CN212664486U - Intelligent kitchen waste treatment device capable of being efficiently recycled - Google Patents

Abstract

The utility model discloses an intelligent kitchen garbage processing apparatus that can high-efficiently retrieve, including solid-liquid separation structure, conveying mesh belt, reducing mechanism, marsh gas reacting chamber and oil water separator, install conveying mesh belt on the inner wall of solid-liquid separation structure, reducing mechanism is installed to one side of solid-liquid separation structure, and reducing mechanism is connected with the solid-liquid separation structure through first conveying pipe, reducing mechanism's internally mounted has the inlet pipe, and the top of inlet pipe is connected with the output of crushing motor, marsh gas reacting chamber is installed to one side of reducing mechanism, and marsh gas reacting chamber is connected with the inlet pipe through the second conveying pipe, oil water separator is installed to the opposite side of solid-liquid separation structure. The utility model discloses an install oil-water separator, can carry out the separation of grease and water with liquid kitchen garbage, and then utilize the grease that separates out to provide the raw materials for industrial oil and biofuel's manufacturing for kitchen garbage's resource utilization further improves.

Description

Intelligent kitchen waste treatment device capable of being efficiently recycled

Technical Field

The utility model relates to a refuse treatment technical field specifically is a but high-efficient intelligent kitchen garbage processing apparatus who retrieves.

Background

The kitchen waste is mainly from dining halls, restaurants and resident families, and comprises but not limited to waste vegetables, fruits, meat, fishes, shrimps, leftovers and the like, the kitchen waste contains a large amount of water and related organic matters, is extremely easy to decay, generates peculiar smell, and causes mosquitoes, flies, insects and rats.

The existing device has the defects that: when the existing garbage treatment device is used for treating kitchen garbage, the treatment of liquid garbage can be ignored, the liquid garbage is usually directly discharged into a sewer pipe, the kitchen garbage contains a large amount of liquid oil mixtures such as soup and the like, so that the kitchen garbage has extremely high nutritional value for microorganisms, and after the kitchen garbage is discharged for a period of time, the microorganisms are rapidly propagated and decayed, so that the sewer pipe can release peculiar smell and reversely flee into the air, and the air pollution is caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but intelligent kitchen garbage processing apparatus of high-efficient recovery to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an intelligent kitchen waste treatment device capable of efficiently recycling comprises a solid-liquid separation structure, a conveying mesh belt, a crushing device, a biogas reaction chamber and an oil-water separation device, wherein the conveying mesh belt is installed on the inner wall of the solid-liquid separation structure through a bearing, the crushing device is installed on one side of the solid-liquid separation structure and is connected with the solid-liquid separation structure through a first feeding pipe, an inlet pipe is installed inside the crushing device, the upper part of the inlet pipe is connected with the output end of a crushing motor through a conveying belt, the biogas reaction chamber is installed on one side of the crushing device and is connected with the inlet pipe through a second feeding pipe, the oil-water separation device is installed on the other side of the solid-liquid separation structure and is connected with the solid-liquid separation structure through an oil-water hose, a water pump is fixed above the oil-water separation device, a heat preservation cavity and a heat circulation cavity are arranged around, and the thermal cycle chamber is located the inside in heat preservation chamber, oil water separator's bottom is sealed to be fixed with the heating pipe, and the top welding in thermal cycle chamber installs steam nozzle, runs through oil water separator on one side outer wall in thermal cycle chamber and installs the drain valve, run through the thermal cycle chamber on one side outer wall in oil water separator and install the oil drain valve, and the oil drain valve is located the below of drain valve.

Preferably, a feed inlet is arranged above the solid-liquid separation structure, a material bearing plate is fixed on the inner wall of one side of the solid-liquid separation structure through bolts and located below the conveying mesh belt in an inclined mode, a first feeding pipe penetrates through the outer wall of one side of the solid-liquid separation structure through bolts and extends into the crushing device, an activated carbon plate is fixed on the inner wall of the solid-liquid separation structure and located below the material bearing plate.

Preferably, the conveying roller is arranged inside the conveying mesh belt, and the front surface of the conveying roller penetrates through the solid-liquid separation structure and is provided with the driving motor.

Preferably, the crushing device is internally provided with a crushing rod through a bearing, and a crushing motor is arranged above the crushing rod through a rotating rod.

Preferably, a movable cover is arranged above the biogas reaction chamber, and an exhaust valve is arranged on the outer wall of one side of the biogas reaction chamber through a sealing pipeline.

