CN219052414U - Skid-mounted kitchen waste treatment system - Google Patents

Abstract

The embodiment of the application discloses sled dress formula kitchen garbage processing system includes: a first case and a second case; the pulping treatment assembly is arranged in the first box body, and the recycling assembly is arranged in the second box body. The skid-mounted kitchen waste treatment system that this application embodiment provided has included first box and second box, and slurrying processing unit sets up in first box, and recovery unit sets up in the second box, based on this can make skid-mounted kitchen waste treatment system modularization, skid-mounted, be convenient for to skid-mounted kitchen waste treatment system's transportation and assembly, simultaneously through the setting of two boxes, can reduce the weight of every box, the equipment and the transportation of skid-mounted kitchen waste treatment system of being convenient for especially can increase application scope.

Description

Skid-mounted kitchen waste treatment system

Technical Field

The embodiment of the application relates to the technical field of garbage disposal, in particular to a skid-mounted kitchen garbage disposal system.

Background

Kitchen waste refers to food waste and waste edible oil and fat generated in activities such as food processing, food service, and unit meal supply, except for daily living of residents. Including food waste and kitchen garbage, food waste includes: food residues of restaurants, unit canteens and the like, and processing process wastes of fruits and vegetables, meat, grease, pastries and the like in post-kitchen; kitchen waste: and (3) the garbage of the perishable machine such as fruit and vegetable and food leftovers, melon and fruit peel and the like which are discarded in the daily life of the family.

The kitchen waste treatment in China is still in a starting stage, most kitchen waste is directly buried or incinerated at present, and on one hand, the utilization rate of organic resources in the kitchen waste is low; on the other hand, a large amount of land is required to be planned for treating kitchen waste, so that the waste treatment cost is high and the environment is easy to pollute.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art or related art.

In view of this, the embodiment of the application provides a sled dress formula kitchen garbage processing system, includes:

a first case and a second case;

the pulping processing assembly is arranged in the first box body, and the recycling assembly is arranged in the second box body;

the pulping treatment assembly comprises a decomposer, an impurity separator and a discharge chute, wherein a pulp outlet pipe of the decomposer is communicated with the discharge chute, and a slag outlet pipe of the decomposer is communicated with the impurity separator;

the recycling assembly comprises a three-phase centrifugal machine, a liquid storage tank and a crude oil buffer tank, the discharge tank is communicated to the three-phase centrifugal machine, a crude oil outlet of the three-phase centrifugal machine is communicated to the crude oil buffer tank, and an organic liquid outlet of the three-phase centrifugal machine is communicated to the liquid storage tank.

In one possible embodiment, the slurrying process assembly further comprises:

the process water tank is arranged in the first box body;

the impurity separator comprises a liquid outlet and a discharge outlet, the discharge outlet is communicated to the outside of the first box body, and the liquid outlet is communicated to the process water tank.

In one possible embodiment, the slurrying process assembly further comprises:

the impurity remover is used for carrying out rough filtration on the slurry in the discharge chute;

the impurity removal storage tank is communicated with a discharge port of the impurity separator;

the liquid output end of the impurity removing machine is communicated with the steam heater;

the output end of the steam heater is communicated with the sterilizing tank, and the discharge tank is communicated with the three-phase centrifuge through the sterilizing tank;

and the output pump is communicated with the sterilization tank and is used for conveying the slurry in the sterilization tank to a conveying three-phase centrifuge.

In one possible embodiment, the impurity remover includes:

a body;

the grids are arranged in the machine body to form a plurality of filtering spaces, and the liquid output end is arranged on the shell and is communicated with the filtering spaces;

the detachable cover plate is connected to the machine body and used for covering a plurality of grids;

and the pumping pump is communicated with the machine body.

In one possible embodiment, the recycling assembly further comprises:

the solid slag outlet of the three-phase centrifugal machine is communicated to the transmission piece, and the transmission piece is used for conveying solid slag processed by the three-phase centrifugal machine to the outside of the second box body.

In one possible embodiment, the skid-mounted kitchen waste treatment system further comprises:

the slag fixing hopper is arranged outside the second box body, and one end of the transmission piece is communicated to the slag fixing hopper.

In one possible embodiment, the skid-mounted kitchen waste treatment system further comprises:

the separation plate is arranged in the second box body and divides the second box body into a first accommodating space and a second accommodating space, and the recovery assembly is arranged in the second box body;

the control assembly is arranged in the second accommodating space, connected with the slurrying processing assembly and the recycling assembly and used for controlling the starting and stopping of the slurrying processing assembly and the recycling assembly;

and the power distribution assembly is arranged in the second accommodating space and is used for electrifying the slurrying processing assembly and the recycling assembly.

