CN203530158U - Industrial organic fertilizer production line - Google Patents

Abstract

The utility model discloses an industrial organic fertilizer production line which comprises a filling production line (1), a culture room (4), a separation system (6) and an organic fertilizer production system (13), wherein the filling production line (1) is connected with the culture room (4) through a transfer trolley (3); the culture room (4) is connected with the separation system (6) through the transfer trolley (3); the separation system (6) is connected with the organic fertilizer production system (13). By adopting the industrial organic fertilizer production line disclosed by the utility model, organic waste can be pretreated and is subjected to biotransformation production by larva of musca domestica by use of full-automatic equipment to obtain organic fertilizer finally. The industrial organic fertilizer production line has the advantages of high mechanization degree and high production efficiency. The production cycle is remarkably shortened, and the labor intensity of workers is reduced.

Description

A kind of industrialization organic fertilizer production line

Technical field

The utility model relates to a kind of industrialization organic fertilizer production line.

Background technology

Fertilizer, through biomass, animals and plants waste, plant residue processing, has been eliminated hazardous and noxious substances wherein, is rich in a large amount of abundant nutritive elements.Current organic fertilizer production mode mainly contains following several: by the farm manure of biomass nature stack retting, the bio-bacterial manure that biomass is added after physics and chemistry is processed to specific microorganism fermentation and the composite fertilizer that adds the elements such as N, P, K on bio-bacterial manure basis.

Fertilizer major part comes from microbiological treatment technology now, but microbiological treatment biomass technology can only produce general fertilizer, and often processing is not thorough, on the one hand, can not effectively reduce objectionable impurities remaining in raw material; On the other hand, fermentation period is long, efficiency is low, the not additional output value.And fly maggot bio-transformation mode not only can be produced high-quality insect protein and biological organic fertilizer starting material simultaneously, and processing speed is fast, efficiency is high, the derivative output value is high.Now, along with scientific and technical development, by the artificial screening of fly maggot, separated, domestication culture technique, after fly maggot produce to transform, bed material carries out after harmless treatment as organic fertilizer production starting material, can produce serial organic fertilizer product, it is rich in chitin, wallantoin, insect metabolite and the insect corpse such as small molecules amino acid, organic content is high, chitin can excite with reinforced soil in being multiplied of quantity of useful microbe, can alleviate disease, can powerfully decompose, harmful chemical in degraded soil, remove harmful chemical residual of accumulating in soil, adjust the potential of hydrogen of soil to being applicable to plant growth, improve soil aggregate, promote the metabolism of crop chloroplast(id), improve output, wallantoin can promote the absorption of farm crop to nutrient, stimulating growth, abundant organic mass-energy conditioned soil earth, reaches the effect of preserve moisture and fertility.

After industrialization fly maggot produce to transform, containing abundant nutritive ingredient, comprise the nutritive substances such as a large amount of robust fibre and a small amount of plant crude protein, starch, is important renewable organic resource, has great potentiality.

Housefly is cosmopolitan, take organic waste as breeding place, has reproductivity strong, can scale clean cultivation, and polypide is of high nutritive value, and has the features such as ability of administering organic contamination.Musca domestica larva after fly maggot produce to transform in bed material to grow density very high.Utilizing full-automatic production of fly maggot is a kind for the treatment of process of producing fertilizer and animal health albumen, and the method can safe and efficient acquisition bio-organic fertilizer.

Utilizing fly maggot to produce is a kind of new organic fertilizer production method, the method can obtain bio-organic fertilizer safely and efficiently, reduce and pollute, this case contriver has also submitted a patent of invention that denomination of invention is " a kind of organic fertilizer production technique " on the same day to, this patent of invention has been recorded the processing method of utilizing fly maggot to produce fertilizer, but this processing method adopts pure manual operation, has mechanization degree low, the shortcoming that staff's labour intensity is large and the production cycle is long.

Utility model content

The purpose of this utility model is, a kind of industrialization organic fertilizer production line is provided, it can carry out pre-treatment to organic waste, utilize automatic equipment to make Musca domestica larva carry out bio-transformation production to organic waste, the final organic fertilizer that obtains, there is mechanization degree high, the advantage that production efficiency is high.Significantly reduce the production cycle, reduced labor strength.

