CN219924080U - Sealed heating garbage disposer - Google Patents

Abstract

A sealed heating type garbage disposer comprises a machine body, a cover body, a heating component, a condensing component and a water receiving container, wherein the cover body is arranged on the machine body, and a garbage disposal cavity for disposing garbage is formed between the machine body and the cover body; the heating component is arranged in the garbage treatment cavity and is used for evaporating water in garbage to form water vapor; the condensing assembly is used for condensing and liquefying the water vapor into condensed water so as to control the pressure in the garbage treatment cavity to be in a range of 0-34 kPa; the water receiving container is configured to be communicated with the garbage disposal cavity to form a sealed space and is provided with a water inlet channel positioned below the condensation assembly, and the water receiving container is used for receiving and storing condensed water through the water inlet channel under the action of gravity. Compared with the prior art, the garbage disposer limits most of odor in the sealed space under the cooperation of the sealed space, the heating component and the condensing component, so that leakage of odor to the outside is greatly reduced, and the use effect of the garbage disposer is ensured.

Description

Sealed heating garbage disposer

Technical Field

The utility model relates to the technical field of garbage disposers, in particular to a sealed heating garbage disposer.

Background

The heating type garbage disposer can grind larger garbage, and simultaneously evaporate water in the garbage to dry so as to realize garbage disposal.

If the authorized bulletin number CN215594264U provides a kitchen waste processor, the kitchen waste processor comprises a machine body and a cover body, wherein a processing barrel is arranged in the machine body, and a sealing cavity is defined between the cover body and the processing barrel. The inside of organism has seted up the wind channel, and two at least positions and the sealed chamber intercommunication each other in wind channel, and the wind channel is inside to be provided with the fan, and during the use, fan drive air is at sealed chamber and wind channel internal circulation flow. The machine body is also provided with a drainage channel and a water outlet positioned at the bottom, the drainage channel is arranged at a position close to the bottom of the treatment barrel, one end of the drainage channel is communicated with the fan, the other end of the drainage channel is communicated with the water outlet, and in the use process, the fan discharges generated condensed water to the outside through the drainage channel and the water outlet.

However, the condensed water discharged from the drain port is directly discharged in a sewer pipe, a floor drain, or the like, in other words, the sealed chamber and the air duct are communicated with the outside through the drain passage and the water outlet, which results in: in the use process of the kitchen garbage disposer, odor in the sealing cavity and the air duct can leak to the outside through the drainage channel and the water outlet, so that the odor not only pollutes the outside air, but also reduces the use effect of the garbage disposer.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides a sealed heating type garbage disposer. Under the cooperation of sealed space, heating element and condensation subassembly, the garbage disposer limits most foul smell in sealed space, and this greatly reduced the foul smell and revealed to the external world, guaranteed garbage disposer's result of use.

To achieve the above object, the present utility model discloses a sealed heating type garbage disposer, comprising:

the garbage disposal device comprises a machine body and a cover body, wherein the cover body is arranged on the machine body, and a garbage disposal cavity for disposing garbage is formed between the machine body and the cover body;

the heating component is arranged in the garbage treatment cavity and is used for evaporating water in the garbage to form water vapor;

the condensing assembly is used for condensing and liquefying the water vapor into condensed water so as to control the pressure in the garbage treatment cavity to be in a range of 0-34 kPa;

the water receiving container is configured to be communicated with the garbage disposal cavity to form a sealed space, is provided with a water inlet channel positioned below the condensation assembly, and is used for receiving and storing the condensed water through the water inlet channel under the action of gravity.

Preferably, the water inlet channel is provided with a gas conduction blocking structure, and the gas conduction blocking structure is used for blocking water vapor by taking the condensed water as an elastic switch so as to achieve the normal passing of the condensed water.

Further preferably, the water inlet channel is provided with a water drain channel and a water collecting piece for collecting the condensed water, the bottom of the water collecting piece is provided with a water outlet, the water drain channel is used for communicating the water outlet to the water receiving container, the air conduction blocking structure is configured as a proportional relation between the condensation rate of the condensation component and the water drain rate of the water outlet, and the proportional relation is used for enabling the condensed water to submerge the water outlet in a normal state so as to realize blocking.

Further preferably, the proportional relationship is further configured to: the ratio of the condensation rate of the condensation component to the drainage rate of the water outlet is between 0.01 and 1.

Further preferably, the caliber of the water outlet is 1-3000 mm ² 。

Further preferably, the air conduction blocking structure is configured on a submerged bent section in the water inlet channel and is used for blocking an air conduction path between the garbage treatment cavity and the water receiving container in a normal state.

Preferably, a gas leakage channel is arranged in the water inlet channel between the gas conduction blocking structure and the water receiving container; and/or

The water receiving container is provided with an air leakage channel.

Preferably, the filter is further included for filtering the odor of the gas in the leakage air channel and discharging the odor out of the air.

Preferably, the ratio between the amount of condensation water in unit time of the condensation component and the evaporation amount in unit time of the heating component is 0.3-1 so as to realize the control of the pressure.

Preferably, the condensing assembly comprises a condensing plate, a face of the condensing plate, which is close to the heating assembly, serves as a condensing face for condensing and liquefying the water vapor, and the condensing face is constructed as an upper wall of the garbage disposal chamber.

Further preferably, the condensation surface is gradually recessed inward from the outer periphery side thereof to form a guide surface for guiding the condensation water to the water inlet passage under the action of gravity.

Further preferably, the condensation surface is located above the heat generating component.

Further preferably, the condensation plate is fixed at the bottom of the cover body;

the outer periphery of the guide surface is bent outwards to form a pressing part, a pressing plate transversely extends out of the lower part of the pressing part of the cover body, and the pressing plate is elastically pressed on the pressing part through a first sealing piece so as to realize fixation.

Further preferably, the end of the pressing plate, which is close to the condensation plate, is bent to form a diversion inclined plate, and the diversion inclined plate is used for guiding the condensed water to drop into the water inlet channel in a water drop mode.

Further preferably, the end of the diversion sloping plate far away from the condensation plate is higher than the inlet of the water inlet channel.

Further preferably, the condensing plate is provided with a condensing space, and the condensing space is provided with a cooling medium, and the cooling medium is in contact with a non-condensing surface of the condensing plate.

Further preferably, the cooling medium is a cooling liquid, and the condensing assembly further comprises a power device and a circulating channel, wherein the power device is used for driving the cooling liquid to circularly flow in the condensing space and the circulating channel.

