CN213433760U - Dry deodorization system of garbage disposer - Google Patents

Abstract

A garbage disposer drying and deodorizing system comprises an air inlet of a top cover, a garbage can assembly comprises a can body for loading garbage, an air inlet channel, a condensation air channel and an annular air channel are arranged in the garbage can assembly, a condensation heat exchanger is arranged in the condensation air channel, a heating heat exchanger is arranged in the annular air channel, a fan is arranged in the garbage can assembly, outside air enters the can body from the air inlet channel and the air inlet channel, and the air passes through the fan, passes through the condensation air channel, the condensation heat exchanger, the fan, the heating heat exchanger and the annular air channel and then enters the can body; the shell of the garbage can is loaded with a plasma generator, and positive ions and negative ions generated by the plasma generator flow together with gas and enter the can body through the annular air duct. The utility model discloses a gas circulation flow process has adopted closed gas circulation design, and gas in the refuse treatment ware does not leak all the time, and condensation heat exchanger, plasma generator combine refuse treatment ware enclosed construction, under not receiving the external environment influence, continuously steadily dry rubbish, get rid of the stink.

Description

Dry deodorization system of garbage disposer

Technical Field

The utility model relates to a garbage disposer specifically is a dry deodorization system of garbage disposer.

Background

In order to solve the problems of dampness, smell, easy mildew and putrefaction of the kitchen waste and the like, the applicant develops a garbage disposer with a hot air circulation system and a stirring cutter, and the garbage disposer can crush and dry the kitchen waste. Meanwhile, a filter for removing peculiar smell is arranged in the hot air circulating system, so that the odor of the garbage attached to the gas can be effectively removed. The garbage treated by the garbage disposer has fine particles and no peculiar smell, can be directly discarded or used as a plant fertilizer, and is convenient and environment-friendly. On one hand, however, the drying medium (outside air) needs to be obtained from the environment outside the garbage disposer, and the nature (temperature, moisture content and the like) of the drying medium itself greatly affects the drying effect; on the other hand, the hot air circulation system is open, that is, cold air needs to be sucked from the outside and hot air needs to be discharged to the outside, and although the discharged hot air is deodorized by the filter, a little odor is still leaked to the outside air.

Referring to fig. 9, the air flow direction is as shown by the arrow in fig. 9, when the garbage bin starts, the external air enters the garbage bin along the air inlet, the air in the garbage bin is pulled by the hot air assembly, the air enters the hot air assembly to be heated and dried, the heated and dried air returns to the garbage bin, at this time, the external air and the heated and dried air in the garbage bin are sucked by the hot air assembly in a reciprocating and circulating manner and then are discharged into the garbage bin, a hot air circulating system is formed to dry the garbage in the garbage bin, the air which contacts and dries the garbage is discharged to the outside along the filter and the exhaust channel to form a part of the external air, and the external air enters the garbage bin again to form an open-end internal and external circulating system. Therefore, although the exhausted hot air is deodorized by the filter, a little odor can still leak into the outside air. And thus, is in need of further improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a dry continuous stable, rubbish gas does not leak, effectively solves original exhaust hot-air and removes the flavor through the filter, still has a little smell to reveal the defect in the outside air, perfects the dry deodorization system of refuse processor to refuse treatment's refuse processor to overcome the weak point among the prior art.

The garbage disposer comprises a top cover provided with an air inlet and a garbage can assembly, wherein the garbage can assembly comprises a can body for loading garbage, the garbage can assembly is internally provided with an air inlet duct, a condensation air duct and an annular air duct which are sequentially communicated, the condensation air duct is internally provided with a condensation heat exchanger, the annular air duct is internally provided with a heating heat exchanger, and the garbage can assembly is internally provided with a fan for drawing air to flow; the air inlet, air inlet duct and ladle body intercommunication, the air outlet in annular wind channel intercommunication ladle body, outside air toward the air inlet, the air inlet duct gets into in the ladle body, the air is under fan traction drive, through the condensation wind channel, the condensation heat exchanger, the fan, heat exchanger, annular wind channel reentrant ladle body in, so that the outside air who gets into in the ladle body gets into the condensation wind channel, after gas is got rid of moisture by the condensation heat exchanger, after heating, the drying through the heating heat exchanger, gas returns in the ladle body through annular wind channel, gaseous circulation flow so, in order to form a relative confined air inner circulation channel in the garbage disposer.

