CN106466161B - Door body water receiving structure and dish washing machine with same - Google Patents

Abstract

The invention relates to a door body water receiving structure and a dish washing machine with the door body water receiving structure. In the top-hung door opening process after the program of the dish washing machine is finished, water remained on the inner surface of the door body can be collected in the water receiving tank at the top of the door body, the least amount of water drops on the inner surface of the door body can drop to the top or the back of the machine body, the water collected by the water receiving tank at the top of the door body can be guided back to the cleaning chamber when the door is closed, the water dropping phenomenon at the bottom of the door body can not occur, and the use requirement of a user is greatly met.

Description

Door body water receiving structure and dish washing machine with same

Technical Field

The invention relates to a dish washing machine, in particular to a door body water receiving structure on the dish washing machine, and belongs to the technical field of household appliances.

Background

the dish washer is a device for washing tableware by spraying high pressure washing water through a nozzle, and generally comprises a dish washer body forming a washing chamber, wherein a tableware inlet is arranged in front of the dish washer body, a door body is arranged at the tableware inlet, and a tableware placing rack and the like are arranged in the washing chamber.

At present, dish washer on the market is towards miniaturization and compact orientation development, in order easily to get and put the tableware, the door body of dish washer adopts the segmentation door body of two parts from top to bottom, the upward door body slides upwards and opens, the downward upset of the lower door body is opened, it is provided with the direction muscle at the internal surface of the last door body, water guide to both sides with a internal surface, at the in-process of opening the door, along with the direction of direction muscle, the water that will remain on the internal surface of door guides to organism inside, avoid rivers to fall the top surface of organism, but the door body to the top suspension formula door of opening the door, fail to solve a body bottom, the top drips, inboard residual water scheduling problem.

Disclosure of Invention

The present invention is directed to solving the above problems and disadvantages and to providing a door body water receiving structure capable of preventing water dripping during door opening and closing.

Another main object of the present invention is to provide a dishwasher having the door body water receiving structure.

In order to achieve the purpose, the technical scheme of the invention is as follows:

The utility model provides a door body water receiving structure, includes the door body at least the sealing strip is installed to the bottom of the door body the top of door body internal surface is provided with the water receiving tank that is used for collecting the internal surface residual water of a body when opening the door.

Furthermore, the door body is formed by assembling a transparent material in the middle and door frames on the periphery.

Furthermore, the water receiving tank is divided into an upper water receiving tank and a lower water receiving tank, wherein the upper water receiving tank and the lower water receiving tank are respectively a first water receiving tank and a second water receiving tank, and the first water receiving tank is arranged below the second water receiving tank.

further, the first water receiving groove is of an inverted L-shaped structure, the first water receiving groove is formed in the inner surface of the door body along the top of the door body in a through length mode, and the inverted L-shaped structure and the inner surface of the door body form a groove cavity for collecting residual water on the inner surface of the door body in a surrounding mode.

Further, the second water receiving tank is of a cavity structure formed at the top of the door body, and a water inlet is formed below the cavity along the inner surface of the door body.

Further, the sealing strip comprises a fixing portion used for being fixed with the door body above the sealing strip, a lip type sealing portion used for achieving sealing below the fixing portion and an air bag type sealing portion, and the lip type sealing portion is arranged on the outer side of the air bag type sealing portion.

Furthermore, the top of the air bag type sealing part is in close fit with the bottom of the door body, and the inner surface of the door body and the inner side surface of the air bag type sealing part are in smooth transition.

furthermore, a retaining dam which is arranged along the whole length of the bottom and used for collecting residual water on the inner surface of the door body is further arranged at the bottom of the inner surface of the door body.

Furthermore, the water retaining dam is rotatably connected with the door body through a linkage mechanism.

The other technical scheme of the invention is as follows:

A dish washing machine comprises a machine body, wherein a tableware feeding opening is formed in the front of the machine body, a door body is installed at the tableware feeding opening, and the door body is provided with a water receiving structure.

