CN210582414U - A table top dishwasher - Google Patents

Abstract

The utility model provides a desk-top dish washer belongs to kitchen guarding machinery technical field, include: the washing machine comprises a shell, a washing chamber, a; the base is detachably connected to the bottom of the shell; the door body mechanism is movably and rotatably connected with the opening end of the inner container. The utility model provides a pair of desk-top dish washer has solved the direct outer problem of arranging of high temperature steam, and then reduces the temperature around the dish washer to avoid influencing other kitchen utensils and appliances life around.

Description

Table type dish washing machine

Technical Field

The utility model belongs to the technical field of kitchen guarding's machinery, a dish washer is related to, especially a desk-top dish washer.

Background

With the gradual improvement of the living standard of people, the requirements of people on living quality are higher and higher, wherein on one hand, the complicated housework is simplified; the existing dish washing machines in the market at present are generally divided into two categories of household and commercial dish washing machines, wherein the household dish washing machines are divided into a table type dish washing machine, a vertical type dish washing machine, a water tank type dish washing machine and the like; among them, the table type dish washer requires its entire small volume so as to be put at an arbitrary position for use.

However, current desk-top dish washer is in order to guarantee its inside and outside pressure differential's balance, need set up the bleeder vent on desk-top dish washer's top or lateral wall, and the tableware need carry out drying process after the washing is accomplished, and the high temperature steam that produces among the drying process can be through the bleeder vent on desk-top dish washer outdiffusion, because its temperature of outer steam of arranging can reach 80 to 90 degrees centigrade, the temperature that can make on the one hand around the desk-top dish washer risees, scald one's hand easily, on the other hand, can influence the life of other kitchen utensils and appliances around the desk-.

In summary, in order to overcome the drying structural deficiencies of the conventional table dish washing machine, a table dish washing machine which can remove steam, reduce ambient temperature and avoid affecting the service life of other surrounding kitchenware needs to be designed.

Disclosure of Invention

The utility model aims at solving the problems in the prior art, and provides a table type dish washing machine which can remove steam, reduce the ambient temperature and avoid influencing the service life of other kitchen utensils.

The purpose of the utility model can be realized by the following technical proposal: a table dishwasher, comprising: the washing machine comprises a shell, a washing chamber, a; the base is detachably connected to the bottom of the shell; the door body mechanism is movably and rotatably connected with the opening end of the inner container.

In the above-mentioned table type dish washer, the inner bag includes the inner bag casing, and can dismantle the bottom plate of being connected with the inner bag casing, wherein, is provided with an inlet air channel between inner bag casing and bottom plate, and this inlet air channel's one end and air inlet structure are linked together, and inlet air channel's the other end is linked together with the washing space of inner bag.

In the above-mentioned table dishwasher, the air outlet end of the air inlet channel is disposed obliquely downward, and the air outlet end of the air inlet channel is provided with a plurality of separation strips.

In the above-mentioned table dish washer, the breather includes a breather case, and the breather case is provided with the air inlet and the air outlet, wherein, a plurality of arc edges are provided in the case.

In the table dishwasher, four interfaces, namely a first interface, a second interface, a third interface and a fourth interface, are arranged below the respirator shell, wherein the second interface is connected with a municipal waterway, and the fourth interface is connected with a water outlet on the shell of the dishwasher; the water cup is arranged on the bottom plate, and is provided with a fifth interface, a sixth interface and a seventh interface, wherein a drainage pump is arranged between the third interface and the fifth interface; one end of the water softener is connected with the first interface, and the other end of the water softener is connected with the sixth interface; and one end of the washing pump is connected with the seventh interface, and the other end of the washing pump is connected with a spraying arm arranged on the bottom plate.

In the above-mentioned table dishwasher, an ozone generator is installed on the outer side wall of the liner shell, and the ozone generator is electrically connected with the controller in the dishwasher, and the air outlet end of the ozone generator is connected with the air outlet pipe installed on the shell.

In the above-mentioned table dishwasher, an air pump is arranged alongside the ozone generator, wherein an air outlet of the air pump is connected to the ozone generator.

In the above-described table dishwasher, the door mechanism includes: the outer door plate and the inner door plate are detachably connected; the controller comprises a control panel which penetrates through the outer door plate and is connected to the inner door plate and a circuit board which is attached to the inner side surface of the control panel, wherein one side of the control panel is provided with a groove which is used as a door opening handle of the door mechanism.