Further preferably, a spray pipe and a return pipe are arranged in the cover body, one end of the spray pipe faces the condensing plate to spray cooling liquid to the non-condensing surface, the other end of the spray pipe is communicated with one end of the return pipe, the other end of the return pipe is communicated with the condensing space, and a cooling liquid box body and the power device which are communicated are arranged between the spray pipe and the return pipe.

Further preferably, an input pipe and a return pipe are arranged in the cover body, one end of the input pipe is communicated with the condensation space so as to input cooling liquid into the condensation space so as to enable the cooling liquid to flow on the non-condensation surface, the other end of the input pipe is communicated with one end of the return pipe, the other end of the return pipe is communicated with the condensation space, and a cooling liquid box body and a power device which are communicated are arranged between the input pipe and the output pipe.

Further preferably, the cooling medium is a cooling liquid, and the cooling liquid is placed in the condensation space in a static state.

Further preferably, the cooling medium is air, and the condensing assembly further includes an air blowing device for driving the outside air to flow to the non-condensing surface.

Further preferably, the air blowing device is arranged above the condensing plate so as to blow air on the condensing plate;

or the air blowing device is arranged at the side of the condensing plate so as to blow air on the condensing plate.

Further preferably, the water receiving container is provided with a water inlet, the end part of the water inlet channel, which is close to the water receiving container, is in plug-in fit with the water inlet, a gap exists between the water inlet channel and the water inlet, the gap is used as the air leakage channel, one end of the gap is communicated with the water receiving container, and the other end of the gap is communicated with the filter.

Further preferably, the water receiving container is provided with a connecting hole, the end part of the water inlet channel, which is close to the water receiving container, is in sealing connection with the connecting hole, the top surface of the water receiving container is provided with an air outlet hole, the air outlet hole is used as the air leakage channel, one end of the air outlet hole is communicated with the water receiving container, and the other end of the air outlet hole is communicated with the filter.

Further preferably, the end of the leakage path remote from the water receiving container is sealingly surrounded by a filter.

Further preferably, the water receiving container comprises a box body and a box cover detachably and hermetically connected to the box body, and the connecting position of the box body and the box cover is hermetically wrapped by a filter.

Preferably, the condensing assembly comprises a condensing plate and a cooling liquid box body, wherein cooling liquid for improving the condensing effect of the condensing plate is contained in the cooling liquid box body, the cooling liquid box body is a water receiving container, and the end part of the water inlet channel, which is close to the cooling liquid box body, stretches into the cooling liquid.

Further preferably, a water blocking piece is arranged at the end part of the air leakage channel, which is close to the water inlet channel, and a gap exists between the water blocking piece and the air leakage channel.

Further preferably, the cover body is detachably sealed and covered on the machine body, the filter is provided with an inner wall so as to divide the filter into a filter cavity close to the outer side and a hollow installation cavity, the upper end and the lower end of the installation cavity are communicated, and the inner wall is provided with an air passing hole which is used as the air leakage channel;

the machine body is internally provided with an elastic piece, a first sealing structure connected to the upper end of the elastic piece and a second sealing structure connected to the lower end of the elastic piece, the outer wall of the first sealing structure is in sliding and sealing fit with the mounting cavity, the second sealing structure is in sealing fit with the mounting cavity, and the air passing hole is formed in a sealing space formed by the first sealing structure, the second sealing structure and the mounting cavity;

A first channel is arranged in the first sealing structure, a second channel is arranged in the second sealing structure, when the cover body is covered on the machine body, the end part of the first sealing structure, which is far away from the elastic piece, is communicated with the garbage treatment cavity in a sealing way, and the end part of the second sealing structure, which is far away from the elastic piece, is abutted against the water inlet channel so as to enable the second channel to be communicated with the water receiving container; the space of the installation cavity between the bottom of the first channel and the top of the second channel and the space formed by the second channel are taken as water inlet channels.

Further preferably, in a state that the cover body is arranged on the machine body, the air passing hole is higher than the lowest position of the first channel, and the first sealing structure is used as a water blocking member.

Further preferably, the machine body is provided with a containing space, the water receiving container is detachably connected in the containing space, the second sealing structure is an elastic sealing ring, and the bottom of the second sealing structure stretches into the containing space and abuts against the water inlet channel.

Compared with the prior art, the utility model has the beneficial effects that: when the sealed heating type garbage disposer is used, the heating component heats and evaporates the water of garbage in the garbage disposal cavity, the water vapor is liquefied by the condensing component to form condensed water, and the condensed water flows into the water receiving container through the water inlet channel under the action of gravity.

The space formed between the garbage treatment cavity and the water collecting container is set as a sealing space, odor in the garbage treatment cavity is not easy to leak to the outside, the problem that the odor pollutes the outside air is effectively relieved, and the use effect of the garbage disposer is improved. In addition, when the heating component heats the evaporated water, the pressure in the garbage treatment cavity is increased, the condensing component can condense the liquefied water vapor, and meanwhile, the pressure in the sealed space is reduced to be controlled between 0kPa and 34kP, so that the pressure difference between the pressure in the sealed space and the external pressure is reduced, odor is further limited in the sealed space, and the leakage of the odor from the sealed space is further reduced.

In the actual use process, if a large pressure difference exists between the sealed space and the outside, the pressure balance between the sealed space and the outside can be maintained through a small gap generated by the manufacturing tolerance and the assembly tolerance of the self structure of the garbage disposer. Because the cooperation of sealed space, heating element and condensation subassembly has restricted most foul smell in sealed space, the foul smell of revealing in the aforesaid gap can not pollute outside air basically, this has guaranteed garbage disposer's result of use.

Drawings

FIG. 1 is one of the sectional views of the garbage disposer in example 1;

FIG. 2 is an enlarged schematic view of a portion of FIG. 1 at A;

FIG. 3 is a second cross-sectional view of the garbage disposer of example 1;

FIG. 4 is an enlarged partial schematic view at B in FIG. 3;

FIG. 5 is a cross-sectional view of the garbage disposer of example 2;

FIG. 6 is one of the sectional views of the garbage disposer in example 4;

FIG. 7 is a second cross-sectional view of the garbage disposer of example 4;

FIG. 8 is a third cross-sectional view of the disposer in embodiment 4;

FIG. 9 is a fourth cross-sectional view of the garbage disposer of example 4;

FIG. 10 is a fifth cross-sectional view of the garbage disposer of example 4;

FIG. 11 is a sixth cross-sectional view of the garbage disposer of example 4;

FIG. 12 is one of the sectional views of the garbage disposer in example 5;

FIG. 13 is a second cross-sectional view of the garbage disposer in example 5;

