CN214864233U - Suspension fertilizer production reactor - Google Patents
Suspension fertilizer production reactor Download PDFInfo
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- CN214864233U CN214864233U CN202023002132.8U CN202023002132U CN214864233U CN 214864233 U CN214864233 U CN 214864233U CN 202023002132 U CN202023002132 U CN 202023002132U CN 214864233 U CN214864233 U CN 214864233U
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Abstract
The utility model relates to a fertilizer production technical field especially indicates a suspension fertilizer production reactor. It has solved the inhomogeneous problem of current suspension fertilizer apparatus for producing to the breakage of raw materials. It includes the case body, the inlet pipe, first pivot, first flight, second pivot and second flight, first flight sets up with the second flight is crisscross, the soon of first flight and second flight is opposite, one side that first flight is close to the second flight rotates downwards, be equipped with on the case body and drive first pivot and second pivot pivoted actuating mechanism simultaneously, the bottom of case body is equipped with the discharging pipe, the inside and the reaction chamber of discharging pipe are linked together. The utility model discloses an actuating mechanism drives first flight and second flight and rotates, and the material of even broken reaction intracavity does benefit to and improves crushing effect.
Description
Technical Field
The utility model relates to a fertilizer production technical field especially indicates a suspension fertilizer production reactor.
Background
The liquid fertilizer has the advantages of uniform component composition, high nutrient activity, convenient use, various available raw materials and the like, is more and more accepted by people, and particularly has more and more obvious advantages along with the perfection and popularization of modern irrigation facilities and fertilization machines. The liquid fertilizer comprises clear liquid fertilizer and suspension liquid fertilizer, the suspension liquid fertilizer is a later product of liquid fertilizer development, and the suspension liquid fertilizer is popular with consumers on the market because the concentration of the suspension liquid fertilizer is high and the transportation cost of the same nutrient is lower than that of the clear liquid fertilizer.
However, the crushing of current suspension fertilizer apparatus for producing to the raw materials is inhomogeneous, leads to raw materials and fungus liquid to mix inhomogeneous for ecological fertilizer effect is not good.
Disclosure of Invention
The to-be-solved technical problem of the utility model is to provide a suspension fertilizer production reactor drives first flight and second flight through actuating mechanism and rotates, the material of even broken reaction intracavity.
In order to solve the technical problem, the utility model discloses a following technical scheme:
a reactor for producing suspended fertilizer comprises a tank body, a reaction cavity is arranged in the tank body, a feeding pipe is arranged at the top of the tank body, the two ends of the feeding pipe are communicated, the bottom end of the feeding pipe penetrates into the reaction cavity, a first rotating shaft capable of rotating around the central axis of the reaction cavity is arranged in the reaction cavity, the first rotating shaft is coaxially provided with a first spiral sheet, the reaction cavity is internally provided with a second rotating shaft which can rotate around the central axis of the reaction cavity, the second rotating shaft is coaxially provided with a second spiral sheet, the first spiral sheet and the second spiral sheet are arranged in a staggered way, the rotating directions of the first spiral piece and the second spiral piece are opposite, one side of the first spiral piece close to the second spiral piece rotates downwards, the box body is provided with a driving mechanism capable of driving the first rotating shaft and the second rotating shaft to rotate simultaneously, the bottom of the box body is provided with a discharging pipe, and the interior of the discharging pipe is communicated with the reaction cavity.
Before crushing the materials, driving the first rotating shaft and the second rotating shaft to rotate through the driving mechanism, driving the first spiral piece to rotate around the central axis of the first rotating shaft, and simultaneously driving the second spiral piece to rotate around the central axis of the second rotating shaft, wherein the rotating directions of the first spiral piece and the second spiral piece are opposite, so that the materials are favorably extruded; then the materials are placed in the reaction cavity, and the first spiral piece and the second spiral piece are arranged in a staggered mode, so that the flowing space of the materials can be shortened, and the crushing effect on the materials is improved; and discharging the crushed material through a discharge pipe.
Further, the driving mechanism comprises a first driving shaft which is arranged outside the box body and can rotate around the central axis of the box body and a second driving shaft which is parallel to the first driving shaft and can rotate around the central axis of the box body, the first driving shaft is parallel to the first rotating shaft, a first gear is coaxially and fixedly connected to the first driving shaft, a motor is coaxially and fixedly connected to one end, away from the box body, of the first gear, a first mounting hole is formed in the reaction cavity and corresponds to the first rotating shaft, a second gear is coaxially and fixedly connected to the first rotating shaft after the first rotating shaft penetrates out of the first mounting hole, the second gear is meshed with the first gear, a second mounting hole which corresponds to the second rotating shaft is formed in the reaction cavity, a third gear is coaxially and fixedly connected to the second rotating shaft after the second rotating shaft penetrates out of the second mounting hole, the second driving shaft is positioned between the first driving shaft and the second rotating shaft, and a connecting gear is coaxially and fixedly connected to the second rotating shaft, one end of the connecting gear is meshed with the first gear, the other end of the connecting gear is meshed with the third gear, a supporting plate located below the motor is further arranged on the outer side of the box body, a connecting plate is fixedly connected to the supporting plate, and the motor is fixedly connected to the connecting plate.
