CN206970489U - Biogas residue organic fertilizer produces case and the biogas residue organic fertilizer production system comprising the production case - Google Patents

Abstract

Biogas residue organic fertilizer production system the utility model proposes a kind of biogas residue organic fertilizer production case and comprising the production case, the continuous production of biogas residue organic fertilizer can be realized, production efficiency is high and energy consumption is low.The biogas residue organic fertilizer produces case, including casing, the casing internal upper part are organic fertilizer production area, and bottom is discharge zone；The casing is provided with the charging aperture being connected with the organic fertilizer production area, and the discharging opening being connected with the discharge zone；Telescopic baffle assembly is provided between the organic fertilizer production area and the discharge zone, the baffle assembly may contract to the organic fertilizer production area and be connected with the discharge zone；The organic fertilizer production area, which is provided with, to be used to the biogas residue entered from the charging aperture being distributed in the cloth material unit of the baffle assembly and drying unit for drying organic fertilizer；The discharge zone is provided with the fragmentation cell for being used for the broken organic fertilizer for entering the discharge zone.

Description

Biogas residue organic fertilizer produces case and the biogas residue organic fertilizer production system comprising the production case

Technical field

The utility model belongs to technical field of fertilizer production, more particularly to a kind of biogas residue organic fertilizer produces case and includes the life Produce the biogas residue organic fertilizer production system of case.

Background technology

With being surging forward for large-sized biogas engineering, while clean energy resource is brought, substantial amounts of natural pond can be also produced daily Slag biogas slurry, if these biogas residue and biogas liquids are given it up or using improper, the wasting of resources and secondary pollution certainly will be caused.

At present, a kind of mode of biogas residue and biogas liquid is caused by processing biogas engineering：Biogas residue and biogas liquid is subjected to separation of solid and liquid, point The solid biogas residue separated out is used to produce organic fertilizer, and liquid biogas slurry, which can flow back, allocates or enter sewage pipe by multistep treatment Net.Using this processing mode, on the one hand biogas residue can be processed into organic fertilizer enters market, increases the income of enterprise, expands simultaneously Scope benefited greatly；On the other hand the pollution of biogas residue and biogas liquid is minimized indirectly, improves environment.Existing biogas residue organic fertilizer The mode of production typically by biogas residue manually is laid in into shallow pond or compared with spacious room, heap fermentation is carried out, after fermentation Drying is broken to can obtain organic fertilizer.However, the automaticity of this existing biogas residue organic fertilizer mode of production is low, production efficiency It is low, and continuous production can not be carried out.

Therefore, how to improve the production efficiency of biogas residue organic fertilizer and realize continuous production, be current be badly in need of solving one Technical problem.

Utility model content

The utility model for above-mentioned existing biogas residue organic fertilizer low production efficiency and can not quantity-produced technology ask Topic, a kind of biogas residue organic fertilizer production case and the biogas residue organic fertilizer production system comprising the production case are proposed, can realize that biogas residue has The continuous production of machine fertilizer, production efficiency is high and energy consumption is low.

In order to achieve the above object, the technical solution adopted in the utility model is：

The utility model proposes a kind of biogas residue organic fertilizer to produce case, including casing, and the casing internal upper part is given birth to for organic fertilizer Producing region, bottom are discharge zone；The casing is provided with the charging aperture that is connected with the organic fertilizer production area, and with the discharging The discharging opening that area is connected；Be provided with telescopic baffle assembly between the organic fertilizer production area and the discharge zone, it is described every Board component may contract to the organic fertilizer production area and be connected with the discharge zone；The organic fertilizer production area, which is provided with, to be used to incite somebody to action The biogas residue entered from the charging aperture is distributed in the cloth material unit of the baffle assembly and the drying unit for drying organic fertilizer； The discharge zone is provided with the fragmentation cell for being used for the broken organic fertilizer for entering the discharge zone.

Preferably, the cloth material unit includes rotatable drapery panel and the cloth hydraulic pressure for rotating the drapery panel Cylinder；The drapery panel is connected to the cabinet wall close to the charging aperture, and one end of the cloth hydraulic cylinder is connected to institute The top of casing is stated, the other end is connected to the drapery panel.

Preferably, the cloth material unit also includes being arranged at the slideway of the casing top, the cloth hydraulic cylinder with One end that the casing top is connected is slidably connected in the slideway.

Preferably, the drying unit includes some heating tubes for being arranged at the organic fertilizer production area, and set In the solar energy tabula rasa outside the casing, each heating tube is connected with the solar energy tabula rasa.

