CN108371899B

CN108371899B - Stirring structure and ingredient stirring adjustment all-in-one for planting soil

Info

Publication number: CN108371899B
Application number: CN201810104268.8A
Authority: CN
Inventors: 王晓军; 杨寿光
Original assignee: Suzhou Zhitian Technology Co ltd
Current assignee: Jiaxing Zhixu Information Technology Co ltd
Priority date: 2018-02-02
Filing date: 2018-02-02
Publication date: 2021-08-31
Anticipated expiration: 2038-02-02
Also published as: CN108371899A

Abstract

Plant soil and use stirring structure includes: the smooth blade in pivot, installation in the epaxial surface of pivot, the fibre in the cutting planting soil when avoiding stirring the composition makes the planting soil after the stirring maintain better water conservation fertilizer-keeping ability, and recess on the blade, division board have further enlarged the stirring effect face, improve stirring effect. In addition, the pushing curved surface extending from one side of the blade enables the stirrer to push the stirring materials forwards while stirring the planting soil, so that the automatic transmission of the planting soil is realized. Plant soil and stir adjustment all-in-one with composition includes: stirring structure, horizontal churn, material loading subassembly, the atomizer of nutrient solution interpolation usefulness, a servo motor, material loading subassembly include the roller bearing and twine the conveyer belt on the roller bearing, have replaced traditional screw feeder, improve pay-off efficiency, and the use of atomizer is with material loading, composition adjustment, stirring, the integration operation of unloading, reduces workman manipulation strength, improves city branch adjustment stirring efficiency.

Description

Stirring structure and ingredient stirring adjustment all-in-one for planting soil

Technical Field

The invention relates to the technical field of plant cultivation, in particular to a stirring structure and a component stirring and adjusting integrated machine for planting soil.

Background

The planting soil is also called peat soil and turfy soil according to different components and producing areas, and is widely used as a culture medium and an organic fertilizer in the vegetable, flower and garden planting industry.

The planting soil in the market at present is mainly divided into two types, one is expensive high-quality natural planting soil, and the other is low-price artificial planting soil formed by mixing crops, animal wastes and chemical fertilizers. In order to protect the environment without discarding the used planting soil waste, the method for realizing secondary or repeated utilization of the planting soil by reconstruction is an effective measure for protecting the environment and reducing the cultivation cost. Most of nutrient components in the used planting soil are absorbed by plants, nutrient solution with certain components needs to be added in the recovery and reconstruction process to enable the planting soil to meet the plant growth requirement again, and in order to enable the nutrient components added in the nutrient soil to be uniform, the nutrient soil needs to be fully stirred. The mixer that relates to among the prior art is generally accomplished by the stirring vane structure, but because planting soil matter is light and be close strip fibrous, traditional stirring vane can not more satisfy the demand, simultaneously in order to guarantee that the length of fiber strip can not be cut off by stirring vane in the planting soil, maintains and keeps fertile water-retaining ability, urgently awaits a special use in the mixer blade structure of planting soil regeneration technology.

Secondly, the traditional stirrer generally uses a motor to drive a spiral feeder to feed materials in a spiral manner, so that the feeding speed is low and the structure is complex; the adding, mixing and discharging of the nutrient additives are intermittent operation, so that the work intensity of an operator is increased, and the reconstruction period of the planting soil is prolonged.

In order to solve the technical problem, the invention provides a stirring structure for planting soil, which comprises: the smooth blade in pivot, installation in the pivot sets up to the smooth state through all surfaces with the mixer blade, cuts the fibre in the planting soil when avoiding stirring the composition, makes the planting soil after the stirring maintain better water conservation fertilizer conservation ability, and recess, division board on the blade have further enlarged the stirring effect face, improve stirring effect. In addition, the pushing curved surface extending from one side of the blade enables the stirrer to push the stirring materials forwards while stirring the planting soil, so that the automatic transmission of the planting soil is realized. Plant soil and stir adjustment all-in-one with composition includes: stirring structure, horizontal churn, material loading subassembly, the atomizer of nutrient solution interpolation usefulness, a servo motor, material loading subassembly include the roller bearing and twine the conveyer belt on the roller bearing, have replaced traditional screw feeder, improve pay-off efficiency, and the use of atomizer is with material loading, composition adjustment, stirring, the integration operation of unloading, reduces workman manipulation strength, improves city branch adjustment stirring efficiency.

