CN114343533B - Carbonization self-cleaning dish washer - Google Patents

Abstract

The invention provides a carbonization self-cleaning dish washer, which belongs to the technical field of dish washers and comprises the following steps: and the shell is internally provided with the liner, wherein a heating element is arranged in the liner, and high temperature is generated through the heating element, so that the carbonization cleaning of food residues on tableware in the liner is realized. According to the invention, the heating element generates high temperature to realize carbonization of food residues on the tableware, on one hand, the high temperature carbonization not only realizes washing of the tableware, but also realizes sterilization and disinfection of the washed tableware, and on the other hand, a water source is not used in a washing mode of the high temperature carbonization, so that the tableware is washed under the condition of water interruption, and the use reliability of the dish washing machine is improved.

Description

Carbonization self-cleaning dish washer

Technical Field

The invention belongs to the technical field of dish washers, and relates to a carbonization self-cleaning dish washer.

Background

A dishwasher is a device for automatically washing dishes such as bowls, chopsticks, dishes, knives, forks, etc. The prior dish-washing machine has the advantages that the prior dish-washing machine has a middle shell divided into a desk-type dish-washing machine, an embedded dish-washing machine, a water tank dish-washing machine and the like, wherein the former dish-washing machine is mainly arranged on a bedplate independently, the occupied space is large, and the later dish-washing machine are embedded in a wall or a cabinet body, and one dish-washing machine is combined with the water tank, so that the occupied space is small. However, it is difficult to clean the dish, whether it is a bench dishwasher, an in-line dishwasher, or a sink dishwasher, when washing stubborn stains on the dishes. It generally uses high temperature steam to soften the stubborn stains, and then uses water to wash the stubborn stains. However, the above-described cleaning method still has two problems:

firstly, ultrahigh-temperature sterilization cannot be realized;

secondly, when water cut-off occurs, the conventional dish washer described above will not work.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a dish washer which can realize ultra-high temperature sterilization and disinfection and still can work normally in a water cut-off state.

The aim of the invention can be achieved by the following technical scheme: a carbonized self-cleaning dishwasher, comprising:

and the shell is internally provided with the liner, wherein a heating element is arranged in the liner, and high temperature is generated through the heating element, so that the carbonization cleaning of food residues on tableware in the liner is realized.

In the above-mentioned carbonized self-cleaning dishwasher, the heat generated by the heating element is uniformly distributed around the dishes to be washed.

In the carbonization self-cleaning dish washer, the fan blower is arranged on the side wall of the inner container, and the heat generated by the heating element is uniformly distributed around the washed tableware through the fan blower.

In the carbonization self-cleaning dishwasher, the shell and the liner are nested, and a gap is formed between the shell and the liner.

In the carbonization self-cleaning dish washer, an exhaust structure is arranged in the gap, ash attached to the surface of the tableware and the surface of the liner is discharged out of the dish washer through the exhaust structure, wherein the exhaust structure comprises an exhaust fan, one end of the exhaust fan is communicated with an air inlet on the liner through an air pipe, and the other end of the exhaust fan is communicated with an air outlet on the shell through the air pipe.

In the carbonization self-cleaning dishwasher, the water washing structure is arranged in the gap, ash attached to the surface of the tableware and the surface of the liner is discharged out of the dishwasher through the water washing structure, and the water washing structure comprises a spray arm and a water outlet which are arranged at the bottom of the liner.

In the carbonization self-cleaning dish washer, a heat dissipation structure is arranged in the gap, heat in the liner is discharged out of the dish washer through the heat dissipation structure, wherein the heat dissipation structure comprises a heat dissipation fan and an air deflector matched with the heat dissipation fan.

In the carbonization self-cleaning dish washer, a temperature probe is further arranged in the inner container.

In the carbonization self-cleaning dish washer, an illuminating lamp is further arranged in the inner container.

In the above-mentioned carbonization self-cleaning dishwasher, the dishwasher further comprises a door plate for sealing or opening the inner container, and a handle and a visual window for observing the cleaning condition inside the dishwasher are arranged on the door plate.

