CN108742430B - Liner assembly and dish washer - Google Patents

Abstract

The application discloses a liner assembly and a dish washer, wherein the liner assembly comprises: the inner container is provided with an accommodating cavity with an opening at the top, and the edge of the opening of the inner container is provided with a limit folded edge; the sealing frame is arranged at the top of the inner container, a sealing groove is formed in one side of the sealing frame, facing the inner container, of the sealing frame, and a bayonet is formed in the side wall of the sealing groove; the limiting folded edge is clamped into the bayonet. The technical scheme of the application greatly improves the sealing effect and the installation stability of the sealing frame and the liner.

Description

Liner assembly and dish washer

Technical Field

The application relates to the technical field of dish washers, in particular to an inner container assembly and a dish washer.

Background

With the development of society, the living standard of people is improved, and people put higher demands on the performance of dish washing machines. Engineers have proposed a new type of liner assembly in order to meet the needs of users, however, the sealing mode of the existing dishwasher liner is not suitable for the new type of liner assembly, so that the sealing and reliable installation of the liner in the new type of liner assembly becomes a urgent problem to be solved.

Disclosure of Invention

The application mainly aims to provide a liner assembly and aims to provide a sealing mode meeting the sealing performance of a liner.

In order to achieve the above object, the present application provides a liner assembly, comprising:

the inner container is provided with an accommodating cavity with an opening at the top, and the edge of the opening of the inner container is provided with a limit folded edge;

the sealing frame is arranged at the top of the inner container, a sealing groove is formed in one side of the sealing frame, facing the inner container, of the sealing frame, and a bayonet is formed in the side wall of the sealing groove;

the limiting folded edge is clamped into the bayonet.

Preferably, the edge of the opening is accommodated in the sealing groove, and the limit flange extends out of the sealing groove from the sealing groove through the bayonet.

Preferably, the limit flange comprises a transverse section, a vertical section and a supporting section, one end of the transverse section is connected with the edge of the opening, the other end of the transverse section is connected with one end of the vertical section, the other end of the vertical section is connected with the supporting section, and the supporting section penetrates through the bayonet.

Preferably, a side of the support section facing away from the opening abuts against an upper side of the bayonet, and a side of the support section facing toward the opening abuts against a lower side of the bayonet.

Preferably, the support section is arranged in an arc-shaped sheet shape.

Preferably, the liner assembly further comprises a sealing flange, the sealing flange is connected with one side of the limiting flange facing the sealing groove, and the sealing flange is arranged corresponding to the bayonet.

Preferably, the liner assembly further comprises a limiting side edge, and the limiting side edge is connected with the opening edge of the liner.

Preferably, the limit side edges and the limit folds are alternately arranged along the edge of the liner, and an elastic gap is formed between the limit side edges and the limit folds.

Preferably, the inner container assembly further comprises an outer frame, the outer frame is provided with an installation space, the inner container is installed in the installation space, and the sealing frame is connected with the outer frame to fix the inner container.

The application also provides a dish washer, comprising a liner assembly, wherein the liner assembly comprises:

the inner container is provided with an accommodating cavity with an opening at the top, and the edge of the opening of the inner container is provided with a limit folded edge;

the sealing frame is arranged at the top of the inner container, a sealing groove is formed in one side of the sealing frame, facing the inner container, of the sealing frame, and a bayonet is formed in the side wall of the sealing groove;

the limiting folded edge is clamped into the bayonet.

According to the technical scheme, the liner assembly comprises the liner and the sealing frame arranged at the top of the liner, when the sealing frame is matched with the liner, the top of the liner is inserted into the sealing groove on one side of the sealing frame facing the liner, when water splashes to the top of the liner, the top of the liner is wrapped by the sealing groove, and the water is blocked by the sealing frame, so that the water cannot contact the top of the liner, and cannot flow out from the top of the liner, and the sealing effect between the liner and the sealing frame is realized; when the sealing frame is in sealing connection with the shell of the dish-washing machine, water cannot flow out beyond the sealing frame, so that the sealing state of the whole dish-washing machine is realized, and the stable work of the dish-washing machine is facilitated; meanwhile, in order to further improve the connection stability of the inner container and the sealing frame, a bayonet is formed in the side wall of the sealing groove, a limit folded edge is arranged at the edge of the opening of the inner container, when the inner container is matched with the sealing frame, the limit folded edge penetrates through the bayonet and is clamped in the bayonet, when the sealing frame and the inner container are detached by external force, the limit folded edge and the bayonet are matched to prevent the sealing frame from being separated from the inner container, so that the phenomenon that the sealing frame is opened by mistake is avoided, and the stability of the sealing frame and the inner container is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment of a liner assembly according to the present application;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a partial enlarged view at B in FIG. 2;