In the table dishwasher, the outer door plate and the inner door plate are respectively provided with a piece of glass, namely the outer glass and the inner glass, wherein the outer glass corresponds to the inner glass in position, and the inner door plate at the position of the inner glass is provided with a gradually-changing first cavity.

In the above-mentioned one of the table dishwashers, an electrolysis generator is detachably mounted on the recess of the housing, and the electrolysis generator is electrically connected to the controller.

Compared with the prior art, the utility model provides a pair of desk-top dish washer, through at inner bag side wall mounting air inlet structure, introduce the inner bag with the outside air of dish washer, carry out condensation processing in making high temperature steam in the inner bag sent into the respirator, discharge in the gas outlet of gas after the condensation through the respirator, the comdenstion water after the condensation flows back to the inner bag again through the air inlet of respirator, thereby the direct outer problem of arranging of high temperature steam has been solved, and then reduce the temperature around the dish washer, and avoid influencing other kitchen utensils and appliances life around.

Drawings

Fig. 1 is a schematic structural diagram of a table dishwasher according to the present invention.

Fig. 2 is a schematic diagram of an internal structure of a table dishwasher of the present invention.

Fig. 3 is a schematic diagram of an internal structure of a table dishwasher of the present invention.

Fig. 4 is a schematic diagram of the internal structure of a table dishwasher according to the present invention.

Fig. 5 is a schematic diagram of the internal structure of a table dishwasher according to the present invention.

Fig. 6 is a schematic diagram of an internal structure of a table dishwasher according to the present invention.

Fig. 7 is a diagram illustrating the operation of the external cleaning mechanism as an electrolysis generator according to a preferred embodiment of the present invention.

Fig. 8 is a schematic view of a respirator in accordance with a preferred embodiment of the present invention.

Fig. 9 is a schematic view of the internal structure of a respirator in accordance with a preferred embodiment of the present invention.

Fig. 10 is a schematic structural view of a base according to a preferred embodiment of the present invention.

Fig. 11 is a schematic structural diagram of a door mechanism according to a preferred embodiment of the present invention.

Fig. 12 is a sectional view of a door mechanism according to a preferred embodiment of the present invention.

Fig. 13 is a schematic partial structural view of a door mechanism according to a preferred embodiment of the present invention.

Fig. 14 is a schematic structural view of an outer door panel according to a preferred embodiment of the present invention.

Fig. 15 is a schematic structural view of an inner door panel according to a preferred embodiment of the present invention.

Fig. 16 is a schematic view of an alternative view of the inner door panel according to a preferred embodiment of the present invention.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 16, the present invention provides a table type dishwasher, comprising: the washing machine comprises a shell 100, an inner container 200 is embedded in the shell, an open end 210 is arranged on the inner container 200, an air inlet structure 300 and a respirator 400 are respectively arranged on two sides of the open end 210, the air inlet structure 300 and an air inlet 410 of the respirator 400 are respectively communicated with a washing space of the inner container 200, and an air outlet 420 of the respirator 400 is communicated with an external space; a base 500 detachably coupled to the bottom of the housing 100; the door body mechanism 600 is movably and rotatably connected to the open end 210 of the inner container 200, so that the open end 210 of the inner container 200 is sealed and opened.

In this embodiment, fresh and dry air from outside is introduced into the washing space of the inner container 200 through the air intake structure 300, and the steam for sterilizing the washed dishes at high temperature in the washing space is gradually introduced into the respirator 400, and is condensed through the condensation channel in the respirator 400, and the treated air is discharged from the washing space through the air outlet 420 in the respirator 400, and the condensed water generated after treatment flows back to the washing space of the inner container 200 through the air inlet 410 of the respirator 400 again, and is finally discharged out of the washing space through the drainage system in the washing space.

The utility model provides a pair of desk-top dish washer, through at inner bag 200 side wall mounting air inlet structure 300, introduce the inner bag 200 with the outside air of dish washer, make high temperature steam in the inner bag 200 carry out the condensation processing in being sent into respirator 400, discharge in the gas outlet 420 of gas passage respirator 400 after the condensation, the comdenstion water after the condensation flows back to in the inner bag 200 again through air inlet 410 of respirator 400, thereby the direct outer problem of arranging of high temperature steam has been solved, and then reduce the temperature around the dish washer, and avoid influencing other kitchen utensils and appliances life around.