Preferably, the baffle assembly includes clapboard body, the clapboard body is mutually covered successively by more piece hollow sheeting Connect composition；The clapboard body has been internally formed cavity, be provided with the cavity be used to driving the clapboard body flexible every Plate hydraulic cylinder, the both ends of the dividing plate hydraulic cylinder are connected with the two section hollow sheetings positioned at the clapboard body both ends respectively.

Preferably, the baffle assembly also includes the elastic component being arranged in the cavity, the both ends of the elastic component It is connected respectively with the two section hollow sheetings positioned at the clapboard body both ends.

Preferably, the fragmentation cell includes cross-brace in the support frame of the cabinet wall and some is arranged at institute The cutting member in support frame is stated, some cutting members interweave in netted.

Preferably, the casing is further provided with the exhaust for discharging high hot-air in the organic fertilizer production area Pipe, and for supplementing the air inlet pipe of fresh air to the organic fertilizer production area；Between the blast pipe and the air inlet pipe It is connected with heat exchanger.

The utility model also proposes a kind of biogas residue organic fertilizer production system, including for separating the solid-liquid point of biogas residue and biogas slurry Disembark, the biogas residue organic fertilizer production case described in any one technical scheme, is connected to the solid-liquid separating machine and the natural pond as described above Feeding device between residue organic fertilizer production case, and it is connected to the drawing mechanism of the biogas residue organic fertilizer production case.

Preferably, one end of the feeding device is connected with the charging aperture of biogas residue organic fertilizer production case, its is another One end is connected with the solid-liquid separating machine, and the biogas residue isolated is delivered into the biogas residue organic fertilizer produces case；It is described go out Material device is connected with the discharging opening of biogas residue organic fertilizer production case, and the organic fertilizer of production is given birth to from the biogas residue organic fertilizer Discharged in production case.

Compared with prior art, it is the advantages of the utility model with beneficial effect：

1st, biogas residue organic fertilizer production cloth material unit, drying unit, dividing plate group of the case by setting provided by the utility model The mutual cooperation of part and fragmentation cell, realize from biogas residue cloth and expect that organic fertilizer is dried, then oneself of overall process is crushed to organic fertilizer Dynamicization continuous production, improves production efficiency, reduces energy consumption；

2nd, biogas residue organic fertilizer production system provided by the utility model is organic by solid-liquid separating machine, feeding device, biogas residue The cooperation of fertilizer production case and drawing mechanism, the organic fertilizer production that is separated to from biogas residue and biogas liquid is realized, then arrive discharging overall process Automatic continuous production, production efficiency is improved, reduce energy consumption.

Brief description of the drawings

Fig. 1 is the structural representation that the biogas residue organic fertilizer that the utility model embodiment provides produces case；

Fig. 2 is the structural representation for the cloth material unit that the utility model embodiment provides；

Fig. 3 is the sectional view of the line A-A along Fig. 2；

Fig. 4 is the front view for the baffle assembly that the utility model embodiment provides；

Fig. 5 is the top view for the baffle assembly that the utility model embodiment provides；

Fig. 6 is the structural representation for the fragmentation cell that the utility model embodiment provides；

Fig. 7 is that the biogas residue organic fertilizer that the utility model embodiment provides produces one of use state diagram of case；

Fig. 8 is the two of the use state diagram that the biogas residue organic fertilizer that the utility model embodiment provides produces case；

Fig. 9 is the structural representation for the biogas residue organic fertilizer production system that the utility model embodiment provides；

Above in each figure：1st, casing；2nd, charging aperture；3rd, drying unit；31st, heating tube；32nd, solar energy tabula rasa；4th, cloth Unit；41st, drapery panel；42nd, cloth hydraulic cylinder；43rd, slideway；5th, organic fertilizer production area；6th, baffle assembly；61st, clapboard body； 611st, hollow sheeting；62nd, cavity；63rd, dividing plate hydraulic cylinder；64th, elastic component；7th, discharge zone；8th, fragmentation cell；81st, support frame；82、 Cutting member；9th, discharging opening；10th, blast pipe；11st, air inlet pipe；12nd, heat exchanger；13rd, solid-liquid separating machine；14th, feeding device；15th, natural pond Residue organic fertilizer produces case；16th, drawing mechanism.

Embodiment

Below, the utility model is specifically described by exemplary embodiment.It should be appreciated, however, that do not having In the case of being further discussed below, element, structure and features in an embodiment can also be advantageously incorporated into other implementations In mode.