FIG. 14 is a third cross-sectional view of the waste disposer in example 5;

FIG. 15 is one of the sectional views of the garbage disposer of example 6;

FIG. 16 is an enlarged partial schematic view of FIG. 15 at C;

FIG. 17 is a second cross-sectional view of the garbage disposer of example 6;

FIG. 18 is a partially enlarged schematic illustration of FIG. 17 at D;

FIG. 19 is a third cross-sectional view of the garbage disposer of example 6;

FIG. 20 is a fourth cross-sectional view of the garbage disposer of example 6;

a body 10; an inner container 11; a cutter head assembly 12; an elastic member 13; a first sealing structure 14; a first channel 141; a second sealing structure 15; a second channel 151; the accommodating space 16; a first pipe 17; a second conduit 18;

a cover 20; a pressing plate 21; a deflector swash plate 22; a first seal 23; an input tube 24; a return pipe 25; a shower pipe 26;

a heat generating component 30;

a condensing assembly 40; a condensing plate 41; a condensing surface 411; a guide surface 412; a pressing portion 4121; a non-condensing surface 413; a condensing space 42; a separator 421; a first space 422; a second space 423; a power device 43; an air blowing device 44;

a water receiving container 50; a case 51; a box cover 52; a water inlet 521; an air outlet aperture 522;

a waste disposal chamber 60;

a water inlet channel 70; a drain passage 71; a submerged curved section 711; a water collecting member 72; a water outlet 721;

a blow-by gas passage 80;

a filter 90; an inner wall 91; a gas passing hole 92; a filter chamber 93; a mounting cavity 94; an air outlet 95;

a coolant tank 100; spray holes 101;

Detailed Description

In the description of the present utility model, it should be understood that the orientation or positional relationship indicated by the terms "inner", "outer", etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and include, for example, either fixedly attached, detachably attached, or integrally formed; 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 utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

The technical scheme of the utility model is further described below with reference to fig. 1-20.

Example 1

Referring to fig. 1, a sealed heating type garbage disposer includes a body 10, a cover 20, a heating assembly 30, a condensing assembly 40, and a water receiving container 50. Wherein, the cover 20 is arranged on the machine body 10, and a garbage disposal cavity 60 for disposing garbage is formed between the machine body 10 and the cover 20. The water receiving container 50 is provided with a water inlet channel 70 positioned below the condensing assembly 40, and the water receiving container 50 is used for receiving and storing condensed water formed by condensing and liquefying the condensing assembly 40 through the water inlet channel 70 under the action of gravity; the water receiving container 50 is configured to communicate with the waste treatment chamber 60 to form a sealed space. The heating assembly 30 is disposed within the waste treatment chamber 60 for evaporating moisture from the waste. The condensing assembly 40 is used for condensing and liquefying the water vapor into condensed water, so as to control the pressure in the garbage disposal cavity 60 to be in the range of 0kPa to 34 kPa.

In use, the heating assembly 30 heats and evaporates the moisture of the waste in the waste treatment chamber 60, the water vapor is liquefied by the condensing assembly 40, and the condensed water flows into the water receiving container 50 through the water inlet channel 70 under the action of gravity. The space formed between the garbage treatment cavity 60 and the water collecting container is set as a sealing space, so that odor in the garbage treatment cavity is not easy to leak to the outside, the problem that the odor pollutes the outside air is effectively relieved, and the use effect of the garbage disposer is improved. In addition, in the use, under the effect of the heating component 30, the pressure in the garbage treatment cavity 60 becomes large, if the garbage treatment cavity 60 keeps large pressure, the pressure difference between the garbage treatment intensity and the outside becomes large, the sealing structure forming the sealing space is easy to damage, and the problem of odor leakage can occur after long-term use. In addition, in the actual use process, if a large pressure difference exists between the sealed space and the outside, the pressure balance between the sealed space and the outside can be maintained through a small gap generated by the manufacturing tolerance and the assembly tolerance of the self structure of the garbage disposer. Since the sealing space, the heating assembly 30 and the condensing assembly 40 are combined to limit most of the bad smell in the sealing space, the bad smell leaked from the above-mentioned gap does not pollute the external air, which ensures the use effect of the garbage disposer.

Wherein, the ratio between the condensation water quantity of the condensation component 40 in unit time and the evaporation quantity of the heating component 30 in unit time is 0.3-1, so that the pressure intensity in the strong garbage treatment is controlled between 0 kPa-34 kP, the odor is limited in the sealed space, and the use effect of the garbage processor is ensured. It should be noted that, the power of the heating element 30 of the heating garbage disposer is different, and the condensation rate of the condensation element 40 should be set within the corresponding interval range, so that the condensation water amount of the condensation element 40 per unit time and the evaporation amount of the heating element 30 per unit time are controlled within 0.3-1.

Referring to fig. 1, a liner 11 is disposed in a machine body 10, and when a cover 20 is covered on the machine body 10, the liner 11 and the cover 20 form the above-mentioned airtight garbage disposal chamber 60. The heat generating component 30 is preferably a heat generating plate, which is located at the bottom inside the inner container 11. The inner container 11 is also provided with a cutter head assembly 12 for crushing garbage. The structure of the above heating assembly 30 and the cutter head assembly 12 are conventional structures, which are conventional in the art, and will not be described herein.

The water inlet channel 70 has a gas conduction blocking structure, and the gas conduction blocking structure uses water as an elastic switch (the condensed water is adopted as the elastic switch in the embodiment), so that the condensed water is normally passed to block water vapor. Under the condition that the condensed water can normally flow to the water receiving container 50 through the water inlet channel 70, the condensed water is used as an elastic switch to divide the garbage treatment cavity 60 and the water receiving container 50 into two spaces which are not communicated with each other or are not communicated with each other in most part (namely, the space which is communicated with the two spaces is provided with a small part by the air conduction blocking structure), and the odor is blocked by the condensed water of the air conduction blocking structure, so that the odor is limited in the closed garbage treatment strong, the leakage amount of the odor through the assembly gaps of the water inlet channel 70 and the water receiving container 50 is further reduced, and the use effect of the garbage treatment device is improved.

