CN104692839A - Organic fertilizer processing device taking pig manure as raw material - Google Patents

Abstract

The invention provides an organic fertilizer processing device taking pig manure as a raw material. The device comprises a fermentation box, a belt conveying mechanism, a raw material screening mechanism, a raw material stirring mechanism, a spiral conveying mechanism and a weighing mechanism, wherein the inlet of the fermentation box is connected with a raw material separating mechanism, the belt conveying mechanism is arranged at the outlet of the fermenting box, the output end of the belt conveying mechanism is connected with the raw material screening mechanism through an inclined lifting mechanism, the raw material screening mechanism is connected with the raw material stirring mechanism through a conveyer, and the raw material stirring mechanism is connected with the weighing mechanism through the spiral conveying mechanism. The organic fertilizer processing device provided by the invention is simple in structure, high in degree of automation and good in use effect.

Description

A kind of pig manure that adopts is the fertilizer processing unit (plant) of raw material

Technical field

The present invention relates to cultivation field, referring in particular to a kind of pig manure that adopts is the fertilizer processing unit (plant) of raw material.

Background technology

First wild boar is tamed in China, and the history that China raises pigs can trace back to morning at the Neolithic Age, mid-term.The inscriptions on bones or tortoise shells that Qin period is unearthed according to Yin Dynasty ruins is recorded, and business, Zhou Shidai have the drylot feeding of pig.Then along with the development of producing, create the requirement distinguished different pigs gradually, in business, Zhou Shidai pig raising technology one large creation has invented hog technology.Han dynasty, along with the development of agriculture production, is raised pigs not only in order to edible, is also collected manure.This situation facilitates the change of the mode of raising pigs.Though existing drylot feeding before Han dynasty, until during Han dynasty only, herd and be still main mode of raising pigs.The physiological function of known pig and the relation of formalness in the qualification of pig kind at that time, this plays great role early Medieval China this period in period to the excellent pig kind of Han dynasty seed selection, and drylot feeding is main feeding manner with herding that the feeding manner combined instead of to herd gradually.Along with the development of pig industry and the continuous progress of economic civilization, the experience of raising pigs becomes increasingly abundant.Raise pigs when Tang and Song Dynasty time Sui, Tang and become a kind of important means of peasant's additional income.There is a lot of creation in the Yuan Ming Yuan Dynasty in period in expansion pig feed source.Ming Dynasty mid-term, pig industry once suffered seriously to wreck, positive moral 14 years (1519), and because of " pig " and Ming Dynasty emperor Zhu surname unisonance, prohibited by order and support, between the ten days, distance is killed to the greatest extent, have then reduce the price low-priced sell or buried abandon.But the thing time length of prohibiting pig is not long, in pig raising technology as obtained some breakthrough achievements in pig variety discriminating and method for breeding etc.; Pig has become one of maximum meat-based food source, the whole world, simultaneously also for the mankind provide important medicinal industry resource, and such as other heparin of pharmaceutical grade and the heart valve etc. for heteroplastic transplantation.In addition, also can there is the common complex inheritance disease of some mankind with it in family pig, thus become the excellent model of research human diseases fundamental biological knowledge.The liquid dung that existing pig farm produces is unprocessedly directly be transported to vegetable plot or other locally uses mostly, and this mode can produce stink on the way in transport, and needed for the transport space that takies large, cost is high.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, provide a kind of pig manure that adopts to be the fertilizer processing unit (plant) that structure is simple, level of automation is high, result of use is good of raw material.