Disclosure of Invention

The invention relates to a stirring structure for planting soil, wherein the stirring structure 1 comprises a rotating shaft 11 and blades 12 arranged on the rotating shaft 11, all surfaces of the blades 12 are sharp structures with smooth polished planes or curved surfaces and no blade edge, and the rotating shaft 11 is driven by a motor to rotate so as to drive the blades to rotate at a high speed and uniformly distribute added nutrient substances in the planting soil; wherein the blade 12 is curved and 1-3 grooves 121 which are not communicated with each other are processed on the curved surface of the blade 12. The smooth blades 12 can not cut off fiber strips in the nutrient soil in the high-speed stirring process, so that the phenomenon that the moisture and fertilizer reporting capacity of the reconstructed planting soil is reduced due to too small component volume is avoided; secondly, the groove 121 structure processed on the S-shaped curved surface can increase the stirring action surface and further increase the uniformity of the components in the planting soil.

Preferably, in the stirring structure for planting soil, a partition 1211 is disposed in the groove 121 of the blade 12, and the partition 1211 divides the entire groove 121 into a plurality of discontinuous groove structures. The partition 1211 increases the stirring action surface, further improves the stirring effect, and shortens the stirring time under the condition of certain stirring uniformity.

Preferably, in the stirring structure for soil planting, the curved edge portion of the blade 12 is rotationally extended with the same curvature to form a curved surface, that is, a pushing curved surface 122 integrally formed with the blade, and the pushing curved surface 122 is arranged to enable the stirring machine to realize spiral advancing of the stirred material while rotationally stirring, and stirring and feeding are performed simultaneously.

Preferably, the stirring structure for planting soil is provided with one or more groups of blade assemblies arranged along the length direction of the rotating shaft on the rotating shaft 11.

Preferably, plant soil and use stirring structure, the blade subassembly and every group blade subassembly that the pivot 11 is last to install the multiunit not in the coplanar include a blade 12, and a plurality of blades 12 are the heliciform around being arranged on the pivot 11, as shown in the installation schematic diagram of fig. 5, the heliciform between a plurality of blades 12 arranges the speed that has further accelerated the stirring pay-off, need not the operator and opens the mixer box and get the material, alleviate operator working strength.

Preferably, plant soil and use stirring structure installs the blade subassembly that the multiunit was arranged along length direction on 11, includes 2~ 4 blades 12 of angular distribution such as the circumferencial direction along 11 in every group blade subassembly, and adjacent blade subassembly staggers the angle installation. The stirring effort direction of the multiunit blade subassembly after the angle stagger is mixed and disorderly to planting soil, improves stirring effect, and nutrition additive's distribution homogenization degree improves.

Preferably, the groove 121 of the stirring structure for planting soil has a width of 5mm to 15 mm. The width of the groove 121 is larger than the length of the fiber strips in the planting soil, otherwise the planting soil is easily deposited at the groove 121 and cannot easily pass through the groove during the stirring process, and secondly, the width of the groove 121 is not too large, otherwise the strength of the blade 12 is reduced.

Including the composition stirring adjustment all-in-one of above-mentioned stirring structure, include: the stirring device comprises a stirring structure 1, a transverse stirring cylinder 2, a feeding assembly 3 and a first servo motor 4, wherein two ends of the length of a rotating shaft 11 in the stirring structure 1 are fixed with the cylinder surfaces at the front end and the rear end of the stirring cylinder 2 through rolling bearings, the servo motor 4 is arranged at the rear end of the stirring cylinder 2, and a power output shaft of the motor is fixedly connected with the end part of the rotating shaft 11 so as to drive the rotating shaft 11 to rotate; the front end of the mixing drum 2 is provided with a discharge port 21 and a downward inclined discharge sliding table 22 connected with the discharge port 21, a trumpet-shaped feed hopper 23 is arranged on the upper drum surface at the rear end of the mixing drum 2, the bottom end of the feed hopper 23 is communicated with the inner cavity of the mixing drum 2, the feeding assembly 3 comprises a roller 31, a second servo motor 32 (not shown in the figure) and a conveyor belt 33, the roller 31 comprises a driving roller 311 and a driven roller 312 at the feed hopper 23, gears are arranged at the end parts of the two rollers and connected with each other through a chain, one end part of the driving roller 311 is connected with a power output shaft of the second servo motor 32, and the two ends of the conveyor belt 33 are respectively wound on the two rollers to form a conveying loop, wherein the feed hopper 23 is formed by surrounding three plate surface structures, and one side close to the driven roller 312 has no plate surface structure; the rear end of the mixing drum 2 is provided with an atomizer 5 containing an additive nutrient solution near the feed hopper 23, and the spray head part of the atomizer 5 is arranged inside the mixing drum 2.

