and more. health.
  • a door cover 2e is provided on each of the two pulsator washing units 11e. Since the casing of the washing machine is high, a push button switch 4e is installed at the front of each door cover 2e, and the rear portion of the door cover 2e passes through the hinge.
  • the lock unit 5e is disposed at a hinge 3e of each of the pulsator washing units 11e to prevent opening of the door cover 2e of any running pulsator washing unit 11e.
  • the locking unit 5e may be configured such that the driving member 52e can drive the locking member 51e to lock with the hinge 3e as long as the washing machine is in operation, or the locking unit 5e can also be set to Only when the washing machine is in operation, the driving member 52e can drive the locking member 51e to lock with the hinge 3e.
  • the driving member 52e cannot drive the locking member 51e and the hinge 3e lock regardless of whether the door cover 2e is closed or not. live.
  • the driving member 52e can drive the locking member 51e to rotate, and can also drive the locking member 51e to move.
  • the driving member 52e is configured to drive the locking member 51e to move in a direction parallel to the hinge shaft 31e, and the driving member 52e drives the locking member 51e to rotate, without the height direction of the washing machine housing 1e.
  • the larger locking member 51e is reserved for the movement space, so that the structure of the casing 1e of the washing machine is more compact.
  • the locking member 51e may be a locking pin.
  • the hinge 3e includes a hinge shaft 31e and a housing 32e fixedly coupled to the hinge shaft 31e.
  • the lower surface of the top plate of the housing 1e is provided with a mounting seat in which the hinge shaft 31e is mounted.
  • the housing 32e includes The connecting portion 321e, the rotating portion 322e, and the abutting portion 323e, which are sequentially connected, the connecting portion 321e and the abutting portion 323e are each a flat plate shape, the rotating portion 322e has a U-shaped cross section, and the door cover 2e is connected to the connecting portion 321e, and the hinge shaft 31e Located in the rotating portion 322e, when the door cover 2e is closed, the abutting portion 323e of the casing 32e comes into contact with the lower surface of the top plate of the casing 1e, and the door cover 2e is flush with the top plate of the casing.
  • the driving member 52e can also drive the locking member 51e to move under the abutting portion 323e of the housing 32e, and the locking member 51e can restrict the hinge shaft 31e from moving in the clockwise direction, so that the door Cover 2e cannot be opened.
  • the guiding unit 6e includes a guiding groove 61e and a guiding pin 62e.
  • the guiding groove 61e is disposed on the casing 1e, and the guiding groove 61e extends in the depth direction of the locking hole 301e, and the guiding pin 62e is fitted through the guiding Inside the groove 61e, one end of the guide pin 62e is connected to the lock member 51e.
  • the guiding unit 6e includes a guiding member fixed on the casing 1e.
  • the guiding member is provided with a guiding hole.
  • the locking member 51e is located in the guiding hole.
  • the guiding hole extends in the direction of the hinge shaft 31.
  • the extending direction is the same, and the locking member 51e is movable along the guiding hole by the driving member 52e. Further, the guide pin 62e is disposed non-coaxially with the lock member 51e, that is, the guide pin 62e and the lock member 51e are arranged side by side in the parallel direction.
  • the mating connection of the guiding groove 61e and the guiding pin 62e in the former solution can further increase the connecting force between the door cover 2e and the case 1e, and at the same time, when the door cover 2e is vigorously opened, the hinge 3e is used
  • the locking member 51e is connected, the locking member 51e is coupled to the driving member 52e, and the guiding groove 61e is engaged with the guiding pin 62e to transmit the force for opening the door cover 2e to the case 1e, thereby reducing the damage of the locking unit 5e.
  • the guide pin 62e and the locking member 51e may be connected by a connecting member such as the guiding pin 62e and the locking member 51e by bolting; or the guiding pin 62e may be integrally formed with the locking member 51e.
  • the guide pin 62e and the locking member 51e in some embodiments of the present application are integrally formed, are convenient to install, and have high structural strength.
  • the guide pin 62e and the locking member 51e may be made of a metal material or a non-metal material.