When the electric motor works, the motor is started, the first driving shaft is driven to rotate through the output shaft of the motor, and the first rotating shaft is driven to rotate around the central axis of the motor under the meshing action of the first gear and the second gear; because the both ends of connecting gear mesh with first gear and third gear respectively, when first drive shaft rotated around self axis, also driven the second pivot through the third gear and rotated around self axis under the meshing effect of first gear and connecting gear, driven first pivot and second pivot simultaneously and rotated around its self axis separately through the motor to drive first flight and second flight and rotate, do benefit to and improve crushing effect.
Furthermore, a first bearing is arranged between the first mounting hole and the first rotating shaft, and a second bearing is arranged between the second mounting hole and the second rotating shaft.
Further, the first rotating shaft extends along the horizontal direction, and the second rotating shaft is parallel to the first rotating shaft.
Further, a gap exists between the first spiral piece and the second spiral piece, and the diameter of the second rotating shaft is smaller than that of the first rotating shaft.
Furthermore, one side of the reaction cavity, which is close to the second rotating shaft, is provided with a yielding cavity, and the yielding cavity is just opposite to the second rotating shaft.
Furthermore, the bottom of the reaction cavity is provided with a horizontally arranged filter screen, and the abdicating cavity is arranged above the filter screen.
The utility model has the advantages that:
1. before crushing the materials, driving the first rotating shaft and the second rotating shaft to rotate through the driving mechanism, driving the first spiral piece to rotate around the central axis of the first rotating shaft, and simultaneously driving the second spiral piece to rotate around the central axis of the second rotating shaft, wherein the rotating directions of the first spiral piece and the second spiral piece are opposite, so that the materials are favorably extruded; then the materials are placed in the reaction cavity, and the first spiral piece and the second spiral piece are arranged in a staggered mode, so that the flowing space of the materials can be shortened, and the crushing effect on the materials is improved; and discharging the crushed material through a discharge pipe.
2. Because the driving mechanism is arranged, when the electric motor works, the motor is started, the first driving shaft is driven to rotate through the output shaft of the motor, and the first rotating shaft is driven to rotate around the central axis of the first rotating shaft under the meshing action of the first gear and the second gear; because the both ends of connecting gear mesh with first gear and third gear respectively, when first drive shaft rotated around self axis, also driven the second pivot through the third gear and rotated around self axis under the meshing effect of first gear and connecting gear, driven first pivot and second pivot simultaneously and rotated around its self axis separately through the motor to drive first flight and second flight and rotate, do benefit to and improve crushing effect.
Drawings
FIG. 1 is a first schematic diagram of the structure of the present suspension fertilizer production reactor;
FIG. 2 is a schematic structural diagram II of the present suspension fertilizer production reactor;
FIG. 3 is a sectional view showing the construction of the present suspension fertilizer production reactor;
description of reference numerals:
1. a tank body; 2. a reaction chamber; 201. a first mounting hole; 202. a second mounting hole; 3. a feed pipe; 4. a first rotating shaft; 5. a first helical flight; 6. a second rotating shaft; 7. a second flight; 8. a discharge pipe; 901. a first drive shaft; 902. a second drive shaft; 903. a first gear; 904. a motor; 905. a second gear; 906. a third gear; 907. a connecting gear; 908. a support plate; 909. a connecting plate; 10. a first bearing; 11. a second bearing; 12. a yielding cavity; 13. and (4) a filter screen.
Detailed Description
In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.
As shown in fig. 1-3, a reactor for producing suspended fertilizer comprises a tank body 1, a reaction chamber 2 is arranged in the tank body 1, a feeding pipe 3 is arranged at the top of the tank body 1, two ends of the feeding pipe 3 are communicated, the bottom end of the feeding pipe 3 penetrates into the reaction chamber 2, a first rotating shaft 4 capable of rotating around its central axis is arranged in the reaction chamber 2, a first spiral sheet 5 is coaxially arranged on the first rotating shaft 4, a second rotating shaft 6 capable of rotating around its central axis is arranged in the reaction chamber 2, a second spiral sheet 7 is coaxially arranged on the second rotating shaft 6, the first spiral sheet 5 and the second spiral sheet 7 are staggered, the rotating directions of the first spiral sheet 5 and the second spiral sheet 7 are opposite, one side of the first spiral sheet 5 close to the second spiral sheet 7 rotates downwards, a driving mechanism capable of driving the first rotating shaft 4 and the second rotating shaft 6 to rotate simultaneously is arranged on the tank body 1, a discharging pipe 8 is arranged at the bottom of the tank body 1, the interior of the discharge pipe 8 is connected to the reaction chamber 2.
