CN210871400U - Inner container structure of dish washing machine - Google Patents

Inner container structure of dish washing machine Download PDF

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Publication number
CN210871400U
CN210871400U CN201920809823.7U CN201920809823U CN210871400U CN 210871400 U CN210871400 U CN 210871400U CN 201920809823 U CN201920809823 U CN 201920809823U CN 210871400 U CN210871400 U CN 210871400U
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Prior art keywords
liner
inner container
main body
connecting flange
wall
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CN201920809823.7U
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Chinese (zh)
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孙洪起
杨林
张永奎
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Qingdao Haier Co Ltd
Qingdao Haier Dishwasher Co Ltd
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Qingdao Haier Co Ltd
Qingdao Haier Dishwasher Co Ltd
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Abstract

The utility model discloses a dish washer inner bag structure, include: the inner container comprises an inner container bottom, an inner container peripheral wall and a connecting flange connected to the top opening end of the inner container peripheral wall, wherein the inner container bottom, the inner container peripheral wall and the connecting flange are connected in a lap joint welding mode, mutually matched assembling structures are arranged at lap joints, and the assembling structures are mutually matched compression structures respectively arranged on the inner container bottom, the inner container peripheral wall and the connecting flange. Through be provided with the die mould structure of mutually supporting at the overlap joint part, not only play the effect of location, can also strengthen the holistic leakproofness of inner bag structure, can also eliminate inner bag structure surface indentation simultaneously, reduce corruption and spot welding.

Description

Inner container structure of dish washing machine
Technical Field
The utility model relates to a dish washer technical field, specifically speaking relates to a dish washer inner bag structure.
Background
Along with the improvement of living standard, people have higher and higher requirements on living quality, people pay more attention to health and sanitation, and the dishwasher provides health and sanitation for people and simultaneously enables the life of people to become simple and fast, so the dishwasher is more and more popularized in the life of people. The dishwasher liner is one of the core components of the dishwasher, the liner is a platform of the dishwasher, and other components are associated with the liner. The most common processing mode in the existing dishwasher liner technology is as follows: the inner container is divided into a plurality of parts, each part is punched and formed, and then the inner container of the dish washing machine is welded by adopting a roll welding mode. The welding mode has low cost and low requirement on processing precision, but the problems of water leakage, steam leakage and the like can be caused if the structure is not reasonable, and welding spots are easy to appear on the surface of the liner to influence the integral aesthetic property.
The invention patent of application number 201810427461.5 discloses an inner container structure of a dish washing machine, which comprises a bottom plate, a frame and a top plate, wherein one end of the bottom plate is open, the frame is of a structure with two open ends, the top plate is also of a structure with two open ends, the bottom plate is connected with the bottom end of the frame, the opening of the bottom plate corresponds to the lower end opening of the frame, and the top plate is connected with the top end of the frame. The lower terminal surface of roof and the contact of frame upper end lateral wall, the lower extreme lateral wall of frame and bottom plate lateral wall or coincidence then weld in this application, adopt this kind of mode welded inner bag structure to have following problem:
1. because the lower terminal surface of roof and frame upper end lateral wall, the lower extreme lateral wall of frame and bottom plate lateral wall are straight face, and the outer surface can produce the indentation of large tracts of land after two straight face laminating welding, and be perishable, easily produce the welding spot, need carry out optimization processing through die mould or polishing process.
2. Because the two straight surfaces are jointed, if the welding process is not good, the gap between the two jointed surfaces is easy to cause the problems of water leakage and steam leakage.
3. Because the two straight surfaces are directly lapped, if the welding process is not good, no effective positioning structure exists, and the top plate and the frame, and the frame and the bottom plate are easy to slide and separate.
In view of this, the present invention is especially provided.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the defects of the prior art, and provides a dish washer liner structure with strong positioning effect, good sealing performance and less welding spots.
In order to realize the purpose, the utility model adopts the following technical scheme:
a dishwasher liner structure comprising: the inner container comprises an inner container body with an opening at the top, and a connecting flange connected to the opening end of the inner container body, wherein the connecting flange and the inner container body are connected in a lap-joint welding mode, and lap-joint parts are provided with assembling structures matched with each other.
Furthermore, the assembling structure is a compression structure which is arranged on the connecting flange and the inner container main body and matched with each other.
Furthermore, the inner edge of the connecting flange extends downwards to form a first overlapping surface, the upper edge of the liner main body extends upwards to form a second overlapping surface, the compression structure comprises a first compression structure arranged on the first overlapping surface and a second compression structure arranged on the second overlapping surface, and the first compression structure and the second compression structure are matched with each other and fixed into a whole through welding.
Furthermore, first die mould structure is the evagination die mould of setting to the outer sunken of inner bag main part on first faying face, second die mould structure is the depressed face of setting to the outer sunken formation of inner bag main part on the second faying face, the internal surface of depressed face with evagination die mould surface phase-match, first die mould structure and second die mould structure closely laminate.
Furthermore, the second faying surface includes the turn portion that the upper edge of inner bag main part was buckled to inner bag main part outside and the extension that upwards extends and form, second die mould structure sets up on the extension of second faying surface, the terminal butt of first faying surface is on the turn portion of second faying surface, the internal face of first faying surface and the internal face of inner bag main part flush the setting.
Furthermore, the connecting flange is at least arranged on the edge of one side wall of the inner container main body, and the assembling structures are arranged at intervals along the side wall of the inner container main body;
preferably, the assembling structure is a strip-shaped profiling structure arranged on the side wall of the inner container main body and the connecting flange.
Furthermore, the connecting flange is an annular connecting flange arranged around the edge of the opening of the inner container main body, and the assembling structure is a compression structure arranged around the peripheral wall of the inner container main body at intervals;
preferably, the assembling structure is an annular compression structure arranged around the peripheral wall of the liner main body and the connecting flange.
Furthermore, the inner container main body comprises an inner container bottom and an inner container peripheral wall, the inner container bottom is provided with a containing cavity with an opening at the top, the inner container peripheral wall and the inner container bottom are connected in a lap joint welding mode, and the lap joint part is provided with an assembling structure matched with each other.
Furthermore, the assembling structure is a profiling structure which is arranged on the bottom of the inner container and the peripheral wall of the inner container and matched with each other.
Furthermore, the inner container bottom comprises an inner container bottom wall and an inner container bottom peripheral wall, the upper edge of the inner container bottom peripheral wall extends upwards to form a third overlapping surface, the lower edge of the inner container peripheral wall extends downwards to form a fourth overlapping surface, the compression structure comprises a third compression structure arranged on the third overlapping surface and a fourth compression structure arranged on the fourth overlapping surface, and the third compression structure and the fourth compression structure are mutually matched and fixed into a whole through welding.
Compared with the prior art, the utility model following beneficial effect has at least:
(1) the utility model discloses a dish washer inner bag structure adopts overlap joint welded mode between at the bottom of inner bag perisporium and flange, inner bag perisporium and the inner bag to set up the assembly structure of mutual location at the overlap joint part, strengthened the location effect between at the bottom of the inner bag, inner bag perisporium, the flange three, the effectual phenomenon of having avoided appearing sliding between the three, breaking away from takes place.
(2) The utility model discloses a dish washer inner bag structure, assembly structure is mutually supported die mould structure, and not only the shaping is simple, and die mould structure's setting has effectually blockked that the washing water flows in the outside from the gap between the wall of laminating mutually at the bottom of inner bag perisporium and flange, inner bag perisporium and the inner bag in addition, has strengthened the holistic leakproofness of inner bag structure, has improved the life of inner bag structure.
(3) The inner container structure of the dish-washing machine of the utility model is characterized in that a convex compression structure is processed on the binding surface in advance, so that the two surfaces are contacted and are heated by electricity, and then the convex points of the compression structure are compressed to form welding seams, thereby achieving the purpose of improving the pressure intensity and the current density of the binding surface; meanwhile, the planar electrode is arranged on the inner side, and stress is concentrated at the position of the convex point of the profiling structure, so that the pressure intensity and the current density of the contact surface of the electrode and the inner side stainless steel part can be reduced, the indentation on the surface of the inner side stainless steel is eliminated, and corrosion and welding spots are reduced.
(4) In addition, if there are machining error or clearance between inner bag perisporium and flange, the inner bag bottom and the inner bag perisporium, can reduce/adjust this type of cooperation clearance through the volume of die mould structure salient point that collapses, the effectual influence of avoiding machining error to whole inner bag structure shaping.