FIG. 4 is a schematic view of the internal structure of another embodiment of the liner assembly of the present application;

FIG. 5 is an enlarged view of a portion of FIG. 4 at C;

FIG. 6 is a schematic view of a liner assembly according to another embodiment of the present application;

FIG. 7 is a schematic view of the structure of the cushion of FIG. 6;

FIG. 8 is a schematic view of the bottom of the liner of FIG. 6;

FIG. 9 is a partial enlarged view at D in FIG. 8;

FIG. 10 is a schematic view of the internal structure of the liner of FIG. 6;

fig. 11 is a partial enlarged view at E in fig. 10.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				100	Sealing frame	110	Sealing groove
120	Bayonet socket	200	Inner container
				210	Accommodating cavity	220	Limit flanging
221	Transverse segment	222	Vertical section
				223	Support section	230	Spacing side
240	Elastic gap	250	Sealing edge
				260	Mounting groove	300	Outer frame
310	Installation space	320	Mounting hole
				500	Cushion pad	510	Supporting sheet
520	Guide post	530	Anti-tripping device
				540	Trimming edge

The achievement of the objects, functional features and advantages of the present application will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present application.

The application mainly provides an inner container 200 assembly which is mainly applied to a dish washer to accommodate bowls, chopsticks, basins, dishes and other tableware to be washed. The dish washer comprises a bracket (shell) and an inner container 200 assembly, wherein the inner container 200 assembly is in sliding connection with the bracket, and when the inner container 200 assembly is pulled out of the bracket, the bowl basket assembly can be installed into the inner container 200 from an opening at the top of the inner container 200, or the bowl basket assembly can be taken out from the inner container 200; namely, the dish-washing machine of the application takes drawer-type dish-washing machine as an example;

it should be noted that the bracket may be a housing having a cavity, and when the liner 200 assembly is placed in the housing, the liner 200 assembly is connected with the housing in a sealing manner, so as to prevent water in the liner 200 from overflowing or splashing out of the liner 200 when the dishwasher is in operation.

A water cup and a spray arm rotationally connected with the water cup are arranged at the bottom of the inner container 200; an air inlet and drainage assembly is arranged at the back of the inner container 200 assembly, and an air outlet assembly is arranged at the front side of the inner container 200 assembly; the water pump is arranged in the water cup, an outlet of the water pump is communicated with a water inlet of the spray arm, so that water in the water cup is pumped into the spray arm and sprayed out from a spray hole and a driving spray hole in the spray arm, water sprayed out from the spray hole is used for cleaning tableware on a bowl basket assembly, and water sprayed out from the driving spray hole is used for driving the spray arm to rotate; the water cup is also provided with a filtering system, and water at the bottom of the liner 200 flows into a waterway of the water cup through the filtering system and is pumped into the spray arm again by the water pump so as to realize the recycling of the water.

After the dish washer is washed, water in the inner container 200 is discharged through the water cup and the water discharge pipe, air is blown into the inner container 200 by the air inlet and water discharge assembly, air in the inner container 200 is sucked out by the air outlet assembly, and accordingly circulating air flow is formed in the inner container 200, and water drops on the inner container 200 assembly, the bowl basket assembly and tableware on the bowl basket assembly are air-dried.

The liner 200 assembly of the present application is a liner 200 assembly with novel installation mode, which comprises a liner 200 having a receiving cavity 210, an outer frame 300 having an installation space 310, and a sealing frame 100 for connecting and fixing the liner 200 and the outer frame 300; the inner container 200 is installed in the installation space 310, and the sealing frame 100 is covered on top of the inner container 200 and the outer frame 300. The inner container 200 assembly is changed into one module by the connection among the inner container 200, the outer frame 300 and the sealing frame 100, so that the selectable range of the material of the inner container 200 is greatly expanded, such as stainless steel, ceramic, organic glass and the like.

