CN207608557U - A kind of afforestation waste fermentation system - Google Patents

Abstract

The utility model is related to a kind of afforestation waste fermentation systems, during the fermentation, the garden waste of cleaning is first thrown to sorting unit to sort, sorted the first obtained processome, which is delivered to by the first conveyer in shredding mechanism, to carry out chopping and handles to obtain third processome, simultaneously, sorted the second obtained processome is delivered to breaker progress break process by second conveyor and obtains the 4th processome, last third processome and the 4th processome is delivered to by third conveyer and the 4th conveyer in installation for fermenting respectively carries out fermentation process, the fermentation system being arranged in this way, avoid the phenomenon that accumulation of afforestation waste is polluted the environment with landfill, simultaneously, it can accelerate the fermenting speed of waste, offal treatment speed is set to increase.

Description

A kind of afforestation waste fermentation system

Technical field

The utility model is related to Waste Disposal Technology field more particularly to a kind of afforestation waste fermentation systems.

Background technology

In afforestation maintenance processes, need to trim landscape tree and various flowers, cleaning of falling leaves, weeds it is clear It is operated except equal, will produce afforestation waste, the general processing modes such as largely discarded flower, branch, leaf, weeds is all These afforestation wastes are transported to soot and carry out burning or landfill disposal, processing in this way will produce other pollutions or rubbish Rubbish is accumulated, and environmental protection is unfavorable for.

Utility model content

The utility model provides a kind of afforestation waste fermentation system, to find and solve afforestation waste fortune It send to soot and carries out burning or landfill disposal, will produce other pollutions or sanitary fill, the technology for being unfavorable for environmental protection are asked Topic.

A kind of afforestation waste fermentation system that the utility model first aspect provides, including：Sorting unit, it is described Sorting unit is used for pending afforestation waste sorting to obtain the first processome containing leaf and weeds and contain There is the second processome of branch and the branch with leaf；It is set to the discharge end of first processome on the sorting unit The first conveyer for first processome to be delivered to next processing stations；It is set to described on the sorting unit The discharge end of two processomes is used to second processome being delivered to the second conveyor of next processing stations；It is set to described First conveyer discharge end, for by first processome conveyed by first conveyer carry out chopping processing and To the shredding mechanism of third processome；Be set to the second conveyor discharge end, for will be defeated by the second conveyor Second processome sent carries out break process and obtains the breaker of the 4th processome；It is set on the shredding mechanism The discharge end of the third processome is used to the third processome being delivered to the third conveyer of next processing stations；Setting It is used to the 4th processome being delivered to next processing stations in the discharge end of the 4th processome on the breaker The 4th conveyer；And it is set to the third conveyer and the 4th conveyer discharge end, for the third Processome and the 4th processome carry out the installation for fermenting of fermentation process.

Realize that the afforestation waste fermentation system of said program during the fermentation first discards the gardens of cleaning Object is thrown to sorting unit and is sorted, and the first obtained processome, which is delivered to by the first conveyer in shredding mechanism, to be cut Broken processing obtains third processome, meanwhile, sorted the second obtained processome is delivered to breaker by second conveyor It carries out break process and obtains the 4th processome, last third processome and the 4th processome pass through third conveyer and the respectively Four conveyers, which are delivered in installation for fermenting, carries out fermentation process, and the fermentation system being arranged in this way avoids afforestation waste The phenomenon that accumulation is polluted the environment with landfill, meanwhile, the fermenting speed of waste is accelerated, offal treatment speed is made to increase Add.

With reference to first aspect, in the first possible realization method of first aspect, institute's installation for fermenting includes：Outside first Shell；Be set to first shell far from ground side, for will wait for fermentate import the first shell in feed hopper, fermentation Object is third processome and/or the 4th processome；Be set to the first shell side near the ground, for will complete fermentation Fermentate exports the discharge bucket of the first shell；It is installed on the inner wall of the first shell upper side near the ground, for containing Fermentate and the fermentation module that can be relatively rotated relative to first shell；And side is fixedly installed in described On the inner wall of one shell feed side the, other side is movable to be placed in holding in space and offering for not for the fermentation module The return flow line of synthermal heat exchanging liquid circulation, when the fermentation module rotate from stirring action, be used to ferment Object temperature controls the mixing component in a certain temperature range.

The afforestation waste fermentation system for realizing said program, is launched into the first shell by feed hopper and waits fermenting Object waits for that fermentate is fallen in fermentation module, so that fermentation module is relatively rotated with the first shell by driving, meanwhile, Gu The mixing component being scheduled on the first shell waits for that fermentate is stirred when fermentation module is rotated to being contained in fermentation module And be uniformly mixed, during the fermentation when too high or too low for temperature, by the heat exchange for injecting different temperatures into mixing component Liquid, to improve fermentation efficiency, promotes fermenting speed within a certain range, microbial activity to be made to enhance temperature control.

The possible realization method of with reference to first aspect the first, in second of possible realization method of first aspect In, the mixing component includes：It is fixedly installed in the first mounting base of the first outer casing inner wall upper feeding side, with described first The fixing axle that mounting base is mutually assembled, initiating terminal is located in the fixing axle nearly first mounting base one end, clearing end is located at institute State the other end in fixing axle, when the fermentation module is rotated with work as stirring blade using and be connected to the return flow line Bend pipe, and, be set to it is that first shell exterior is tightly connected with the return flow line, for being noted into return flow line Enter the heat exchanging liquid of different temperatures and recycles the temperature control component of the heat exchanging liquid after reflux；The temperature control component includes：Setting It is the liquid reserve tank that the temperature control component provides heat exchange liquid in first shell exterior, offering low temperature on the liquid reserve tank goes out Liquid mouth, high temperature liquid outlet and liquid collection opening, high temperature are that temperature is higher than the fermentate but less than 100 degrees Celsius, low temperature is that temperature is low In fermentate temperature but be higher than 0 degree Celsius, the inlet sealed connection of one end and the return flow line, the other end respectively with it is described The liquid outlet of the three-way pipe that the low temperature liquid outlet and high temperature liquid outlet of liquid reserve tank are tightly connected, one end and the return flow line seals The hose that the liquid collection opening of connection, the other end and the liquid reserve tank is tightly connected is set in the fixing axle and is controlled with outside Device electrical connection, temperature inductor group for detecting the fermentate temperature, and, be set to the low temperature of the three-way pipe into In liquid pipe with it is on high temperature inlet tube and be electrically connected with peripheral control unit, for being passed according to the temperature when the controller When the inductive signal of sensor group judges that temperature is too low or excessively high, the heat exchange liquid of control different temperatures inject the electricity of the return flow line Magnet valve group.