The aforesaid is arranged in composition stirring all-in-one, through changing traditional screw feeder into conveyer belt 33 pay-off, pay-off efficiency has been accelerated, the composition that will add is sprayed to the planting soil that is stirring rotation with the form of vaporific liquid drop to the nutrient solution atomizer 5 of arranging 2 rear ends in the churn in, easily stirring uniformity, secondly, blade 12 in the stirring structure advances through the messenger of propelling movement curved surface 122 planting soil stirring limit spiral, realize the limit material loading, nutrient composition adds, composition mixing stirring, the automated production of ejection of compact integration, the artifical intensity of labour that significantly reduces, the degree of automation of the production is improved, accelerate the production progress, improve the degree of consistency of composition adjustment.

Preferably, in the component stirring and adjusting all-in-one machine, the conveyor belt 33 includes a conveyor belt body 331 and a material containing box 332 located on the conveyor belt body 331, and an included angle between an opening plane of the material containing box 332 and the conveyor belt body 331 is 100-130 °. The conveyor belt provided with the containing box 332 replaces a traditional spiral feeder, the feeding speed and the feeding amount in unit time are increased, and the plane of the feeding port of the containing box 332 and the conveyor belt body 331 form an obtuse angle, so that the planting soil can be conveniently added into the containing box 332.

Preferably, in the component stirring and adjusting all-in-one machine, the included angle between the circle center connecting line of the driving roller 311 and the driven roller 312 and the horizontal plane is 45-80 degrees, preferably 60-80 degrees, the length of the conveyor belt 33 can be shortened, the feeding speed can be increased, the occupied area of the feeding structure 3 can be reduced, and on the other hand, the inclination angle is large enough to ensure that the opening surface of the material box containing the material box 332 is parallel to the ground, so that the material can be loaded conveniently.

Description of the drawings:

the embodiments are further described with reference to the accompanying drawings, in which:

FIG. 1 is a structural view of a stirring structure for planting soil according to the present invention;

FIG. 2 is a structural view of a stirring structure for planting soil according to the present invention;

FIG. 3 is a structural view of a stirring structure for planting soil according to the present invention;

FIG. 4 is a schematic view showing a single blade of a soil mixer according to the present invention;

FIG. 5 is a simplified schematic view showing the spiral installation of blades in the soil mixer according to the present invention;

FIG. 6 is a schematic structural view of a component stirring and adjusting integrated machine for planting soil according to the present invention;

FIG. 7 is a schematic view of the internal structure of the component stirring and adjusting integrated machine for planting soil according to the present invention;

FIG. 8 is a schematic view showing a broken-off state of a conveyor belt in the all-in-one machine for stirring and adjusting ingredients for planting soil according to the present invention;

the structure corresponding to the number in the attached drawings:

stirring structure 1, rotating shaft 11, blades 12, grooves 121, partition 1211, pushing curved surface 122, stirring cylinder 2, discharge port 21, discharge sliding table 22, feed hopper 23, feeding assembly 3, roller 31, driving roller 311, driven roller 312, second servo motor 32, conveyor belt 33, conveyor belt body 331, containing box 332, first servo motor 4 and atomizer 5

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

Specific embodiment example 1:

plant soil and use stirring structure includes: the device comprises a rotating shaft 11 and blades 12 arranged on the rotating shaft 11, wherein all surfaces of the blades 12 are sharp structures with smooth polished planes or curved surfaces and without blades, and the rotating shaft 11 is driven by a motor to rotate so as to drive the blades to rotate at a high speed and enable added nutrient substances to be uniformly distributed in planting soil; wherein the blade 12 is a curved surface and 1-3 grooves 121 which are not communicated with each other are processed on the curved surface of the blade 12. The smooth blades 12 can not cut off fiber strips in the nutrient soil in the high-speed stirring process, so that the phenomenon that the moisture and fertilizer reporting capacity of the reconstructed planting soil is reduced due to too small component volume is avoided; secondly, the groove 121 structure processed on the S-shaped curved surface can increase the stirring action surface and further increase the uniformity of the components in the planting soil.

Wherein, the groove 121 in the blade 12 is provided with a partition 1211, and the partition 1211 divides the whole groove 121 into a plurality of discontinuous groove structures. The arrangement of the partition plate 1211 increases the stirring action surface, further improves the stirring effect and shortens the stirring time under the condition of certain stirring uniformity; install the blade subassembly that the multiunit is not on the coplanar and every group blade subassembly includes a blade 12 on the pivot 11, and a plurality of blades 12 are the heliciform around being arranged on the pivot 11, as shown in the installation schematic diagram of fig. 5, the heliciform between a plurality of blades 12 is arranged and has further accelerated the speed of stirring pay-off, need not the operator and opens the mixer box and get the material, alleviates operator working strength.