In one possible embodiment, the skid-mounted kitchen waste treatment system further comprises:

the first box body and the second box body are used for being arranged on the bearing vehicle;

the hoisting piece is arranged on the side wall of the first box body and/or the side wall of the second box body;

wherein the first box and the second box are containers.

In a possible embodiment, the decomposer comprises:

the top of the first shell is opened to form a feed port;

a rotor disposed within the first housing;

the driving motor is arranged outside the first shell and connected with the rotor through a belt;

the stirring piece is connected with the rotor and is positioned in the first shell;

wherein, the pulp outlet pipe and the slag discharge pipe are communicated with the accommodating space in the first shell.

In one possible embodiment, the impurity separator includes:

the slag discharging pipe is communicated to the second shell;

a lifting shell communicated with the second shell;

the lifting auger is arranged in the lifting shell;

wherein, the discharge gate is offered on the promotion casing, the leakage fluid dram is offered on the second casing.

Compared with the prior art, the utility model at least comprises the following beneficial effects: according to the skid-mounted kitchen waste treatment system, the kitchen waste treatment system comprises a first box body, a second box body, a pulping treatment assembly and a recovery assembly, wherein the pulping treatment assembly comprises a decomposer, an impurity separator and a discharge chute, the recovery assembly comprises a three-phase centrifugal machine, a liquid storage tank and a crude oil buffer tank, based on the fact that kitchen waste is firstly conveyed into the decomposer of the pulping treatment assembly in the first box body in the working process, the decomposer can grind, crush and decompose the kitchen waste to form pulpified kitchen waste, the kitchen waste can be conveyed to the discharge chute for storage through a pulp outlet pipe on the decomposer after being pulpified to form a pulp, impurities which cannot be pulpified in the kitchen waste can be conveyed into the impurity separator, the impurity separator can further treat the impurities, and solid residues and liquid are separated from the impurities; further, the pulped kitchen waste in the discharge chute is supplied to the three-phase centrifuge, three products can be produced based on different material products by the centrifugal force three-phase centrifuge, coarse grease liquid with grease as a main component, organic phase liquid with organic matters and water as a main component and solid residue waste with solid residue as a main component can be produced when the kitchen waste is supplied to the three-phase centrifuge, further the coarse grease liquid can be stored in the coarse grease buffer tank, the organic phase liquid can be stored in the liquid storage tank, and the solid residue waste can be conveyed out of the second tank. Based on the method, the crude oil liquid can be reused only by transferring the crude oil liquid through the crude oil buffer tank, for example, biodiesel and industrial oil recycling products can be prepared; the organic phase liquid can be used as process water, and can be directly supplied and infused into a leachate treatment system or an external sewage treatment plant for cooperative treatment in consideration of low yield of the organic phase liquid, and is discharged after reaching standards; the solid residue garbage can be further recycled, such as organic fertilizer, insect feed or biological fertilizer. Based on this sled dress formula kitchen garbage processing system that provides through this application embodiment can carry out slurrying and edulcoration to kitchen garbage earlier, then carries out three-phase centrifugation again and carries out classification to kitchen garbage, then stores respectively, can carry out recycle subsequently, so set up the throughput that can greatly reduced kitchen garbage landfill or burn, can reduce kitchen garbage's processing cost, realize the multiplexing of resource simultaneously. In addition, the skid-mounted kitchen waste treatment system that this application embodiment provided has included first box and second box, and slurrying processing unit sets up in first box, and recovery unit sets up in the second box, based on this can make skid-mounted kitchen waste treatment system modularization, skid-mounted, the transportation and the assembly of skid-mounted kitchen waste treatment system of being convenient for, if can be with the skid-mounted kitchen waste treatment system that this application embodiment provided directly set up on the vehicle, can drive skid-mounted kitchen waste treatment system through the removal of vehicle and remove for skid-mounted kitchen waste treatment system's application is more nimble, can handle kitchen waste anytime and anywhere.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

FIG. 1 is a schematic block diagram of a skid-mounted kitchen waste treatment system according to one embodiment provided herein;

FIG. 2 is a schematic block diagram of a first tank and one angle of a slurrying assembly of a skid-mounted kitchen waste treatment system according to one embodiment provided herein;

FIG. 3 is a schematic block diagram of another angle of a first tank and slurrying assembly of a skid-mounted kitchen waste treatment system according to one embodiment provided herein;

FIG. 4 is a schematic block diagram of a second housing and a recycling assembly of the skid-mounted kitchen waste treatment system according to one embodiment of the present application;

FIG. 5 is a schematic block diagram of one angle of a resolver of a skid-mounted kitchen waste treatment system according to one embodiment provided herein;

