CN114263013A - Washing machine - Google Patents

Abstract

The present application provides a washing machine, comprising: a frame body; at least two cylinders arranged in the frame; each vibration damping assembly is connected with one cylinder body and the frame body and is used for supporting the cylinder body and damping vibration generated by the cylinder body; and the damping feet are connected with the frame body and are used for supporting the frame body and damping vibration generated by the frame body. The vibration reduction assembly for supporting and reducing vibration of the barrel and the damping pins connected with the frame are arranged, so that part of vibration of the barrel is reduced by the vibration reduction assembly, and part of vibration can be transmitted to the damping pins through the frame to be reduced.

Description

Washing machine

Technical Field

The application belongs to the technical field of washing machines, and particularly relates to a washing machine.

Background

With the continuous development of the washing machine technology, a double-drum washing machine capable of classifying and washing clothes is popular, that is, one washing machine has a function of washing different clothes.

However, the conventional double-drum washing machine has large vibration amplitude, which affects the use experience of users.

Disclosure of Invention

The embodiment of the application provides a washing machine, which aims to solve the problem that the existing double-drum washing machine is large in vibration amplitude.

The embodiment of the application provides a washing machine, includes:

a frame body;

at least two cylinders arranged in the frame;

each vibration reduction assembly is connected with one cylinder body and the frame body and is used for supporting the cylinder body and reducing vibration generated by the cylinder body;

and the damping feet are connected with the frame body and used for supporting the frame body and damping vibration generated by the frame body.

Optionally, the washing machine includes:

the first cylinder is arranged in the frame body;

the second cylinder is arranged in the frame and is arranged side by side with the first cylinder;

the first vibration reduction assembly is connected with the first cylinder and the frame body and used for supporting the first cylinder and reducing vibration generated by the first cylinder;

and the second vibration reduction assembly is connected with the second cylinder and the frame body and is used for supporting the second cylinder and reducing vibration generated by the second cylinder.

Optionally, the frame body includes a bottom frame, a top frame disposed opposite to the bottom frame, and a middle frame disposed between the bottom frame and the top frame, the bottom frame includes a plurality of bottom cross beams connected to each other, the top frame includes a plurality of top cross beams connected to each other, and the middle frame includes a plurality of middle cross beams connected to each other;

the first vibration damping assembly includes:

one end of the first damper is connected with the bottom cross beam, and the other end of the first damper is connected with the first cylinder;

one end of the first elastic piece is connected with the middle cross beam, and the other end of the first elastic piece is connected with the first cylinder;

the second vibration damping assembly includes:

one end of the second shock absorber is connected with the middle cross beam, and the other end of the second shock absorber is connected with the second cylinder;

one end of the second elastic piece is connected with the top cross beam, and the other end of the second elastic piece is connected with the second cylinder.

Optionally, the first vibration damping assembly includes two first vibration dampers and two first elastic members, and the mounting heights of the two first vibration dampers in the horizontal direction are the same and/or the mounting heights of the two first elastic members in the horizontal direction are the same.

Optionally, the second vibration damping assembly includes two second vibration dampers and two second elastic members, and the mounting heights of the two second vibration dampers in the horizontal direction are the same and/or the mounting heights of the two second elastic members in the horizontal direction are the same.

Optionally, the top frame includes first top crossbeam and the second top crossbeam that sets up relatively, first top crossbeam with the second top crossbeam all is provided with the reinforcement, the reinforcement set up in the junction of second elastic component and top crossbeam, the reinforcement is used for increasing the rigidity of first top crossbeam with the second top crossbeam.

Optionally, the top frame is still including connecting first top crossbeam with the third top crossbeam of second top crossbeam, the framework is including connecting the center with a plurality of perpendicular roof beams of top frame, a plurality of perpendicular roof beams including respectively with first perpendicular roof beam and the perpendicular roof beam of second that the both ends of third top crossbeam are connected, first perpendicular roof beam with the junction of third top crossbeam is provided with the reinforcing plate just the second is perpendicular the roof beam with the junction of third top crossbeam is provided with the reinforcing plate.

Optionally, the first vertical beam is riveted with the third top cross beam, and the second vertical beam is riveted with the third top cross beam.

Optionally, a joint of the first damper and the frame body is made of a rubber material and/or a joint of the second damper and the frame body is made of a rubber material.

Optionally, the damping foot is made of a rubber material.

In the washing machine that this application embodiment provided, support and subdue the damping subassembly of vibration and the damping foot of being connected with the framework to the barrel through the setting for partly by damping subassembly subduct of vibration of barrel, partly can transmit the damping foot through the framework and subduct, the problem that current binocular washing machine vibration range is big has been improved in the cooperation of damping subassembly and damping foot, makes washing machine vibration range little, and small in noise has promoted user's use and has experienced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the application, and that other drawings can be derived from these drawings by a person skilled in the art without inventive effort.