The specific structure of each component (the liner 200, the outer frame 300 and the sealing frame 100) of the liner 200 assembly will be mainly described below, and the matching relationship (the positional relationship and the connection relationship) and the functional effect between each component are introduced.

The liner 200 assembly includes:

the liner 200 is provided with a containing cavity 210 with an opening at the top, and a limit folded edge 220 is arranged at the edge of the opening of the liner 200; the sealing frame 100 is arranged at the top of the liner 200, a sealing groove 110 is formed in one side of the sealing frame 100 facing the liner 200, and a bayonet 120 is formed in the side wall of the sealing groove 110; the limit flaps 220 are snapped into the bayonet 120.

Specifically, the overall appearance of the liner 200 is a rectangular box (on the basis of the rectangular box, there is a local recess or protrusion according to specific requirements), the top of the liner is provided with an opening for a bowl basket, tableware and the like to enter and exit the accommodating cavity 210, and the bottom of the liner is provided with a mounting opening for mounting and matching parts such as a water supply channel assembly and the like. The liner 200 may be integrally formed, or may be formed by connecting a plurality of members, and in this embodiment, the liner 200 is formed by splicing a plurality of portions.

The liner 200 includes: a side plate disposed annularly around the housing; a bottom plate including a substrate and a connection plate extending from an edge of the substrate to one side of the substrate; the bottom of the side plate and/or one side of the connecting plate, which is far away from the substrate, is formed with a mounting step, and the bottom of the side plate is fixedly connected with the connecting plate through the mounting step so as to form a containing cavity 210 in a surrounding manner.

The structural features of the side panels and the bottom panel in relation to their mating, respectively, are described below.

The side plate takes hexahedron as an example, the side plate comprises four plate bodies, namely a front plate body, a rear plate body, a left plate body and a right plate body, the four plate bodies can be integrally formed and arranged, and also can be four independent plate bodies, and the side plate is formed by splicing and combining the plate bodies at the moment. The side plates can be made of various materials, such as metal, ceramic, glass, plastic and the like, and are formed by bending a complete stainless steel plate by taking stainless steel as an example, and the connecting parts at the two ends of the bent stainless steel plate can be used for connecting the side plates to form by welding or screw connection and the like. Of course, in some embodiments, ribs are further disposed on the side plates, so as to increase the strength of the side plates, and change the natural frequency of the side plates, thereby preventing resonance phenomenon.

The bottom plate, the bottom plate includes the base plate and extends to the connecting plate of base plate one side from the base plate edge, and base plate and connecting plate can integrated into one piece setting, also can be independent spare part. For better cooperation with the curb plate, the connecting plate also has the plate body that corresponds with four plate bodies of curb plate for curb plate and connecting plate are more convenient. The base plate may be made of various materials, such as metal, ceramic, glass, plastic, etc., for example, stainless steel. In this embodiment, the base plate is provided as an integrally formed base plate, and the connecting plate is formed by bending an edge of the base plate, more specifically, by punching a single stainless steel plate. The bottom plate has a little accommodation space, is formed by the setting of connecting plate surrounding substrate for when its and curb plate are connected, not two perpendicular boards (curb plate and base plate) are connected, but two boards (curb plate and connecting plate) that are parallel to each other are connected, thereby reduced the connection degree of difficulty of bottom plate and curb plate by a wide margin, simultaneously, because little accommodation chamber 210 is formed by the punching press of a board, improved little accommodation chamber 210's leakproofness by a wide margin.

On the top of the inner container 200, a limit flange 220 connected to the sealing frame 100 is provided, and the limit flange 220 extends from the top of the inner container 200 to the outside of the receiving chamber 210. Limit flange 220 may be integrally formed with liner 200; or may be independently arranged, and then connected by screws, buckles or glue, and in this embodiment, the inner container 200 is integrally formed. It should be noted that, the connection modes of the liner 200 and the sealing frame 100 in the front, back, left and right directions may be the same or different. In this embodiment, the same or similar examples are given below with respect to the portion of the sealing frame 100, for specific snap-fit and fastening relationships.