For achieving the above object, technical scheme provided by the present invention is: a kind of pig manure that adopts is the fertilizer processing unit (plant) of raw material, it includes fermenting case, belt type conveying mechanism, material screening mechanism, raw material stirring mechanism, spiral conveying mechanism, Weighing mechanism, wherein, fermenting case entrance is connected with raw material separation mechanism, fermenting case exit is provided with belt type conveying mechanism, belt type conveying mechanism output terminal is connected with material screening mechanism by tilt-lift mechanism, material screening mechanism is connected with raw material stirring mechanism by transfer roller, raw material stirring mechanism is connected with Weighing mechanism by spiral conveying mechanism,

Described belt type conveying mechanism includes the melt pit being located at proving room exit, carriage is provided with bottom melt pit, be arranged in melt pit by fixed supporting leg bottom carriage, one group of solid bearing is respectively established at carriage two ends, often organize between solid bearing and be provided with a conveying roller, connected between two conveying rollers by conveying belt, wherein one end of a conveying roller is connected with actuating unit through solid bearing, it is shaping that conveying belt adopts rubber to make, and its surface is provided with concavo-convex anti-skidding striped; Roller rack is vertically upward provided with in the middle part of carriage, roller rack top has U-shaped roller groove, middle carrying roller two ends are assemblied in corresponding U-shaped roller groove respectively, and the middle carrying roller after assembling is positioned at conveying belt to be with below Middle face and to carry out support to zone face on conveying belt; Be provided with lift hopper below conveying belt output terminal, proving room exit is provided with the discharging guide plate matched with conveying belt;

Described material screening mechanism includes screening frame, sifting barrel, and wherein, sifting barrel two ends are inclined and mounted on screening frame by corresponding screening bearing support, and one end that sifting barrel is higher is feed end, and this end top is connected with inclination feeding mechanism; The screening frame of the lower one end of sifting barrel is provided with actuating unit, and actuating unit is connected by the power wheel of belt with sifting barrel end; Screening aggregate bin is provided with in screening frame below sifting barrel, screening aggregate bin is up big and down small trapezoidal, exit bottom it is connected with screw lifting transfer mechanism, end, sifting barrel one end is provided with coarse fodder groove, coarse fodder slot is on the screening frame of the lower one end of sifting barrel, and the screening frame of sifting barrel length direction both sides is provided with baffle plate;

Described raw material stirring mechanism includes stirring frame, stir frame and be provided with agitator tank, spiral agitator arm is horizontally installed with in agitator tank, agitator arm one end is connected with reduction box through agitator tank, reduction box is arranged on power rack, and is connected with agitator motor by belt, curved bottom agitator tank, arc center is provided with outlet cap, is provided with slope conveyor structure below outlet cap, outlet cap side is hinged on stirs in frame, and controlled by discharge component, described discharge component includes hinge cap connecting rod, transfer block, transfer connecting rod, control link, articulated elements, pilot lever, wherein, hinge cap connecting rod one end and outlet cap hinged, the hinge cap connecting rod the other end and transfer connecting rod one end hinged, be hinged in the transfer block of stirring frame in the middle part of transfer connecting rod, the transfer connecting rod the other end and control link one end hinged, the control link the other end is upwards hinged on pilot lever by articulated elements, pilot lever one end is hinged on the free bearing on agitator tank top, the other end is placed in the control flume of control block,

Described spiral conveying mechanism includes transfer mechanism and is connected to the Weighing mechanism in transfer mechanism exit, described transfer mechanism includes and is delivered into hopper, transfer lime, conveying motor, wherein, being delivered into hopper is arranged in melt pit, be delivered into feed hopper bottom outlet to be connected with transfer lime one end, the transfer lime the other end is tilted upward and is fixed on the ground by fixed support, and transfer lime top is provided with discharge port vertically downward, and discharge port is positioned at above Weighing mechanism; Be provided with spiral feed spool in transfer lime, feed spool is connected with the conveying motor bottom transfer lime;