The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.
Drawings
FIG. 1 is an exploded view of the inner container structure of the dish washer of the present invention;
FIG. 2 is a longitudinal sectional view of the inner container structure of the dish washer of the present invention;
FIG. 3 is an enlarged view of the portion A in FIG. 2, namely, a schematic structural view of the connection portion of the connecting flange and the liner body;
FIG. 4 is an enlarged view of B in FIG. 2, namely a schematic structural view of the connection between the peripheral wall of the inner container and the bottom of the inner container;
FIG. 5 is a schematic structural diagram of a dishwasher according to a second embodiment of the present invention;
FIG. 6 is an exploded view of the inner container in the second embodiment of the present invention;
FIG. 7 is a schematic structural view of a door of a dishwasher in accordance with a second embodiment of the present invention;
FIG. 8 is an enlarged schematic view of a partial structure of a dishwasher door according to a second embodiment of the present invention;
fig. 9 is an assembly view of the door body rib and the connecting flange according to the second embodiment of the present invention;
fig. 10 is a schematic view of a door body pressure type rib and a connecting flange according to a second embodiment of the present invention;
fig. 11 is a schematic view of a flat connecting flange according to a second embodiment of the present invention;
fig. 12 is a schematic view of a fillet connecting flange in the second embodiment of the present invention;
fig. 13 is a schematic structural view of a door corner fitting in the second embodiment of the present invention;
FIG. 14 is a schematic structural view of a three-dish washer liner according to an embodiment of the present invention;
FIG. 15 is a schematic view of a straight connecting flange on a side plate of a dishwasher according to an embodiment of the present invention;
FIG. 16 is a schematic view of a flat attachment flange on the back plate of a third dishwasher in accordance with an embodiment of the present invention;
FIG. 17 is a schematic view of a fillet connecting flange on both sides of a back plate of a three-dish washer according to an embodiment of the present invention;
FIG. 18 is a schematic front view of a fillet connecting flange on both sides of a back plate of a three-dish washer according to an embodiment of the present invention;
FIG. 19 is a schematic view of the connection between the flat flange and the outer panel of a three-dish washer according to an embodiment of the present invention;
FIG. 20 is a schematic structural view of a four-dish washer liner according to an embodiment of the present invention;
FIG. 21 is a schematic structural view of a liner of a five-dish washing machine according to an embodiment of the present invention;
FIG. 22 is a schematic structural view of a main body of a six-dish washer liner according to an embodiment of the present invention;
fig. 23 is an enlarged schematic view of the overlapping part of the six side plates of the embodiment of the present invention;
FIG. 24 is a schematic front view of a six-inner container according to an embodiment of the present invention;
fig. 25 is a schematic partial enlarged view of a six-recessed surface according to an embodiment of the present invention;
FIG. 26 is a schematic view of a seventh dishwasher liner according to an embodiment of the present invention;
fig. 27 is a side view of the eight inner container bottom according to the embodiment of the present invention;
fig. 28 is a plan view of the eight inner container bottom according to the embodiment of the present invention;
fig. 29 is a schematic view of the bottom structure of the nine inner containers according to the embodiment of the present invention.
In the figure: 200. a liner body; 201. a front plate; 2011. an installation port; 2012. a first splice; 2013. a second splice; 202; a back plate; 203. a side plate; 210. the bottom of the inner container; 211. the bottom peripheral wall of the inner container; 2111. a bottom front wall of the inner container; 2112. the left wall of the inner container bottom; 2113. the right wall of the inner container bottom; 2114. the back wall of the inner container bottom; 2101. the bottom wall of the inner container; 2102. an installation position; 2103. a mounting port of the sprayer; 2104. a support body; 2105. a groove structure; 2106. a third faying surface; 220. the peripheral wall of the inner container; 222. splicing positions; 221. a splice; 2211. the other end; 2212. a first bending structure; 2213. a first extension structure; 2201. a second faying surface; 22011\21061 and a turning part; 22012\21062 and an extension part; 2202. a fourth faying surface; 51. a first profiling structure; 52. a second profiled structure; 53. a third profiling structure; 54. a fourth profiling structure; 2033. a recessed surface; 20331. a horizontal bending surface; 20332. a vertical bending surface; 100. a connecting flange; 1001. a flat connecting flange; 10011. a door body connecting plate; 10012\10022 and a lapping plate; 10023. a first transitional connecting edge; 100231, a first outer edge; 100232, a first inner edge; 10024. a second transitional connecting edge; 100241, a second outer edge; 100242, a second inner edge; 1002. a fillet connecting flange; 10021. a door body connecting structure; 1003. a U-shaped connecting flange; 1004. a first faying surface; 301. a door body; 3011. rolling the convex ribs; 3012. pressing the convex ribs; 30121. a first bent portion; 30122. a second bent portion; 3013. a corner fitting; 30131. a corner piece base; 30132. a corner fitting plug; 302. an outer panel; 3021. a side plate connecting plate; 400. bottom, 500, collet.
Detailed Description
To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments, and the following embodiments are used for illustrating the present invention, but do not limit the scope of the present invention.
In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Example one
As shown in fig. 1 to 4, the utility model provides a liner structure of dish washer, the liner structure adopts stainless steel for the whole aesthetic property of dish washer promotes greatly, and stainless steel's cleanness is simple convenient simultaneously, and the user experiences in the use and feels good, the utility model provides a liner structure includes: the inner container comprises an inner container main body 200 with an opening at the top and a connecting flange 100 connected to the opening end of the inner container main body 200, wherein the connecting flange 100 and the inner container main body 200 are connected in a lap welding mode, and the lap parts are provided with assembling structures matched with each other. The positioning effect between the inner container main body 200 and the connecting flange 100 is enhanced through the arranged assembling structure, and the phenomena of slippage and separation between the inner container main body and the connecting flange in the welding process or due to poor welding process treatment are effectively avoided.
In the above scheme, the assembly structure can be a clamping table and a clamping groove respectively arranged on the connecting flange 100 and the inner container main body 200, the positioning effect of the connecting flange 100 and the inner container main body 200 is enhanced through the matching of the clamping table and the clamping groove, preferably, the assembly structure is a compression structure mutually matched on the connecting flange 100 and the inner container main body 200, the assembly structure adopts a compression structure, the forming is simple, and the manufacturing efficiency of the inner container structure is improved.
With reference to fig. 2 and 3, the inner edge of the connecting flange 100 extends downward to form a first overlapping surface 1004, the upper edge of the inner container body 200 extends upward to form a second overlapping surface 2201, the profiled structure comprises a first profiled structure 51 arranged on the first overlapping surface 1004 and a second profiled structure 52 arranged on the second overlapping surface 2201, and the first profiled structure 51 and the second profiled structure 52 are mutually matched and fixed into a whole by welding. Through the cooperation of first die mould structure and second die mould structure, the effectual gap inflow outside that has blockked between the wall that washing water can directly follow first faying face and second faying face and laminate mutually has strengthened the holistic leakproofness of inner bag structure, has improved the life of inner bag structure.
With reference to fig. 3, the first pressing structure 51 includes an outward pressing structure disposed on the first overlapping surface 1004 and recessed toward the outside of the inner container body 200, the second pressing structure 52 includes a recessed surface disposed on the second overlapping surface 2201 and recessed toward the outside of the inner container body 200, an inner surface of the recessed surface matches with an outer surface of the outward pressing structure, the first pressing structure 51 and the second pressing structure 52 are tightly attached to each other and are electrically heated, and then the protruding points are collapsed to form a welding line, so that the purpose of improving the pressure intensity and the current density of the attaching surface is achieved, meanwhile, the planar electrode is disposed on the inner side, and due to the fact that stress is concentrated on the protruding points on the top end of the outward pressing structure, the pressure intensity and the current density of the contact surface of the planar electrode and the inner side stainless steel member can be reduced, thereby eliminating the indentation on the inner side stainless steel. Meanwhile, the current density of the planar electrode is small, the heat dissipation is good, and the abrasion of the electrode is small, so that the maintenance and repair cost of the electrode is greatly reduced.