FIG. 6 is a schematic block diagram of another angle of a resolver of a skid-mounted kitchen waste treatment system according to one embodiment provided herein;

FIG. 7 is a schematic block diagram of an angle of an impurity separator of a skid-mounted kitchen waste treatment system according to one embodiment of the present disclosure;

FIG. 8 is a schematic block diagram of another angle of an impurity separator of a skid-mounted kitchen waste treatment system according to one embodiment provided herein;

FIG. 9 is a schematic block diagram of a further angle of an impurity separator of a skid-mounted kitchen waste treatment system according to one embodiment of the present application;

FIG. 10 is a schematic block diagram of an angle of a trash remover of a skid-mounted kitchen waste treatment system according to one embodiment of the disclosure;

FIG. 11 is a schematic block diagram of another angle of a trash remover of a skid-mounted kitchen waste treatment system according to one embodiment of the present application;

FIG. 12 is a schematic block diagram of an angle of installation of a trash remover of a skid-mounted kitchen waste treatment system according to an embodiment of the present application;

FIG. 13 is a schematic block diagram of another angle of the mounting state of the trash remover of the skid-mounted kitchen waste treatment system according to one embodiment of the present application;

FIG. 14 is a schematic block diagram of a three-phase centrifuge of a skid-mounted kitchen waste treatment system according to one embodiment provided herein;

FIG. 15 is a schematic view of an angle of a three-phase centrifuge of a skid-mounted kitchen waste treatment system according to an embodiment of the disclosure;

fig. 16 is another angular schematic structural view of the installation state of the three-phase centrifuge of the skid-mounted kitchen waste treatment system according to the embodiment provided in the present application.

The correspondence between the reference numerals and the component names in fig. 1 to 16 is:

110 first box, 120 second box, 150 partition, 160 control assembly, 170 power distribution assembly;

131 decomposer, 132 impurity separator, 133 discharge chute, 134 process water tank, 135 impurity remover, 136 impurity removing storage tank, 137 steam heater, 138 sterilizing tank, 139 output pump, 1301 heat exchange pump, 1302 discharge pump, 1303 impurity removing pump;

141 three-phase centrifuges, 142 liquid storage tanks, 143 coarse oil buffer tanks, 144 slag fixing hoppers and 145 feed pumps;

1311 a first shell, 1312 a driving motor, 1313 a stirring piece, 1314 a slurry outlet pipe, 1315 a slag outlet pipe, 1321 a second shell, 1322 a lifting shell, 1323 a lifting auger, 1324 a liquid outlet, 1325 a discharge outlet, 1351 a machine body, 1352 a pumping pump, 1411 a crude oil outlet, 1412 an organic liquid outlet and 1413 a solid slag outlet.

Detailed Description

In order to better understand the technical solutions described above, the technical solutions of the embodiments of the present application are described in detail below through the accompanying drawings and the specific embodiments, and it should be understood that the embodiments of the present application and the specific features in the embodiments are detailed descriptions of the technical solutions of the embodiments of the present application, and not limit the technical solutions of the present application, and the embodiments of the present application and the technical features in the embodiments of the present application may be combined with each other without conflict.

As shown in fig. 1 to 16, an embodiment of the present application provides a skid-mounted kitchen waste treatment system, including: a first casing 110 and a second casing 120; a slurrying process assembly disposed within the first housing 110 and a recycling assembly disposed within the second housing 120; the pulping treatment assembly comprises a decomposer 131, an impurity separator 132 and a discharge chute 133, wherein a slurry outlet pipe 1314 of the decomposer 131 is communicated with the discharge chute 133, and a slag outlet pipe 1315 of the decomposer 131 is communicated with the impurity separator 132; wherein, retrieve the subassembly and include three-phase centrifuge 141, reservoir 142 and thick grease buffer tank 143, discharge tank 133 communicates to three-phase centrifuge 141, and thick grease export 1411 of three-phase centrifuge 141 communicates to thick grease buffer tank 143, and the organic liquid export 1412 of three-phase centrifuge 141 communicates to reservoir 142.