Preferably, as shown in fig. 1 to 16, the inner container 200 includes an inner container casing and a bottom plate 220 detachably connected to the inner container casing, wherein an air intake channel 230 is disposed between the inner container casing and the bottom plate 220, one end of the air intake channel 230 is communicated with the air intake structure 300, and the other end of the air intake channel 230 is communicated with the washing space of the inner container 200.

Further preferably, a first boss 240 is formed by protruding outwards along one side of the inner container casing, and a through groove is formed along the height direction of the first boss 240, wherein the through groove is used as an air inlet passage 230 when external air enters the washing space of the inner container 200.

Further preferably, the air outlet end of the air inlet channel 230 is disposed obliquely downward, and the air outlet end of the air inlet channel 230 is provided with a plurality of partition bars 250 arranged at equal intervals.

In this embodiment, the air outlet end of the air inlet channel 230 is arranged to be inclined downward, because when external cold air is introduced into the air inlet end of the air inlet channel 230 by the air inlet structure 300, the flowing state is vertical downward, the air inlet of the washing space of the inner container 200 is horizontal, and the vertically flowing cold air can be changed into horizontally flowing cold air by the structure that the air outlet end is inclined downward, and the flowing speed of the cold air can be slowed down by the inclined downward structure of the air outlet end, so that the high-temperature steam in the washing space of the inner container 200 can be more effectively fed into the respirator 400 for condensation treatment, in addition, the air outlet end is provided with a plurality of parallel separation bars 250, so that the single cold air can be divided into a plurality of cold air strands, the phenomenon of counter-flushing between the cold air and the high-temperature steam after entering the washing space of the inner container 200 can be reduced, and the high-temperature steam can be more ensured, reliably enters the breather 400 for condensation.

Further preferably, a plurality of second bosses 260 are disposed along the outer edge of the liner housing, wherein the position of each second boss 260 corresponds to the position of the third boss 221 on the bottom plate 220, and is used as a connection portion between the liner housing and the base 500, and the first boss 240 is located between two adjacent second bosses 260.

Further preferably, the air intake structure 300 is a blower, wherein an air intake end of the blower is communicated with the air intake 110 on the housing 100, and an air outlet end of the blower is communicated with an air intake end of the air intake channel 230.

Further preferably, the air outlet end of the blower is nested and clamped on the first boss 240, and the casing of the blower is mounted on the outer side wall of the liner casing through a threaded fastener and further fixed through a clamping block on the outer side wall of the liner casing.

Preferably, as shown in fig. 1 to 16, the respirator 400 comprises a respirator housing 430, and the air inlet 410 and the air outlet 420 are arranged on the respirator housing 430, wherein a plurality of arc edges 431 are arranged in the housing. When high-temperature steam in the washing space of the inner container 200 is pushed by cold air and enters the respirator shell 430 through the air inlet 410 to collide with the arc edge 431, because the flow rate of the high-temperature steam is low when the high-temperature steam enters the respirator shell 430, water molecules in the high-temperature steam are attached to the arc edge 431 and slide down along the side wall of the arc edge 431, finally the high-temperature steam flows back to the washing space of the inner container 200 through the air inlet 410 again, and the gas separated from the water molecules in the high-temperature steam is discharged to the outside of the dishwasher through the air outlet 420.

Further preferably, four ports are provided below the respirator housing 430, namely a first port 432, a second port 433, a third port 434 and a fourth port 435, wherein the second port 433 is connected with a municipal waterway, and the fourth port 435 is connected with the water outlet 120 on the dishwasher housing 100; the water cup 700 is installed on the bottom plate 220, the fifth interface 710, the sixth interface 720 and the seventh interface 730 are arranged on the water cup 700, and a drainage pump 800 is arranged between the third interface 434 and the fifth interface 710; a water softener 900 having one end connected to the first port 432 and the other end connected to the sixth port 720; the washing pump 1000 has one end connected to the seventh port 730 and the other end connected to the spray arm 2000 installed on the base plate 220.