The technical solution of the utility model: a kind of industrialization organic fertilizer production line, between comprising filling production lines, cultivating, separation system and organic fertilizer production system, filling production lines by transport carriage with cultivate between be connected, between cultivation, by transport carriage, be connected with separation system, separation system is connected with organic fertilizer production system.

In aforesaid this industrialization organic fertilizer production line, described filling production lines comprises dosing unit, empty basin travelling belt, stirrer, worktable, feed basin, material conveyor belt and commutation travelling belt, dosing unit is fixedly installed on worktable, stirrer is arranged on the top of commutation travelling belt one end, the other end of commutation travelling belt is located at the top at sky basin travelling belt middle part, between the bottom of dosing unit and the top of stirrer, be provided with the material conveyor belt being obliquely installed, the two ends of empty basin travelling belt are respectively equipped with feed basin riser.

In aforesaid this industrialization organic fertilizer production line, described dosing unit comprises proportioning machine A and proportioning machine B, and the capacity of proportioning machine A is greater than the capacity of proportioning machine B.

In aforesaid this industrialization organic fertilizer production line, described material conveyor belt and horizontal plane angle α are 15 °～35 °.

In aforesaid this industrialization organic fertilizer production line, described stirrer be provided with water-in.

In aforesaid this industrialization organic fertilizer production line, feed basin riser comprises guide frame, lift frame, screw rod, transmission mechanism, erecting frame, liner and power set, lift frame is located at the upper end of guide frame, erecting frame is located in lift frame, transmission mechanism and erecting frame are connected and fixed, screw rod is located in lift frame and screw rod is connected with transmission mechanism, and liner is located at the top of lift frame, and top and power set that power set is located at liner are connected with transmission mechanism.

In aforesaid this industrialization organic fertilizer production line, be provided with rack between described cultivation, rack is provided with dividing plate, and feed basin is located on dividing plate, and the spacing between every two dividing plates is 50cm～60cm.

In aforesaid this industrialization organic fertilizer production line, described separation system comprises material conveyor belt, worktable, vibration feeding device, bracing or strutting arrangement, material transferring decker and screen cloth, material conveyor belt is located on worktable, one end of material conveyor belt is connected with vibration feeding device by bracing or strutting arrangement, the below of vibration feeding device is located in one end of material transferring decker, the other end of material transferring decker is provided with screen cloth, and the top of vibration feeding device is provided with continuous feeder.

In aforesaid this industrialization organic fertilizer production line, the top of described material transferring decker is provided with illumination system and gear scraper plate, and the postmedian of material transferring decker is provided with fertilizer and spreads out of device; The below of described screen cloth is provided with bed material and spreads out of device, and the top of screen cloth is provided with slagging-off brush.

In aforesaid this industrialization organic fertilizer production line, described organic fertilizer production system comprises mixing and blending machine, pulverizer, drying room, sieve apparatus, heavy metal machines and the wrapping machine connecting successively.

Compared with prior art, the utility model by filling production lines is set, cultivate between, separation system and organic fertilizer production system, change traditional artificial production fertilizer into mechanization production fertilizer, the great raising that the production efficiency of fertilizer is obtained, and realized the resource type treating that organic waste pollutes.

With 20000 tons of industrial scales, calculate, traditional technology probably needs 120 workmans, and adopts the utility model technology only need to use 80 people left and right.

Because insect has good ecological suitability, no matter how severe growth conditions is, can carry out self-regulation according to environment, carries out coevolution, and then form new specific population.In view of housefly is cosmopolitan, adaptable, can through engineering approaches raise, can rapid conversion feces of livestock and poultry etc. organic waste produce efficient organic fertilizer and high-quality fly maggot protein; And adopt local wild housefly population to induce, can evade and adopt microorganism to administer on the spot nontoxic discarded organic waste.And the utility model adopts the full-automatic housefly production fly strain that adapts to the bio-transformation of non-toxic organic waste of cultivating, increase substantially transformation efficiency, resource type treating organic waste pollutes.

Accompanying drawing explanation

Fig. 1 is one-piece construction schematic diagram of the present utility model;

Fig. 2 is the structural representation of filling production lines;

Fig. 3 is the local structure schematic diagram of filling production lines;

Fig. 4 is the vertical view of filling production lines;

Fig. 5 is the structural representation of feed basin riser;

Fig. 6 is the structural representation of rack;

Fig. 7 is the front view of separation system;

Fig. 8 is the vertical view of separation system;

Fig. 9 is the process flow sheet of producing fertilizer.