Due to the properties of the external air, such as temperature, moisture content and the like, when the external air enters the barrel body, the garbage in the barrel body cannot be directly dried, and the external air needs to be treated. Therefore, the outside air entering the barrel body enters the condensation air channel under the traction of the fan, after the moisture of the gas is removed by the condensation heat exchanger, the gas is heated and dried by the heating heat exchanger, and the gas returns to the barrel body through the annular air channel to dry the garbage in the barrel body.

In addition, air after the drying and heating gets into in the ladle body, promote the moisture evaporation in the rubbish, gaseous humidity increases, gaseous reentrant condensation wind channel again under the fan traction, the condensation heat exchanger, the moisture of condensation heat exchanger removal gas, pass through the fan again, heat exchanger, the annular wind channel returns the ladle body, constantly repeat above-mentioned circulation process, the air closed cycle has been adopted, the gas in the refuse treatment ware does not leak all the time, the condenser heat exchanger can keep power invariable, combine refuse treatment ware enclosed construction, under not receiving the external environment influence, effectively last stable dry rubbish.

The garbage can component is also internally provided with a plasma generator, an electrode of the plasma generator extends into the annular air duct, and positive ions and negative ions generated by the plasma generator flow along with heated and dried gas and enter the garbage can body through the annular air duct. The positive ions and the negative ions generated by the plasma generator circulate along with the heated and dried gas, so that the peculiar smell of the garbage attached to the gas is effectively removed, and the peculiar smell of the garbage attached to the gas can be removed in the treatment process of drying the garbage.

The garbage bin subassembly still includes shell, base, is equipped with the passageway baffle between shell, the base, and the condensation wind channel is located in the passageway baffle, is equipped with the installation position on the passageway baffle, and in condensation heat exchanger part embedding installation position, fan, heating heat exchanger were fixed the setting respectively on the passageway baffle, and the fan is located heating heat exchanger one side, and heating heat exchanger presses and establishes in condensation heat exchanger's top, and shell, base, ladle body three assemble mutually, and shell cladding fan, heating heat exchanger.

A semiconductor refrigerating sheet is arranged between the bottom of the heating heat exchanger and the top of the condensing heat exchanger, and the bottom of the heating heat exchanger is attached to the heating surface of the semiconductor refrigerating sheet; the top of the condensing heat exchanger is attached to the refrigerating surface of the semiconductor refrigerating sheet.

The shell is internally provided with a mounting cavity for fixing the plasma generator, and the annular air duct is positioned in the shell.

The base is provided with a first vent hole and a second vent hole, the barrel body, the first vent hole and the condensation air channel are communicated, and the barrel body, the second vent hole and the annular air channel are communicated.

Correspond the condensation heat exchanger in the garbage bin subassembly and be equipped with drainage channel, the garbage bin subassembly outside is equipped with the component that catchments of intercommunication drainage channel to make the moisture in the air precipitate the back by the condensation heat exchanger condensation, retrieve in the drainage channel row gets into the component that catchments, prevent that the comdenstion water from leaking outside the refuse treatment ware, influence external environment, prevent simultaneously that the comdenstion water from flowing back to the ladle body in, moist rubbish.

The water collecting member includes a water collecting cup disposed on an outer side of the base or the tub.

The motor and the transmission component drive the stirring knife component to operate so as to stir and crush the garbage in the barrel body.

The utility model has the advantages as follows:

a. the external air entering the barrel body enters a condensation air channel, after moisture of the air is removed by a condensation heat exchanger, the air is heated and dried by a heating heat exchanger, the air returns to the barrel body through an annular air channel, and the air circularly flows in such a way, so that a relatively closed air internal circulation channel is formed in the garbage processor; the air circulation is adopted in the gas circulation flowing process, the gas in the garbage disposer does not leak all the time, the heat exchanger of the condenser can keep the power constant, and the garbage disposer is combined with a closed structure to effectively, continuously and stably dry the garbage without being influenced by the external environment;

b. an electrode of the plasma generator extends into the annular air duct, positive ions and negative ions generated by the plasma generator flow along with the heated and dried gas and enter the barrel body through the annular air duct, so that the peculiar smell of the garbage attached to the gas is effectively removed, and the peculiar smell of the garbage attached to the gas can be removed in the treatment process of drying the garbage;

c. correspond the condensation heat exchanger in the garbage bin subassembly and be equipped with drainage channel, the garbage bin subassembly outside is equipped with the component that catchments of intercommunication drainage channel to make the moisture in the air precipitate the back by the condensation heat exchanger condensation, retrieve in the drainage channel row gets into the component that catchments, prevent that the comdenstion water from leaking outside the refuse treatment ware, influence external environment, prevent simultaneously that the comdenstion water from flowing back to the ladle body in, moist rubbish.