In this embodiment, when hard water cleaning is required, water in the municipal water path is introduced into the second port 433 of the breather 400 through the water inlet of the housing 100, then flows out of the first port 432 of the breather 400, and is connected to the sixth port 720 of the water cup 700 through a pipeline, and since the sixth port 720 and the seventh port 730 of the water cup 700 are communicated, the water flows through the seventh port 730 and then enters the spray arm 2000 through the washing pump 1000, thereby realizing hard water cleaning of tableware. When soft water cleaning is needed, water in the municipal water path is introduced into the second port 433 of the respirator 400 through the water inlet of the housing 100, then flows out of the first port 432 of the respirator 400, and is connected to the water softener 900 through a pipeline, the water (soft water) which is "softened" by the water softener 900 is connected to the sixth port 720 of the water cup 700 through a pipeline, and the water flows through the seventh port 730 and then enters the spray arm 2000 through the washing pump 1000 due to the fact that the sixth port 720 of the water cup 700 is communicated with the seventh port 730, so that the soft water cleaning of the tableware is realized. According to the flow patterns of the two water qualities (hard water and soft water), a three-way structure is respectively arranged at the first interface 432 of the respirator 400 and the sixth interface 720 of the water cup 700, so that the flow pattern of the water flow is satisfied.

In addition, no matter whether the water quality is hard water or soft water, when the dishes are washed, the water is circulated between the sixth port 720, the seventh port 730, the washing pump 1000 and the spray arm 2000 of the water cup 700 until the dishes are washed, and then the water is discharged from the water outlet 120 through the drain pump 800, the third port 434 and the fourth port 435 of the breather 400.

In this embodiment, be provided with two water routes between respirator 400, water softener 900 and the drinking cup 700 respectively, be hard water route and soft water route respectively to the user of being convenient for can improve the cleaning performance of tableware according to corresponding needs selective intercommunication hard water route and soft water route on the one hand, reduces the washing cost, and on the other hand avoids the production of incrustation scale, thereby prolongs dish washer's life.

Further preferably, an electromagnetic check valve is respectively arranged between the first interface 432 of the respirator 400 and the water softener 900, and between the first interface 432 of the respirator 400 and the sixth interface 720 of the water cup 700.

In this embodiment, the three-way structure connected to the first interface 432 of the respirator 400 is a Y-shaped structure, that is, the water flowing channel between the first interface 432 and the three-way structure is a main channel, the water flowing channel between the three-way structure and the water softener 900 and the water flowing channel between the three-way structure and the sixth interface 720 of the water cup 700 are branch channels, wherein the two electromagnetic check valves are respectively disposed on the corresponding branch channels, and the two electromagnetic check valves are electrically connected to the controller 4000 of the dishwasher, and the corresponding electromagnetic check valves are selectively opened by the controller 4000. When hard water cleaning is needed, the branch channel between the three-way structure and the sixth interface 720 is communicated, and the branch channel between the three-way structure and the water softener 900 is blocked; when the soft water cleaning is needed, the branch passage between the three-way structure and the water softener 900 is communicated, and the branch passage between the three-way structure and the sixth interface 720 is blocked, so that the operation is reliable.

Preferably, as shown in fig. 1 to 16, the drain pump 800, the water softener 900 and the washing pump 1000 are all mounted on the bottom plate 220 and located between the bottom plate 220 and the base 500, wherein a mounting plane where the drain pump 800, the water softener 900 and the washing pump 1000 are located is at a right angle with a mounting plane where the breather 400 is located. Due to the structural arrangement, the arrangement among the parts related in the water path of the table type dish washing machine is more compact, the pipeline distance between two adjacent parts is shortened, the cleaning efficiency is improved on one hand, and the firmness of pipeline connection is improved on the other hand.

It is further preferable that the water softener 900 is filled with resin, when municipal water flows through the water softener 900, the resin contacts with the resin to react, calcium ions and magnesium ions in the municipal water are absorbed by the resin, and soft water is generated, but when the resin in the water softener 900 is used for a period of time, the "softening effect" of the resin is reduced, and at this time, corresponding salt is added to the water softener 900 to replace the calcium ions and the magnesium ions adsorbed on the resin, so as to realize the regeneration and utilization of the resin, and in this embodiment, the filling port of the water softener 900 is connected to the bottom plate 220 and sealed by the screw cap 910. Like this when adding salt, the user only needs stretch into the inner bag 200 of dish washer with the hand, then opens spiral cover 910, can add salt in water softener 900, and need not to dismantle water softener 900 wholly and down and carry out the interpolation of salt, and is convenient, reliable.