In summary, according to the door body water receiving structure and the dishwasher with the door body water receiving structure provided by the invention, the sealing strip is arranged at the bottom of the door body and the water receiving tank is arranged at the top of the door body, so that water remained on the inner surface of the door body can be collected in the water receiving tank at the top of the door body in the upward-hanging type door opening process after the program of the dishwasher is finished, the water collected by the water receiving tank at the top of the door body can be guided back to the cleaning chamber when the door is closed, the water dripping phenomenon at the bottom of the door body can not occur, and the use requirements of users can be greatly met.

Drawings

FIG. 1 is a schematic view of the dishwasher of the present invention;

FIG. 2 is a schematic view of the door construction of the present invention;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is an enlarged view of section I of FIG. 2;

Fig. 5 is a partial enlarged view of ii of fig. 2.

As shown in fig. 1 to 5, a box body 1, an inner container 2, a washing chamber 3, a tableware inlet 5, a door body 6, a door opening mechanism 7, inner layer glass 8, an inner door frame 9, outer layer glass 10, an outer door frame 11, a gap 12, a sealing strip 13, a fixing part 13a, a lip type sealing part 13b, an air bag type sealing part 13c, a mounting groove 14, an inverted tooth 15, a first water receiving groove 16, a second water receiving groove 17, a groove cavity 18, a water inlet 19, a cavity 20, a water retaining rib 21 and a water retaining dam 22.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings:

As shown in fig. 1, the present invention provides a dish washer, which comprises a body, wherein the body is composed of a box body 1 and an inner container 2, a washing chamber 3 for washing tableware is arranged inside the inner container 2, a shelf and a cooker rack (not shown in the figure) are arranged in the washing chamber 3, the tableware such as bowls and the like is placed on the shelf during dish washing, the cooker such as a slice and the like is placed on the cooker rack, the cooker rack is fixedly arranged on the upper portion of the rear wall of the inner container 2, a tableware inlet 5 is arranged on the front side surface of the body, a door body 6 is arranged at the tableware inlet 5, the door body 6 adopts an upper suspension integrated structure, and is connected with the body through a door opening mechanism 7.

In this embodiment, the door body 6 adopts the door opening mode of an upward suspension type, and when the door is opened, the door body 6 is wholly upwards turned and opened under the driving of the door opening mechanism 7, the door opening process is simple and convenient, and the door body 6 is wholly positioned above the top of the box body 1 after the door is opened.

The whole body of the door body 6 is in an arc shape, the front side surfaces of the box body 1 and the inner container 2 are bent from the bottom to the top to form a corresponding arc shape, the width of the top of the box body 1 and the inner container 2 is smaller than that of the bottom, thus, the size of the product is reduced from the perception, the appearance is more attractive and elegant, the box body 1 and the inner container 2 are placed in a kitchen without occupying space, and simultaneously, the space of a tableware throwing-in opening 5 is relatively enlarged, when the door body 6 is completely opened, more than half of the space at the top of the washing chamber 3 is in an open state, the visual field of a user is larger, the tableware and the cooker are clear at a glance, the height and the width of the dish-washing machine are optimized values, when the user takes and takes the tableware and the cooker, the shelf and the cooker frame do not need to be moved outwards, the tableware and the cooker can be taken and placed directly, the user can take and, the prior art mechanism for removing the racks and the cookware shelf from the washing chamber 3 is omitted, further simplifying the overall structure of the dishwasher and also further reducing costs.

As shown in figure 1, the top of the box body 1 adopts a structure that the tableware throwing-in opening 5 at the front part is inclined downwards towards the rear part of the box body 1, so when the door body 6 is completely opened, if a small amount of water drops drop on the box body 1, the water drops can flow to the rear part of the box body 1 along the inclined plane, can not be stored on the box body 1, and can not drop on the table top at the front or two sides of the dishwasher, within the acceptable range of users.