Described Weighing mechanism includes hopper of weighing, weighing chamber, weighing controller, discharge barrel, wherein, weighing frame top is arranged on rear side of weighing chamber, this side roof part of weighing chamber is provided with hopper of weighing, hopper of weighing is positioned at below discharge port, on front side of weighing chamber, bottom is provided with conical discharge barrel, and the discharge outlet of discharge barrel is provided with bag-clamping mechanism, is provided with transfer mechanism of weighing below discharge barrel; The weighing frame of bag-clamping mechanism side is provided with weighing controller; Bag-clamping mechanism includes fixing folder bag ring, folder bag cylinder, pivoted arm, activity folder bag ring, wherein, fixing folder bag ring is arranged on the weighing frame inside discharge barrel by fixed arm, be provided with folder bag cylinder above fixed arm, folder bag cylinder is two, lays respectively at the discharge barrel left and right sides, folder bag cylinder block is hinged on weighing frame, hinged in the middle part of folder bag cylinder piston rod and pivoted arm, pivoted arm top is hinged on the permanent seat of discharge barrel, and pivoted arm bottom is connected with activity folder bag ring; Fixing folder bag ring after assembling, activity folder bag ring lay respectively at both sides before and after discharge barrel outlet.

The present invention is after employing such scheme, pig farm is sieved by belt type conveying mechanism feeding material screening mechanism after being fermented by fermenting case after producing and being separated also drying with liquid dung by water thing, raw material after screening is stirred by raw material stirring mechanism after adding interpolation formula, delivers to Weighing mechanism carry out weighing, packing after stirring by spiral conveying mechanism; The structure of this programme is simple, level of automation is high, result of use is good.

Accompanying drawing is described

Fig. 1 is one-piece construction schematic diagram of the present invention.

Fig. 2 is material screening structural scheme of mechanism.

Fig. 3 is raw material stirring mechanism schematic diagram.

Fig. 4 is discharge component structural representation.

Fig. 5 is spiral conveying mechanism schematic diagram.

Fig. 6 is Weighing mechanism schematic diagram.

