CN216367825U - Use organic inorganic compound fertilizer production of cassava sediment as raw materials to use device - Google Patents

Abstract

The utility model provides a device for producing an organic-inorganic compound fertilizer by using cassava dregs as a raw material, which comprises a mixing and stirring mechanism, a plate-type filter press, a conveying belt, a cassava dregs quantitative conveying mechanism, a conditioner quantitative conveying mechanism, a leavening agent quantitative conveying mechanism and a controller, wherein the mixing and stirring mechanism comprises a stirring tank, a driving motor and a stirring shaft, the feeding end of the conveying belt is arranged below the plate-type filter press, dehydrated materials produced by the plate-type filter press can fall into the feeding end of the conveying belt, the cassava dregs quantitative conveying mechanism comprises a first storage tank, a first spiral conveyor, a first weighing tank and a first chute, and the materials output by the conditioner quantitative conveying mechanism and the leavening agent quantitative conveying mechanism can enter the stirring tank. Utilize the device can realize weighing, the automated control of stirring in the fertilizer production process, not only reduced artifical intensity of labour, simultaneously, also do benefit to the production quality who guarantees fertilizer.

Description

Use organic inorganic compound fertilizer production of cassava sediment as raw materials to use device

Technical Field

The utility model relates to a device for producing an organic-inorganic compound fertilizer by using cassava dregs as a raw material.

Background

The fertilizer is the 'grain' of plants and plays an important role in increasing the yield of crops. At present, the annual consumption of chemical fertilizers in China reaches 5561.7 ten thousand tons, which accounts for about 34 percent of the total consumption of the world, and excessive application of the chemical fertilizers not only reduces the yield-increasing effect of the fertilizers, but also causes the deterioration of physicochemical properties such as soil hardening, acidification, reduction of organic matter content and the like and the problems of ecological environment. The organic fertilizer can improve the carbon fixation potential of soil, increase organic matters, and improve the porosity and structure of the soil, thereby improving the water and fertilizer retention capacity of the soil and increasing the crop yield.

The existing organic-inorganic compound fertilizer taking cassava dregs as raw materials is produced and proportioned, most procedures adopt manual weighing for proportioning, the labor intensity is high due to the adoption of manual weighing and proportioning, the weighing and proportioning precision cannot be strictly controlled, and the production quality of the fertilizer is further influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a device for producing organic and inorganic compound fertilizer by using cassava dregs as a raw material, which can realize automatic control of weighing and stirring in the fertilizer production process, reduce the labor intensity of workers and simultaneously be beneficial to ensuring the production quality of the fertilizer.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a device for producing organic and inorganic compound fertilizer by taking cassava dregs as raw materials comprises a mixing and stirring mechanism, a plate-type filter press, a conveying belt, a cassava dreg quantitative conveying mechanism, a conditioner quantitative conveying mechanism, a leavening agent quantitative conveying mechanism and a controller, wherein the mixing and stirring mechanism comprises a stirring tank, a driving motor and a stirring shaft, the stirring shaft is arranged in the stirring tank, the driving motor can drive the stirring shaft to rotate, a plurality of stirring blades are arranged on the stirring shaft, a discharging pipe is arranged at the lower part of the stirring tank, a feeding end of the conveying belt is arranged below the plate-type filter press, dehydrated materials output by the plate-type filter press can fall into a feeding end of the conveying belt, the cassava dreg quantitative conveying mechanism comprises a first material storage tank, a first spiral conveyor, a first weighing tank and a first chute, materials output by the discharging end of the conveying belt can enter the first material storage tank, the material in the first storage tank can enter into first weighing tank through first screw conveyer's transport, and first weighing tank can realize weighing and the blowing of material in getting into it, and the material that flows in from first weighing tank can enter into through first chute in the stirring tank, the material homoenergetic of conditioner quantitative conveying mechanism and leavening agent quantitative conveying mechanism output can enter into in the stirring tank, driving motor, first screw conveyer, first weighing tank, the operation of conditioner quantitative conveying mechanism and leavening agent quantitative conveying mechanism can be controlled to the controller.

