CN104690072A

CN104690072A - Kitchen waste recovery and treatment system

Info

Publication number: CN104690072A
Application number: CN201510094127.9A
Authority: CN
Inventors: 周旭彪; 冯宝林; 于金田
Original assignee: Shenzhen Green's Smart Science And Technology Ltd
Current assignee: Shenzhen Green's Smart Science And Technology Ltd
Priority date: 2015-03-03
Filing date: 2015-03-03
Publication date: 2015-06-10

Abstract

The invention discloses a kitchen waste recovery and treatment system. The kitchen waste recovery and treatment system comprises a waste storage tank, a crusher, a screw press, a first dryer, a fertilizer storage tank, an oil-water separator, an oil storage tank, a conveying mechanism, a screw granulator and a second dryer, wherein a discharging hole of the waste storage tank is communicated with one end of the crusher through the conveying mechanism, the other end of the crusher is connected with a feeding hole of the screw press, a slag hole of the screw press is communicated with one end of the first dryer through the conveying mechanism, the other end of the first dryer is communicated with one end of the screw granulator through the conveying mechanism, the other end of the screw granulator is connected with one end of the second dryer, the other end of the second dryer is connected with the fertilizer storage tank, a filtering water outlet of the waste storage tank and an oil outlet hole of the screw press are connected with the oil-water separator through connecting pipes, and the oil-water separator is communicated with the oil storage tank through an oil pipe. An organic fertilizer prepared by recycling kitchen waste is high in quality.

Description

A kind of changing food waste recovery and processing system

Technical field

The present invention relates to a kind of changing food waste recovery and processing system.

Background technology

Along with the fast development of industry, national income progressively improves, and diets tend is abundant and abundant, and on dining table, the phenomenon increased appears in remnant food amount.

The direct landfill of changing food waste, can contaminated soil and underground water.And changing food waste contains large quantity of moisture, in transport or landfill process, moisture may be caused to flow out, and the moisture of outflow is smelly, for providing home with the insect of infectiousness germ or mouse, causes severe contamination to the environment of surrounding.

If changing food waste burning disposal, because changing food waste moisture content is high, together with other house refuse during burning disposal, poisonous bioxin gas can be produced.

There is a kind of comprehensive food waste treatment system on the market, comprise feed arrangement, pulverize extruding equipment for separating liquid from solid, solid hot-air drying unit and oil wiper, realize changing food waste process and water-oil separating.But, pulverize in this comprehensive food waste treatment system after extruding equipment for separating liquid from solid is first pulverized changing food waste and carry out Separation of Solid and Liquid again, after pulverizing, fertilizer nutrient can flow out along with liquid, the quality of the organic fertilizer causing changing food waste to make reduces, and because changing food waste water content is high, one time solid-liquid separation efficiency is not high, can improve the energy consumption of solid hot-air drying unit.

Summary of the invention

The object of the present invention is to provide the changing food waste recovery and processing system that a kind of energy consumption is low, organic fertilizer quality is high.

The technical scheme that changing food waste recovery and processing system disclosed by the invention adopts is:

A kind of changing food waste recovery and processing system comprises rubbish storage case, pulverizer, pressafiner, first dryer, fertilizer storage bin, oil water separator, fuel reserve tank, connecting gear, spiral comminutor and the second dryer, be provided with bottom described rubbish storage case and filter out the mouth of a river, side is provided with discharging opening, the discharging opening of rubbish storage case is communicated with by connecting gear with one end of pulverizer, described pressafiner is provided with slag notch, oil outlet and enter to squeeze mouth, the other end of described pulverizer is connected with the mouth that enters to squeeze of squeezer, the slag notch of described pressafiner is communicated with by connecting gear with one end of the first dryer, the other end of described first dryer is communicated with by connecting gear with spiral comminutor one end, the other end of described spiral comminutor is connected with one end of the second dryer, the other end of described second dryer is connected with fertilizer storage bin, described rubbish storage case filter out the mouth of a river, the oil outlet of pressafiner is connected with oil water separator by tube connector, described oil water separator is communicated with by oil pipe with fuel reserve tank.