, it is necessary to explanation, the orientation of the instruction such as term " interior ", " outer ", " on ", " under " in description of the present utility model Or position relationship is the position relationship shown in based on accompanying drawing 1, it is for only for ease of description the utility model and simplifies description, without It is instruction or implies that signified device or element there must be specific orientation, with specific azimuth configuration and operation, therefore not It is understood that as to limitation of the present utility model.

As shown in figure 1, the utility model proposes a kind of biogas residue organic fertilizer to produce case, including casing 1, the internal upper part of casing 1 are Organic fertilizer production area 5, bottom are discharge zone 7；Casing 1 is provided with the charging aperture 2 being connected with organic fertilizer production area 5, and with going out The discharging opening 9 that material area 7 is connected；Telescopic baffle assembly 6, baffle assembly are provided between organic fertilizer production area 5 and discharge zone 7 6 may contract to organic fertilizer production area 5 is connected with discharge zone 7, and then the organic fertilizer for obtaining the production of organic fertilizer production area 5 enters Enter discharge zone 7；Organic fertilizer production area 5 is provided with the cloth material unit for being used for that the biogas residue entered from charging aperture 2 to be distributed in baffle assembly 6 4 and for drying the drying unit 3 of organic fertilizer；Discharge zone 7 is provided with the fragmentation cell for being used for the broken organic fertilizer into discharge zone 7 8。

As shown in figure 1, the cloth material unit 4 in the production case is used to the biogas residue entered from charging aperture 2 being distributed in dividing plate group On part 6, to ensure biogas residue uniform fermentation in case is produced.In a specific embodiment of the present utility model, such as Fig. 2 and Fig. 3 institutes Show, cloth material unit 4 includes rotatable drapery panel 41 and the cloth hydraulic cylinder 42 for rotating drapery panel 41；Drapery panel 41 connects In the inwall of casing 1 close to charging aperture 2, one end of cloth hydraulic cylinder 42 is connected to the top of casing 1, and the other end is connected to cloth Plate 41.It should be noted that drapery panel 41 can use be hinged connected mode with the inwall of casing 1, in order to turning for drapery panel 41 It is dynamic.During cloth, by the flexible drive drapery panel 41 of cloth hydraulic cylinder 42 using the tie point of drapery panel 41 and the inwall of casing 1 for turn Axle horizontally rotates, and then makes the diverse location that baffle assembly 6 is slided to along drapery panel 41 from the biogas residue that charging aperture 2 enters, and reaches natural pond The uniform effect of slag, ensure that biogas residue is deposited in uniform fermentation on baffle assembly 6.It is understood that those skilled in the art are also The cloth material unit 4 of other structures can be used, as long as biogas residue can be made to be distributed on baffle assembly 6.

Further, in the present embodiment, as shown in figure 3, cloth material unit 4 also includes the slideway for being arranged at the top of casing 1 43, one end that cloth hydraulic cylinder 42 is connected with the top of casing 1 is slidably connected in slideway 43.It should be noted that such as Fig. 2 institutes Show, the setting direction of slideway 43 is with the rotary motion trace of drapery panel 41 in same perpendicular.During cloth, with drapery panel 41 Rotate, cloth hydraulic cylinder 42 is slided along slideway 43 to adjust position of the cloth hydraulic cylinder 42 at the top of casing 1, so that drapery panel 41 have bigger rotation space, biogas residue is slided to whole positions of baffle assembly 6 along drapery panel 41.In addition it is also necessary to Illustrate, in the utility model, cloth hydraulic cylinder 42 and the connected mode at the top of casing 1 are not limited to above by slideway The connected mode of 43 connections, those skilled in the art can also use be hinged or other rational connected modes by cloth hydraulic pressure Cylinder 42 is connected to the top of casing 1, as long as cloth hydraulic cylinder 42 can be made to drive drapery panel 41 to horizontally rotate, and ensures that biogas residue can Each position of baffle assembly 6 is slided to along drapery panel 41.

As shown in figure 1, the drying unit 3 in the production case is used to dry the organic fertilizer that biogas residue fermentation obtains.In this practicality In a new specific embodiment, as shown in figure 1, drying unit 3 includes some heating tubes for being arranged at organic fertilizer production area 5 31, and the solar energy tabula rasa 32 being arranged at outside casing 1, each heating tube 31 be connected with solar energy tabula rasa 32.This sun The drying unit 3 that energy tabula rasa 32 is engaged with heating tube 31, the energy of heating tube 31 is used as by the use of this clean energy resource of solar energy Source, it is achieving environmental protection and energy saving.

