CN203124398U

CN203124398U - Treatment equipment for domestic garbage energy

Info

Publication number: CN203124398U
Application number: CN201320080966.1U
Authority: CN
Inventors: 陈献清
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-02-22
Filing date: 2013-02-22
Publication date: 2013-08-14
Anticipated expiration: 2023-02-22

Abstract

The utility model discloses treatment equipment for domestic garbage energy, and the treatment equipment comprises a feeding device, a double-roller shredding device, a squeezing dehydrator, a sewage treatment device, a garbage drying machine, a smoke treatment device and a granulation forming machine, wherein the feeding device is connected with the double-roller shredding device through a conveyer belt; the double-roller shredding device is connected with the squeezing dehydrator through the conveyer belt; the sewage treatment device is connected with the squeezing dehydrator; the squeezing dehydrator is connected with the garbage drying machine through the conveyer belt; the smoke treatment device is connected with the garbage drying machine; and the garbage drying machine is connected with the granulation forming machine through a spiral conveyer. The treatment equipment disclosed by the utility model has the advantages of simple structure, easiness for implementation, high operability and convenience for popularization and application and can really change the domestic garbage into valuables without adding any fuel and achieve the domestic garbage energy.

Description

A kind for the treatment of facility for turning household garbage into energy

Technical field

The utility model relates to the domestic rubbish disposal apparatus field, refers more particularly to a kind for the treatment of facility for turning household garbage into energy.

Background technology

Along with the development of Urbanization in China and level of population's raising, the municipal refuse generation is more and more, and the growth in recent years rate is crossed 5%-8%.Calendar year 2001, domestic waste reaches 1.35 hundred million tons.More than 3,500,000,000 square metre soil is occupied up to 6,600,000,000 tons in city rubbish heap storage over the years.Existing more than 200 city is absorbed among the rubbish encirclement in 660 cities, the whole nation.How to deal carefully with municipal refuse, realize innoxious, minimizing and the energy of rubbish, become the significant problem that countries in the world face.

The outburst of refuse pollution contradiction is in the 50-60 age in 20th century.After the mid-1960s, a series of methods of disposal such as landfill, burning, compost have been formed gradually.Application to waste disposal method is not only relevant with component of refuse, but also depends on factor such as Technological Economy level between different cities.From component of refuse, the rubbish that content of organics is high should adopt burning method; The rubbish that inorganic content is high should adopt landfill method; Degradable organic matter is many should to adopt composting process; But country variant national conditions difference, processing method is also variant; As the big main landfill method physiology rubbish that adopts of U.S.'s area, because of landfill method cheap than burning method; And the few stronger country of Technological Economy strength of land resources such as Japan, Switzerland, Sweden, Denmark then adopts the burning method disposal of refuse mostly.At present, countries in the world mainly contain treating method for urban garbage:

1, garbage loading embeading method

Landfill disposal is the basic processing method of domestic waste.It is that rubbish is passed through the long-term decomposition of microorganism with imbedding, makes it to resolve into harmless compound; But landfill will take a large amount of soils, and this forms distinct contradiction to the land resource that is becoming tight day; And landfill waste produces a large amount of landfill biogas through the microorganism resolution, control to get rid of or as using energy source; Landfill waste can produce certain penetrating fluid through the influence of microorganism decomposition and surface water, causes secondary pollution.

2, composting process

Composting process is a kind of ancient Biological Treatment Process of Organic Solid Wastes.This method is the organic matter that makes in the form garbage and dejection, under microbial action, carries out biochemical reaction, forms a kind of material of similar humus soil at last, as fertilizer or improve the soil.Because of compost relatively strict at executive condition, and microorganism decompose slower, so use few.

3, burning method

Burning method is handled municipal refuse, and can make the rubbish loss of weight, subtract appearance, and some oxious component is decomposed and removal, be comparatively ideal processing method.But more main to the refuse thermal value requirement because of this method, equipment investment is big, and the operating cost height can produce reasons such as secondary pollution in the burning.

4, pyrolysismethod

Comparatively popular refuse pyrolysis gasification process method in the world in recent years.Pyrolysismethod is that the high temperature of organic matter under anaerobic or anoxia condition adds pyrolysis technique, and the heat energy of utilization makes the macromolecular compound fracture, is converted into the process of little molecule fuel gas, liquid fuel and coke by the macromolecule organic matter.Combustion gas, the fuel oil that this method produces is convenient to store transportation, handles but this method only is suitable for organic waste.

The utility model content

The purpose of this utility model is to overcome above-mentioned weak point of the prior art and provides a kind of house refuse is carried out the equipment that innoxious, energy is handled.

