CN209773043U - Inclined domestic garbage treatment device - Google Patents

Abstract

The utility model relates to an inclined domestic waste processing apparatus, including base frame, main part reactor, gaseous purifier, the main part reactor is installed on base frame, and gaseous purifier is connected with the main part reactor. The inclined cross auger mechanism arranged in the main body reactor of the inclined household garbage treatment device can smoothly realize the low-high-low circulating conveying and stirring of materials in the sealed container, so that the materials can fully contact with oxygen, the reaction efficiency is high, and the phenomena of material piling, extrusion and compaction as the horizontal double-screw conveying mechanism does not occur; the whole biological reaction process is finished in a sealed reactor, so that heat dissipation and odor dissipation in the stirring reaction process can be avoided; the conversion rate of resources is improved, and the treated product reaches the standard of clean discharge.

Description

Inclined domestic garbage treatment device

Technical Field

The utility model belongs to the domestic waste field of handling relates to an inclined domestic waste processing apparatus.

Background

With the development of economy and the improvement of the living standard of people, the yield of domestic garbage is increased year by year. At present, the domestic mainstream domestic garbage treatment method is a landfill method, incineration power generation and diversified treatment, and the landfill is a main treatment mode. The landfill not only occupies a large amount of land resources, but also causes serious secondary pollution to land and underground water; due to poor classification effect of the household garbage, the heat value of substances is too low when the household garbage is used for incineration power generation, the power generation efficiency is low, and dioxin generated by incineration seriously pollutes air, so that the life health of people is threatened; the diversified treatment is to sort the household garbage and then treat various types of household garbage, but the existing sorting mode is not thorough in garbage classification and low in resource utilization rate, so that the existing household garbage treatment mode still needs to be further improved.

For example, chinese patent CN104289497 discloses a multi-section type semi-continuous domestic garbage biological reaction device and method, which discloses a device for treating domestic garbage by biological reaction, providing a favorable theoretical basis for the treatment of domestic garbage, but in practical application, the domestic garbage treated by biological reaction still has a certain problem, the device adopts a horizontal double-screw conveying mechanism, but there is a material accumulation dead angle in the stirring, and the material at the end of the first screw conveyor cannot be conveyed onto the second screw conveyor, so that the material is seriously extruded and piled at the end, which causes the inefficient and sufficient mixing of the materials in the reactor, and also damages the end parts, thus seriously affecting the effect of domestic garbage treatment.

Disclosure of Invention

In order to solve the problems of the prior art, the utility model provides an inclined domestic garbage treatment device, the inclined cross auger mechanism arranged in the main reactor can smoothly realize the circulating conveying and stirring of materials from low-high-low in a sealed container, so that the materials can fully contact with oxygen, the reaction efficiency is high, and the phenomena of material piling, extrusion and compaction can not occur like a horizontal double-screw conveying mechanism.

The utility model aims at realizing through the following technical scheme:

The utility model provides an inclined domestic waste processing apparatus, includes main part reactor and gas purification device, the main part reactor includes casing, top cap, two sets of auger mechanism, blast pipe, inlet pipe, picture peg device, discharge gate and two sets of speed reducer, the lower part is equipped with two holding tanks in the casing, at least one holding tank slope sets up in two holding tanks, auger mechanism arranges in the holding tank for the slope of at least one auger mechanism set up in the casing, the speed reducer is connected with auger mechanism, the defeated material opposite direction of two sets of auger mechanisms, gas purification device passes through the blast pipe and is connected with the main part reactor, be equipped with the draught fan between gas purification device and main part reactor.

Furthermore, the inclined included angle between the central line of the containing groove and the horizontal plane is 5-10 degrees, and a gap of 20-30mm is reserved between the largest excircle of the blade of the auger mechanism and the containing groove.

Further, two holding tanks all incline to set up in the casing bottom, and the incline direction of two holding tanks is opposite.