Regarding the sealing frame 100, the shape of the sealing frame 100 may be a triangle, a circle, a polygon, or the like, and the sealing frame 100 is described as a quadrangular frame as an example, with the shape of the outer frame 300 and the inner container 200 being preferably adapted. The sealing frame 100 includes four frame strips, namely, front, rear, left and right frame strips, which correspond to the front, rear, left and right side walls of the liner 200 and the outer frame 300, respectively, and are connected end to end in sequence to form a frame body. The four frame strips can be integrally formed and arranged, taking integral injection molding as an example; or can be mutually independent and then connected through a connecting structure. The sealing frame 100 may be made of various materials, such as plexiglas, rubber, plastic, etc., for example, rubber materials and/or plastics.

The sealing frame 100 is provided with a mounting groove 260 and the sealing frame 100 on one side facing the inner container 200 and the outer frame 300, and a fixing structure matched with the inner container 200 and the outer frame 300 is arranged on the groove wall, so that the sealing frame 100, the inner container 200 and the outer frame 300 can be stably and reliably connected together. It should be noted that, the sealing frame 100 not only plays a role of connecting the liner 200 and the outer frame 300, and realizes sealing between the liner 200 and the outer frame 300, and sealing between the liner 200 assembly and the dishwasher housing.

The seal grooves 110 extend along the length direction of the frame strips, and the seal grooves 110 may be formed in one of the frame strips, or may be formed in a plurality of the four frame strips at the same time, for example, four seal grooves 110 are formed in all of the four frame strips. The cross-sectional shape of the seal slot 110 may have a variety of shapes, such as trapezoidal, triangular, rectangular, etc., for example, rectangular. The sealing groove 110 is fastened to the top of the liner 200, the bottom of the groove is located at the top, and the notch is opened downward. When the top of the liner 200 is received in the sealing groove 110, the opening edge of the top of the liner 200 is wrapped by the sealing frame 100, so that water in the liner 200 cannot pass through the connection between the liner 200 and the sealing frame 100.

The limit folded edge 220 is arranged on the outer side wall of the top of the liner 200; the side wall of the sealing groove 110 is provided with a bayonet 120 corresponding to the limit flange 220, and the bottom of the limit flange 220 passes through the bayonet to be clamped in the bayonet 120.

The limit flange 220 extends along the length direction of the side plate of the liner 200, may be integrally formed with the liner 200, or may be separately formed, and is fixedly connected with the outer side wall of the liner 200, for example, the limit flange 220 is formed by bending the edge of the opening of the liner 200 towards the outside of the accommodating cavity 210. The arrangement greatly simplifies the manufacturing and assembling process of the limit flange 220, and simultaneously, the limit flange is convenient to be matched with the sealing frame 100 due to outward bending, and meanwhile, the limit flange does not occupy the space of the accommodating cavity 210. The material of limit flap 220 may be any number of materials, such as metal, for example stainless steel.

In the technical scheme of the application, the liner 200 assembly comprises a liner 200 and a sealing frame 100 arranged at the top of the liner 200, when the sealing frame 100 is matched with the liner 200, the top of the liner 200 is inserted into a sealing groove 110 on one side of the sealing frame 100 facing the liner 200, when water splashes to the top of the liner 200, the top of the liner 200 is wrapped by the sealing groove 110, and the water is blocked by the sealing frame 100, so that the water cannot contact the top of the liner 200, and cannot flow out from the top of the liner 200, and the sealing effect between the liner 200 and the sealing frame 100 is realized; when the sealing frame 100 is in sealing connection with the housing of the dish washer, water cannot flow out beyond the sealing frame 100, so that the sealing state of the whole dish washer is realized, and the stable work of the dish washer is facilitated; meanwhile, in order to further improve the connection stability of the inner container 200 and the sealing frame 100, the bayonet 120 is formed in the side wall of the sealing groove 110, the limit folded edge 220 is arranged at the edge of the opening of the inner container 200, when the inner container 200 is matched with the sealing frame 100, the limit folded edge 220 penetrates through the bayonet 120 and is clamped in the bayonet 120, when the sealing frame 100 and the inner container 200 are disassembled by external force, the limit folded edge 220 is matched with the bayonet 120 to prevent the sealing frame 100 from being separated from the inner container 200, so that the phenomenon that the sealing frame 100 is opened by mistake is avoided, and the stability of the matching of the sealing frame 100 and the inner container 200 is improved.