The utility model is realized in the following way:

A kind for the treatment of facility for turning household garbage into energy, it is characterized in that: comprise drawing-in device 14, two roller shredding equipment 15, squeezing dewatering machine 4, sewage-treatment plant 16, garbage drier 8, soot processing device 17, granulating and forming machine 13, described drawing-in device 14 and two roller shredding equipment 15 are connected by conveyer belt; The described pair of roller shredding equipment 15 and squeezing dewatering machine 4 are connected by conveyer belt; Described sewage-treatment plant 16 is connected with squeezing dewatering machine 4; Described squeezing dewatering machine 4 and garbage drier 8 are connected by conveyer belt; Described soot processing device 17 is connected with garbage drier 8; Described garbage drier 8 and granulating and forming machine 13 are connected by conveying worm;

Described drawing-in device 14 comprises motor 141, bearing block 142, hopper 143, blanking bin 144, extrusion axis 145, and described extrusion axis 145 is provided with some extruding rods 146; The two ends of described extrusion axis 145 are connected on the blanking bin 144 by bearing block 142 respectively, and described extrusion axis 145 is rotatable with respect to blanking bin 144; Described hopper 143 is connected on the blanking bin 144; Described motor 141 is connected with an end of extrusion axis 145 by connector 147;

Described pair of roller shredding equipment 15 comprises frame 151, girff 152, first main shaft 153, second main shaft 154, first spindle motor 155, second spindle motor 156, hopper 158, conveyer belt 159, and described first spindle motor 155, second spindle motor 156 are located at the right and left of frame 151 respectively; Described girff 152 is located on the frame 151; One end of described first main shaft 153 and second main shaft 154 is respectively equipped with roller cutter 157; Described first main shaft 153 and second main shaft 154 are connected on the girff 152, and the roller cutter 157 on first main shaft 153 and second main shaft 154 staggers mutually and forms the engagement shape; Described first main shaft 153 and second main shaft 154 are rotatable with respect to girff 152; Described first main shaft 153 is connected with first spindle motor 155; Described second main shaft 154 is connected with second spindle motor 156; Described hopper 158 is connected on the girff 152; Described conveyer belt 159 is located on the frame 151, and is positioned at the below of girff 152;

Described squeezing dewatering machine 4 comprises support 41, motor 42, decelerator 43, pressure roller 44; Motor 42 is located on the support 41; Decelerator 43 is located on the support 41; Pressure roller 44 is fixed on the bearing bracket stand of support 41, and three pressure rollers 44 are formed the pressure roller group; Described support 41 has sewage conduct;

Described sewage-treatment plant 16 comprises one-level bio-oxidation pond 161, two stage biological oxidation pond 162, three grades of bio-oxidation ponds 163, level Four sedimentation basin 164, evenly is provided with some layers of grid respectively in described one-level bio-oxidation pond 161, two stage biological oxidation pond 162, three grades of bio-oxidation ponds 163; Described one-level bio-oxidation pond 161 is provided with water inlet 165; Described water inlet 165 is connected with sewage conduct under the support 41; Described one-level bio-oxidation pond 161 is connected with two stage biological oxidation pond 162 by tube connector; Described two stage biological oxidation pond 162 is connected with three grades of bio-oxidation ponds 163 by tube connector; Described level Four sedimentation basin 164 is divided into settling zone 166, sterilization pool 167, sludge-tank 168, evenly is provided with some layers of grid in the described settling zone 166; Described three grades of bio-oxidation ponds 163 are connected with settling zone 166 by tube connector, and described sterilization pool 167 is connected with settling zone 166 by tube connector; Described sludge-tank 168 is connected with settling zone 166 by tube connector; Be respectively equipped with air inlet pipe 169 on described two stage biological oxidation pond 162, three grades of bio-oxidation ponds 163 and the settling zone 166; Described air inlet pipe 169 is connected with blower fan 1610 respectively; Described sterilization pool 167 is provided with clear water discharge pipe 1611; Be connected with blow-off pipe 1612 on the described sludge-tank 168;

Described garbage drier 8 partly is made up of hot-blast stove part and dryer; Described hot-blast stove is connected by connection device with dryer; Described hot-blast stove includes gasification furnace 821, combustion chamber 822, dust arrester 823, air blast 824, liquefaction station 825; Gasification furnace 821 is installed in dust arrester 823 1 sides; Combustion chamber 822 is installed between gasification furnace 821 and the deduster 823; Air blast 824 is installed in the side of combustion chamber 822, and the air outlet of air blast 824 communicates with combustion chamber 822; Liquefaction station 825 is installed in the side of dust arrester 823; Described dryer includes feed system, cylinder 87, transmission system, discharge system; Wherein: cylinder 87 1 ends connect feed system, and the other end connects discharge system; Cylinder 87 is connected with transmission system, and cylinder 87 is bearing on the transmission system; Described combustion chamber 822 is provided with the flue dust outlet; Described feed system includes loading hopper 81 and hot blast import 82; Loading hopper 81 is fixedly connected on the hot blast import 82; Hot blast import 82 is connected with cylinder 87 entrance points; Described transmission system includes the first support roller seat 84, the second support roller seat 811, support roller 85, backing ring 86, gear wheel 810, motor 89, reductor 88; Described backing ring 86 and gear wheel 810 are fixed on the outer ring of cylinder 87; Backing ring 86 contacts with support roller 85 on being fixed on the first support roller seat 84; Gear wheel 810 is meshed with the gear that motor 89 is connected; Described motor 89 is connected with reductor 88; Described discharge system comprises discharge rack 812; Discharge rack 812 is provided with discharging opening; Be provided with between described loading hopper 81 and the hot blast import 82 and close wind inlet valve 83; Described hot blast import 82 is connected with the hot-blast outlet of hot-blast stove;