Further, still be equipped with defeated material slope and slope in the casing, defeated material slope arrange the casing tip in, defeated material slope intercommunication two holding tanks, form the platform between two holding tanks, be equipped with the slope between platform tip and the defeated material slope, the tip of the transmission shaft of auger mechanism is equipped with the switch-plate, the switch-plate is arranged in defeated material slope department, when auger mechanism rotates, the switch-plate can be with carrying the material to the auger upper end and carry the lower extreme to another auger through defeated material slope.

Further, still be equipped with the guide body on the platform that forms between the holding tank, the guide body sets up between two auger mechanisms, the guide body is the cone of four sides slope.

Further, the transmission shaft of auger mechanism is the hollow shaft, be equipped with a plurality of exhaust holes on the hollow shaft, the last one end of keeping away from the speed reducer of auger mechanism still is equipped with heating device and air-blower, the air-blower is frequency conversion silence formula air-blower.

Further, the top cap comprises two four sides taper hoods, every face and the horizontal plane angle of intersection of four sides taper hoods are 50-70 degrees, are equipped with in the middle of the top of four sides taper hoods the gas vent, the blast pipe with the gas vent is connected, still be equipped with the water catch bowl on the top cap, the water catch bowl sets up the base on each inclined plane of four sides taper hoods, one side of top cap is provided with the feed inlet, the inlet pipe with the feed inlet is connected.

Further, the flashboard device is an electric flashboard valve or a hydraulic flashboard valve, and the flashboard device is arranged at the discharge hole.

Further, still include detecting element and the control unit, detecting element arranges in the main part reactor, detecting element includes oxygen sensor, more than one temperature sensor, humidity transducer, first pressure sensor and second pressure sensor, shells inner wall's bottom is arranged in to oxygen sensor, shells inner wall's bottom is arranged in to temperature sensor, humidity transducer arranges top cap inner wall in, shells inner wall's not co-altitude department is arranged in to first pressure sensor and second pressure sensor, detecting element is connected with the control unit, the control unit still is connected with heating device, air-blower and draught fan.

The utility model has the advantages that:

The inclined cross auger mechanism arranged in the main body reactor of the inclined household garbage treatment device can smoothly realize the low-high-low circulating conveying and stirring of materials in the sealed container, so that the materials can fully contact with oxygen, the reaction efficiency is high, and the phenomena of material piling, extrusion and compaction as the horizontal double-screw conveying mechanism does not occur; the whole biological reaction process is finished in a sealed reactor, so that heat dissipation and odor dissipation in the stirring reaction process can be avoided; the conversion rate of resources is improved, and the treated product reaches the standard of clean discharge.

Drawings

FIG. 1 is a view of the whole inclined household garbage disposal apparatus.

FIG. 2 is a sectional view of the main body reactor of the inclined type domestic waste treatment device.

FIG. 3 is a structural diagram of a packing auger mechanism in the inclined household garbage disposal device.

fig. 4 is a structure diagram of a shell in the inclined household garbage disposal device, and the shell is cut open from the middle position of two auger mechanisms.

FIG. 5 is a top cover structure of the inclined household garbage disposal device.

FIG. 6 is a view showing the structure of a water collecting tank of the inclined household garbage disposal apparatus.

Fig. 7 is a structure view of a guide body in the inclined type household garbage disposal device.

shown in the figure: 1-a top cover; 2-an exhaust pipe; 3-feeding pipe; 4-a base frame; 5-a shell; 6-plate inserting device; 7-a heating device; 8-a speed reducer; 9-a blower; 10-a packing auger mechanism; 11-a kick-out plate; 12-a body of a conductor; 13-a ramp; 14-a water collecting tank; 15-a discharge hole; 16-a platform; 17-conveying slope; 18-a water outlet pipe; 19-an exhaust port; 20-a feed inlet; 21-a four-sided pyramidal cover; 22-accommodating grooves; 23-Vent hole.