Preferably; described spiral comminutor comprises upper shell, lower house, shaft, stirring motor, the roller be arranged side by side and roller drive motors; described upper shell is provided with granulation entrance; described lower house is provided with granulation outlet; described upper shell is communicated with up and down with lower house; described shaft is vertically arranged in upper shell; described shaft is provided with spiral blade; stirring motor rotates for driving shaft; roller drive motors is used for driving rolls and rotates, described in the roller that is arranged side by side be located at the below of shaft.

Preferably, described rubbish storage case comprises casing, pushes motor and push screw rod, described propelling movement screw rod is provided with spiral helicine groove, described propelling movement screw rod is located in casing, the output pushing motor is located in one end of described propelling movement screw rod, described casing top is provided with feeding mouth, tank floor is located at the described mouth of a river that filters out, described discharging opening is located at body side, push driven by motor and push bolt rotary, when pushing bolt rotary, by spiral helicine groove, changing food waste is taken to the discharge outlet of body side.

Preferably, described pulverizer comprises pulverizes motor, pulverizing casing and main shaft, described pulverizing casing is provided with to be pulverized entrance and pulverizes outlet, described pulverizing motor is used for drive shaft and rotates, described main shaft is located at and is pulverized in casing, and main shaft is provided with reel, is equipped with transverse axis in reel, described transverse axis is also arranged with main axis parallel, and described transverse axis is provided with some hammers.

Preferably, described oil water separator is provided with inlet opening, apopore, outage and dividing plate, described dividing plate is located in the middle part of oil water separator, and described dividing plate is provided with intercommunicating pore, and described intercommunicating pore both sides are provided with grid, side, described inlet opening and apopore side are equipped with grid, described inlet opening and apopore are positioned at sustained height, and described outage is higher than inlet opening, and described intercommunicating pore is lower than inlet opening, described outage is connected with fuel reserve tank by oil pipe, and described apopore is discharged by water pipe.

Preferably, described connecting gear comprises the first screw spreader, second screw spreader and the 3rd screw spreader, described first screw spreader comprises transmission cylinder, transmit motor and conveyor screw, described transmission cylinder is provided with and transmits entrance and transmit outlet, the one end of transmitting cylinder is located at by described transmission motor, described conveyor screw is located at and is transmitted in cylinder and be connected to the output transmitting motor, described first screw spreader, second screw spreader is identical with the 3rd screw spreader structure, the transmission entrance of described first screw spreader and the discharging opening of rubbish storage case are tightly connected, the transmission outlet of the first screw spreader is connected with the pulverizing inlet seal of pulverizer, transmission entrance and the slag notch of described second screw spreader are tightly connected, the transmission outlet of the second screw spreader is tightly connected with one end of the first dryer, the described transmission entrance of the 3rd screw spreader and the other end of the first dryer are tightly connected, the transmission outlet of the 3rd screw spreader is connected with granulation inlet seal.

Preferably, described first dryer comprises dries body, transmitting power mechanism and air-heater, described transmitting power mechanism comprises conveying motor and rotates external member, described conveying motor rotates for driving to rotate external member and dry body, described air-heater is tightly connected with oven dry body, described oven dry body is provided with dries entrance and dries outlet, and described second dryer is identical with the structure of the first dryer.

Preferably, described changing food waste recovery and processing system also comprises control unit, described control unit respectively with propelling movement motor, pulverize motor, squeeze motor, stirring motor, roller drive motors, carry the transmission motor of motor and screw spreader to be electrically connected, the casing upper end of described rubbish storage case is provided with infrared sensor, be respectively equipped with pressure sensor in first screw spreader, the second screw spreader and the 3rd screw spreader, described infrared sensor, pressure sensor are electrically connected with control unit respectively.

Preferably, described first dryer also comprises waste gas and portals and air hand-hole, described first dryer connects the first energy recovery mechanism, described first energy recovery mechanism is provided with first passage and second channel, described first passage is provided with waste gas inlet port and outlet port, filter core and radiating tube is provided with between described waste gas inlet port and outlet port, described second channel is provided with air inlet port and air outlet, described first passage and second channel carry out energy exchange by radiating tube, the waste gas inlet port of described first passage portals with the waste gas of the first dryer and is communicated with, the air outlet of described second channel is communicated with the air hand-hole of the first dryer, described second dryer is identical with the structure of the first dryer, described second dryer connects the second energy recovery mechanism, described second energy recovery mechanism is identical with the structure of the first energy recovery mechanism.