According to the skid-mounted kitchen waste treatment system, the skid-mounted kitchen waste treatment system comprises a first box body 110, a second box body 120, a pulping treatment assembly and a recovery assembly, wherein the pulping treatment assembly comprises a decomposer 131, an impurity separator 132 and a discharge chute 133, the recovery assembly comprises a three-phase centrifuge 141, a liquid storage tank 142 and a crude oil buffer tank 143, during the working process, kitchen waste is firstly conveyed into the decomposer 131 of the pulping treatment assembly in the first box body 110, the decomposer 131 can grind, crush and decompose the kitchen waste to form pulpified kitchen waste, the pulpified kitchen waste can be conveyed to the discharge chute 133 for storage through a pulp outlet pipe 1314 on the decomposer 131 after being pulpified to form a pulp, impurities which cannot be pulpified in the kitchen waste can be conveyed into the impurity separator 132, the impurity separator 132 can further treat the impurities, and solid slag and liquid are separated; further, the pulped kitchen waste in the discharge chute 133 is supplied to the three-phase centrifuge 141, so that the three-phase centrifuge 141 can produce three products based on different material products, when the kitchen waste is supplied to the three-phase centrifuge 141, coarse grease liquid with grease as a main component, organic phase liquid with organic matter and water as a main component, and solid residue waste with solid residue as a main component can be produced, further the coarse grease liquid can be stored in the coarse grease buffer tank 143, the organic phase liquid can be stored in the liquid storage tank 142, and the solid residue waste can be conveyed out of the second tank 120. Based on the above, the crude oil liquid can be reused only by transferring the crude oil liquid through the crude oil buffer tank 143, for example, biodiesel and industrial oil recycling products can be prepared; the organic phase liquid can be used as process water, and can be directly supplied and infused into a leachate treatment system or an external sewage treatment plant for cooperative treatment in consideration of low yield of the organic phase liquid, and is discharged after reaching standards; the solid residue garbage can be further recycled, such as organic fertilizer, insect feed or biological fertilizer. Based on this sled dress formula kitchen garbage processing system that provides through this application embodiment can carry out slurrying and edulcoration to kitchen garbage earlier, then carries out three-phase centrifugation again and carries out classification to kitchen garbage, then stores respectively, can carry out recycle subsequently, so set up the throughput that can greatly reduced kitchen garbage landfill or burn, can reduce kitchen garbage's processing cost, realize the multiplexing of resource simultaneously.

The skid-mounted kitchen waste treatment system provided by the embodiment of the application comprises a first box body 110 and a second box body 120, wherein a slurrying treatment assembly is arranged in the first box body 110, a recovery assembly is arranged in the second box body 120, the skid-mounted kitchen waste treatment system can be modularized based on the slurrying treatment assembly, the skid-mounted kitchen waste treatment system is convenient to transport and assemble, the skid-mounted kitchen waste treatment system can be directly arranged on a vehicle, and the skid-mounted kitchen waste treatment system can be driven to move through the movement of the vehicle, so that the skid-mounted kitchen waste treatment system is more flexible to apply and can treat kitchen waste at any time and any place.

As shown in fig. 2 and 3, in one possible embodiment, the slurrying process assembly further comprises: a process water tank 134 disposed in the first housing 110; the impurity separator 132 includes a liquid outlet 1324 and a discharge outlet 1325, the discharge outlet 1325 is connected to the outside of the first tank 110, and the liquid outlet 1324 is connected to the process water tank 134.

In this technical solution, the pulping process assembly may further include a process water tank 134, where the process water tank 134 may be used for receiving liquid water separated by the impurity separator 132, and impurities may be output to the outside of the first box 110 through a discharge outlet 1325, based on which the pulping process assembly may prepare organic matters in kitchen waste into organic slurry, and separate non-biodegradable light components (plastic, wood and bamboo) and heavy components (glass, sand stone, bone, metal, shell, etc.), and the specific working process is:

after pulping the kitchen waste into organic matter slurry in the decomposer 131, pumping the organic matter slurry into a discharge chute 133 for storage; the non-degradable impurities output through the slag discharge pipe 1315 of the decomposer 131 are supplied to the impurity separator 132, and after the impurities are separated from the slag in the impurity separator 132, the solid slag can be conveyed out of the first tank 110 for incineration or landfill disposal. The filtrate separated by the impurity separator 132 enters the process water tank 134 to be used as process water, so that the supply amount of external water sources in the kitchen waste treatment process is reduced, and even the external water sources are not needed.

It will be appreciated that the process water tank 134 may be connected to the decomposer 131 to supply process water to the decomposer 131, such arrangement may facilitate pulping of kitchen waste.

As shown in fig. 2, in one possible embodiment, the process water tank 134 includes: a tank body; the stirrer is arranged in the tank body. In this technical scheme, further provided is the structure constitution of technology basin 134, and technology basin 134 has included cell body and agitator, through setting up the agitator in the cell body, can make the liquid that stores in the cell body as far as possible balanced, can reduce the probability that produces the sediment in the cell body, improves the utilization ratio of cell body.

