CN111803001B - Dishwasher rack and dishwasher - Google Patents

Abstract

The present invention belongs to the field of household appliances, and specifically discloses a dishwasher rack, wherein the rack comprises a supporting structure and a hanging structure, wherein the supporting structure is used for supporting and placing the rack, and the hanging structure is used for hanging and placing the rack. The rack of the present invention not only meets the placement requirements of current drawer racks, but also meets the hanging requirements of other types of racks, and has a simple structure and good compatibility.

Description

Dish washer shelf and dish washer

Technical Field

The invention belongs to the field of household appliances, and particularly relates to a dish-washing machine shelf and a dish-washing machine.

Background

The existing drawer type shelf hanging mode needs to be supported by arranging four upright posts at the bottom of the liner, and the utilization of the space of the liner is reduced due to the existence of the upright posts, and the fixing mode is single. Patent number CN207613744U proposes a bowl basket for dish washer, establishes the bowl basket body in dish washer including the cover, the bowl basket body forms with the metal pole welding, the upper portion opening of bowl basket body, the bottom and the four sides of bowl basket body set up to a grid structure, the bottom welding of bowl basket body has the supporting legs, the supporting legs is formed with the supporting leg metal pole buckling, two U-shaped structures are buckled out downwards to the supporting leg metal pole, form the supporting part that the supporting legs was used, the inner bottom of bowl basket body is provided with dish and places the district with the bowl, the welding has the bowl shelves pole on the metal pole in the district is placed to the bowl, the metal pole in the dish is placed the district and is upwards buckled out a plurality of reverse V-arrangement structures, forms the dish shelves pole that the support dish was used. In order to reduce the damage of the shelf to the liner, the liner of the existing dish-washing machine is provided with a boss for hanging the shelf, and the dish-washing machine disclosed by CN207613744U is single in shelf fixing mode and low in universality.

The present invention has been made in view of this.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the dish washer shelf which has a simple structure and can be compatible with supporting and hanging purposes.

In order to solve the technical problems, the invention provides a dish washer shelf, which comprises a supporting structure and a hanging structure, wherein the supporting structure is used for supporting and placing the shelf, and the hanging structure is used for hanging and placing the shelf.

Further, the dishwasher comprises an inner container, the supporting structure comprises supporting legs arranged at the bottom of the shelf, and the shelf is placed on the bottom wall of the inner container through the supporting legs.

Further, the supporting leg comprises a supporting part and a connecting part, the supporting part comprises a first supporting piece and a second supporting piece which are arranged in parallel, one end of the first supporting piece is connected with the side wall of the shelf, the other end of the first supporting piece is supported on the bottom wall of the liner, one end of the second supporting piece is connected with the bottom of the shelf, the other end of the second supporting piece is supported on the bottom wall of the liner, and the connecting piece is connected with one end of the first supporting piece and one end of the second supporting piece, which are in contact with the bottom wall of the liner.

Further, the first supporting piece is a first supporting rod, the second supporting piece is a second supporting rod, the first supporting rod and the second supporting rod are perpendicular to the bottom wall of the shelf respectively, and the length of the first supporting rod is larger than that of the second supporting rod.

Further, the connecting piece is a connecting rod, the connecting rod is vertical to the side wall of the shelf connected with the first supporting rod, and the first supporting rod, the second supporting rod and the connecting rod form a U-shaped structure.

Furthermore, the support leg is also provided with an anti-slip structure for preventing the shelf from shifting at the bottom of the liner.

Further, the anti-slip structure is a flexible wrapping the joint of the first supporting rod and the connecting rod.

Further, the hanging structure comprises hanging pieces arranged on the side walls of the shelf, and the shelf is hung on the opposite inner container wall through the hanging pieces.

Further, the hanging piece at least comprises hanging beams which are respectively arranged on opposite side walls of the shelf, the hanging beams are parallel to the bottom of the shelf, steps are arranged on the opposite side walls of the inner container, and the hanging beams are placed on the steps to hang the shelf on the wall of the inner container.

The invention also provides a dish-washing machine comprising the shelf.

After the technical scheme is adopted, compared with the prior art, the invention has the following beneficial effects:

1. the four upright post supports on the liner are replaced by the four supporting feet, so that the space utilization rate is improved;

2. hanging the shelf on the liner wall by arranging hanging beams on the side wall of the shelf to realize hanging requirements of the shelf;

3. the shelf disclosed by the invention not only meets the placing requirement of the existing drawer shelf, but also meets the hanging requirement of other types of shelves, and has the advantages of simple structure and good compatibility.

The following describes the embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. It is evident that the drawings in the following description are only examples, from which other drawings can be obtained by a person skilled in the art without the inventive effort. In the drawings:

FIGS. 1 to 2 are overall layout views of a shelf main body in embodiment 1;

Fig. 3 to 4 are overall layout views of the shelf main body provided with the bracket in embodiment 1;

FIG. 5 is a schematic view of a shelf main body in embodiment 1;

FIGS. 6-10 are schematic views showing different angles of the bracket when the pallet is in the vertical state in embodiment 2;

FIGS. 11-15 are schematic views showing different angles of the bracket when the pallet and the support bar are at the first angle in the embodiment 2;

FIGS. 16-20 are schematic views showing different angles of the bracket when the pallet and the support bar are at the second angle in the embodiment 2;

FIGS. 21-25 are schematic views showing various angles of the assembly in embodiment 2;

Fig. 26 is a schematic structural view of a dishwasher of embodiments 3 and 4;

FIG. 27 is a cross-sectional view taken at A-A of FIG. 26;

FIG. 28 is an enlarged view of FIG. 27 at B;

FIG. 29 is a cross-sectional view taken at C-C of FIG. 26;

FIG. 30 is an enlarged view of FIG. 29 at D;

Fig. 31 to 32 are schematic views of a shelf main body in embodiment 4;

FIG. 33 is a schematic view of a shelf body in example 5;

FIGS. 34-36 are schematic views of the fastener of embodiment 5;

FIG. 37 is a side view of the first fastener of example 5;

FIG. 38 is a cross-sectional view taken at F-F in FIG. 37;

FIG. 39 is a side view of the second mount of example 5;

FIG. 40 is a cross-sectional view taken at G-G of FIG. 39.