Embodiment

Below in conjunction with institute's drawings attached, the invention will be further described, preferred embodiment of the present invention is: see accompanying drawing 1 to accompanying drawing 6, a kind of described in the present embodiment adopts pig manure to be that the fertilizer processing unit (plant) of raw material includes fermenting case, belt type conveying mechanism, material screening mechanism, raw material stirring mechanism, spiral conveying mechanism, Weighing mechanism, wherein, fermenting case entrance is connected with raw material separation mechanism, fermenting case exit is provided with belt type conveying mechanism, belt type conveying mechanism output terminal is connected with material screening mechanism by tilt-lift mechanism, material screening mechanism is connected with raw material stirring mechanism by transfer roller, raw material stirring mechanism is connected with Weighing mechanism by spiral conveying mechanism, described belt type conveying mechanism includes the melt pit A1 being located at proving room exit, carriage A2 is provided with bottom melt pit A1, be arranged in melt pit A1 by fixed supporting leg A3 bottom carriage A2, carriage A2 respectively establishes at two ends one group of solid bearing A4, often organize between solid bearing A4 and a conveying roller A5 is installed, article two, connected by conveying belt A6 between conveying roller A5, wherein one end of a conveying roller A5 is connected with actuating unit through solid bearing A4, it is shaping that conveying belt A6 adopts rubber to make, and its surface is provided with concavo-convex anti-skidding striped, roller rack A7 is vertically upward provided with in the middle part of carriage A2, roller rack A7 top has U-shaped roller groove A8, middle carrying roller A9 two ends are assemblied in corresponding U-shaped roller groove A8 respectively, and middle the carrying roller A9 after assembling to be positioned on conveying belt A6 below band Middle face and to carry out support to zone face on conveying belt A6, be provided with lift hopper A10 below conveying belt A6 output terminal, proving room exit is provided with the discharging guide plate A11 matched with conveying belt A6, described material screening mechanism includes screening frame B1, sifting barrel B2, wherein, sifting barrel B2 two ends are inclined and mounted on screening frame B1 by corresponding screening bearing support B3, and one end that sifting barrel B2 is higher is feed end, and this end top is connected with inclination feeding mechanism, the screening frame B1 of the lower one end of sifting barrel B2 is provided with actuating unit B4, and actuating unit B4 is connected by the power wheel of belt with sifting barrel B2 end, screening aggregate bin B5 is provided with in screening frame B1 below sifting barrel B2, screening aggregate bin B5 is up big and down small trapezoidal, exit bottom it is connected with screw lifting transfer mechanism, end, sifting barrel B2 one end is provided with coarse fodder groove B6, coarse fodder groove B6 is positioned on the screening frame B1 of the lower one end of sifting barrel B2, and the screening frame B1 of sifting barrel B2 length direction both sides is provided with baffle plate B7, described raw material stirring mechanism includes stirs frame C1, stir frame C1 and be provided with agitator tank C2, spiral agitator arm C3 is horizontally installed with in agitator tank C2, agitator arm C3 one end is connected with reduction box C4 through agitator tank C2, reduction box C4 is arranged on power rack C5, and is connected with agitator motor C6 by belt, curved bottom agitator tank C2, arc center is provided with outlet cap C7, is provided with slope conveyor structure below outlet cap C7, outlet cap C7 side is hinged on stirs on frame C1, and controlled by discharge component, described discharge component includes hinge cap connecting rod C8, transfer block C9, transfer connecting rod C10, control link C11, articulated elements C12, pilot lever C13, wherein, hinge cap connecting rod C8 one end and outlet cap C7 hinged, the hinge cap connecting rod C8 the other end and transfer connecting rod C10 one end hinged, be hinged on the transfer block C9 of stirring frame C1 in the middle part of transfer connecting rod C10, the transfer connecting rod C10 the other end and control link C11 one end hinged, the control link C11 the other end is upwards hinged on pilot lever C13 by articulated elements C12, pilot lever C13 one end is hinged on the free bearing C14 on agitator tank C2 top, the other end is placed in the control flume C16 of control block C15, described spiral conveying mechanism includes transfer mechanism and is connected to the Weighing mechanism in transfer mechanism exit, described transfer mechanism includes and is delivered into hopper D1, transfer lime D2, conveying motor D 3, wherein, being delivered into hopper D1 is arranged in melt pit, be delivered into hopper D1 outlet at bottom to be connected with transfer lime D2 one end, the transfer lime D2 the other end is tilted upward and is fixed on the ground by fixed support D5, transfer lime D2 top is provided with discharge port D6 vertically downward, and discharge port D6 is positioned at above Weighing mechanism, be provided with spiral feed spool D4 in transfer lime D2, feed spool D4 is connected with the conveying motor D 3 bottom transfer lime D2, described Weighing mechanism includes the hopper D7 that weighs, weighing chamber D8, weighing controller D9, discharge barrel D10, wherein, weighing frame D11 top is arranged on rear side of weighing chamber D8, this side roof part of weighing chamber D8 is provided with the hopper D7 that weighs, the hopper D7 that weighs is positioned at below discharge port D6, on front side of weighing chamber D8, bottom is provided with conical discharge barrel D10, and the discharge outlet of discharge barrel D10 is provided with bag-clamping mechanism D12, is provided with the transfer mechanism D13 that weighs below discharge barrel D10, the weighing frame D11 of bag-clamping mechanism D12 side is provided with weighing controller D9, bag-clamping mechanism D12 includes fixing folder bag ring D14, folder bag cylinder D15, pivoted arm D16, activity folder bag ring D17, wherein, fixing folder bag ring D14 is arranged on the weighing frame D11 inside discharge barrel D10 by fixed arm D18, folder bag cylinder D15 is provided with above fixed arm D18, folder bag cylinder D15 is two, lay respectively at the discharge barrel D10 left and right sides, folder bag cylinder D15 cylinder body is hinged on weighing frame D11, hinged in the middle part of folder bag cylinder D15 piston rod and pivoted arm D16, pivoted arm D16 top is hinged on the permanent seat of discharge barrel D10, pivoted arm D16 bottom is connected with activity folder bag ring D17, fixing folder bag ring D14 after assembling, activity folder bag ring D17 lay respectively at discharge barrel D10 and export both sides, front and back.During work, after proving room fermentation is pulverized, fall into conveying belt by discharging guide plate guiding by the excrement slag after being separated, driven by conveying belt and drop down onto in lift hopper; Raw material is sent in material screening mechanism by lift, actuating unit drives sifting barrel to rotate, argol in cylinder is sieved, less satisfactory faecal pellet is collected by sieving aggregate bin and is delivered to subsequent processing by screw lifting transfer mechanism, and undesirable macrobead is then collected in coarse fodder groove and again pulverized; The raw material pulverized by front operation, sieved is sent into by agitator tank top by transfer mechanism, by slope conveyor structure delivers to subsequent processing after fully being stirred by volution agitator arm, can add other fertilizer formula while stirring on agitator tank top; The fertilizer machined by front operation is entered by being delivered into hopper, being driven to be delivered to by transfer lime by spiral feed spool again weighs in hopper, weighed by weighing chamber, manually bag with fertilizer sack be enclosed within discharge barrel tube port position when weighing and clamped by bag-clamping mechanism; Fertilizer after weighing is discharged by discharge barrel and is entered in bag with fertilizer; Sent by transfer mechanism of weighing after having packed; The structure of this programme is simple, easy to operate, labour intensity is low, level of automation is high, swine excrement effectively can be utilized, and both can increase environment protection, can be again that pig farm increases economic benefit.

