CN109402955B - Mounting seat assembly and washing machine comprising same - Google Patents

Abstract

The invention belongs to the field of washing machine accessories, and particularly relates to a mounting seat assembly and a washing machine comprising the same. The invention aims to solve the problems of complex steps and poor vibration damping effect of the existing installation scheme of the washing machine damper. To this end, the mount assembly of the present invention includes a first base and a second base disposed opposite to each other, with a mount site and a positioning portion disposed therebetween, wherein the shock absorber is fixed to the mount assembly through the mount site, and the positioning portion fixedly connects the first base and the second base. By mounting the shock absorber through the mounting seat assembly, the vibration rigidity of the fixing piece of the shock absorber can be weakened, the mounting process of the shock absorber can be simplified, and the mounting efficiency of the shock absorber is improved.

Description

Mounting seat assembly and washing machine comprising same

Technical Field

The invention belongs to the field of washing machine accessories, and particularly relates to a mounting seat assembly and a washing machine comprising the same.

Background

A damper is generally installed between the washing tub and the cabinet of the washing machine. Generally, a cabinet and a washing tub of a washing machine are provided with damper mounting structures, and dampers can be fixedly mounted to the cabinet and the washing tub mounting structures of the washing machine by fasteners, so that the dampers can be connected between the washing tub and the cabinet.

Under the condition that the shock absorber is connected with the box body of the washing machine in the fixing mode, on one hand, the shock absorber is connected with the box body of the washing machine through the fastener, so that the fastener increases the vibration rigidity between the shock absorber and the box body of the washing machine, and when vibration is transmitted to the box body from the washing drum, the resonance degree of the box body and the washing drum is enhanced, and the integral vibration reduction effect of the washing machine is influenced. On the other hand, when the shock absorber is installed, the mode that the fastener is connected enables an installer to firstly pull the shock absorber to the position of the fixed shock absorber on the box body of the washing machine manually, then the shock absorber and the box body are positioned in an auxiliary mode through the equipment tool, and finally the fastener is installed, so that the operation process is complex.

Accordingly, there is a need in the art for a new mount assembly that addresses the above-mentioned problems.

Disclosure of Invention

In order to solve the above problems in the prior art, that is, to solve the problems of complicated steps and poor damping effect of the damper installation scheme of the existing washing machine, the present invention provides an installation base assembly, which includes a first base body and a second base body that are oppositely arranged, and an installation site and a positioning portion are arranged between the first base body and the second base body, wherein a to-be-installed component is fixed to the installation base assembly through the installation site, and the positioning portion fixedly connects the first base body and the second base body.

In a preferred technical solution of the above mount assembly, the positioning portion includes a first positioning unit and a second positioning unit, and the mount, the first positioning unit and the second positioning unit are arranged in a triangle.

In a preferred embodiment of the mount assembly, each of the first base body and the second base body includes a mounting structure, a first abutting structure and a second abutting structure, where the first abutting structure of the first base body and the second abutting structure of the second base body are combined to form the first positioning unit, the second abutting structure of the first base body and the first abutting structure of the second base body are combined to form the second positioning unit, and the mounting structure of the first base body and the mounting structure of the second base body are combined to form the mounting position.

In an optimal technical scheme of the mounting seat assembly, the second butt joint structure is a hollow structure, the first butt joint structure comprises a first cylindrical section matched with the hollow structure, a clamping structure is arranged at one end of the first cylindrical section, the first cylindrical section is arranged to be capable of extending into the hollow structure, and the clamping structure is arranged to be capable of clamping the first cylindrical section in the hollow structure.

In a preferred embodiment of the mount assembly, a second cylindrical section extends from the other end of the first cylindrical section, and when the first docking structure and the second docking structure are mounted, one end of the hollow structure close to the first docking structure is just abutted by the second cylindrical section.

In a preferred embodiment of the above mount assembly, the mount assembly further includes a guide structure configured to enable the mount assembly to slidably reach a position to be mounted.

In a preferred technical solution of the above-mentioned mount assembly, the guide structure is a slider provided on the mount assembly, and the position to be mounted is correspondingly provided with a slider matching the slider.

In a preferred technical solution of the above mount assembly, the mount assembly further includes a limiting structure, and the limiting structure is configured to be able to keep the mount assembly at the position to be mounted.