100, Shelf; 101, a suspension beam; 1021, a first support bar; 1022, second support rod, 1023, connecting rod, 103, limit rod, 104, first mounting rod, 105, second mounting rod, 106, protection structure, 200, liner, 201, step, 1, tray area, 11, first yarn, 12, first positioning rod, 2, tray area, 21, second yarn, 22, second positioning rod, 23, support frame, 3, middle bowl area, 31, third yarn, 32, third positioning rod, 321, third positioning rod first section, 322, third positioning transition section, 323, third positioning rod second section, 4, cup area, 41, fourth yarn, 42, positioning yarn, 421, limit projection, 43, fourth positioning rod, 5, large area, 51, fifth yarn, 52, fifth positioning rod, 6, small bowl area, 61, sixth yarn, 62, sixth positioning rod, 621, sixth positioning rod first section, 622, sixth positioning transition section, 623, sixth positioning rod, 631, second positioning rod, 631, second section, 631, third positioning rod second section, 83, seat, bridge, 83, seat support bracket, 83, seat, support, seat posts, handles,;

It should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, which are used for illustrating the present invention but are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the azimuth or positional relationship indicated by the terms "inner", "outer", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element in question must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention.

In the description of the present invention, unless explicitly stated or limited otherwise, the terms "mounted," "connected," "contacting," and "communicating" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, or indirectly connected via an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Example 1

As shown in fig. 1-2, the present invention relates to a dish washer rack 100 having a tub 200, and the dish washer rack 100 is placed in the tub 200 to support dishes. The shelf 100 comprises a shelf 100 body, wherein the shelf 100 body comprises a plurality of crisscrossed silk strips and a positioning structure arranged on the silk strips, and the silk strips and the positioning structure divide the shelf 100 body into at least seven placement areas for different types of tableware. These cutlery placement areas may be fixedly disposed on the shelf 100 body or may be removably disposed on the shelf 100 body. By rationalizing the interior space of the shelf 100 body, the interior space of the shelf 100 body can be maximally utilized, and the user's needs can be fully satisfied.

Further, as shown in fig. 5, the shelf 100 main body includes a tray area 1, where the tray area 1 includes at least two first filaments 11 disposed in parallel, and a plurality of first positioning rods 12 are symmetrically distributed on adjacent first filaments 11, and the tray is positioned between adjacent first positioning rods 12.

In the above-mentioned scheme, because the tray usage amount is great in every family, consequently need set up the shallow tray district 1 that can supply a plurality of trays to place, because the degree of depth of shallow, the size is great, and distance between adjacent first locating lever 12 on same first strand silk 11 is nearer, and the distance of adjacent two first locating strand silk 42 is wider, just can guarantee to place as many trays as possible in limited space and guarantee that the tray is placed neatly and is not emptyd.

Further, as shown in fig. 5, the rack 100 main body includes peripheral side walls, a long tray 2 is disposed between the shallow tray 1 and the side wall parallel to the first yarn 11, the long tray 2 includes a plurality of second yarns 21 perpendicular to the first yarn 11, the middle of the second yarns 21 is recessed toward the bottom of the dishwasher to form a groove, and the edge of the long tray is limited in the groove;

In the scheme, the length of the long tray is longer than that of the shallow tray, and the long tray is a fish tray or tableware similar to the fish tray. Because the consumption of each meal fish dish of every family is less, so only set up the fish dish district that supplies only a fish dish to place in the long and narrow region between shallow dish district 1 and the lateral wall can, make full use of the limited space between shallow dish district 1 and the lateral wall.

Preferably, two ends of the long disc area 2 are respectively provided with a second positioning rod 22, a supporting frame 23 is arranged on a side wall connected with the second silk 21, the back surface of the long disc is supported on the supporting frame 23, and the long disc is positioned in a space surrounded by the second positioning rods 22 and the supporting frame 23.

In the above scheme, in order to further guarantee the stability that the long dish was placed, set up a second locating lever 22 respectively at long dish district 2's length direction's both ends for with long dish's both ends fixed, in order to guarantee that the long dish is in the vertical state simultaneously and does not empty, set up a support frame 23 on the lateral wall that links to each other with second strand silk 21 and be used for supporting the back of long dish, support frame 23 is two spinal branch poles of perpendicular setting on the lateral wall that links to each other with second strand silk 21, the tip of two spinal branch poles passes through the horizontal pole and links to each other. Under the combined action of the second positioning rod 22, the supporting frame 23 and the groove, the long disc is effectively positioned.

Further, as shown in fig. 5, a middle bowl area 3 is disposed between the shallow tray area 1 and the side wall of the other side parallel to the first yarn 11, the middle bowl area 3 includes at least two third yarns 31 disposed in parallel, the third yarns 31 are disposed in parallel with the first yarn 11, a plurality of third positioning rods 32 are symmetrically disposed on adjacent third yarns 31, and the middle bowl is positioned between the adjacent third positioning rods 32;

in the scheme, the middle bowl is a noodle bowl or tableware similar to the noodle bowl. The third positioning rod 32 has a height less than the height of the first positioning rod 12 because the depth of the middle bowl is deeper than the depth of the shallow bowl. The third positioning rod 32 has a function of supporting the middle bowl, so that the third positioning rod 32 also has a certain bending structure in the vertical direction, and is mutually adapted to the inclined middle bowl, so that better support is formed. The third positioning rod 32 includes a third positioning rod first section 321 fixedly connected to the third yarn 31, a third positioning rod transition section 322 is formed by bending an end of the third positioning rod first section 321, and a third positioning rod second section 323 extending upwards and parallel to the third positioning rod first section 321 is formed by bending the end of the third positioning rod first section 321, so as to form a third positioning rod 32 with a certain bending. Meanwhile, the interval between the adjacent third positioning rods 32 on the same third thread 31 is larger than the interval between the adjacent first positioning rods 12, so that the placement of as many middle bowls as possible in the limited space between the shallow tray area 1 and the side wall on the other side can be ensured, and the placement of the middle bowls is ensured to be neat and not to fall down.