  • the guide pin 62e and the locking member 51e are made of a metal material, such as stainless steel, copper, etc., and have high structural strength, are not easily deformed, and are convenient for integral molding.
  • the driving member 52e may be an electromagnetic door lock.
  • the driving member 52e includes an electromagnet and a permanent magnet.
  • the electromagnet is fixed to the housing.
  • the permanent magnet is provided with a connecting member for fixing the locking member 51e.
  • the electromagnet is energized to cause the electromagnet and the permanent magnet to generate mutually repulsive forces. Under the action of the magnetic force, the permanent magnet moves toward the hinge 3e, so that the locking member 51e locks the hinge 3e; the current of the electromagnet is reversed.
  • the electromagnet and the permanent magnet are caused to mutually attract each other, and the permanent magnet moves in the direction of the hinge 3e under the action of the magnetic force, so that the lock member 51e is disengaged from the hinge 3e.
  • the driving member 52e may be a motor, and the locking member 51e and the driving member 52e are driven by the rack and pinion.
  • the drive member 52e in some embodiments of the present application employs an electromagnetic door lock.
  • the driving member 52e is fixed on the casing 1e by the mounting bracket 63e; the push-pull switch 4e can be connected with the locking unit 5e (such as an electromagnetic door lock), and after the push-pull switch 4e is closed, the closing signal can be sent to the electromagnetic door lock.
  • the electromagnetic door lock can drive the locking member 51e to move.
  • the upper portion of the casing 1e is provided with two pulsator washing units 11e, the lower portion of the casing 1e is provided with a washing machine of the drum washing unit 12e, and the door covers 2e of the two pulsator washing units 11e are all close to the casing 1e.
  • One side of the back plate is connected to the box body 1e through a hinge 3e, and the two hinges have a certain spacing therebetween.
  • An electromagnetic door lock is arranged between the two hinges.
  • the electromagnetic door lock includes a permanent magnet and two electromagnets. The magnet is located between the two electromagnets, and the permanent magnet is fixed on the casing 1e.
  • Both of the electromagnets are slidably connected to the casing 1e, and a locking unit 5e is connected to one side of the two electromagnets near the hinge 3e.
  • Each of the locking units 5e is connected to a guiding unit 6e, and each of the door covers 2e can lock the door cover 2e and the casing 1e by controlling the current on and off of the corresponding electromagnet and the direction of the current on the electromagnet. Or disengaged, the two door covers 2e can be opened independently, and only one electromagnetic door lock is used, and the structure is compact.
  • the washing machine is provided with a switch button, and a lock button can be further provided on the washing machine, and the lock button is used to control the lock unit 5e to unlock the hinge 3e.
  • the control button is used to stop the washing machine, and the locking unit 5e unlocks the hinge 3e.
  • the control button can also be used to turn on the washing machine, that is, press the control button once, the washing machine starts to run, and the locking unit 5e The hinge 3e is locked; when the washing machine is in the running state, the control button is pressed again, the washing machine stops running, and the lock unit 5e unlocks the hinge 3e.
  • the door cover 2e is opened after draining to the set safe water level; if the water temperature in the washing tub in the washing machine is too high, the washing bucket is first controlled. The cold water is introduced into the water to lower the temperature of the water in the washing tub to a set safe temperature, and then the door cover 2e is opened.
  • the three-cylinder washing machine further includes a resetting member 4f and an angular limiting structure (not shown), which are reset when the door is unlocked.
  • the restoring force of the piece 4f can drive the door cover 2f to open, and the angular limit structure can define the opening angle of the door cover 2f.
  • the three-cylinder washing machine provided by some embodiments of the present application, when the door needs to be closed, manually presses the door cover 2f to overcome the restoring force of the resetting member 4f; when the door needs to be opened, the door cover 2f is bounced by the restoring force of the resetting member 4f. Open, making the opening operation saves effort.
  • the angle limiting structure can define the opening angle of the door cover 2f, so that the angle of opening the door cover 2f is uniform every time, and no manual adjustment is needed.