Described soot processing device 17 comprises device body 171, spray equipment, and described device body 171 is separated into first chamber 175, second chamber 176, the 3rd chamber 177, the 4th chamber 178 successively by first dividing plate 172, second partition 173, the 3rd dividing plate 174; The bottom of described first dividing plate 172 and the 3rd dividing plate 174 and the bottom of device body 171 are provided with spacing; The top of the top of second partition 173 and device body 171 is provided with spacing; Described spray equipment comprises water pump 179, shower 1710; Described shower 1710 is arranged in the top of first dividing plate 172 and the 3rd dividing plate 174; Described water pump 179 is located at the side of device body 171, and is connected with shower 1710; Be connected with drinking-water pipe 1711 on the described shower 1710; Described drinking-water pipe 1711 other ends are positioned at the bottom of first chamber 175; Described shower 1710 is provided with some spray apertures 1712; First chamber 175 of described device body 171 and the bottom of the 4th chamber 178 respectively are provided with sewage draining exit 1713; First chamber 175 of described device body 171 and the side of the 4th chamber 178 respectively are provided with limited mouth 1714; The height of described limited mouth 1714 is higher than the spacing between the bottom of the bottom of first dividing plate 172 and the 3rd dividing plate 174 and device body 171; The top of described device body 171 is provided with air inlet 1715 and gas outlet 1716; Described air inlet 1715 is positioned at the top of first chamber 175, and is connected with flue dust outlet on the combustion chamber 822; Gas outlet 1716 is positioned at the top of the 4th chamber 178;

Described granulating and forming machine 13 comprises feed hopper 131, mainframe 139, transmission device, shaped device, heat sink; Described transmission device comprises motor 138, driven shaft 1312, belt 1313, vertical shaft seat 1318; Described vertical shaft seat 1318 is located on the mainframe 139; Described feed hopper 131 is located on the mainframe 139, and is positioned at the below of vertical shaft seat 1318; Described motor 138 is located on the mainframe 139, is positioned at the side of vertical shaft seat 1318; Described driven shaft 1312 is located on the vertical shaft seat 1318, and driven shaft 1312 is rotatable with respect to vertical shaft seat 1318; Described belt 1313 is connected on the turning cylinder and driven shaft 1312 of motor 138; Described shaped device comprises following platen 132, drawing mechanism 133, goes up platen 134, feed hopper 135, base plate 1314, pedestal 1315, pinch roller 1316; Described platen 132 down is connected on the vertical shaft seat 1318; Described drawing mechanism 133 is provided with discharging opening 1333; Described drawing mechanism 133 is located at down on the platen 132; The described platen 134 of going up is connected on the drawing mechanism 133; Described feed hopper 135 is connected on the platen 134; Described base plate 1314 is connected on the top of driven shaft 1312, and is positioned within the following platen 132; Described pedestal 1315 is located on the dual-side of base plate 1314; Described pinch roller 1316 is connected on the pedestal 1315; The wheel limit of described pinch roller 1316 is positioned on the upstream end of discharging opening 1333; Described heat sink comprises platen cold water pipe 136, following platen cold water pipe 137, water tank 1310, water pump 1311, and described platen cold water pipe 136 1 ends of going up are connected with last platen 134, and the other end is connected with water pump 1311; Described platen cold water pipe 137 1 ends down are connected with following platen 132, and the other end is connected with water pump 1311; Described water pump 1311 is located on the mainframe 139, and is connected with water tank 1310; Described water tank 1310 is located on the mainframe 139.

Described hopper 143 is cavity wide at the top and narrow at the bottom.

Described extruding rod 146 is " ten " font or " rice " font with the cross section structure that extrusion axis 145 is formed.

Described first main shaft 153 and second main shaft 154 are horizontal parallel and are located on the girff 152.

Described roller cutter 157 blades ring in the form of annular discs is located at respectively on first main shaft 153 and second main shaft 154, which is provided with cutter tip.

Described hopper 158 is horn-like, its big mouthful end up, osculum one end links to each other with girff 152.

Described motor 42 is provided with frequency changer controller; Described pressure roller 45 profiles are hook groove shape, and described pressure roller group is with the transmission of gear mode.

Described spray apertures 1712 is provided with screen pack; Described limited mouth 1714 is provided with filter; The water inlet end of described drinking-water pipe 1711 is provided with screen pack; Described shower 1710 is " n " shape loop hollow shell.

Described drawing mechanism 133 is connected in down on the platen 132 by several mould 1331 annular array to be formed; Described mould 1331 is that " worker " word is trapezoidal, and described discharging opening 1333 is that the left and right sides die cavity by two " worker " type matrix tools 1331 is spliced; Described mould 1331 is provided with holddown groove 1332; Described holddown groove 1332 is connected in down on the platen 132; Be provided with fixed head 1317 between the described pinch roller 1316.