Detailed Description

The following non-limiting examples will allow one of ordinary skill in the art to more fully understand the present invention, but are not intended to limit the invention in any way. In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the orientation words such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom", etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element in question must have a specific orientation or be constructed and operated in a specific orientation, and therefore should not be construed as limiting the scope of the present invention: the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

The inclined household garbage disposal device disclosed by the utility model is shown in fig. 1 and fig. 2, which comprises a main body reactor and a gas purification device, wherein the gas purification device is not shown, the main body reactor is installed on a base frame 4, the base frame 4 is a support structure formed by a plurality of upright vertical supporting legs and a plurality of transverse plates, the main body reactor comprises a shell 5, a top cover 1, two sets of auger mechanisms 10, an exhaust pipe 2, a feeding pipe 3, a plate inserting device 6, a discharging port 15 and two sets of speed reducers 8, two holding tanks 22 are arranged at the lower part in the shell 5, preferably, the cross section of the holding tank 22 is in a semi-arc shape, at least one holding tank 22 in the two holding tanks 22 is arranged in an inclined manner, the auger mechanism 10 is arranged in the holding tank 22, so that at least one auger mechanism 10 is arranged in the shell 5 in an inclined manner, the speed reducers, the conveying direction of the two sets of auger mechanisms 10 is opposite, the gas purification device is connected with the exhaust pipe 2 of the main reactor, an induced draft fan is arranged between the gas purification device and the main reactor, and the induced draft fan can be arranged on the pipeline of the exhaust pipe 2 and also can be arranged in the gas purification device.

The utility model discloses an inclined domestic waste processing apparatus is because the slope of at least one auger mechanism 10 sets up for auger mechanism 10 can realize the material by low transport to high and stirring process when stirring and carrying the material in to casing 5, has avoided appearing long-pending material dead angle, can be so that the interior material of reactor can be abundant and even mixture.

Furthermore, the inclined included angle between the central line of the accommodating groove 22 and the horizontal plane is 5-10 degrees, and a gap of 20-30mm is reserved between the maximum excircle of the blade of the auger mechanism 10 and the accommodating groove 22. The inclination angle between the central line of the holding tank 22 and the horizontal plane is 5-10 degrees, which not only ensures the material conveying performance of the auger, but also increases the stirring capacity, and can ensure that the materials in the reactor can be fully and uniformly mixed. A gap of 20-30mm is reserved between the largest outer circle of the blade of the auger mechanism 10 and the accommodating groove 22, so that the phenomenon that the auger is blocked or blocked due to undersize distance between the material and the auger mechanism 10 can be avoided.

Further, the two accommodating grooves 22 are obliquely arranged at the bottom of the shell 5, the oblique directions of the two accommodating grooves 22 are opposite, and the oblique angle between the accommodating groove 22 and the horizontal plane is 5-10 degrees, that is, the two auger mechanisms 10 are obliquely arranged in the shell 5 in a crossed manner. Because two auger mechanisms 10 all incline to set up, and two auger mechanisms 10 defeated material opposite direction, the rotation direction is the same. Therefore, the auger mechanism 10 which is obliquely crossed and arranged in the main reactor can smoothly realize the low-high-low circulating conveying and stirring of materials in the sealed container, the materials can fully contact oxygen, the reaction efficiency is high, and the phenomena of material piling, extrusion and compaction which occur in a horizontal double-spiral conveying mechanism can not occur.