  • the reset member 4f may be a torsion spring disposed on the hinge shaft 21f of the door cover 2f, and the torsion spring includes a first elastic arm 41f and a second elastic arm 42f, first The elastic arm 41f abuts against the door cover 2f, and the second elastic arm 42f abuts against the casing 1f.
  • the first elastic arm 41f and the second elastic arm 42f are close to each other to compress the energy storage.
  • the lock member 3f is unlocked, the restoring force of the torsion spring drives the first elastic arm 41f to open in a direction away from the second elastic arm 42f.
  • the torsion spring When the door cover 2f is in the closed state, the torsion spring is in a compressed energy storage state, the door cover 2f tends to open, and has an opening force; when the unlocking button is manually operated to unlock the door lock, the door cover 2f is restored in the torsion spring. Under the action, the reverse rotation is started until the door cover 2f is balanced with the torsion spring restoring force, and the door cover 2f is hovered at the position.
  • the stop angle can be adjusted by adjusting the torsion spring force to reach the required angle; if the torsion spring force is large enough, the door cover 2f can be fully opened at a time (ie, the door cover 2f is flipped over 90°).
  • the door cover 2f can be manually used to continue to flip the door cover 2f backward until the door cover 2f is flipped over 90°, so that the door cover 2f is under gravity whereabouts.
  • the implementation of the angular limiting structure is as shown in FIG. 29, and the angular limiting structure includes a limiting arm 5f.
  • One end of the limiting arm 5f is fixed on the housing 1f, and the other end extends to the first
  • the opening angle of the door cover 2f can be defined by defining the opening angle of the first elastic arm 41f, so that the opening angle of the door cover 2f is uniform each time, and the structure is simple and easy to implement.
  • a relief hole is formed in the door cover 2f corresponding to the position of the limit arm 5f.
  • the corner limiting structure includes a first limiting portion fixed to the door cover 2f and a second limiting portion fixed to the casing 1f, when the door cover 2f is opened to the preset At the angle, the first limiting portion and the second limiting portion are engaged with each other to prevent the door cover 2f from rotating relative to the housing 1f.
  • the opening angle of the door cover 2f can be precisely defined by the snap-fit structure, so that the opening angle of the door cover 2f is uniform each time, and the structure can make the opening position of the door cover 2f more precise.
  • the hinged end of the door cover 2f is provided with a hinge connector 22f
  • the hinge connector 22f is provided with a sleeve 23f
  • the sleeve 23f is sleeved on the hinge of the door cover 2f.
  • the first limiting portion is a card slot 6f disposed on the outer surface of the sleeve 23f
  • the second limiting portion is a limiting rod 7f.
  • One end of the limiting rod 7f is fixed to the housing 1f, and the other end is sleeved.
  • the limit rod 7f can use a spring wire which can be pressed against the outer surface of the sleeve 23f by a screw. This structure has an accurate limit and a small footprint.
  • a reinforcing plate 8f is provided at a position where the casing 1f abuts against the second elastic arm 42f, and the second elastic arm 42f abuts against the reinforcing plate 8f.
  • the reinforcing plate 8f can be made of a metal material.
  • the reed switch 11f may be disposed on the casing 1f, and the door cover 2f A magnet 24f is provided thereon.
  • the reed switch 11f can send a signal to the control system of the washing machine to stop the operation of the pulsator. Therefore, when the door cover 2f is opened by an erroneous operation, the control system can stop the pulsator operation in time to ensure the safe operation of the washing machine.
  • the locking member 3f may be an electromagnetic lock or a mechanical lock.
  • the locking member 3f is a push-type door lock switch.
  • the push-type door lock switch is a mechanical lock. It can be unlocked by simply pressing the push button on the operation panel during operation. The operation is simple, the structure is simple, the cost is low, and the reliability is high.
  • a damper 9f is added at the hinge shaft 21f of the door cover 2f for slowing the door opening speed.
  • the damper 9f can select a one-way damper or a two-way damper.
  • the one-way damping is suitable when the torsion spring force is relatively small, the door cover 2f has a slow opening speed, the automatic opening angle is small, and the damping effect is only used in the closing process, and the optimal closing is performed. Process speed to enhance the user experience.