Referring to fig. 1-2, as a preferred embodiment of the air conduction blocking structure: the water inlet passage 70 is provided with a water discharge passage 71 and a water collecting member 72 for collecting condensed water, the bottom of the water collecting member 72 is provided with a water outlet 721, and the water discharge passage 71 is used for communicating the water outlet 721 to the water receiving container 50. The air conduction blocking structure is configured as a proportional relationship between the condensation rate of the condensation assembly 40 and the drainage rate of the water outlet 721, and the proportional relationship is used for enabling the condensed water to submerge the water outlet 721 under a normal condition (in the process that the water collecting piece 72 flows into the drainage channel 71 through the water outlet 721), so that the blocking of the condensed water to the water vapor is realized, the odor is limited in the garbage disposal cavity 60, and the use effect of the garbage disposal cavity 60 is ensured.

In this embodiment, the water collecting member 72 has a groove structure with an opening at the top, and the opening of the water collecting member 72 is directed to the position where the condensed water is dropped from the condensation assembly 40 so as to collect water; the water outlet 721 is disposed at the bottom of the trough-like structure. Of course, the water collection member 72 may be provided in other specific structural shapes.

Among these, there are two states in which the condensed water floods the water outlet 721, one is that the condensed water floods the water outlet 721 completely, and one is that the condensed water partially floods the water outlet 721, and the portion of the water outlet 721 not floods can enable the gas to flow through the drainage channel 71. In order to allow the water outlet 721 to completely or largely submerge the water outlet 721, the ratio of the condensation rate of the condensation assembly 40 to the drainage rate of the water outlet 721 is between 0.01 and 1, and preferably, the cross-sectional area of the water outlet 721 is between 1 and 3000mm ² . Thus, most of odor can be limited in the garbage disposal cavity 60 by the condensed water, so that the strong use effect of garbage disposal is greatly ensured.

Referring to fig. 1, the condensing unit 40 includes a condensing plate 41, a surface of the condensing plate 41 adjacent to the heat generating unit 30 serves as a condensing surface 411 for condensing the liquefied water vapor, and the condensing surface 411 has a concave groove structure, which has a guiding surface 412 gradually concave inward from an outer periphery thereof to an inner side for guiding the condensed water to the water inlet channel 70 under the action of gravity, and in this embodiment, the condensing surface 411 is the guiding surface 412. The condensing surface 411 forms an upper wall of the waste treatment chamber 60. The upper wall of the garbage disposer is set as the condensing surface 411 of the condensing plate 41, so that the condensing surface 411 has a larger condensing surface 411 area on the basis of condensing and liquefying, the condensing rate is ensured, and the water outlet 721 of the water collecting piece 72 can be further submerged by the condensing water. In addition, the condensation surface 411, which is gradually recessed from the outer circumference side to the inner side, can condense the liquefied water vapor to form condensed water, and can guide the condensed water at the same time, and has a simple and compact structure. The opening of the water collecting member 72 is directed to the outer circumferential side of the condensation module 40, so that the condensed water is condensed and liquefied on the condensation surface 411, and then the condensed water can be collected to the outer circumferential side thereof and then dropped onto the water collecting member 72.

Referring to fig. 1, the condensation surface 411 is located above the heating component 30, and the two positions are opposite, so that when the moisture in the garbage is evaporated by the heating component 30, the water vapor can rise to the condensation surface 411 of the condensation plate 41 to be condensed, so that the condensation efficiency is greatly improved, and the water outlet 721 of the water collecting member 72 can be further submerged by the condensation water.

Referring to fig. 1, the condensation plate 41 is connected to the bottom of the cover 20, and the condensation surface 411 is the bottom surface of the cover 20, when the cover 20 is covered on the machine body 10, the condensation surface 411 forms the upper wall of the garbage disposal chamber 60, so that energy loss caused by heat transfer between the condensation assembly 40 and the heating assembly 30 is avoided, and the heating effect and the condensation effect are ensured.

Referring to fig. 1-2, the outer peripheral side of the guide surface 412 is bent outward to form a horizontally disposed pressing portion 4121, and the cover 20 is detachably connected with a pressing plate 21 below the pressing portion 4121, and the pressing plate 21 is connected below the pressing portion 4121 and abuts against the pressing portion 4121 to fix the condensing plate 41 to the bottom of the cover 20. The pressing plate 21 is provided with a first sealing member 23, the first sealing member 23 may be an O-ring, and the first sealing member 23 seals against the pressing portion 4121 and the pressing plate 21, so as to ensure sealing performance between the pressing portion 4121 and the pressing plate 21.

Referring to fig. 1-2, when the condensed water is drained to the pressing portion 4121, the condensed water will adhere to the bottom surface of the pressing portion 4121 because the bottom surface of the pressing portion 4121 is a horizontal surface, and the condensed water is difficult to form water drops at the position of the pressing portion 4121, so as to reduce the speed of the condensed water dropping to the water collecting member 72, and affect the water outlet 721 of the condensed water flooding the water collecting member 72. Based on this, the end of the pressing plate 21 near the condensing plate 41 is bent to form the guiding inclined plate 22, the guiding inclined plate 22 is inclined to the water collecting piece 72, when the condensed water is guided to the bottom surface of the pressing portion 4121, the condensed water is continuously guided to the end of the guiding inclined plate 22 far away from the pressing portion 4121 by the guiding inclined plate 22, and under the action of gravity, the condensed water drops into the water collecting piece 72 in a water drop manner. By arranging the diversion sloping plate 22, when the condensed water flows to the end part of the diversion sloping plate 22 far away from the pressing part 4121, the condensed water can drop into the water collecting piece 72 under the action of gravity, so that the dropping speed of the condensed water is accelerated, the water outlet 721 of the water collecting piece 72 is ensured to be submerged by enough condensed water, more odor is limited in the garbage disposal cavity 60, and the use effect is ensured. In addition, when the garbage disposer just enters into a working state, the flow guiding inclined plate 22 quickens the dripping of the condensed water, so that the condensed water can quickly submerge the water outlet 721 of the water collecting piece 72, and the odor blocking effect is improved.

Referring to fig. 2, the end of the deflector plate 22 remote from the condensing plate 41 and the inlet of the water inlet passage 70 are sequentially disposed in the flow direction from the waste treatment chamber 60 to the water receiving container 50 and are offset from each other. In this way, in the process that the condensed water forms water drops at the end of the diversion sloping plate 22 away from the pressing part 4121, the water drops hang on the diversion sloping plate 22, which reduces the gap between the pressing part 4121 and the diversion sloping plate 22, so that less odor flows through the gap and the rear channel, the odor is further limited in the garbage disposal cavity 60, and the use effect of the garbage disposal is improved.