Air entering the garbage can body is driven by a circulating fan after moisture is removed through a condenser heat exchanger, the air returns to the garbage can after the temperature of the air is increased through a heater heat exchanger, the air bypasses the surface of wet garbage to take away the moisture of the wet garbage, and the garbage can be dried by continuously repeating the circulating process. Meanwhile, a plasma generator is arranged in the air circulation system to remove the peculiar smell of the garbage.

In addition, be equipped with the stirring sword component in the ladle body, the stirring sword component is with rubbish stirring, stirring garrulous, and increase rubbish surface area, and then increase the area of contact of gas and rubbish, improves drying efficiency.

Drawings

Fig. 1 is a schematic view of an assembly and disassembly structure of a garbage disposer according to an embodiment of the present invention.

Fig. 2 is a schematic cross-sectional structure diagram of a garbage disposer according to an embodiment of the present invention.

Fig. 3 is an exploded view of the housing, the channel partition and the base according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of the channel partition plate of the present invention having a fan, a heating heat exchanger, and a condensing heat exchanger.

Fig. 5 is a schematic view illustrating an assembly and disassembly structure of the fan, the heating heat exchanger, the condensing heat exchanger, and the channel partition according to an embodiment of the present invention.

Fig. 6 and 7 are schematic cross-sectional views of the garbage disposer according to an embodiment of the present invention, which are different from the position shown in fig. 1.

Fig. 8 is a schematic structural view illustrating a gas circulation flow according to an embodiment of the present invention.

Fig. 9 is a schematic diagram of a gas circulation flow structure in the prior art.

In the figure, 1 is a top cover, 2 is a garbage can component, 3 is a can body, 4 is an air inlet duct, 5 is a condensation air duct, 6 is an annular air duct, 7 is a condensation heat exchanger, 8 is a heating heat exchanger, 9 is a fan, 10 is a plasma generator, 11 is a shell, 12 is a base, 13 is a channel partition plate, 13.1 is a mounting position, 14 is a semiconductor refrigeration piece, 15 is a water collecting cup, 16 is a motor, 17 is a transmission component, 18 is a stirring knife component, 19 is an air inlet, 20 is a filter, 21 is a hot air component, and 22 is an exhaust port of an exhaust channel.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1, the garbage disposer includes a top cover 1 provided with an air inlet, and a garbage can assembly 2, the garbage can assembly 2 includes a can body 3 for loading garbage, the garbage can assembly 2 further includes a housing 11 and a base 12, and a channel partition 13 is arranged between the housing 11 and the base 12. The channel partition 13 is fixedly mounted in the housing 11.

The bottom of the base 12 is provided with an annular groove, the edge of the top annular opening of the barrel body 3 is relatively inserted into the annular groove, the top of the base 12 is provided with an insertion groove, the bottom edges of the channel partition plate 13 and the shell 11 are inserted into the insertion groove, the shell 11 covers the channel partition plate 13, and components arranged on the channel partition plate 13.

The motor 16 is arranged in the shell 11, the transmission member 17 is arranged on the base 12, the stirring knife member 18 is arranged in the barrel body 3, the motor 16, the transmission member 17 and the stirring knife member 18 are connected, and the motor 16 and the transmission member 17 drive the stirring knife member 18 to rotate so as to stir and smash garbage in the barrel body 3. Since the garbage in the can body 3 is stirred and crushed by the stirring knife member 18, the surface area of the garbage is increased, the water evaporation speed is increased, and the drying efficiency is further improved.

The stirring knife member 18 comprises a knife shaft of the transmission member 17, and a stirring knife and a knife rest arranged on the knife shaft.

The transmission component 17 is a reduction gearbox, a gear which is matched and connected with a motor shaft is arranged in the reduction gearbox, and the stirring cutter component 18 is driven to run through the gear group transmission.