In the preferred technical scheme of the mounting base assembly, the limiting structure is a clamping groove formed in the mounting base assembly, and a clamping plate matched with the clamping groove is correspondingly arranged at the position to be mounted.

According to another aspect, the invention provides a washing machine, which comprises a box body, a damper, a washing drum and a washing drum, wherein one end of the damper is fixed on the box body through a mounting seat assembly, the mounting seat assembly is any one of the mounting seat assemblies, and the other end of the damper is fixedly connected with the washing drum.

As will be understood by those skilled in the art, the mount assembly of the present invention includes a first base and a second base disposed opposite to each other, with a mounting site and a positioning portion disposed therebetween, wherein the to-be-mounted member is fixed to the mount assembly through the mounting site, and the positioning portion fixedly connects the first base and the second base. And, this mount subassembly still is provided with limit structure for the mount subassembly can be fixed in the position of waiting to install. By taking the damper as the to-be-installed part and the damper as the installation position of the damper on the box body of the washing machine as examples, the installation seat assembly can be directly fixed to the installation position of the box body of the washing machine without the steps of auxiliary positioning, fastener installation and the like after the damper is fixed by the installation seat assembly through the arrangement scheme of the installation seat assembly, so that the installation step of the damper is simplified, and the time cost is saved; in addition, compared with the installation mode of fixing the fastener, when the damper is fixed to the box body of the washing machine through the installation seat assembly of the invention, the installation seat assembly between the damper and the box body of the washing machine reduces the vibration rigidity between the damper and the box body of the washing machine, thereby weakening the resonance degree of the washing drum and the box body and enhancing the damping effect of the washing machine.

Drawings

A preferred embodiment of the mount assembly of the present invention will be described below with reference to the accompanying drawings in conjunction with the case where the damper is mounted on the washing machine, that is, the to-be-mounted member is the damper and the to-be-mounted position is the mounting position of the damper on the cabinet of the washing machine, wherein:

fig. 1 is a view illustrating the overall installation effect of the mount assembly of the present invention when applied to a damper of a washing machine.

FIG. 2 is an assembled effect view of the mount assembly and shock absorber of the present invention;

FIG. 3 is a general block diagram of the mount assembly of the present invention;

FIG. 4 is a schematic structural view of the mount assembly of the present invention in an unassembled state, showing the structure of the mounting posts and locating portions of the mount assembly;

fig. 5 is an effect view of the mount assembly of the present invention in a position to be installed, showing the guide and stop structures of the mount assembly.

Detailed Description

First of all, it should be understood by those skilled in the art that the embodiments of the present invention are merely to explain the technical principles of the present invention and are not intended to limit the scope of the present invention. And can be adjusted as needed by those skilled in the art to suit particular applications. For example, although the mount assembly of the present invention is described in connection with a washing machine, its particular application is not limiting, and the mount assembly of the present invention may also be applied to other appliances with dampers than washing machines.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "inside", "outside", etc. are based on the directions or positional relationships shown in the drawings, which are for convenience of description only, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring first to fig. 1, fig. 1 is a view illustrating an overall installation effect of a mount assembly of the present invention when applied to a damper of a washing machine. As shown in fig. 1, a damper 3 is installed between a cabinet 1 and a washing tub 2 of a washing machine, wherein one end of the damper 3 is fixedly connected to the washing tub 2, and the other end is fixed to the cabinet 1 of the washing machine through a mount assembly 4 of the present invention. Specifically, the washing drum 2 of the washing machine is provided with an installation position of a damper 3, and the right end of the damper 3 is installed on the washing drum through a fastener according to the orientation of fig. 1; the left end of the damper 3 is mounted to the mount assembly 4, and the mount assembly 4 is fixedly connected to the case 1, thereby fixing the damper 3 to the case 1.