It should be noted that, the limit flange 220 may pass through the bayonet 120 from the inside of the seal groove 110, or may pass through the bayonet 120 from the outside of the seal groove 110 to enter the seal groove 110, in this embodiment, the edge of the opening is accommodated in the seal groove 110, and the limit flange 220 extends out of the seal groove 110 from the inside of the seal groove 110 through the bayonet 120. Both the limit flange 220 and the edge of the opening are accommodated in the sealing groove 110, so as to ensure the sealing performance of the opening of the liner 200. The edge of the self-sealing opening of the limit flange 220 extends into the bayonet 120, so that the free end of the limit flange 220 is outside the sealing frame 100, which is beneficial to disassembling the sealing frame 100 and the liner 200.

Regarding the specific structure of the limit flange 220, the limit flange 220 includes a transverse section 221, a vertical section 222 and a supporting section 223, one end of the transverse section 221 is connected with the edge of the opening, the other end is connected with one end of the vertical section 222, the other end of the vertical section 222 is connected with the supporting section 223, and the supporting section 223 passes through the bayonet 120. The transverse section 221 extends horizontally from the opening edge in a direction away from the liner 200, the vertical section 222 extends vertically downward from the transverse section 221, and the supporting section 223 extends from the vertical section 222 in a bending manner in a direction away from the liner 200.

By the arrangement, when the sealing frame 100 and the liner 200 are subjected to the disassembling force in the vertical direction, the force is transmitted in the vertical direction due to the existence of the transverse section 221 and the vertical section 222, and a large horizontal component force cannot exist, so that the sealing frame 100 and the liner 200 cannot generate large relative displacement and shake after being stressed, and stability of the sealing frame 100 and the liner 200 is improved.

In some embodiments, to prevent sealant within the seal groove 110 from overflowing the bayonet 120, a side of the support section 223 facing away from the opening abuts against an upper side of the bayonet 120, and a side of the support section 223 facing toward the opening abuts against a lower side of the bayonet 120. That is, one end of the supporting section 223 close to the vertical section 222 is abutted against the upper edge of the bayonet 120, and one end of the supporting section 223 far away from the vertical section 222 is abutted against the lower edge of the bayonet 120, so that the supporting section 223 seals the bayonet 120 to avoid the sealant overflowing from the sealing groove 110. In order to reduce the angle between the support section 223 and the upper and lower edges of the bayonet 120, the support section 223 is arranged in an arcuate sheet shape. Compared with the support section 223 which is arranged in a linear type, the arc-shaped sheet shape is more beneficial to preventing glue overflow.

In some embodiments, to further prevent sealant in the sealing groove 110 from overflowing, the liner 200 assembly further includes a sealing flange 250, the sealing flange 250 is connected to a side of the limit flange 220 facing the sealing groove 110, and the sealing flange 250 is disposed corresponding to the bayonet 120. The sealing flange 250 is connected to the vertical section 222 and extends vertically downward from the vertical section 222 to just block the bayonet 120 to further reduce sealant overflow.

In order to improve the installation stability of the liner 200, the liner 200 assembly further includes a limiting side 230, and the limiting side 230 is connected to the opening edge of the liner 200. The limit side 230 is connected with the outer frame 300 to achieve connection of the liner 200 with the outer frame 300, thereby enhancing installation stability of the liner 200.

In order to improve the connection stability between the liner 200 and the sealing frame 100 and the connection stability between the liner and the outer frame 300, the limit side edges 230 and the limit folds 220 are alternately arranged along the edge of the liner 200, and an elastic gap 240 is formed between the limit side edges 230 and the limit folds 220. Through the alternate arrangement of the limit folded edges 220 and the limit side edges 230, the direct connection between the liner 200 and the sealing frame 100 and the outer frame 300 is alternatively arranged, so that the stress of the liner 200 is uniform. Thereby contributing to an improvement in the stability of the liner 200.

In order to improve the installation stability of the liner 200, the liner 200 assembly further includes an outer frame 300, the outer frame 300 has an installation space 310, the liner 200 is installed in the installation space 310, and the sealing frame 100 is connected with the outer frame 300 to fix the liner 200.