Beneficial effect disclosed by the invention is:

Described changing food waste recovery and processing system is by tentatively filtering at rubbish storage case, filtering large quantity of moisture and oil, the nutrient in changing food waste is avoided to run off with moisture and oil in a large number after pulverizer, pressafiner, and changing food waste recovery and processing system filters moisture and oil through twice, contribute to the moisture clearance rate improving changing food waste, reduce the energy consumption of the first and second dryers.

The roller of described spiral comminutor by being arranged side by side, rolls changing food waste, granulation further, produces the granular fertilizer of required size.

Described control unit carries out information gathering by the pressure sensor arranged in the infrared sensor that arranges the casing upper end of described rubbish storage case and the first screw spreader, the second screw spreader and the 3rd screw spreader, the running of each mechanism of conservative control, improve the percent of automatization of this changing food waste recovery and processing system, reduce the energy consumption of this changing food waste recovery and processing system.

Accompanying drawing explanation

Fig. 1 is the structural representation of changing food waste recovery and processing system of the present invention;

Fig. 2 is the structural representation of rubbish storage case of the present invention;

Fig. 3 is the structural representation of pulverizer of the present invention;

Fig. 4 is the structural representation of pressafiner of the present invention;

Fig. 5 is the structural representation of spiral comminutor of the present invention;

Fig. 6 is the structural representation of the present invention first screw spreader;

Fig. 7 is the structural representation of oil water separator of the present invention;

Fig. 8 is the structural representation of the present invention first energy recovery mechanism;

Fig. 9 is the structural representation of the present invention first dryer;

Figure 10 is the workflow schematic diagram of changing food waste recovery and processing system of the present invention.

Detailed description of the invention

Below in conjunction with specific embodiment and Figure of description the present invention be further elaborated and illustrate:

Please refer to Fig. 1; changing food waste recovery and processing system, comprises rubbish storage case 12, connecting gear, pulverizer 13, pressafiner 14, first dryer 15, first energy recovery mechanism 16, spiral comminutor 17, second dryer 18, second energy recovery mechanism 19, fertilizer storage bin 20, oil water separator 21, fuel reserve tank 22 and waste water tube connector 23.Described connecting gear comprises the first screw spreader 111, second screw spreader 112 and the 3rd screw spreader 113.

Please refer to Fig. 2, rubbish storage case 12 comprises casing 121, pushes motor 122 and push screw rod 123, described propelling movement screw rod 123 is provided with spiral helicine groove, described propelling movement screw rod is located in casing 121, the output pushing motor 122 is located in one end of described propelling movement screw rod 123, described casing 121 top is provided with feeding mouth 124, bottom is provided with and filters out the mouth of a river 125, side is provided with discharging opening, pushing motor 122 drives propelling movement screw rod 123 to rotate, when propelling movement screw rod 123 rotates, by spiral helicine groove, changing food waste is taken to the discharge outlet of body side.

Please refer to Fig. 3, pulverizer 13 comprises pulverizes motor 132, pulverize casing 131, main shaft 135, sheave 133 and belt pulley 134, described sheave 133 is located on the output shaft of pulverizing motor 132, described main shaft 135 is located at and is pulverized in casing 131, its one end is stretched out and is pulverized outside casing 131, this end is provided with belt pulley 134, described belt pulley 134 is connected by Belt Drive with sheave 133, sheathed axle sleeve 136 on main shaft 135, described axle sleeve 136 is provided with reel 137, transverse axis 138 is arranged in reel 137, and be arranged in parallel with main shaft 135, some hammers 139 are provided with in transverse axis 138, when pulverizing motor 132 and being rotated by belt transmission drive shaft 135, main shaft 135 drives transverse axis 138 to rotate, and then drive hammer 139 hammering changing food waste.Described pulverizing casing 131 is provided with to be pulverized entrance and pulverizes outlet.