Further, as shown in fig. 5, a cup area 4 is disposed between the tray area 1 and a side wall perpendicular to the first filament 11, the cup area 4 includes at least two fourth filaments 41 disposed in parallel, the fourth filaments 41 are disposed perpendicular to the first filament 11, a plurality of positioning filaments 42 disposed in parallel are disposed between two adjacent fourth filaments 41, one end of the positioning filament 42 away from the side wall protrudes upwards to form a spacing protrusion 421, one end of the positioning filament 42 close to the side wall is provided with a fourth positioning rod 43, and the cup is limited between the spacing protrusion 421 and the fourth positioning rod 43.

In the above scheme, the cup is limited between the limiting protrusion 421 and the fourth positioning rod 43, so that the displacement of the cup can be effectively prevented in the continuous flushing process of the water flow of the dish washer, and meanwhile, the cup is directly reversely buckled on the positioning thread 42 compared with the cup is reversely buckled on the positioning rod in the prior scheme, so that a larger number of cups can be placed on the premise of ensuring the positioning of the cups.

Further, as shown in fig. 5, a large bowl area 5 is further disposed between the shallow tray area 1 and the cup area 4, the large bowl area 5 includes at least two fifth filament strips 51 disposed in parallel, the fifth filament strips 51 are perpendicular to the first filament strips 11, a plurality of fifth positioning rods 52 are symmetrically disposed on adjacent fifth filament strips 51, and the large bowl is positioned between the adjacent fifth positioning rods 52;

In the scheme, the size of the big bowl is larger than that of the middle bowl. Since the large bowl is larger in size than the medium bowl, the interval between the adjacent fifth positioning bars 52 is larger than the interval between the adjacent third positioning bars 32. Preferably, the big bowl is a soup bowl or tableware similar to the soup bowl. Because the number of soup bowls used per meal in the household is small, a large bowl area 5 for placing only one large bowl is arranged only in a limited area between the shallow tray area 1 and the cup area 4. Meanwhile, the stability of placing the big bowl is further ensured by arranging the fifth positioning rod 52 on the fifth thread 51. Since the middle bowl is deeper than the shallow tray, the spacing between the adjacent fifth positioning rods 52 on each fifth filament 51 is greater than the spacing between the adjacent first positioning rods 12 on each first filament 11.

Further, as shown in fig. 5, a small bowl area 6 is disposed between the middle bowl area 3 and a side wall perpendicular to the third filament 31, the small bowl area 6 includes at least two parallel sixth filament 61, the sixth filament 61 is parallel to the third filament 31, a plurality of sixth positioning rods 62 are symmetrically distributed on adjacent sixth filament 61, and the small bowl is positioned between the adjacent sixth positioning rods 62;

in the scheme, the size of the small bowl is smaller than that of the middle bowl. Because the small bowl is smaller than the medium bowl in size, the spacing between adjacent sixth filaments 61 is smaller than the spacing between adjacent third filaments 31. Preferably, the small bowl is a rice bowl or tableware similar to the rice bowl. Since the number of rice bowls used per meal in the household is small, an area capable of placing a plurality of small bowls is arranged between the middle bowl area 3 and the side wall opposite to the middle bowl area 3. Meanwhile, the stability of the small bowl in placement is guaranteed by arranging the sixth positioning rod 62 on the sixth thread line 61, and a bending part bending towards the bowl bottom of the small bowl is formed in the middle of the sixth positioning rod 62, so that the small bowl is mutually adapted to the inclined small bowl, and better support is formed. The sixth positioning rod 62 includes a sixth positioning rod first segment 621 fixedly connected to the sixth filament 61, a sixth positioning rod transition segment 622 formed by bending an end of the sixth positioning rod first segment 621, and a sixth positioning rod second segment 623 extending upward and parallel to the sixth positioning rod first segment 621, to form the sixth positioning rod 62 having a certain bend. Since the small bowl is deeper than the shallow dish, the interval between the adjacent sixth positioning bars 62 on each sixth filament 61 is larger than the interval between the adjacent first positioning bars 12 on each first filament 11.

Further, as shown in fig. 5, the small bowl area 6 includes four sixth filaments 61 arranged in parallel, and the two sixth filaments 61 located in the middle are rotatably arranged with respect to the chassis, so that the sixth positioning rod 62 on the two sixth filaments 61 in the middle is in an upright state or a laid down state.

In the above-mentioned scheme, the two sixth yarns 61 positioned in the middle are rotatably adjusted relative to the underframe, so that a larger space is avoided for placing tableware.