As shown in fig. 2 and 3, in order to further enhance the aesthetic property of the dishwasher and facilitate the user to observe the working process of the dishwasher, the door body 6 preferably adopts a structure assembled by a middle transparent material and a surrounding door frame, the transparent material is integrally bent from the bottom to the top to form an arc-shaped structure, and the side edge of the door frame is arc-shaped with the same radian as the transparent material. The transparent material is preferably of a double-layer structure, the materials of the double-layer structure can be the same or different, the transparent material of the outer layer can be colored or colorless glass, ABS, PS, PP, PMMA, PC or the like, and the transparent material of the inner layer can be colored or colorless glass, PP or the like. In this embodiment, the inner layer and the outer transparent material are preferably colored or colorless glass, and are respectively inner layer glass 8 and outer layer glass 10, and the door frame also divide into inner door frame 9 and outer door frame 11, and inner layer glass 8 fixed mounting is on inner door frame 9, and outer layer glass 10 fixed mounting is on outer door frame 11, and inner door frame 9 and outer door frame 11 all adopt integrative injection moulding, through a plurality of screw fixed connection between inner door frame 9 and the outer door frame 11. The inner layer glass 8, the outer layer glass 10, the inner door frame 9 and the outer door frame 11 are all arc-shaped, and the integrated door body 6 with the arc-shaped is formed after the assembly. Decorative strips and the like can be further installed on the four sides of the outer layer glass 10, so that the overall attractiveness of the dishwasher is further improved.

A certain gap 12 is formed between the inner layer glass 8 and the outer layer glass 10, the gap 12 can play a certain heat insulation role, the temperature of the surface of the outer layer glass 10 cannot exceed 50 ℃, and a user is prevented from being scalded in the heating and cleaning process. Meanwhile, because a certain temperature difference exists between the inner layer glass 8 and the outer layer glass 10, in order to avoid forming condensed water, in the embodiment, a plurality of vent holes (not shown) are arranged on the inner door frame 9 and the outer door frame 11 to be communicated with the external environment, so that the gas in the gap 12 is kept in a relatively flowing state. The vent hole sets up at the top of interior door frame 9, and is semicircular opening, and interior door frame 9 and outer door frame 11 fixed mounting back together, the vent hole communicates the clearance 12 between inner glass 8 and outer glass 10 with external environment.

In the washing process of the dishwasher, the inner surface of the inner layer glass 8 can spray water from different directions, most of the water can flow back to the washing chamber along the inner surface of the inner layer glass 8 and the inner door frame 9, the inner surface of the inner door frame 9 is designed to be smooth, steps are reduced, and the like, so that the residual water on the inner surface of the door body 6 is minimized when the washing is stopped midway or the program is terminated. The dishwasher has a drying step after the washing step is completed, and a small amount of water remains on the inner surface of the door body 6, i.e., on the inner surfaces of the inner glass 8 and the inner door frame 9 after the drying step is completed. Because the door body 6 adopts the door opening mode of the top suspension type, after the door opening button is pressed, the door body 6 is immediately opened to form a certain angle with the inner container 2, partial residual water on the inner side of the door body 6 drips onto the table top from the front part of the dish washing machine, and the residual water on the inner surface of the door body 6 drips onto the top or the rear part of the box body 1 along the inner surface of the door body 6 along with the door body 6 being opened to the topmost end.

In order to ensure that the phenomenon of water dripping does not occur in the whole opening process of the door body 6, the invention also provides a door body water receiving structure as follows.

The first embodiment is as follows:

As shown in fig. 2 and 4, the door body water receiving structure includes a sealing strip 13 installed at the bottom of the door body 6 and a water receiving tank arranged at the top of the door body 6.

in this embodiment, the sealing strip 13 is installed at the bottom of the inner door frame 9, the sealing strip 13 is integrally made of a rubber material, the sealing strip 13 is composed of an upper fixing portion 13a, a lower lip-type sealing portion 13b and an air bag-type sealing portion 13c, the lip-type sealing portion 13b is arranged on the outer side of the air bag-type sealing portion 13c, a front seal and a rear seal are formed, and water in the cleaning chamber 3 is effectively prevented from flowing out from a gap between the bottom of the door body 6 and the inner container 2 in the cleaning process. The two side parts and the top part of the inner door frame 9 are also sealed with the inner container 2 through sealing rubber strips (not shown in the figure), the sealing rubber strips are fixed on the inner container 2, and when the door body 6 is turned downwards to close the door, the sealing rubber strips on the inner container 2 are compressed by the inner door frame 9 to realize the sealing between the inner door frame 9 and the inner container 2.