  • the two-way damping effect is better, and it can play a buffering effect during the opening and closing process, which can greatly enhance the experience.
  • a drum washing unit 100f is disposed in the box body 1f, and two pulsator washing units are arranged side by side on the drum washing unit 100f. 200f.
  • Each of the pulsator washing units is separately provided with a door cover 2f.
  • the angle ⁇ 0 at which the door cover 2f is located is the hovering critical point.
  • the torsion spring torque and the system resistance are different, and ⁇ 0 has a certain range of fluctuations, and it is difficult to ensure complete consistency. Therefore, in order to ensure that the opening angles of the two door covers 2f are uniform, as shown in FIG. 37, the limiting angle ⁇ 1 of the angular limiting structure can be set to be smaller than ⁇ 0, that is, at the limiting angle ⁇ 1, the torsion spring also has a part of the torque reserve.
  • the door cover 2f has a tendency to flip upwards, thereby eliminating the above error and ensuring that the opening angles of the two door covers 2f are uniform.
  • the reinforcing members on the housing 1f corresponding to the two pulsator cans 200f can be formed as a unitary structure, and the shape of the limiting arm 5f on the reinforcing member can be accurately ensured by one press forming. Consistent to ensure that the opening angles of the two door covers 2f are the same.
  • the door cover corresponding to the pulsator laundry unit includes a door cover body 1g, and the lower surface of the door cover body 1g is connected to the bottom case 2g protruding downward, and the bottom case 2g The edge of the rim is used to seal with the door seal on the washing machine's pulsator washing unit.
  • the edge of the bottom case 2g can be sealingly fitted with the door seal one week, thereby making the door cover tightly closed when closed, thereby preventing the pulsator washing unit from splashing and overflowing outward.
  • the door cover body 1g is provided as a hollow frame structure, and the cover plate 3g is fixedly attached to the upper surface of the door cover body 1g.
  • the weight of the door cover body 1g can be reduced, and the operation of the switch door can be made more labor-saving.
  • the bottom case 2g and the cover plate 3g are each made of a transparent material, and the cover plate 3g is positioned up and down with the bottom case 2g.
  • the user can observe the laundry in the pulsator can be observed in real time from the cover 3g.
  • the fixing manner between the cover plate 3g and the door cover body 1g can be variously selected.
  • the cover plate 3g can be bonded and fixed to the door cover body 1g by double-sided tape, and since the double-sided tape is a flexible member, the cover plate is No rigidity is transmitted between the 3g and the door cover body 1g.
  • a glue groove 4g is formed in the edge of the opening, and the glue groove 4g is provided with a hot-melt cold-setting glue, and the cover plate is passed through the glue in the glue groove 4g.
  • 3g is bonded to the door cover body 1g.
  • the pressure-retaining tool After bonding, the pressure-retaining tool is pressed for a certain period of time to correct the problem of door cover warpage and corner flash seam.
  • the door cover body 1g and the cover plate 3g After the hot melt adhesive is cooled, the door cover body 1g and the cover plate 3g can be The bond is a whole and the strength can be transmitted between the two.
  • This connection method has a large improvement on the overall strength of the door cover, and at the same time, the effect of improving the warpage deformation and the corner flash seam is obvious.
  • the glue groove 4g may also be disposed on the lower surface edge of the cover plate 3g, and the glue groove 4g may be disposed one week at the edge of the opening and the lower surface edge of the cover plate 3g, and the two glue grooves 4g may follow the diameter.
  • the misalignment may also be on the same circumference.
  • the bonding area is larger and the structure is more stable.
  • the two glue grooves 4g are opposite each other. The combined bonding area is small, which can increase the visible space.
  • the cover plate 3g can be made of acrylic material, the acrylic material has good flatness and good appearance effect.
  • the cover plate 3g can also be made of tempered glass, and the strength and rigidity of the tempered glass are strong.
  • the cover plate 3g may be formed by injection molding or sheet metal processing. When the cover plate 3g is injection molded, it is convenient to form the glue groove 4g on the cover plate 3g.