As shown in fig. 2, in one possible embodiment, the slurrying process assembly further comprises: a impurity remover 135 for straining the slurry in the discharge chute 133; the impurity removal storage tank 136 is used for being communicated with a discharge port 1325 of the impurity separator 132; a steam heater 137, wherein the liquid output end of the impurity remover 135 is communicated with the steam heater 137; the output end of the steam heater 137 is communicated with the sterilizing tank 138, and the unloading tank 133 is communicated with the three-phase centrifuge 141 through the sterilizing tank 138; and an output pump 139, wherein the output pump 139 is communicated with the sterilizing tank 138 and is used for conveying the slurry in the sterilizing tank 138 to a conveying three-phase centrifuge 141.

In this technical scheme, the pulping process assembly may further include a trash remover 135 and a trash storage tank 136, where the trash remover 135 may further process the slurried kitchen waste stored in the discharge tank 133, and the trash remover 135 may remove fine heavy impurities (fine shell, glass, ceramic tile, sand stone, etc.) and fine light impurities (fine plastic tile, capsicum skin, capsicum seed, etc.) which are difficult to biodegrade in the organic slurry of the kitchen waste, so as to prevent the trash from wearing moving equipment and pipelines and reduce the load of the subsequent processing system.

In this technical scheme, the impurity removing assembly may further include an impurity removing storage tank 136, and impurities separated by the impurity separator 132 may be stored through the arrangement of the impurity removing storage tank, and the solid residue may be transported to the outside of the first tank 110 for landfill or incineration.

As shown in fig. 2, in this technical solution, the slurrying processing assembly further comprises: steam heater 137 and sterilization groove 138, after the thick liquids kitchen garbage has removed tiny heavy impurity and tiny light impurity through edulcoration subassembly, can disinfect through the subassembly that disinfects, in the concrete course of the work, thick liquids kitchen garbage after having removed tiny heavy impurity and tiny light impurity carries to sterilization groove 138 through steam heater 137, thick liquids kitchen garbage mixes the sterilization through steam heater 137 and high temperature steam, the thick liquids kitchen garbage after disinfecting is stored into sterilization groove 138 again, so set up and make the utilization of kitchen garbage safer, the follow-up recycle to biodiesel, industrial grease etc. resource products of being convenient for.

It can be appreciated that the sterilization tank 138 can store the sterilized slurried kitchen waste, and when recycling the biodiesel, industrial grease and other recycling products, the slurried waste in the sterilization tank 138 can be directly sold to recycling manufacturers, and the slurried waste in the sterilization tank 138 can be conveyed to a recycling system for recycling resources.

It is understood that the sterilization assembly can raise the temperature of the slurry, precipitate grease contained in the slurry, and simultaneously perform a sterilization function to reduce the number of harmful pathogenic bacteria. The kitchen waste slurry after impurity removal is heated to 70-90 ℃ by a steam heater 137 and enters a sterilizing tank 138 for cooking and sterilizing, so that grease can be fully separated out, and preparation for extracting oil can be performed.

In one possible embodiment, the steam heater 137 includes: the liquid output end of the impurity removing machine 135 is communicated with one end of the medium pipeline, and the other end of the medium pipeline is communicated with the sterilizing tank 138; and the steam conveying pipeline is communicated to one side of the medium pipeline.

In this technical solution, there is further provided a structure of the steam heater 137, the steam heater 137 includes a medium pipe and a steam conveying pipe, the slurried kitchen waste after removing the fine heavy impurities and the fine light impurities enters the sterilizing tank 138 through the medium pipe, and in this process, high temperature steam can be supplied from the side direction of the medium channel, and the high temperature steam can be mixed with the slurried waste for sterilization.

It will be appreciated that in order to increase the sterilization efficiency, a grating may be provided in the medium conduit to increase the contact efficiency of the steam with the slurried waste.

As shown in fig. 2, in one possible embodiment, the impurity removal assembly further comprises: heat exchange pump 1301, heat exchange pump 1301 is used for pumping the liquid output by the liquid output end of impurity removing machine 135 to steam heater 137, and preheating the liquid.

In this technical scheme, edulcoration subassembly can also include heat transfer pump 1301, so set up and be considered, the temperature of slurried kitchen garbage probably is lower, if directly supply with slurried kitchen garbage to the subassembly of disinfecting, it is low to probably lead to the sterilization efficiency, can lead to the steam quantity increase simultaneously, it is too high to lead to the sterilization cost probably, based on this, can preheat slurried kitchen garbage through heat transfer pump 1301, improve the initial temperature of slurried kitchen garbage who supplies into steam heater 137, and then can improve sterilization efficiency, reduce steam use.

As shown in fig. 10 to 13, in one possible embodiment, the impurity remover 135 includes: a body 1351; a plurality of grids arranged in the machine body 1351 to form a plurality of filtering spaces, wherein a liquid output end is arranged on the machine body 1351 and is communicated with the filtering spaces; a detachable cover plate connected to the body 1351 for covering the plurality of gratings; a pump 1352 is connected to the housing 1351.