The discharging opening of first screw spreader 111 one end and rubbish storage case 12 is tightly connected, and the other end is connected with the pulverizing inlet seal of pulverizer 13.

Please refer to Fig. 4, pressafiner 14 comprises squeezing motor, reductor 141, squeeze cage 142, bracing frame 143, base 144, oil drain pan 147, rotating shaft 149, propelling worm 145, to slag tap centrum 146 and hold-down nut 148, described squeezing cage 142 is provided with into squeezing mouth 1421, slag notch 1422 and filter screen 1423, describedly enter to squeeze mouth 1421 and be connected with the pulverizing exit seal of pulverizer 13, described rotating shaft 149 is located at and is squeezed in cage 142, described propelling worm 145 is sheathed and on rotating shaft 149, and be relatively fixed on rotating shaft 149, propelling worm 145 is provided with spiral helicine blade, the pitch of spiral blade diminishes gradually along entering to squeeze mouth 1421 to slag notch 1422 direction, one end of rotating shaft 149 is connected with reductor 141, the other end is connected with centrum 146 of slagging tap, described centrum 146 of slagging tap is fixed on rotating shaft 149 by hold-down nut 148, described centrum 146 of slagging tap is located at the slag notch 1422 squeezing cage 142, the position of centrum 146 of slagging tap is regulated namely to slag tap the distance of centrum 146 and slag notch 1422, squeezing intensity or the crushing strength of pressafiner 14 can be set, squeezing cage 142 is located on base 144 by bracing frame 143, squeeze cage 142 and have oil drain pan 147, described oil drain pan 147 is provided with oil outlet, described oil outlet is connected with oil water separator 21 by waste water tube connector 23, propelling worm 145 extrudes changing food waste and obtains profit and flow in oil drain pan 147 through filter screen 1423 in squeezing cage 142, flow in oil water separator 21 through waste water tube connector 23.

First dryer 15 is identical with the structure of the second dryer 18, for carrying out drying and processing for changing food waste, first dryer comprises dries body 151, transmitting power mechanism 152, air-heater 153 and wheel holding mechanism 154, please refer to Fig. 9, described oven dry body 151 comprises rotating cylinder 1511, left cover body 1512 and right cover body 1513, spiral helicine groove is provided with in described rotating cylinder 1511, described left cover body 1512 rotationally, be connected to one end of rotating cylinder 1511 hermetically, described right cover body 1513 rotationally, be connected to the other end of rotating cylinder 1511 hermetically, described left cover body 1512 is provided with hot-air mouth, dry entrance 1514 and air hand-hole 1515, described right cover body 1513 is provided with oven dry outlet 1516 and waste gas portals 1517, described air-heater 153 is tightly connected with oven dry body 151 by the hot-air mouth of left cover body 1512, transmitting power mechanism 152 comprises conveying motor 1521, decelerator 1522 and rotation external member 1523, described rotation external member 1523 is fixedly connected with rotating cylinder 1511, described decelerator 1522 respectively with conveying motor 1521, rotate external member 1523 to be in transmission connection, described wheel holding mechanism 154 is for supporting rotating cylinder 1511, and rotate together with rotating cylinder 1511, described wheel holding mechanism 154 comprises bracket and ring bodies, described ring bodies is connected by bearing with bracket, described ring bodies and bracket can relatively rotate, ring bodies is fixedly connected with rotating cylinder 1511.

Described second screw spreader 112 one end and slag notch 1422 are tightly connected, and the other end is connected with the oven dry inlet seal of the first dryer 15.

Please refer to Fig. 5, spiral comminutor 17 comprises upper shell 172, lower house 171, shaft 175, stirring motor, the roller 173 be arranged side by side, 174 and roller drive motors, stirring motor and roller drive motors not shown in the drawings, described shaft 175 is vertically arranged in upper shell 172, described shaft 175 is provided with spiral blade, stirring motor rotates for driving shaft 175, when having changing food waste to fall in upper shell 172, changing food waste is sent in lower house 171 by shaft 175, roller drive motors is used for driving rolls and rotates, the described roller 173 be arranged side by side, 174 belows being located at shaft 175, described roller 173, 174 surfaces are provided with groove, for carrying out granulation to changing food waste, when the groove alignment on the groove on roller 173 and 174 surfaces, make fertiliser granulates.Described upper shell 172 is provided with granulation entrance, and lower house 171 is provided with granulation outlet, not shown.