Referring to fig. 1 and 3, in the present embodiment, a drain passage 71 between the air passage blocking structure and the water receiving container 50 has an air leakage passage 80, and the structure and position of the air leakage passage 80 are described below. The waste disposer also includes a filter 90 in communication with the leak path 80. When the inside of the garbage disposal cavity 60 is up to a certain threshold value, the odor leaked from the air leakage channel 80 is filtered and deodorized by the filter 90 and then discharged to the outside, and the user can not smell the odor basically under the working condition, so that the deodorizing effect and the using effect are further improved. In order to prevent condensed water in the drain channel 71 from entering the filter 90 through the air leakage channel 80, the use effect of the filter 90 is affected, and a water blocking member is arranged at the end of the air leakage channel 80 close to the drain channel 71 and can block the inlet of the air leakage channel 80, so that condensed water in the drain channel 71 is prevented from entering the filter 90 through the air leakage channel 80. A gap exists between the water blocking piece and the air leakage channel 80, so that air can enter the air leakage channel 80 and then enter the filter 90 for filtration and deodorization.

Specifically, referring to fig. 1 to 4, the cover 20 is detachably sealed on the body 10, the water collecting member 72 is detachably disposed at the bottom of the cover 20 and below the inclined flow guiding plate 22, the water draining channel 71 is disposed in the body 10, and when the cover 20 is covered on the body 10, the water outlet 721 of the water collecting member 72 is in sealing communication with the water draining channel 71. The filter 90 is provided with an inner wall 91 so as to divide the filter 90 into a filter chamber 93 near the outside and a hollow installation chamber 94; the filter cavity 93 is provided with a filter medium, which can be preferably activated carbon, and of course, filter cotton or other filter media can be selected; the side of the filter cavity 93 away from the mounting cavity 94 is provided with an air outlet 95, and the filtered air flows out to the outside through the air outlet 95; the installation chamber 94 is connected at its upper and lower ends for installing the structure forming the drain passage 71, and the inner wall 91 is provided with a gas passing hole 92, and the gas passing hole 92 is the gas leakage passage 80 described above so as to communicate the drain passage 71 with the filter 90.

The machine body 10 is internally provided with an elastic piece 13, a first sealing structure 14 connected to the upper end of the elastic piece 13 and a second sealing structure 15 connected to the lower end of the elastic piece 13; the elastic member may be preferably a spring, and the first sealing structure 14 is partially located in the mounting cavity 94, and partially extends to the upper side of the mounting cavity 94 to be matched with the bottom of the water collecting member 72, and a first channel 141 is formed in the first sealing structure 14, and the outer wall of the first channel is in sliding and sealing fit with the mounting cavity 94; the elastic member 13 is located in the mounting cavity 94; the second sealing structure 15 is located at the bottom of the installation cavity 94, and a second channel 151 is provided therein, which is also in sealing fit with the installation cavity 94, and the first channel 141, the space of the installation cavity 94 between the bottom of the first channel 141 and the top of the second channel 151, and the second channel 151 form the drainage channel 71. The first sealing structure 14 is in sealing fit with the second sealing structure 15, the drainage channel 71 in the installation cavity 94 forms a sealed channel, odor is not easy to leak in the channel, and the use effect of the garbage disposer is ensured; the outer wall of the first sealing structure 14 is slidably matched with the mounting cavity 94, so that the bottom of the water collecting piece 72 can be pressed down to tightly press the first sealing structure 14 (the elastic piece 13 is in a compressed state at the moment) after the cover body 20 is covered on the machine body 10, the water outlet 721 of the water collecting piece 72 and the water discharging channel 71 can be communicated, the sealing performance between the water collecting piece 72 and the water discharging channel 71 can be improved, and odor leakage is reduced; in addition, when the first sealing structure 14 is pressed down, under the action of the elastic member 13, the end portion of the second sealing structure 15 away from the elastic member 13 abuts against the water inlet 521 of the water container 50 so as to enable the second channel 151 to be in sealing communication with the water receiving container 50, and the air passing hole 92 is located in a sealing space formed by the first sealing structure 14 and the second sealing structure 15 and the installation cavity 94.

Referring to fig. 3 to 4, in a state in which the cover 20 is provided on the body 10, the air passing hole 92 is higher than the lowest position of the first passage 141, and thus, the sidewall of the first sealing structure 14 forms a water blocking member. By skillfully utilizing the connection relationship between the first sealing structure 14 and the mounting cavity 94 in a sliding fit manner, the first sealing structure 14 is arranged as a water blocking member, so that the overall structure is more compact on the basis of ensuring that water can be blocked from entering the filter 90 through the air leakage channel 80.

Referring to fig. 1, a receiving space 16 is provided on the outer side of the machine body 10, the water receiving container 50 is disposed in the receiving space 16, the second sealing structure 15 is an elastic sealing ring, and the bottom of the second sealing structure 15 extends into the receiving space 16 and abuts against the water inlet 521 on the top of the water receiving container 50, so that the sealing communication between the water draining channel 71 and the water receiving container 50 is realized. The above second sealing structure 15 is in sealing contact with the water inlet 521 of the water receiving container 50, which not only realizes the sealing connection between the two, but also can assist in fixing the water receiving container 50 by the second sealing structure 15, thereby fixing the water receiving container 50 in the accommodating space 16. The water receiving container 50 is detachably connected through the second sealing structure 15, so that when more water is in the water receiving container 50, the water receiving container 50 can be directly taken down to pour out the water, and the water receiving container is convenient for a user to use.

Example 2

The overall structure of the garbage disposer is mostly the same as that of the garbage disposer in embodiment 1, and the details of the structure are not repeated here. In the present embodiment, a water inlet passage 70 structure different from the air conduction blocking structure of embodiment 1 is provided.

Referring to fig. 5, the air conduction blocking structure is configured to be provided at a submerged bent section 711 in the water inlet channel 70 for normally blocking the air conduction path between the garbage disposal chamber 60 and the water receiving container 50, and in particular, the submerged bent section 711 may be a U-shaped pipe structure which may be provided in the water outlet channel 71. Before the garbage disposer is used, water can be firstly input into the submerged bent section, so that the water seal blocks the submerged bent section, odor is limited in the water inlet channel 70 which is positioned at the front side of the submerged bent section and has strong garbage disposal, the leakage amount of the odor is further reduced, and the use effect of the garbage disposer is further improved.

Wherein, the submerged curved section is arranged on the water collecting piece 72, and the specific position can be set according to actual needs. The water in the submerged curved section may also be condensed water formed by condensing and liquefying through the condensing assembly 40. In addition, the pressure generated by the water in the submerged curved section may be set according to the pressure in the garbage disposal chamber 60, and will not be described herein.