Preferably, the conditioner quantitative conveying mechanism comprises a straw ash quantitative conveying mechanism and an ammonium sulfate quantitative conveying mechanism, the straw ash quantitative conveying mechanism comprises a second storage tank, a second screw conveyor, a second weighing tank and a second chute, materials in the second storage tank can enter the second weighing tank through the conveying of the second screw conveyor, the second weighing tank can weigh and discharge the materials entering the second storage tank, and the materials flowing out of the second weighing tank can enter the stirring tank through the second chute; ammonium sulfate quantitative conveying mechanism includes third storage tank, third screw conveyer, third jar and the third chute of weighing, and the material in the third storage tank can enter into the third through third screw conveyer's transport in the jar of weighing, and the third jar of weighing can realize weighing and the blowing of material in getting into it, and the material that flows in the jar from the third of weighing can enter into through the third chute in the agitator tank.

Furthermore, the leavening agent quantitative conveying mechanism comprises an pleurotus eryngii residue quantitative conveying mechanism and a mushroom residue quantitative conveying mechanism, the pleurotus eryngii residue quantitative conveying mechanism comprises a fourth storage tank, a fourth screw conveyor, a fourth weighing tank and a fourth chute, materials in the fourth storage tank can enter the fourth weighing tank through the conveying of the fourth screw conveyor, the fourth weighing tank can weigh and discharge the materials entering the fourth weighing tank, and the materials flowing out of the fourth weighing tank can enter the stirring tank through the fourth chute; the mushroom residue quantitative conveying mechanism comprises a fifth storage tank, a fifth screw conveyor, a fifth weighing tank and a fifth chute, materials in the fifth storage tank can enter the fifth weighing tank through the conveying of the fifth screw conveyor, the fifth weighing tank can weigh and discharge the materials entering the fifth weighing tank, and the materials flowing out of the fifth weighing tank can enter the stirring tank through the fifth chute.

Further, the upper portion of (mixing) shaft sets up a back taper flitch that mixes, back taper flitch that mixes through a plurality of bracing pieces with (mixing) shaft fixed connection the awl end of back taper flitch that mixes is provided with the discharge gate that is used for the material to flow out, the material that first chute, second chute, third chute, fourth chute and fifth chute flow out can enter into in the back taper flitch that mixes.

Furthermore, a plurality of material pushing plates are arranged on the inner side wall of the inverted conical material mixing plate.

Furthermore, a conical material distributing plate positioned below the inverted conical material mixing plate is arranged at the upper part of the stirring shaft.

Preferably, the conveyor belt is a flange conveyor belt.

The utility model has the beneficial effects that: the utility model has simple structure and convenient processing and manufacturing; the quantitative conveying mechanism for the cassava residue, the quantitative conveying mechanism for the ash content of the straws, the quantitative conveying mechanism for the ammonium sulfate, the quantitative conveying mechanism for the pleurotus eryngii residue and the quantitative conveying mechanism for the mushroom residue are utilized to realize automatic conveying of all raw materials of the organic-inorganic compound fertilizer according to strict proportion, so that the labor intensity of workers is reduced, and meanwhile, the production quality of subsequent fertilizers is ensured; when each material continuously enters into the agitator tank, utilize the back taper flitch that mixes and the toper to divide the continuous rotation effect of flitch, in the very first time, realize the abundant diffusion of each raw materials at the agitator tank, do benefit to the improvement stirring mixing efficiency then.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are part of the preferred embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the interior of the agitator tank;

in the figure: 11 stirring tank, 12 driving motor, 121 support frame, 13 stirring shaft, 131 stirring blade, 14 inverted conical mixing plate, 141 pushing plate, 142 discharging port, 143 supporting rod, 15 conical dispersing plate, 2-plate filter press, 3 conveying belt, 41 first storage tank, 42 first spiral conveyer, 43 first weighing tank, 44 first chute, 51 second storage tank, 52 second spiral conveyer, 53 second weighing tank, 54 second chute, 61 third storage tank, 62 third spiral conveyer, 63 third weighing tank, 64 third chute, 71 fourth storage tank, 72 fourth spiral conveyer, 73 fourth weighing tank, 74 fourth chute, 81 fifth storage tank, 82 fifth spiral conveyer, 83 fifth weighing tank and 84 fifth chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the specific embodiments and accompanying drawings 1-2, and it is obvious that the described embodiments are only a part of the preferred embodiments of the present invention, and not all embodiments. Those skilled in the art can make similar modifications without departing from the spirit of the utility model, and therefore the utility model is not limited to the specific embodiments disclosed below.