For a more complete understanding of the present application and its advantages, reference is now made to the following descriptions taken in conjunction with the accompanying drawings. Wherein like reference numerals refer to like parts in the following description.

Fig. 1 is a schematic structural diagram of a washing machine according to a first angle provided in an embodiment of the present application.

Fig. 2 is a second-angle structural view of the washing machine shown in fig. 1.

Fig. 3 is a schematic structural view of a frame body in the washing machine shown in fig. 1.

Fig. 4 is a schematic structural view of a drum and a vibration damping assembly in the washing machine shown in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides a washing machine, which aims to solve the problem that the existing double-drum washing machine is large in vibration amplitude.

The washing machine of the embodiment of the application can comprise a frame body, at least two cylinder bodies, at least two vibration reduction assemblies and damping feet. The barrel sets up in the framework, and barrel and framework are connected to each damping subassembly. The vibration reduction assembly is used for supporting the cylinder and reducing vibration generated by the cylinder. The damping foot is connected with the frame body, and the damping foot is used for supporting the frame body and subducting the vibration that it produced. The vibration reduction assembly for supporting and reducing vibration of the barrel and the damping pins connected with the frame are arranged, so that part of vibration of the barrel is reduced by the vibration reduction assembly, and part of vibration can be transmitted to the damping pins through the frame to be reduced.

For example, please refer to fig. 1, and fig. 1 is a schematic structural diagram of a washing machine according to an embodiment of the present application. The embodiment of the application provides a washing machine 1, and the washing machine 1 comprises a frame 10, a first cylinder 20, a second cylinder 30, a first vibration damping assembly 40, a second vibration damping assembly 50 and a damping pin 60.

The first cylinder 20 and the second cylinder 30 are both disposed in the frame 10, and the first cylinder 20 and the second cylinder 30 are disposed side by side. The first barrel 20 can be arranged below the second barrel 30, so that the arrangement of the two barrels can save more floor space of the washing machine 1 than the arrangement of the two barrels in parallel, and the space utilization rate of the washing machine 1 is improved.

The first vibration damping member 40 connects the first cylinder 20 and the frame 10, and the first vibration damping member 40 is configured to support the first cylinder 20 and damp vibrations generated thereby. The second vibration damping member 50 connects the second cylinder 30 and the frame 10, and the second vibration damping member 50 is used for supporting the second cylinder 30 and damping vibration generated by the second cylinder 30.

The damping leg 60 is connected to the frame 10, and the damping leg 60 supports the frame 10 and damps vibration generated by the frame 10. The damping leg 60 may be disposed at the bottom of the frame body 10, that is, the frame body 10 is in contact with the ground through the damping leg 60. The number of the damping feet 60 can be set according to the requirement, for example, the washing machine 1 can include 4 damping feet 60, and the 4 damping feet 60 are symmetrically distributed at the four opposite corners of the bottom of the frame 10, so that the washing machine 1 is stable when standing. The damping pin 60 and the frame 10 can be connected by screws, but the connection between the damping pin 60 and the frame 10 can also have other forms, which are not illustrated here. The damping foot 60 can be made of rubber materials, and the damping foot 60 with a high damping specification can increase the friction force between the damping foot 60 and the ground when the frame body 10 vibrates, so that the damping foot 60 does not slide or slides for a small distance relative to the ground, thereby reducing the noise generated when the damping foot 60 slides relative to the ground, and correspondingly improving the use experience of a user.

The first vibration reduction assembly 40 for supporting and reducing the vibration of the first barrel 20, the second vibration reduction assembly 50 for supporting and reducing the vibration of the second barrel 30 and the damping feet 60 for supporting and reducing the vibration of the frame 10 are arranged, so that part of the vibration of the first barrel 20 is reduced by the first vibration reduction assembly 40, part of the vibration is transmitted to the damping feet 60 through the frame 10 to be reduced, part of the vibration of the second barrel 30 is reduced by the second vibration reduction assembly 50, and part of the vibration is transmitted to the damping feet 60 through the frame 10 to be reduced, the first barrel 20 and the second barrel 30 are not interfered with each other, the vibration amplitude of the washing machine 1 is small due to the matching of the vibration reduction assemblies and the damping feet 60, the noise is small, the user experience is improved, and the problem that the vibration amplitude of the existing double-drum washing machine is large is solved.