As shown in figure 1, the baffle assembly 6 in the production case is scalable, and when baffle assembly 6 extends completely, baffle assembly 6 Play a part of carrying biogas residue；When baffle assembly 6 shrinks so that by the organic fertilizer production area 5 that baffle assembly 6 is split and discharging Area 7 is interconnected, and the organic fertilizer that organic fertilizer production area 5 produces falls into discharge zone 7 under self gravitation effect.

In a specific embodiment of the present utility model, as shown in Figure 4 and Figure 5, baffle assembly 6 includes clapboard body 61, By more piece hollow sheeting 611, mutually socket is formed clapboard body 61 successively；Clapboard body 61 has been internally formed cavity 62, in cavity 62 Provided with for driving the flexible dividing plate hydraulic cylinder 63 of clapboard body 61, the both ends of dividing plate hydraulic cylinder 63 respectively with positioned at clapboard body The two section hollow sheetings 611 at 61 both ends are connected.The baffle assembly 6 that the present embodiment provides by the contraction of dividing plate hydraulic cylinder 63, Drive the hollow sheeting 611 of the one end of clapboard body 61 to be moved to the direction of the other end of clapboard body 61, and then drive in more piece Hollow plate 611 moves successively, realizes the contraction of clapboard body 61.It is understood that those skilled in the art can also use The baffle assembly 6 of other structures, as long as baffle assembly 6 can stretch so that organic fertilizer production area 5 is interconnected i.e. with discharge zone 7 Can.

Further, as shown in figure 5, baffle assembly 6 also includes the elastic component 64 being arranged in cavity 62, elastic component 64 Both ends are connected with the two section hollow sheetings 611 positioned at the both ends of clapboard body 61 respectively.Can be auxiliary by the elastic component 64 of setting Help dividing plate hydraulic cylinder 63 to extend clapboard body 61, avoid causing dividing plate because of the loss of dividing plate hydraulic cylinder 63 after long-time use The phenomenon that body 61 can not extend completely, extend the service life of dividing plate hydraulic cylinder 63.It should be noted that as shown in figure 5, In the present embodiment, elastic component 64 is specially spring.It is understood that those skilled in the art can also use other bullets Property part 64, as long as can accessory septa hydraulic cylinder 63 make clapboard body 61 extend.

In addition it is also necessary to explanation, baffle assembly 6 can include multiple clapboard bodies 61, for example, in the present embodiment In, as shown in figure 1, baffle assembly 6 includes two clapboard bodies 61, middle part of two clapboard bodies 61 along casing 1 is respectively to case The sidewall shrink of the both sides of body 1.In addition, the dividing plate hydraulic cylinder 63 and elastic component 64 that are set in each clapboard body 61 can be more It is individual, for example, as shown in figure 5, in the present embodiment, the dividing plate hydraulic cylinder 63 set in each clapboard body 61 is 2, elastic component 64 be 4, and multiple dividing plate hydraulic cylinders 63 and elastic component 64 are distributed in the cavity 62 of clapboard body 61.

As shown in figure 1, the fragmentation cell 8 in the production case is used to that the organic of discharge zone 7 will to be entered from organic fertilizer production area 5 Fertilizer is broken into fritter, in order to be flowed out from discharging opening 9.In a specific embodiment of the present utility model, as shown in fig. 6, broken Unit 8 includes the support frame 81 and some cutting members 82 being arranged in support frame 81 cross-brace in the inwall of casing 1, some to cut Cutter member 82 interweaves in netted.When dropping down onto fragmentation cell 8 under organic fertilizer, as organic fertilizer is under the continuation under self gravitation effect Fall, interweave and organic fertilizer is cut into fritter in netted some cutting members 82, reach the purpose of broken organic fertilizer.This structure Fragmentation cell 8 can only complete the broken of organic fertilizer in the presence of machine fertilizer self gravitation, more save without external force.

In addition, as shown in figure 1, casing 1 is further provided with the blast pipe for discharging high hot-air in organic fertilizer production area 5 10, and for supplementing the air inlet pipe 11 of fresh air to organic fertilizer production area 5.In order to make full use of the height that blast pipe 10 is discharged Heat in hot-air, in the present embodiment, heat exchanger 12 is connected between blast pipe 10 and air inlet pipe 11.Pass through changing for setting The heat transfer of high hot-air in blast pipe 10 to the fresh air in air inlet pipe 11, is improved the utilization of heat by hot device 12 Rate, the energy is saved.It should be noted that heat exchanger 12 can use shell-and-tube heat exchanger commonly used in the art, plate type heat exchanger, Various forms of heat exchangers such as movable tube sheets heat exchanger, if can make high hot-air in blast pipe 10 with it is new in air inlet pipe 11 Fresh air carries out the exchange of heat.

