CN217855565U - Improved organic fertilizer matrix for agilawood seedlings - Google Patents

Abstract

The utility model discloses an improvement type agalloch eaglewood seedling fertilizer matrix belongs to organic fertilizer preparation technical field, including vertical stirring shell, the fixed two division boards that are equipped with in inside of vertical stirring shell, two the division board is separated into feeding chamber, hybrid chamber and play material chamber with the inside top-down of vertical stirring shell, the inside of vertical stirring shell is equipped with the branch sieve rabbling mechanism that is used for sieving the stirring to the land for growing field, the utility model discloses in, through the mutually supporting of branch sieve rabbling mechanism and intermittent type ejection of compact subassembly, can be fast, high-efficient, even mix multiple raw materials to produce and accord with the essential fertilizer matrix of agalloch eaglewood seedling growth, can also drop into different raw materials from a plurality of feed inlets of vertical stirring shell according to the different growth cycles of agalloch eaglewood seedling simultaneously, thereby mix out the fertilizer matrix of different grade type, whole process is simple swift, and work efficiency is high.

Description

Improved organic fertilizer matrix for agilawood seedlings

Technical Field

The utility model relates to an organic fertilizer preparation technical field especially relates to an improvement type agalloch eaglewood seedling fertilizer matrix.

Background

Organic fertilizers are also called farmyard manure, and organic substances are used as fertilizers and are characterized by multiple varieties, wide sources, long fertilizer efficiency and the like. The organic fertilizer matrix comprises the following components (1) a field soil main body, wherein the volume weight of the prepared nutrient soil is about 1g/cm < 2 >; (2) adding a part of peat soil into the field soil, and then adding a certain amount of organic fertilizer, wherein the mixing ratio of peat to organic fertilizer = 6. (3) The vegetable field soil is not used, the grass carbon and the vermiculite are adopted, so that the seedlings can be prevented from being damaged by germs possibly carried by the vegetable field soil and can be diffused to other vegetable fields, the ratio of the grass carbon to the vermiculite can be 5, and an organic fertilizer or an inorganic fertilizer is added into the vegetable field soil. The nutrition bar is more loose and has a volume weight of about 0.25g/cm2.

All adopt manual stirring when tradition preparation fertilizer matrix, prepare on one side at the scene and use, this kind of method is though simple swift, nevertheless can not mix multiple material well, leads to matrix fertility to promote limitedly, and manual stirring intensity of labour is big simultaneously, and work efficiency is low, provides an improvement type agalloch eaglewood seedling fertilizer matrix for this reason.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an: in order to solve the problems, an improved organic fertilizer matrix for aquilaria sinensis seedlings is provided.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the improved organic fertilizer matrix for the agilawood seedlings comprises a vertical stirring shell, wherein two partition plates are fixedly arranged inside the vertical stirring shell, the interior of the vertical stirring shell is divided into a feeding cavity, a mixing cavity and a discharging cavity by the two partition plates from top to bottom, a screening and stirring mechanism for screening and stirring field soil is arranged inside the vertical stirring shell, and two intermittent discharging assemblies for adding turf or organic fertilizer are symmetrically and fixedly arranged inside the feeding cavity;

divide sieve rabbling mechanism including fixed driving motor, the vertical (mixing) shaft of locating vertical stirring shell upper end middle part and the fixed power shell of locating with the material intracavity portion of vertical stirring shell, the upper end and the driving motor's of (mixing) shaft output are connected, the (mixing) shaft is located the fixed initiative bevel gear that is equipped with in inside of power shell, the (mixing) shaft is located the fixed a plurality of scraper blades that are equipped with in inside below symmetry of material intracavity portion, the (mixing) shaft is located the fixed three connecting rods that are equipped with of inside top equipartition of hybrid chamber, the fixed cowl that is equipped with of the other end of connecting rod, the (mixing) shaft is located the fixed toper puddler group that is equipped with in inside below of hybrid chamber, the (mixing) shaft is located the fixed two play flitchs that are equipped with of the inside symmetry of material intracavity portion.