The afforestation waste fermentation system for realizing said program passes through temperature control component when the excessively high meeting of temperature is too low The heat exchange liquid of different temperatures is injected into return flow line, inlet of the heat exchange liquid through return flow line flows into, and flow into it is right in bend pipe Different location fermentate exchanges heat, and is flowed out from the liquid outlet of return flow line after reflux in one week, to which temperature control exist In a certain range, the temperature of fermentate is detected by temperature inductor group, the signal of detection is conveyed to peripheral control unit, it is external Controller judges the signal of input, when peripheral control unit judges that when the temperature is excessively high, sending out signal control solenoid valve block will Low temperature inlet is opened, and liquid reserve tank injects low-temperature heat exchange liquid into return flow line, to reduce fermentate temperature, works as peripheral control unit When judging that temperature is too low, sends out signal control solenoid valve block and open low high temperature inlet, liquid reserve tank is injected into return flow line High temperature heat exchange liquid, to improve fermentate temperature.

The possible realization method of with reference to first aspect the first, in the third possible realization method of first aspect In, the fermentation module includes：It is fixed on the second support base of side near the ground on first outer casing inner wall；Rotary type is installed In on second support base and fermentation can relatively rotate relative to second support base, for containing fermentate Bucket；And main body is set in second support base, power output end is connected with the fermenter, for driving State the first power source of fermenter rotation.

The afforestation waste fermentation system for realizing said program is supported by the first power source and fermenter is driven to turn It is dynamic, so that fermentate is rotated relative to mixing component, to make the fermentate of each position that can be contacted with mixing component.

With reference to first aspect, in the third possible realization method of the first aspect of first aspect, in first aspect The 4th kind of possible realization method in, the sorting unit includes：Rack, is installed on the rack far from ground one end, Feeding device for providing afforestation waste, be fixed on rack one end near the ground, for provide sorting needed for The blower chamber of wind-force, and, it is arranged and is connected with the blower chamber in the rack side, for collects through the drum The rewinding case of waste after the sorting of wind component；The rewinding case includes：Babinet；It is fixed on the bottom of box and is used to support babinet At least one stabilizer blade；On the adjacent two side of the detachable blower chamber installation side wall for being assemblied in the babinet, The second baffle separated for the afforestation waste after will be sorted；The blower chamber includes：Cabinet is installed on described Air blower in cabinet, and, one end is mutually assembled with the air blower outlet air end, other end and the rewinding case one side wall phase Connection, the wind levels for manufacturing air blower import the guide duct of the rewinding case, the nearly rewinding in the guide duct Case side is provided with the first barrier net.

The afforestation waste fermentation system for realizing said program, in sorting, worker gives up the afforestation of cleaning Gurry is positioned on feeding station, and the afforestation waste for being placed on feeding station defeated is sent by feeding device to feeding device Discharge end and fall into rewinding case, while falling, gone out to mounted on air blower by the air blower being arranged in cabinet The wind levels of manufacture are blown into rewinding case by guide duct to make wind energy reach, are blown through wind-force and select it by the guide duct air blast in air port Afforestation waste afterwards sorts according to weight sequence, by the second baffle that is arranged inside rewinding case by waste compared with Light leaf, weeds and heavier branch, the separation of the sundries such as stone, to realize the sorting of afforestation waste, meanwhile, the Two plate washers and the detachable connection type of babinet facilitate the replacement of the second plate washer.

With reference to first aspect, in the 5th kind of possible realization method of first aspect, the shredding mechanism includes：Second Shell, the side wall upper edge of the second housing vertical direction offer first charging aperture perpendicular to the sidewall direction, and described First charging aperture, which opens up first charging aperture described in the opposite side wall upper edge in side and opens up direction, on two shells offers the first discharge port, The first charging aperture height be higher than first discharge port, be installed on the second housing inner wall far from ground side, Shred handle when from dissection the first chopping portion, and, be installed on side near the ground on the second housing inner wall, It is to be cut for containing the second chopping portion to be cut to mince and coordinate the chopping to be cut of mincing will contain with first chopping portion It minces as the first processome；First chopping portion includes：It is set to the far from ground side on the second housing inner wall Two power sources, with the power output end fixing assembling of second power source can be slided in the second housing with separate or The second mounting base close to second chopping portion, and, slidingtype be installed on it is in second mounting base, for to be cut It minces and carries out the cutter assembly of chopping processing；Second chopping portion includes：Bucket, the bucket can be relative to described Two shells rotate in predetermined angular range is toppled over that will shred object, is articulated with the center of bucket side near the ground The first support base located and played a supportive role when carrying out chopping and handling, and, it is set in the second housing and feeds side , power output end and the bucket bottom wall it is hinged, for driving the bucket to be rotated in predetermined angular range Third power source.

The afforestation waste fermentation system for realizing said program passes through first charging aperture when carrying out chopping processing It minces to bucket dispensing is to be cut, second the second mounting base of power source drive is separate or close to bucket, drives and is mounted on second Cutter assembly in mounting base moves reciprocatingly between bucket and the second power source, is carried out at chopping to treat chopping object Reason, third power source drive bucket are rotated around the first support base, and Sheng is poured out in be cut mince for completing chopping processing Hopper is simultaneously exported from the first discharge port to outside second housing and next station is delivered to, in this way by mutually squeeze chopping make it is to be cut The volume that minces reduces, and to make subsequent fermentation speed be promoted, ferment effect is more preferably.

The 5th kind of possible realization method with reference to first aspect, in the 6th kind of possible realization method of first aspect In, nearly second power source side offers the second kidney-shaped along the second mounting base direction of motion in second mounting base Hole, the cutter assembly include：Several tool aprons, the second mounting base direction of motion described in the tool apron upper edge offer threaded hole； Be installed on nearly second chopping portion side on the tool apron, for cutting the cutter to be cut to mince；And slidingtype is accommodating It is described the tool apron to be locked in coordinating in second kidney slot and across second kidney slot with the threaded hole The third hexagon socket head cap screw of a certain position in second mounting base.

Realize that the afforestation waste fermentation system of said program, cutter are mounted on tool apron, tool apron and the second installation It is slidably connected between seat, third hexagon socket head cap screw passes through the second kidney slot to coordinate with the threaded hole on tool apron and tool apron is fixed on certain One position, meanwhile, third hexagon socket head cap screw can in the second kidney slot along perpendicular to cutter length direction slide, adjust cutter it Between distance, to obtain the chopping object of suitable size.

With reference to first aspect, in the 7th various possible realization methods of first aspect, the breaker includes：It is broken Broken babinet, the broken babinet side offer the second discharge port, are set in the broken babinet far from ground one end, use The first tentatively broken disruption elements are carried out in treating fragment, object to be broken is the second processome, is set to the broken case Internal one end near the ground, for carrying out the second completely broken disruption elements through tentatively broken fragment, and, installation In it is on the broken babinet, between first crushing mechanism and second crushing mechanism, for through described the The Screen assemblies that the fragment not up to required after one crushing mechanism is broken is sieved；The Screen assemblies include：It is set to It is on the broken cabinet wall, with mounting wall it is in an acute angle and by after screening do not reach require fragment export to The sieve of second discharge port, convex hole are set to the broken box house, mounting bar for carrying the sieve, if The second elastic component being placed between the sieve and the mounting bar, and, be set to it is on the broken babinet, so that described The vibration component of sieve vibration.