Further, as shown in fig. 5, a chopstick cage accommodating area 7 is further disposed between the middle bowl area 3 and the small bowl area 6, the chopstick cage accommodating area 7 includes two seventh filament strips 71 disposed in parallel, one ends of the two seventh filament strips 71 extend vertically upwards along a side wall perpendicular to the seventh filament strips 71 to form a bracket 711, the bottom surface of the chopstick cage is disposed on the sixth filament strip 61, and the side wall of the chopstick cage is suspended on the bracket 711;

In the scheme, the tableware contained in the chopstick cage comprises chopsticks, cutlery, spoons and the like. The chopstick cage is hung and positioned by arranging the support 711, so that the limited space between the small bowl area 6 and the middle bowl area 3 is effectively utilized. Since the filter is arranged at the bottom of the inner container 200 of the dish washer of the invention, the dish washer shelf 100 is placed in the inner container 200, and the position of the chopstick cage accommodating area 7 corresponds to the position of the filter in the up-down direction. The end part of the seventh strand 71 provided with the chopstick cage bracket 711 is arranged to be turnover relative to the bottom of the shelf 100, namely, the whole chopstick cage accommodating area 7 is turnover, so that the invention has the advantages that when the invention is used for cleaning a filter, the filter can be cleaned only by turnover the chopstick cage accommodating area 7, and the chopstick cage can be detached from the bracket 711 without influencing the turnover process of the chopstick cage accommodating area 7. The user can be without taking out the whole dish washer shelf 100 in the use process, so that the cleaning step is saved, repeated touching of the dish washer shelf 100 and the liner 200 is avoided, and the step of cleaning the filter can be conveniently performed on the premise of protecting the liner 200, thereby achieving two purposes.

In the invention, in order to further ensure the stability of the chopstick cage in the chopstick cage accommodating area 7, at least one connecting rod is erected on the two seventh filament yarns 71, the length of the connecting rod is greater than or equal to the width of the two seventh filament yarns 71, the two ends of the connecting rod are respectively provided with a seventh positioning rod 72, the end parts of the seventh positioning rods 72 are folded towards the direction away from the chopstick cage accommodating area 7, so that the chopstick cage can conveniently enter the accommodating area, and the chopstick cage is positioned in the space enclosed by the seventh positioning rods 72 and the brackets 711.

Further, as shown in fig. 3 to 4, the shelf 100 further includes at least one bracket 8, and the bracket 8 includes a supporting plate 81 having a planar structure, and the supporting plate 81 is disposed on any side wall of the shelf 100 body, and seasoning dishes and/or cups are placed on the supporting plate 81.

In the above-mentioned scheme, in order to fully utilize the upper space of the shelf 100 main body, the bracket 8 is provided on the side wall of the shelf 100 main body to place the tray. Tableware such as cups. The bracket 8 is detachably arranged relative to the rack 100 main body, the angle of the supporting plate 81 relative to the side wall of the rack 100 main body is adjustable, the rack is suitable for the placing requirements of different tableware, the height of the bracket 8 can be adjusted along with the height of the tableware on the rack 100 main body, and the use flexibility is high.

Example 2

A bracket 8 for a dishwasher as shown in fig. 6-20, said bracket 8 comprising a support and a pallet 81, said pallet 81 being rotatably arranged on said support by means of a fitting 83, the angle of said pallet 81 relative to said support and/or the height being adjustable.

In the above-mentioned scheme, the dish washer has the inner container 200, and the dish washer shelf 100 is placed in the inner container 200 to support the dishes. The supporting piece is arranged on the inner container 200, a plurality of inserting holes are formed in the edge of the bottom of the inner container 200 for inserting the supporting piece, the supporting piece is just contacted with the side wall of the shelf 100 at the moment, and the supporting plate 81 is just arranged on the side wall of the shelf 100 of the dish washer after being connected with the supporting piece through the assembly part 83. The bracket 8 of the invention can adjust the angle between the supporting plate 81 and the supporting piece according to the shape of the tableware and adjust the height of the supporting plate 81 according to the height of the tableware, thereby the upper space of the rack 100 can be most reasonably utilized, the space utilization rate in the dish washer is higher, and the washing effect is better.

Further, as shown in fig. 6-25, the supporting member is two supporting rods 82 disposed in parallel, as shown in fig. 21-25, the assembly 83 includes an elongated body 831, two ends of the body 831 are symmetrically provided with channels 832 into which the supporting rods 82 are inserted, and the assembly 83 is assembled on the supporting rods 82 by inserting the supporting rods 82 into the channels 832. The outer side edge of the channel 832 is provided with a first limit structure for limiting the turnover angle and the height of the supporting plate 81, and the turnover angle and the height between the supporting plate 81 and the supporting rod 82 can be adjusted according to the shape and the height of tableware by arranging the first limit structure, so that the flexibility is higher.

Further, as shown in fig. 21-25, the first limiting structure includes a first stop portion 8331 and a second stop portion 8332, a mating portion 811 is disposed on a side of the pallet 81 connected to the assembly 83, the mating portion 811 is stopped by the first stop portion 8331 when the pallet 81 is turned from a vertical state to a first angle, and the mating portion 811 is stopped by the second stop portion 8332 when the pallet 81 is turned from the first angle to a second angle, and the first angle is smaller than the second angle.

In the above-mentioned scheme, at least three states may exist between the supporting plate 81 and the supporting rod 82, as shown in fig. 6-10, the first state is that when the supporting plate 81 is in a vertical state, the angle between the supporting plate 81 and the supporting rod 82 is zero, and the supporting plate 81 is attached to the supporting rod 82, as shown in fig. 11-15, the second state is that when the included angle between the supporting plate 81 and the supporting rod 82 is in a first angle, the supporting plate 81 is turned over from the vertical state to the first angle, and the supporting plate 81 is stopped by the first stopping portion 8331 to position the supporting plate 81 at the first angle, as shown in fig. 16-20, and the third state is that when the included angle between the supporting plate 81 and the supporting rod 82 is in a second angle, the supporting plate 81 is turned over from the first angle to the second angle, and the supporting plate 81 is stopped by the second stopping portion 8332 to position the supporting plate 81 at the second angle.

Further, as shown in fig. 21-25, the first stopping portion 8331 and the second stopping portion 8332 are connected in a stepped manner, the surface of the first stopping portion 8331 is a smooth arc surface, and when the pallet 81 is turned from the first angle to the second angle, the mating portion 811 passes over the surface of the first stopping portion 8331 and presses the channel 832 to clamp the support rod 82.