Referring to fig. 3, in this embodiment, the second overlapping surface 2201 includes a turning portion 22011 formed by bending the upper edge of the liner main body 200 toward the outside of the liner main body 200 and an extending portion 22012 formed by extending upward, the second overlapping surface 2201 forms an avoiding space capable of accommodating the first overlapping surface 1004, the second profiling structure 52 is disposed on the extending portion 22012 of the second overlapping surface 2201, and the end of the first overlapping surface 1004 abuts against the turning portion 22011 of the second overlapping surface 2201. The turning part not only plays a role in supporting the connecting flange, but also enables the inner wall surface of the first lap joint surface and the inner wall surface of the inner container main body to be flush arranged through the arrangement of the turning part, so that a user looks that the inner wall surface of the inner container structure is flat and integral when looking from the inner side, and the integral attractiveness is enhanced.
In this embodiment, the connecting flange 100 is at least disposed on an upper edge of a sidewall of the liner main body 200, and the assembling structures are disposed at intervals along the sidewall of the liner main body 200; preferably, the assembling structure is a strip-shaped pressing structure which is arranged on the side wall of the liner main body 200 and the connecting flange 100 and is through.
Preferably, the connecting flange 100 is an annular connecting flange 100 arranged around the opening edge of the liner main body 200, and the assembling structure is a compression structure arranged around the circumferential wall of the liner main body 200 at intervals; preferably, the assembling structure is a penetrating annular pressing structure provided on the upper end of the peripheral wall of the liner main body 200 and the connecting flange 100. Through set up the die mould structure that cyclic annular link up on the perisporium of inner bag main part 200 and flange 100, further strengthened the stability between inner bag main part and the flange, simultaneously through setting up the die mould structure that the round was mutually supported, can make the clearance homoenergetic between the whole wall of inner bag main part and flange laminating sealed, eliminate sealed dead angle, further promote sealed effect.
In this embodiment, the liner main body 200 is formed by splicing the liner bottom 210 and the liner peripheral wall 220, and the connection manner between the liner bottom 210 and the liner peripheral wall 220 is the same as the connection manner between the liner main body 200 and the connection flange 100, which will be described in detail below with reference to the accompanying drawings.
Referring to fig. 1 and 4, the inner container main body 200 includes an inner container bottom 210 and an inner container peripheral wall 220, the inner container bottom 210 has an accommodating cavity with an open top, the inner container peripheral wall 220 and the inner container bottom 210 are connected by lap welding, and the lap parts are provided with mutually matched assembling structures. The positioning effect between the liner bottom 210 and the liner peripheral wall 220 is enhanced through the arranged assembling structure, and the phenomena of slippage and separation between the liner bottom and the liner peripheral wall are effectively avoided in the welding process or due to poor welding process treatment. Preferably, the assembly structure is a compression structure which is arranged on the inner container bottom 210 and the inner container peripheral wall 220 and matched with each other, the assembly structure adopts the compression structure, the forming is simple, and the manufacturing efficiency of the inner container main body is improved.
Specifically, the inner bag end 210 includes the inner bag end diapire and is connected the inner bag end perisporium that upwards turns over a formation with the inner bag end diapire, and the perisporium is outward inclined around inner bag diapire circumference and sets up the little holding cavity structure that has that forms an opening and outwards diverge, the perisporium upper edge upwards extends and forms third faying face 2106 at the bottom of the inner bag, 220 lower limb downwardly extending of inner bag perisporium forms fourth faying face 2202, and the perisporium upwards extends and forms third faying face 2106 at the bottom of the inner bag and makes the concatenation position be located the plane, and adopts the lapped structure to make two concatenation parts can prevent machining error, can stabilize the overlap joint, then welded fastening. In this embodiment, the profiling structure includes a third profiling structure 53 disposed on the third overlapping surface 2106 and a fourth profiling structure 54 disposed on the fourth overlapping surface 2202, and the third profiling structure 53 and the fourth profiling structure 54 are mutually matched and fixed integrally by welding. Through the cooperation of third die mould structure and fourth die mould structure, the effectual gap that has blockked between the wall that has blockked washing water from third faying surface and fourth faying surface laminating mutually flows into the inner bag main part outside, has strengthened the leakproofness of inner bag main part, has improved the life of inner bag main part.
With reference to fig. 4, the fourth pressed structure 54 includes an outward-protruding pressed structure that is disposed on the fourth faying surface 2202 and is recessed toward the outside of the inner container main body 200, the third pressed structure 53 includes a recessed surface that is disposed on the third faying surface 2106 and is recessed toward the outside of the inner container main body 200, an inner surface of the recessed surface matches with an outer surface of the outward-protruding pressed structure, the third pressed structure 53 and the fourth pressed structure 54 are tightly attached to each other and are electrically heated, and then the protruding points are collapsed to form a welding seam, so that the purpose of improving the pressure intensity and the current density of the attaching surface is achieved, meanwhile, a planar electrode is employed on the inner side, and due to the stress concentrated on the protruding points on the top end of the outward-protruding pressed structure, the pressure intensity and the current density of the contact surface of the planar electrode and the inner side stainless steel member can be reduced, thereby eliminating the indentation of. Meanwhile, the current density of the planar electrode is small, the heat dissipation is good, and the abrasion of the electrode is small, so that the maintenance and repair cost of the electrode is greatly reduced.
Referring to fig. 4, in this embodiment, the third overlapping surface 2106 includes a turning part 21061 and an extending part 21062, wherein the turning part 21061 is bent toward the outside of the liner main body 200 from the upper edge of the peripheral wall of the liner bottom, the third overlapping surface 2106 forms an escape space capable of accommodating a fourth overlapping surface 2202, the third profiling structure 53 is disposed on the extending part 21062 of the third overlapping surface 2106, and the end of the fourth overlapping surface 2202 abuts against the turning part 21061 of the third overlapping surface 2106. The turning part arranged through the turning part not only plays a role of supporting the peripheral wall of the liner, but also can enable the inner wall surface of the fourth lapping surface and the inner wall surface of the bottom peripheral wall of the liner to be arranged in a flush mode, so that a user looks that the inner wall surface of the liner body is flat and integral when looking from the inner side, and the integral attractiveness is enhanced.
In this embodiment, the assembling structure may be disposed at intervals along one sidewall of the liner bottom 210, or may be a through strip-shaped profiling structure disposed on the sidewall of the liner bottom and the sidewall of the liner. Preferably, the assembling structure is a profiling structure arranged around the bottom peripheral wall of the inner container at intervals; more preferably, the assembling structure is a penetrating annular compression structure arranged at the upper end of the bottom peripheral wall of the inner container and the lower end of the peripheral wall of the inner container. Through set up the die mould structure that cyclic annular link up on inner bag perisporium and inner bag end, further strengthened the stability between the inner bag perisporium and the inner bag end, simultaneously through setting up the die mould structure that the round was mutually supported, can make the inner bag end and the clearance homoenergetic between the whole wall of inner bag perisporium laminating sealed, eliminate sealed dead angle, further promote sealed effect.
In the embodiment, if processing errors or gaps exist between the peripheral wall of the inner container and the connecting flange, and between the bottom of the inner container and the peripheral wall of the inner container, the matching gaps can be reduced/adjusted by the amount of the convex points of the collapsing compression structure, and the influence of the processing errors on the forming of the whole inner container structure is effectively avoided.
In this embodiment, the connecting flange may be an integrated connecting structure, or may be formed by splicing a plurality of components, in this embodiment, the connecting flange is used to connect the door body and the outer side plate located outside the liner main body, and the structure of the connecting flange and the connection relationship between the connecting flange and the door body and the outer side plate are specifically described in the following through the second to fifth embodiments.
Example two
In this embodiment, the dish washer includes the inner bag structure and set up the door body 301 in inner bag main part 200 side in embodiment one, be equipped with assembly structure on the door body 301, through flange 100 and assembly structure with inner bag main part 200 and door body 301 body coupling, assembly structure's setting has avoided the sharp border of flange wall to scrape the colored door body, carries on spacingly to flange simultaneously, makes whole assembly effect compacter firm, the aesthetic property and the security promotion of dish washer.