Being labeled as in accompanying drawing: 1-filling production lines, 2-dosing unit, 3-transport carriage, between 4-cultivates, 5-water-in, 6-separation system, 7-mixing and blending machine, 8-pulverizer, 9-drying room, 10-sieve apparatus, 11-heavy metal machines, 12-wrapping machine, 13-organic fertilizer production system, 14-guide frame, 15-lift frame, 16-screw rod, 17-proportioning machine B, 18-transmission mechanism, 19-erecting frame, 20-liner, 21-power set, 22-rack, 23-proportioning machine A, the 24-travelling belt that commutates, 25-material conveyor belt, 26-feed basin, 27-material conveyor belt, 28-worktable, 29-vibration feeding device, 30-bracing or strutting arrangement, 31-material transferring decker, 32-screen cloth, 33-continuous feeder, 34-illumination system, 35-keeps off scraper plate, 36-fertilizer spreads out of device, 37-bed material spreads out of device, the 38-brush that removes the gred, 39-dividing plate, 40-feed basin riser, the empty basin travelling belt of 41-, 42-stirrer, 43-worktable.

Embodiment

Below in conjunction with drawings and Examples, the utility model is further described, but not as the foundation to the utility model restriction.

Embodiment 1 of the present utility model: as shown in Figure 1, a kind of industrialization organic fertilizer production line, comprise filling production lines 1, cultivate between 4, separation system 6 and organic fertilizer production system 13, between filling production lines 1 passes through transport carriage 3 and cultivates, 4 are connected, between cultivation, 4 are connected with separation system 6 by transport carriage 3, and separation system 6 is connected with organic fertilizer production system 13.

As shown in Figure 2 and Figure 4, filling production lines 1 comprises dosing unit 2, empty basin travelling belt 41, stirrer 42, worktable 43, feed basin 26, material conveyor belt 25 and commutation travelling belt 24, dosing unit 2 is fixedly installed on worktable 43, stirrer 42 is arranged on the top of commutation travelling belt 24 one end, the other end of commutation travelling belt 24 is located at the top at sky basin travelling belt 41 middle parts, between the top of the bottom of dosing unit 2 and stirrer 42, be provided with the material conveyor belt 25 being obliquely installed, the two ends of empty basin travelling belt 41 are respectively equipped with feed basin riser 40.

As shown in Figure 3, dosing unit 2 comprises proportioning machine A23 and proportioning machine B17, and the capacity of proportioning machine A23 is greater than the capacity of proportioning machine B17.Described material conveyor belt 25 is 25 ° with horizontal plane angle α.Described stirrer 42 be provided with water-in 5.

As shown in Figure 5, feed basin riser 40 comprises guide frame 14, lift frame 15, screw rod 16, transmission mechanism 18, erecting frame 19, liner 20 and power set 21, lift frame 15 is located at the upper end of guide frame 14, erecting frame 19 is located in lift frame 15, transmission mechanism 18 is connected and fixed with erecting frame 19, screw rod 16 is located in lift frame 15 and screw rod 16 is connected with transmission mechanism 18, liner 20 is located at the top of lift frame 15, and top and power set 21 that power set 21 is located at liner 20 are connected with transmission mechanism 18.

As shown in Figure 6, between cultivation, be provided with rack 22 in 4, rack 22 is provided with dividing plate 39, and feed basin 26 is located on dividing plate 39, and the spacing between every two dividing plates 39 is 45cm.

As shown in Figure 7 and Figure 8, separation system 6 comprises material conveyor belt 27, worktable 28, vibration feeding device 29, bracing or strutting arrangement 30, material transferring decker 31 and screen cloth 32, material conveyor belt 27 is located on worktable 28, one end of material conveyor belt 27 is connected with vibration feeding device 29 by bracing or strutting arrangement 30, the below of vibration feeding device 29 is located in one end of material transferring decker 31, the other end of material transferring decker 31 is provided with screen cloth 32, and the top of vibration feeding device 29 is provided with continuous feeder 33.

The top of described material transferring decker 31 is provided with illumination system 34 and gear scraper plate 35, and the postmedian of material transferring decker 31 is provided with fertilizer and spreads out of device 36; The below of described screen cloth 32 is provided with bed material and spreads out of device 37, and the top of screen cloth 32 is provided with slagging-off brush 38.