According to the technical scheme, the outer frame 300 with the installation space 310 is arranged, the liner 200 is firstly installed in the installation space 310, then the top of the liner 200 is installed through the sealing frame 100, and then the sealing frame 100 is connected with the outer frame 300, so that the liner 200 is limited (clamped) in an area surrounded by the sealing frame 100 and the outer frame 300; more specifically, the outer frame 300 limits the degrees of freedom of the inner container 200 in front, rear, left, right, and down, and the sealing frame 100 cooperates with the outer frame 300 to limit the degree of freedom of the inner container 200 to move upward; by the arrangement, the whole assembly and limitation of the liner 200 are avoided, the effective area (the side wall and the bottom wall forming the liner 200 and the part surrounding the accommodating cavity 210 are formed) of the liner 200 is not needed, the liner 200 is prevented from being assembled and processed, the integrity of the liner 200 is maintained to the greatest extent, the processing technology of the liner 200 is reduced, the adaptability of the liner 200 assembly is greatly improved, materials (such as ceramics, metal and glass) inconvenient to process can be used for manufacturing the liner 200, and the installation efficiency of the liner 200 assembly is improved.

The buffer engagement between bladder 200 and outer frame 300 is described below,

a liner 200 assembly for a dishwasher, comprising:

a liner 200, wherein the liner 200 is provided with a containing cavity 210;

an outer frame 300, wherein the outer frame 300 has an installation space 310, and the liner 200 is installed in the installation space 310;

the cushion pad 500 is disposed between the bottom of the outer frame 300 and the bottom wall of the liner 200.

The cushion 500 may be in the form of a flexible member such as a spring, a rubber column, a rubber pad, or a flexible body such as a fleece, a sponge, a foam, or the like. That is, the cushion 500 is made of one or more materials of sponge, foam, plastic, and rubber. The shape of the material can be columnar, sheet-like and the like. There may be many positions where the cushion pad 500 is provided, such as between the bottom plate of the liner 200 and the bottom wall of the outer frame 300. In some embodiments, the left and right sides of the outer frame 300 have limiting plates, and a cushion pad 500 is disposed between the limiting plates and the outer side wall of the inner container 200. When the liner 200 is shifted or rocked during the operation, transportation, and installation, the liner 200 presses the cushion pad 500 instead of directly colliding with or pressing the outer frame 300, so that the impact received by the liner 200 is effectively buffered, and the liner 200 is effectively protected.

In the technical scheme of the application, the buffer pad 500 is arranged between the bottom wall of the liner 200 and the bottom wall of the outer frame 300, when the vibration of the liner 200 is transmitted to the buffer pad 500 outwards, the vibration is transmitted in the buffer pad 500 and absorbed, thereby blocking the transmission of the vibration, reducing the vibration of the outer frame 300 and reducing the noise generated by the outer frame 300; noise generated by the liner 200 and its internal components is greatly attenuated when passing through the cushion 500, and at this time, the cushion 500 plays a role in noise reduction, and noise is greatly reduced in various aspects by the arrangement of the cushion 500.

In order to ensure the buffer effect of the buffer pad 500 and the installation stability of the buffer pad 500, the buffer pad 500 includes a support plate 510, a guide post 520, and an anti-trip 530, wherein one end of the guide post 520 is connected with the support plate 510, and the other end is connected with the anti-trip 530. The supporting piece 510, the guide post 520 and the anti-tripping device 530 can be integrally formed and arranged, or can be connected with each other after being arranged in a split manner.

In this embodiment, the supporting piece 510 may be connected to the bottom of the inner container 200 or may be connected to the bottom of the outer frame 300, and specifically, the supporting piece 510 is fixed to the bottom of the inner container 200 or fixed to the bottom of the outer frame 300. The fixing modes are various, such as gluing, buckling connection, clamping groove installation and the like. In order to improve the mounting stability of the support sheet 510, a mounting groove 260 is formed on the bottom surface of the liner 200, or a mounting groove 260 is formed on the bottom of the outer frame 300, and the support sheet 510 is mounted in the mounting groove 260. By arranging the mounting groove 260, the supporting piece 510 is mounted in the mounting groove 260, so that the surface of the supporting piece 510, which is away from the guide post 520, is attached and fixed with the bottom of the mounting groove 260, and the side wall of the supporting piece 510 is attached with the groove wall of the mounting groove 260. The shape of the mounting groove 260 may be varied, such as a circle, an ellipse, a polygon, etc., and is exemplified as a kidney shape similar to the shape of the support sheet 510. By the arrangement of the support sheet 510, the cushion pad 500 has a sufficient contact area with the inner container 200 or the outer frame 300, so that the installation of the installation sheet is stable and reliable.