Referring to fig. 2 and 3, an air inlet duct 4, a condensation air duct 5 and an annular air duct 6 which are sequentially communicated are arranged in the garbage can assembly 2, a condensation heat exchanger 7 is arranged in the condensation air duct 5, a heating heat exchanger 8 is arranged in the annular air duct 6, and a fan 9 for drawing air to flow is also arranged in the garbage can assembly 2; the air inlet, air inlet duct 4 and ladle body 3 intercommunication, the air outlet intercommunication ladle body 3 in annular wind channel 6, outside air toward the air inlet, air inlet duct 4 gets into in the ladle body 3, the air is under fan 9 traction drive, through condensation wind channel 5, condensation heat exchanger 7, fan 9, heat exchanger 8, annular wind channel 6 gets into in the ladle body 3 once more, so that the outside air that gets into in the ladle body 3 gets into condensation wind channel 5, after the gas is got rid of moisture by condensation heat exchanger 7, through heating heat exchanger 8 heating, after the drying, gas returns in the ladle body 3 through annular wind channel 6, gas circulation flow so, in order to form a relative confined air inner circulation channel in the garbage disposer.

Referring to fig. 8 in combination with fig. 1-3, a drying and deodorizing system for a garbage disposer comprises an air inlet duct 4, a condensation air duct 5, an annular air duct 6, a condensation heat exchanger 7 and a fan 9 which are arranged in a garbage can assembly 2, heating heat exchanger 8, air after the dry heating gets into in ladle body 3, make the moisture evaporation in the rubbish, gas humidity increases, gas reentries condensation wind channel 5 again under fan 9 pulls, condensation heat exchanger 7 gets rid of gaseous moisture, pass through fan 9 again, heating heat exchanger 8, annular wind channel 6 returns ladle body 3, constantly repeat above-mentioned circulation process, the closed circulation of air has been adopted, the gas in the refuse treatment ware does not leak all the time, condenser heat exchanger 7 can keep power invariable, combine refuse treatment ware enclosed construction, under not receiving external environment influence, effectively continuously stabilize dry rubbish.

Referring to fig. 4 and 5, the condensation air duct 5 is located in the channel partition 13, the channel partition 13 is provided with an installation position 13.1, the condensation heat exchanger 7 is partially embedded in the installation position 13.1, the fan 9 and the heating heat exchanger 8 are respectively and fixedly arranged on the channel partition 13, the fan 9 is located on one side of the heating heat exchanger 8, the heating heat exchanger 8 is arranged above the condensation heat exchanger 7 in a pressing manner, the shell 11, the base 12 and the barrel body 3 are assembled together, and the shell 11 covers the fan 9 and the heating heat exchanger 8.

A semiconductor refrigerating sheet 14 is arranged between the bottom of the heating heat exchanger 8 and the top of the condensing heat exchanger 7, and the bottom of the heating heat exchanger 8 is attached to the heating surface of the semiconductor refrigerating sheet 14; the top of the condensing heat exchanger 7 is attached to the refrigerating surface of the semiconductor refrigerating sheet 14.

The base 12 is provided with a first vent hole and a second vent hole, the barrel body 3, the first vent hole and the condensation air duct 5 are communicated, and the barrel body 3, the second vent hole and the annular air duct 6 are communicated.

Referring to fig. 1 and 2, a plasma generator 10 is further arranged in the garbage bin assembly 2, an electrode of the plasma generator 10 extends into the annular air duct 6, and positive ions and negative ions generated by the plasma generator 10 flow along with heated and dried gas and enter the bin body 3 through the annular air duct 6.

The positive ions and the negative ions generated by the plasma generator 10 circulate along with the heated and dried gas, thereby effectively removing the peculiar smell of the garbage attached to the gas and ensuring that the peculiar smell of the garbage attached to the gas can be removed in the treatment process of drying the garbage.

The housing 11 is internally provided with a mounting cavity for fixing the plasma generator 10, and the annular air duct 6 is positioned in the housing 11.

Referring to fig. 6 and 7, a drainage channel is arranged in the trash can assembly 2 corresponding to the condensing heat exchanger 7, and a water collecting component communicated with the drainage channel is arranged on the outer side of the trash can assembly 2, so that moisture in the air is condensed and separated out by the condensing heat exchanger 7 and then is drained into the water collecting component through the drainage channel to be recovered.

The water collecting member includes a water collecting cup 15 provided on the outside of the base 12 or the tub 3.