In the above-mentioned scheme, the first stopping portion 8331 and the second stopping portion 8332 are configured as a step structure, and the height of the second stopping portion 8332 is higher than the height of the first stopping portion 8331, when the pallet 81 is turned to the first angle, the connection portion between the step structure and the channel 832 of the pallet 81 is stopped by the first stopping portion 8331, and when the pallet 81 is turned to the second angle, the pallet 81 is positioned at the connection portion between the first stopping portion 8331 and the second stopping portion 8332 in the step structure and stopped by the second stopping portion 8332. The outer surface of the first stopping portion 8331 is provided with a smooth cambered surface, so that the overturning difficulty of the supporting plate 81 when passing over the surface of the first stopping portion 8331 can be reduced, meanwhile, the supporting plate 81 can generate extrusion force to the channel 832 in the process of passing over the surface of the first stopping portion 8331, the space of the channel 832 is reduced, the supporting rod 82 positioned in the channel 832 is clamped, and the height of the supporting plate 81 is fixed. Thus, when the pallet 81 is in the vertical state and the first angle, the height of the pallet 81 can be adjusted, and when the desired height is reached, the pallet 81 is turned to the second angle, and the height of the pallet 81 is fixed.

Further, as shown in fig. 21-25, the first limiting structure includes a plurality of first stopping portions 8331 and a plurality of second stopping portions 8332 disposed in parallel along the length direction of the channel 832, the plurality of second stopping portions 8332 are disposed on the same axis, and the lengths of the plurality of first stopping portions 8331 sequentially increase along the direction of the bottom end of the supporting rod 82.

In the above-mentioned scheme, the purpose of providing the plurality of first stop portions 8331 and the second stop portions 8332 is to ensure the stability of the turning angle and the height between the supporting plate 81 and the supporting rod 82 because the supporting plate 81 has a certain width. The purpose of sequentially increasing the lengths of the first stopping portions 8331 along the bottom end direction of the supporting rod 82 is to ensure that when the supporting plate 81 and the supporting rod 82 form a first angle, the matching portion 811 of the supporting plate 81 abuts against all the first stopping portions 8331, and at this time, the supporting plate 81 and the supporting rod 82 form an acute angle, and when the plurality of second stopping portions 8332 are disposed on the same axis, when the supporting plate 81 and the supporting rod 82 form a second angle, the matching portion 811 of the supporting plate 81 abuts against all the second stopping portions 8332, and at this time, the supporting plate 81 and the supporting rod 82 form a right angle.

Further, as shown in fig. 21-25, a second limiting structure is further provided on the body 831, a beam 812 is further provided on a side of the supporting plate 81 connected to the assembly 83, the mating portion 811 is located on two sides of the beam 812, and when the supporting plate 81 is turned from the first angle to the second angle, the second limiting structure is in limiting contact with the beam 812.

In the above-mentioned scheme, since the engaging portion 811 of the pallet 81 passes over from the surface of the first stop portion 8331 to reach the second stop portion 8332 in the process of turning the pallet 81 from the first angle to the second angle, at this time, the engaging portion 811 may pass over the second stop portion 8332 when the force is too large or the tableware placed on the pallet 81 is too heavy, so that an obtuse angle is formed between the pallet 81 and the support bar 82, and when the pallet 81 and the support bar 82 form an obtuse angle, the tableware placed on the pallet 81 may slip down from the pallet 81, and the stability of placing the tableware is poor.

Further, as shown in fig. 21-25, the second limiting structure is at least one third stopping portion 8341 formed by protruding the body 831 between the two side channels 832 toward the top end of the supporting rod 82, and when the supporting plate 81 is turned from the first angle to the second angle, the cross beam 812 is stopped by the third stopping portion 8341.

In the above-mentioned scheme, the beam 812 of the pallet 81 is stopped by the third stopping portion 8341, so that the turnover transition of the pallet 81 is effectively prevented. The third stop portion 8341 is provided with a concave surface near one side of the beam 812, and when the supporting plate 81 is located at the second angle, the beam 812 is limited in the concave surface. In order to further guarantee the stopping effect and to achieve the overall symmetry and aesthetic appearance of the bracket 8, it is preferable that the body 831 between the two side channels 832 is upwardly convex to form two third stopping portions 8341, and the cross member 812 is simultaneously stopped by the two third stopping portions 8341 when the supporting plate 81 is turned from the first angle to the second angle.

Further, as shown in fig. 21-25, in order to enhance the strength of the third stop portion 8341, a reinforcing rib 8342 is disposed on a side of the third stop portion 8341 facing away from the beam 812, the reinforcing rib 8342 is that an end portion of the third stop portion 8341 protrudes toward the bottom edge direction of the body 831, and a rib is formed at a junction between the third stop portion 8341 and the body 831, and the rib extends toward the bottom edge direction of the body 831 to be connected with the bottom edge of the body 831. The advantage of this arrangement is that it has a strength enhancing effect on the entire third stop 8341.

Further, as shown in fig. 21-25, one end of the channel 832 is flush with the bottom edge of the body 831, and the other end protrudes out of the body 831 to form a mounting portion, two sides of the mounting portion are provided with a rotation shaft 835, a mounting groove is provided between the cross beam 812 and the mating portion 811, and the rotation shaft 835 is rotatably disposed in the mounting groove.

In the above-mentioned scheme, set up rotation axis 835 first mounting hole at the both ends of crossbeam 812 the one end that cooperation portion 811 is close to crossbeam 812 sets up rotation axis 835 second mounting hole, and all sets up a first mounting hole and a second mounting hole in every mounting groove, rotation axis 835 stretches into respectively in first mounting hole and the second mounting hole for rotatable setting between layer board 81 and the installation portion.