The anti-tripping device 530 may have a plurality of forms, such as a buckle comprising a connecting arm and a buckling part, and in the present application, the anti-tripping device 530 is arranged in a frustum, a large diameter end of the anti-tripping device is connected with the guide post 520, and a small diameter end of the anti-tripping device is arranged away from the guide post 520. By arranging the anti-tripping device 530 in the shape of a truncated cone, the anti-tripping device 530 is more easily matched with structures such as holes, grooves and the like, is difficult to fall off, and is beneficial to the installation of the anti-tripping device 530 and the improvement of the installation stability of the anti-tripping device 530.

It should be noted that, in some embodiments, to further improve the installation convenience of the trip preventing device 530, one side or two opposite sides of the trip preventing device 530 have a trimming 540. I.e. one side or the opposite sides of the truncated cone are cut away with a part so that part of the side wall of the truncated cone is planar. The plane may be a vertical plane, i.e. the direction of the cut-out is along the axis of the truncated cone.

The anti-release 530 may be connected to the inner container 200 or may be connected to the outer frame 300, where the bottom of the outer frame 300 is provided with a mounting hole 320, or the bottom surface of the inner container 200 is formed with a mounting hole 320, and the anti-release 530 is fastened in the mounting hole 320. The anti-trip 530 has elasticity, and the space of the mounting hole 320 is smaller than the maximum radial dimension of the anti-trip 530, and when the anti-trip 530 is mounted in the mounting hole 320, the anti-trip 530 is tightly fitted with the mounting hole 320. In this way, the mounting stability of the anti-trip 530 is advantageously improved.

The application also provides a dish washer, which comprises a shell and an inner container 200 assembly, wherein the specific structure of the inner container 200 assembly refers to the embodiment, and as the dish washer adopts all the technical schemes of all the embodiments, the dish washer at least has all the beneficial effects brought by the technical schemes of the embodiments, and the description is omitted. The housing has an accommodating space, and the liner 200 assembly is detachably mounted in the mounting space 310 of the housing.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the scope of the application, and all equivalent structural changes made by the description of the present application and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the application.

Claims (7)

1. A liner assembly, comprising:

the inner container is provided with an accommodating cavity with an opening at the top, and the edge of the opening of the inner container is provided with a limit folded edge;

the sealing frame is arranged at the top of the inner container, a sealing groove is formed in one side of the sealing frame, facing the inner container, of the sealing frame, and a bayonet is formed in the side wall of the sealing groove;

the limiting folded edge is clamped into the bayonet;

the limiting flanging comprises a transverse section, a vertical section and a supporting section, one end of the transverse section is connected with the edge of the opening, the other end of the transverse section is connected with one end of the vertical section, the other end of the vertical section is connected with the supporting section, and the supporting section penetrates through the bayonet;

the side surface of the support section, which is away from the opening, is abutted against the upper side of the bayonet, and the side of the support section, which faces the opening, is abutted against the lower side of the bayonet;

the inner container assembly further comprises a sealing folded edge, the sealing folded edge is connected with the vertical section, extends vertically downwards from the vertical section and just shields the bayonet.

2. The liner assembly of claim 1 wherein the rim of the opening is received in the seal groove, the limit flap extending from within the seal groove through the bayonet.

3. The liner assembly of claim 1 wherein the support sections are arranged in an arcuate sheet configuration.

4. A liner assembly according to any one of claims 1 to 3, further comprising a stop edge connected to an open edge of the liner.

5. The liner assembly of claim 4 wherein the stop edges alternate with the stop flaps along the edges of the liner, the stop edges and the stop flaps having a spring gap therebetween.

6. A liner assembly according to any one of claims 1 to 3, further comprising an outer frame having a mounting space, the liner being mounted in the mounting space, the sealing frame being connected to the outer frame to secure the liner.

7. A dishwasher comprising a liner assembly as claimed in any one of claims 1 to 6.