The afforestation waste fermentation system for realizing said program, when carrying out broken processing, the first disruption elements pair The object to be broken launched carries out tentatively broken, and tentatively broken fragment falls in Screen assemblies and by sieve and sieved, Meanwhile being moved upwards by the driving sieve of vibration component, meanwhile, the second elastic component is stretched when moving upwards, when reaching After peak, by the restoring force of the second elastic component sieve is moved downward and return to original position, to realize the upper and lower of sieve Vibration screening makes to fall the fragment on sieve and quickly falls, and the fragment not up to required passes through the sieve being obliquely installed Net is discharged from discharge port, and the fragment for reaching requirement falls to the second disruption elements across sieve, by the second disruption elements It is further crushed so that object to be broken is fully broken, and the breaker being arranged in this way, broken fragment is small, after making Continuous fermenting speed is promoted, and fermentation period shortens, and covert reduces subsequent fermentation costs.

Seven kinds of possible realization methods with reference to first aspect, in the 8th kind of possible realization method of first aspect, First disruption elements include：The first bearing seat being set on the parallel two side of the broken babinet, with described first The assembly of bearing block rotary type, the first rotating shaft that can be rotated relative to the first bearing seat around axial line are sheathed on described the In one shaft and the rotor that can be rotated coaxially with the first rotating shaft, and, be installed on it is on the broken babinet lateral wall, use In the 4th power source for driving the rotor rotation；Second disruption elements include：It is parallel to be set to the broken babinet Second bearing seat on two side, with the second bearing seat rotary type assembly, can be around axial line relative to second axis Second shaft of bearing rotation, is sheathed on the eccentric roller that can be rotated coaxially in second shaft and with second shaft, pacifies Loaded on the broken cabinet wall and the crushing cutter of the eccentric roller surface, and, it is installed on the outside of the broken babinet 5th power source on wall, for driving the shaft rotation.

The afforestation waste fermentation system for realizing said program is mounted on first bearing by the 4th power source drive First rotating shaft rotation on seat is treated fragment and is crushed, through tentatively broken to drive rotor to rotate coaxially with first rotating shaft When fragment after broken falls to the second disruption elements, pass through second turn of the 5th power source drive in second bearing seat Shaft rotation is dynamic, and the second shaft drives the eccentric roller rotation being set in the second shaft, to make the crushing cutter being mounted on eccentric roller Rotation will be through first by the cooperation of crushing cutter and the crushing cutter on broken box inside wall on eccentric roller The broken fragment of step is completely broken.

In the possible realization method of with reference to first aspect the first, in the 9th kind of possible realization method of first aspect In, which is characterized in that first conveyer, the second conveyor, the third conveyer and the 4th conveyer are equal For conveyer belt conveyer.

The afforestation waste fermentation system for realizing said program, by between each device of conveyer belt conveyer realization Material transmission, it is simple in structure and be easily achieved.

Advantageous effect：By a kind of afforestation waste fermentation system of offer, including：Sorting unit, the sorting dress It sets for pending afforestation waste sorting to be obtained the first processome containing leaf and weeds and contains branch With the second processome of the branch with leaf；The discharge end for being set to first processome on the sorting unit is used to incite somebody to action First processome is delivered to the first conveyer of next processing stations；It is set to second processing on the sorting unit The discharge end of body is used to second processome being delivered to the second conveyor of next processing stations；It is defeated to be set to described first Send machine discharge end, for first processome conveyed by first conveyer to be carried out chopping processing and obtain third The shredding mechanism of processome；It is set to the second conveyor discharge end, institute for will be conveyed by the second conveyor The second processome is stated to carry out break process and obtain the breaker of the 4th processome；It is set to described on the shredding mechanism The discharge end of three processomes is used to the third processome being delivered to the third conveyer of next processing stations；It is set to described The discharge end of the 4th processome is used to the 4th processome being delivered to the 4th of next processing stations on breaker Conveyer；And it is set to the third conveyer and the 4th conveyer discharge end, for the third processome The installation for fermenting of fermentation process is carried out with the 4th processome；During the fermentation, first the garden waste of cleaning is launched It is sorted to sorting unit, the first obtained processome, which is delivered to by the first conveyer in shredding mechanism, carries out chopping processing Third processome is obtained, meanwhile, sorted the second obtained processome is delivered to breaker by second conveyor and is broken Broken processing obtains the 4th processome, and last third processome and the 4th processome are conveyed by third conveyer and the 4th respectively Machine, which is delivered in installation for fermenting, carries out fermentation process, the fermentation system being arranged in this way, avoid afforestation waste accumulation with Landfill to environment at pollution the phenomenon that, meanwhile, accelerate the fermenting speed of waste, make offal treatment speed increase.

Description of the drawings

Fig. 1 is the structural schematic diagram for the afforestation waste fermentation system that the utility model implements one.

Fig. 2 is the structural representation of the sorting unit of the afforestation waste fermentation system of the utility model embodiment one Figure.

Fig. 3 is the enlarged drawing of details A in Fig. 2.

Fig. 4 is the structural schematic diagram of the rewinding case of the sorting unit of the utility model embodiment one.

Fig. 5 is the structural representation of the shredding mechanism of the afforestation waste fermentation system of the utility model embodiment one Figure.

Fig. 6 is the structural schematic diagram in the first chopping portion of the shredding mechanism of the utility model embodiment one.

Fig. 7 is the enlarged drawing of details B in Fig. 5.

Fig. 8 is the structural representation of the breaker of the afforestation waste fermentation system of the utility model embodiment one Figure.

Fig. 9 is the sectional view of the shredding mechanism of the afforestation waste fermentation system of the utility model embodiment one.

Figure 10 is the structural schematic diagram of the first disruption elements of the shredding mechanism of the utility model embodiment one.

Figure 11 is the structural schematic diagram of the second disruption elements of the shredding mechanism of the utility model embodiment one.

Figure 12 is the structural schematic diagram of the Screen assemblies of the shredding mechanism of the utility model embodiment one.

Figure 13 is the structural representation of the installation for fermenting of the afforestation waste fermentation system of the utility model embodiment one Figure.

Figure 14 is the sectional view of the installation for fermenting of the afforestation waste fermentation system of the utility model embodiment one.

Figure 15 is the enlarged drawing of details C in Figure 14.