The utility model provides a device for producing an organic-inorganic compound fertilizer by using cassava dregs as a raw material (as shown in figure 1), which comprises a mixing and stirring mechanism, a plate-type filter press 2, a conveying belt 3, a cassava dreg quantitative conveying mechanism, a conditioner quantitative conveying mechanism, a leavening agent quantitative conveying mechanism and a controller, wherein the mixing and stirring mechanism comprises a stirring tank 11, a driving motor 12 and a stirring shaft 13, the stirring shaft 13 is arranged in the stirring tank 11, the driving motor 12 can drive the stirring shaft 13 to rotate, a plurality of stirring blades 131 are arranged on the stirring shaft 13, concretely, a support frame 121 is arranged on the stirring tank 11, the driving motor 12 is arranged on the support frame 121, the upper part of the stirring shaft 13 is fixedly connected with an output shaft of the driving motor 12, a discharge pipe 111 is arranged at the lower part of the stirring tank 11, in practical application, when the materials in the stirring tank 11 reach the standard, the mixed materials flow out of the stirring tank 11 through the discharge pipe 111. The feeding end of the conveying belt 3 is arranged below the plate type filter press 2, the dehydrated materials output by the plate type filter press 2 can fall into the feeding end of the conveying belt 3, and in the specific embodiment, the plate type filter press 2 is utilized to realize dehydration treatment of cassava residue liquid so as to obtain semisolid cassava residues.

The quantitative conveying mechanism for the cassava dregs comprises a first storage tank 41, a first spiral conveyor 42, a first weighing tank 43 and a first chute 44, wherein the material output from the discharge end of the conveying belt 3 can enter the first storage tank 41, in the embodiment, in order to prevent the semi-solid cassava dregs from scattering from two sides of the conveying belt 3, the conveying belt 3 is a flange conveying belt, the material in the first storage tank 41 can enter the first weighing tank 43 through the conveying of the first spiral conveyor 42, the first weighing tank 43 can realize the weighing and discharging of the material entering the first weighing tank 43 (namely when the material in the first weighing tank 43 reaches a weighing setting value, the first weighing tank 43 can discharge the material), the first weighing tank 43 is a product of a common weighing and metering technology in the field, so the weighing principle, the discharging mode and the detailed mechanism of the first weighing tank 43 are not explained in detail, the materials flowing out of the first weighing tank 43 can enter the stirring tank 11 through the first chute 44, the materials output by the conditioner quantitative conveying mechanism and the leavening agent quantitative conveying mechanism can enter the stirring tank 11, and the controller can control the operation of the driving motor 12, the first screw conveyor 42, the first weighing tank 43, the conditioner quantitative conveying mechanism and the leavening agent quantitative conveying mechanism, so that the proportioning weighing of the materials can be realized.

In this embodiment, the specific embodiment of the quantitative delivering mechanism for the conditioner is as follows: the quantitative conveying mechanism for the conditioner comprises a quantitative conveying mechanism for ash content in straws and a quantitative conveying mechanism for ammonium sulfate, the quantitative conveying mechanism for ash content in straws comprises a second storage tank 51, a second screw conveyor 52, a second weighing tank 53 and a second chute 54, materials in the second storage tank 51 can enter the second weighing tank 53 (the second weighing tank 53 has the same structure and working principle as the first weighing tank 43) through the conveying of the second screw conveyor 52, the second weighing tank 53 can weigh and discharge the materials entering the second weighing tank 53, and the materials flowing out of the second weighing tank 53 can enter the stirring tank 11 through the second chute 54; ammonium sulfate quantitative conveying mechanism includes third storage tank 61, third screw conveyer 62, third weighing tank 63 and third chute 64, and the material in the third storage tank 61 can enter into third weighing tank 63 (third weighing tank 63 is the same with the structure and the theory of operation of first weighing tank 43) through the transport of third screw conveyer 62, and third weighing tank 63 can realize weighing and the blowing of material in getting into it, and the material that flows out in the third weighing tank 63 can enter into through third chute 64 in the agitator tank 11.