Described 3rd screw spreader 113 one end is connected with the oven dry exit seal of the first dryer 15, and the other end is connected with granulation inlet seal.

The granulation outlet of spiral comminutor 17 is connected with the oven dry inlet seal of the second dryer 18, and the oven dry outlet of the second dryer 18 is connected with fertilizer storage bin 20.

First screw spreader 111, second screw spreader 112 is identical with the 3rd screw spreader 113 structure, now for the first screw spreader 111, its structure is disclosed, please refer to Fig. 6, first screw spreader 111 comprises transmission cylinder 114, transmit motor 115 and conveyor screw 116, the one end of transmitting cylinder 114 is located at by described transmission motor 115, conveyor screw 116 is located at and is transmitted in cylinder 114 and be connected to the output transmitting motor 115, described transmission cylinder 114 is provided with and transmits entrance 117 and transmit outlet 118, when starting transmission motor 115, transmitting motor 115 drives conveyor screw 116 to rotate, conveyor screw 116 is rotated and is transported changing food waste to transmission outlet 118 from transmission entrance 117.

Please refer to Fig. 7, oil water separator 21 is provided with inlet opening 211, apopore 212, outage 213 and dividing plate 214, described dividing plate 214 is located in the middle part of oil water separator 21, described dividing plate 214 is provided with intercommunicating pore, described intercommunicating pore both sides are provided with grid 215, and described inlet opening 211 and apopore 212 place are also provided with grid 215, and described inlet opening 211 and apopore 212 are positioned at sustained height, described outage 213 is higher than inlet opening 211, and described intercommunicating pore is lower than inlet opening 211.Outage 213 is connected with fuel reserve tank 22 by oil pipe 25, apopore 212 is connected to sewer pipe by water pipe 24, and because the density of the density ratio water of oil is little, therefore oil level is in side waterborne, oil is discharged to fuel reserve tank 22 by outage 213 and stores, and waste water is discharged to sewer pipe by water pipe 24.

First energy recovery mechanism 16 is identical with the structure of the second energy recovery mechanism 19, now illustrate with the first energy recovery mechanism 16, please refer to Fig. 8, first energy recovery mechanism 16 is provided with first passage 161 and second channel 162, described first passage 161 is for passing through for the waste gas in the first dryer 15, described second channel 162 is for passing through for fresh air, described first passage 161 is provided with waste gas inlet port 163 and outlet port 164, filter core 167 and radiating tube 168 is provided with between described waste gas inlet port 163 and outlet port 164, in first passage 161, the below of filter core 167 is provided with dust collection mouth 169, operationally, this dust collection mouth 169 is closed condition, when needing the dust clearing up filter core 167 filtration, open dust collection mouth 169, discharge dust, described second channel 162 is provided with air inlet port 165 and air outlet 166, the waste gas inlet port 163 of described first passage 161 portals with the waste gas of the first dryer 15 and is communicated with, the air outlet 166 of described second channel 162 is communicated with the air hand-hole of the first dryer 15, when the waste gas in the first dryer 15 enters first passage 161 through waste gas inlet port 163, first at filter core 167 place Chalk-dust filtering, the fresh air passed into through air inlet port 165 in radiating tube 168 place and second channel 162 carries out heat exchange, waste gas after Chalk-dust filtering and heat exchange is discharged through outlet port 164, fresh air temperature after heat exchange raises, the first dryer 15 is accessed by air outlet 166, and then utilize its heat energy to dry changing food waste, improve the utilization rate of heat.

Please refer to Fig. 9, the workflow diagram of changing food waste recovery and processing system.

In above-described embodiment, for improving the automaticity of changing food waste recovery and processing system, increase the automatic control that control unit realizes changing food waste recovery system, described control unit can adopt single-chip microcomputer or microprocessor.Control unit respectively with propelling movement motor 122, pulverize motor 132, squeeze motor, stirring motor, roller drive motors, carry the transmission motor of motor and screw spreader to be electrically connected, control its open and close.