Reference numeral：1, sorting unit；2, the first conveyer；3, second conveyor；4, shredding mechanism；5, breaker； 6, third conveyer；7, the 4th conveyer；8, installation for fermenting；9, rack；10, the second supporting plate；11, feeding device；12, drum Wind component；13, rewinding case；14, the first supporting plate；15, conveyer belt conveyer；16, deflector chute；17, the first stabilizer blade；18, cabinet； 19, air blower；20, guide duct；21, the first barrier net；22, rewinding babinet；23, straight slot；24, blow tank；25, mounting groove；26、 Second stabilizer blade；27, first baffle；28, magnet；29, second housing；30, the first chopping portion；31, the second chopping portion；32, first Feed inlet；33, the first discharge port；34, stock guide；35, the second power source；36, the second mounting base；37, cutter assembly；38, Two kidney slots；39, tool apron；40, cutter；41, third hexagon socket head cap screw；42, bucket；43, the first elastic component；44, second Support seat；45, third power source；46, second baffle；47, the first spring；48, it is crushed babinet；49, crushing mechanism；50, first is broken Broken component；51, the second disruption elements；52, the second discharge port；53, Screen assemblies；54, the second barrier net；55, first bearing seat； 56, first rotating shaft；57, rotor；58, the 4th power source；59, gear；60, the first positioning component；61, the first locating ring；62, One hexagon socket head cap screw；63, third mounting base；64, second bearing seat；65, eccentric roller；66, crushing cutter；67, the second positioning component； 68, the second locating ring；69, the second hexagon socket head cap screw；70, the 4th mounting base；71, the 5th power source；73, sieve；74, it installs Item；75, the second elastic component；76, vibration component；77, eccentric wheel；78, the 6th power source；79, second spring；80, the 5th installation Seat；81, the second feed hopper；82, the second discharge bucket；83, the first shell；84, the first feed hopper；85, the first discharge bucket；86, it sends out Ferment component；87, mixing component；88, water inlet；89, exhaust outlet；90, third stabilizer blade；91, the first mounting base；92, fixing axle； 93, bend pipe；94, temperature control component；95, return flow line；96, liquid reserve tank；97, three-way pipe；98, hose；99, temperature inductor group； 100, solenoid valve block；101, the first solenoid valve；102, second solenoid valve；103, fermenter；104, the first support base；105, third Baffle；106, bulge loop；107, the first power source；108, third discharge port；109, third solenoid valve；110, the 7th power source； 111, low temperature inlet tube；112, high temperature inlet tube；113, the second shaft；114, inner tube；115, outer tube.

Specific implementation mode

In the following detailed description, it is proposed that many details, in order to the comprehensive understanding to the utility model；But It is, it will be apparent to those skilled in the art that the utility model can be in one in not needing these details Implement in the case of a little details；Below the description of embodiment is used for the purpose of providing by showing the example of the utility model The utility model is more fully understood.

Below in conjunction with attached drawing, the technical solution of the utility model embodiment is described.

Embodiment one：

As shown in Figure 1, the present embodiment is related to a kind of afforestation waste fermentation system, including：Sorting unit 1, sorting Device 1 is used for pending afforestation waste sorting to obtain the first processome containing leaf and weeds and contain tree Second processome of branch and the branch with leaf；The discharge end for being set to the first processome on sorting unit 1 is used for first Processome is delivered to the first conveyer 2 of next processing stations；The discharge end for being set to the second processome on sorting unit 1 is used In the second conveyor 3 that the second processome is delivered to next processing stations；Be set to 2 discharge end of the first conveyer, be used for The first processome conveyed by the first conveyer 2 is subjected to chopping processing and obtains the shredding mechanism 4 of third processome；Setting In 3 discharge end of second conveyor, for the second processome conveyed by second conveyor 3 to be carried out break process and obtains the The breaker 5 of four processomes；The discharge end of third processome on shredding mechanism 4 is set to for third processome to be delivered to The third conveyer 6 of next processing stations；The discharge end for being set to the 4th processome on breaker 5 is used for the 4th processome It is delivered to the 4th conveyer 7 of next processing stations；And it is set to 7 discharge end of third conveyer 6 and the 4th conveyer, Installation for fermenting 8 for carrying out fermentation process to third processome and the 4th processome, in the present embodiment, the first conveyer 2, second conveyor 3, third conveyer 6 and the 4th conveyer 7 are conveyer belt conveyer 15, in other embodiments, first Conveyer 2, second conveyor 3, third conveyer 6 and the 4th conveyer 7 can also be screw conveyor.

Wherein, as shown in Fig. 2, sorting unit 1 includes：Rack 9；Rack 9 is installed on far from ground one end, for providing The feeding device 11 of afforestation waste；Be fixed on 9 one end near the ground of rack, for provide sorting needed for wind-force air blast Component 12；And be arranged and be connected with blower chamber 12 in 9 side of rack, for after collecting and being sorted through blower chamber 12 Waste rewinding case 13, in the present embodiment, in rack 9 setting be respectively arranged far from ground there are two supporting plate First supporting plate 14 of side, and, the second supporting plate 10 in one end near the ground is set, and feeding device 11 is installed on first On supporting plate 14, blower chamber 12 is installed on the second supporting plate 10.

Feeding device 11 includes：It is set to the conveyer belt conveyer of feed end；And with 9 phase of rack assembly, for holding It carries raw material and raw material is oriented to the deflector chute 16 of rewinding case 13, in the present embodiment, 16 non-bearing face of deflector chute, which is provided with, to be used for Support four the first stabilizer blades 17 of deflector chute 16.

As shown in Figure 2,3, blower chamber 12 includes：Cabinet 18；The air blower 19 being installed in cabinet 18；And one end It is that mutually assembled with 19 outlet air end of the air blower, other end is connected with 13 one side wall of rewinding case, for what air blower 19 was manufactured Wind levels import the guide duct 20 of rewinding case 13, and in the present embodiment, nearly 13 side of rewinding case is provided with first in guide duct 20 Obstruct net 21, guide duct 20 be sheet metal made of trumpet like duct, the larger one end of nozzle it is identical as the shape of straight slot 23 and with 23 matching relationships of straight slot are interference fit, and the smaller one end of nozzle and the air outlet of air blower 19 weld；In other embodiment In, it is high-power fan, hair-dryer etc. to be mounted in cabinet 18, is provided with air outlet on cabinet 18,20 one end of guide duct with go out Air port is connected by pipe joint, and the other end assembles with 23 phase of straight slot and the wind of generation is directed into rewinding case 13 to afforestation Waste carries out blowing choosing.

As shown in Figure 2,4, rewinding case 13 includes：Babinet, babinet offer straight slot 23 on the face of the assembly of blower chamber 12, The five groups of mounting grooves for offering blow tank 24 on the inner wall adjacent with 23 place inner wall of straight slot and being arranged perpendicular to blow tank 24 25；Babinet one end is fixed in rack 9, and the other end is provided with two the second stabilizer blades 26 for being used to support babinet；And it is installed on The block separated for the afforestation waste after will be sorted in one of which mounting groove 25 leads in the present embodiment Slot 23 is the first kidney slot, and blow tank 24 is rectangular channel, and the bottom surface of babinet is to the inclined inclined-plane of 24 side of blow tank, together When, the side that heavier afforestation waste is collected in inclined surface is provided with magnet 28, by magnet 28 in organic solid Metal sundries are tentatively removed；In other embodiments, straight slot 23 can be circular trough, rectangular channel, elliptical slot etc..