Preferably, as shown in fig. 1 to 16, a water inlet valve 3000 is disposed between the second port 433 of the respirator 400 and the municipal waterway, wherein the water inlet valve 3000 is mounted on the housing 100, and the water inlet valve 3000 is electrically connected with the controller 4000 of the dishwasher.

Preferably, as shown in fig. 1 to 16, an ozone generator 5000 is installed on an outer sidewall of the inner container housing, and the ozone generator 5000 is electrically connected to a controller 4000 in the dishwasher, and an outlet end of the ozone generator 5000 is connected to an outlet pipe installed on the outer casing 100.

In this embodiment, the controller 4000 in the desk dishwasher controls the ozone generator 5000 to generate ozone, and the ozone is introduced into the washing tank 6000 of the water tank through the air outlet pipe on the housing 100, so that the washing of the food materials such as fruits and vegetables is realized in the washing tank 6000 of the water tank, and the effects of removing pesticide residues and hormones from the food materials are further achieved.

In this embodiment, the ozone generator 5000 is installed on the outer sidewall of the liner housing, and the generated ozone is introduced into the washing tank 6000 of the water tank through the outlet pipe, so that on one hand, the washing range of the table dish washing machine is increased (the effects of removing pesticide residues and hormones from food materials are achieved), on the other hand, the table dish washing machine and the water tank are organically combined, and other washing devices do not need to be additionally purchased for washing the food materials, thereby reducing the washing cost.

Further preferably, the inner container shell includes a first panel 270 having a U-shaped structure, and a second panel 280 integrally formed with the first panel 270, wherein the air inlet structure 300 and the respirator 400 are respectively installed at two sides of the open end 210 of the first panel 270, and the ozone generator 5000 is installed on the second panel 280.

In this embodiment, since the desktop dishwasher is placed on the platen where the sink is located when the desktop dishwasher is used, at this time, the ozone generator 5000 is installed on the second plate surface 280 and is closer to the washing sink 6000 on the sink, thereby avoiding the problem of ozone leakage due to an excessively long distance, and further improving the safety and reliability of the use of the ozone generator 5000.

Further preferably, the ozone generator 5000 comprises an ozone PCB 5100 mounted on the second plate surface 280, and an ozone assembly 5200 arranged side by side with the ozone PCB 5100, wherein one end of the ozone PCB 5100 is electrically connected with a controller 4000 in the dishwasher, the other end of the ozone PCB 5100 is electrically connected with the ozone assembly 5200, and an air outlet end of the ozone assembly 5200 is connected with an air outlet pipe.

It is further preferred that a connector 130 is mounted on the casing 100, wherein one end of the connector 130 is connected to the ozone assembly 5200, and the other end of the connector 130 is connected to an air outlet tube, wherein the air outlet tube is a flexible tube, such as a bellows tube. The air outlet pipe is detachably connected with the joint 130, and when the food materials need to be cleaned, the air outlet pipe is connected with the joint 130; when need not to wash edible material, with the outlet duct from connecting 130 dismantles and down, accomodate, perhaps a support of direct mount on shell 100, when not using ozone generator 5000, can be with the direct joint of outlet duct on the support, avoid causing the outlet duct to be in the state of dragging for a long time, improve the flexibility that the outlet duct used.

It is further preferable that the outlet end of the ozone generator 5000 is located at a level higher than a level at which the joint 130 is installed. Due to the structure, water in the washing tank 6000 is prevented from flowing back to the ozone generator 5000 through the air outlet pipe, and therefore the use safety of the ozone generator 5000 is improved. Further preferably, or a one-way valve may be installed at the joint 130, which can further improve the safety and reliability of the use of the ozone generator 5000.

Preferably, as shown in fig. 1 to 16, an air pump 5300 is disposed alongside the ozone generator 5000, and the air pump 5300 is mounted on the second plate surface 280, wherein an air outlet of the air pump 5300 is connected to the ozone generator 5000. Further, the air outlet of the air pump 5300 is connected to the air inlet end of the ozone module 5200, and the air outlet end of the ozone module 5200 is connected to the air outlet pipe.