Further, as shown in fig. 4, still be equipped with defeated material slope 17 and slope 13 in the casing 5, the 5 tip of casing is arranged in to defeated material slope 17 slope, defeated material slope 17 communicates two holding tanks 22, form platform 16 between two holding tanks 22, be equipped with slope 13 between 16 tip of platform and defeated material slope 17, the tip of the transmission shaft of auger mechanism 10 is equipped with switch-off plate 11, switch-off plate 11 is arranged in defeated material slope 17 department, when auger mechanism 10 rotated, switch-off plate 11 can carry the material to the auger upper end to the lower extreme of another auger through defeated material slope 17. Because two auger mechanisms 10 are arranged and the two auger mechanisms 10 are obliquely arranged, the two auger mechanisms 10 can realize the cyclic conveying and stirring of materials from low-high-low in the reactor, but because a certain distance is reserved between the two auger mechanisms 10, when the materials are conveyed from the lower end to the upper end of the auger mechanisms 10, a material accumulation phenomenon can exist between the two auger mechanisms 10, the material conveying slope 17, the material stirring plate 11 and the slope 13 are arranged in the invention, the materials can be prevented from being accumulated on the platform 16 in the axial direction of the auger mechanisms 10 when the materials are conveyed from the lower end to the upper end by the auger mechanisms 10, simultaneously when the auger mechanisms 10 rotate, the material conveyed to the upper end can be conveyed from the material conveying slope 17 to the lower end of the other auger mechanism 10 by the material stirring plate 11, the cyclic conveying and stirring of the materials from low-high-low-high-, avoiding the phenomenon of material accumulation dead angles at the two ends of the auger mechanism 10.

Further, as shown in fig. 2, a material guide body 12 is further arranged on the platform 16 formed between the accommodating grooves 22 along the axial direction, the material guide body 12 is arranged between the two auger mechanisms 10, and as shown in fig. 7, the material guide body 12 is in a four-sided inclined cone shape. The material-guiding bodies 12 prevent excessive material from accumulating above the platform 16 and being unable to be transported out during the discharge.

Further, as shown in fig. 3, the transmission shaft of the auger mechanism 10 is a hollow shaft, a plurality of exhaust holes 23 are formed in the hollow shaft, a heating device 7 and an air blower 9 are further arranged at one end, far away from the speed reducer 8, of the auger mechanism 10, and the air blower 9 is a variable-frequency silent air blower. Two heating pipes are uniformly distributed in the heating device 7 in the circumferential direction and used for heating air and providing the temperature required by biological reaction for the materials stored in the main reactor; the heating pipe adopts intelligent control, when needs provide high temperature for the material, controls two heating pipes and all starts work, when needs provide low temperature for the material, controls a heating pipe start work, and material temperature is too high during biological reaction, when surpassing the required maximum temperature value of biological reaction, controls two heating pipes and does not do work, lets in cold wind in to the material and cools down, falls to the required maximum temperature value of biological reaction when the temperature, controls a heating pipe start work, provides low temperature for the material. A transmission shaft of the auger mechanism 10 is a hollow shaft, and a plurality of small holes are drilled on the shaft and used for conveying hot air into materials; the auger mechanism 10 rotates at intervals, and rotates once every two hours, and the rotating time is ten minutes.

Further, as shown in fig. 5 and 6, the top cover 1 is composed of two four-sided pyramid covers 21, the intersection angle of each surface of the four-side conical cover 21 and the horizontal plane is 50-70 degrees, preferably, the included angle of each surface of the four-side conical cover 21 and the horizontal plane is 50 degrees, the air outlet 19 is arranged in the middle of the top of the four-side conical cover 21, the exhaust pipe 2 is connected with the exhaust port 19, the exhaust gas is collected into a path through the exhaust pipe 2 and is exhausted in a concentrated manner, preferably, the exhaust pipe 2 is welded on the exhaust port 19, the top cover 1 is also provided with a water collecting tank 14, the water collecting tank 14 is arranged at the bottom edge of each inclined surface of the four-side conical cover 21, for collecting the condensate that slides freely off the inclined surface, and discharging it through the outlet pipe 18, one side of top cap 1 is provided with feed inlet 20, inlet pipe 3 with feed inlet 20 welds. The four-side conical cover 21 is beneficial to the free falling of condensed water along the inclined plane while condensing the moisture evaporated during the biological reaction, and avoids the moisture from dropping into the material again to wet the material.