Preferably, a conveying belt is installed above the feeding pipe, a second feeding pipe is fixed on the outer wall of one side of the feeding pipe through a bolt, and the second feeding pipe extends into the methane reaction chamber.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in install oil water separator, the water pump is installed in proper order to the device inside, the heat preservation chamber, the thermal cycle chamber, the heating pipe, steam nozzle, drain valve and oil drain valve, oil water separator utilizes the huge difference of the vaporization temperature of grease and liquid water, can carry out the separation of grease and water with liquid kitchen garbage, and then utilize the grease that separates out to provide the raw materials for the manufacturing of industrial oil and biofuel, make kitchen garbage's resource utilization further improve, and make kitchen garbage's recovery efficiency improve, wherein fill in the heat preservation chamber and have insulation material, can avoid oil water separator to cause the rising of its outer wall temperature at the heat that the during operation produced, avoid potential scald danger, improve the security of device; the thermal circulation cavity can enable the heated and vaporized water vapor to circularly move in the thermal circulation cavity, so that the temperature in the oil-water separation device is kept unchanged, and the heat loss is reduced; after the device is cooled, the water vapor in the thermal circulation cavity is changed into liquid water again, and the water vapor can be discharged out of the device by opening the drain valve, so that the phenomenon that the normal operation of the loading and separation work is influenced due to excessive accumulated water in the device is avoided; after a period of heating, because the difference of water oil vaporization temperature, the liquid water in liquid kitchen garbage is heated vaporization evaporation, separates with the oil, can open the oil drain valve this moment, discharges, retrieves and recycles the inside grease that separates out of device, further improves kitchen garbage's utilization ratio.

Drawings

Fig. 1 is an overall sectional view of the present invention;

fig. 2 is a schematic top view of the pushing device of the present invention;

fig. 3 is a schematic structural view of the position a of the present invention;

fig. 4 is a schematic view of the top view of the crushing device of the present invention.

In the figure: 1. a solid-liquid separation structure; 101. a feed inlet; 102. a material bearing plate; 103. a first feed pipe; 104. an activated carbon plate; 2. a conveyor belt; 201. a conveying roller; 202. a drive motor; 3. a crushing device; 301. crushing the stems; 302. a grinding motor; 4. a biogas reaction chamber; 401. a movable cover; 402. an exhaust valve; 5. a feed pipe; 501. a conveyor belt; 502. a second feed tube; 6. an oil-water separation device; 601. a water pump; 602. a heat preservation cavity; 603. a thermal cycle chamber; 604. heating a tube; 605. a steam nozzle; 606. a drain valve; 607. an oil discharge valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: an intelligent kitchen waste treatment device capable of being efficiently recycled comprises a solid-liquid separation structure 1, a conveying mesh belt 2, a crushing device 3, a biogas reaction chamber 4 and an oil-water separation device 6, wherein the conveying mesh belt 2 is installed on the inner wall of the solid-liquid separation structure 1 through a bearing, the conveying mesh belt 2 is of a mesh structure, so that solid-liquid separation can be completed when kitchen waste enters the solid-liquid separation structure 1, then solid kitchen waste is conveyed to the crushing device 3 to complete subsequent crushing treatment, the crushing device 3 is installed on one side of the solid-liquid separation structure 1, the crushing device 3 is connected with the solid-liquid separation structure 1 through a first feeding pipe 103, the crushing device 3 can crush the entering solid kitchen waste, the fermentation speed of the solid kitchen waste in the biogas reaction chamber 4 is increased by increasing the surface area of the solid kitchen waste, the gas production efficiency is improved, a feeding pipe 5 is installed inside the crushing device 3, the upper part of the feeding pipe 5 is connected with the output end of the crushing motor 302 through the conveying belt 501, the feeding pipe 5 can transfer the solid kitchen waste crushed inside the crushing device 3 into the biogas reaction chamber 4, the automation of the device is realized in the process, the manual intervention is not needed, the real-time performance of raw material supply in the biogas reaction chamber 4 is ensured, the biogas reaction chamber 4 is installed at one side of the crushing device 3, the biogas reaction chamber 4 is connected with the feeding pipe 5 through the second feeding pipe 502, the biogas reaction chamber 4 provides a necessary sealed space for performing biogas fermentation on the crushed solid kitchen waste, so that the kitchen waste is recycled, the resource utilization rate of the device is improved, the oil-water separation device 6 is installed at the other side of the solid-liquid separation structure 1, the oil-water separation device 6 is connected with the solid-liquid separation structure 1 through a hose, and the oil-water separation device 6 can separate grease and water on the liquid kitchen waste, the separated grease is further used for providing raw materials for manufacturing industrial oil and biofuel, so that the resource utilization rate of the kitchen waste is further improved, the water pump 601 is fixed above the oil-water separation device 6, the water pump 601 can provide power support for transferring the filtered liquid kitchen waste in the solid-liquid separation structure 1 into the oil-water separation device 6, the oil-water separation device 6 is internally provided with a heat preservation cavity 602 and a heat circulation cavity 603 in a surrounding manner, the heat circulation cavity 603 is positioned in the heat preservation cavity 602, and the heat preservation cavity 602 is filled with heat preservation materials, so that the potential scalding danger caused by the rise of the temperature of the outer wall of the oil-water separation device 6 due to heat generated during working can be avoided; the thermal circulation cavity 603 can enable the water vapor vaporized by heating to circularly move in the thermal circulation cavity 603, so that the temperature in the oil-water separation device 6 is kept unchanged, and the heat loss is reduced, the bottom of the oil-water separation device 6 is hermetically fixed with a heating pipe 604, the heating pipe 604 can generate heat when being electrified to provide heat supply for the vaporization of the liquid water in the oil-water separation device 6, a steam nozzle 605 is welded above the thermal circulation cavity 603, the steam nozzle 605 provides a passage for the water vapor vaporized by heating in the oil-water separation device 6 to enter the thermal circulation cavity 603, a drain valve 606 penetrates through the oil-water separation device 6 on the outer wall of one side of the thermal circulation cavity 603, after the device is cooled, the water vapor in the thermal circulation cavity 603 is changed into the liquid water again, the drain valve 606 is opened to discharge the device, so that excessive water accumulation in the device is avoided, an oil discharge valve 607 penetrates through the thermal circulation cavity 603 on the outer wall of, and the oil drain valve 607 is located the below of drain valve 606, after a period of heating evaporation, because the difference of water oil vaporization temperature, the liquid water in liquid kitchen garbage is heated vaporization evaporation, separates with the oil, can open the oil drain valve 607 this moment, discharges, retrieves and recycles the inside grease that separates of device, further improves kitchen garbage's utilization ratio.