For example, please refer to fig. 2 and fig. 3 in combination with fig. 1, fig. 2 is a structural schematic diagram of a second angle of the washing machine shown in fig. 1, and fig. 3 is a structural schematic diagram of a frame body in the washing machine shown in fig. 1. The frame body 10 may include a bottom frame 11, a top frame 12, and a middle frame 13. The bottom frame 11 may be disposed at the bottom of the washing machine 1, and the top frame 12 may be disposed at the top of the washing machine 1 opposite to the bottom frame 11. The middle frame 13 may be disposed between the bottom frame 11 and the top frame 12, or the middle frame 13 is sandwiched between the first barrel 20 and the second barrel 30. The base frame 11 may include a plurality of bottom beams connected to each other, for example, the shape of the base frame 11 may be a square hollow frame structure, and the number of the bottom beams may be 4, and the 4 bottom beams are vertically connected in turn to form the base frame 11. Of course, the shape of the bottom frame 11 may have other shapes, and the number of the bottom beams may also have other numbers, which are only illustrated herein by way of example and should not be construed as limiting the shape of the bottom frame 11 or the number of the bottom beams. Correspondingly, the top frame 12 may also include a plurality of top beams connected to each other, and the number of the top beams may be set according to the number of the bottom beams of the bottom frame 11. For example, the top frame 12 may be a square hollow frame structure, and the number of top beams may be 4, and the 4 top beams are vertically connected in turn to form the top frame 12. The middle frame 13 may be disposed with reference to the bottom frame 11 and the top frame 12. For example, the middle frame 13 includes a plurality of middle cross beams connected to each other, the number of the middle cross beams may be 4, and the 4 middle cross beams surround to form a square hollow frame structure.

Referring to fig. 4 in conjunction with fig. 1 to 3, fig. 4 is a schematic structural view of a drum and a damping assembly in the washing machine shown in fig. 1. The first vibration damper assembly 40 may include a first vibration damper 41 and a first elastic member 42. One end of the first damper 41 is connected to the bottom cross member, and the other end of the first damper 41 is connected to the first cylinder 20. One end of the first elastic member 42 is connected to the middle cross member, and the other end of the first elastic member 42 is connected to the first cylinder 20. The first shock absorber 41 can also be referred to as a damper, i.e. it uses its own movement to counteract an external movement or its own material properties to cancel an external movement. The first elastic member 42 may be a spring, the first elastic member 42 may suspend the first cylinder 20 from the frame 10, and when the first cylinder 20 vibrates, the first elastic member 42 may cooperate with the first damper 41 to damp the vibration of the first cylinder 20. For example, the first vibration damper assembly 40 may include two first vibration dampers 41 and two first elastic members 42, wherein the installation heights of the two first vibration dampers 41 in the horizontal direction are the same, and/or the installation heights of the two first elastic members 42 in the horizontal direction are the same. The two first vibration dampers 41 and/or the two first elastic members 42 are arranged in a flush manner, so that the first cylinder 20 is stressed smoothly when moving, and vibration of the first cylinder 20 is reduced. The joint between the first damper 41 and the frame 10 may be made of rubber. For example, the first damper 41 may be connected to the bottom cross member by using bolts, for example, bolt holes may be formed in the first damper 41, and a rubber material may be used as a material for the positions where the bolt holes are formed, so that when the first cylinder 20 vibrates, the vibration is transmitted from the first cylinder 20 to the frame 10 through the first damper 41. This process can also be understood as: when the bolts are fastened, the middle rubber part is compressed, and the first damper 41 is completely contacted with the frame body 10, so that the first damper 41 and the frame body 10 can be taken as a whole, when the first cylinder body 20 operates, the energy generated by the vibration of the first cylinder body 20 can be completely transmitted to the frame body 10 instead of being collected on the first damper 41, and the vibration is transmitted to the damping feet 60 through the frame body 10 to be damped. The vibration generated by the first cylinder 20 during operation is reduced.