Compared with the prior art, the invention has the beneficial effects that:

(1) According to the carbonization self-cleaning dish washer provided by the invention, the heating element generates high temperature, so that food residues on tableware are carbonized, on one hand, the high temperature carbonization not only can clean the tableware, but also can sterilize and disinfect the cleaned tableware, and on the other hand, a water source is not used in a high temperature carbonization cleaning mode, so that the tableware is cleaned under the condition of water interruption, and the use reliability of the dish washer is improved.

(2) The heat generated by the heating element can be uniformly distributed around the washed tableware. So that food residues on the tableware are heated uniformly, thereby improving the carbonization effect and further improving the cleaning effect of the tableware.

(3) Through exhaust structure or washing structure, can be with attached to the tableware surface behind the carbonization, perhaps the ash on inner bag surface flies to blow away, and outside the dish washer is arranged to guarantee the cleaning performance of tableware and reduce user's labour.

(4) Through setting up temperature probe, can control the temperature in the inner bag for the temperature in the inner bag is in the temperature range that can carbonize food waste all the time, improves the cleaning performance of tableware.

(5) Through setting up heat radiation structure, can be with the quick discharge dish washer of heat in the inner bag outside to this work efficiency who improves dish washer.

Drawings

Fig. 1 is a schematic view of a carbonized self-cleaning dishwasher according to the present invention.

Fig. 2 is a schematic view showing an internal structure of a carbonized self-cleaning dishwasher according to the present invention.

Fig. 3 is a schematic view showing an internal structure of a carbonized self-cleaning dishwasher according to the present invention.

Fig. 4 is a schematic view of an internal structure of a carbonized self-cleaning dishwasher according to the present invention.

Fig. 5 is a schematic view showing an internal structure of a carbonized self-cleaning dishwasher according to the present invention.

100, a housing; 200. an inner container; 210. a cavity; 220. a cover plate; 221. an air outlet hole; 300. a heating element; 400. a temperature probe; 500. a lighting lamp; 600. an exhaust structure; 610. an exhaust fan; 620. an air inlet; 630. an air outlet; 700. a water washing structure; 710. a spray arm; 720. a water outlet; 800. a heat dissipation structure; 810. a heat radiation fan; 820. an air deflector; 900. a door panel; 910. a handle; 920. a visual window; 1000. a controller; 1100. a fan blower.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

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

As shown in fig. 1 to 5, the present invention provides a carbonized self-cleaning dishwasher, comprising:

the casing 100 is internally provided with the liner 200, wherein the heating element 300 is arranged in the liner 200, and the heating element 300 generates high temperature to realize carbonization cleaning of food residues on tableware placed in the liner 200.

According to the carbonization self-cleaning dish washer provided by the invention, the heating element 300 generates high temperature, so that food residues on tableware are carbonized, on one hand, the high temperature carbonization not only can clean the tableware, but also can sterilize and disinfect the cleaned tableware, and on the other hand, a water source is not used in a high temperature carbonization cleaning mode, so that the tableware is cleaned under the condition of water interruption, and the use reliability of the dish washer is improved.

Preferably, the heat generated by the heating element 300 is uniformly distributed around the dishes to be washed. So that food residues on the tableware are heated uniformly, thereby improving the carbonization effect and further improving the cleaning effect of the tableware.

It should be noted that, in order to realize that the heat generated by the heating element 300 can be uniformly fed back around the washed tableware, two ways may be adopted, one way is that the heating element 300 is arranged around the washed tableware, that is, the heating element 300 is arranged around the liner 200 (top, bottom, back, side), and the heating direction of the heating element 300 faces the washed tableware; alternatively, the heating element 300 is disposed on one side or both sides of the dish to be washed, i.e. one or a combination of the top, bottom, back and side of the liner 200, and the fan 1100 is disposed on one or both of the top, bottom, back and side to "blow off" the heat, so that the heat can fill the whole liner 200, and it is ensured that each portion of the liner 200 is heated uniformly.

Preferably, in the present embodiment, the heating element 300 is arranged in such a manner that the heating element 300 is disposed at the back and the top of the liner 200, and the fan 1100 structure is disposed at the back.