As shown in fig. 5 and 6, the dishwasher provided by this embodiment includes a connecting flange 100, a liner body 200, a door 301, an outer panel 302, a bottom cover 400 and a bottom support 500, the liner body 200 is a dishwasher liner structure with an upward opening, for the convenience of assembly and use of the dishwasher, the bottom cover 400 and the bottom support 500 are arranged at the bottom of the liner, the bottom support 500 plays a role of supporting and fixing the liner structure, a guide rail for facilitating extension of the dishwasher is arranged at the lower part of the bottom support 500, the dishwasher generates noise during use, for reducing the noise during use of the dishwasher, for improving the integral aesthetic property of the dishwasher, the outer panels 302 are arranged outside two sides of the liner parallel to the extension direction of the dishwasher, the upper part of the outer panel 302 is connected with the top surface of the dishwasher liner body 200 through the connecting flange 100, the lower part of the outer panel 302 is connected with the bottom support 500, for the convenience of, the door body 301 is arranged on the dishwasher, the inner container main body 200 is connected with the door body 301 through the connecting flange 100, the lower part of the door body 301 is connected with the bottom support 500, and in order to improve the overall stability and safety of the dishwasher, the outer side plate 302 is connected with the inner container main body 200 and is simultaneously connected with the door body 301 and the bottom support 500.
As shown in fig. 7, the door body 301 includes an outer wall surface far away from the inner container body 200, four side edges of the outer wall surface are folded toward the inner container body 200 to form a plane, as the thickness of the door body 301, the door body 301 is more beautiful, the end of the plane is folded toward the center of the door body to form an inner wall surface, the inner wall surface and the inner container body 200 are integrally assembled, the inner container body 200 is displaced along with the door body 301 when the door body 301 is pulled, the assembly structure is a convex rib arranged on the inner wall surface, when the inner container body 200 and the door body 301 are connected, the connecting flange is located at the inner edge of the convex rib, which can limit the connecting flange, prevent the connecting flange from scratching the wall surface of the door body 301, and shield the connecting flange, so that the door body 301 is more beautiful when viewed from the outside, the door body 301 is formed by bending a plate, and, the manufacturing efficiency is improved.
The inner wall surface is parallel to the outer wall surface, the inner wall surface comprises four plates connected with four edges of the outer wall surface, two adjacent plates are integrally connected, the convex ribs are positioned on the inner wall surface connected with the upper edge of the outer wall surface of the door body and the side edges of two sides of the upper edge, the convex ribs on the inner wall surface connected with the upper edge of the outer wall surface of the door body are straight strip-shaped arranged along the width direction of the door body 301, the connecting flange 100 extends into an interlayer space between the inner wall surface and the outer wall surface of the door body 301 from the bottom of the convex ribs and is clamped through the convex ribs; protruding muscle on the internal face of being connected is whole to be the n type with the side of outer wall face, this shape is unanimous with flange 100's outer border molding, be convenient for carry out spacing joint to flange 100's outer border, the straight rectangular form of the middle part of protruding muscle for extending the setting of a body 301 direction of height, the both ends of the long rectangular form protruding muscle of straight are to the internal portion of a body 301 of buckling, the upper end is buckled the back and is flushed with the long rectangular form protruding muscle of the straight that extends of the body 301 width direction of extending, make the protruding muscle molding on the whole body connect as whole, the intensity of a body 301 has been strengthened, the stability and the aesthetic property of a body have been improved.
As shown in fig. 8, the ribs on the inner wall surface include a rolling rib 3011 and a profiling rib 3012, the rolling rib 3011 is located on the inner wall surface connected to the upper edge of the outer wall surface of the door body, the profiling rib 3012 is located on the inner wall surface connected to the side edges of the two sides of the door body, the rolling rib 3011 is a straight strip-shaped structure extending along the width direction of the door body 301, and the connecting flange extends into the interlayer space between the inner and outer wall surfaces of the door body 301 from the bottom of the rolling rib 3011 and is clamped by the ribs; the pressing type convex rib 3012 is n-shaped, the shape of the pressing type convex rib is consistent with the shape of the outer edge of the connecting flange 100, the outer edge of the connecting flange 100 is convenient to limit and clamp, the middle part of the pressing type convex rib 3012 is a straight strip-shaped rib arranged along the height direction of the door body 301, two ends of the straight strip-shaped convex rib bend towards the inside of the door body 301, the upper end part of the straight strip-shaped convex rib is bent and then flush with the turning convex rib 3011 extending along the width direction of the door body 301, the convex rib on the whole door body is connected integrally in a shape, the strength of the door body is enhanced, and the stability and the attracti.
Referring to fig. 9 and 11, the turning rib 3011 is a turned edge structure formed by turning over the end of the panel toward the inner container main body 200 and then turning over the panel toward the outer wall of the door, the end of the turned edge structure is flush with the wall before turning over, the top surface of the straight side plate of the inner container main body 200 is provided with a straight connecting flange 1001, the straight connecting flange 1001 is provided with a door connecting plate 10011 clamped with the turning rib 3011, the door connecting plate 10011 is clamped from the bottom of the turning rib 3011 during assembly, the wall of the door connecting plate 10011 close to the inner container main body 200 is attached to the wall of the turning rib 3011 far from the inner container main body 200, the bottom surface of the lower end turning structure of the turning rib 3011 is attached to the plane connected to the lower end of the door connecting plate 10011, the lower end turning structure of the turning rib 3011 prevents the edge of the inner wall of the door from directly contacting with the door connecting plate 10011, and generates noise during movement of the dishwasher, the scratch caused by friction in the pushing and pulling process of the dish washing machine is avoided, and meanwhile, a gasket can be arranged between the rolling convex rib 3011 and the door body connecting plate 10011, so that the noise generated during friction is reduced.
Because the door body connecting plate 10011 is made of stainless steel, after the door body connecting plate 10011 extends into the interlayer space between the inner wall surface and the outer wall surface of the door body 301 from the bottom of the rolling convex rib 3011, a certain upward elastic variable is provided, depending on the elastic variable, the door body connecting plate 10011 and the rolling convex rib 3011 are stably clamped together, when the door body 301 is pulled outwards, the rolling convex rib 3011 gives the outward thrust to the door body connecting plate 10011, the door body connecting plate 10011 drives the inner container main body 200 to move outwards, and when the door body 301 is pushed inwards, the thrust needs to be transmitted to the inner container main body 200 through the profiling convex rib 3012.
As shown in fig. 10, the profiled bead 3012 is a profiled structure protruding toward the inner container body 200, the profiled bead 3012 has a first bending portion 30121 and a second bending portion 30122, the first bending portion 30121 is located on the upper portion of the inner wall surface, and the end face of the first bending portion 30121 is integrally connected to the end face of the rolling bead 3011, so that the beads on the whole door body are integrally connected, the strength of the door body 301 is enhanced, and the stability and the aesthetic property of the door body are improved.
Referring to fig. 10 and 12, a rounded corner connecting flange 1002 is connected to the top surface of the rounded corner transition side plate on both sides of the straight side plate of the inner container body 200, the rounded corner connecting flange 1002 has a door body connecting structure 10021, the upper right-angle edge of the door body connecting structure 10021 is engaged with the inner edge of the first bending portion 30121, the side surface of the door body connecting structure 10021 away from the inner container body 200 is attached to the side surface of the inner container body 200 close to the inner wall of the door body, the door body connecting structure 10021 is provided with through holes, the inner wall of the door body is also provided with through holes, the through holes are coaxially arranged, one-to-one correspondence, the door body connecting structure 10021 is connected with the door body 301 through a fastening device, the profiled convex rib 3012 is arranged to prevent the sharp edge of the connecting flange from directly contacting with the inner wall of the door body, and limit the connecting flange simultaneously, so as to facilitate assembly and, the aesthetic property of the dishwasher is enhanced. With reference to fig. 5, 6 and 10, this embodiment further includes an outer panel 302 located on the side of the inner container main body 200, the outer panel 302 is provided with a side panel connection plate 3021, the side panel connection plate 3021 is long, an upper edge of an outer edge of the side panel connection plate 3021 is attached to a lower edge of the door body connection plate 10011, a lower edge of the side panel connection plate 3021 is attached to the second bending portion 30122 of the pressing convex rib 3012, a side edge of the side panel connection plate 3021 is engaged with a long edge of the middle portion of the pressing convex rib 3012, the side panel connection plate 3021 is provided with a through hole, an inner wall surface of the door body located inside the pressing convex rib 3012 is also provided with a through hole, the two through holes are coaxially arranged and are in a one-to-one correspondence manner, the side panel connection plate 3021 is connected with the door body 301 through a fastening device, the pressing convex rib 3012 is configured to prevent, the assembly installation of being convenient for, in addition, the protruding muscle of die mould can block to expose in the line of sight between the border of curb plate connecting plate, has strengthened dish washer's aesthetic property.