Alternatively, the width of the groove 121 is 5mm to 15 mm.

Including the planting soil of above-mentioned stirring structure with composition stirring adjustment all-in-one, include: the stirring device comprises a stirring structure 1, a transverse stirring cylinder 2, a feeding assembly 3 and a first servo motor 4, wherein two ends of the length of a rotating shaft 11 in the stirring structure 1 are fixed with the cylinder surfaces at the front end and the rear end of the stirring cylinder 2 through rolling bearings, the servo motor 4 is arranged at the rear end of the stirring cylinder 2, and a power output shaft of the motor is fixedly connected with the end part of the rotating shaft 11 so as to drive the rotating shaft 11 to rotate; the front end of the mixing drum 2 is provided with a discharge port 21 and a downward inclined discharge sliding table 22 connected with the discharge port 21, a trumpet-shaped feed hopper 23 is arranged on the upper drum surface at the rear end of the mixing drum 2, the bottom end of the feed hopper 23 is communicated with the inner cavity of the mixing drum 2, the feeding assembly 3 comprises a roller 31, a second servo motor 32 (not shown in the figure) and a conveyor belt 33, the roller 31 comprises a driving roller 311 and a driven roller 312 at the feed hopper 23, gears are arranged at the end parts of the two rollers and connected with each other through a chain, one end part of the driving roller 311 is connected with a power output shaft of the second servo motor 32, and the two ends of the conveyor belt 33 are respectively wound on the two rollers to form a conveying loop, wherein the feed hopper 23 is formed by surrounding three plate surface structures, and one side close to the driven roller 312 has no plate surface structure; the rear end of the mixing drum 2 is provided with an atomizer 5 containing an additive nutrient solution near the feed hopper 23, and the spray head part of the atomizer 5 is arranged inside the mixing drum 2.

Further, the conveyor belt 33 includes a conveyor belt body 331 and a material containing box 332 located on the conveyor belt body 331, and an included angle between an opening plane of the material containing box 332 and the conveyor belt body 331 is 100 °.

Furthermore, the included angle between the circle center connecting line of the driving roller 311 and the driven roller 312 and the horizontal plane is 50 degrees, which is convenient for pouring the planting soil into the material containing box 332.

According to the stirrer blade related to the specific embodiment, all the surfaces of the stirrer blade are set to be in a smooth state, so that the fibers in the planting soil are cut while the components are stirred, the stirred planting soil maintains good water and fertilizer retention capacity, the stirring action surface is further enlarged by the grooves 121 and the partition plates 1211 on the blade 12, and the stirring effect is improved. In addition, the pushing curved surface 122 extending from one side of the blade 12 enables the stirrer to push the stirred material forward while stirring the planting soil, thereby realizing the automatic transmission of the planting soil. The all-in-one machine for stirring the components for the planting soil utilizes the conveying belt 33 to feed, increases the feeding amount while improving the feeding speed, and simultaneously increases the atomizer 5 to realize integrated operation of feeding, component adjustment, component mixing and discharging, thereby reducing the working strength of operators and improving the efficiency of component stirring adjustment.

Specific embodiment example 2:

plant soil and use stirring structure includes: the device comprises a rotating shaft 11 and blades 12 arranged on the rotating shaft 11, wherein all surfaces of the blades 12 are sharp structures with smooth polished planes or curved surfaces and without blades, and the rotating shaft 11 is driven by a motor to rotate so as to drive the blades to rotate at a high speed and uniformly distribute added nutrient substances in planting soil; wherein the blade 12 is curved and 1-3 grooves 121 which are not communicated with each other are processed on the curved surface of the blade 12. The smooth blades 12 can not cut off fiber strips in the nutrient soil in the high-speed stirring process, so that the phenomenon that the moisture and fertilizer reporting capacity of the reconstructed planting soil is reduced due to too small component volume is avoided; secondly, the groove 121 structure processed on the S-shaped curved surface can increase the stirring action surface and further increase the uniformity of the components in the planting soil.

Wherein, the groove 121 in the blade 12 is provided with a partition 1211, and the partition 1211 divides the whole groove 121 into a plurality of discontinuous groove structures; the curved edge of the blade 12 is rotated to extend a curved surface with the same curvature, that is, a pushing curved surface 122 integrally formed with the blade, and the arrangement of the pushing curved surface 122 enables the stirring machine to realize spiral advancing of the stirred material while rotating and stirring, and stirring and feeding are simultaneously realized.