As shown in figure 5, shredding mechanism 4 includes：Second housing 29, the first chopping portion 30 and the second chopping portion 31；Outside second The side wall upper edge of 29 vertical direction of shell offers first charging aperture 32 perpendicular to sidewall direction, first charging aperture on second housing 29 32, which open up the opposite side wall upper edge first charging aperture 32 in side, opens up direction and offers the first discharge port 33, and first charging aperture 32 is high Degree is higher than the first discharge port 33, and the first chopping portion 30 is installed on 29 inner wall of second housing far from ground side and is shredding When from dissection, the second chopping portion 31 is installed on side near the ground on 29 inner wall of second housing, and waits shredding for containing Object simultaneously coordinates the chopping to be cut of mincing will contain with the first chopping portion 30；In the present embodiment, first charging aperture 32 is provided with Stock guide 34, stock guide 34 are fixed by bolt and second housing 29, and stock guide 34 is used to a upper processing stations being delivered to the The second chopping portion 31 that imports to be cut that minces of one feed inlet 32, stock guide 34 is rectangular rubber plate, in other are example, guide Plate 34 can also be rectangle plank, rectangular metal plate etc..

As shown in Figure 5,6, the first chopping portion 30 includes：Second power source 35, the second mounting base 36 and cutter assembly 37； Second power source, 35 main body is fixed on 29 inner wall of second housing by fastening bolt far from ground side, the second mounting base 36 with The power output end fixing assembling of first power source 107, and can be slided in second housing 29 to be shredded far from or close to second Portion 31, nearly first power source, 107 side offers the second kidney slot along 36 direction of motion of the second mounting base in the second mounting base 36 38,37 slidingtype of cutter assembly is installed in the second mounting base 36, and carries out chopping processing for treating chopping object；Wherein, it cuts Knife assembly 37 includes：Tool apron 39, cutter 40 and third hexagon socket head cap screw 41, tool apron 39 are provided with several, and are distributed in Two mounting bases, 36 nearly second chopping portion, 31 side, 39 the second mounting base of upper edge of tool apron, 36 direction of motion offers threaded hole, each It is corresponding on tool apron 39 that cutter 40 is installed, cutter 40 by rivet in 31 side of nearly second chopping portion on tool apron 39, and For cut it is to be cut mince, 41 slidingtype of third hexagon socket head cap screw is accommodating in the second kidney slot 38, and passes through the second kidney slot 38 coordinate with threaded hole tool apron 39 is locked in a certain position in the second mounting base 36, and 40 material of cutter is high-speed steel or hard Steel alloy；In the present embodiment, the second power source 35 is the first cylinder, and the second mounting base 36 is cuboid, and cutter material is hard Matter steel alloy, in other are example, the second power source 35 can also be hydraulic cylinder, and cutter 40 is welded with tool apron 39, with screw thread The bolt of hole cooperation can also be lifting bolt, wing bolt etc..

As shown in Fig. 5,7, the second chopping portion 31 includes：Bucket 42, the first elastic component 43, the second support base 44 and Three power sources 45；Bucket 42 can rotate in predetermined angular range will complete waiting for for chopping processing relative to second housing 29 Chopping object is toppled over, and the second support base 44 is articulated with the center position of 42 side near the ground of bucket, and is carrying out chopping processing When play a supportive role, 35 main body of the second power source, which is fixed on by fastening bolt in second housing 29, feeds side, the second power 35 power output end of source is hinged with 42 bottom wall of bucket, and for driving bucket 42 to be rotated in predetermined angular range, and first Elastic component 43 is set to 29 exit side of second housing, and is used to support bucket 42, is worked as a buffer simultaneously when toppling over chopping object Restoring force is provided for the reset of bucket 42；Wherein, 42 exit side of bucket is provided with second baffle 46, and the second plate washer passes through hinged The bottom wall of axis and bucket 42 is hinged, and chopping object is being toppled in one end assembly of 58 power output end of the 4th power source and articulated shaft When, third power source 45 drives the rotation of the second plate washer to open bucket 42；In the present embodiment, third power source 45 is second Cylinder, the 4th power source 58 are small electric motors.First elastic component 43 is the first spring 47, in other embodiments, third Power source 45 is hydraulic cylinder, and the first elastic component 43 is shrapnel.

As shown in Figure 8,9, breaker 5 includes：Broken babinet 48,48 top of broken babinet are provided with for crusher The second feed hopper 81 that structure 49 feeds intake, broken 48 bottom of babinet are provided with for crushing mechanism to be discharged in the fragment of broken completion 49 the second discharge bucket 82；It is set in broken babinet 48 far from ground one end, tentatively broken for treating fragment progress The first disruption elements 50；Be set to one end near the ground in broken babinet 48, for being carried out through tentatively broken fragment The second completely broken disruption elements 51, broken 48 side of babinet offer the second discharge port 52, and the second discharge port 52 is located at the Between one disruption elements 50 and the second disruption elements 51；And be installed on broken babinet 48, be located at the first disruption elements 50 with It is between second disruption elements 51, for what is sieved to the fragment not up to required after the first disruption elements 50 are broken Screen assemblies 53, in the present embodiment, the feed end of the second discharge bucket 82 of broken babinet 48 are provided with the second barrier net 54, when Fragment, which reaches broken and falls to the second discharge bucket 82 from the mesh of the second barrier net 54 when requiring, to be discharged.

As shown in Figures 9 and 10, the first disruption elements 50 include：First be set on the parallel two side of broken babinet 48 Bearing block 55；It is first turn being assembled with 55 rotary type of first bearing seat, being rotated relative to first bearing seat 55 around axial line Axis 56；It is sheathed on the rotor 57 that can be rotated coaxially in first rotating shaft 56 and with first rotating shaft 56；And it is installed on broken babinet 48 4th power source 58 on lateral wall, for driving rotor 57 to rotate, is arranged between first bearing seat 55 and first rotating shaft 56 There is first bearing, in the present embodiment, the first disruption elements 50 are provided with two groups of 66 rollers 57 of crushing cutter, nearly in first rotating shaft 56 There are two gear 59, gear 59 is located at the outside of broken babinet 48 for one end setting of four power sources 58, and two gears 59 are mutually nibbled It closes, wherein the 4th power source 58 drives one of gear 59 to rotate, and is arranged in first rotating shaft 56 for limiting rotor 57 Two first positioning components 60 in precalculated position are scheduled on, the first positioning component 60 includes：First locating ring 61, locating ring is radially It is provided with the first threaded hole；And the first hexagon socket head cap screw 62 with the cooperation of the first threaded hole, the 4th power source 58 are the 4th electricity Motivation is crushed on 48 lateral wall of babinet and the integrated molding of broken babinet 48 is provided with third mounting base 63, the installation of the 4th motor In in third mounting base 63, in other embodiments, bolt can also be wing bolt, lifting bolt etc..

As shown in Fig. 9,11, the second disruption elements 51 include：The second bearing seat being set on the parallel two side of babinet 64；The second shaft being assembled with 64 rotary type of second bearing seat, being rotated relative to second bearing seat 64 around axial line 113；It is sheathed on the eccentric roller 65 that can be rotated coaxially in the second shaft 113 and with the second shaft 113；It is installed in broken babinet 48 On wall and the crushing cutter 66 on 65 surface of eccentric roller；And be installed on it is on 48 lateral wall of broken babinet, for drive shaft turn The 5th dynamic power source 71 is provided with second bearing, in the present embodiment, partially between second bearing seat 64 and the second shaft 113 The density for the crushing cutter 66 being arranged on 48 inner wall of heart roller 65 and broken babinet is more than the density of crushing cutter 66 on rotor 57, In, five groups of crushing cutters 66 are provided on eccentric roller 65, and the both ends in an axial direction of every group of crushing cutter 66 are both provided with crushing cutter 66 are limited to the second positioning component 67 on a position, and the second positioning component 67 includes：Second locating ring 68, the second locating ring 68 Radially offer the second threaded hole；And the second hexagon socket head cap screw 69 mutually assembled with the second threaded hole, the 5th power source 71 For the 5th motor, it is crushed on 48 lateral wall of babinet and the integrated molding of broken babinet 48 is provided with the 4th mounting base 70, the 5th electricity Motivation is installed in the 4th mounting base 70.