In this embodiment, the air pump 5300 is installed on the second board surface 280, so that on one hand, the circulation of ozone introduced into the washing tank 6000 in unit time is increased, the work efficiency of food material cleaning is accelerated, on the other hand, the volume of bubbles in the washing tank 6000 is enlarged, the contact area between ozone and food materials is increased, and the impact generated when the bubbles burst can clean impurities such as deeper pesticide residues, hormones, silt and the like on the food materials more cleanly.

In addition, the ozone generator 5000 in this embodiment may be replaced with an electrolysis generator 7000, or an electrolysis generator 7000 may be added to the ozone generator 5000, wherein the electrolysis generator 7000 is installed on the recess 140 of the housing 100, and the electrolysis generator 7000 is electrically connected to the controller 4000 of the dishwasher. The effect of removing pesticide residues during cleaning of the food materials can be achieved.

Preferably, as shown in fig. 1 to 16, the door body mechanism 600 includes: two detachably connected outer door panels 610 and inner door panels 620; the controller 4000 includes a control panel 4100 penetrating the outer door panel 610 and connected to the inner door panel 620, and a circuit board 4200 attached to an inner side surface of the control panel 4100, wherein one side of the control panel 4100 is provided with a groove 4300 serving as a door opening handle of the door body mechanism 600.

In this embodiment, the controller 4000 and the door opening structure (the groove 4300) are integrally disposed, so that the structure of the door mechanism 600 is simplified, and the door mechanism 600 is convenient to open.

It is further preferable that the outer surface of the control panel 4100 is higher than the outer surface of the outer door panel 610 in the same vertical plane, wherein the plane of the side where the groove 4300 is located is perpendicular to the upper surface of the control panel 4100. Further preferably, the groove 4300 opens on the upper surface of the control panel 4100.

In this embodiment, the control panel 4100 is disposed on the outer door panel 610 in an outward protruding manner, so as to provide a space for disposing the door opening handle, i.e. making it possible to integrate the control panel 4100 and the door opening handle, and in addition, the outward protruding control panel 4100 improves the overall appearance of the desktop dishwasher.

In this embodiment, when the desktop dishwasher is in the power-off mode, the control panel 4100 is in a black state, and the control panel 4100 is used only as a door opening handle at this time; when the desktop dishwasher is in a power-on standby mode, the power key on the control panel 4100 is in an illuminated state, while the other function keys are still in an unlit state; when the desktop dishwasher needs to enter a working mode, the desktop dishwasher is started only by pressing the power key for a long time, and other function keys on the control panel 4100 are lightened at the moment, so that a user can conveniently and quickly select corresponding cleaning functions, and the function of saving electricity is realized

Preferably, as shown in fig. 1 to 16, one piece of glass, namely, the outer glass 630 and the inner glass 640, is mounted on each of the outer door panel 610 and the inner door panel 620, wherein the position of the outer glass 630 corresponds to that of the inner glass 640. Further preferably, an integrated structure is formed between the outer glass 630 and the outer door panel 610 in a secondary injection molding manner, so that glass cement is prevented from being injected into a joint between the outer glass 630 and the outer door panel 610, and the assembly of the door body mechanism 600 is facilitated. Interior glass 640 and interior door plant 620 between through the mode that the secondary was moulded plastics, form the integral type structure, improve interior glass 640 and interior door plant 620 between the fastness of connection.

In this embodiment, the outer glass 630 and the inner glass 640 are provided, so that a user can know the cleaning condition of the tableware in the table dishwasher in real time and change the corresponding cleaning mode in time.

It is further preferable that a first cavity 621 is provided on the inner door panel 620 at a position where the inner glass 640 is located, and it is further preferable that the first cavity 621 is provided in a gradual structure. It is further preferable that, in the tapered first cavity 621, a thickness of the first cavity 621 near an end of the control panel 4100 is thinner than a thickness of the first cavity 621 far from the end of the control panel 4100.