As a further description of the above technical solution:

intermittent type ejection of compact subassembly is including the fixed circular stirring shell of locating reinforced intracavity wall, the fixed feed cylinder that is equipped with in lower extreme middle part of circular stirring shell, the lower extreme and the division board upper end of top that go out the feed cylinder are connected, the inside rotation of circular stirring shell is equipped with the driven lever, the driven lever is located the fixed many poles of breaing up that are equipped with in inside of circular stirring shell, the driven lever is located the fixed driven bevel gear that is equipped with of the inside one end of power shell, drive bevel gear and driven bevel gear intermeshing, the driven lever is located the inside in feeding chamber and still fixes and be equipped with many poles of breaing up.

As a further description of the above technical solution:

the top the discharge gate of the cooperation play feed cylinder ejection of compact is seted up at the middle part of division board, and is three cowl's up end all contacts with the lower terminal surface of the division board of top.

As a further description of the above technical solution:

the bottom the upper end of division board is fixed and is equipped with toper guide material platform, and the bottom a plurality of feed openings have been seted up at the middle part of division board, the hybrid chamber is linked together through feed opening and ejection of compact chamber.

As a further description of the above technical solution:

the top the middle part of division board still is equipped with the charging conduit, the inside fixed filter screen that is equipped with of charging conduit.

As a further description of the above technical solution:

two lower feed inlets are symmetrically and fixedly arranged in the middle of the vertical stirring shell, and the lower feed inlets are communicated with the inside of the circular stirring shell.

As a further description of the above technical solution:

the upper end middle part symmetry of vertical stirring shell is equipped with two upper feed inlets, two material exports have been seted up to the lower extreme symmetry of vertical stirring shell.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model discloses in, through the mutually supporting of branch sieve rabbling mechanism and intermittent type ejection of compact subassembly, can be quick, high-efficient, even mix multiple raw materials to produce and accord with agalloch eaglewood seedling required fertilizer matrix that grows, can also drop into different raw materials from a plurality of feed inlets of vertical stirring shell simultaneously according to the different growth cycles of agalloch eaglewood seedling, thereby mix out the fertilizer matrix of different grade type, whole process is simple swift, and work efficiency is high.

Drawings

Fig. 1 shows a schematic structural diagram of a screening and stirring mechanism provided according to an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of an intermittent discharging assembly provided according to an embodiment of the present invention;

fig. 3 is a schematic view illustrating an internal structure of a circular stirring shell according to an embodiment of the present invention;

fig. 4 illustrates a bottom view of the interior of a mixing chamber provided in accordance with an embodiment of the present invention;

fig. 5 shows a schematic perspective view of an arc baffle and a conical stirring rod set provided according to an embodiment of the present invention.

Illustration of the drawings: 1. a vertical stirring shell; 101. a partition plate; 2. a screening and stirring mechanism; 3. an intermittent discharge assembly; 201. a drive motor; 202. a stirring shaft; 203. a power shell; 204. a drive bevel gear; 205. a squeegee; 206. an arc-shaped baffle plate; 207. a conical stirring rod group; 208. a discharge plate; 301. a circular stirring shell; 302. a driven lever; 303. breaking up the rods; 304. a driven bevel gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution:

an improved organic fertilizer matrix for agilawood seedlings comprises a vertical stirring shell 1, wherein two partition plates 101 are fixedly arranged inside the vertical stirring shell 1, the interior of the vertical stirring shell 1 is divided into a feeding cavity, a mixing cavity and a discharging cavity by the two partition plates 101 from top to bottom, a screening and stirring mechanism 2 for screening and stirring field soil is arranged inside the vertical stirring shell 1, and two intermittent discharging components 3 for adding turf or organic fertilizer are symmetrically and fixedly arranged inside the feeding cavity;

divide sieve rabbling mechanism 2 is including the fixed driving motor 201 of locating 1 upper end middle part of vertical agitator shell, vertical rotation locates the inside (mixing) shaft 202 of vertical agitator shell 1 and the fixed power shell 203 of locating with material intracavity portion, the upper end of (mixing) shaft 202 is connected with driving motor 201's output, the inside fixed drive bevel gear 204 that is equipped with that (mixing) shaft 202 is located power shell 203, the inside below symmetry that (mixing) shaft 202 is located with material intracavity is fixed and is equipped with a plurality of scrapers 205, the inside top equipartition that (mixing) shaft 202 is located the hybrid chamber is fixed and is equipped with three connecting rods, the fixed cowl 206 that is equipped with of the other end of connecting rod, the inside below that (mixing) shaft 202 is located the hybrid chamber is fixed and is equipped with toper puddler group 207, the inside symmetry that (mixing) shaft 202 is located the play material chamber is fixed and is equipped with two play flitchs 208.