The bottom of the inner door frame 9 is provided with a through long mounting groove 14 which is sunken upwards, two side surfaces of the fixing part 13a are respectively provided with a plurality of inverted teeth 15 which protrude outwards, the fixing part 13a is upwards inserted into the mounting groove 14, and the sealing strip 13 is fixedly connected with the inner door frame 9 through friction force formed between the inverted teeth 15 and the inner wall of the mounting groove 14. Only a few mounting grooves 14 and correspondingly only a few fixing parts 13a can be arranged, and when the mounting is carried out, the fixing parts 13a are correspondingly inserted into the mounting grooves 14 to realize the fixing.

The lip type sealing part 13b on the sealing strip 13 is arranged at the outer side of the air bag type sealing part 13c, the lip type sealing part 13b and the air bag type sealing part 13c are arranged along the whole length of the bottom of the inner door frame 9, the air bag type sealing part 13c is compressed when the door body 6 is closed, and then the bottom of the inner door frame 9 and the inner container 2 of the tableware throwing opening 5 are sealed. The lip seal 13b is used as a second seal and is spaced from the airbag seal 13c by a distance that ensures that a certain gap is left between the lip seal 13b and the airbag seal 13c after the airbag seal 13c is compressed, and even if water drops condense on the surface of the airbag seal 13c, the water drops will not flow to the lip seal 13b, thereby reducing the area where water drops may possibly occur at the bottom of the door 6.

the sealing strip 13 is arranged at the bottommost part in the door body structure, partial water drops on the surface of the sealing strip 13 during the midway or termination of the washing program, and the water drops on the sealing strip 13 drop by means of self gravity along with the gradual opening of the door body. In order to avoid the water dripping phenomenon, in the embodiment, the top of the air bag type sealing part 13c is closely matched with the bottom of the inner door frame 9, so that the inner surface of the inner door frame 9 and the inner side surface of the air bag type sealing part 13c are in smooth transition integrally, and the water condensation phenomenon is reduced when water on the inner surface of the inner door frame 9 flows through the air bag type sealing part 13c, so that the residual water on the inner surface of the door body 6 can be reduced to the maximum extent, and the water smoothly flows back to the cleaning chamber 3 before the door is opened, and cannot drip on the table board.

As shown in fig. 2 and 5, in this embodiment, a water receiving slot for collecting water remaining on the inner surface of the door body when the door is opened is disposed on the top of the inner surface of the door body 6, that is, on the inner surface of the top of the inner door frame 9, in order to ensure that no water dripping occurs, the water receiving slot preferably adopts an upper water receiving slot and a lower water receiving slot, which are respectively a first water receiving slot 16 and a second water receiving slot 17, and the first water receiving slot 16 is disposed below the second water receiving slot 17. The water receiving tank can also adopt only the first water receiving tank 16 or the second water receiving tank 17.

Wherein, first water receiving tank 16 is the structure of falling L shape, follows along the interior door frame 9 at inlayer glass 8 top and follows the logical long setting, and the lateral wall of the structure of falling L shape stretches out downwards (the direction to inlayer glass 8 promptly), and the lateral wall of the structure of falling L shape, roof and the internal surface of inlayer glass 8 enclose into the groove cavity 18 of collecting the internal surface residual water of door jointly. When the door body 6 is gradually opened to the topmost end, most of the residual water on the door body 6 flows into the groove cavity 18 of the first water receiving groove 16 along the inner surface of the inner layer glass 8, the groove cavity 18 can temporarily store the collected water, and when the door body 6 is closed, the water in the groove cavity 18 flows out and then flows back to the inside of the cleaning chamber 3 along the inner surfaces of the inner layer glass 8 and the inner door frame 9.