In this embodiment, a gradually changing first cavity 621 is formed on the inner door panel 620 corresponding to the inner glass 640, on one hand, to avoid interference with a basket in the inner container 200 of the table dishwasher, and to improve the reliability of cleaning; on the other hand, the relative distance between the inner glass 640 and the outer glass 630 is shortened, thereby expanding the visual range of the user when observing the cleaning condition inside the table dishwasher, so that the user can be clearer about the cleaning condition; in a third aspect, the installation of the inner glass 640 is facilitated.

Preferably, as shown in fig. 1 to 16, a fourth boss 622 having a gradient is provided at the periphery of the first cavity 621, and a stopping step 623 for engaging with the housing 100 is formed at both sides of the fourth boss 622. Therefore, the tightness of the fit between the door body mechanism 600 and the shell 100 is improved, and the door body mechanism 600 is prevented from shaking when the shell 100 is closed.

It is further preferable that a rib 624 having a U-shaped structure is disposed on the periphery of the fourth boss 622, wherein a stepped structure is formed between the rib 624 and the fourth boss 622.

The rib 624 in this embodiment is matched with the sealing strip on the inner container 200 of the table dish-washing machine, when the door body mechanism 600 closes the outer shell 100, the rib 624 and the sealing strip just form an embedded structure, so that the sealing performance of the inner container 200 is further improved, washing water is prevented from flowing out from the abutted seam between the door body mechanism 600 and the outer shell 100 when tableware is washed in the inner container 200, and the washing reliability of the table dish-washing machine is improved.

Preferably, as shown in fig. 1 to 16, first connecting portions are respectively disposed along the edge of the inner door panel 620 and the edge of the first cavity 621, and cooperate with the second connecting portions on the outer door panel 610 to detachably connect the outer door panel 610 and the inner door panel 620. Further preferably, the first connecting portion and the second connecting portion are connected in a clamping manner.

Further preferably, the first connecting portion includes a first locking groove 625 along the edge of the inner door panel 620 and a first locking block 626 along the edge of the first cavity 621, wherein the first locking groove 625 is matched with the second locking block 611 along the edge of the outer door panel 610 in the second connecting portion, and the first locking block 626 is matched with the second locking groove 612 along the edge of the outer glass 630 in the second connecting portion.

Preferably, as shown in fig. 1 to 16, a third connecting portion is disposed at one side of the first cavity 621, wherein the third connecting portion includes a plurality of connecting posts 627, and is connected to a connecting block on the control panel 4100 in a matching manner, so as to fix the control panel 4100 on the inner door panel 620.

Preferably, as shown in fig. 1 to 7, at least one first protrusion 628 is further installed at an edge of the inner door panel 620, and a first cavity 629 is formed along a thickness direction of the first protrusion 628 to serve as an installation position of the door stopper 650. Further preferably, the number of the first protrusions 628 is two, and the first protrusions are symmetrically arranged to serve as mounting carriers for the two door stoppers 650.

In this embodiment, the first cavity 629 in the first protrusion 628 serves as a positioning portion of the door stopper 650, and the first thrust block 613 on the outer door panel 610 (the position of the first thrust block 613 corresponds to the position of the first protrusion 628) abuts against the door stopper 650 to serve as a fixing portion of the door stopper 650, when the outer door panel 610 is connected to the inner door panel 620, the first thrust block 613 abuts against the surface of the door stopper 650, so that the door stopper 650 is fixed, and when the door mechanism 600 closes the housing 100 of the dishwasher, the door mechanism 600 can be firmly attached to the housing 100 through the door stopper 650, so as to further improve the reliability of the use of the desktop dishwasher.

Preferably, as shown in fig. 1 to 16, a second protrusion 629A is further installed on an edge of the inner door panel 620, and a second cavity 629B is opened along a thickness direction of the second protrusion 629A to serve as an installation position of the door body sensing magnet 660. The door body induction magnet 660 is installed in the same manner as the door stopper 650. That is, the outer door panel 610 is provided with the second thrust block 614, the position of the second thrust block 614 corresponds to the position of the second protrusion 629A, and the second thrust block 614 abuts against the door sensing magnet 660, so that the door sensing magnet 660 is fixedly mounted.