  • the door cover body 1g can be the same as or different from the material of the bottom case 2g. When the materials are the same, the whole can be integrally formed. When the materials are different, the components can be assembled separately and assembled. As shown in FIGS. 39 and 40, in order to facilitate assembly of the door cover body 1g and the bottom case 2g, the door cover body 1g includes an inner case 11g and an outer case 12g, the inner case 11g is located inside the outer case 12g, and the inner case 11g and the outer case 12g are vertical Connected in the straight direction, the rim of the bottom case 2g extends outward to form a flange 21g, and the flange 21g is engaged between the inner casing 11g and the outer casing 12g. Thereby, it is possible to facilitate assembly of the door cover body 1g and the bottom case 2g.
  • the glue groove 4g can be disposed on the inner casing 11g or the outer casing 12g when the rubber tank 4g is provided, or the glue tank can be used.
  • a part of 4g is provided on the inner casing 11g, and the other part is provided on the outer casing 12g.
  • the upper surface of the inner casing 11g is formed with a first sinking table 41g
  • the upper surface of the outer casing 12g forms a second sinking table 42g
  • the first sinking table 41g and the second sinking table 42g may be The L-shaped sunken table is oppositely disposed.
  • the glue in the glue tank 4g can integrally connect the inner casing 11g, the outer casing 12g, and the cover plate 3g, thereby enhancing the overall strength.
  • the overall width of the glue groove 4g in the radial direction is not less than 10 mm.
  • the inner casing 11g and the outer casing 12g may be connected by a screw 14g.
  • a screw column may be disposed in the outer casing 12g, a through hole may be formed in the inner casing 11g, and then the screw 14g may be up to After passing through the through hole, it is connected with the screw column. Since the handle and the anti-shrinkage structure are required in the corner region of the door cover body 1g, the structure space is limited, and it is inconvenient to provide a thick screw column. Therefore, the corner portions of the inner casing 11g and the outer casing 12g can be welded. Process welding.
  • the corner portion of the outer casing 12g is formed with a welding post 121g
  • the corner portion of the inner casing 11g is formed with a connecting hole 111g corresponding to the position of the welding post 121g, and the welding post 121g is connected through the connection.
  • the hole 111g is disposed and fused with the connection hole 111g; or the corner portion of the inner casing 11g is formed with a welded post 121g, and the corner portion of the outer casing 12g is formed with a connection hole 111g at a position corresponding to the deposition post 121g, and the fusion post 121g passes through the connection hole 111g is disposed and fused with the connection hole 111g.
  • the pulsator washing unit 3h is connected with the air box 4h, and the first end 41h of the air box 4h and the bottom of the pulsator washing unit 3h are soft.
  • the tube 5h is connected, and the second end 42h of the air box 4h is connected with a water level sensor (not shown), and the air box 4h is fixed with respect to the box 1h.
  • the air box 4h and the pulsator laundry unit are axially disposed, and the air box is connected to the bottom of the barrel of the pulsator laundry unit through a hose, and the remaining positions are sealed.
  • the height of the air box is the same as the height of the barrel.
  • the air box 4h Since the first end 41h of the air box 4h communicates with the bottom of the pulsator washing unit 3h through the hose 5h, the air box 4h is fixed with respect to the case 1h. Therefore, the hose 5h can isolate the vibration of the pulsator washing unit 3h, so that the vibration of the pulsator washing unit 3h cannot be transmitted to the air box 4h, thereby avoiding the loss of air in the air box 4h due to vibration, since the water level sensor is The water level in the pulsator washing unit 3h is determined according to the change of the air pressure in the air box 4h, so that the detection of the water level sensor can be made accurate, thereby ensuring that the water level in the pulsator washing unit 3h is normal.
  • the hose 5h may be a tube capable of producing a flexible deformation such as an elastic tube or a bellows.
  • the hose 5h does not transmit vibration or only transmits very little vibration.
  • the hose 5h may be a separately provided tube, and the drain of the washing machine may also be used. Since the drain pipe of the washing machine is usually a bellows, it can block vibration. The use of the drain pipe of the washing machine can save space and the structure of the washing machine is less modified.
  • connection of the air box 4h to the drain pipe may be a direct connection or an indirect connection.