Further, the inserting plate device 6 is an electric inserting plate valve or a hydraulic inserting plate valve, the inserting plate device 6 is arranged at the discharge hole 15, and the discharge hole 15 is arranged at one end of the bottom of the shell 5. The flashboard device 6 adopts an electric flashboard valve or a hydraulic flashboard valve and is in sealing connection with the discharge hole 15 of the shell 5, air leakage and water leakage are prevented, when discharging is needed, the flashboard device 6 is started, the discharge hole 15 is in an open state, the flashboard device 6 does not work in other times, and the discharge hole 15 is in a closed state. Air-blower 9 select for use the frequency conversion silent type, on the one hand, the amount of wind of its production and gas purification device's draught fan amount of wind can reach and make the interior negative pressure that forms of main part reactor during biological reaction, avoid outside the stink ease reaches the main part reactor, on the other hand can combine heating device 7, heated air provides required temperature for biological reaction in leading to the material.

Further, still include detecting element and the control unit, detecting element arranges in the main part reactor, detecting element includes oxygen sensor, more than one temperature sensor, humidity transducer, first pressure sensor and second pressure sensor, oxygen sensor arranges the bottom of casing 5 inner wall in, casing 5 inner wall bottom is arranged in to temperature sensor, humidity transducer arranges top cap 1 inner wall in, the different height department of casing 5 inner wall is arranged in to first pressure sensor and second pressure sensor, detecting element is connected with the control unit, the control unit still is connected with heating device 7, air-blower 9 and draught fan, preferably, first pressure sensor and second pressure sensor's model is AST4100 industrial pressure sensor, and oxygen sensor's model is MAX250B, and temperature sensor's model is ETS7246-A-010-000, humidity transducer's model is KZWS/GW high temperature type temperature and humidity sensor, first pressure sensor and second pressure sensor arrange the different height of 5 inner walls of casing in, can detect how much of material in the main part reactor, humidity transducer is used for detecting the humidity in the main part reactor top space, temperature sensor then detects the temperature of material in the main part reactor, oxygen sensor detects the oxygen content of material in the main part reactor, the sensor carries the various information of gathering to the controller, and by the controller to air-blower 9, the draught fan, heating device 7 carries out corresponding control. The utility model discloses an among the refuse treatment device, gaseous purifier be connected with the main part reactor through blast pipe 2, in order not to make the odorous gas loss in the main part reactor outside, guarantee throughout that there is the negative pressure in the main part reactor, then its draught fan adopts the inverter type, during biological reaction, the draught fan is on the basis of guaranteeing to form the negative pressure with the cooperation of air-blower 9, carries out the frequency conversion regulation amount of wind along with the change of oxygen content, space humidity in material temperature, the material.

The biological reaction is carried out in a closed reactor, the reaction time is 3-3.5 days, and the temperature required by the reaction is 40-60 ℃.

The biological reaction is carried out in a closed reactor, the reaction time is 3 days, and the temperature required by the reaction is 50 ℃.