In this embodiment, the specific embodiment of the quantitative delivering mechanism for the conditioner is as follows: the leavening agent quantitative conveying mechanism comprises an pleurotus eryngii residue quantitative conveying mechanism and a mushroom residue quantitative conveying mechanism, the pleurotus eryngii residue quantitative conveying mechanism comprises a fourth storage tank 71, a fourth screw conveyor 72, a fourth weighing tank 73 and a fourth chute 74, materials in the fourth storage tank 71 can enter the fourth weighing tank 73 (the fourth weighing tank 73 and the first weighing tank 43 have the same structure and the same working principle) through the fourth screw conveyor 72, the fourth weighing tank 73 can weigh and discharge the materials entering the fourth weighing tank 73, and the materials flowing out of the fourth weighing tank 73 can enter the stirring tank 11 through the fourth chute 74; the mushroom residue quantitative conveying mechanism comprises a fifth storage tank 81, a fifth screw conveyor 82, a fifth weighing tank 83 and a fifth chute 84, materials in the fifth storage tank 81 can enter the fifth weighing tank 83 (the fifth weighing tank 83 is identical to the first weighing tank 43 in structure and working principle) through the conveying of the fifth screw conveyor 82, the fifth weighing tank 83 can weigh and discharge the materials entering the fifth weighing tank 83, and the materials flowing out of the fifth weighing tank 83 can enter the stirring tank 11 through the fifth chute 84.

In practical application, conveying the semi-solid cassava dregs into a first storage tank 41 by using a conveying belt 3, simultaneously respectively injecting a certain amount of straw ash, ammonium sulfate, pleurotus eryngii dregs and mushroom dregs into a second storage tank 51, a third storage tank 61, a fourth storage tank 71 and an eighth storage tank 81, setting weighing values of the first weighing tank 41, the second weighing tank 51, the third weighing tank 61, the fourth weighing tank 71 and the eighth weighing tank 81 by using a controller according to the ratio of each raw material actually produced, starting each screw conveyor by using the controller when the materials are required to be stirred and mixed, continuously conveying each raw material into each corresponding weighing tank by using the screw conveyor, stopping conveying work of the corresponding screw conveyor by using the controller after the material amount in each weighing tank reaches a corresponding set value, simultaneously opening the weighing tanks to convey the materials in the weighing tanks to a stirring tank 11 through corresponding chutes, then, the weighing, proportioning and conveying of the materials are completed, and the materials can be mixed by utilizing the rotation of the stirring shaft 13.

When the stirring shaft 13 is used for stirring and mixing materials, in order to improve the stirring and mixing efficiency of the materials, the upper part of the stirring shaft 13 is provided with the inverted-cone-shaped material mixing plate 14, the inverted-cone-shaped material mixing plate 14 is fixedly connected with the stirring shaft 13 through a plurality of support rods 143, the cone end of the inverted-cone-shaped material mixing plate 14 is provided with the discharge hole 142 for discharging the materials, the materials discharged from the first chute 41, the second chute 51, the third chute 61, the fourth chute 71 and the fifth chute 81 can enter the inverted-cone-shaped material mixing plate 14, in the actual stirring and mixing process, before the materials enter the stirring tank 11, the driving motor 12 starts to drive the stirring shaft 13 to rotate, so that the rotation of the inverted-cone-shaped material mixing plate 14 is realized, in the rotation process of the inverted-cone-shaped material mixing plate 14, when the materials fall onto the inverted-cone-shaped material mixing plate 14, through the rotation of the inverted-shaped material mixing plate 14, realize the preliminary mixing of material then, for further improving the mixing ability of back taper flitch 14, here, be provided with a plurality of scraping wings 141 on the inside wall of back taper flitch 14, for further improving the diffusion ability of the material that flows out from discharge gate 142, here, set up one on the upper portion of (mixing) shaft 13 be located the toper branch flitch 15 of back taper flitch 14 below, when the material falls into toper branch flitch 15 on, through the rotation effect of toper branch flitch 15, can realize throwing the rotation of material, then improved the material dispersion scope.

In addition to the technical features described in the specification, the technology is known to those skilled in the art.

While the preferred embodiments and examples of the present invention have been described in detail, it will be apparent to those skilled in the art that the utility model is not limited thereto, and that various changes and modifications may be made without departing from the spirit and scope of the utility model.