  • the first end 41h of the air box 4h can be directly connected to the drain pipe, and the drain pipe can be fixed to the case 1h.
  • the air box 4h can be fixed with respect to the casing 1h, and the vibration of the pulsator washing unit 3h is isolated by the drain pipe.
  • the air box 4h can be fixed to the case 1h.
  • the drain pipe may be fixed to the casing 1h or may not be fixed to the casing 1h.
  • the air box 4h and the box are optionally
  • the body 1h is separated by the isolation layer, whereby even if the air box 4h is slightly vibrated, the isolation layer can act as a buffer to prevent relative friction between the air box 4h and the box 1h from damaging the air box 4h. .
  • the isolation layer can be a felt, a rubber mat, a sponge, or the like.
  • the air box 4h can be screwed to the box 1h, bonded by glue or tied by a strap, in order to facilitate maintenance and replacement of the air box 4h, A detachable connection is preferred.
  • a drain valve 6h is connected to one end of the drain pipe away from the pulsator washing unit 3h. Since the drain pipe is a hose 5h, in order to fix the air box 4h firmly on the hose 5h, optionally, The first end 41h of the air box 4h is connected to a portion of the drain pipe close to the drain valve 6h, and since the portion of the drain pipe close to the drain valve 6h is supported by the drain valve 6h, the stability of other portions of the drain pipe is better, so Connecting the air box 4h to the portion of the drain pipe close to the drain valve 6h makes the fixing of the air box 4h stronger and less likely to be shaken.
  • connection of the air box 4h to the drain pipe can also be an indirect connection.
  • the first end 41h of the air box 4h may be coupled to the water inlet side of the drain valve 6h, and the drain valve 6h may be fixed to the tank 1h. Thereby, the air box 4h is connected to the drain pipe through the drain valve 6h, so that the fixing of the air box 4h is more stable.
  • a three-cylinder washing machine provided by some embodiments of the present application includes a drum washing unit 2h and two pulsator washing units 3h disposed side by side on the drum washing unit 2h, and the bottoms of the two pulsating washing units 3h.
  • An air box 4h is respectively connected through the hose 5h, and a water level sensor is respectively connected to the second end 42h of the two air boxes 4h, and both air boxes 4h are fixed with respect to the box 1h. Therefore, it can be applied to a three-cylinder or three-cylinder washing machine, and the classification of the laundry is ensured while the water level in the pulsator washing unit is normal within 3 hours.
  • the three-cylinder washing machine provided by some embodiments of the present application further includes a touch panel assembly mounted on the cabinet.
  • the cabinet of the washing machine includes a top panel 11i at a position corresponding to the opening position of the pulsator laundry unit and a front panel 12i at a position corresponding to the drum laundry unit.
  • the touch panel assembly can be disposed on a top panel, and in some embodiments the touch panel assembly can be disposed on the front panel.
  • the top panel and the front panel are connected by an inclined surface, and the touch panel assembly can be disposed on the inclined surface or the touch panel constitutes the inclined surface.
  • the touch panel 100i, the astigmatism film 300i, the light guiding component 200i, and the control board 600i are sequentially disposed. specific,
  • the touch panel 100i is provided with a touch button 400i.
  • the touch button 400i is formed with a light transmissive transparent area 410i. When the light is transmitted from the light transmitting area 410i, the user is prompted whether the touch is successful when the button is touched.
  • the light guiding assembly 200i includes a light guiding body 210i for feeding back light emitted from the LED lamp 700i provided on the control board 600i to the light transmitting area 410i.
  • One side of the light guiding component 200i abuts against the back surface of the touch button 400i to avoid light leakage in the gap, and affects the light transmitting effect of the light transmitting area 410i.
  • the shape of the outermost edge of the light transmitting region 410i matches the shape of the light guiding body 210i to improve the light transmitting effect of the light transmitting region 410i.
  • the astigmatism film 300i is disposed between the touch button 400i and the light guiding component 200i, and further astigmatizes the light that is emitted from the light guiding body 210i by using the astigmatism characteristic of the astigmatism film 300i, so that the light is more uniformly fed back to the light transmitting area 410i.