Example 3

The overall structure of the garbage disposer is mostly the same as that of the garbage disposer in embodiment 1, and the details of the structure are not repeated here. In this embodiment, the structure of the condensing assembly 40 in the waste disposer is further provided.

Referring to fig. 1, a condensing space 42 is provided in the condensing plate 41, and a cooling medium is provided in the condensing space 42, and is in contact with a non-condensing surface 413 of the condensing plate 41. By providing the cooling medium in the condensation space 42, the cooling medium sufficiently cools the condensation plate 41, further increasing the rate of condensed water vapor on the condensation surface 411, so that the condensed water can submerge the water outlet 721 of the water collecting member 72, and the flow of odor is blocked.

The cooling medium is a cooling liquid, and water or other cooling liquids can be selected as the specific choice. The condensing unit 40 further includes a power device 43 and a circulation channel, and the power device 43 may be a water pump for driving the cooling liquid to circulate in the condensing space 42 and the circulation channel, thereby further improving the cooling effect of the condensing plate 41. Specifically, the cover 20 is provided with the input pipe 24 and the return pipe 25, one end of the input pipe 24 communicates with the condensation space 42, so that the cooling liquid is input into the condensation space 42, and then flows on the non-condensation surface 413 of the condensation plate 41, the other end of the input pipe 24 communicates with one end of the return pipe 25, and the other end of the return pipe 25 communicates with the condensation space 42. A cooling liquid tank 100 and the power device 43 are communicated between the input pipe 24 and the output pipe. During cooling, under the driving of the power device 43, the cooling liquid in the cooling liquid box 100 sequentially flows through the input pipe 24, the non-condensing surface 413 of the condensing plate 41 in the condensing space 42 and the return pipe 25, and finally flows back into the cooling liquid box 100, so that the cooling liquid realizes circulating flow, and the condensing efficiency of the condensing plate 41 is improved.

Referring to fig. 1, the condensing plate 41 has a more specific structure: a partition 421 is disposed in the condensation space 42, and the partition 421 is configured to partition the condensation space 42 into a first space 422 for accommodating the condensate condensing plate 41 and a second space 423 for refluxing condensate in the first space 422, where the first space 422 is in communication with the second space 423. The first space 422 has a shape similar to the condensation surface 411, and is a concave groove structure gradually concave inward from the outer circumferential side thereof to the inner side, and has a highest height at the intermediate position, and a position where the first space 422 communicates with the second space 423 is located at the position. One end of the input pipe 24 communicates with the first space 422, the other end of the input pipe 24 communicates with one end of the return pipe 25, and the other end of the return pipe 25 communicates with the second space 423. During cooling, under the driving of the power device 43, the cooling liquid in the cooling liquid tank 100 flows into the first space 422 through the input pipe 24, and as the position where the first space 422 is communicated with the second space 423 is located at the highest position of the first space 422, the cooling liquid fills the first space 422, so that the cooling liquid and the non-condensing surface 413 of the condensing plate 41 perform sufficient heat exchange, and the condensing effect of the condensing plate 41 is improved; when the first space 422 is filled with the coolant, the coolant flows from the first space 422 into the second space 423, and then flows back to the coolant tank 100 through the return pipe 25.

Referring to fig. 1, the coolant tank 100 and the power unit 43 are located at the bottom of the machine body 10, and a first pipe 17 for communicating the coolant tank 100 with the input pipe 24 and a second pipe 18 for communicating the coolant tank 100 with the return pipe 25 are provided in the machine body 10, and when the cover 20 is covered on the machine body 10, the first pipe 17 is communicated with the input pipe 24, the second pipe 18 is communicated with the return pipe 25, and the coolant tank 100, the first pipe 17, the input pipe 24, the first space 422, the second space 423, the output pipe and the second pipe 18 form a flow path through which the coolant circulates.

Example 4

The overall structure of the garbage disposer is mostly the same as that of the garbage disposer in embodiment 3, and the details of the structure are not repeated here. In this embodiment, a structure different from that of the condensation module 40 of embodiment 3 is provided.

Referring to fig. 6, the input pipe 24 of the cover 20 is a spray pipe 26 for spraying the cooling liquid to the non-condensing surface 413 of the condensing plate 41, and when the cover 20 is covered on the body 10, one end of the spray pipe 26 is communicated with the first pipe 17, and the other end of the spray pipe 26 faces the condensing plate 41 to spray the cooling liquid to the non-condensing surface 413 of the condensing plate 41; one end of the return pipe 25 is connected to the bottom of the condensation space 42, and the other end of the return pipe 25 is connected to the second conduit 18. When cooling, under the drive of the power device 43, when the cooling liquid flows to the outlet of the spraying pipe 26, the cooling liquid is uniformly sprayed to the non-condensing surface 413 of the condensing plate 41, so that the cooling liquid can fully exchange heat with the non-condensing surface 413, and the condensing effect of the condensing plate 41 is improved. In addition, compared with the mode that the cooling liquid flows in the condensation space 42, the cooling liquid in the condensation space 42 can be cooled by spraying, so that the weight of the cover body 20 is reduced, the gravity center of the cover body 20 is lowered, and the stability of the garbage disposer during placement is ensured.

In the present embodiment, the coolant tank 100 is detachably connected to the bottom of the machine body 10 (as shown in fig. 6), but it is also possible to integrally form the coolant tank with the bottom of the machine body 10 (as shown in fig. 7), and the coolant tank may be specifically set according to needs.

As an alternative, referring to fig. 8-9, the coolant tank 100 may be disposed on a side of the tank or outside the machine body 10, and in use, the power device 43 may draw coolant from the tank to the spray pipe 26, and then spray the coolant uniformly onto the non-condensing surface 413 of the condensing plate 41. Or referring to fig. 10, the cooling liquid box 100 is disposed above the condensation space 42, the bottom of the cooling liquid box 100 is provided with a spray hole 101, the spray hole 101 is the spray pipe 26, and when in use, under the action of gravity, the cooling liquid in the cooling liquid box 100 is sprayed to the non-condensation surface 413 of the condensation plate 41 through the spray hole 101.

As another alternative, referring to fig. 11, the condensing space 42 is a cooling liquid tank 100 for storing cooling liquid, and the cooling liquid is placed in the non-condensing space 42 to directly cool the condensing plate 41, so that the power device 43 and the circulation channel are reduced, the cost is saved, and the whole structure is simpler and more compact.

Example 5

The overall structure of the garbage disposer is mostly the same as that of the garbage disposer in embodiment 1, and the details of the structure are not repeated here. In this embodiment, a structure different from that of the condensation module 40 of embodiment 3 is provided.