Further preferably, the back of the liner 200 is sunk down in the thickness direction of the back to form a cavity 210, wherein the heating element 300 and the fan 1100 mounted on the back of the liner 200 are both mounted in the cavity 210.

It should be noted that the heating element 300 mounted on the back of the liner 200 is disposed along the periphery of the fan 1100. By the arrangement mode, heat energy generated by the heating element 300 can be dispersed around the washed tableware in a hot air mode at the first time, so that the heat can be uniformly filled in the liner 200, and the cleaning effect of the tableware and the sterilizing effect are improved.

In addition, the heating element 300 disposed around the fan 1100 is disposed in a ring shape, and a cover plate 220 is installed at the mouth of the cavity 210, wherein the cover plate 220 is provided with an air outlet 221 corresponding to the fan 1100.

Further preferably, the air outlet 221 is disposed in a ring shape.

Preferably, the heating elements 300 at the top of the inner container 200 are arranged in an S-shape or in concentric circles. And the two modes can realize uniform output of heat. In addition, the present invention is not limited to the above two structures, and may be any structure capable of achieving uniform heat output.

Preferably, a temperature probe 400 is further provided in the inner container 200, and the temperature probe 400 may be provided at the back, top or side of the inner container 200.

By arranging the temperature probe 400, the temperature in the inner container 200 can be controlled, so that the temperature in the inner container 200 is always in a temperature range capable of carbonizing food residues, and the cleaning effect of tableware is improved.

It should be noted that the liner 200 is further provided with an illumination lamp 500. The illumination lamp 500 is provided as a prompt for the user. When the illuminating lamp 500 is turned on, the dishwasher is in a working state at this time; when the illumination lamp 500 is turned off, it is indicated that the washing operation of the dish washer is completed, and the dishes washed in the inner container 200 can be taken out of the dish washer.

Preferably, since food residues on the tableware are formed in a gray fly shape after being carbonized at high temperature, they are adhered to the surface of the tableware or to the inner wall of the inner tub 200, which results in that the tableware carbonized at high temperature is further washed once, and the gray fly adhered to the inner wall of the inner tub 200 also brings inconvenience to the subsequent user for washing the inner tub 200 of the dishwasher.

Therefore, in the present embodiment, the problem after carbonization at high temperature is solved by two methods, but the present invention is not limited to the two methods.

Firstly, a wind row mode is adopted. Namely, an exhaust structure 600 is arranged on the dish washer, the exhaust structure 600 is communicated with the inner container 200 and the external space of the dish washer, when the washing operation of the dish washer is finished, the speed of the fan 1100 is increased, ash attached to the tableware is blown off and falls onto the inner wall of the inner container 200, and then the exhaust structure 600 is opened to suck the ash in the inner container 200 and discharge the ash out of the dish washer.

It should be noted that, because the space of the liner 200 is limited, the exhaust structure 600 is disposed at a nesting gap between the housing 100 and the liner 200 (generally disposed at a side portion of the gap between the housing 100 and the liner 200), and the exhaust structure 600 includes an exhaust fan 610, one end of the exhaust fan 610 is communicated with the air inlet 620 on the liner 200 through an air pipe, and the other end of the exhaust fan 610 is communicated with the air outlet 630 on the housing 100 through an air pipe.

And secondly, adopting a water washing mode. Namely, a water washing structure 700 is arranged on the dish washer, the water washing structure 700 is communicated with the inner container 200 and the external space of the dish washer, when the washing work of the dish washer is finished, the water washing structure 700 is started, the ash attached to the surface of the tableware and the ash attached to the inner wall of the inner container 200 are washed, and after the washing is finished, the ash is discharged out of the dish washer.

It should be noted that, because the space of the liner 200 is limited, the water washing structure 700 is disposed at a nesting space between the housing 100 and the liner 200 (generally disposed at the bottom of the space between the housing 100 and the liner 200), and the water washing structure 700 includes the spray arm 710 and the water outlet 720 disposed at the bottom of the liner 200.