The working process of the utility model is as follows: firstly, conveying broken household garbage and biological bacteria into a main body reactor through a feed pipe 3, opening the feed pipe 3, simultaneously starting two auger mechanisms 10 to rotate to circularly convey and stir materials, starting a gas purification device, adjusting small air quantity of a draught fan to remove odor, continuously starting the gas purification device during working, when the height of the materials conveyed into the main body reactor reaches a set value of a first pressure sensor, indicating that the feeding work is finished through a feedback signal, closing the feed pipe 3, adjusting large air quantity of the draught fan of the gas purification device, starting a blower 9 to increase air quantity and two heating pipes to ensure that high-temperature hot air is rapidly introduced into the materials on the basis of negative pressure in the main body reactor, heating the materials, and when the temperature sensor detects that the temperature of the materials reaches 50 ℃, stopping the two auger mechanisms 10, the blower 9 and the heating pipes to work, and adjusting the small air quantity of the draught fan to remove odor, starting to carry out biological reaction; during the biological reaction, when the temperature sensor detects that the temperature of the material is lower than 40 ℃, the gas purification device starts the two auger mechanisms 10 and the blower 9 of the gas purification device to have large air volume, opens the two heating pipes, introduces high-temperature hot air into the material, heats the material, and simultaneously adjusts the induced draft fan to be matched with the blower 9 to form negative pressure for deodorization, when the temperature of the material is heated to about 50 ℃, the two auger mechanisms 10, the blower 9 and the heating pipes are stopped to work, and the induced draft fan is adjusted to have small air volume for deodorization; when the temperature sensor detects that the temperature of the material exceeds 60 ℃, the two auger mechanisms 10 and the air blower 9 are started to have large air volume, cold air is introduced into the material, the temperature of the material is quickly reduced, meanwhile, the induced draft fan is adjusted to be matched with the air blower 9 to form negative pressure, when the temperature of the material is reduced to 50 ℃, the two auger mechanisms 10 and the air blower 9 are stopped to work, and the small air volume of the induced draft fan is adjusted to remove odor; when the oxygen sensor detects that the material is anoxic and the temperature meets the biological reaction requirement, starting the two auger mechanisms 10 and the air blower 9 of the gas purification device, starting the air blower 9 with medium air volume, adjusting a draught fan of the gas purification device to be matched with the air blower 9 to form negative pressure, starting a heating pipe to work in order not to reduce the material reaction temperature, introducing hot air into the material, stopping the two auger mechanisms 10, the air blower 9 and the heating pipe to work when the provided oxygen meets the biological reaction requirement, and adjusting the small air volume of the draught fan to remove the odor; when the oxygen sensor detects that the material is anoxic and the temperature is higher than 60 ℃, starting the two auger mechanisms 10 and the air blower 9 of the gas purification device to increase the air volume, adjusting the large air volume of the induced draft fan, matching the gas purification device with the air blower 9 to form negative pressure, introducing cold air into the material to supplement oxygen, rapidly reducing the temperature of the material to about 50 ℃, stopping the two auger mechanisms 10 and the air blower 9 from working, and adjusting the small air volume of the induced draft fan to remove odor; when the humidity sensor detects that the space humidity in the main reactor is large, the large air quantity of the induced draft fan is adjusted, and the space humidity is reduced. During the biological reaction, the auger mechanism 10 rotates once every two hours, and the rotating time is ten minutes each time; when the biological reaction is severe and the humidity in the space of the main reactor is overlarge, starting a draught fan of the gas purification device to increase the air volume and pumping out moisture; during the reaction process, along with the generation of condensed water and odorous gas, the condensed water is collected by the water collecting tank 14 and is discharged through the water outlet pipe 18, and a small amount of fertilizer and clean water used for greening can be generated through further chemical treatment; the odorous gas is discharged to a gas purification device through the exhaust pipe 2 for treatment, and standard emission can be realized; after the reaction time of 3 days, after the reaction is finished, the gas purification device starts the plate inserting device 6, opens the discharge port 15, starts the auger mechanism 10 to rotate, starts to discharge, when the height of the residual materials in the main reactor reaches the set value of the second pressure sensor, the feedback signal indicates that the discharging work is finished, at this moment, stops the auger mechanism 10 to rotate, starts the plate inserting device 6, and closes the discharge port 15. And after the domestic garbage treatment is finished, adding a new batch of garbage again, repeating the action process, treating the new batch of domestic garbage, adding new garbage again for treatment after each subsequent batch of domestic garbage treatment is finished, and stopping the gas purification device along with the complete end of the domestic garbage treatment.