In this embodiment, the door sensing magnet 660 is used to detect whether the door mechanism 600 is closed, and is used as a judgment basis for the function keys on the control panel 4100, that is, if the door sensing magnet 660 detects that the door mechanism 600 is closed, the function keys on the control panel 4100 can generate corresponding functions; if the door body sensing magnet 660 detects that the door body mechanism 600 is not closed or does not meet the preset requirement (a gap exists between the door body mechanism 600 and the housing 100), the function key on the control panel 4100 is not triggered at this time, that is, the corresponding function cannot be realized.

Preferably, as shown in fig. 1 to 16, a fourth connecting portion 629C is symmetrically disposed on an edge of the inner door panel 620, and the fourth connecting portion 629C serves as a mounting position of a hinge to realize rotational connection between the door body mechanism 600 and the outer shell 100, i.e., to open and close the door rotationally.

Preferably, as shown in fig. 1 to 16, a protrusion 629D is provided at the other side of the first cavity 621, and a weather strip is embedded in the protrusion 629D, so that the sealing performance of the door mechanism 600 when the housing 100 is closed is improved.

Preferably, as shown in fig. 1 to 16, a second cavity is opened on the outer door panel 610, and the second cavity is divided into two spaces arranged side by side up and down by a division bar, which are an upper cavity 615 and a lower cavity 616, respectively, wherein the lower cavity 616 serves as an installation position of the outer glass 630, and the upper cavity 615 serves as an installation position of the control panel 4100.

Further preferably, the second locking groove 612 disposed around the upper cavity 615 serves as a locking portion between the control panel 4100 and the outer door panel 610, and the second locking groove 612 disposed around the lower cavity 616 serves as a locking portion between the outer door panel 610 and the inner door panel 620.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. A table dishwasher, comprising: the washing machine comprises a shell, a washing chamber, a; the base is detachably connected to the bottom of the shell; the door body mechanism is movably and rotatably connected with the opening end of the inner container.

2. The table dishwasher of claim 1, wherein the inner container comprises an inner container housing and a bottom plate detachably connected with the inner container housing, wherein an air inlet channel is provided between the inner container housing and the bottom plate, one end of the air inlet channel is communicated with the air inlet structure, and the other end of the air inlet channel is communicated with the washing space of the inner container.

3. The table dishwasher of claim 2, wherein the air outlet end of the air inlet channel is disposed obliquely downward, and the air outlet end of the air inlet channel is provided with a plurality of partition bars.

4. The table dishwasher of claim 1, wherein the respirator comprises a respirator housing, and the air inlet and the air outlet are provided on the respirator housing, wherein a plurality of ribs are provided within the housing.

5. The table dishwasher of claim 4, wherein four ports are provided below the respirator housing, namely a first port, a second port, a third port and a fourth port, wherein the second port is connected to the municipal waterway and the fourth port is connected to a drain port on the dishwasher housing; the water cup is arranged on the bottom plate, and is provided with a fifth interface, a sixth interface and a seventh interface, wherein a drainage pump is arranged between the third interface and the fifth interface; one end of the water softener is connected with the first interface, and the other end of the water softener is connected with the sixth interface; and one end of the washing pump is connected with the seventh interface, and the other end of the washing pump is connected with a spraying arm arranged on the bottom plate.

6. The table dishwasher of claim 2, wherein an ozone generator is mounted on an outer sidewall of the tub housing and electrically connected to a controller in the dishwasher, and an outlet of the ozone generator is connected to an outlet of the housing.

7. A table dishwasher according to claim 6, wherein an air pump is provided alongside the ozone generator, wherein an air outlet of the air pump is connected to the ozone generator.

8. A table dishwasher according to claim 1 or 6, wherein an electrolysis generator is removably mounted in the recess of the housing and is electrically connected to the controller.

9. The table dishwasher of claim 6, wherein the door mechanism comprises: the outer door plate and the inner door plate are detachably connected; the controller comprises a control panel and a circuit board, wherein the control panel penetrates through the outer door plate and is connected to the inner door plate, the circuit board is attached to the inner side surface of the control panel, and a groove which is used as a door opening handle of the door mechanism is formed in one side of the control panel.

10. The table dishwasher of claim 9, wherein a piece of glass is mounted on each of the outer door panel and the inner door panel, and the glass is an outer glass and an inner glass, wherein the outer glass corresponds to the inner glass, and the inner door panel where the inner glass is located is provided with a first cavity of a gradual change type.

Images