The second water receiving tank 17 is a through-length cavity 20 structure formed at the upper edge position of the top of the inner door frame 9, a strip-shaped water inlet 19 is formed along the inner surface of the inner door frame 9 below the cavity 20, and the cavity 20 is defined by the inner door frame 9 and the outer door frame 11 together.

because second water receiving tank 17 sets up the top border at interior door frame 9 top, and the setting of first water receiving tank 16 is at the lower border at interior door frame 9 top, so second water receiving tank 17's length will be longer than first water receiving tank 16, when door body 6 was opened completely, some water droplet on the internal surface of door body 6 can be along interior door frame 9 flow direction edge, second water receiving tank 17 just can collect the remaining part water yield completely, make the water droplet of the internal surface of door body 6 can not drip to the top or the back of box 1 as far as possible, even there is a small amount of water droplet drippage also in user's acceptable within range. When the door body 6 is closed, a small amount of water in the cavity 20 flows out from the water inlet 19 and flows back to the inside of the cleaning chamber 3 along the inner surface of the inner layer glass 8 and the inner door frame 9.

Interior door frame 9, first water receiving tank 16 and second water receiving tank 17 are injection moulding's structure as an organic whole, and first water receiving tank 16 and second water receiving tank 17 once forming form when moulding plastics, not only guarantee the function of collecting water, have still simplified interior door frame 9's structure.

As shown in fig. 2, two side edges of the inner door frame 9 are respectively provided with a convex water retaining rib 21, the water retaining rib 21 is arranged on the inner side of the side sealing strip, the position where the water retaining rib 21 is arranged is located between the edge of the first water receiving tank 16 and the edge of the second water receiving tank 17, so that redundant water is guided into the second water receiving tank 17, and the water retaining rib 21, the inner door frame 9, the first water receiving tank 16 and the second water receiving tank 17 are integrally formed by injection molding. When the door body 6 is opened or closed, the water retaining rib 21 is favorable for blocking water in the middle of the door body 6, the water cannot flow out of the door body 6 to two sides, and a certain diversion effect can be further realized on the water, the water flows into the first water receiving tank 16 and the second water receiving tank 17 when the door is opened, and meanwhile, the water in the first water receiving tank 16 and the second water receiving tank 17 flows back to the inside of the cleaning chamber 3 along with the water retaining rib 21 when the door is closed.

Example two:

the difference from the first embodiment is that, as shown in fig. 2 and 4, in the present embodiment, a water retaining dam 22 for collecting the residual water on the inner surface of the door body may be further disposed on the inner side of the bottom of the inner door frame 9 along the entire length of the bottom, and the water retaining dam 22 has a bottom wall and a side wall, and the side wall can move up and down or turn over up and down through a linkage mechanism.

When the lateral wall adopts the structure that reciprocates, be in the closure state when the door body 6, lateral wall rebound makes and leaves a clearance between the bottom of lateral wall and the diapire, the washing water that gets into in the retaining dam 22 can flow back to in the purge chamber 3 along the clearance again, and in the twinkling of an eye when the user triggers door switch mechanism and opens the door body 6, lateral wall through link gear control retaining dam 22 moves down rapidly, make between the bottom of lateral wall and the diapire closed, at this moment, retaining dam 22 plays the effect of water receiving tank, the residual water on the internal surface of the door body 6 is collected by retaining dam 22 rapidly, further avoid the door body 6 to open the occasionally water droplet to the mesa. As the door body 6 is gradually opened, because a certain gap exists between the water retaining dam 22 and the inner surface of the inner glass 8, water in the water retaining dam 22 flows out and flows to the first water receiving tank 16 and the second water receiving tank 17 on the top of the inner door frame 9 along the inner surface of the inner glass 8.