Referring to fig. 12, the cooling medium is air, the condensing assembly 40 further includes an air blowing device 44, and the air blowing device 44 is specifically selected as a fan, and the air blowing device 44 is used for driving the external air to flow to the non-condensing surface 413, so that the heat exchange efficiency between the non-condensing surface 413 and the space is improved, and the condensing effect of the condensing plate 41 is improved. Specifically, the air blowing device 44 is provided above the condensing plate 41 so as to blow air positively onto the condensing plate 41. Alternatively, referring to fig. 13, an air blowing device 44 is provided at a side of the condensing plate 41 to blow air side-on the condensing plate 41.

To increase the heat exchange efficiency of the air and the non-condensing surface 413, referring to fig. 14, the condensing plate 41 may be provided in a double-layer or multi-layer structure, which increases the heat exchange area, increases the condensing rate, and ensures that enough condensed water can quickly flow to the water collecting member 72 to block the flow of the odor through the water inlet channel 70.

Example 6

The overall structure of the garbage disposer is mostly the same as that of the garbage disposer in embodiment 1, and the details of the structure are not repeated here. In the present embodiment, a structure different from that of the air leakage path 80 in embodiment 1 is provided.

The above-mentioned air leakage passage 80 is provided between the water receiving container 50 and the water discharge passage 71, and specifically:

Referring to fig. 15-16, the water receiving container 50 is provided with a water inlet 521, the end of the water discharging channel 71 close to the water receiving container 50 is in plug-in fit with the water inlet 521, a gap exists between the water discharging channel and the water inlet 521, the gap is taken as a leakage channel 80, one end of the gap is communicated with the water receiving container 50, and the other end of the gap is hermetically wrapped by a filter 90 so as to realize the communication between the leakage channel 80 and the filter 90.

As another alternative embodiment, referring to fig. 17-18, the end of the drain channel 71 near the water receiving container 50 is connected with the water inlet 521 in a sealing manner, the top surface of the water receiving container 50 is provided with an air outlet hole, the air outlet hole is taken as an air leakage channel 80, one end of the air outlet hole is communicated with the water receiving container 50, and the other end of the air outlet hole is wrapped by the filter 90 in a sealing manner, so that the air leakage channel 80 is communicated with the filter 90.

Above locate the gas leakage passageway 80 on the water receiving container 50, when the pressure in the water receiving container 50 is strong to certain threshold value, the odor that leaks in the gas leakage passageway 80 discharges to the external world after filtering the deodorization through filter 90, and the user can't smell the odor basically under the operating mode, has further improved deodorization effect, result of use.

In the conventional structure of the water receiving container, the water receiving container includes the case body 51 and the cover 52 detachably and hermetically coupled to the case body 51, and referring to fig. 19, the coupling position of the case body 51 and the cover 52 is hermetically wrapped by the filter 90, so that the odor discharged from the coupling gap between the case body 51 and the cover 52 can be filtered and deodorized through the filter 90, which further improves the deodorizing effect.

As another alternative embodiment, referring to fig. 20, in the garbage disposer, the cooling liquid tank 100 is used as the water receiving container 50, the end of the water inlet channel 70 near the cooling liquid tank 100 stretches into the cooling liquid, and when the garbage disposer is used, condensed water formed by water vapor is discharged into the cooling liquid of the cooling liquid tank 100, so that the condensed water formed by water vapor can be collected, and meanwhile, odor in the water inlet channel 70 can be absorbed by the cooling liquid, so that the deodorizing effect is achieved. In addition, if the pressure in the garbage treatment cavity is large, the garbage treatment cavity can also directly act on the cooling liquid, and the garbage treatment cavity is indirectly communicated with the outside through the cooling liquid, so that the effects of pressure relief and air leakage are achieved.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (31)

1. A sealed, heated waste disposer, comprising:

the garbage disposal device comprises a machine body and a cover body, wherein the cover body is arranged on the machine body, and a garbage disposal cavity for disposing garbage is formed between the machine body and the cover body;

the heating component is arranged in the garbage treatment cavity and is used for evaporating water in the garbage to form water vapor;

the condensing assembly is used for condensing and liquefying the water vapor into condensed water so as to control the pressure in the garbage treatment cavity to be in a range of 0-34 kPa;

the water receiving container is configured to be communicated with the garbage disposal cavity to form a sealed space, is provided with a water inlet channel positioned below the condensation assembly, and is used for receiving and storing the condensed water through the water inlet channel.

2. The sealed heated waste disposer of claim 1, wherein: the water inlet channel is provided with a gas conduction blocking structure, and the gas conduction blocking structure is used for blocking water vapor by taking the condensed water as an elastic switch so as to reach the purpose of normally passing the condensed water.

3. The sealed heated waste disposer of claim 2, wherein: the water inlet channel is provided with a drainage channel and a water collecting piece for collecting condensed water, the bottom of the water collecting piece is provided with a water outlet, the drainage channel is used for communicating the water outlet to the water receiving container, the air conduction blocking structure is configured as a proportional relation between the condensation rate of the condensation component and the drainage rate of the water outlet, and the proportional relation is used for enabling the condensed water to submerge the water outlet in a normal state so as to realize blocking.

4. A sealed, heated waste disposer according to claim 3, wherein the proportionality is further configured to: the ratio of the condensation rate of the condensation component to the drainage rate of the water outlet is between 0.01 and 1.

5. The sealed, heated waste disposer of claim 4, wherein: the cross section area of the water outlet is 1-3000 mm ² 。

6. The sealed heated waste disposer of claim 2, wherein: the air conduction blocking structure is configured on the submerged bent section in the water inlet channel and is used for blocking an air conduction passage between the garbage treatment cavity and the water receiving container in a normal state.

7. The sealed heated waste disposer of claim 2, wherein: the water inlet channel between the air conduction blocking structure and the water receiving container is provided with an air leakage channel; and/or

The water receiving container is provided with an air leakage channel.

8. The sealed heated waste disposer of claim 7, wherein: the filter is used for filtering the peculiar smell of the gas in the gas leakage channel and discharging the peculiar smell outside.

9. The sealed heated waste disposer of claim 1, wherein: the ratio of the condensation water quantity in unit time of the condensation component to the evaporation quantity in unit time of the heating component is 0.3-1, so that the pressure is controlled.

10. The sealed heated waste disposer of claim 1, wherein: the condensing assembly comprises a condensing plate, wherein the surface, close to the heating assembly, of the condensing plate serves as a condensing surface for condensing and liquefying the water vapor, and the condensing surface is constructed as the upper wall of the garbage disposal cavity.