Further, intermittent type ejection of compact subassembly 3 is including the fixed circular stirring shell 301 of locating reinforced intracavity wall, the fixed feed cylinder that is equipped with in lower extreme middle part of circular stirring shell 301, the lower extreme that goes out the feed cylinder is connected with the division board 101 upper end of the top, the inside rotation of circular stirring shell 301 is equipped with driven lever 302, driven lever 302 is located the fixed many poles 303 of breaing up that is equipped with in inside of circular stirring shell 301, driven lever 302 is located the fixed driven bevel gear 304 that is equipped with of the inside one end of power shell 203, drive bevel gear 204 and driven bevel gear 304 intermeshing, driven lever 302 is located the inside in feeding chamber and still fixes being equipped with many poles 303 of breaing up.

Further, the discharge gate of the cooperation play feed cylinder ejection of compact is seted up at the middle part of the top division board 101, and the up end of three cowl 206 all contacts with the lower terminal surface of the top division board 101.

Further, the fixed toper guide table that is equipped with in upper end of below division board 101, and the middle part of below division board 101 has seted up a plurality of feed openings, and the hybrid chamber is linked together through feed opening and ejection of compact chamber.

Furthermore, the middle part of the uppermost partition plate 101 is also provided with a charging conduit, and a filter screen is fixedly arranged in the charging conduit.

Further, two lower feed inlets are symmetrically and fixedly arranged in the middle of the vertical stirring shell 1, and the lower feed inlets are communicated with the inside of the circular stirring shell 301.

Furthermore, the middle part of the upper end of the vertical stirring shell 1 is symmetrically provided with two upper feeding ports, and the lower end of the vertical stirring shell 1 is symmetrically provided with two material outlets.

The working principle is as follows: when the stirring device is used, firstly, soil in a field is thrown into the feeding cavity from two feeding ports at the upper end of the vertical stirring shell 1, then, turf and organic fertilizer are thrown into the circular stirring shell 301 from two feeding ports at two sides of the middle part of the vertical stirring shell 1 according to a certain proportion, the driving motor 201 is started, the driving motor 201 drives the stirring shaft 202 to rotate, and the rotation of the stirring shaft 202 can drive the driving bevel gear 204, the scraper 205, the arc-shaped baffle 206, the conical stirring rod group 207 and the discharging plate 208 to rotate;

the driving bevel gear 204 rotates to drive the driven bevel gear 304 meshed with the driving bevel gear to rotate, so that the driven rod 302 is driven to rotate, the driven rod 302 rotates to drive the scattering rod 303 to rotate, grass carbon and organic fertilizer inside the circular stirring shell 301 are scattered, the scattered grass carbon and organic fertilizer can be discharged from the discharge barrel and finally discharged from the discharge port of the uppermost partition plate 101, the upper end surfaces of the three arc-shaped baffles 206 are in contact with the lower end surface of the uppermost partition plate 101, so that the scattered grass carbon and organic fertilizer can be discharged from the discharge port intermittently and fall into the mixing cavity after the three arc-shaped baffles 206 rotate, and the efficiency of stirring is greatly improved due to the intermittently fallen materials;

the scraper 205 rotates to drive the field soil falling into the feeding cavity to slowly pass through the filter screen at the middle part of the uppermost partition plate 101, so that large particles are left in the feeding cavity, and the field soil with small particles fall into the mixing cavity after passing through the filter screen;

the field soil that falls into the mixing chamber is continued to be stirred by toper puddler group 207, falls into the inside grass carbon and the fertilizer of mixing chamber at the mixing interval to obtain the fertilizer matrix that the most suitable agalloch eaglewood seedling grows, the fertilizer matrix after the stirring passes the blanking mouth of below division board 101 and gets into ejection of compact intracavity, thereby is constantly extruded ejection of compact intracavity by play flitch 208.