The second vibration damper assembly 50 may include a second vibration damper 51 and a second elastic member 52. One end of the second damper 51 is connected to the middle cross member, and the other end of the second damper 51 is connected to the second cylinder 30. One end of the second elastic member 52 is connected to the top cross member, and the other end of the second elastic member 52 is connected to the second cylinder 30. The second vibration damper 51 can also be referred to as a damper, i.e., it uses its own motion to counteract the external motion or its own material properties to cancel the external motion. The second elastic member 52 may be a spring, the second elastic member 52 may suspend the second cylinder 30 from the frame 10, and the second elastic member 52 may cooperate with the second damper 51 to damp vibration of the second cylinder 30 when the second cylinder 30 vibrates. For example, the second vibration damper assembly 50 may include two second vibration dampers 51 and two second elastic members 52, wherein the installation heights of the two second vibration dampers 51 in the horizontal direction are the same, and/or the installation heights of the two second elastic members 52 in the horizontal direction are the same. The two second vibration absorbers 51 and/or the two second elastic members 52 are disposed in a flush manner, so that the second cylinder 30 is stressed smoothly during movement, and vibration of the second cylinder 30 is reduced. The joint between the second damper 51 and the frame 10 may be made of rubber. For example, the second damper 51 may be connected to the middle cross member by using bolts, for example, bolt holes may be formed in the second damper 51, and a rubber material may be used as a material for forming the bolt holes, so that when the second cylinder 30 vibrates, the vibration is transmitted from the second cylinder 30 to the frame 10 through the second damper 51. This process can also be understood as: when the bolts are fastened, the middle rubber part is compressed, and the second damper 51 is completely contacted with the frame body 10, so that the second damper 51 and the frame body 10 can be taken as a whole, when the second cylinder body 30 operates, the energy generated by the vibration of the second cylinder body 30 can be completely transmitted to the frame body 10 instead of being collected on the second damper 51, and the vibration is transmitted to the damping feet 60 through the frame body 10 to be damped. The vibration generated in the second cylinder 30 during operation is reduced.

Illustratively, the top frame 12 includes a first top cross member 121 and a second top cross member 122 disposed oppositely, for example, the first top cross member 121 and the second top cross member 122 may be located on the left and right sides of the frame body 10. The first top cross beam 121 and the second top cross beam 122 may be respectively provided with a reinforcing member 14, and the reinforcing member 14 is respectively disposed at a connection position of the second elastic member 52 and the first top cross beam 121 and at a connection position of the second elastic member 52 and the second top cross beam 122. The reinforcing member 14 serves to increase the rigidity of the first and second top cross members 121 and 122 so that the first and second top cross members 121 and 122 are more firm when carrying the second cylinder 30. For example, the reinforcement 14 may be a stiffener, i.e., a thickness of the top rail is increased or a layer of reinforcing material is additionally added at the junction of the second spring 52 and the top rail.

It is understood that, as with the reinforcement members 14 provided on the first top cross member 121 and the second top cross member 122, a reinforcement member may be provided at the connection portion of the middle frame 13 and the first elastic member 42 to enhance the rigidity of the middle frame 13, so that the middle frame 13 is more firmly supported by the first tubular body 20.

Illustratively, the top frame 12 may further include a third top cross member 123, and the third top cross member 123 connects the first top cross member 121 and the second top cross member 122. For example, the third top beam 123 may be a top beam at the front end of the frame 10. The frame body 10 may further include a plurality of vertical beams connecting the top frame 12 and the middle frame 13. For example, the plurality of vertical beams may include a first vertical beam 15 and a second vertical beam 16 connected to both ends of the third top cross member 123, respectively, a reinforcing plate 17 is provided at a connection of the first vertical beam 15 and the third top cross member 123, and a reinforcing plate 17 is provided at a connection of the second vertical beam 16 and the third top cross member 123. For example, the reinforcing plate 17 may be a triangular plate, and the center of the triangular plate may be hollow, so that the weight of the triangular plate as a whole is reduced. Reinforcing plate 17 can be right angle triangle-shaped board, and the right angle department of right angle triangle-shaped board can with erect roof beam and third top crossbeam 123 junction looks gomphosis to the joint strength of perpendicular roof beam and third top crossbeam 123 is erected in the reinforcing, makes the perpendicular roof beam more firm with being connected of third top crossbeam 123. It should be noted that, the first vertical beam 15, the second vertical beam 16 and the third top cross beam 123 are located at the front upper part of the frame 10, and thus, the position is too high in gravity center and insufficient in strength, and large vibration is easily caused by vibration of the cylinder, and the provision of the reinforcing plate 17 at the joint of the first vertical beam 15 and the third top cross beam 123 and the provision of the reinforcing plate 17 at the joint of the second vertical beam 16 and the third top cross beam 123 can enhance the lateral position vibration resistance strength of the frame 10, and significantly reduce vibration generated when the second cylinder 30 operates.

In this embodiment, the first vertical beam 15 is riveted to the third top cross beam 123, and the second vertical beam 16 is riveted to the third top cross beam 123. Of course, the connection between the plurality of cross beams and the connection between the cross beams and the vertical beams of the whole frame 10 may be riveted to enhance the fastening of the connection.

In addition, the bottom beam of the bottom frame 11 may be properly heightened and bent to increase the contact area between the bottom beam and the peripheral vertical beams, thereby increasing the number of rivet rivets and increasing the stability of the bottom frame 11.