The beneficial effects of the utility model are: the house refuse through sorting out is transferred to drawing-in device by conveyer belt; House refuse is transferred to two roller shredding equipments through drawing-in device again, by the fragmentation of engagement to rubbish of staggering mutually of the roller cutter 157 on two roller shredding equipments; Rubbish after the fragmentation is transported to squeezing dewatering machine by conveyer belt, by a plurality of pressure rollers of squeezing dewatering machine on it rubbish is carried out press dewatering; Rubbish after the dehydration is transported to garbage drier by conveyer belt, and the sewage that dehydration produces enters sewage-treatment plant and handles; By garbage drier the rubbish of press dewatering is dried; The flue dust that oven dry produces enters soot processing device and enters processing; Rubbish after the garbage drier oven dry is transferred to the granulating and forming machine through conveyer belt, and the rubbish after the moulding is transferred to feed bin by belt conveyor and carries out dry deodorizing.

In sum, the utility model is a kind of simple in structure, easy to implement, workable, is easy to be extended and applied, and need not adds any fuel, house refuse is turned waste into wealth, with the treatment facility of turning household garbage into energy.

Description of drawings

Fig. 1 the utility model structural representation;

Fig. 2 the utility model drawing-in device structural representation;

The two roller shredding equipment structural representations of Fig. 3 the utility model;

Fig. 4 the utility model rubbish squeezing dewatering machine front view;

Fig. 5 the utility model rubbish squeezing dewatering machine vertical view;

Fig. 6 the utility model sewage-treatment plant structural representation;

Fig. 7 the utility model garbage drier hot-blast stove part-structure schematic diagram;

Fig. 8 the utility model garbage drier oven dry part-structure schematic diagram;

Fig. 9 the utility model soot processing device structural representation;

Figure 10 the utility model granulating and forming machine structure chart;

Figure 11 the utility model shaped device structural representation;

Figure 12 the utility model mould structure schematic diagram.

The specific embodiment

Now by reference to the accompanying drawings, the specific embodiment of the present utility model is described in detail in detail:

As shown in Figure 1, a kind for the treatment of facility for turning household garbage into energy, comprise drawing-in device 14, two roller shredding equipment 15, squeezing dewatering machine 4, sewage-treatment plant 16, garbage drier 8, soot processing device 17, granulating and forming machine 13, described drawing-in device 14 and two roller shredding equipment 15 are connected by conveyer belt; The described pair of roller shredding equipment 15 and squeezing dewatering machine 4 are connected by conveyer belt; Described sewage-treatment plant 16 is connected with squeezing dewatering machine 4; Described squeezing dewatering machine 4 and garbage drier 8 are connected by conveyer belt; Described soot processing device 17 is connected with garbage drier 8; Described garbage drier 8 and granulating and forming machine 13 are connected by conveying worm.

As shown in Figure 2, drawing-in device 14 of the present utility model comprises motor 141, bearing block 142, hopper 143, blanking bin 144, extrusion axis 145, and described extrusion axis 145 is provided with some extruding rods 146; The two ends of described extrusion axis 145 are connected on the blanking bin 144 by bearing block 142 respectively, and described extrusion axis 145 is rotatable with respect to blanking bin 144; Described hopper 143 is connected on the blanking bin 144; Described motor 141 is connected with an end of extrusion axis 145 by connector 147.

As shown in Figure 3, of the present utility model pair of roller shredding equipment 15 comprises frame 151, girff 152, first main shaft 153, second main shaft 154, first spindle motor 155, second spindle motor 156, hopper 158, conveyer belt 159, and described first spindle motor 155, second spindle motor 156 are located at the right and left of frame 151 respectively; Described girff 152 is located on the frame 151; One end of described first main shaft 153 and second main shaft 154 is respectively equipped with roller cutter 157; Described first main shaft 153 and second main shaft 154 are connected on the girff 152, and the roller cutter 157 on first main shaft 153 and second main shaft 154 staggers mutually and forms the engagement shape; Described first main shaft 153 and second main shaft 154 are rotatable with respect to girff 152; Described first main shaft 153 is connected with first spindle motor 155; Described second main shaft 154 is connected with second spindle motor 156; Described hopper 158 is connected on the girff 152; Described conveyer belt 159 is located on the frame 151, and is positioned at the below of girff 152.

As Fig. 4, shown in Figure 5, squeezing dewatering machine 4 of the present utility model comprises support 41, motor 42, decelerator 43, pressure roller 44; Motor 42 is located on the support 41; Decelerator 43 is located on the support 41; Pressure roller 44 is fixed on the bearing bracket stand of support 41, and three pressure rollers 44 are formed the pressure roller group; Described support 41 has sewage conduct.