As shown in Fig. 9,12, Screen assemblies 53 include：It is set on 48 inner wall of broken babinet, in an acute angle with mounting wall And by after screening do not reach require fragment export to the sieve 73 at the second discharge port 52；Convex hole is set to broken Mounting bar 74 inside babinet 48, for carrying sieve 73；The second elastic component being set between sieve 73 and mounting bar 74 75；And by bolt be installed on it is on broken babinet 48, so that sieve 73 vibrate vibration component 76, wherein vibration component 76 include：The eccentric wheel 77 being set to inside broken babinet 48；And it is installed on that on 48 lateral wall of broken babinet, power is defeated Outlet, which passes through, is crushed the 6th power source 78 that babinet 48 is assembled with 77 phase of eccentric wheel, for driving eccentric wheel 77 to rotate, at this In embodiment, sieve 73 and mounting wall are at an acute angle, and mounting bar 74 is arranged in parallel with sieve 73, mounting bar 74 and broken babinet 48 1 Body formed, the second elastic component 75 is second spring 79, and the 6th power source 78 is the 6th motor, be crushed on babinet 48 lateral wall with The broken integrated molding of babinet 48 is provided with the 5th mounting base 80, and the 6th motor is installed in the 5th mounting base 80, in other realities It applies in example, the second elastic component 75 can also be shrapnel, rubber block etc., and the 6th power source 78 can also be servo motor, rotation electricity Machine etc..

As shown in Figure 13,14, installation for fermenting 8 includes：First shell 83, the first feed hopper 84, the first discharge bucket 85, fermentation Component 86 and mixing component 87.

Ground side is provided with water inlet 88 and exhaust outlet 89 on first shell 83, the first feed hopper 84 is set to the One shell 83 waits for fermentate far from ground side, and for being launched into the first shell 83 of hair；First discharge bucket 85 is set to One shell, 83 side near the ground, and the processome for that will complete fermentation exports the first shell 83；Fermentation module 86 is installed on On the inner wall of one shell, 83 top side near the ground, and for containing fermentate and opposite turn can occur relative to the first shell 83 It is dynamic；87 side of mixing component is fixedly installed on the inner wall of 83 feed side of the first shell, and the other side is movable to be placed in fermentation group The return flow line 95 of part 86 held in space and offer the heat exchanging liquid circulation for different temperatures, mixing component 87 are fermenting Stirring action from when component 86 rotates, and for controlling fermentate temperature in a certain temperature range；In the present embodiment, Side near the ground setting is there are three third stabilizer blade 90, third stabilizer blade 90 and the integrated molding of the first shell 83 on one shell 83, and first Feed hopper 84 and the first shell 83 are integrally formed, and the first feed hopper 84 is tapered, and material therefor is stainless steel, the first discharge bucket 85 and first shell 83 be integrally formed, the first discharge bucket 85 is square and material therefor is stainless steel, and 86 one end of fermentation module is logical It crosses fastening bolt and is fixedly connected on 83 bottom of the first shell, the other end can relatively rotate relative to the first shell 83, heat exchange Liquid is water, and in other embodiments, 83 detachable connection of the first feed hopper 84 and the first shell, heat exchange liquid can also be wine Essence, kerosene etc..

As shown in Figure 14,15, mixing component 87 includes：First mounting base 91, fixing axle 92, bend pipe 93 and temperature control component 94；The first feed hopper 84 that first mounting base 91 is fixedly installed in the first shell 83 by fastening bolt is arranged on the inner wall of side, Fixing axle 92 is fixedly connected with the first mounting base 91；The initiating terminal of bend pipe 93 is located at nearly first mounting base 91 1 in fixing axle 92 End, clearing end are located at the other end in fixing axle 92, and bend pipe 93 is used to serve as when fermentation module 86 rotate stirring blade, and with time Circulation road 95 is connected to, and temperature control component 94 is set to 83 outside of the first shell and is tightly connected with return flow line 95, and is used for reflux Heat exchanging liquid of the heat exchanging liquid and recycling of injection different temperatures after reflux in channel 95；In the present embodiment, return flow line 95 be concentric pipe, and outer tube 115 is the water inlet 88 of return flow line 95, and inner tube 114 is the water outlet of return flow line 95, and inner tube 114 length is more than the length of outer tube 115, and initiating terminal and the outer tube 115 of bend pipe 93 are connected, the clearing end and inner tube of bend pipe 93 114 connections, water enters return flow line 95 from outer tube 115, when reaching 93 initiating terminal of bend pipe while injecting each bend pipe 93, and 93 clearing end of bend pipe and 114 connectivity part of inner tube are converged to flow out from inner tube 114, and the shape of bend pipe 93 is waveform, used in bend pipe 93 Material is carbon structural steels, and in other embodiments, return flow line 95 is two parallel pipelines, and the length of water inlet line is big It is connected to outlet conduit in the initiating terminal of outlet conduit, bend pipe 93, clearing end is connected to water inlet line, and water is flow to from water inlet line When water inlet line and 93 initiating terminal connection position of bend pipe, flow to each bend pipe 93 respectively, and by being connected to 93 clearing end of bend pipe Outlet conduit flows out, and the shape of bend pipe 93 can also be helical form, and arcuation etc., bend pipe 93, which uses material, to be stainless steel.

As illustrated in figs. 13-15, temperature control component 94 includes：Liquid reserve tank 96, three-way pipe 97, hose 98, temperature inductor group 99 And solenoid valve block 100；It is that temperature control component 94 provides heat exchange liquid, liquid reserve tank 96 that liquid reserve tank 96, which is set to outside the first shell 83, On offer low temperature liquid outlet, high temperature liquid outlet and liquid collection opening, high temperature is temperature higher than fermentate but is less than 100 degrees Celsius, low Temperature is that temperature is less than fermentate temperature but higher than 0 degree Celsius, one end of three-way pipe 97 connects with the inlet sealing of return flow line 95 It connects, the other end is tightly connected with the low temperature liquid outlet of liquid reserve tank 96 and high temperature liquid outlet respectively, and one end of hose 98 and reflux are logical The liquid outlet in road 95 is tightly connected, and the liquid collection opening of the other end and liquid reserve tank 96 is tightly connected, and temperature inductor group 99 is set to solid It is electrically connected on dead axle 92 and with peripheral control unit, for detecting fermentate temperature, temperature inductor group 99 includes temperature sensor Several temperature inductors that each position for stretching into fermentate part is held with fixing axle 92 are laid, solenoid valve block 100 includes：First Solenoid valve 101 and second solenoid valve 102, the first solenoid valve 101 are set on the low temperature inlet tube 111 of three-way pipe 97, the second electricity Magnet valve 102 is set on the high temperature inlet tube 112 of three-way pipe 97, and the first solenoid valve 101 is controlled with outside with second solenoid valve 102 Device processed electrical connection, solenoid valve block 100 are used to judge that temperature is too low or mistake according to the inductive signal of temperature sensor group when controller Gao Shi, the heat exchange liquid for controlling different temperatures inject return flow line 95.