Referring next to fig. 2 and 3, fig. 2 is a view illustrating an assembly effect of the mount assembly and the shock absorber of the present invention, and fig. 3 is a general structural view of the mount assembly of the present invention, and as shown in fig. 2 and 3, the mount assembly 4 includes a first substrate 41 and a second substrate 42 that are disposed opposite to each other, and a mount 43 and a positioning portion (indicated by 44 and 45 in fig. 3) are disposed between the first substrate 41 and the second substrate 42, so that the first substrate 41 and the second substrate 42 are assembled in an opposing butt joint to form the mount assembly 4, wherein the shock absorber 3 is fixed to the mount assembly 4 through the mount 43, and the positioning portion fixedly connects the first substrate 41 and the second substrate 42, that is, the first substrate 41 and the second substrate 42 are integrally connected to each other through the positioning portion to form the mount assembly 4. In addition, the right end of the damper 3 is provided with a mounting hole, and the mounting site 43 enables the damper 3 to be fixed to the mount block assembly 4 by fitting the mounting hole to the mounting site 43.

As a preferred embodiment, according to the orientation of fig. 3, the positioning part includes a first positioning unit 44 and a second positioning unit 45 which are symmetrically disposed at left and right positions below the opposite sides of the first base 41 and the second base 42, and the mounting part 43 is disposed at an upper position between the first base 41 and the second base 42, in such a manner that the mounting part 43 and the first positioning unit 44 and the second positioning unit 45 can be disposed at the middle between the first base 41 and the second base 42 in a triangular distribution, increasing the reliability of the connection of the first base 41 and the second base 42. In this regard, it should be noted that although the number of the positioning units in the present embodiment is 2, the number of the positioning units may obviously be less than or more than 2 on the premise of ensuring the reliable connection of the first substrate 41 and the second substrate 42.

Referring again to fig. 4 and with continued reference to fig. 3, fig. 4 is a schematic diagram of the unassembled mount assembly of the present invention showing the structure of the mounting posts and locating portions of the mount assembly. As shown in fig. 3 and 4, the first base 41 is provided with a mounting structure 432, a first docking structure 442 and a second docking structure 452, and the second base 42 is provided with a mounting structure 431, a second docking structure 441 and a first docking structure 451, respectively. When the first substrate 41 and the second substrate 42 are butted against each other, the mounting structure 432 of the first substrate 41 and the mounting structure 431 of the second substrate 42 are combined to form the mounting position 43, the first butting structure 442 of the first substrate 41 and the second butting structure 441 of the second substrate 42 are combined to form the first positioning unit 44, and the second butting structure 452 of the first substrate 41 and the first butting structure 451 of the second substrate 42 are combined to form the second positioning unit 45. In order to reduce the structural complexity of the mount assembly 4 and save the production cost thereof, preferably, the mounting structures of the first substrate 41 and the second substrate 42 and the structures of the first docking structure and the second docking structure are the same, that is, the first substrate 41 and the second substrate 42 are the same, so that the first substrate 41 and the second substrate 42 can be manufactured by using the same mold through manufacturing methods such as injection molding, and the production cost is reduced.

With continued reference to fig. 3 and 4, the mounting structure 431, the first docking structure 451, and the second docking structure 441 of the second base 42 will now be described. Here, the mounting structure 431 includes, as an example, a clamping structure 4312 and a column 4311 having one end connected to the first base 41/the second base 42 and the other end provided with the clamping structure 4312, and the clamping structure 4312 is a plate clamping structure extending obliquely from an end of the column 4311. In a state where the first base 41 and the second base 42 are butted, end faces of the columnar bodies 4311 of the two mounting structures 431 provided on the first base 41 and the second base 42, respectively, are butted against each other, while the two plate-like snap-fit structures 4312 are clamped so that inner side plate faces are butted against each other, to maintain the butted joint state of the two mounting structures 431.