Further, a feed inlet 101 is arranged above the solid-liquid separation structure 1, a material bearing plate 102 is fixed on the inner wall of one side of the solid-liquid separation structure 1 through bolts, the material bearing plate 102 is located obliquely below the conveying mesh belt 2, a first feed pipe 103 is installed on the outer wall of one side of the solid-liquid separation structure 1 through bolts in a penetrating mode, the first feed pipe 103 extends into the crushing device 3, an activated carbon plate 104 is fixed on the inner wall of the solid-liquid separation structure 1, the activated carbon plate 104 is located below the material bearing plate 102, and the feed inlet 101 provides an inlet for kitchen waste to enter the solid-liquid separation structure 1 to complete preliminary solid-liquid separation; the material bearing plate 102 can bear the solid kitchen waste conveyed by the conveying mesh belt 2 and send the solid kitchen waste into the crushing device 3 through the inclined first feeding pipe 103 to complete subsequent crushing treatment; the activated carbon plate 104 can adsorb the peculiar smell in the liquid kitchen waste, so that the liquid finally discharged by the oil-water separation device 6 is free of peculiar smell.

Further, the conveying roller 201 is installed inside the conveying mesh belt 2, the driving motor 202 is installed on the front face of the conveying roller 201 in a penetrating mode through the solid-liquid separation structure 1, the driving motor 202 is in an MR-J2S-10A clicking mode, power support can be provided for rotation of the conveying roller 201, the conveying roller 201 can drive the conveying mesh belt 2 to rotate when rotating, and then the conveying mesh belt 2 can continuously and repeatedly carry out solid-liquid separation of kitchen waste and transportation work of solid waste.

Furthermore, a crushing rod 301 is installed inside the crushing device 3 through a bearing, a crushing motor 302 is installed above the crushing rod 301 through a rotating rod, the type of the crushing motor 302 is IHSS57-36-20 click, power support can be provided for rotation of the crushing rod 301, the crushing rod 301 can crush solid kitchen waste which is contacted with the crushing motor in the rotation process, and then leaves, roots, stems and the like of vegetables can be changed into refined substances, the surface area of the materials is increased, the fermentation speed of the materials in the biogas reaction chamber 4 is increased, and the gas production efficiency is improved.

Further, a movable cover 401 is arranged above the biogas reaction chamber 4, an exhaust valve 402 is arranged on the outer wall of one side of the biogas reaction chamber 4 through a sealed pipeline, the movable cover 401 can be opened, and therefore, a worker can conveniently extract the internally fermented slurry out of the biogas reaction chamber 4 by using a mud pump to use the slurry as a bio-fertilizer; the vent valve 402 may control the discharge of biogas generated by fermentation in the device, facilitating the use of biogas.