As shown in Figure 6, sewage-treatment plant 16 of the present utility model comprises one-level bio-oxidation pond 161, two stage biological oxidation pond 162, three grades of bio-oxidation ponds 163, level Four sedimentation basin 164, evenly is provided with some layers of grid respectively in described one-level bio-oxidation pond 161, two stage biological oxidation pond 162, three grades of bio-oxidation ponds 163; Described one-level bio-oxidation pond 161 is provided with water inlet 165; Described water inlet 165 is connected with sewage conduct under the support 41; Described one-level bio-oxidation pond 161 is connected with two stage biological oxidation pond 162 by tube connector; Described two stage biological oxidation pond 162 is connected with three grades of bio-oxidation ponds 163 by tube connector; Described level Four sedimentation basin 164 is divided into settling zone 166, sterilization pool 167, sludge-tank 168, evenly is provided with some layers of grid in the described settling zone 166; Described three grades of bio-oxidation ponds 163 are connected with settling zone 166 by tube connector, and described sterilization pool 167 is connected with settling zone 166 by tube connector; Described sludge-tank 168 is connected with settling zone 166 by tube connector; Be respectively equipped with air inlet pipe 169 on described two stage biological oxidation pond 162, three grades of bio-oxidation ponds 163 and the settling zone 166; Described air inlet pipe 169 is connected with blower fan 1610 respectively; Described sterilization pool 167 is provided with clear water discharge pipe 1611; Be connected with blow-off pipe 1612 on the described sludge-tank 168.

As Fig. 7, shown in Figure 8, garbage drier 8 of the present utility model partly is made up of hot-blast stove part and dryer; Described hot-blast stove is connected by connection device with dryer; Described hot-blast stove includes gasification furnace 821, combustion chamber 822, dust arrester 823, air blast 824, liquefaction station 825; Gasification furnace 821 is installed in dust arrester 823 1 sides; Combustion chamber 822 is installed between gasification furnace 821 and the deduster 823; Air blast 824 is installed in the side of combustion chamber 822, and the air outlet of air blast 824 communicates with combustion chamber 822; Liquefaction station 825 is installed in the side of dust arrester 823; Described dryer includes feed system, cylinder 87, transmission system, discharge system; Wherein: cylinder 87 1 ends connect feed system, and the other end connects discharge system; Cylinder 87 is connected with transmission system, and cylinder 87 is bearing on the transmission system; Described combustion chamber 822 is provided with the flue dust outlet; Described feed system includes loading hopper 81 and hot blast import 82; Loading hopper 81 is fixedly connected on the hot blast import 82; Hot blast import 82 is connected with cylinder 87 entrance points; Described transmission system includes the first support roller seat 84, the second support roller seat 811, support roller 85, backing ring 86, gear wheel 810, motor 89, reductor 88; Described backing ring 86 and gear wheel 810 are fixed on the outer ring of cylinder 87; Backing ring 86 contacts with support roller 85 on being fixed on the first support roller seat 84; Gear wheel 810 is meshed with the gear that motor 89 is connected; Described motor 89 is connected with reductor 88; Described discharge system comprises discharge rack 812; Discharge rack 812 is provided with discharging opening; Be provided with between described loading hopper 81 and the hot blast import 82 and close wind inlet valve 83; Described hot blast import 82 is connected with the hot-blast outlet of hot-blast stove.

As shown in Figure 9, soot processing device 17 of the present utility model comprises device body 171, spray equipment, and described device body 171 is separated into first chamber 175, second chamber 176, the 3rd chamber 177, the 4th chamber 178 successively by first dividing plate 172, second partition 173, the 3rd dividing plate 174; The bottom of described first dividing plate 172 and the 3rd dividing plate 174 and the bottom of device body 171 are provided with spacing; The top of the top of second partition 173 and device body 171 is provided with spacing; Described spray equipment comprises water pump 179, shower 1710; Described shower 1710 is arranged in the top of first dividing plate 172 and the 3rd dividing plate 174; Described water pump 179 is located at the side of device body 171, and is connected with shower 1710; Be connected with drinking-water pipe 1711 on the described shower 1710; Described drinking-water pipe 1711 other ends are positioned at the bottom of first chamber 175; Described shower 1710 is provided with some spray apertures 1712; First chamber 175 of described device body 171 and the bottom of the 4th chamber 178 respectively are provided with sewage draining exit 1713; First chamber 175 of described device body 171 and the side of the 4th chamber 178 respectively are provided with limited mouth 1714; The height of described limited mouth 1714 is higher than the spacing between the bottom of the bottom of first dividing plate 172 and the 3rd dividing plate 174 and device body 171; The top of described device body 171 is provided with air inlet 1715 and gas outlet 1716; Described air inlet 1715 is positioned at the top of first chamber 175, and is connected with flue dust outlet on the combustion chamber 822; Gas outlet 1716 is positioned at the top of the 4th chamber 178.