Further, as shown in fig. 6-20, the upper surface of the supporting plate 81 is provided with an anti-slip structure 813 for preventing tableware on the supporting plate 81 from sliding off;

In the above-mentioned scheme, since the dishwasher has a certain impact force to the dishes placed on the tray 81 during operation, the present invention displaces the dishes placed on the tray 81 by providing the anti-slip structure 813. Preferably, the supporting plate 81 is a grid structure, and the anti-slip structure 813 is a protrusion at an intersection point of the grid structure.

Example 3

26-30, A dishwasher rack 100 has a tub 200 in which the dishwasher rack 100 is placed to support dishes in the tub 200. The shelf 100 includes a support structure for supporting the shelf 100 for placement and a hanging structure for hanging the shelf 100 for placement.

In the above scheme, the dish washer shelf 100 provided by the invention has a simple structure and can be compatible with supporting and hanging purposes, and one mode can be selected to place the shelf 100 according to different structures of the liner 200, so that the universality of the dish washer shelf 100 is enhanced, the dish washer shelf 100 provided by the invention can be applied to a dish washer with the step 201-shaped liner 200, hanging and supporting can be carried out by using a hanging structure, and also can be applied to a dish washer without the step 201-shaped liner 200 and supporting can be carried out by using a supporting structure, so that the dish washer shelf is applicable to different dish washer types and has high universality.

Further, as shown in fig. 27 to 28, the support structure includes support legs provided at the bottom of the shelf 100, and the shelf 100 is placed on the bottom wall of the liner 200 through the support legs.

In the above scheme, the bottom of the rack 100 is provided with a plurality of supporting feet, and is preferably arranged at the intersection point of two bottom edges where the rack 100 of the dish washer intersects, the rack 100 is directly placed in the liner 200 through the supporting feet, so that the arrangement of supporting columns in the liner 200 is avoided, and the space utilization rate of the liner 200 is increased.

Further, as shown in fig. 27 to 28, the supporting leg includes a supporting portion and a connecting portion, the supporting portion includes a first supporting member and a second supporting member that are disposed in parallel, one end of the first supporting member is connected to a side wall of the shelf 100, the other end of the first supporting member is supported on the liner 200, one end of the second supporting member is connected to a bottom of the shelf 100, the other end of the second supporting member is supported on the liner 200, and the connecting portion connects the first supporting member and the second supporting member to one end of the liner 200 that contacts.

In the above scheme, the first supporting piece is connected with the side wall of the shelf 100, the second supporting piece is connected with the bottom of the shelf 100, and the supporting legs have supporting effects on the bottom and the side wall of the shelf 100, so that the supporting stability of the whole shelf 100 is ensured. And the first support piece and the second support piece are connected with one end contacted with the bottom of the liner 200 through the connecting piece, so that the contact area between the whole support leg and the bottom of the liner 200 is increased, the acting force of the support piece on the liner 200 in unit area is reduced, and the support leg is prevented from damaging the bottom of the liner 200.

Further, as shown in fig. 27 to 28, the first support member is a first support rod 1021, the second support member is a second support rod 1022, the first support rod 1021 and the second support rod 1022 are perpendicular to the bottom surface of the shelf 100, and the length of the first support rod 1021 is greater than the length of the second support rod 1022. The connecting member is a connecting rod 1023, the connecting rod 1023 is perpendicular to the side wall of the shelf 100 connected to the first support rod 1021, and the first support rod 1021, the second support rod 1022 and the connecting rod 1023 form a U-shaped structure.

In the above scheme, the first support rod 1021, the second support rod 1022 and the connecting rod 1023 are in a U-shaped structure and protrude towards the bottom of the shelf 100, and can be abutted against the bottom of the liner 200 or the edge of the liner 200, so that the function of supporting is achieved, and the whole structure is concise and attractive.

Further, as shown in fig. 28, a protection structure 106 is further disposed on the supporting leg to prevent the supporting leg from damaging the liner 200.

In the above-mentioned scheme, because dish washer shelf 100 probably adopts the metal material, can cause footing and inner bag 200 to touch many times when getting dish washer shelf 100 and putting many times, can cause the damage of inner bag 200, therefore set up protection architecture 106 on the supporting legs, protection architecture 106 can be for having certain elastic material, plays the effect of buffering to touching between the two, less dish washer shelf 100 is to the injury of inner bag 200. While also preventing the rack 100 from being dislodged by the impact of the water flow during operation of the dishwasher. Preferably, the anti-slip structure 813 is a flexible wrapping around the connection between the first support rod 1021 and the connector.

Further, as shown in fig. 29 to 30, the hanging structure includes hanging members provided at the side walls of the shelf 100, by which the shelf 100 is hung on the opposite wall of the inner container 200.

In the above scheme, because the internal structure of the dish washer is complex, and the side wall of the liner 200 has a corresponding protruding structure, the dish washer shelf 100 just uses the protruding structure to support through the hanging structure, thereby reducing the pressure of the bottom of the dish washer shelf 100 to the liner 200 and protecting the liner 200.

Further, the hanging member at least includes hanging beams 101 respectively disposed on sidewalls of the shelf 100 disposed opposite to the shelf 100, the hanging beams 101 are parallel to a bottom of the shelf 100, steps 201 are disposed on opposite sidewalls of the liner 200, and the hanging beams 101 rest on the steps 201 to hang the shelf 100 on walls of the liner 200.

In the above-described scheme, when the inner container 200 has the protruding step 201 therein, the hanging beam 101 is provided at the dishwasher rack 100 for being placed at the step 201 so that the rack 100 is hung in the inner container 200. The suspension beams 101 may be disposed on the opposite side walls of the shelf 100, or the suspension beams 101 may be disposed on the peripheral side walls, and when the suspension beams 101 are disposed on the peripheral side walls, the suspension beams 101 on each side wall are connected end to end and form a circle along the side walls of the shelf 100, so that the suspension beams 101 can be placed on the steps 201 to suspend the shelf 100 regardless of the placement of the user.