As shown in figure 14, fermentation module 86 includes：Fermenter 103, the first support base 104, first baffle 27, bulge loop 106 And first power source 107；First support base 104 is fixed on side near the ground on 83 inner wall of the first shell；Fermenter 103 rotates Formula is installed on the first support base 104 and can relatively rotate relative to the first support base 104, and for containing fermentate, First power source, 107 main body is set in the first support base 104, power output end is connected with fermenter 103, and for driving Fermenter 103 rotates, and annular groove, fermenter are offered on a certain position of 103 corresponding part of fermenter on the first shell 83 103 lateral wall, which protrudes above, has been located on bulge loop 106, and bulge loop 106 is movable to be placed in annular groove and can be relative to annular Groove relatively rotates, and first baffle 27 is set to 103 feed end of fermenter and is fixedly connected with the first shell 83, first grade Plate is used to stop that sundries is fallen between fermenter 103 and the first shell 83 in gap, in this reality from the horizontal by an acute angle It applies in example, the bottom wall of fermenter 103 is inclined inclined-plane, and third discharge port 108 is offered in bottom wall lowest point, meanwhile, the Third solenoid valve 109 is set at three discharge ports 108, third solenoid valve 109 controls the opening and closing of discharge port, to control fermentate It is exported to outside the first shell 83 by the first discharge bucket 85.

The use principle of the present embodiment is approximately as stating：

In afforestation waste fermentation process, afforestation waste is fallen to by the discharge end of feeding device 11 Rewinding case 13, by blower chamber 12, into rewinding case 13, air blast divides the afforestation waste fallen falling on the way Choosing, the first processome obtained after sorting is fallen to by blow tank 24 far from 12 one end of blower chamber defeated on the first conveyer 2 It send and carries out chopping processing into shredding mechanism 4, the third processome handled through chopping is fallen to by the first discharge port 33 Third conveyer 6 is simultaneously transported in installation for fermenting 8, and the second processome sorted is fallen to by the other end of blow tank 24 On two conveyers and it is delivered to disruption elements progress break process, the 4th processome obtained through break process passes through the second discharging Mouthfuls 52 fall on the 4th conveyer 7 and are transported in installation for fermenting 8, the third processome that is transported in installation for fermenting 8 and the Four processomes are fallen in fermenter 103, the rotation by fermenter 103 and the stirring group opposing stationary with fermenter 103 Third processome is uniformly mixed by the cooperation of part 87 with the 4th processome, meanwhile, added into fermenter 103 by water inlet 88 Water carries out fermentation process to third processome and the 4th processome.

Above example is only to illustrate the technical solution of the utility model, rather than is carried out to the protection domain of utility model Limitation, it is clear that described embodiment is only the utility model section Example, rather than whole embodiments；Based on these Embodiment, the every other embodiment that those of ordinary skill in the art are obtained without creative efforts, all Belong to the utility model scope of the claimed.

Claims (10)

1. a kind of afforestation waste fermentation system, which is characterized in that including：

Sorting unit (1), the sorting unit (1) are used for pending afforestation waste sorting to obtain containing leaf The first processome with weeds and the second processome containing branch with the branch with leaf；

The discharge end of first processome on the sorting unit (1) is set to for first processome to be delivered to down The first conveyer (2) of one processing stations；

The discharge end of second processome on the sorting unit (1) is set to for second processome to be delivered to down The second conveyor (3) of one processing stations；

Be set to the first conveyer (2) discharge end, for will convey by first conveyer (2) described first add The Worker's Stadium carries out chopping processing and obtains the shredding mechanism (4) of third processome；

Be set to the second conveyor (3) discharge end, for will convey by the second conveyor (3) described second add The Worker's Stadium carries out break process and obtains the breaker (5) of the 4th processome；

It is set to the discharge end of the third processome on the shredding mechanism (4), for the third processome to be delivered to The third conveyer (6) of next processing stations；

It is set to the discharge end of the 4th processome on the breaker (5), for the 4th processome to be delivered to 4th conveyer (7) of next processing stations；And

Be set to the third conveyer (6) and the 4th conveyer (7) discharge end, for the third processome and 4th processome carries out the installation for fermenting (8) of fermentation process.

2. afforestation waste fermentation system according to claim 1, which is characterized in that institute's installation for fermenting (8) includes：

First shell (83)；

Be set to first shell (83) far from ground side, for that will wait for that fermentate imports in first shell (83) The first feed hopper (84), it is described wait for fermentate be third processome and/or the 4th processome；

Be set to first shell (83) side near the ground, for that will complete to wait for that fermentate exports institute described in fermentation process State the first discharge bucket (85) of the first shell (83)；

It is installed on first shell (83) on the inner wall of side near the ground, for containing fermentate and can be relative to described The fermentation module (86) that one shell (83) relatively rotates；And

Side is fixedly installed in that on the inner wall of the first shell (83) feed side, the other side is movable is placed in the fermentation Component (86) holds in space and offers the return flow line circulated for the heat exchanging liquid of different temperatures from nearly bottom surface one end (95), when the fermentation module (86) rotate from stirring action, for by fermentate temperature control in a certain temperature model Enclose interior mixing component (87).

3. afforestation waste fermentation system according to claim 2, which is characterized in that mixing component (87) packet It includes：

It is fixedly installed in the first mounting base (91) of the first shell (83) inner wall upper feeding side,

The fixing axle (92) mutually assembled with first mounting base (91),

Initiating terminal is located in the fixing axle (92) nearly described first mounting base (91) one end, clearing end is located at the fixing axle (92) other end on, when the fermentation module (86) are rotated to work as stirring blade using and with the return flow line (95) The bend pipe (93) of connection, and,

Be set to first shell (83) it is external it is being tightly connected with the return flow line (95), for the return flow line (95) the temperature control component (94) of heat exchanging liquid of the heat exchanging liquid and recycling of injection different temperatures after reflux in；

The temperature control component (94) includes：

It is the liquid reserve tank (96) that the temperature control component (94) provides heat exchange liquid to be set to the first shell (83) outside, described Low temperature liquid outlet, high temperature liquid outlet and liquid collection opening are offered on liquid reserve tank (96), high temperature is that temperature is higher than the fermentate temperature But be less than 100 degrees Celsius, low temperature be temperature less than fermentate temperature but be higher than 0 degree Celsius,

The sealed connection of the inlet of one end and the return flow line (95), low temperature of the other end respectively with the liquid reserve tank (96) go out The three-way pipe (97) that liquid mouth and high temperature liquid outlet are tightly connected,

The liquid outlet of one end and the return flow line (95) is tightly connected, the liquid collection opening of the other end and the liquid reserve tank (96) seals The hose (98) of connection,

It is set to temperature being electrically connected in the fixing axle (92) and with peripheral control unit, for detecting the fermentate temperature Inductor group (99), and,

Be set on the low temperature inlet tube (111) of the three-way pipe (97) with it is on high temperature inlet tube (112) and with outside control Device electrical connection, for judging that temperature is too low or excessively high according to the inductive signal of the temperature sensor group when the controller When, control different temperatures heat exchange liquid inject the solenoid valve block (100) of the return flow line (95).