Preferably, the second docking structure 441 is a cylindrical hollow structure disposed through the second base 42, the first docking structure 451 is a cylindrical body matched with the hollow structure and provided with a clamping structure 4513, specifically, the first docking structure 451 includes a second cylindrical section 4511 extending from the inner side of the second base 42 and a first cylindrical section 4512 extending from an end of the second cylindrical section 4511, and an extending end of the first cylindrical section 4512 is provided with a clamping structure 4513. Under the condition that the first butt joint structure and the second butt joint structure of the two bases are in butt joint clamping, the first cylindrical section 4512 of the first butt joint structure 451 extends into the cylindrical cavity of the second butt joint structure 441, and the end part of the second cylindrical section 4511 of the first butt joint structure 451 is in abutting joint with the tail end of the second butt joint structure 441, so that the clamping structure 4513 at the top end of the first cylindrical section 4512 can be just extended to the outer side of the first base 41 with the second butt joint structure 442 and clamped on the outer side surface, and the first cylindrical section 4512 can be clamped in the hollow structure to reliably connect the first base 41 and the second base 42. As an example, the diameter of the second cylindrical section 4511 in fig. 4 is larger than that of the first cylindrical section 4512, so that the end of the second cylindrical section 4512 can form a step surface that abuttingly engages with the hollow structure to secure the strength of the first abutting structure 451, 442 on the premise that the first positioning unit 44 and the second positioning unit 45 are abuttingly engaged with each other. Of course, in case the strength of the first docking structure is sufficient, the first docking structure may also comprise only the second cylindrical section and the gripping structure on the second cylindrical section, i.e. the second cylindrical section extends directly from the inner side of the first 41/second 42 base. In addition, the gripping structure 4513 is two block-shaped clasps convexly disposed relative to the first cylindrical section 4512, and the two block-shaped clasps are interstitially disposed at a position close to the edge of the end of the first cylindrical section 4512. When two base bodies need to be connected, the clamping structures at the tail ends of the first cylindrical section 4512 are abutted together, so that the first cylindrical section 4512 can be inserted into the hollow structure, then the first cylindrical section 4512 is pushed to continue moving in the hollow structure, at the moment, the block-shaped buckles slide in the hollow structure in a state of abutting against the inner wall of the hollow structure until the step surface at the end part of the second cylindrical section 4511 abuts against one end, close to the first butt joint structure 451, of the hollow structure, the two block-shaped buckles extend out of the outer edge of the hollow structure and are unfolded from the abutting state to the gap arrangement state, and the unfolded block-shaped buckles are just clamped on the outer side surface of the base bodies, so that clamping between the two base bodies is realized.

With regard to the above-described embodiments, it will be understood by those skilled in the art that, first, although the present embodiment specifically describes the specific shape of the mounting site and the positioning portion, this is merely exemplary, for example, although the shapes of the mounting structure, the first abutting structure and the second abutting structure in the embodiment are each substantially cylindrical, it is obvious that the shapes of the mounting structure, the first abutting structure and the second abutting structure may be provided in any other shapes than cylindrical, such as prismatic, etc. In addition, the setting mode of the clamping structure and the clamping structure of the mounting position and the positioning part is not unique, the specific setting mode can be only required to meet the functional requirement of the mounting seat assembly, and the change of the shape and the specific setting mode does not exceed the principle and the protection scope of the invention.

Referring again to fig. 5 with continued reference to fig. 4, fig. 5 is an illustration of the present invention with the mount assembly in a ready-to-install position showing the guide and stop features of the mount assembly. As shown in fig. 4 and 5, in order to mount the mounting base assembly 4 on the cabinet 1 of the washing machine, as a preferred embodiment, two sides of the bottom of the mounting base assembly 4 are provided with limit structures 46 (only one of the limit structures is labeled in fig. 5), so that the mounting base assembly 4 can be fixed on the mounting position of the cabinet 1 of the washing machine through the limit structures 46. More preferably, the limiting structure 46 is an L-shaped clamping groove penetrating the bottoms of the first base body 41 and the second base body 42, and correspondingly, the washing machine box 1 is provided with a clamping plate 11 matching with the clamping groove 46. Specifically, the width of joint groove 46 is approximately equal with the thickness of joint plate 11 for when the mount pad subassembly was fixed in box 1, the joint groove 46 of mount pad subassembly 4 can be pushed from the one end of joint plate 11. On this basis, as long as the mounting base assembly 4 is pushed to make the clamping groove 46 completely slide into the clamping plate 11, the mounting base assembly 4 can be fixed at the mounting position of the box body 1.