As shown in fig. 13, when the outer wall surface of the door body 301 in this embodiment is bent to the thickness of the door body, the adjacent bent plates form a gap at four corners of the door body (as shown in fig. 8), in order to improve the stability and the aesthetic property of the door body, a corner piece 3013 is disposed at the gap, the corner piece 3013 includes a corner piece base 30131 and a corner piece plug 30132, during assembly, the corner piece base 30131 is embedded in the interlayer between the inner wall surface and the outer wall surface of the door body 301, the part of the corner piece base 30131 matching with the corner piece plug 30132 is placed at the gap, then the corner piece plug 30132 is inserted into the corner piece base 30131, and after the corner piece 3013 is installed, the subsequent installation between the door body 301 and the connecting flange 100 is performed.
The connection flanges between the door 301, the outer panel 302 and the inner bag body 200 according to the present embodiment are further explained with reference to the third embodiment, the fourth embodiment and the fifth embodiment.
EXAMPLE III
In this embodiment, as shown in fig. 14, the liner main body 200 includes side plates having flat top surfaces, the side plates are connected by rounded transition side plates, and the connecting flange 100 includes a flat connecting flange 1001 connected to the top of the side plates and a rounded connecting flange 1002 connected to the rounded transition side plates.
The flat and straight flange 1001 is in a long strip shape, and the bottom surface of the flat and straight flange 1001 is flat and is consistent with the top surface of the connected side wall, and is connected with the top surface of the side wall and then is turned over to the outside of the inner container main body 200.
Fillet flange 1002 is the horn type, and fillet flange 1002's bottom surface is the circular arc face unanimous with fillet transition curb plate shape between the curb plate that links to each other, the terminal surface shape of fillet flange 1002 both sides is unanimous with adjacent straight flange 1001's terminal surface shape, the terminal surface of fillet flange 1002 both sides and adjacent straight flange 1001 concatenation, the top surface concatenation of fillet transition curb plate between bottom surface and the curb plate, the concatenation is turned over to inner bag main part 200 outside, and the welding seam only appears in the terminal surface of adjacent straight connection structure concatenation and the top surface of splicing with fillet transition curb plate, and the length greatly reduced of welding seam, the whole aesthetic property of dish washer improves.
With reference to fig. 6, 11 and 14, the inner container main body 200 includes a front panel 201 close to the door body 301, a door body connecting plate 10011 spliced with the door body 301 is provided on the straight connecting flange 1001, the straight connecting flange 1001 is located on the top surface of the front panel 201, the front panel 201 is connected with the door body 301 through the door body connecting plate 10011 on the straight connecting flange 1001, the door body connecting plate 10011 is located on the outer edge of the folding structure of the straight connecting flange 1001 folded to the outer side of the inner container, the outer edge of the folding structure is folded upwards to form a strip-shaped plate structure, and the connection relationship between the door body connecting plate 10011 and the door body 301 is detailed in embodiment two.
With reference to fig. 6, 14 and 15, the two outer panels 302 are respectively located on two sides of the inner container main body 200, which is parallel to the stretching direction of the dishwasher, the inner container main body 200 further includes two side panels 203 that are parallel to the stretching direction of the dishwasher, the lapping plate 10012 spliced with the outer panels 302 is arranged on the straight connecting flange 1001, the straight connecting flange 1001 is arranged on the top surface of the side panel 203, the straight connecting flange 1001 connected with the side panel 203 is turned over to the outside of the inner container and then turned over downwards to form a plane that is perpendicular to the door body 301 and parallel to the side panel 203, the planar bottom surface is turned over to the side panel 203 to form the horizontal lapping plate 10012 perpendicular to the side panel 203, the side panel 10012 is connected with the outer panel 302 through the straight connecting structure, and the structure has the function of connecting the inner container main body 200 and.
With reference to fig. 6, 12, 14, and 17, the inner container main body 200 further includes fillet transition side plates respectively located between the front plate 201 and the side plate 203, top surfaces of the fillet transition side plates are arc-shaped, downward arc-shaped flanges are provided on the fillet connecting flange 1002, bottom surfaces of the flanges are connected to top surfaces of the fillet transition side plates, a door body connecting structure 10021 spliced with the door body 301 and a lapping plate 10022 spliced with the side plates are further provided on the fillet connecting flange 1002, the fillet connecting flange 1002 is spliced to the fillet transition side plates, the adjacent straight connecting structure, the door body 301 and the outer side plate 302, and a connection relationship between the door body connecting structure 10021 and the door body 301 is detailed in embodiment two.
Fillet flange 1002 with the top surface connection of fillet transition curb plate is the angle type, has mutually perpendicular's first transitional coupling limit 10023 and second transitional coupling limit 10024 that are connected with two adjacent straight flange 1001 respectively, and first transitional coupling limit 10023 meets with second transitional coupling limit 10024 transition, and the door body connection structure 10021 who is connected with the door body 301 is located first transitional coupling limit 10023 and second transitional coupling limit 10024 transition department of meeting.
The first transitional connecting edge 10023 is perpendicular to the door body 301, the second transitional connecting edge 10024 is parallel to the door body 301, and the door body connecting structure 10021 is formed by turning over the end of the first transitional connecting edge 10023 connected with the second transitional connecting edge 10024, or, in another embodiment of this embodiment, the door body connecting structure 10021 is formed by extending outward the end of the second transitional connecting edge 10024 connected with the first transitional connecting edge 10023.
First transitional coupling limit 10023 includes first interior border 100232 and first outer border 100231, second transitional coupling limit 10024 includes second interior border 100242 and second outer border 100241, first outer border 100231 meets with second outer border 100241 perpendicularly, first interior border 100232 meets with second interior border 100242 circular arc transition, the circular arc face that first interior border 100232 meets with second interior border 100242 transition turns over downwards, the bottom surface links to each other with the top surface of fillet transition curb plate, first outer border 100231 turns over downwards and forms the plane that perpendicular to door body 301 is on a parallel with curb plate 203, door body connection structure 10021 turn over by the plane that first outer border 100231 turned over downwards and form, or, in the other embodiments of this embodiment, by the one end epitaxy of second outer border 100241.
First outer border 100231 turns over the plane bottom of turning over downwards to curb plate 203 direction and turns over the formation and curb plate 203 vertically horizontally lapping plate 10022, lapping plate 10022 fillet transition curb plate through fillet flange 1002 is connected with outer panel 302, be connected with door body 301 through door body connection structure 10021 fillet transition curb plate, border 100242 links to each other with adjacent straight flange 1001 respectively in first interior border 100232 and the second, this structure both plays the effect of connecting inner bag main part 200 and outer panel 302 and door body 301, fillet flange 1002 adopts stainless steel material simultaneously, make the whole aesthetic property of dish washer promote greatly, stainless steel material's cleanness is simple simultaneously, user's experience degree in the use is good.
With reference to fig. 6, 14 and 16, the inner container main body 200 further includes a rear plate 202 opposite to the front plate 201, the straight connecting flange 1001 is disposed on the top surface of the rear plate 202, the straight connecting flange 1001 is turned over to the outside of the inner container and then turned over vertically downward to form a plane structure parallel to the rear plate 202, and the structure can connect two connected rounded connecting flanges 1002, so that the connecting flange 100 on the opening of the inner container becomes a complete structure, and the aesthetic property of the dishwasher is improved.
With reference to fig. 6, 14, 17, and 18, the liner body 200 further includes fillet transition side plates respectively located between the back plate 202 and the side plates 203, a bridging plate 10022 spliced with the outer side plate 302 is disposed on the fillet connecting flange 1002, and the fillet connecting flange 1002 is spliced with the fillet transition side plates, the adjacent straight connecting flange 1001, and the outer side plate 302.