Described organic fertilizer production system 13 comprises mixing and blending machine 7, pulverizer 8, drying room 9, sieve apparatus 10, heavy metal machines 11 and the wrapping machine 12 connecting successively.

Embodiment 2 of the present utility model: as shown in Figure 1, a kind of industrialization organic fertilizer production line, comprise filling production lines 1, cultivate between 4, separation system 6 and organic fertilizer production system 13, between filling production lines 1 passes through transport carriage 3 and cultivates, 4 are connected, between cultivation, 4 are connected with separation system 6 by transport carriage 3, and separation system 6 is connected with organic fertilizer production system 13.

As shown in Figure 2 and Figure 4, filling production lines 1 comprises dosing unit 2, empty basin travelling belt 41, stirrer 42, worktable 43, feed basin 26, material conveyor belt 25 and commutation travelling belt 24, dosing unit 2 is fixedly installed on worktable 43, stirrer 42 is arranged on the top of commutation travelling belt 24 one end, the other end of commutation travelling belt 24 is located at the top at sky basin travelling belt 41 middle parts, between the top of the bottom of dosing unit 2 and stirrer 42, be provided with the material conveyor belt 25 being obliquely installed, the two ends of empty basin travelling belt 41 are respectively equipped with feed basin riser 40.

As shown in Figure 3, dosing unit 2 comprises proportioning machine A23 and proportioning machine B17, and the capacity of proportioning machine A23 is greater than the capacity of proportioning machine B17.Described material conveyor belt 25 is 15 ° with horizontal plane angle α.Described stirrer 42 be provided with water-in 5.

As shown in Figure 5, feed basin riser 40 comprises guide frame 14, lift frame 15, screw rod 16, transmission mechanism 18, erecting frame 19, liner 20 and power set 21, lift frame 15 is located at the upper end of guide frame 14, erecting frame 19 is located in lift frame 15, transmission mechanism 18 is connected and fixed with erecting frame 19, screw rod 16 is located in lift frame 15 and screw rod 16 is connected with transmission mechanism 18, liner 20 is located at the top of lift frame 15, and top and power set 21 that power set 21 is located at liner 20 are connected with transmission mechanism 18.

As shown in Figure 6, between cultivation, be provided with rack 22 in 4, rack 22 is provided with dividing plate 39, and feed basin 26 is located on dividing plate 39, and the spacing between every two dividing plates 39 is 50cm.

As shown in Figure 7 and Figure 8, separation system 6 comprises material conveyor belt 27, worktable 28, vibration feeding device 29, bracing or strutting arrangement 30, material transferring decker 31 and screen cloth 32, material conveyor belt 27 is located on worktable 28, one end of material conveyor belt 27 is connected with vibration feeding device 29 by bracing or strutting arrangement 30, the below of vibration feeding device 29 is located in one end of material transferring decker 31, the other end of material transferring decker 31 is provided with screen cloth 32, and the top of vibration feeding device 29 is provided with continuous feeder 33.

The top of described material transferring decker 31 is provided with illumination system 34 and gear scraper plate 35, and the postmedian of material transferring decker 31 is provided with fertilizer and spreads out of device 36; The below of described screen cloth 32 is provided with bed material and spreads out of device 37, and the top of screen cloth 32 is provided with slagging-off brush 38.

Described organic fertilizer production system 13 comprises mixing and blending machine 7, pulverizer 8, drying room 9, sieve apparatus 10, heavy metal machines 11 and the wrapping machine 12 connecting successively.

Embodiment 3 of the present utility model: as shown in Figure 1, a kind of industrialization organic fertilizer production line, comprise filling production lines 1, cultivate between 4, separation system 6 and organic fertilizer production system 13, between filling production lines 1 passes through transport carriage 3 and cultivates, 4 are connected, between cultivation, 4 are connected with separation system 6 by transport carriage 3, and separation system 6 is connected with organic fertilizer production system 13.

As shown in Figure 2 and Figure 4, filling production lines 1 comprises dosing unit 2, empty basin travelling belt 41, stirrer 42, worktable 43, feed basin 26, material conveyor belt 25 and commutation travelling belt 24, dosing unit 2 is fixedly installed on worktable 43, stirrer 42 is arranged on the top of commutation travelling belt 24 one end, the other end of commutation travelling belt 24 is located at the top at sky basin travelling belt 41 middle parts, between the top of the bottom of dosing unit 2 and stirrer 42, be provided with the material conveyor belt 25 being obliquely installed, the two ends of empty basin travelling belt 41 are respectively equipped with feed basin riser 40.