In addition, it should also be noted that, as shown in figure 1, the bottom of the casing 1 of the production case is tapered, in order to make brokenly Organic fertilizer after broken unit 8 is broken is come together at discharging opening 9.

It is as follows referring to Fig. 7 and Fig. 8, the course of work of the production case：

As shown in fig. 7, biogas residue enters the organic fertilizer production area 5 of casing 1 from the charging aperture 2 of casing 1, pass through cloth material unit 4 In the flexible drive drapery panel 41 of cloth hydraulic cylinder 42 rotate, and then biogas residue is slided to the interval of baffle assembly 6 along drapery panel 41 The diverse location of plate body 61, biogas residue is set to be distributed in clapboard body 61.Biogas residue heap fermentation on baffle assembly 6 obtains organic Fertilizer, while dried the organic fertilizer after fermentation by drying unit 3.Then, as shown in figure 8, being driven by dividing plate hydraulic cylinder 63 Clapboard body 61 is shunk, and organic fertilizer production area 5 is interconnected with discharge zone 7, the organic fertilizer after drying is in self gravitation effect Under, fall into discharge zone 7 from organic fertilizer production area 5.When dropping down onto fragmentation cell 8 under organic fertilizer, continue to fall with organic fertilizer, Interweave and organic fertilizer is cut into fritter in netted some cutting members 82, the organic fertilizer after crushing comes together in the discharging opening 9 of casing 1 Place.Finally, the elongation of clapboard body 61 makes organic fertilizer production area 5 separate completely with discharge zone 7, carries out the circulation production of next round.

The utility model proposes biogas residue organic fertilizer produce cloth material unit 4, drying unit 3, dividing plate group of the case by setting The mutual cooperation of part 6 and fragmentation cell 8, realize from biogas residue cloth and expect that organic fertilizer is dried, then overall process is crushed to organic fertilizer Automatic continuous production, production efficiency is improved, reduce energy consumption.

As shown in figure 9, the utility model also proposes a kind of biogas residue organic fertilizer production system, including for separating biogas residue and natural pond The solid-liquid separating machine 13 of liquid, the biogas residue organic fertilizer production case 15 described in any of the above-described embodiment, is connected to solid-liquid separating machine 13 Feeding device 14 between biogas residue organic fertilizer production case 15, and it is connected to the drawing mechanism of biogas residue organic fertilizer production case 15 16.One end of feeding device 14 is connected with the charging aperture 2 of biogas residue organic fertilizer production case 15, its other end and solid-liquid separating machine 13 It is connected, the biogas residue isolated is delivered to biogas residue organic fertilizer production case 15；Drawing mechanism 16 and biogas residue organic fertilizer production case 15 discharging opening 9 is connected, and the organic fertilizer of production is produced in case 15 from biogas residue organic fertilizer and discharged.

It should be noted that the solid-liquid separating machine 13 in the biogas residue organic fertilizer production system is prior art, it is not right herein Its structure elaborates.In addition, as shown in figure 9, feeding device 14 is specially a conveying spiral in the present embodiment, discharging fills It is specially a discharging spiral in the present embodiment to put 16.Because the concrete structure of conveying spiral and discharging spiral is this area skill Known to art personnel, therefore, its structure is not elaborated herein.

The course of work of the biogas residue organic fertilizer production system is as follows：

Caused biogas residue in biogas engineering is separated with biogas slurry by solid-liquid separating machine 13, the biogas residue isolated passes through conveying Device 14 is delivered in biogas residue organic fertilizer production case 15, and biogas residue is fermented in biogas residue organic fertilizer produces case 15 through biogas residue, organic fertilizer The production processes such as drying and organic fertilizer are broken obtain biogas residue organic fertilizer, have the organic fertilizer of production from biogas residue by drawing mechanism 16 Discharged in machine fertilizer production case 15.

The utility model proposes biogas residue organic fertilizer production system have by solid-liquid separating machine 13, feeding device 14, biogas residue The cooperation of machine fertilizer production case 15 and drawing mechanism 16, the organic fertilizer production that is separated to from biogas residue and biogas liquid is realized, then it is complete to discharging The automatic continuous production of process, improves production efficiency, reduces energy consumption.