It should be noted that, the washing machine according to the embodiment of the present application may further include a plurality of drums, for example, three drums arranged side by side. Of course, other numbers of cylinders may be included, and are not limited herein, and the above description is only given by way of example of a conventional dual-cylinder washing machine and should not be construed as limiting the number of washing machine cylinders.

In the washing machine provided by the embodiment of the application, the washing machine can comprise a frame body, at least two cylinder bodies, at least two vibration reduction assemblies and damping feet. The barrel sets up in the framework, and barrel and framework are connected to each damping subassembly. The vibration reduction assembly is used for supporting the cylinder and reducing vibration generated by the cylinder. The damping foot is connected with the frame body, and the damping foot is used for supporting the frame body and subducting the vibration that it produced. The vibration reduction assembly for supporting and reducing vibration of the barrel and the damping pins connected with the frame are arranged, so that part of vibration of the barrel is reduced by the vibration reduction assembly, and part of vibration can be transmitted to the damping pins through the frame to be reduced.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the description of the present application, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more features.

The washing machine provided by the embodiment of the present application is described in detail above, and the principle and the embodiment of the present application are explained herein by applying specific examples, and the description of the above embodiment is only used to help understanding the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A washing machine, characterized by comprising:

a frame body;

at least two cylinders arranged in the frame;

each vibration reduction assembly is connected with one cylinder body and the frame body and is used for supporting the cylinder body and reducing vibration generated by the cylinder body;

and the damping feet are connected with the frame body and used for supporting the frame body and damping vibration generated by the frame body.

2. The washing machine as claimed in claim 1, wherein the washing machine comprises:

the first cylinder is arranged in the frame body;

the second cylinder is arranged in the frame and is arranged side by side with the first cylinder;

the first vibration reduction assembly is connected with the first cylinder and the frame body and used for supporting the first cylinder and reducing vibration generated by the first cylinder;

and the second vibration reduction assembly is connected with the second cylinder and the frame body and is used for supporting the second cylinder and reducing vibration generated by the second cylinder.

3. A washing machine as claimed in claim 2 wherein the frame body comprises a base frame comprising a plurality of interconnected bottom cross members, a top frame disposed opposite the base frame comprising a plurality of interconnected top cross members, and a middle frame disposed between the base frame and the top frame comprising a plurality of interconnected middle cross members;

the first vibration damping assembly includes:

one end of the first damper is connected with the bottom cross beam, and the other end of the first damper is connected with the first cylinder;

one end of the first elastic piece is connected with the middle cross beam, and the other end of the first elastic piece is connected with the first cylinder;

the second vibration damping assembly includes:

one end of the second shock absorber is connected with the middle cross beam, and the other end of the second shock absorber is connected with the second cylinder;

one end of the second elastic piece is connected with the top cross beam, and the other end of the second elastic piece is connected with the second cylinder.

4. The washing machine as claimed in claim 3, wherein the first damper assembly includes two first dampers and two first elastic members, and the installation heights of the two first dampers in the horizontal direction are the same and/or the installation heights of the two first elastic members in the horizontal direction are the same.

5. The washing machine as claimed in claim 3, wherein the second damper assembly includes two second dampers and two second elastic members, and the installation heights of the two second dampers in the horizontal direction are the same and/or the installation heights of the two second elastic members in the horizontal direction are the same.

6. The washing machine as claimed in claim 3, wherein the top frame includes a first top cross member and a second top cross member which are oppositely disposed, each of the first top cross member and the second top cross member is provided with a reinforcement member which is provided at a junction of the second elastic member and the top cross member, the reinforcement member being for increasing rigidity of the first top cross member and the second top cross member.

7. The washing machine as claimed in claim 6, wherein the top frame further includes a third top cross member connecting the first top cross member and the second top cross member, the frame body includes a plurality of vertical beams connecting the middle frame and the top frame, the plurality of vertical beams includes a first vertical beam and a second vertical beam respectively connected to both ends of the third top cross member, a reinforcing plate is provided at a junction of the first vertical beam and the third top cross member, and a reinforcing plate is provided at a junction of the second vertical beam and the third top cross member.

8. A washing machine as claimed in claim 7 wherein the first vertical beam is riveted to the third top beam and the second vertical beam is riveted to the third top beam.

9. The washing machine as claimed in claim 3, wherein the joint of the first damper and the frame is made of rubber material and/or the joint of the second damper and the frame is made of rubber material.

10. A washing machine as claimed in any one of claims 1 to 9 wherein the damping feet are made of a rubber material.

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