In this technical scheme, the structure composition of the impurity removing machine 135 is further improved, the impurity removing machine 135 can comprise a machine body 1351, a plurality of grids and a pumping pump 1352, in the working process, the pulpified kitchen waste can be pumped between the grids through the power of the pumping pump 1352, the pulpified kitchen waste can be filtered through the grids, liquid can be conducted to the outside of the machine body 1351 through a liquid output end and is output into the process water tank 134, solid slag can be stored between the grids, and the solid slag can be removed by opening the cover plate.

In one possible embodiment, the recovery assembly further comprises: and a conveying member, to which the solid slag outlet 1413 of the three-phase centrifuge 141 is communicated, for conveying the solid slag separated by the three-phase centrifuge 141 to the outside of the second tank 120.

In this technical scheme, the recycling component may further include a conveying member, and the solid residue garbage may be conveyed to the outside of the second case 120 through the conveying member, and this part of the solid residue garbage may be further recycled, for example, to prepare an organic fertilizer, an insect feed or a bio-fertilizer.

In one possible embodiment, the transmission element comprises: one end of the slag fixing outlet 1413 is communicated with the chute, and the other end is communicated with the outside of the second box 120.

In this technical scheme, further provided the style of transmission piece, can transport solid sediment rubbish through the chute, transport efficiency is high and the fault rate is low.

As shown in fig. 1, in one possible embodiment, the skid-mounted kitchen waste treatment system further includes: the slag fixing hopper 144 is arranged outside the second box body 120, and one end of the transmission piece is communicated to the slag fixing hopper 144.

In this technical scheme, sled dress formula kitchen garbage processing system can also include solid sediment fill 144, can store and cache solid sediment rubbish through solid sediment fill 144, is convenient for solid sediment rubbish's utilization and transport.

In one possible embodiment, the skid-mounted kitchen waste treatment system further comprises: a partition 150 disposed in the second casing 120 to partition the second casing 120 into a first accommodation space and a second accommodation space, and a recovery assembly disposed in the second casing 120;

the control assembly 10 is arranged in the second accommodating space, and the control assembly 10 is connected with the slurrying processing assembly and the recycling assembly and is used for controlling the starting and stopping of the slurrying processing assembly and the recycling assembly; and a power distribution assembly 170 disposed within the second receiving space for powering the slurry processing assembly and the recovery assembly.

As shown in fig. 4, in this technical scheme, the partition board 150 may be further disposed in the second box 120, the second box 120 may be separated into two accommodation spaces by the partition board 150, and the functional devices of the recycling component for garbage disposal are disposed in the first accommodation space, and the control component 10 and the power distribution component 170 for controlling and distributing are disposed in the second accommodation space, so that the installation positions of the control component 10 and the power distribution component 170 are provided for the control component 10 and the power distribution component 170 by the second box 120, so that the device is modularized, and the skid-mounted kitchen garbage disposal system is convenient for transportation and assembly of the skid-mounted kitchen garbage disposal system, for example, the skid-mounted kitchen garbage disposal system provided in the embodiment of the application may be directly disposed on a vehicle, and the skid-mounted kitchen garbage disposal system may be driven to move by the movement of the vehicle, so that the application of the skid-mounted kitchen garbage disposal system is more flexible, and kitchen garbage may be disposed at any time and any place. Meanwhile, the function of spacing functional devices and electrical devices can be achieved through the arrangement of the partition plate 150, so that the skid-mounted kitchen waste treatment system is safer and more convenient to use.

In this technical solution, the power distribution assembly 170 and the control assembly 10 are disposed in the second casing 120 in consideration of fewer functional devices disposed in the second casing 120 than the first casing 110, so that space utilization may be improved.

In a possible embodiment, a switching port is formed on the second box 120, and the switching port is communicated with the liquid storage tank 142; and an output pipe connected to the adapter for outputting the medium in the liquid storage tank 142 to the outside of the second case 120.

In this technical scheme, the second box 120 is further provided with a transfer port, and the skid-mounted kitchen waste treatment system may further include an output pipeline, where the output pipeline is connected to the transfer port, so that the output of the organic phase liquid in the liquid storage tank 142 can be achieved.

In one possible embodiment, the skid-mounted kitchen waste treatment system further comprises: a crude oil storage tank provided outside the second casing 120 and connected to the crude oil cache tank 143; and an oil discharge pump provided between the crude oil storage tank and the crude oil buffer tank 143.