The fillet flange 1002 connected to the top surface of the fillet transition side plate is in an angle shape, similar to the fillet flange 1002 located on both sides of the straight flange 1001 on the top surface of the front plate 201, where the fillet flange 1002 located on both sides of the straight flange 1001 on the top surface of the back plate 202 has the first transition edge 10023 and the second transition edge 10024 perpendicular to each other and connected to two adjacent straight flanges 1001, respectively, the first transition edge 10023 is parallel to the back plate 202, the second transition edge 10024 is perpendicular to the back plate 202, the first transition edge 10023 includes the first inner edge 100232 and the first outer edge 100231, the second transition edge 10024 includes the second inner edge 100242 and the second outer edge 241, the first outer edge 100231 is perpendicular to the second outer edge 100241, the first edge 100232 is connected to the second inner edge 100242, the arc transition of the first inner edge 100232 is connected to the arc surface of the second inner edge 100242, the bottom surface links to each other with the top surface of fillet transition curb plate, first outer border 100231 turns over the plane that forms to be on a parallel with back plate 202 downwards, second outer border 100241 turns over the plane that forms perpendicular to back plate 202 downwards, the plane bottom turns over towards curb plate 203 direction and forms and curb plate 203 vertically horizontally lapping plate 10022, the lapping plate 10022 fillet transition curb plate through fillet flange 1002 is connected with outer panel 302, link to each other with adjacent straight flange 1001 respectively through first interior border 100232 and second interior border 100242, this structure has both played the effect of connecting inner bag main part 200 and outer panel 302.
Combine fig. 6 and fig. 19, with the front bezel 201 of inner bag main part 200, the straight flange 1001 that the top surface of curb plate 203 and the fillet transition curb plate that is located curb plate 203 both sides is connected, fillet flange 1002, all be equipped with the recess of splicing with outer panel 302 on the lapping plate 10012 and the lapping plate 10022 that set up on the two, the recess is sunken to inner bag opening direction, be equipped with on the top surface of outer panel 302 with the protruding structure of recess complex on the lapping plate 10012/10022, the surface of protruding structure is unanimous with the sunken internal surface shape of recess, protruding structure embedding is inside the recess, the cooperation of recess and protruding structure is as shown in fig. 19 in this embodiment, this structure makes the connecting gap between outer panel 302 and the lapping plate reduce greatly, outer panel 302 has been prevented from taking place the displacement in dishwasher work engineering, the noise production.
The outer side plate 302 is provided with a side plate connecting plate 3021, which is formed by folding one side edge of the outer side plate 302 close to the door body 301 in a direction away from the inner container main body 200, the side plate connecting plate 3021 is parallel to the door body 301, and the connection relationship between the side plate connecting plate and the door body 301 is described in detail in the second embodiment.
Example four
As shown in fig. 20, in the present embodiment, another connection form between the connection flange 100 and the liner main body 200 is described, and the main difference from the third embodiment is that the connection flange 100 is connected to the top surface of the side plate 203 of the liner main body 200, the connection flange 100 in the present embodiment includes a flat connection flange 1001 connected to the front plate 201 and the rear plate 202 of the liner main body 200 respectively, and the flat connection flange 1001 has the same structure as that in the second embodiment, and is also provided with a door body connection plate 10011 connected to the door body 301; the connecting flange 100 further comprises a U-shaped connecting flange 1003 respectively connected with the side plate 203 of the inner container main body 200, the whole shape of the U-shaped connecting flange 1003 is consistent with the whole shape formed by the straight connecting flange 1001 connected with the top surface of the side plate 203 and the fillet connecting flange 1002 positioned on two sides of the straight connecting flange 1001 in the first embodiment, the U-shaped connecting flange 1003 is of an integrally formed structure, a lapping plate connected with the outer side plate 302 is also arranged on the U-shaped connecting flange 1003, and the door body connecting structure 10021 connected with the door body 301 is arranged on the lapping plate, a groove is formed in the lapping plate and matched and spliced with a protruding structure on the top surface of the outer side plate 302, and the matching mode is as shown in.
Except the differences, other parts and the connection relation among the parts in the embodiment are the same as those in the third embodiment, so that the structure further reduces the welding process in the assembling process of the dishwasher and improves the assembling efficiency of the dishwasher.
EXAMPLE five
As shown in fig. 21, the present embodiment describes another connection form between the connection flange 100 and the liner main body 200, and the main difference from the fourth embodiment lies in that the connection flange 100 connected to the top surface of the side plate 203 of the liner main body 200, in the present embodiment, the U-shaped connection flange 1003 and the outer side plate 302 in the fourth embodiment are integrally formed by one plate, the matching part between the lap plate under the U-shaped connection flange 1003 and the top surface of the outer side plate 302 and the lap plate is eliminated, the door body connection structure 10021 and the side plate connecting plate 3021 in the third embodiment are formed by integrally folding a plate in the direction away from the liner main body 200, the connection relationship between the door body 301 is the same as the connection relationship between the door body connection structure 10021 and the side plate 3021 and the door body 301 in the third embodiment, this structure further reduces the assembly parts of the dishwasher, reduces the welding process in the assembly process of the dishwasher, the assembly efficiency is improved.
The structure of the liner body 200 in the above embodiment is not described in detail, and two molding manners of the liner peripheral wall 220 are described in detail below according to the sixth embodiment and the seventh embodiment.
EXAMPLE six
The inner container main body 200 in the embodiment is composed of two splicing parts, the structure is simple, the manufacturing process is simple, the welding process in the manufacturing process of the dish washing machine is greatly reduced, and the assembly efficiency is improved.
As shown in fig. 22 and 23, the inner container main body 200 of this embodiment includes an inner container bottom 210 and an inner container peripheral wall 220, the inner container bottom 210 and the inner container peripheral wall 220 form the inner container main body 200 with an upward opening, the inner container peripheral wall 220 is a plate rolled into a ring shape by bending, one end of the plate has a splicing portion 221, the other end of the plate is lapped on the splicing portion 221, and splicing positions 222 at both ends are located on a plane, so that the influence of a size error on an assembly structure is eliminated, the splicing portion for determining a final size is conveniently welded, a welding seam is regular, a welding plane processing technology is simple, and the manufacturing efficiency of the dishwasher is improved.
As shown in fig. 23, the splice 221 is a bending structure formed by bending one end of a plate, the end of the bending structure is parallel to the other end 2211 of the plate, the bending structure includes a first bending structure 2212 and a first extending structure 2213, the first bending structure 2212 is formed by bending one end of the plate to the outer side of the inner container, and the first extending structure 2213 is formed by bending and extending the end of the first bending structure 2212 and is parallel to the other end 2211 of the plate.
As shown in fig. 23, the side surface of the first extension 2213 near the center of the inner container is attached to the side surface of the other end 2211 of the plate far from the center of the inner container, and is integrally connected.
The inner wall surface of the plate before bending at one end is flush with the inner wall surface of the other end 2211 of the plate.
The vertical distance that first structure 2212 buckles to the inner bag outside equals with plate thickness, and the internal face before the one end of plate is buckled is the internal face parallel and level of the other end 2211 of plate.
The end face of the other end 2211 of the plate is attached to the bending face of the first bending structure 2212.
The end surface of the other end 2211 of the plate has a gap with the bending surface of the first bending structure 2212.
The gap between the end face of the other end 2211 of the plate and the bending face of the first bending structure 2212 is filled with welding material, sealing strip or blocking rib.
As shown in fig. 22, the inner container peripheral wall 220 includes four straight side plates, between which are fillet transition side plates, the splicing position is located on the straight side plates, the straight side plates include a front plate 201, a rear plate 202 and two side plates 203 located on both sides of the front plate, preferably, the splicing position is located on the front plate 201.
As shown in fig. 22, the liner bottom 210 includes a bottom wall 2101 and a surrounding wall 211 connected to the bottom wall 2101 and folded upwards, the liner bottom 210 has a structure with an upward opening and a small accommodating cavity, and the bottom surface of the surrounding wall 220 is connected to the liner bottom 210 by lap welding as described in the first embodiment.
As shown in fig. 24 and 25, the dishwasher is stretched by the slide rail, the inner container bottom circumferential wall 211 which is connected with the inner container bottom wall 2101 and parallel to the stretching direction of the dishwasher is provided with a receiving part which is recessed towards the center of the inner container, the receiving part is a recessed surface 2033 which is recessed towards the inner container main body 200, the inner container is provided with a recessed surface 2033 which is used for avoiding the slide rail, the capacity expansion of the inner container is facilitated, and the recessed surface 2033 is arranged on the inner container bottom circumferential wall 211, so that the stretching is small, and the structural strength of the inner container is not influenced.
As shown in fig. 25, which is a partial enlarged view of the concave surface 2033 at a in fig. 24, the concave surface 2033 includes a horizontal bending surface 20331 formed by bending the inner container bottom peripheral wall 211 from top to bottom toward the inside of the inner container, and a vertical bending surface 20332 formed by bending the end of the horizontal bending surface 20331 downward and vertically, and the horizontal bending surface 20331 and the vertical bending surface 20332 are connected and transitioned by a smooth arc surface.