Install 3 groups of blade subassemblies of arranging along 11 length direction of pivot on the pivot 11, including 2~ 4 blades 12 of angular distribution such as the circumferencial direction along pivot 11 in every group blade subassembly, the installation of adjacent blade subassembly angle that staggers. The stirring effort direction of the multiunit blade subassembly after the angle stagger is mixed and disorderly to planting soil, improves stirring effect, and nutrition additive's distribution homogenization degree improves.

Alternatively, the width of the groove 121 is 5mm to 15 mm.

Further, the conveyor belt 33 includes a conveyor belt body 331 and a material containing box 332 located on the conveyor belt body 331, and an included angle between an opening plane of the material containing box 332 and the conveyor belt body 331 is 130 °.

Furthermore, the included angle between the circle center connecting line of the driving roller 311 and the driven roller 312 and the horizontal plane is 80 degrees, which is convenient for pouring the planting soil into the material containing box 332.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. Plant soil and use stirring structure, the stirring structure includes: the rotary shaft is driven by a motor to rotate so as to drive the blades to rotate at a high speed, so that added nutrient substances are uniformly distributed in planting soil; the blade is curved surface form, its characterized in that: 1-3 grooves which are not communicated with each other are processed on the curved surface of the blade;

the grooves in the blades are provided with partition plates, and the overall grooves are divided into a plurality of discontinuous groove structures by the partition plates.

2. The stirring structure for planting soil according to claim 1, wherein: the curved edge of the blade is rotated to form a curved surface with the same curvature as the blade, namely a pushing curved surface integrally formed with the blade.

3. The stirring structure for planting soil according to claim 1, wherein: the rotating shaft is provided with one or more groups of blade assemblies which are arranged along the length direction of the rotating shaft.

4. The stirring structure for planting soil according to claim 3, wherein: install the blade subassembly and every group blade subassembly that the multiunit is not on the coplanar in the pivot and include a blade, and a plurality of blades revolute and be the heliciform and arrange on the axle.

5. The stirring structure for planting soil according to claim 3, wherein: install the blade subassembly that the multiunit was arranged along pivot length direction in the pivot, every group blade subassembly includes 2~ 4 blades along the angular distribution such as pivot circumferencial direction, and adjacent blade subassembly staggers the angle installation.

6. The stirring structure for planting soil according to any one of claims 1 to 5, wherein: the width of the groove is 5 mm-15 mm.

7. An all-in-one machine for stirring and adjusting ingredients for planting soil, which comprises a stirring structure as claimed in any one of claims 2 to 5, a transversely arranged stirring drum, a feeding assembly and a first servo motor, wherein two ends of the length of a rotating shaft in the stirring structure are fixed with the front end drum surface and the rear end drum surface of the stirring drum through rolling bearings, the servo motor is arranged at the rear end of the stirring drum, and a power output shaft of the motor is fixed with the end part of the rotating shaft so as to drive the rotating shaft to rotate; the front end of the mixing drum is provided with a discharge port and a downward inclined discharge sliding table connected with the discharge port, a horn-shaped feed hopper is arranged on the upper drum surface at the rear end of the mixing drum, the bottom end of the feed hopper is communicated with the inner cavity of the mixing drum, the feeding assembly comprises a roller, a second servo motor and a conveyor belt, the roller comprises a driving roller and a driven roller at the feed hopper, gears are arranged at the end parts of the two rollers and connected through a chain, one end part of the driving roller is connected with a power output shaft of the second servo motor, and the two ends of the conveyor belt are respectively wound on the two rollers to form a conveying loop, wherein the feed hopper is formed by enclosing three panel structures and one side close to the driven roller is free of the panel structure; an atomizer filled with nutrient solution is arranged at the rear end of the mixing drum and close to the feed hopper, and the spray head part of the atomizer is arranged inside the mixing drum.

8. The ingredient mixing and adjusting all-in-one machine as set forth in claim 7, wherein: the conveyer belt includes the conveyer belt body and is located the splendid attire magazine on the conveyer belt body, and the contained angle between the magazine opening plane of splendid attire magazine and the conveyer belt body is 100 ~ 130.

9. The ingredient mixing and adjusting all-in-one machine as set forth in claim 7, wherein: the included angle between the connecting line of the circle centers of the driving roller 311 and the driven roller 312 and the horizontal plane is 45-80 degrees.