Casing 121 upper end of rubbish storage case 12 is provided with infrared sensor, first screw spreader 111, pressure sensor is respectively equipped with in second screw spreader 112 and the 3rd screw spreader 113, described infrared sensor, pressure sensor is electrically connected with control unit respectively, when the changing food waste deposited in rubbish storage case 12 reaches a certain amount of, infrared sensor sends signal, control unit controls to push motor 122 and works, weight and changing food waste is had in the pressure sensor senses transmission cylinder 114 of the first screw spreader 111, then control unit controls the transmission motor of the first screw spreader, pulverize motor 132 and squeezing machine operation, when there is no weight in the pressure sensor senses transmission cylinder 114 of the first screw spreader 111, then the transmission motor of control unit control propelling movement motor 122 and screw spreader 111 is out of service.When its transmission cylinder of pressure sensor senses of the second screw spreader 112 has weight and changing food waste, then control unit controls the transmission motor of the second screw spreader and the conveying machine operation of the first dryer, when the second screw spreader 112 pressure sensor senses its transmit cylinder there is no weight, then control unit control the second screw spreader 112 transmission motor, pulverize motor 132 and squeezing motor out of service.When its transmission cylinder of pressure sensor senses of the 3rd screw spreader 113 has weight and changing food waste, then control unit controls the conveying machine operation of the transmission motor of the 3rd screw spreader 113, stirring motor, roller drive motors and the second dryer, when its transmission cylinder of pressure sensor senses of the 3rd screw spreader 113 does not have weight, then to control the conveying motor of the transmission motor of the 3rd screw spreader 113 and the first dryer out of service for control unit, after 20 minutes, the conveying motor controlling stirring motor, roller drive motors and the second dryer is out of service.Not only automaticity is high, and contributes to energy-conservation.

Finally should be noted that; above embodiment is only in order to illustrate technical scheme of the present invention; but not limiting the scope of the invention; although done to explain to the present invention with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can modify to technical scheme of the present invention or equivalent replacement, and not depart from essence and the scope of technical solution of the present invention.

Claims

1. a changing food waste recovery and processing system, comprise rubbish storage case, pulverizer, pressafiner, first dryer, fertilizer storage bin, oil water separator and fuel reserve tank, it is characterized in that, also comprise connecting gear, spiral comminutor and the second dryer, be provided with bottom described rubbish storage case and filter out the mouth of a river, side is provided with discharging opening, the discharging opening of rubbish storage case is communicated with by connecting gear with one end of pulverizer, described pressafiner is provided with slag notch, oil outlet and enter to squeeze mouth, the other end of described pulverizer is connected with the mouth that enters to squeeze of squeezer, the slag notch of described pressafiner is communicated with by connecting gear with one end of the first dryer, the other end of described first dryer is communicated with by connecting gear with spiral comminutor one end, the other end of described spiral comminutor is connected with one end of the second dryer, the other end of described second dryer is connected with fertilizer storage bin, described rubbish storage case filter out the mouth of a river, the oil outlet of pressafiner is connected with oil water separator by tube connector, described oil water separator is communicated with by oil pipe with fuel reserve tank.

2. changing food waste recovery and processing system as claimed in claim 1, it is characterized in that, described spiral comminutor comprises upper shell, lower house, shaft, stirring motor, the roller be arranged side by side and roller drive motors, described upper shell is provided with granulation entrance, described lower house is provided with granulation outlet, described upper shell is communicated with up and down with lower house, described shaft is vertically arranged in upper shell, described shaft is provided with spiral blade, stirring motor rotates for driving shaft, roller drive motors is used for driving rolls and rotates, the described roller be arranged side by side is located at the below of shaft.

3. changing food waste recovery and processing system as claimed in claim 2, it is characterized in that, described rubbish storage case comprises casing, push motor and push screw rod, described propelling movement screw rod is provided with spiral helicine groove, described propelling movement screw rod is located in casing, the output pushing motor is located in one end of described propelling movement screw rod, described casing top is provided with feeding mouth, tank floor is located at the described mouth of a river that filters out, described discharging opening is located at body side, push driven by motor and push bolt rotary, when pushing bolt rotary, by spiral helicine groove, changing food waste is taken to the discharge outlet of body side.