As Figure 10, Figure 11, shown in Figure 12, described granulating and forming machine 13 of the present utility model comprises feed hopper 131, mainframe 139, transmission device, shaped device, heat sink; Described transmission device comprises motor 138, driven shaft 1312, belt 1313, vertical shaft seat 1318; Described vertical shaft seat 1318 is located on the mainframe 139; Described feed hopper 131 is located on the mainframe 139, and is positioned at the below of vertical shaft seat 1318; Described motor 138 is located on the mainframe 139, is positioned at the side of vertical shaft seat 1318; Described driven shaft 1312 is located on the vertical shaft seat 1318, and driven shaft 1312 is rotatable with respect to vertical shaft seat 1318; Described belt 1313 is connected on the turning cylinder and driven shaft 1312 of motor 138; Described shaped device comprises following platen 132, drawing mechanism 133, goes up platen 134, feed hopper 135, base plate 1314, pedestal 1315, pinch roller 1316; Described platen 132 down is connected on the vertical shaft seat 1318; Described drawing mechanism 133 is provided with discharging opening 1333; Described drawing mechanism 133 is located at down on the platen 132; The described platen 134 of going up is connected on the drawing mechanism 133; Described feed hopper 135 is connected on the platen 134; Described base plate 1314 is connected on the top of driven shaft 1312, and is positioned within the following platen 132; Described pedestal 1315 is located on the dual-side of base plate 1314; Described pinch roller 1316 is connected on the pedestal 1315; The wheel limit of described pinch roller 1316 is positioned on the upstream end of discharging opening 1333; Described heat sink comprises platen cold water pipe 136, following platen cold water pipe 137, water tank 1310, water pump 1311, and described platen cold water pipe 136 1 ends of going up are connected with last platen 134, and the other end is connected with water pump 1311; Described platen cold water pipe 137 1 ends down are connected with following platen 132, and the other end is connected with water pump 1311; Described water pump 1311 is located on the mainframe 139, and is connected with water tank 1310; Described water tank 1310 is located on the mainframe 139.

Hopper 143 of the present utility model is cavity wide at the top and narrow at the bottom.

Extruding rod 146 of the present utility model is " ten " font or " rice " font with the cross section structure that extrusion axis 145 is formed.

First main shaft 153 of the present utility model and second main shaft 154 are horizontal parallel and are located on the girff 152.

Roller cutter 157 blades of the present utility model ring in the form of annular discs is located at respectively on first main shaft 153 and second main shaft 154, which is provided with cutter tip.

Hopper 158 of the present utility model is horn-like, its big mouthful end up, osculum one end links to each other with girff 152.

Motor 42 of the present utility model is provided with frequency changer controller; Described pressure roller 45 profiles are hook groove shape, and described pressure roller group is with the transmission of gear mode.

Spray apertures 1712 of the present utility model is provided with screen pack; Described limited mouth 1714 is provided with filter; The water inlet end of described drinking-water pipe 1711 is provided with screen pack; Described shower 1710 is " n " shape loop hollow shell.

Drawing mechanism 133 of the present utility model is connected in down on the platen 132 by several mould 1331 annular array to be formed; Described mould 1331 is that " worker " word is trapezoidal, and described discharging opening 1333 is that the left and right sides die cavity by two " worker " type matrix tools 1331 is spliced; Described mould 1331 is provided with holddown groove 1332; Described holddown groove 1332 is connected in down on the platen 132; Be provided with fixed head 1317 between the described pinch roller 1316.

During the utility model work, the house refuse through sorting out is transferred to drawing-in device 14 by conveyer belt; House refuse is transferred to two roller shredding equipments 15 through drawing-in device 14 again, by the fragmentation of engagement to rubbish of staggering mutually of the roller cutter 157 on two roller shredding equipments 15; Rubbish after the fragmentation is transported to squeezing dewatering machine 4 by conveyer belt, by the squeezing dewatering machine 4 a plurality of pressure rollers on it rubbish is carried out press dewatering; Rubbish after the dehydration is transported to garbage drier 8 by conveyer belt, and the sewage that dehydration produces enters sewage-treatment plant 16 and handles; Rubbish by 8 pairs of press dewaterings of garbage drier is dried; The flue dust that oven dry produces enters soot processing device 17 and enters processing; Rubbish after garbage drier 8 oven dry is transferred to granulating and forming machine 13 through conveying worm, and the rubbish after the moulding is transferred to feed bin by belt conveyor and carries out dry deodorizing.

Claims

1. A processing device for energy conversion of domestic waste, characterized in that it includes a feeding device (14), a double-roll shredding device (15), a press dehydrator (4), a sewage treatment device (16), garbage Dryer (8), dust treatment device (17), granulation molding machine (13), the feeding device (14) is connected with the double-roller shredding device (15) through a conveyor belt; the double-roller shredder The crushing device (15) is connected to the press dehydrator (4) through a conveyor belt; the sewage treatment device (16) is connected to the press dehydrator (4); the press dehydrator (4) is connected to the garbage dryer ( 8) Connected by a conveyor belt; the dust treatment device (17) is connected with the garbage dryer (8); the garbage dryer (8) is connected with the granulation molding machine (13) through a screw conveyor ;

The feeding device (14) includes a motor (141), a bearing seat (142), a lower hopper (143), a lower hopper (144), and an extrusion shaft (145), and the extrusion shaft (145) is provided with There are several extruding rods (146); the two ends of the extruding shaft (145) are respectively connected to the lower bin (144) through the bearing seat (142), and the extruding shaft (145) is relatively (144) is rotatable; the lower hopper (143) is connected to the lower bin (144); the motor (141) is connected to one end of the extrusion shaft (145) through a connecting piece (147);