The embodiment of the above is only the preferred embodiment of the present invention, not limits practical range of the present invention with this, therefore the change that all shapes according to the present invention, principle are done, all should be encompassed in protection scope of the present invention.

Claims (1)

1. one kind adopts pig manure to be the fertilizer processing unit (plant) of raw material, it is characterized in that: it includes fermenting case, belt type conveying mechanism, material screening mechanism, raw material stirring mechanism, spiral conveying mechanism, Weighing mechanism, wherein, fermenting case entrance is connected with raw material separation mechanism, fermenting case exit is provided with belt type conveying mechanism, belt type conveying mechanism output terminal is connected with material screening mechanism by tilt-lift mechanism, material screening mechanism is connected with raw material stirring mechanism by transfer roller, and raw material stirring mechanism is connected with Weighing mechanism by spiral conveying mechanism;

Described belt type conveying mechanism includes the melt pit (A1) being located at proving room exit, melt pit (A1) bottom is provided with carriage (A2), carriage (A2) bottom is arranged in melt pit (A1) by fixed supporting leg (A3), one group of solid bearing (A4) is respectively established at carriage (A2) two ends, often organize between solid bearing (A4) and a conveying roller (A5) is installed, article two, connected by conveying belt (A6) between conveying roller (A5), wherein one end of a conveying roller (A5) is connected with actuating unit through solid bearing (A4), it is shaping that conveying belt (A6) adopts rubber to make, its surface is provided with concavo-convex anti-skidding striped, carriage (A2) middle part is provided with roller rack (A7) vertically upward, roller rack (A7) top has U-shaped roller groove (A8), middle carrying roller (A9) two ends are assemblied in corresponding U-shaped roller groove (A8) respectively, and middle the carrying roller (A9) after assembling to be positioned at below conveying belt (A6) upper band Middle face and to go up zone face to conveying belt (A6) and carries out support, be provided with lift hopper (A10) below conveying belt (A6) output terminal, proving room exit is provided with the discharging guide plate (A11) matched with conveying belt (A6),

Described material screening mechanism includes screening frame (B1), sifting barrel (B2), wherein, sifting barrel (B2) two ends are inclined and mounted in screening frame (B1) by sieving bearing support (B3) accordingly, one end that sifting barrel (B2) is higher is feed end, and this end top is connected with inclination feeding mechanism; The screening frame (B1) of sifting barrel (B2) lower one end is provided with actuating unit (B4), and actuating unit (B4) is connected by the power wheel of belt with sifting barrel (B2) end; Screening aggregate bin (B5) is provided with in the screening frame (B1) of sifting barrel (B2) below, screening aggregate bin (B5) is for up big and down small trapezoidal, exit bottom it is connected with screw lifting transfer mechanism, sifting barrel (B2) end, one end is provided with coarse fodder groove (B6), coarse fodder groove (B6) is positioned on the screening frame (B1) of sifting barrel (B2) lower one end, and the screening frame (B1) of sifting barrel (B2) length direction both sides is provided with baffle plate (B7);