In this technical scheme, sled dress formula kitchen garbage processing system can also include crude oil storage jar and oil pump, so set up and be considered that the output of crude oil liquid is great, therefore when storing crude oil liquid through the crude oil buffer tank 143 in the second box 120, the storage pressure of crude oil buffer tank 143 is great, consequently can set up external crude oil storage jar outside second box 120, can only play the cushioning effect based on this crude oil buffer tank 143, turn to the storage pressure sharing to crude oil storage jar, draw the crude oil liquid in the crude oil storage jar again and can realize the multiplexing of crude oil. By the arrangement of the oil discharge pump, the crude oil liquid in the crude oil buffer tank 143 is conveniently conveyed to the crude oil storage tank.

In one possible embodiment, the skid-mounted kitchen waste treatment system further comprises: a carrier vehicle on which the first and second cases 110 and 120 are to be disposed; the hoisting piece is arranged on the side wall of the first box body 110 and/or the second box body 120; wherein the first and second cases 110 and 120 are containers.

In this technical scheme, sled dress formula kitchen garbage processing system can also include the carrier vehicle, can directly place first box 110 and second box 120 on the carrier vehicle, can drive first box 110 and second box 120 through the carrier vehicle removal. The first and second cases 110 and 120 are containers, which can improve the strength of the cases, and the case is conveniently lifted by arranging the lifting members on the containers, so that the first and second cases 110 and 120 are conveniently transferred onto the carrier.

As shown in fig. 5 and 6, in one possible embodiment, the decomposer 131 comprises: a first housing 1311, a top of the first housing 1311 being opened to form a feed port; a rotor disposed within the first housing 1311; a driving motor 1312 disposed outside the first housing 1311 and connected to the rotor through a belt; a stirring member 1313 connected to the rotor and located in the first housing 1311; wherein the slurry outlet pipe 1314 and the slag discharge pipe 1315 are communicated with the accommodating space in the first housing 1311.

In this technical scheme, further provided the structure of decomposer 131, decomposer 131 has included first casing 1311, rotor, driving motor 1312 and stirring piece 1313, and driving motor 1312 passes through the belt and drives the rotor rotation in the course of the work, and the rotor drives stirring piece 1313 again and rotates, and stirring piece 1313 can produce the contact with kitchen garbage, makes kitchen garbage slurrying through grinding and stirring's mode.

The decomposer 131 can treat kitchen waste with high organic matter content, can integrate bag breaking, pulping and impurity separation, is particularly suitable for directly treating kitchen waste which is not sorted, and avoids organic matter, grease loss and environmental pollution caused by pretreatment. Meanwhile, the hydraulic fluffing is relatively soft, and the damage effect on impurities such as plastics, ceramic glass and the like in the kitchen waste is far smaller than that of mechanical pulping equipment, so that sand and fine plastics mixed into the slurry are obviously reduced. Is beneficial to ensuring the purity and high yield of organic matters in the slurry.

As shown in fig. 7 to 9, in one possible embodiment, the impurity separator 132 includes: a second housing 1321, a slag discharge pipe 1315 communicating to the second housing 1321; a lifting housing 1322 in communication with the second housing 1321; a lifting auger 1323 disposed within the lifting housing 1322; wherein, the discharge outlet 1325 is provided on the lifting housing 1322, and the liquid outlet 1324 is provided on the second housing 1321.

In this technical scheme, further provided the structure of impurity separating centrifuge 132 is constituteed, impurity separating centrifuge 132 includes second casing 1321, promotes casing 1322 and promotes the flood dragon, and the impurity of output via decomposer 131 can directly supply into second casing 1321, through promoting the promotion of auger 1323, and non-biodegradable's light component (plastics, wood bamboo) and heavy component (glass, grit, bone, metal, shell) will promote the top of promotion casing 1322 under the effect of promoting auger 1323, and liquid water will deposit in second casing 1321, can realize solid sediment and liquid water's separation based on this.

In one possible embodiment, the skid-mounted kitchen waste treatment system further comprises: a discharge pump 1302 for delivering slurry in the slurry outlet pipe 1314 to the discharge chute 133; the impurity removing pump 1303 is used for supplying the slag output through the slag discharging pipe 1315 to the impurity separator 132.

In this technical scheme, the skid-mounted kitchen waste treatment system may further include a discharge pump 1302 and an impurity removal pump 1303, and by setting the discharge pump 1302, the slurry waste produced by the decomposer 131 is conveniently conveyed to the discharge chute 133, so that the conveying efficiency of the slurry waste can be improved; by the arrangement of the impurity removing pump 1303, impurities which cannot be slurried by the decomposer 131 are conveniently conveyed into the impurity separator 132.

In one possible embodiment, the skid-mounted kitchen waste treatment system further comprises: a feed pump 145 is provided in the second casing 120, and an output end of the feed pump 145 is connected to an input end of the three-phase centrifuge 141.