Claims (7)

1. A device for producing organic and inorganic compound fertilizer by taking cassava dregs as raw materials is characterized by comprising a mixing and stirring mechanism, a plate-type filter press, a conveying belt, a cassava dreg quantitative conveying mechanism, a conditioner quantitative conveying mechanism, a leavening agent quantitative conveying mechanism and a controller, wherein the mixing and stirring mechanism comprises a stirring tank, a driving motor and a stirring shaft, the stirring shaft is arranged in the stirring tank, the driving motor can drive the stirring shaft to rotate, a plurality of stirring blades are arranged on the stirring shaft, a discharging pipe is arranged at the lower part of the stirring tank, a feeding end of the conveying belt is arranged below the plate-type filter press, dehydrated materials produced by the plate-type filter press can fall into a feeding end of the conveying belt, the cassava dreg quantitative conveying mechanism comprises a first storage tank, a first spiral conveyor, a first weighing tank and a first chute, the material of the discharge end output of conveyer belt can enter into in the first storage tank, and the material in the first storage tank can enter into first weighing tank through first screw conveyer's transport, and first weighing tank can realize weighing and the blowing of material in getting into it, and the material that flows out in the first weighing tank can enter into in the agitator tank through first chute, the material homoenergetic of output of conditioner quantitative conveying mechanism and leavening agent quantitative conveying mechanism can enter into in the agitator tank, the operation of driving motor, first screw conveyer, first weighing tank, conditioner quantitative conveying mechanism and leavening agent quantitative conveying mechanism can be controlled to the controller.

2. The device for producing the organic-inorganic compound fertilizer by using the cassava residues as the raw materials according to claim 1, wherein the conditioner quantitative conveying mechanism comprises a straw ash quantitative conveying mechanism and an ammonium sulfate quantitative conveying mechanism, the straw ash quantitative conveying mechanism comprises a second storage tank, a second screw conveyor, a second weighing tank and a second chute, the materials in the second storage tank can enter the second weighing tank through the conveying of the second screw conveyor, the second weighing tank can weigh and discharge the materials entering the second storage tank, and the materials flowing out of the second weighing tank can enter the stirring tank through the second chute; ammonium sulfate quantitative conveying mechanism includes third storage tank, third screw conveyer, third jar and the third chute of weighing, and the material in the third storage tank can enter into the third through third screw conveyer's transport in the jar of weighing, and the third jar of weighing can realize weighing and the blowing of material in getting into it, and the material that flows in the jar from the third of weighing can enter into through the third chute in the agitator tank.

3. The device for producing the organic-inorganic compound fertilizer by using the cassava residues as the raw materials as claimed in claim 2, wherein the swelling agent quantitative conveying mechanism comprises a pleurotus eryngii residue quantitative conveying mechanism and a mushroom residue quantitative conveying mechanism, the pleurotus eryngii residue quantitative conveying mechanism comprises a fourth storage tank, a fourth screw conveyor, a fourth weighing tank and a fourth chute, the materials in the fourth storage tank can enter the fourth weighing tank through the conveying of the fourth screw conveyor, the fourth weighing tank can weigh and discharge the materials entering the fourth storage tank, and the materials flowing out of the fourth weighing tank can enter the stirring tank through the fourth chute; the mushroom residue quantitative conveying mechanism comprises a fifth storage tank, a fifth screw conveyor, a fifth weighing tank and a fifth chute, materials in the fifth storage tank can enter the fifth weighing tank through the conveying of the fifth screw conveyor, the fifth weighing tank can weigh and discharge the materials entering the fifth weighing tank, and the materials flowing out of the fifth weighing tank can enter the stirring tank through the fifth chute.

4. The device for producing organic and inorganic compound fertilizer using cassava dregs as raw material according to claim 3, wherein an inverted conical material mixing plate is arranged on the upper part of the stirring shaft, the inverted conical material mixing plate is fixedly connected with the stirring shaft through a plurality of support rods, a discharge hole for material outflow is arranged at the conical end of the inverted conical material mixing plate, and the material outflow from the first chute, the second chute, the third chute, the fourth chute and the fifth chute can enter the inverted conical material mixing plate.

5. The apparatus as claimed in claim 4, wherein the reverse tapered mixing plate has a plurality of pushing plates on its inner wall.

6. The device for producing organic and inorganic compound fertilizer by using cassava dregs as raw material according to claim 5, wherein a conical material separating plate is arranged on the upper part of the stirring shaft and below the inverted conical material mixing plate.

7. The device for producing the organic-inorganic compound fertilizer by using the cassava dregs as the raw material as claimed in claim 1, wherein the conveyer belt is a flange conveyer belt.

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