As shown in Figure 3, dosing unit 2 comprises proportioning machine A23 and proportioning machine B17, and the capacity of proportioning machine A23 is greater than the capacity of proportioning machine B17.Described material conveyor belt 25 is 35 ° with horizontal plane angle α.Described stirrer 42 be provided with water-in 5.

As shown in Figure 5, feed basin riser 40 comprises guide frame 14, lift frame 15, screw rod 16, transmission mechanism 18, erecting frame 19, liner 20 and power set 21, lift frame 15 is located at the upper end of guide frame 14, erecting frame 19 is located in lift frame 15, transmission mechanism 18 is connected and fixed with erecting frame 19, screw rod 16 is located in lift frame 15 and screw rod 16 is connected with transmission mechanism 18, liner 20 is located at the top of lift frame 15, and top and power set 21 that power set 21 is located at liner 20 are connected with transmission mechanism 18.

As shown in Figure 6, between cultivation, be provided with rack 22 in 4, rack 22 is provided with dividing plate 39, and feed basin 26 is located on dividing plate 39, and the spacing between every two dividing plates 39 is 60cm.

As shown in Figure 7 and Figure 8, separation system 6 comprises material conveyor belt 27, worktable 28, vibration feeding device 29, bracing or strutting arrangement 30, material transferring decker 31 and screen cloth 32, material conveyor belt 27 is located on worktable 28, one end of material conveyor belt 27 is connected with vibration feeding device 29 by bracing or strutting arrangement 30, the below of vibration feeding device 29 is located in one end of material transferring decker 31, the other end of material transferring decker 31 is provided with screen cloth 32, and the top of vibration feeding device 29 is provided with continuous feeder 33.

The top of described material transferring decker 31 is provided with illumination system 34 and gear scraper plate 35, and the postmedian of material transferring decker 31 is provided with fertilizer and spreads out of device 36; The below of described screen cloth 32 is provided with bed material and spreads out of device 37, and the top of screen cloth 32 is provided with slagging-off brush 38.

Described organic fertilizer production system 13 comprises mixing and blending machine 7, pulverizer 8, drying room 9, sieve apparatus 10, heavy metal machines 11 and the wrapping machine 12 connecting successively.

As shown in Figure 9, a kind of technique of using above-mentioned industrialization organic fertilizer production line to produce fertilizer, comprises the following steps:

(a) batching, in filling production lines 1, after being pulverized, fly maggot bed material adds proportioning machine A23, auxiliary material is added to proportioning machine B17, proportioning machine A23 drains into fly maggot bed material on material conveyor belt 25, and proportioning machine B17 drains into auxiliary material on material conveyor belt 25, and material conveyor belt 25 is together sent fly maggot bed material and auxiliary material into stirrer 42 and mixed, material after mixing becomes fly maggot mixing bed material, and its pH value is regulated and sample detection;

(b) charging, the fly maggot mixing bed material mixing drains into commutation travelling belt 24 from stirrer 42 bottoms, commutation travelling belt 24 transmits fly maggot mixing bed material be filled in the feed basin 26 of motion on empty basin travelling belt 41, the feed basin 26 that fly maggot mixing bed material is housed is piled up on transport carriage 3 by feed basin riser 40, by transport carriage 3, feed basin 26 is transported between cultivation in 4;

(c) inoculation, by feed basin 26 be placed between cultivation in 4 rack on, and be the manual fly blows of inoculating of each feed basin 26;

(d) cultivate, fly blow 4 interior cultivations between cultivating transform and with transport carriage 3, feed basin 26 are transported to separation system 6 afterwards in 3 days～4 days;

(e) separation, in separation system 6, fly maggot mixing bed material after feed basin 26 internal conversions is unloaded on material conveyor belt 27, by material conveyor belt 27, transport and pour in vibration feeding device 29, and fall into evenly on material transferring decker 31, under the irradiation of illumination system, fly maggot bed material after conversion is divided into lentamente upper strata food-residue and lower floor's engineering fly maggot in the process of transmission, and by gear scraper plate 35, most of food-residue on upper strata is dispersed at middle fertilizer and spread out of on device 36, remainder is passed on screen cloth 32, under the effect of slagging-off brush 38, food-residue see through screen cloth 32 fall below bed material spread out of on device 37,