Claims (10)

1. biogas residue organic fertilizer produces case, including casing (1), it is characterised in that：Casing (1) internal upper part is organic fertilizer production area (5), bottom is discharge zone (7)；The casing (1) is provided with the charging aperture (2) being connected with the organic fertilizer production area (5), with And the discharging opening (9) being connected with the discharge zone (7)；

Telescopic baffle assembly (6), the dividing plate group are provided between the organic fertilizer production area (5) and the discharge zone (7) Part (6) may contract to the organic fertilizer production area (5) and be connected with the discharge zone (7)；

The organic fertilizer production area (5), which is provided with, to be used to the biogas residue entered from the charging aperture (2) being distributed in the baffle assembly (6) cloth material unit (4) and the drying unit (3) for drying organic fertilizer；

The discharge zone (7) is provided with the fragmentation cell (8) for being used for the broken organic fertilizer for entering the discharge zone (7).

2. biogas residue organic fertilizer according to claim 1 produces case, it is characterised in that：The cloth material unit (4) includes turning Dynamic drapery panel (41) and the cloth hydraulic cylinder (42) for rotating the drapery panel (41)；The drapery panel (41), which is connected to, leans on The casing (1) inwall of the nearly charging aperture (2), one end of the cloth hydraulic cylinder (42) is connected to the casing (1) Top, the other end are connected to the drapery panel (41).

3. biogas residue organic fertilizer according to claim 2 produces case, it is characterised in that：The cloth material unit (4) also includes setting The slideway (43) being placed at the top of the casing (1), the cloth hydraulic cylinder (42) and the one end being connected at the top of the casing (1) It is slidably connected in the slideway (43).

4. biogas residue organic fertilizer according to claim 1 produces case, it is characterised in that：The drying unit (3) includes some The heating tube (31) of the organic fertilizer production area (5) is arranged at, and is arranged at the solar energy tabula rasa of the casing (1) outside (32), each heating tube (31) is connected with the solar energy tabula rasa (32).

5. biogas residue organic fertilizer according to claim 1 produces case, it is characterised in that：The baffle assembly (6) includes dividing plate Body (61), by more piece hollow sheeting (611), mutually socket is formed the clapboard body (61) successively；In the clapboard body (61) Formed with cavity (62), the cavity (62) is interior to be provided with the dividing plate hydraulic cylinder for being used for driving the clapboard body (61) flexible in portion (63), the both ends of the dividing plate hydraulic cylinder (63) positioned at the two of the clapboard body (61) both ends respectively with saving hollow sheeting (611) it is connected.

6. biogas residue organic fertilizer according to claim 5 produces case, it is characterised in that：The baffle assembly (6) also includes setting The elastic component (64) being placed in the cavity (62), the both ends of the elastic component (64) respectively with positioned at the clapboard body (61) The two section hollow sheetings (611) at both ends are connected.

7. biogas residue organic fertilizer according to claim 1 produces case, it is characterised in that：The fragmentation cell (8) is included laterally The support frame (81) of the casing (1) inwall and some cutting members (82) being arranged in support frame as described above (81) are supported in, if The dry cutting member (82) interweaves in netted.

8. biogas residue organic fertilizer according to claim 1 produces case, it is characterised in that：The casing (1) is further provided with using In the blast pipe (10) for discharging high hot-air in the organic fertilizer production area (5), and for the organic fertilizer production area (5) Supplement the air inlet pipe (11) of fresh air；Heat exchanger (12) is connected between the blast pipe (10) and the air inlet pipe (11).

9. biogas residue organic fertilizer production system, it is characterised in that：Including the solid-liquid separating machine (13) for separating biogas residue and biogas slurry, such as Biogas residue organic fertilizer production case (15) described in claim any one of 1-8, is connected to the solid-liquid separating machine (13) and the natural pond Feeding device (14) between residue organic fertilizer production case (15), and it is connected to the discharging of the biogas residue organic fertilizer production case (15) Device (16).

10. biogas residue organic fertilizer production system according to claim 9, it is characterised in that：The one of the feeding device (14) The charging aperture (2) with biogas residue organic fertilizer production case (15) is held to be connected, its other end and the solid-liquid separating machine (13) phase Connection, the biogas residue isolated is delivered to the biogas residue organic fertilizer and produces case (15)；The drawing mechanism (16) and the natural pond The discharging opening (9) of residue organic fertilizer production case (15) is connected, and the organic fertilizer of production is produced into case from the biogas residue organic fertilizer (15) discharged in.