With continued reference to fig. 4 and 5, in order to save the assembly time of the damper 3 and the cabinet 1, preferably, the bottom of the mounting assembly 4 is further provided with a guiding structure 47, the guiding structure 47 enables the mounting assembly 4 to slidably reach the position to be installed on the washing machine cabinet 1, more preferably, the guiding structure 47 is a slide fastener extending from the bottom of the mounting assembly 4, and accordingly, the washing machine cabinet 1 is provided with a slide card 12 matched with the slide fastener 47. Specifically, the slide fastener 47 at the bottom of the mount assembly 4 can be abutted and engaged with the slide card 12 protruding from the box body, and the slide card 12 has a certain length, so that the slide fastener 47 can move along the length direction of the slide card 12 to drive the mount assembly 4 to move to the position to be mounted on the box body 1 along the arrangement direction of the slide card 12. In the case that the slide fastener 47 is moved to the end of the slide fastener 12, the mount assemblies 4 can simultaneously reach the positions to be mounted on the box 1, namely, the positions exactly opposite to one end of the clamping plate 11, so that before the mount assemblies 4 are fixed to the box 1 through the limiting structures 46, the mount assemblies can be accurately moved to the positions capable of sliding into the clamping plate 11 through the guiding structures 47 without the need of positioning the auxiliary mount assemblies, so as to rapidly complete the fixing steps of the mount assemblies 4. Of course, although the fixing structure of the mount assembly of the present invention is described with reference to the guiding structure 47 and the limiting structure 46, this is not limited, for example, a buckle may be disposed on the mount assembly 4, and a slot may be disposed on the housing 1, so that the damper 3 can be fixed on the housing 1 after the buckle of the mount assembly 4 is directly pushed into the slot, that is, the setting mode of the fixing structure of the mount assembly 4 is not limited to this embodiment, and the specific setting mode may be as long as the fixing requirement of the mount assembly 4 is satisfied.

In summary, when the damper is installed on the box body of the washing machine, compared with the traditional installation mode of rigidly fixing the fastener, on one hand, the mounting seat assembly of the invention can change the vibration transmission path of the washing drum, the damper and the box body into the washing drum, the damper, the mounting seat assembly and the box body, so as to reduce the vibration rigidity of the damper fixing part, weaken the resonance effect of the box body and the washing drum and improve the vibration damping effect of the washing machine; in addition, after the shock absorber is arranged on the mounting seat assembly, the shock absorber can be directly fixed on the box body without using auxiliary tool positioning and mounting fasteners, so that the mounting process of the shock absorber is simplified, and the assembly efficiency of the washing machine is improved.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (5)

1. A mounting seat assembly is characterized by comprising a first base body and a second base body which are oppositely arranged,

an installation position and a positioning part are arranged between the first basal body and the second basal body,

the positioning part enables the first base body and the second base body to be fixedly connected;

the positioning part comprises a first positioning unit and a second positioning unit, and the mounting position, the first positioning unit and the second positioning unit are arranged in a triangular shape;

the first base body and the second base body respectively comprise a mounting structure, a first butt joint structure and a second butt joint structure,

wherein the first docking structure of the first base and the second docking structure of the second base are combined to be the first positioning unit, the second docking structure of the first base and the first docking structure of the second base are combined to be the second positioning unit, and the mounting structure of the first base and the mounting structure of the second base are combined to be the mounting location;

the second butt joint structure is a hollow structure, the first butt joint structure comprises a first columnar section matched with the hollow structure, a clamping structure is arranged at one end of the first columnar section, the first columnar section can extend into the hollow structure, and the clamping structure is arranged to clamp the first columnar section in the hollow structure;

a second cylindrical section extends from the other end of the first cylindrical section, and under the condition that the first butt joint structure and the second butt joint structure are installed, one end, close to the first butt joint structure, of the hollow structure is just abutted by the second cylindrical section;

the mount assembly also includes a guide structure configured to enable the mount assembly to slidably reach a location to be mounted.

2. The mount assembly of claim 1, wherein the guide structure is a slide fastener disposed on the mount assembly, and the location to be mounted is correspondingly provided with a slide card matching the slide fastener.

3. The mount assembly of claim 2, further comprising a retaining structure configured to retain the mount assembly in the position to be installed.

4. The mount assembly according to claim 3, wherein the limiting structure is a snap groove provided in the mount assembly, and a snap plate matching with the snap groove is correspondingly provided at the position to be mounted.

5. A washing machine, the washing machine includes the container and the snubber, characterized by that, one end of the said snubber is fixed to the said container through the mount assembly, the said mount assembly is the mount assembly of any claim 1 to 4, the said washing machine also includes the washing tube, another end of the said snubber is fixedly connected with said washing tube.

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