When the side wall adopts the structure of turning over from top to bottom, when the door body 6 is in the closed condition, the side wall is turned over downwards and is in the coplanar or slightly downward sloping with the diapire, the water that is blocked by retaining dam 22 can flow back to the purge chamber 3 along retaining dam 22 again, and when the user triggered door switch mechanism and with the moment that the door body 6 was opened, the lateral wall through link gear control retaining dam 22 upwards overturned rapidly, make lateral wall and diapire enclose into the structure of water receiving tank, the residual water on the internal surface of door body 6 is collected rapidly by retaining dam 22, further avoid the door body 6 to open the occasionally the water droplet and fall to the mesa. As the door body 6 is gradually opened, because a certain gap exists between the water retaining dam 22 and the inner surface of the inner glass 8, water in the water retaining dam 22 flows out and flows to the first water receiving tank 16 and the second water receiving tank 17 on the top of the inner door frame 9 along the inner surface of the inner glass 8.

the linkage mechanism of the retaining dam 22 can adopt an electric control system and is connected with a touch switch, a driving motor, a gear rack or other transmission mechanisms, when the door body 6 is opened or closed, the touch switch is touched, the motor rotates forwards or reversely, and the transmission mechanism drives the side wall of the retaining dam 22 to move up and down or turn over upwards and downwards.

The linkage mechanism of the retaining dam 22 can also adopt a mechanical control system, for example, the linkage mechanism can adopt a connecting rod structure, the connecting rod is abutted against the inner container 2, when the door body 6 is opened or closed, the connecting rod can extend or retract, and then the side wall is driven to move up and down or turn upwards and downwards.

Similar solutions can be derived from the solution given in the figures, as described above. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a door body water receiving structure, is in including the door body at least the sealing strip, its characterized in that are installed to the bottom of the door body: the water receiving tank is arranged on the top of the inner surface of the door body and used for collecting residual water on the inner surface of the door body when the door is opened, the water receiving tank comprises an upper water receiving tank and a lower water receiving tank which are respectively a first water receiving tank and a second water receiving tank, the first water receiving tank is arranged below the second water receiving tank, the first water receiving tank is arranged along the top of the inner surface of the door body in a through-length mode, the first water receiving tank is of an inverted L-shaped structure, a tank cavity for collecting the residual water on the inner surface of the door body is formed by the inverted L-shaped structure and the inner surface of the door body together, the second water receiving tank is of a cavity structure formed on the top of the door body, a water inlet is formed below the cavity along the inner surface of the door body, the length of the second water receiving tank is longer than that of the first water receiving tank, in the process that the door body is gradually opened to the topmost end, most of the residual, when the door body is closed, water in the first water receiving groove cavity flows out and flows back to the inside of the cleaning chamber along the inner surface of the door body, and water in the second water receiving groove cavity flows out from the water inlet and flows back to the inside of the cleaning chamber along the inner surface of the door body.

2. The door body water receiving structure according to claim 1, wherein: the door body is formed by assembling a transparent material in the middle and door frames on the periphery.

3. The door body water receiving structure according to claim 1 or 2, characterized in that: the sealing strip comprises a fixing portion used for being fixed with a door body and a lip type sealing portion used for achieving sealing and an air bag type sealing portion, wherein the fixing portion is arranged above the sealing strip, the lip type sealing portion is arranged on the outer side of the air bag type sealing portion, and the lower portion of the sealing strip is used for achieving sealing.

4. The door body water receiving structure according to claim 3, wherein: the top of the air bag type sealing part is in close fit with the bottom of the door body, and the inner surface of the door body is in smooth transition with the inner side surface of the air bag type sealing part.

5. The door body water receiving structure according to claim 1, wherein: and the bottom of the inner surface of the door body is also provided with a retaining dam which is arranged along the whole length of the bottom and is used for collecting residual water on the inner surface of the door body.

6. The door body water receiving structure according to claim 5, wherein: the water retaining dam is rotatably connected with the door body through a linkage mechanism.

7. A dishwasher, comprising a machine body, a tableware inlet arranged in front of the machine body, a door body arranged at the tableware inlet, characterized in that: the door body water receiving structure as claimed in any one of claims 1 to 6 is arranged on the door body.