When the air passes through the condensation heat exchanger 7, the temperature is reduced to below the dew point, and moisture in the air is separated out by the condensation, collects in water collecting cup 15 through drainage channel row, prevents that the comdenstion water from spilling outside the refuse treatment ware, and then influences external environment, prevents simultaneously that the comdenstion water from flowing back to in ladle body 3, moist rubbish.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a dry deodorization system of refuse processor, refuse processor is including top cap (1) that is equipped with the air intake to and garbage bin subassembly (2), garbage bin subassembly (2) are including loading ladle body (3) of rubbish, its characterized in that: an air inlet duct (4), a condensation air duct (5) and an annular air duct (6) which are sequentially communicated are arranged in the garbage can assembly (2), a condensation heat exchanger (7) is arranged in the condensation air duct (5), a heating heat exchanger (8) is arranged in the annular air duct (6), and a fan (9) for drawing air to flow is also arranged in the garbage can assembly (2); the air inlet, air inlet duct (4) and ladle body (3) intercommunication, the air outlet intercommunication ladle body (3) in annular wind channel (6), outside air is toward the air inlet, air inlet duct (4) get into in ladle body (3), the air is under fan (9) traction drive, through condensation wind channel (5), condensation heat exchanger (7), fan (9), heat exchanger (8), annular wind channel (6) get into in ladle body (3) once more, so that the outside air that gets into in ladle body (3) gets into condensation wind channel (5), gaseous by condensation heat exchanger (7) after getting rid of moisture, again through heating heat exchanger (8) heating, after the drying, gaseous returns in ladle body (3) through annular wind channel (6), so circulation flow, in order to form a confined air inner loop channel in the garbage disposer.

2. The waste disposer dry deodorizing system of claim 1, further comprising: the garbage can component (2) is also internally provided with a plasma generator (10), an electrode of the plasma generator (10) extends into the annular air duct (6), and positive ions and negative ions generated by the plasma generator (10) flow together with heated and dried gas and enter the garbage can body (3) through the annular air duct (6).

3. The waste disposer dry deodorizing system of claim 2, further comprising: garbage bin subassembly (2) still includes shell (11), base (12), shell (11), be equipped with passageway baffle (13) between base (12), condensation wind channel (5) are located in passageway baffle (13), be equipped with installation position (13.1) on passageway baffle (13), in condensation heat exchanger (7) part embedding installation position (13.1), fan (9), heating heat exchanger (8) are fixed the setting respectively on passageway baffle (13), fan (9) are located heating heat exchanger (8) one side, heating heat exchanger (8) are pressed and are established in the top of condensation heat exchanger (7), shell (11), base (12), ladle body (3) three assembles mutually, and shell (11) cladding fan (9), heating heat exchanger (8).

4. The garbage disposer dry deodorizing system of claim 3, wherein: a semiconductor refrigerating sheet (14) is arranged between the bottom of the heating heat exchanger (8) and the top of the condensing heat exchanger (7), and the bottom of the heating heat exchanger (8) is attached to the heating surface of the semiconductor refrigerating sheet (14); the top of the condensing heat exchanger (7) is attached to the refrigerating surface of the semiconductor refrigerating sheet (14).

5. The garbage disposer dry deodorizing system of claim 3, wherein: the inside of the shell (11) is provided with a mounting cavity for fixing the plasma generator (10), and the annular air duct (6) is positioned in the shell (11).

6. The garbage disposer dry deodorizing system of claim 3, wherein: the base (12) is provided with a first vent hole and a second vent hole, the barrel body (3), the first vent hole and the condensation air channel (5) are communicated, and the barrel body (3), the second vent hole and the annular air channel (6) are communicated.

7. The garbage disposer dry deodorizing system of claim 3, wherein: a drainage channel is arranged in the garbage can component (2) corresponding to the condensation heat exchanger (7), and a water collecting component communicated with the drainage channel is arranged on the outer side of the garbage can component (2) so that moisture in the air is condensed and separated out by the condensation heat exchanger (7) and then is discharged into the water collecting component through the drainage channel to be recovered.

8. The garbage disposer dry deodorizing system of claim 7, wherein: the water collecting member includes a water collecting cup (15) provided on an outer side of the base (12) or the tub (3).

9. The garbage disposer dry deodorizing system according to any one of claims 3-8, wherein: a motor (16) is arranged in the shell (11), a transmission member (17) is arranged on the base (12), a stirring knife member (18) is arranged in the barrel body (3), the motor (16), the transmission member (17) and the stirring knife member (18) are connected, and the motor (16) and the transmission member (17) drive the stirring knife member (18) to rotate so as to stir and crush garbage in the barrel body (3).

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