Described raw material stirring mechanism includes stirs frame (C1), stir frame (C1) and be provided with agitator tank (C2), spiral agitator arm (C3) is horizontally installed with in agitator tank (C2), agitator arm (C3) one end is connected with reduction box (C4) through agitator tank (C2), reduction box (C4) is arranged on power rack (C5), and be connected with agitator motor (C6) by belt, agitator tank (C2) bottom is curved, arc center is provided with outlet cap (C7), and outlet cap (C7) below is provided with slope conveyor structure, outlet cap (C7) side is hinged on stirs in frame (C1), and controlled by discharge component, described discharge component includes hinge cap connecting rod (C8), transfer block (C9), transfer connecting rod (C10), control link (C11), articulated elements (C12), pilot lever (C13), wherein, hinge cap connecting rod (C8) one end and outlet cap (C7) hinged, hinge cap connecting rod (C8) the other end and transfer connecting rod (C10) one end hinged, transfer connecting rod (C10) middle part is hinged in the transfer block (C9) of stirring frame (C1), transfer connecting rod (C10) the other end and control link (C11) one end hinged, control link (C11) the other end is upwards hinged on pilot lever (C13) by articulated elements (C12), pilot lever (C13) one end is hinged on the free bearing (C14) on agitator tank (C2) top, the other end is placed in the control flume (C16) of control block (C15),

Described spiral conveying mechanism includes transfer mechanism and is connected to the Weighing mechanism in transfer mechanism exit, described transfer mechanism includes and is delivered into hopper (D1), transfer lime (D2), conveying motor (D3), wherein, being delivered into hopper (D1) is arranged in melt pit, be delivered into hopper (D1) outlet at bottom to be connected with transfer lime (D2) one end, transfer lime (D2) the other end is tilted upward and is fixed on the ground by fixed support (D5), transfer lime (D2) top is provided with discharge port (D6) vertically downward, discharge port (D6) is positioned at above Weighing mechanism, be provided with spiral feed spool (D4) in transfer lime (D2), feed spool (D4) is connected with the conveying motor (D3) of transfer lime (D2) bottom,

Described Weighing mechanism includes hopper of weighing (D7), weighing chamber (D8), weighing controller (D9), discharge barrel (D10), wherein, weighing chamber (D8) rear side is arranged on weighing frame (D11) top, weighing chamber (D8) this side roof part is provided with hopper of weighing (D7), hopper (D7) of weighing is positioned at discharge port (D6) below, bottom, weighing chamber (D8) front side is provided with conical discharge barrel (D10), the discharge outlet of discharge barrel (D10) is provided with bag-clamping mechanism (D12), and discharge barrel (D10) below is provided with transfer mechanism of weighing (D13), the weighing frame (D11) of bag-clamping mechanism (D12) side is provided with weighing controller (D9), bag-clamping mechanism (D12) includes fixing folder bag ring (D14), folder bag cylinder (D15), pivoted arm (D16), activity folder bag ring (D17), wherein, fixing folder bag ring (D14) is arranged on by fixed arm (D18) on the weighing frame (D11) of discharge barrel (D10) inner side, fixed arm (D18) top is provided with folder bag cylinder (D15), folder bag cylinder (D15) is two, lay respectively at discharge barrel (D10) left and right sides, folder bag cylinder (D15) cylinder body is hinged on weighing frame (D11), folder bag cylinder (D15) piston rod and pivoted arm (D16) middle part hinged, pivoted arm (D16) top is hinged on the permanent seat of discharge barrel (D10), pivoted arm (D16) bottom is connected with activity folder bag ring (D17), fixing folder bag ring (D14) after assembling, activity folder bag ring (D17) lay respectively at both sides before and after discharge barrel (D10) outlet.