Preferably, the bottom of the vertical bending surface 20332 is bent towards the bottom wall 2101 and extends to be connected with the corresponding side of the bottom wall 2101.
The utility model discloses in divide into a plurality of piecing parts with the dish washer inner bag, the concatenation forms the dish washer inner bag, and does not adopt current punching press to form the inner bag structure, has avoided panel by the high tensile back, and intensity is not enough or even becomes the waste material.
EXAMPLE seven
In the use process of the dishwasher, the steps necessary for adding the detergent are taken, the embodiment describes the installation position of the detergent adding device in detail, and on the basis of the sixth embodiment, a notch is arranged on at least one of the two end parts at the splicing position 222 of the peripheral wall 220 of the inner container, and the notch is an installation opening 2011 for placing the detergent adding device.
As shown in fig. 26, the liner peripheral wall 220 in this embodiment may be formed by bending and splicing a plate, the liner peripheral wall 220 includes a first splicing portion 2012 and a second splicing portion 2013 located at two end portions, the first splicing portion 2012 and the second splicing portion 2013 are spliced at the splicing position 222 to form the liner peripheral wall 220, a notch is formed in the first splicing portion 2012 and/or the second splicing portion 2013, and the notch forms a mounting opening 2011 for placing a detergent adding device after the first splicing portion 2012 and the second splicing portion 2013 are spliced.
Specifically, first concatenation portion 2012 includes the first concatenation face that first side and first base are connected perpendicularly and are formed, second concatenation portion 2013 includes the second concatenation face that second side and second base are connected perpendicularly and are formed, the opening has been seted up to first side and/or second side, the first side of first concatenation face and the second side of second concatenation face align, make first concatenation face and second concatenation face be located same horizontal plane, the opening forms the installing port 2011 that can be used for placing detergent interpolation device when the concatenation, the size of opening can set up to unidimensional and shape according to the size that detergent interpolation device.
For example, a notch can be formed in the first side edge of the first splicing surface, a notch is formed in the position corresponding to the second side edge, and when the first splicing surface and the second splicing surface are spliced, the notch part in the middle of the first side edge and the notch part in the middle of the second side edge form a mounting port 2011 which can be used for placing a detergent adding device.
As an alternative to the above scheme, a notch may also be formed in one side edge of the first splicing surface or the second splicing surface, for example, a notch may be formed in one side edge of the first splicing surface, and when the first splicing surface and the second splicing surface are spliced, the notch portion of the first splicing surface and the splicing position 222 of the second splicing surface form an installation opening 2011 for placing a detergent adding device. And a notch can be arranged on one side edge of the second splicing surface.
The installation port 2011 for placing the detergent adding device is formed in the splicing position 222, the length of a welding line is reduced, even a middle welding line can be eliminated, the welding process is reduced, and the cost is saved.
Further, a fixing plate is arranged at the mounting port 2011, the fixing plate is located at the outer side of the liner main body 200, and the detergent adding device is fixedly connected to the fixing plate through screws and is fixed to the liner. Preferably, a rubber ring or other sealing structure matched with the shape and size of the mounting opening 2011 is arranged between the fixing plate and the detergent adding device, so as to increase the sealing performance between the detergent adding device and the liner main body 200.
The structure of the liner bottom 210 in the above embodiment is not described in detail, and two structures of the liner bottom 210 are described in detail in the following through the eighth embodiment and the ninth embodiment.
Example eight
The liner bottom structure of the liner main body 200 in this embodiment includes the liner main body 200 with an opening at the top end, and the liner main body includes the liner bottom 210, and the liner bottom structure in this embodiment is different from the liner bottom 210 in the sixth embodiment in that: the concave surface 2033 is not provided on the inner container bottom in this embodiment.
As shown in fig. 27 and 28, the liner bottom 210 includes a bottom wall 2101 and a peripheral wall 211 surrounding the bottom wall 2101, the bottom wall 2101 and the peripheral wall 211 are connected in a transition manner, and the transition inclination angle between at least one bottom wall 2101 and the peripheral wall 211 is smaller than the transition inclination angles between the other bottom walls 2101 and the peripheral walls 211; the bottom of the inner bag is stamping forming as an organic whole, in order to do benefit to the consideration of drawing of patterns, sets up the draft angle at the bottom of the inner bag, need set up the filter screen at the bottom of considering the inner bag simultaneously, and the area undersize that sets up of filter screen causes secondary pollution easily, consequently sets up the transition inclination angle between the end perisporium 211 of the end diapire 2101 of an inner bag and the inner bag and is less than the transition inclination angle between the end diapire 2101 of other inner bag and the end of the inner bag to dodge the setting of filter screen.
Further, the inner container main body is connected with the door body 301, the inner container bottom side wall comprises an inner container bottom front wall 2111 close to one side of the door body 301, and the transition inclination angle between the inner container bottom front wall 2111 and the inner container bottom wall 2101 is smaller than the transition inclination angle between other inner container bottom side walls and the inner container bottom wall 2101.
The inner container bottom side wall 211 comprises an inner container bottom left wall 2111, an inner container bottom right wall 2113 and an inner container bottom rear wall 2114, wherein the inner container bottom left wall 2111 and the inner container bottom right wall 2113 are respectively connected with two ends of the inner container bottom front wall, the inner container bottom rear wall 2114 is opposite to the inner container bottom front wall 2111, and the transition inclination angle between the inner container bottom front wall 2111 and the inner container bottom 2101 is smaller than the transition inclination angle between the inner container bottom left wall 2112 and the inner container bottom 2101, the transition inclination angle between the inner container bottom right wall 2113 and the inner container bottom 2101, and the transition inclination angle between the inner container bottom rear wall 2114 and the inner container bottom 2101; the inner container is designed into a hexahedral structure, is adapted to most bowl baskets and is convenient to arrange with matched facilities.
Preferably, the transition angle between the inner container bottom left wall 2111 and the inner container bottom wall 2101, the transition inclination angle between the inner container bottom right wall 2113 and the inner container bottom wall 2101, and the transition inclination angle between the inner container bottom rear wall 2114 and the inner container bottom wall 2101 are all the same; is beneficial to the manufacture of the stamping die. Further, an installation position 2102 for installing a filter screen is arranged on one side, close to the front wall of the inner container bottom, of the inner container bottom wall 2101.
Preferably, the central position of the inner container bottom wall 2101 is provided with an installation port 2103 for installing a sprayer, and the installation position 2102 is arranged between the installation port 2103 of the sprayer and the inner container bottom front wall 2111; one end of the mounting position 2102 is arranged near a mounting port 2103 of the sprayer, the other end of the mounting position is arranged near a front wall 2111 of the inner container bottom, the mounting position 2102 of the filter screen is ensured to be as large as possible, the filter screen is made to be as large as possible, and secondary pollution caused by undersize of the filter screen is avoided.
Further, a dishwasher waterway is arranged outside the inner container bottom rear wall 2114, and the transition inclined angle between the inner container bottom rear wall 2114 and the inner container bottom 2101 is larger than the dishwasher waterway.
As described in the sixth embodiment, the liner main body 200 further includes a liner peripheral wall 220, a lapping surface connected to the liner peripheral wall 220 is provided on the top surface of the liner bottom peripheral wall 211, and the connection manner of the liner peripheral wall 220 and the liner bottom 210 is as described in the first embodiment.
Example nine
Place the bowl basket in the dish washer inner bag main part usually, place more stably for making the bowl basket, improve the stability and the security of dish washer working process, set up the bearing structure who is used for supporting the bowl basket on the inner bag bottom in this embodiment.
As shown in fig. 29, the inner container main body 200 has a containing cavity with an opening at the top end, a bowl basket can be placed in the containing cavity, the inner wall of the inner container main body 200 is provided with a supporting structure for supporting the bowl basket, so that the bowl basket can be placed in the inner container main body 200 more stably without shaking, and meanwhile, the bowl basket can be prevented from being directly placed on the inner container bottom wall 2101 of the inner container main body 200, and the bottom wall 2101 of the inner container bottom of the inner container main body 200 is worn due to shaking.