(f) engineering fly maggot is processed, and after the engineering fly maggot of separating is dried, makes insect protein;

(g) produce fertilizer, by the food-residue of separating with do not pass through the organic waste of fly maggot bio-transformation, in fermentation vat, ferment 7 days～15 days; The food-residue of take after fermentation is as bed material and add fertilizer auxiliary material, by mixing, pulverizing, granulation, be dried, sieve, makes fertilizer;

(h) quality judging, carries out quality examination judgement to the nitrogen of fertilizer, phosphorus, potassium and heavy metal index of correlation, qualified fertilizer is packed, by underproof fertilizer again as fertilizer sources auxiliary material.

Claims (6)

1. an industrialization organic fertilizer production line, it is characterized in that: comprise (4), separation system (6) and organic fertilizer production system (13) between filling production lines (1), cultivation, between filling production lines (1) passes through transport carriage (3) and cultivates, (4) are connected, between cultivation, (4) are connected with separation system (6) by transport carriage (3), and separation system (6) is connected with organic fertilizer production system (13);

Described filling production lines (1) comprises dosing unit (2), empty basin travelling belt (41), stirrer (42), worktable (43), feed basin (26), material conveyor belt (25) and commutation travelling belt (24), dosing unit (2) is fixedly installed on worktable (43), stirrer (42) is arranged on the top of commutation travelling belt (24) one end, the other end of commutation travelling belt (24) is located at the top at sky basin travelling belt (41) middle part, between the top of the bottom of dosing unit (2) and stirrer (42), be provided with the material conveyor belt (25) being obliquely installed, the two ends of empty basin travelling belt (41) are respectively equipped with feed basin riser (40),

Between described cultivation, in (4), be provided with rack (22), rack (22) is provided with dividing plate (39), and it is upper that feed basin (26) is located at dividing plate (39), and the spacing between every two dividing plates (39) is 50cm～60cm;

Described separation system (6) comprises material conveyor belt (27), worktable (28), vibration feeding device (29), bracing or strutting arrangement (30), material transferring decker (31) and screen cloth (32), material conveyor belt (27) is located on worktable (28), one end of material conveyor belt (27) is connected with vibration feeding device (29) by bracing or strutting arrangement (30), the below of vibration feeding device (29) is located in one end of material transferring decker (31), the other end of material transferring decker (31) is provided with screen cloth (32), the top of vibration feeding device (29) is provided with continuous feeder (33),

Described organic fertilizer production system (13) comprises mixing and blending machine (7), pulverizer (8), drying room (9), sieve apparatus (10), heavy metal machines (11) and the wrapping machine (12) connecting successively.

2. industrialization organic fertilizer production line according to claim 1, is characterized in that: described dosing unit (2) comprises proportioning machine A(23) and proportioning machine B(17), proportioning machine A(23) capacity be greater than proportioning machine B(17) capacity.

3. industrialization organic fertilizer production line according to claim 1, is characterized in that: described material conveyor belt (25) is 15 °～35 ° with horizontal plane angle α.

4. industrialization organic fertilizer production line according to claim 1, is characterized in that: described stirrer (42) be provided with water-in (5).

5. industrialization organic fertilizer production line according to claim 1, it is characterized in that: feed basin riser (40) comprises guide frame (14), lift frame (15), screw rod (16), transmission mechanism (18), erecting frame (19), liner (20) and power set (21), lift frame (15) is located at the upper end of guide frame (14), erecting frame (19) is located in lift frame (15), transmission mechanism (18) is connected and fixed with erecting frame (19), screw rod (16) is located in lift frame (15) and screw rod (16) is connected with transmission mechanism (18), liner (20) is located at the top of lift frame (15), top and power set (21) that power set (21) is located at liner (20) are connected with transmission mechanism (18).

6. industrialization organic fertilizer production line according to claim 1, it is characterized in that: the top of described material transferring decker (31) is provided with illumination system (34) and gear scraper plate (35), and the postmedian of material transferring decker (31) is provided with fertilizer and spreads out of device (36); The below of described screen cloth (32) is provided with bed material and spreads out of device (37), and the top of screen cloth (32) is provided with slagging-off brush (38).

Images