Further, conveyer 501 is installed above the inlet pipe 5, a second feeding pipe 502 is fixed on the outer wall of one side of the inlet pipe 5 through bolts, the second feeding pipe 502 extends into the biogas reaction chamber 4, the conveyer 501 has a transmission connection effect, so that the inlet pipe 5 can synchronously rotate when the crushing rod 301 rotates, the crushed solid waste inside the crushing device 3 is driven to ascend and is transferred to the biogas reaction chamber 4 through the second feeding pipe 502, and the feeding work of the biogas reaction chamber 4 is completed.

The working principle is as follows: when a worker uses the device to treat kitchen waste, firstly, the conveying mesh belt 2 is started, then, the machine is used for conveying the kitchen waste to the inside of the solid-liquid separation structure 1 through the feeding hole 101, the mixed kitchen waste is filtered and conveyed through the conveying mesh belt 2 to complete solid-liquid separation, the solid kitchen waste enters the crushing device 3 through the first feeding pipe 103, the crushing device 3 is started, the crushed solid waste is transferred to the biogas reaction chamber 4 through the feeding pipe 5 while the crushing treatment of the solid waste is completed, and standing fermentation is carried out to wait for the generation of biogas and bio-fertilizer; meanwhile, after the solid-liquid separated liquid kitchen waste enters the oil-water separation device 6, corresponding oil-water separation is completed, and the separated oil can be used for production of industrial oil and biofuel, so that the utilization rate of the kitchen waste is further improved, and the recovery efficiency of the device is improved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an intelligence kitchen garbage processing apparatus that can high-efficiently retrieve, includes solid-liquid separation structure (1), conveying mesh belt (2), reducing mechanism (3), marsh gas reacting chamber (4) and oil water separator (6), its characterized in that: the device is characterized in that a conveying mesh belt (2) is installed on the inner wall of the solid-liquid separation structure (1) through a bearing, a crushing device (3) is installed on one side of the solid-liquid separation structure (1), the crushing device (3) is connected with the solid-liquid separation structure (1) through a first feeding pipe (103), a feeding pipe (5) is installed inside the crushing device (3), the upper portion of the feeding pipe (5) is connected with the output end of a crushing motor (302) through a conveying belt (501), a biogas reaction chamber (4) is installed on one side of the crushing device (3), the biogas reaction chamber (4) is connected with the feeding pipe (5) through a second feeding pipe (502), an oil-water separation device (6) is installed on the other side of the solid-liquid separation structure (1), the oil-water separation device (6) is connected with the solid-liquid separation structure (1) through a hose, and a water pump (, the inside of oil water separator (6) is around being provided with heat preservation chamber (602) and thermal cycle chamber (603), and thermal cycle chamber (603) are located the inside of heat preservation chamber (602), the sealed heating pipe (604) that are fixed with in bottom of oil water separator (6), and steam nozzle (605) are installed in the top welding of thermal cycle chamber (603), run through oil water separator (6) on one side outer wall of thermal cycle chamber (603) and install drain valve (606), run through thermal cycle chamber (603) on one side outer wall of oil water separator (6) and install oil drain valve (607), and oil drain valve (607) are located the below of drain valve (606).

2. The intelligent kitchen waste treatment device capable of being efficiently recycled according to claim 1, characterized in that: the top of solid-liquid separation structure (1) is equipped with feed inlet (101), there is holding board (102) through the bolt fastening on the one side inner wall of solid-liquid separation structure (1), and holds the oblique below that board (102) are located conveying mesh belt (2), run through the bolt on the one side outer wall of solid-liquid separation structure (1) and install first conveying pipe (103), and first conveying pipe (103) extend the inside that gets into reducing mechanism (3), be fixed with activated carbon plate (104) on the inner wall of solid-liquid separation structure (1), and activated carbon plate (104) are located the below that holds board (102).

3. The intelligent kitchen waste treatment device capable of being efficiently recycled according to claim 1, characterized in that: the conveying belt (2) is internally provided with a conveying roller (201), and the front surface of the conveying roller (201) penetrates through the solid-liquid separation structure (1) and is provided with a driving motor (202).

4. The intelligent kitchen waste treatment device capable of being efficiently recycled according to claim 1, characterized in that: crushing pole (301) is installed through the bearing in the inside of reducing mechanism (3), and crushing motor (302) are installed through the bull stick in the top of crushing pole (301).

5. The intelligent kitchen waste treatment device capable of being efficiently recycled according to claim 1, characterized in that: a movable cover (401) is arranged above the biogas reaction chamber (4), and an exhaust valve (402) is arranged on the outer wall of one side of the biogas reaction chamber (4) through a sealed pipeline.

6. The intelligent kitchen waste treatment device capable of being efficiently recycled according to claim 1, characterized in that: a conveying belt (501) is installed above the feeding pipe (5), a second feeding pipe (502) is fixed on the outer wall of one side of the feeding pipe (5) through bolts, and the second feeding pipe (502) extends into the methane reaction chamber (4).

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