The above-described embodiments are merely exemplary of the present invention and are not intended to limit the embodiments of the present invention, and those skilled in the art can make variations or changes in other forms based on the above description without exhaustive enumeration or enumeration of all embodiments, and any modifications, equivalent substitutions, improvements, etc., that fall within the spirit and scope of the present invention are intended to be encompassed by the present claims.

Claims (9)

1. The utility model provides an inclined domestic waste processing apparatus, includes main part reactor and gas purification device, a serial communication port, the main part reactor includes casing, top cap, two sets of auger mechanisms, blast pipe, inlet pipe, picture peg device, discharge gate and two sets of speed reducer, the lower part is equipped with two holding tanks in the casing, at least one holding tank slope sets up in two holding tanks, auger mechanism arranges in the holding tank for the slope of at least one auger mechanism set up in the casing, the speed reducer is connected with auger mechanism, the defeated material opposite direction of two sets of auger mechanisms, gas purification device passes through the blast pipe and is connected with the main part reactor, be equipped with the draught fan between gas purification device and main part reactor.

2. The inclined household garbage disposal device according to claim 1, wherein the inclined angle between the center line of the holding tank and the horizontal plane is 5-10 degrees, and a gap of 20-30mm is left between the largest outer circle of the blade of the auger mechanism and the holding tank.

3. The inclined household garbage disposal device according to claim 1 or 2, wherein the two accommodating tanks are arranged at the bottom of the housing in an inclined manner, and the inclination directions of the two accommodating tanks are opposite.

4. The inclined household garbage disposal device according to claim 3, wherein a material conveying slope and a slope are further arranged in the housing, the material conveying slope is obliquely arranged at the end of the housing, the material conveying slope is communicated with the two accommodating tanks, a platform is formed between the two accommodating tanks, the slope is arranged between the end of the platform and the material conveying slope, a material shifting plate is arranged at the end of a transmission shaft of the auger mechanism, the material shifting plate is arranged at the material conveying slope, and when the auger mechanism rotates, the material shifting plate can convey the material conveyed to the upper end of the auger to the lower end of another auger through the material conveying slope.

5. The inclined household garbage disposal device according to claim 4, wherein a material guide body is further provided on the platform formed between the holding tanks, the material guide body is provided between the two auger mechanisms, and the material guide body is in a four-sided inclined cone shape.

6. The inclined household garbage disposal device according to claim 1, wherein the transmission shaft of the auger mechanism is a hollow shaft, the hollow shaft is provided with a plurality of exhaust holes, a heating device and an air blower are further arranged at one end of the auger mechanism, which is far away from the speed reducer, and the air blower is a variable-frequency silent air blower.

7. The inclined household garbage disposal device according to claim 1, wherein the top cover is composed of two four-sided conical covers, the intersection angle of each surface of the four-sided conical cover and the horizontal plane is 50-70 degrees, the air outlet is arranged in the middle of the top of the four-sided conical cover, the exhaust pipe is connected with the air outlet, a water collecting tank is further arranged on the top cover and is arranged at the bottom edge of each inclined surface of the four-sided conical cover, the feed inlet is arranged on one side of the top cover, and the feed pipe is connected with the feed inlet.

8. The inclined household garbage disposal device according to claim 1, wherein the plate inserting device is an electric gate valve or a hydraulic gate valve, and the plate inserting device is arranged at the discharge hole.

9. The inclined household garbage disposal device according to claim 1, further comprising a detection unit and a control unit, wherein the detection unit is disposed in the main reactor, the detection unit comprises an oxygen sensor, more than one temperature sensor, a humidity sensor, a first pressure sensor and a second pressure sensor, the oxygen sensor is disposed at the bottom end of the inner wall of the housing, the temperature sensor is disposed at the bottom end of the inner wall of the housing, the humidity sensor is disposed at the inner wall of the top cover, the first pressure sensor and the second pressure sensor are disposed at different heights of the inner wall of the housing, the detection unit is connected with the control unit, and the control unit is further connected with a heating device, an air blower and an induced draft fan.