Example 4

As shown in fig. 31-32, the dishwasher rack 100 further includes a chopstick cage receiving area 7, the chopstick cage being detachably disposed in the chopstick cage receiving area 7, the chopstick cage including a box structure for placing tableware such as chopsticks, spoons, etc. The chopstick cage accommodating area 7 comprises a sixth yarn 61 horizontally arranged, one end of the sixth yarn 61 is provided with a bracket 711 for hanging the chopstick cage, the bracket 711 and the sixth yarn 61 are integrally L-shaped, the other end of the sixth yarn 61 can be arranged on the shelf 100 main body in a turnover manner, the sixth yarn 61 is arranged on the shelf 100 main body through a hinge 73, the hinge 73 is provided with a hinge 73 shaft hole 631, and the chopstick cage bracket 711 rotates along the axial direction of the hinge 73 shaft hole 631. The shelf 100 is composed of a plurality of crisscrossed yarn strips, the crisscrossed yarn strips are provided with a crossing structure, and the hinge 73 is provided with a mounting groove matched with the crossing structure. The cross structure is a T-shaped structure, and a T-shaped mounting groove with a downward opening is arranged at the bottom of the hinge 73 and is used for being fixedly mounted at the T-shaped structure. Preferably, the sixth filament 61 has two parallel arranged ends on the same side of the two sixth filament 61 bent in opposite directions to form two coaxial rotation shafts, the hinge 73 has two hinge 73 shaft holes 631, and the two rotation shafts are respectively placed on the hinge 73. The sixth locating rods 62 are arranged at two sides of the sixth thread 61 and are arranged at the bottom of the shelf 100 main body at the position far away from the hinge 73, so as to horizontally support the chopstick cage. The sixth positioning rod 62 is bent towards the outside of the chopstick cage accommodating area 7, and an opening slightly larger than the size of the chopstick cage module is formed at the upper part of the accommodating space. The main body of the shelf 100 comprises a limit rod 103 which is arranged at the bottom of the main body of the shelf 100 and far away from the hinge 73, and horizontally supports the chopstick cage.

As shown in fig. 26, since the bottom of the liner 200 of the dishwasher of the present invention is provided with a filter, the dishwasher rack 100 is placed in the liner 200, and the position of the chopstick cage accommodating area 7 corresponds to the position of the filter in the up-down direction. The end part of the seventh strand 71 provided with the chopstick cage bracket 711 is arranged to be in a turnover arrangement relative to the bottom of the shelf 100, namely, the whole chopstick cage accommodating area 7 is in a turnover arrangement, and the arrangement has the advantages that when the chopstick cage bracket 711 is used for cleaning a filter, the filter can be cleaned only by turning over the chopstick cage accommodating area 7, and the chopstick cage can be detached from the bracket 711 without influencing the turnover process of the chopstick cage accommodating area 7. The user can be without taking out the whole dish washer shelf 100 in the use process, so that the cleaning step is saved, repeated touching of the dish washer shelf 100 and the liner 200 is avoided, and the step of cleaning the filter can be conveniently performed on the premise of protecting the liner 200, thereby achieving two purposes.

Example 5

As shown in fig. 33, the dish rack 100 of the present invention is further provided with a small bowl placement area including a sixth thread 61 provided on the rack 100 main body, a sixth positioning rod 62 is provided on the sixth thread 61, the sixth thread 61 is connected to the rack 100 main body by a fixing member, and the sixth thread 61 is rotatably/slidably provided on the rack 100 main body by the connection of the fixing member for position adjustment

The sixth thread 61 is rotatable, so that the angle between the sixth thread 61 and the rack 100 main body is adjusted, the sixth thread 61 can be vertically arranged to support small bowl tableware, can turn over to be parallel to the bottom of the rack 100 main body to form a larger space for avoiding tableware, and can slide relative to the rack 100 main body, so that tableware with different specifications can be placed by adjusting the interval.

The bowl area 6 includes a plurality of parallel sixth filament strips 61, the sixth filament strips 61 have a cylindrical rod-shaped structure and are horizontally arranged, a plurality of sixth positioning rods 62 are fixedly arranged on the sixth filament strips 61, a plurality of subspaces for placing bowls are separated from the space above the sixth filament strips 61, and the sixth positioning rods 62 on the plurality of sixth filament strips 61 are oppositely arranged and correspond to each other in position.

The sixth filament 61 is connected to the shelf 100 main body by a fixing member, as shown in fig. 33 to 40. The fixing member may be one fixing member fixed to one end of the sixth thread 61, or may be two fixing members provided at both ends of the sixth thread 61 to fix both ends of the sixth thread 61, and when two fixing members are provided, two identical fixing members may be provided, or two different fixing members may be provided. The invention is specifically illustrated with two different fixtures.

As shown in fig. 34-36, the fixing members include a first fixing member 63 and a second fixing member 64, and the first fixing member 63 is different from the second fixing member 64 in that the first fixing member 63 is provided with a limiting structure.

The first fixing member 63 and the second fixing member 64 are both provided with a shaft hole 631 for placing the sixth filament 61, the sixth filament 61 can rotate in the shaft hole 631, the shaft holes 631 of the two fixing members are correspondingly arranged, and two ends of the sixth filament 61 can be respectively located in the shaft hole 631 of one fixing member, and the two shaft holes 631 of the one fixing member are symmetrically arranged.

The sixth thread 61 is connected to the shelf 100 main body by a fixing member having a shaft hole 631 provided in the X direction, and the sixth thread 61 is rotatably provided in the shaft hole 631 and is rotatable along the X axis. When the sixth filament 61 rotates along the X-direction axis, the sixth positioning rod 62 provided on the sixth filament 61 may be driven to rotate, and the end of the sixth positioning rod 62 may draw an arc-shaped trajectory. A limiting bridge 634 is arranged between the two shaft holes 631, and the limiting bridge 634 can fix the distance between the two shaft holes 631 and prevent the relative movement between the adjacent sixth yarns 61 in the Y direction.