11. The sealed heated waste disposer of claim 10, wherein: the condensation surface gradually concave inward from the outer periphery side thereof to the inner side thereof forms a guide surface for guiding the condensation water flow to the water inlet passage under the action of gravity.

12. The sealed heated waste disposer of claim 11, wherein: the condensing surface is positioned above the heating component.

13. The sealed heated waste disposer of claim 11, wherein: the condensing plate is fixed at the bottom of the cover body;

the outer periphery of the guide surface is bent outwards to form a pressing part, a pressing plate transversely extends out of the lower part of the pressing part of the cover body, and the pressing plate is elastically pressed on the pressing part through a first sealing piece so as to realize fixation.

14. The sealed heated waste disposer of claim 13, wherein: the end part of the pressing plate, which is close to the condensing plate, is bent to form a diversion inclined plate, and the diversion inclined plate is used for guiding the condensed water to drop to the water inlet channel in a water drop mode.

15. The sealed heated waste disposer of claim 14, wherein: the end part of the flow guiding inclined plate, which is far away from the condensing plate, is higher than the inlet of the water inlet channel.

16. A sealed heated waste disposer according to any of claims 10-15, characterised in that: the condensing plate is provided with a condensing space, a cooling medium is arranged in the condensing space, and the cooling medium is contacted with a non-condensing surface of the condensing plate.

17. The sealed heated waste disposer of claim 16, wherein: the cooling medium is cooling liquid, the condensing assembly further comprises a power device and a circulating channel, and the power device is used for driving the cooling liquid to circularly flow in the condensing space and the circulating channel.

18. The sealed heated waste disposer of claim 17, wherein: the cooling device is characterized in that a spray pipe and a return pipe are arranged in the cover body, one end of the spray pipe faces the condensing plate to spray cooling liquid to the non-condensing surface, the other end of the spray pipe is communicated with one end of the return pipe, the other end of the return pipe is communicated with the condensing space, and a cooling liquid box body and a power device which are communicated are arranged between the spray pipe and the return pipe.

19. The sealed heated waste disposer of claim 17, wherein: the cooling device comprises a cover body, and is characterized in that an input pipe and a return pipe are arranged in the cover body, one end of the input pipe is communicated with a condensation space so as to input cooling liquid into the condensation space so as to enable the cooling liquid to flow on a non-condensation surface, the other end of the input pipe is communicated with one end of the return pipe, the other end of the return pipe is communicated with the condensation space, and a cooling liquid box body and a power device which are communicated are arranged between the input pipe and the output pipe.

20. The sealed heated waste disposer of claim 16, wherein: the cooling medium is cooling liquid, and the cooling liquid is statically arranged in the condensation space.

21. The sealed heated waste disposer of claim 16, wherein: the cooling medium is air, and the condensing assembly further comprises an air blowing device, wherein the air blowing device is used for driving the outside air to flow to the non-condensing surface.

22. The sealed heated waste disposer of claim 21, wherein: the air blowing device is arranged above the condensing plate so as to blow air on the condensing plate positively;

Or the air blowing device is arranged at the side of the condensing plate so as to blow air on the condensing plate.

23. The sealed heated waste disposer of claim 8, wherein: the water receiving container is provided with a water inlet, the end part of the water inlet channel, which is close to the water receiving container, is in plug-in fit with the water inlet, a gap exists between the water inlet channel and the water inlet, the gap is used as the air leakage channel, one end of the gap is communicated with the water receiving container, and the other end of the gap is communicated with the filter.

24. The sealed heated waste disposer of claim 8, wherein: the water receiving container is provided with a connecting hole, the end part of the water inlet channel, which is close to the water receiving container, is in sealing connection with the connecting hole, the top surface of the water receiving container is provided with an air outlet hole, the air outlet hole is used as the air leakage channel, one end of the air outlet hole is communicated with the water receiving container, and the other end of the air outlet hole is communicated with the filter.

25. The sealed heated waste disposer of claim 23 or 24, wherein: the end of the leakage passage remote from the water receiving container is sealingly surrounded by a filter.

26. The sealed heated waste disposer of claim 25, wherein: the water receiving container comprises a box body and a box cover which is detachably and hermetically connected to the box, and the connecting position of the box body and the box cover is hermetically wrapped by a filter.

27. The sealed heated waste disposer of claim 1, wherein: the condensing assembly comprises a condensing plate and a cooling liquid box body, wherein cooling liquid used for improving the condensing effect of the condensing plate is contained in the cooling liquid box body, the cooling liquid box body is a water receiving container, and the end part, close to the cooling liquid box body, of the water inlet channel stretches into the cooling liquid.

28. The sealed heated waste disposer of claim 8, wherein: the end part of the air leakage channel, which is close to the water inlet channel, is provided with a water blocking part, and a gap exists between the water blocking part and the air leakage channel.

29. The sealed heated waste disposer of claim 28, wherein: the cover body is detachably sealed on the machine body, the filter is provided with an inner wall so as to divide the filter into a filter cavity close to the outer side and a hollow installation cavity, the upper end and the lower end of the installation cavity are communicated, and the inner wall is provided with an air passing hole which is used as the air leakage channel;

the machine body is internally provided with an elastic piece, a first sealing structure connected to the upper end of the elastic piece and a second sealing structure connected to the lower end of the elastic piece, the outer wall of the first sealing structure is in sliding and sealing fit with the mounting cavity, the second sealing structure is in sealing fit with the mounting cavity, and the air passing hole is formed in a sealing space formed by the first sealing structure, the second sealing structure and the mounting cavity;

A first channel is arranged in the first sealing structure, a second channel is arranged in the second sealing structure, when the cover body is covered on the machine body, the end part of the first sealing structure, which is far away from the elastic piece, is communicated with the garbage treatment cavity in a sealing way, and the end part of the second sealing structure, which is far away from the elastic piece, is abutted against the water inlet channel so as to enable the second channel to be communicated with the water receiving container; the space of the installation cavity between the bottom of the first channel and the top of the second channel and the space formed by the second channel are taken as water inlet channels.

30. The sealed heated waste disposer of claim 29, wherein: and in a state that the cover body is arranged on the machine body, the air passing hole is higher than the lowest position of the first channel, and the first sealing structure is used as a water retaining member.

31. The sealed heated waste disposer of claim 29, wherein: the machine body is provided with a containing space, the water receiving container is detachably connected in the containing space, the second sealing structure is an elastic sealing ring, and the bottom of the second sealing structure stretches into the containing space and abuts against the water inlet channel.