The double-roll shredding device (15) includes a frame (151), a cutter box (152), a first spindle (153), a second spindle (154), a first spindle motor (155), a second spindle motor ( 156), hopper (158), conveyor belt (159), the first spindle motor (155) and the second spindle motor (156) are respectively arranged on the left and right sides of the frame (151); the knife box ( 152) is set on the frame (151); one end of the first main shaft (153) and the second main shaft (154) is respectively provided with a roller cutter (157); the first main shaft (153) and the second The main shafts (154) are respectively connected to the knife box (152), and the roller knives (157) on the first main shaft (153) and the second main shaft (154) are staggered to form an engagement shape; the first main shaft (153) and the second spindle (154) is rotatable relative to the tool box (152); the first spindle (153) is connected to the first spindle motor (155); the second spindle (154) is connected to the second spindle The motor (156) is connected; the hopper (158) is connected to the knife box (152); the conveyor belt (159) is set on the frame (151) and located below the knife box (152);

The press dehydrator (4) includes a base (41), a motor (42), a reducer (43), and a pressure roller (44); the motor (42) is arranged on the base (41); the reducer (43) Set on the machine base (41); the pressure roller (44) is fixed on the bearing frame of the machine base (41), and three pressure rollers (44) form a pressure roller group; a sewage pipe is arranged under the machine base (41) ;

The sewage treatment device (16) includes a primary biological oxidation tank (161), a secondary biological oxidation tank (162), a tertiary biological oxidation tank (163), and a fourth-level sedimentation tank (164). pool (161), secondary biological oxidation tank (162), and third-level biological oxidation tank (163) are respectively uniformly provided with several layers of grills; the first-level biological oxidation tank (161) is provided with a water inlet (165) ; The water inlet (165) is connected to the sewage pipeline under the base (41); the primary biological oxidation tank (161) is connected to the secondary biological oxidation tank (162) through a connecting pipe; the secondary biological oxidation tank (162) is connected; The biological oxidation tank (162) is connected to the third-level biological oxidation tank (163) through a connecting pipe; the fourth-level sedimentation tank (164) is divided into a sedimentation area (166), a disinfection tank (167), and a sludge tank (168). , the settling area (166) is evenly equipped with several layers of grills; the three-stage biological oxidation tank (163) is connected to the settling area (166) through a connecting pipe, and the disinfection tank (167) is connected to the The sedimentation area (166) is connected; the sludge tank (168) is connected to the sedimentation area (166) through a connecting pipe; the secondary biological oxidation tank (162), the tertiary biological oxidation tank (163) and the sedimentation area (166) are respectively provided with air intake pipes (169); the air intake pipes (169) are respectively connected with the fan (1610); the disinfection pool (167) is provided with a clean water discharge pipe (1611); the sludge pool (168) is connected with a sewage pipe (1612);

The garbage dryer (8) is composed of a hot blast stove part and a dryer part; the hot blast stove and the dryer are connected through connection equipment; the hot blast stove includes a gasifier (821), a combustion chamber (822), dust collector (823), blower (824), liquefaction station (825); the gasifier (821) is installed on one side of the dust collector (823); the combustion chamber (822) is installed Between the chemical furnace (821) and the dust collector (823); the blower (824) is installed on the side of the combustion chamber (822), and the air outlet of the blower (824) communicates with the combustion chamber (822); the liquefaction station (825) Installed on the side of the dust collector (823); the dryer includes a feed system, a drum (87), a transmission system, and a discharge system; wherein: one end of the drum (87) is connected to the feed system, and the other One end is connected to the discharge system; the drum (87) is connected to the transmission system, and the drum (87) is supported on the transmission system; the combustion chamber (822) is provided with a smoke outlet; the feed system includes a feed funnel ( 81) and the hot air inlet (82); the feed funnel (81) is fixedly connected to the hot air inlet (82); the hot air inlet (82) is connected to the inlet end of the drum (87); the transmission system includes a first support Wheel seat (84), second supporting wheel seat (811), supporting wheel (85), supporting ring (86), large gear (810), electric motor (89), reducer (88); said supporting ring ( 86) and the large gear (810) are fixed on the outer ring of the drum (87); the supporting ring (86) is in contact with the supporting wheel (85) fixed on the first supporting wheel seat (84); the large gear (810) The gears connected to the motor (89) are meshed; the motor (89) is connected to the reducer (88); the discharge system includes a discharge rack (812); the discharge rack (812) is equipped with A material outlet; an air-closing feed valve (83) is provided between the feed funnel (81) and the hot air inlet (82); the hot air inlet (82) is connected to the hot air outlet of the hot blast stove;