In this embodiment, since the three-phase centrifuge 141 is particularly suitable for treating slurried garbage, a supply pump 145 may be provided, and the slurried garbage may be pumped to the three-phase centrifuge 141 by the supply pump 145, thereby facilitating the utilization of kitchen garbage.

In the present utility model, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more, unless expressly defined otherwise. The terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; "coupled" may be directly coupled or indirectly coupled through intermediaries. 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.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "front", "rear", etc. are based on the directions or positional relationships 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 devices or units referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model.

In the description of the present specification, the terms "one embodiment," "some embodiments," "particular embodiments," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. Sled dress formula kitchen garbage processing system, characterized in that includes:

a first case and a second case;

the pulping processing assembly is arranged in the first box body, and the recycling assembly is arranged in the second box body;

the pulping treatment assembly comprises a decomposer, an impurity separator and a discharge chute, wherein a pulp outlet pipe of the decomposer is communicated with the discharge chute, and a slag outlet pipe of the decomposer is communicated with the impurity separator;

the recycling assembly comprises a three-phase centrifugal machine, a liquid storage tank and a crude oil buffer tank, the discharge tank is communicated to the three-phase centrifugal machine, a crude oil outlet of the three-phase centrifugal machine is communicated to the crude oil buffer tank, and an organic liquid outlet of the three-phase centrifugal machine is communicated to the liquid storage tank.

2. The skid-mounted kitchen waste treatment system of claim 1, wherein said slurrying treatment assembly further comprises:

the process water tank is arranged in the first box body;

the impurity separator comprises a liquid outlet and a discharge outlet, the discharge outlet is communicated to the outside of the first box body, and the liquid outlet is communicated to the process water tank.

3. The skid-mounted kitchen waste treatment system of claim 1, wherein said slurrying treatment assembly further comprises:

the impurity remover is used for carrying out rough filtration on the slurry in the discharge chute;

the impurity removal storage tank is communicated with a discharge port of the impurity separator;

the liquid output end of the impurity removing machine is communicated with the steam heater;

the output end of the steam heater is communicated with the sterilizing tank, and the discharge tank is communicated with the three-phase centrifuge through the sterilizing tank;

and the output pump is communicated with the sterilization tank and is used for conveying the slurry in the sterilization tank to a conveying three-phase centrifuge.

4. The skid-mounted kitchen waste treatment system of claim 3, wherein the trash remover comprises:

a body;

the grids are arranged in the machine body to form a plurality of filtering spaces, and the liquid output end is arranged on the machine body and is communicated with the filtering spaces;

the detachable cover plate is connected to the machine body and used for covering a plurality of grids;

and the pumping pump is communicated with the machine body.

5. The skid-mounted kitchen waste treatment system of claim 1, wherein said recovery assembly further comprises:

the solid slag outlet of the three-phase centrifugal machine is communicated to the transmission piece, and the transmission piece is used for conveying solid slag processed by the three-phase centrifugal machine to the outside of the second box body.

6. The skid-mounted kitchen waste treatment system of claim 5, further comprising:

the slag fixing hopper is arranged outside the second box body, and one end of the transmission piece is communicated to the slag fixing hopper.

7. The skid-mounted kitchen waste treatment system of claim 1, further comprising:

the separation plate is arranged in the second box body and divides the second box body into a first accommodating space and a second accommodating space, and the recovery assembly is arranged in the second box body;

the control assembly is arranged in the second accommodating space, connected with the slurrying processing assembly and the recycling assembly and used for controlling the starting and stopping of the slurrying processing assembly and the recycling assembly;

and the power distribution assembly is arranged in the second accommodating space and is used for electrifying the slurrying processing assembly and the recycling assembly.

8. The skid-mounted kitchen waste treatment system of claim 1, further comprising:

the first box body and the second box body are used for being arranged on the bearing vehicle;

the hoisting piece is arranged on the side wall of the first box body and/or the side wall of the second box body;

wherein the first box and the second box are containers.

9. The skid-mounted kitchen waste treatment system of any of claims 1 to 8, wherein said decomposer comprises:

the top of the first shell is opened to form a feed port;

a rotor disposed within the first housing;

the driving motor is arranged outside the first shell and connected with the rotor through a belt;

the stirring piece is connected with the rotor and is positioned in the first shell;

wherein, the pulp outlet pipe and the slag discharge pipe are communicated with the accommodating space in the first shell.

10. The skid-mounted kitchen waste treatment system of any of claims 1 to 8, wherein the impurity separator comprises:

the slag discharging pipe is communicated to the second shell;

a lifting shell communicated with the second shell;

the lifting auger is arranged in the lifting shell;

wherein, the discharge gate is offered on the promotion casing, the leakage fluid dram is offered on the second casing.

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