4. afforestation waste fermentation system according to claim 2, which is characterized in that fermentation module (86) packet It includes：

It is fixed on the support base of side near the ground on the first shell (83) inner wall；

It is installed on the support base and fermentation can relatively rotate relative to the support base, for containing fermentate Bucket (103)；And

Main body is set in the support base, power output end is connected with the fermenter (103), for driving the hair The first power source (107) of ferment bucket (103) rotation.

5. afforestation waste fermentation system according to claim 1, which is characterized in that sorting unit (1) packet It includes：

Rack (9),

The rack (9) is installed on far from ground one end, the feeding device (11) for providing afforestation waste,

Be fixed on the rack (9) one end near the ground, for provide sorting needed for wind-force blower chamber (12), and,

It is arranged and is connected with the blower chamber (12) in the rack (9) side, for collects through the blower chamber (12) the rewinding case (13) of the waste after sorting；

The rewinding case (13) includes：

Rewinding case (13) body；

It is fixed on the first stabilizer blade (17) that rewinding case (13) the body bottom is used to support rewinding case (13) body；

On the adjacent two side of the detachable blower chamber (12) the installation side wall for being assemblied in rewinding case (13) body, The second baffle (46) separated for the afforestation waste after will be sorted；

The blower chamber (12) includes：

Cabinet (18),

The air blower (19) being installed in the cabinet (18), and,

One end is mutually assembled with the air blower (19) outlet air end, other end is connected with rewinding case (13) the body one side wall , the guide duct (20) that the wind levels importing rewinding case (13) for manufacture the air blower (19) is internal, it is described to lead Nearly rewinding case (13) the body side is provided with the first barrier net (21) in air hose (20).

6. afforestation waste fermentation system according to claim 1, which is characterized in that shredding mechanism (4) packet It includes：

The side wall upper edge of second housing (29), second housing (29) vertical direction offers perpendicular to the sidewall direction One feed inlet (32), first charging aperture (32) opens up the first charging described in the opposite side wall upper edge in side on the second housing (29) Mouth (32) opens up direction and offers the first discharge port (33), and the first charging aperture (32) is highly higher than first discharge port (33),

Be installed on it is on the second housing (29) inner wall far from ground side, shred handle when from dissection first cut Broken portion (30), and,

Be installed on side near the ground on the second housing (29) inner wall, for contain it is to be cut mince and with first chopping Portion (30) cooperation is to be cut to mince as the first processome with the second chopping portion (31) of the chopping to be cut of mincing that will be contained；

First chopping portion (30) includes：

It is set to the second power source (35) far from ground side on the second housing (29) inner wall,

With being slided with remote in the second housing (29) for the power output end fixing assembling of second power source (35) From or close to second chopping portion (31) the second mounting base (36), and,

Slidingtype is installed on cutter assembly on second mounting base (36), that chopping processing is carried out for treating chopping object (37)；

Second chopping portion (31) includes：

Bucket (42), the bucket (42) can rotate in predetermined angular range to incite somebody to action relative to the second housing (29) Chopping object is toppled over,

It is articulated with the center position of the bucket (42) side near the ground and is carrying out shredding what the when of handling played a supportive role Support base, and,

Be set to charging side in the second housing (29), power output end and the bucket (42) bottom wall it is hinged, Third power source (45) for driving the bucket (42) to be rotated in predetermined angular range.

7. afforestation waste fermentation system according to claim 6, which is characterized in that second mounting base (36) Upper nearly second power source (35) side offers the second kidney slot (38), institute along the second mounting base (36) direction of motion Stating cutter assembly (37) includes：

Several tool aprons (39), the second mounting base (36) direction of motion described in tool apron (39) upper edge offer threaded hole；

Be installed on nearly second chopping portion (31) side on the tool apron (39), for cutting the cutter to be cut to mince (40)；And

Slidingtype is placed in second kidney slot (38) and coordinates across second kidney slot (38) and the threaded hole The tool apron (39) to be locked in the hexagon socket head cap screw of a certain position on second mounting base (36).

8. afforestation waste fermentation system according to claim 1, which is characterized in that breaker (5) packet It includes：

Broken babinet (48), broken babinet (48) side offer the second discharge port (52),

It is set to that in the broken babinet (48) far from ground one end, to carry out tentatively broken first broken for treating fragment Broken component (50), object to be broken are the second processome,

Be set to one end near the ground in the broken babinet (48), for completely broken to being carried out through tentatively broken fragment The second disruption elements (51), and,

Be installed on the broken babinet (48), be located at first crushing mechanism (49) and second crushing mechanism (49) it Between, Screen assemblies for being sieved to the fragment not up to required after first crushing mechanism (49) is broken (53)；

The Screen assemblies (53) include：

Be set to it is on broken babinet (48) inner wall, with mounting wall it is in an acute angle and will after screening do not reach require Fragment export to the sieve (73) of second discharge port (52),

Convex hole internal, for carrying the sieve (73) mounting bar (74) set on the broken babinet (48),

The second elastic component (75) being set between the sieve (73) and the mounting bar (74), and,

Be set to it is on the broken babinet (48), so that the sieve (73) vibration vibration component (76).

9. afforestation waste fermentation system according to claim 8, which is characterized in that first disruption elements (50) include：

The first bearing seat (55) being set on the parallel two side of the babinet,

With the assembly of the first bearing seat (55) rotary type, can be rotated relative to the first bearing seat (55) around axial line First rotating shaft (56),

Be sheathed in the first rotating shaft (56) and can with the rotor (57) that the first rotating shaft (56) rotate coaxially, and,

It is installed on the 4th power source (58) on the babinet lateral wall, for driving the rotor (57) to rotate；

Second disruption elements (51) include：

The second bearing seat (64) being set on the parallel two side of the babinet,

With the assembly of the second bearing seat (64) rotary type, can be rotated relative to the second bearing seat (64) around axial line Second shaft (113),

It is sheathed on the eccentric roller (65) that can be rotated coaxially on second shaft (113) and with second shaft (113),

It is installed on broken babinet (48) inner wall and the crushing cutter (66) on the eccentric roller (65) surface, and,

It is installed on the 5th power source (71) on the babinet lateral wall, for driving the shaft rotation.

10. afforestation waste fermentation system according to claim 8, which is characterized in that first conveyer ( 2), the second conveyor (3), the third conveyer (6) and the 4th conveyer (7) are conveyer belt conveyer (15)。