  • the light transmitted from the light transmitting area 410i is more uniform, the lighting effect is good, and the product aesthetics is improved.
  • the astigmatism film 300i may be bonded to the back surface of the touch button 400i or may be bonded to the upper surface of the light guide unit 200i.
  • the control board 600i is located on the other side of the light guiding assembly 200i opposite to the touch panel 100i.
  • the control board 600i is provided with a plurality of LED lamps 700i uniformly distributed along the shape of the light guiding body 210i, and the LED lamps 700i are opposite to the light guiding body 210i. In this embodiment, the number of LED lamps 700i is four.
  • the conductive member transmits pressure to the control panel 600i, and the control panel 600i controls the LED lamp 700i to be turned on.
  • the lights of the plurality of LED lamps 700i first pass through the light guiding body 210i, and then astigmatize through the astigmatism film 300i.
  • the light transmitted from the light transmitting area 410i is more uniform and the lighting effect is better, thereby improving the aesthetic appearance of the product.
  • the touch panel assembly further includes a support member 500i.
  • the touch panel 100i is disposed on one side of the support member 500i.
  • the control panel 600i is located on the other side of the support member 500i.
  • the light guide assembly 200i is fixed on the support member 500i.
  • the support member 500i functions as a support for the touch panel 100i, and also functions to securely connect the light guide assembly 200i.
  • the control board 600i is disposed on the support member 500i.
  • the support member 500i is provided with a latching portion 540i. The two ends of the control board 600i are mounted on the latching portion 540i, and the structure is simple and convenient for installation.
  • the light guiding assembly 200i includes a light guiding body 210i and a connecting portion 220i disposed on both sides of the light guiding body 210i.
  • the supporting member 500i is provided with a card slot 510i matched with the connecting portion 220i.
  • the connecting portion 220i is engaged with the card slot 510i, and the connecting structure is simple and easy to install.
  • the free end of the connecting portion 220i has a hook 221i facing away from the light guiding body 210i, and the hook 221i is engaged with the card slot 510i.
  • the light guiding body 210i includes a hollow light guiding column 211i facing the LED lamp 700i and a circumferential light guiding plate 212i connected to the light guiding column 211i.
  • the light guiding plate 212i is disposed at one end of the light guiding column 211i, and the connecting portion 220i is disposed on the light guiding plate 212i.
  • the support member 500i is provided with a through hole 520i matching the light guide post 211i.
  • the light guide post 211i is disposed in the through hole 520i, and the light guide plate 212i is disposed on the upper edge of the through hole 520i.
  • the upper edge of the through hole 520i is provided with a groove 531i along the circumferential direction thereof, and the light guiding plate 212i is correspondingly provided with a protrusion. 2121i, the groove 531i is engaged with the protrusion 2121i.
  • the cooperation of the protrusion 2121i and the groove 531i also serves as a pre-positioning position for installation, which is convenient for installation.
  • the upper edge of the through hole 520i is provided with a circumferential boss 530i, and the groove 531i is evenly distributed on the boss 530i.
  • the number of the grooves 531i in this embodiment is four.
  • the light transmitting region 410i includes a circumferential bright circle region 411i and a power symbol region 412i provided inside the circumferential bright circle region 411i.
  • the shape of the circumferential bright circle area 411i matches the shape of the light guide plate 212i and is close to the light guide column 211i.
  • the light guide column 211i is a hollow cylinder, and the light guide plate 212i has a hollow annular structure.
  • the circumferential bright circle area 411i is the outermost edge of the light transmission area 410i, and its shape is matched with the shape of the light guide plate 212i, that is, the circumferential bright circle area 411i is an annular light transmission area, and the annular light transmission area is close to
  • the light guiding column 211i feeds the light that has passed through the light guiding column 211i and the inside thereof as much as possible to the annular light transmitting area through the light guiding plate 212i, thereby improving the light transmitting effect.
  • the power symbol area 412i is opposite to the hollow area of the light guide column 211i, and a part of the light emitted by the LED light 700i is fed back to the circumferential bright circle area 411i through the light guide column 211i, the light guide plate 212i, and the light diffusing film 300i, and a part of the light passing through the inner hollow area of the light guide column 211i.