The soot treatment device (17) includes a device body (171) and a spraying device, and the device body (171) is composed of a first partition (172), a second partition (173), a third partition (174) ) is sequentially divided into the first chamber (175), the second chamber (176), the third chamber (177), the fourth chamber (178); the first partition (172) and the third partition The bottom end of the plate (174) is provided with a distance from the bottom end of the device body (171); the top of the second partition (173) is provided with a distance from the top end of the device body (171); the spray device includes a water pump ( 179), spray pipe (1710); the spray pipe (1710) is installed on the upper part of the first partition (172) and the third partition (174); the water pump (179) is installed in the device The side of the main body (171), and is connected with the spray pipe (1710); the spray pipe (1710) is connected with the water pipe (1711); the other end of the water pipe (1711) is located at the first The lower part of the chamber (175); the spray pipe (1710) is provided with several spray holes (1712); the first chamber (175) and the fourth chamber of the device body (171) The bottom of (178) is provided with a sewage outlet (1713); the side of the first chamber (175) and the fourth chamber (178) of the device body (171) is respectively provided with a limit port (1714); The height of the limiting opening (1714) is higher than the distance between the bottom ends of the first partition (172) and the third partition (174) and the bottom end of the device body (171); the device body The top of the (171) is provided with an air inlet (1715) and an air outlet (1716); the air inlet (1715) is located above the first chamber (175), and is connected with the soot on the combustion chamber (822) Outlet connection; the air outlet (1716) is located above the fourth chamber (178);

The granulation molding machine (13) includes a feed hopper (131), a main frame (139), a transmission device, a molding device, and a cooling device; the transmission device includes a motor (138), a driven shaft (1312) , belt (1313), vertical shaft seat (1318); said vertical shaft seat (1318) is set on the main frame (139); said feeding hopper (131) is set on the main frame (139), and is located on the vertical shaft Below the seat (1318); the motor (138) is set on the main frame (139), on the side of the vertical shaft seat (1318); the driven shaft (1312) is set on the vertical shaft seat (1318) , and the driven shaft (1312) is rotatable relative to the vertical shaft seat (1318); the belt (1313) is connected to the rotating shaft of the motor (138) and the driven shaft (1312); the forming device includes the following Pressure plate (132), discharge device (133), upper pressure plate (134), feed hopper (135), bottom plate (1314), base (1315), pressure wheel (1316); the lower pressure plate (132) is connected to the vertical shaft seat (1318); the discharge device (133) is provided with a discharge port (1333); the discharge device (133) is provided on the lower platen (132); The upper platen (134) is connected to the discharge device (133); the feed hopper (135) is connected to the upper platen (134); the bottom plate (1314) is connected to the driven shaft (1312) on the top of the lower pressure plate (132); the base (1315) is set on both sides of the bottom plate (1314); the pressure wheel (1316) is connected to the base (1315); the wheel edge of the pressure wheel (1316) is located on the inlet end of the discharge port (1333); the cooling device includes an upper platen cold water pipe (136), a lower platen cold water pipe (137 ), water tank (1310), water pump (1311), one end of the upper platen cold water pipe (136) is connected with the upper platen (134), and the other end is connected with the water pump (1311); the lower platen One end of the cold water pipe (137) is connected to the lower pressure plate (132), and the other end is connected to the water pump (1311); the water pump (1311) is arranged on the main frame (139) and connected to the water tank (1310) ; The water tank (1310) is located on the main frame (139).

2. The processing equipment for turning domestic waste into energy according to claim 1, characterized in that: the lower hopper (143) is a cavity with a wide top and a narrow bottom.

3. The processing equipment for turning domestic waste into energy according to claim 1, characterized in that: the cross-sectional structure composed of the extruding rod (146) and the extruding shaft (145) is in the shape of a "ten" or "米" glyph.

4. The processing equipment for turning domestic waste into energy according to claim 1, characterized in that: the first main shaft (153) and the second main shaft (154) are arranged horizontally and parallel to the knife box (152 )superior.

5. The processing equipment for turning domestic waste into energy according to claim 1, characterized in that: the blades of the roller cutters (157) are disk-shaped rings respectively set on the first main shaft (153) and the second main shaft (153). On the two main shafts (154), a cutting head is provided on it.

6. The processing equipment for turning domestic waste into energy according to claim 1, characterized in that: the hopper (158) is trumpet-shaped, one end of the large mouth faces upward, and the end of the small mouth is connected to the knife box (152) connected.

7. The processing equipment for domestic waste energy conversion according to claim 1, characterized in that: the motor (42) is equipped with a frequency converter control device; the shape of the pressure roller (45) is hook-shaped , the set of pressing rollers is driven by gears.

8. The processing equipment for turning domestic waste into energy according to claim 1, characterized in that: the spray hole (1712) is provided with a filter; the limit port (1714) is provided with There is a filtering device; the water inlet end of the suction pipe (1711) is provided with a filter; the spray pipe (1710) is an "n"-shaped loop hollow shell.

9. The processing equipment for turning domestic waste into energy according to claim 1, characterized in that: the discharge device (133) is connected to the lower pressure plate (132) by circular arrangement of several molds (1331) ) above; the mold (1331) is trapezoidal with the word "工", and the outlet (1333) is formed by splicing the left and right cavities of two molds with the word "工" (1331); the The mold (1331) is provided with a fixing groove (1332); the fixing groove (1332) is connected to the lower pressure plate (132); a fixing plate (1317) is arranged between the pressure rollers (1316).