As shown in fig. 33, the fixing member is fixedly mounted on the shelf 100 main body, the shelf 100 main body is provided with a first mounting rod 104 and a second mounting rod 105, the first fixing member 63 is mounted on the first mounting rod 10411, the second fixing member 64 is fixedly mounted on the second mounting rod 105, and a sliding groove 632 is formed at the bottom of the fixing member, as shown in fig. 34-40, for accommodating the mounting rod and enabling the fixing member to slide along the mounting rod, and the sliding groove 632 is matched with the size of the mounting rod. The distance between the first mounting bar 104 and the second mounting bar 105 is smaller than the length of the sixth yarn 61, and the end of the sixth yarn 61 may slightly protrude from the shaft hole 631.

34-38, The first fixing member 63 is provided with a limiting structure for limiting the rotation angle of the tableware supporting rod 711, the limiting structure is a limiting groove 633, at least one sixth positioning rod 62 can be limited in the limiting groove 633, as shown in FIG. 33, the positions of two adjacent filaments close to the first fixing member 63 are respectively provided with the sixth positioning rod 62, the sixth positioning rod 62 can be limited in the limiting groove 633, the sixth positioning rod 62 is in the Z direction to form a vertical state for supporting tableware, the limiting groove 633 is arranged along the Z direction, the rotation angle range of the sixth positioning rod 62 is 0-90 degrees, when the sixth positioning rod 62 is limited in the limiting groove 633, the sixth positioning rod 62 is vertical to the bottom surface of the dish washer shelf 100, the first fixing member 63 is provided with two limiting grooves 633 respectively for accommodating the sixth positioning rods 62 on the two sixth positioning rods 61, and the two limiting grooves 633 are symmetrically arranged and have opening directions deviating from each other.

Fig. 37 is a side view of the first fixing member 63, and fig. 38 is a sectional view taken at F-F in fig. 37, wherein the internal structure of the first fixing member 63, the arrangement position of the shaft hole 631, and the sectional structure of the slide groove 632 can be seen, and the arrangement of the stopper bridge 634 can be seen. Fig. 39 is a side view of the second fixing member 64, and the second fixing member 64 is not provided with the stopper groove 633, as shown in fig. 40 after being cut at G-G.

The fixing piece can rotate and adjust the tableware supporting rod 711 so as to avoid a larger space for placing tableware, and the position of the tableware supporting rod 711 can be adjusted by sliding the fixing piece and the main body of the shelf 100, so that the space inside the dish washing machine is reasonably utilized by the shelf 100. The arrangement of the two fixing pieces ensures that the sixth thread 61 can stably rotate or slide, and also ensures the relative distance between the sixth thread 61, thereby forming a stable supporting structure.

When needed, other tableware placing areas similar to the small bowl area 6 can be provided with fixing pieces, so that the silk strips in each tableware can be folded or slid relative to the bottom of the shelf 100 to avoid a larger space for accommodating other different types of tableware.

The above description is only of the preferred embodiments of the present invention, and is not intended to limit the present invention in any way, although the present invention has been described in the preferred embodiments, it is not intended to limit the present invention, and any person skilled in the art will not depart from the scope of the present invention, while the technical content mentioned above can be utilized to make some changes or modifications to equivalent embodiments, any simple modification, equivalent changes and modification made to the above embodiments according to the technical substance of the present invention will still fall within the scope of the present invention.

Claims (8)

1. A dishwasher rack, characterized in that the rack comprises a supporting structure and a hanging structure, the supporting structure is used to support and place the rack, and the hanging structure is used to hang and place the rack; The dishwasher comprises an inner container, the support structure comprises support feet arranged at the bottom of the rack, the rack is placed on the bottom wall of the inner container through the support feet, and the support feet are arranged at the intersection of two intersecting bottom edges of the rack; The supporting foot includes a supporting part and a connecting member, the supporting part includes a first supporting member and a second supporting member arranged in parallel, one end of the first supporting member is connected to the side wall of the shelf, and the other end is supported on the bottom wall of the inner pot, one end of the second supporting member is connected to the bottom of the shelf, and the other end is supported on the bottom wall of the inner pot, and the connecting member connects the ends of the first supporting member and the second supporting member that are in contact with the bottom wall of the inner pot. 2. A dishwasher rack according to claim 1, characterized in that the first support member is a first support rod, the second support member is a second support rod, the first support rod and the second support rod are respectively perpendicular to the bottom wall of the rack, and the length of the first support rod is greater than the length of the second support rod. 3. A dishwasher rack according to claim 2, characterized in that the connecting member is a connecting rod, the connecting rod is perpendicular to the rack side wall connected to the first support rod, and the first support rod, the second support rod and the connecting rod form a U-shaped structure. 4. A dishwasher rack according to claim 3, characterized in that the support legs are also provided with anti-slip structures to prevent the rack from shifting at the bottom of the inner tank. 5 . The dishwasher rack according to claim 4 , wherein the anti-slip structure is a flexible edging covering a connection between the first support rod and the connecting rod. 6. A dishwasher rack according to any one of claims 1 to 5, characterized in that the suspension structure comprises a suspension member arranged on a side wall of the rack, and the rack is suspended on the opposite inner tank wall through the suspension member. 7. A dishwasher rack according to claim 6, characterized in that the hanging member comprises at least hanging beams respectively arranged on opposite side walls of the rack, the hanging beams are parallel to the bottom of the rack, steps are arranged on opposite side walls of the inner tank, and the hanging beams are placed on the steps to hang the rack on the inner tank wall. 8. A dishwasher comprising the rack according to any one of claims 1 to 7.