  • the astigmatism film 300i is directly fed back to the power symbol area 412i.
  • the power symbol area 412i is optional. Whether the power symbol item 412i is set may be selected according to the needs of the user, and the second is set according to the structure of the conductive member.
  • the spring 800i is located in the inner hollow portion of the light guiding rod 211i, one end of the spring 800i is connected to the touch button 400i, and the other end of the spring 800i is connected to the control board 600i.
  • the spring 800i is stressed and the force is fed back to the control board 600i, and the control board 600i controls the opening of the LED lamp 700i.
  • the spring-type conductive member has a simple and reliable structure and low cost.
  • the middle area of the touch button 400i cannot be made into a light transmitting effect, so that the light transmitting area 410i of the touch button can only set the circumferential bright circle area 411i, and the power symbol cannot be set. Area 412i.
  • the touch film is bonded to the back surface of the touch button 400i.
  • the touch film is stressed and the force is fed back to the control board 600i, and the control board 600i controls the opening of the LED lamp 700i.
  • the touch film does not block the intermediate area of the touch button 400i, so the power symbol area 412i can be set, and the display effect of the touch button 400i is better.

Abstract

L'invention concerne un lave-linge à trois cuves, comprenant une armoire dans laquelle une unité de lavage à tambour et une unité de lavage à pulsateur sont prévues, l'unité de lavage à tambour et l'unité de lavage à pulsateur étant montées à l'intérieur de l'armoire au moyen d'un composant de fixation, et l'unité de lavage à pulsateur étant située au-dessus de l'unité de lavage à tambour. Dans la présente invention, l'unité de lavage à tambour et l'unité de lavage à pulsateur sont agencées dans l'armoire du lave-linge à plusieurs cuves, satisfaisant ainsi les besoins d'un utilisateur pour un lavage cloisonné pendant l'utilisation.
PCT/CN2019/076080 2018-02-27 2019-02-25 Lave-linge à trois cuves WO2019165945A1 (fr)

Applications Claiming Priority (18)

Application Number Priority Date Filing Date Title
CN201810167237.7A CN108286166B (zh) 2018-02-27 2018-02-27 一种洗衣机
CN201810167237.7 2018-02-27
CN201810171291.9A CN108149447A (zh) 2018-02-28 2018-02-28 一种波轮洗衣机门盖及洗衣机
CN201810171291.9 2018-02-28
CN201810440721.2A CN108532212A (zh) 2018-05-09 2018-05-09 一种多桶洗衣机
CN201810440721.2 2018-05-09
CN201810610454.9A CN108560205A (zh) 2018-06-13 2018-06-13 一种滚筒式洗衣机的箱体结构及洗衣机
CN201810610454.9 2018-06-13
CN201811557530.0 2018-12-19
CN201811557530.0A CN109706705B (zh) 2018-12-19 2018-12-19 一种洗衣机
CN201811577812.7 2018-12-20
CN201811577812.7A CN109402939B (zh) 2018-12-20 2018-12-20 一种多筒洗衣机
CN201811573506.6A CN109706703B (zh) 2018-12-21 2018-12-21 一种洗衣机
CN201811573506.6 2018-12-21
CN201822210460.3U CN209368545U (zh) 2018-12-27 2018-12-27 触控面板组件及洗衣机
CN201822210460.3 2018-12-27
CN201910008802.X 2019-01-04
CN201910008802.XA CN109629169A (zh) 2019-01-04 2019-01-04 一种多筒洗衣机

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CN112609396A (zh) * 2020-12-14 2021-04-06 南京创维家用电器有限公司 一种复式洗衣机

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CN104652080A (zh) * 2013-11-21 2015-05-27 东部大宇电子株式会社 具有双桶的洗衣机
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CN106637802A (zh) * 2016-08-24 2017-05-10 海信(山东)冰箱有限公司 一种三筒洗衣机

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CN112609396A (zh) * 2020-12-14 2021-04-06 南京创维家用电器有限公司 一种复式洗衣机

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