Above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be included in the protection scope of the present invention.

Claims (7)

1. An improved organic fertilizer matrix for agilawood seedlings comprises a vertical stirring shell (1) and is characterized in that two partition plates (101) are fixedly arranged inside the vertical stirring shell (1), the vertical stirring shell (1) is divided into a feeding cavity, a mixing cavity and a discharging cavity by the two partition plates (101) from top to bottom, a screening and stirring mechanism (2) for screening and stirring field soil is arranged inside the vertical stirring shell (1), and two intermittent discharging components (3) for adding turf or organic fertilizer are symmetrically and fixedly arranged inside the feeding cavity;

divide sieve rabbling mechanism (2) locate vertical stirring shell (1) inside (mixing) shaft (202) and fixed power shell (203) of locating with material intracavity portion including fixed driving motor (201), the vertical rotation of locating vertical stirring shell (1) upper end middle part, the upper end of (mixing) shaft (202) is connected with the output of driving motor (201), inside fixed being equipped with drive bevel gear (204) that (mixing) shaft (202) are located power shell (203), inside below symmetry that (mixing) shaft (202) are located with material intracavity is fixed and is equipped with a plurality of scraper blades (205), inside top equipartition that (mixing) shaft (202) are located the hybrid chamber is fixed and is equipped with three connecting rods, the other end of connecting rod is fixed and is equipped with cowl (206), inside below that (mixing) shaft (202) are located the hybrid chamber is fixed and is equipped with toper puddler group (207), inside symmetry that (mixing shaft (202) are located the play material chamber is fixed and is equipped with two play flitch (208).

2. The improved organic fertilizer matrix for the aquilaria sinensis seedlings as claimed in claim 1, wherein the intermittent discharging assembly (3) comprises a circular stirring shell (301) fixedly arranged on the inner wall of the charging cavity, a discharging barrel is fixedly arranged in the middle of the lower end of the circular stirring shell (301), the lower end of the discharging barrel is connected with the upper end of the uppermost partition plate (101), a driven rod (302) is rotatably arranged inside the circular stirring shell (301), a plurality of scattering rods (303) are fixedly arranged inside the circular stirring shell (301) of the driven rod (302), a driven bevel gear (304) is fixedly arranged at one end of the driven rod (302) inside the power shell (203), the driving bevel gear (204) is meshed with the driven bevel gear (304), and a plurality of scattering rods (303) are fixedly arranged inside the charging cavity of the driven rod (302).

3. The improved organic fertilizer matrix for the aquilaria sinensis seedlings as claimed in claim 1, wherein a discharge hole matched with a discharge barrel for discharging is formed in the middle of the uppermost partition plate (101), and the upper end surfaces of the three arc-shaped baffles (206) are in contact with the lower end surface of the uppermost partition plate (101).

4. The improved organic fertilizer matrix for the aquilaria sinensis seedlings as claimed in claim 1, wherein a conical material guide table is fixedly arranged at the upper end of the lowermost partition plate (101), a plurality of feed openings are formed in the middle of the lowermost partition plate (101), and the mixing cavity is communicated with the discharge cavity through the feed openings.

5. The improved organic fertilizer matrix for the aquilaria sinensis seedlings as claimed in claim 1, wherein a charging chute is further arranged in the middle of the uppermost partition plate (101), and a filter screen is fixedly arranged in the charging chute.

6. The improved organic fertilizer matrix for agilawood seedlings as claimed in claim 1, wherein two lower feed inlets are symmetrically and fixedly arranged in the middle of the vertical stirring shell (1), and the lower feed inlets are communicated with the inside of the circular stirring shell (301).

7. The improved organic fertilizer matrix for the aquilaria sinensis seedlings as claimed in claim 1, wherein two upper feeding ports are symmetrically arranged in the middle of the upper end of the vertical stirring shell (1), and two material outlets are symmetrically arranged at the lower end of the vertical stirring shell (1).

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