In this embodiment, the liner bottom 210 includes a bottom wall 2101 and a peripheral wall 211 surrounding the bottom wall, and the support structure is disposed at a connection position between the bottom wall 2101 and the peripheral wall 211 of the liner main body 200, or the support structure is disposed on the peripheral wall 211 of the liner bottom. The bearing structure sets up the hookup location department of diapire 2101 and inner bag bottom perisporium 211 at the bottom of the inner bag of inner bag main part 200 in this embodiment for bearing structure constitutes the support plane of bowl basket jointly with the perisporium 211 at the bottom of the inner bag, and displacement about the restriction bowl basket, bowl basket place more steadily simultaneously more effectively utilized inner bag main part 200's space.
Specifically, the inner container bottom wall 2101 and the inner container bottom peripheral wall 211 are in transitional connection through a transition fillet structure, and the support structure is arranged on the transition fillet structure. The fillet structure connects inner bag end diapire 2101 and side week wall and more is favorable to the drawing of patterns, and drawing die angle and bearing structure's die mould can integrative the preparation come out during the mould preparation for production efficiency.
The support structure comprises a plurality of support bodies 2104 arranged on the inner wall of the liner main body 200, and for the stable placement of the bowl basket, the upper surfaces of the plurality of support bodies 2104 are flush to form a support plane for supporting the bowl basket. The support 2104 can be a component independent from the liner main body 200, and can be installed to the corresponding position of the liner main body 200 when needed, or the support 2104 can be integrally formed with the liner main body 200. In consideration of the connection strength and the convenience of use of the support body 2104 and the liner main body 200, in this embodiment, the support body 2104 is integrally formed with the liner main body 200, the support body 2104 is formed by a protruding structure protruding from the liner wall of the liner main body toward the interior of the liner, and the protruding structure is formed by stamping; the support body 2104 and the inner container main body 200 are integrally formed, so that the process of installing and connecting the support body 2104 is saved, and meanwhile, compared with the independent arrangement of the support body 2104, the scheme of integrally forming the support body and the inner container main body 200 also avoids the situation that the support body 2104 is lost.
With reference to fig. 6 and 29, the liner body 200 further includes a bottom bracket 500 for supporting the liner body 200, the bottom bracket 500 is provided with a slide rail groove for mounting a slide rail, and the support structure is provided corresponding to the slide rail groove.
Further, the bottom of the liner body 200 and the bottom of the bottom support 500 are respectively provided with a limiting structure which is matched with each other. The limiting structure comprises a first limiting part on the bottom support and a second limiting part on the bottom of the liner main body 200. The limiting part can be arranged on the bottom wall of the bottom support or one side of the slide rail groove of the bottom support facing the inner container main body 200 or the side wall of the bottom support. Considering that two limiting parts must be arranged corresponding to one limiting part, the liner main body is arranged on the bottom wall of the bottom support or on one side of the slide rail groove of the bottom support facing the liner main body 200 under the condition that the arrangement of the first limiting part does not influence the use space in the liner main body 200. In addition, considering that the liner body 200 is supported on the slide rail, the limit part is arranged on one side of the slide rail groove facing the liner body 200, which is more favorable for the transmission of the supporting force.
One limiting part can be a supporting table or a supporting column, and the other limiting part is a groove structure 2105 matched with the supporting table or the supporting column. Spacing one is the brace table in this embodiment, and is spacing recess rather than the spacing two portions of complex, brace table and spacing recess butt in order to restrict the displacement of inner bag main part 200, play the supporting role to inner bag main part 200 simultaneously.
The limiting groove can be independently arranged and can be formed by punching the wall of the liner main body 200, and the limiting groove is formed by punching the wall of the liner main body for better connection strength between the limiting groove and the liner main body 200. Considering the relationship between the production efficiency and the cost, one side of the protruding structure facing the bottom support 500 is a groove structure 2105 matched with the limiting part of the bottom support, and the protruding structure and the limiting part are both arranged corresponding to the slide rail groove. The spacing one portion of inner bag main part 200 bottom is groove structure 2105 sets up the transmission of the supporting power of slide to the collet 500 and inner bag main part 200 of being convenient for with the corresponding setting in slide rail groove, the inner bag wall of inner bag main part 200 is as bearing structure towards the protruding structure of the inside protruding formation of inner bag simultaneously, one side towards collet 500 is groove structure 2105 with collet 500's limit structure matched with, bearing structure is simultaneously as the support limit structure at the bottom of the inner bag with collet 500, a thing is multi-purpose, save the process of making spacing two portions.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and although the present invention has been disclosed with reference to the above preferred embodiment, but not to limit the present invention, any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, and any simple modification, equivalent change and modification made to the above embodiments by the technical spirit of the present invention still fall within the scope of the present invention.

Claims (10)

1. A dishwasher liner structure, comprising: the inner container comprises an inner container body with an opening at the top, and a connecting flange connected to the opening end of the inner container body, wherein the connecting flange and the inner container body are connected in a lap-joint welding mode, and lap-joint parts are provided with assembling structures matched with each other.
2. The dishwasher liner structure according to claim 1, wherein the assembling structure is a press-type structure provided on the connecting flange and the liner body to be fitted with each other.
3. The dishwasher liner structure according to claim 2, wherein the inner edge of the connecting flange extends downward to form a first overlapping surface, the upper edge of the liner body extends upward to form a second overlapping surface, the profiling structure comprises a first profiling structure provided on the first overlapping surface and a second profiling structure provided on the second overlapping surface, and the first profiling structure and the second profiling structure are engaged with each other and fixed integrally by welding.
4. The dishwasher liner structure according to claim 3, wherein the first profiling structure is an outward-protruding profiling structure provided on the first overlapping surface and recessed toward the outside of the liner body, the second profiling structure is a recessed surface provided on the second overlapping surface and recessed toward the outside of the liner body, the inner surface of the recessed surface matches with the outer surface of the outward-protruding profiling structure, and the first profiling structure and the second profiling structure are tightly attached.
5. The dishwasher liner structure according to claim 3 or 4, wherein the second overlapping surface comprises a turning part which is bent towards the outside of the inner container main body at the upper edge of the inner container main body and an extending part which is formed by upward extension, the second profiling structure is arranged on the extending part of the second overlapping surface, the tail end of the first overlapping surface is abutted against the turning part of the second overlapping surface, and the inner wall surface of the first overlapping surface and the inner wall surface of the inner container main body are arranged in a flush manner.
6. The dishwasher liner structure according to claim 1, wherein the connecting flange is arranged at least at one side wall edge of the liner main body, and the assembling structures are arranged at intervals along the side wall of the liner main body;
or the assembling structure is a strip-shaped profiling structure arranged on the side wall of the liner main body and the connecting flange.
7. The dishwasher liner structure according to claim 1, wherein the connecting flange is an annular connecting flange arranged around the opening edge of the liner main body, and the assembling structure is a profiling structure arranged around the peripheral wall of the liner main body at intervals;
or the assembling structure is an annular compression structure arranged around the peripheral wall of the liner main body and the connecting flange.
8. The dishwasher liner structure according to claim 1, wherein the liner body comprises a liner bottom and a liner peripheral wall, the liner bottom has a receiving cavity with an open top, the liner peripheral wall and the liner bottom are connected by lap welding, and the lap parts are provided with mutually matched assembling structures.
9. The dishwasher liner structure according to claim 8, wherein the fitting structure is a press-type structure provided on the liner bottom and the liner peripheral wall to be fitted with each other.
10. The dishwasher liner structure according to claim 9, wherein the liner bottom comprises a liner bottom wall and a liner bottom peripheral wall, the upper edge of the liner bottom peripheral wall extends upwards to form a third overlapping surface, the lower edge of the liner peripheral wall extends downwards to form a fourth overlapping surface, the profiling structure comprises a third profiling structure arranged on the third overlapping surface and a fourth profiling structure arranged on the fourth overlapping surface, and the third profiling structure and the fourth profiling structure are matched with each other and fixed into a whole by welding.
CN201920809823.7U 2019-05-31 2019-05-31 Inner container structure of dish washing machine Active CN210871400U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920809823.7U CN210871400U (en) 2019-05-31 2019-05-31 Inner container structure of dish washing machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920809823.7U CN210871400U (en) 2019-05-31 2019-05-31 Inner container structure of dish washing machine

Publications (1)

Publication Number Publication Date
CN210871400U true CN210871400U (en) 2020-06-30

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Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Status (1)

Country Link
CN (1) CN210871400U (en)

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