The high-temperature carbonized tableware and ash on the surface of the liner 200 can be discharged out of the liner 200 in both a wind discharge mode and a water washing mode, thereby ensuring the cleaning effect of the tableware and reducing the labor force of users.

Preferably, when the tableware is carbonized to remove the slag at a high temperature, the temperature is generally set at about 500 ℃, and if the cleaned tableware is naturally cooled, the consumed time is long, resulting in a reduction in cleaning efficiency. Therefore, in order to improve the cleaning efficiency, it is necessary to perform rapid cooling treatment for the high temperature in the liner 200 after cleaning. Therefore, a heat dissipation structure 800 is disposed in the dishwasher, wherein the heat dissipation structure 800 is communicated with the inner container 200 and the external space, and when the dishwasher finishes the ash flight treatment, the heat dissipation structure 800 is opened to rapidly discharge the heat in the inner container 200 out of the dishwasher, thereby improving the working efficiency of the dishwasher.

It should be noted that, because the space of the liner 200 is limited, the heat dissipation structure 800 is disposed at a nesting gap between the housing 100 and the liner 200 (generally disposed at the top of the gap between the housing 100 and the liner 200), and the heat dissipation structure 800 includes a heat dissipation fan 810 and an air deflector 820 matched with the heat dissipation fan 810.

Preferably, the dishwasher further includes a door panel 900 for sealing or opening the inner container 200, and a handle 910 and a viewing window 920 for viewing the washing condition inside the dishwasher are provided on the door panel 900.

Preferably, the dishwasher is further provided with a controller 1000 for controlling the heating element 300, the fan 1100, the air exhausting structure 600, the washing mechanism, and the heat radiating structure 800.

The heating element 300 in this embodiment may be a heating tube.

It should be noted that the description of the present invention as it relates to "first", "second", "a", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise. The terms "coupled," "secured," and the like are to be construed broadly, and may be fixedly coupled, detachably coupled, or integrally formed, for example; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical solutions of the embodiments of the present invention may be combined with each other, but it is necessary to be based on the fact that those skilled in the art can implement the technical solutions, and when the technical solutions are contradictory or cannot be implemented, the combination of the technical solutions should be considered as not existing, and not falling within the scope of protection claimed by the present invention.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (6)

1. A carbonized self-cleaning dishwasher, comprising:

the shell is internally provided with a liner, wherein a heating element is arranged in the liner, and high temperature is generated through the heating element, so that food residues on tableware in the liner are carbonized and cleaned; the heat generated by the heating element is uniformly distributed around the washed tableware; a fan is arranged on the side wall of the inner container, and the heat generated by the heating element is uniformly distributed around the washed tableware through the fan; the shell and the inner container are nested, and a gap is formed between the shell and the inner container; an exhaust structure is arranged in the gap, ash attached to the surface of the tableware and the surface of the liner is discharged out of the dish washer through the exhaust structure, wherein the exhaust structure comprises an exhaust fan, one end of the exhaust fan is communicated with an air inlet on the liner through an air pipe, and the other end of the exhaust fan is communicated with an air outlet on the shell through the air pipe.

2. The carbonized self-cleaning dishwasher according to claim 1, wherein a water washing structure is installed in the space, and ash attached to the surface of the tableware and the surface of the inner container is discharged out of the dishwasher through the water washing structure, wherein the water washing structure comprises a spray arm and a water outlet arranged at the bottom of the inner container.

3. A carbonized self-cleaning dishwasher according to claim 1, characterized in that a heat dissipation structure is arranged in the gap, through which heat in the inner container is discharged out of the dishwasher, wherein the heat dissipation structure comprises a heat dissipation fan and an air deflector cooperating with the heat dissipation fan.

4. A carbonized self-cleaning dishwasher according to claim 1, characterized in that a temperature probe is also provided in the inner container.

5. The carbonized self-cleaning dishwasher according to claim 1, characterized in that a lighting lamp is also provided in the inner container.

6. A carbonized self-cleaning dishwasher according to claim 1, further comprising a door panel for sealing or opening the inner container, and a handle and a viewing window for viewing the cleaning of the interior of the dishwasher are provided on the door panel.