4. changing food waste recovery and processing system as claimed in claim 3, it is characterized in that, described pulverizer comprises pulverizes motor, pulverizing casing and main shaft, described pulverizing casing is provided with to be pulverized entrance and pulverizes outlet, and described pulverizing motor is used for drive shaft and rotates, and described main shaft is located at and is pulverized in casing, main shaft is provided with reel, be equipped with transverse axis in reel, described transverse axis is also arranged with main axis parallel, and described transverse axis is provided with some hammers.

5. changing food waste recovery and processing system as claimed in claim 4, it is characterized in that, described oil water separator is provided with inlet opening, apopore, outage and dividing plate, described dividing plate is located in the middle part of oil water separator, described dividing plate is provided with intercommunicating pore, described intercommunicating pore both sides are provided with grid, side, described inlet opening and apopore side are equipped with grid, described inlet opening and apopore are positioned at sustained height, described outage is higher than inlet opening, described intercommunicating pore is lower than inlet opening, and described outage is connected with fuel reserve tank by oil pipe, and described apopore is discharged by water pipe.

6. changing food waste recovery and processing system as claimed in claim 5, it is characterized in that, described connecting gear comprises the first screw spreader, second screw spreader and the 3rd screw spreader, described first screw spreader comprises transmission cylinder, transmit motor and conveyor screw, described transmission cylinder is provided with and transmits entrance and transmit outlet, the one end of transmitting cylinder is located at by described transmission motor, described conveyor screw is located at and is transmitted in cylinder and be connected to the output transmitting motor, described first screw spreader, second screw spreader is identical with the 3rd screw spreader structure, the transmission entrance of described first screw spreader and the discharging opening of rubbish storage case are tightly connected, the transmission outlet of the first screw spreader is connected with the pulverizing inlet seal of pulverizer, transmission entrance and the slag notch of described second screw spreader are tightly connected, the transmission outlet of the second screw spreader is tightly connected with one end of the first dryer, the described transmission entrance of the 3rd screw spreader and the other end of the first dryer are tightly connected, the transmission outlet of the 3rd screw spreader is connected with granulation inlet seal.

7. changing food waste recovery and processing system as claimed in claim 6, it is characterized in that, described first dryer comprises dries body, transmitting power mechanism and air-heater, described transmitting power mechanism comprises conveying motor and rotates external member, described conveying motor rotates for driving to rotate external member and dry body, described air-heater is tightly connected with oven dry body, and described oven dry body is provided with dries entrance and dries outlet, and described second dryer is identical with the structure of the first dryer.

8. changing food waste recovery and processing system as claimed in claim 7, it is characterized in that, also comprise control unit, described control unit respectively with propelling movement motor, pulverize motor, squeeze motor, stirring motor, roller drive motors, carry the transmission motor of motor and screw spreader to be electrically connected, the casing upper end of described rubbish storage case is provided with infrared sensor, be respectively equipped with pressure sensor in first screw spreader, the second screw spreader and the 3rd screw spreader, described infrared sensor, pressure sensor are electrically connected with control unit respectively.

9. changing food waste recovery and processing system as claimed in claim 7 or 8, it is characterized in that, described first dryer also comprises waste gas and portals and air hand-hole, described first dryer connects the first energy recovery mechanism, described first energy recovery mechanism is provided with first passage and second channel, described first passage is provided with waste gas inlet port and outlet port, filter core and radiating tube is provided with between described waste gas inlet port and outlet port, described second channel is provided with air inlet port and air outlet, described first passage and second channel carry out energy exchange by radiating tube, the waste gas inlet port of described first passage portals with the waste gas of the first dryer and is communicated with, the air outlet of described second channel is communicated with the air hand-hole of the first dryer, described second dryer is identical with the structure of the first dryer, described second dryer connects the second energy recovery mechanism, described second energy recovery mechanism is identical with the structure of the first energy recovery mechanism.