As shown in fig. 1-3, before the material is crushed, the driving mechanism drives the first rotating shaft 4 and the second rotating shaft 6 to rotate, so as to drive the first spiral blade 5 to rotate around the central axis of the first rotating shaft 4, and simultaneously drive the second spiral blade 7 to rotate around the central axis of the second rotating shaft 6, wherein the rotating directions of the first spiral blade 5 and the second spiral blade 7 are opposite, so as to facilitate the extrusion of the material; then the materials are placed in the reaction chamber 2,
as shown in fig. 2, the first spiral piece 5 and the second spiral piece 7 are arranged in a staggered manner, so that the flowing space of the material can be shortened, and the crushing effect on the material can be improved; and discharging the crushed material through a discharge pipe 8.
As shown in fig. 1, the driving mechanism includes a first driving shaft 901 disposed outside the box body 1 and capable of rotating around its central axis, and a second driving shaft 902 parallel to the first driving shaft 901 and capable of rotating around its central axis, the first driving shaft 901 is parallel to the first rotating shaft 4, the first driving shaft 901 is coaxially connected with a first gear 903, one end of the first gear 903 far away from the box body 1 is also coaxially connected with a motor 904, a first mounting hole 201 corresponding to the first rotating shaft 4 is disposed in the reaction chamber 2, the first rotating shaft 4 penetrates through the first mounting hole 201 and is coaxially connected with a second gear 905, the second gear 905 is engaged with the first gear 903, a second mounting hole 202 corresponding to the second rotating shaft 6 is further disposed in the reaction chamber 2, the second rotating shaft 6 penetrates through the second mounting hole 202 and is coaxially connected with a third gear 906, the second driving shaft 902 is located between the first driving shaft 901 and the second rotating shaft 6, a connecting gear 907 is coaxially and fixedly connected to the second rotating shaft 6, one end of the connecting gear 907 is meshed with the first gear 903, the other end of the connecting gear 907 is meshed with the third gear 906, a supporting plate 908 located below the motor 904 is further arranged on the outer side of the box body 1, a connecting plate 909 is fixedly connected to the supporting plate 908, and the motor 904 is fixedly connected to the connecting plate 909.
As shown in fig. 1, in operation, the motor 904 is started, the output shaft thereof drives the first driving shaft 901 to rotate, and the first gear 903 and the second gear 905 mesh with each other to drive the first rotating shaft 4 to rotate around its central axis; because the both ends of connecting gear 907 are meshed with first gear 903 and third gear 906 respectively, first drive shaft 901 rotates around self axis, also drive second pivot 6 through third gear 906 and rotate around self axis under the meshing effect of first gear 903 and connecting gear 907, drive first pivot 4 and second pivot 6 respectively and rotate around its self axis simultaneously through motor 904, thereby drive first flight 5 and second flight 7 and rotate, do benefit to and improve crushing effect.
As shown in fig. 2, a first bearing 10 is disposed between the first mounting hole 201 and the first rotating shaft 4, and a second bearing 11 is disposed between the second mounting hole 202 and the second rotating shaft 6; as shown in fig. 3, the first rotating shaft 4 extends in the horizontal direction, and the second rotating shaft 6 is parallel to the first rotating shaft 4; a gap exists between the first spiral piece 5 and the second spiral piece 7, and the diameter of the second rotating shaft 6 is smaller than that of the first rotating shaft 4.
As shown in fig. 3, a yielding cavity 12 is disposed on one side of the reaction cavity 2 close to the second rotating shaft 6, and the yielding cavity 12 is disposed opposite to the second rotating shaft 6.
As shown in fig. 3, a filter screen 13 is horizontally disposed at the bottom of the reaction chamber 2, and the abdicating chamber 12 is disposed above the filter screen 13. All the technical features in the embodiment can be freely combined according to actual needs.
The above embodiments are preferred implementations of the present invention, and in addition, the present invention includes other implementations, and any obvious replacement is within the protection scope of the present invention without departing from the concept of the present invention.
Claims (7)
1. The utility model provides a suspension fertilizer production reactor, includes case body (1), its characterized in that, be equipped with reaction chamber (2) in case body (1), the top of case body (1) is equipped with inlet pipe (3), the both ends of inlet pipe (3) link up, the bottom of inlet pipe (3) is run through to reaction chamber (2) in, be equipped with in reaction chamber (2) and wind self axis pivoted first pivot (4), coaxial first flight (5) that is provided with on first pivot (4), be equipped with in reaction chamber (2) and wind self axis pivoted second pivot (6), coaxial second flight (7) that is provided with on second pivot (6), first flight (5) and second flight (7) crisscross setting, the direction of rotation of first flight (5) and second flight (7) is opposite, one side of first flight (5) near second flight (7) rotates downwards, be equipped with on case body (1) and drive first pivot (4) and second pivot (6) pivoted actuating mechanism simultaneously, the bottom of case body (1) is equipped with discharging pipe (8), the inside and reaction chamber (2) of discharging pipe (8) are linked together.
2. The reactor for producing suspended fertilizer as claimed in claim 1, wherein the driving mechanism comprises a first driving shaft (901) which is arranged outside the tank body (1) and can rotate around its central axis, and a second driving shaft (902) which is parallel to the first driving shaft (901) and can rotate around its central axis, the first driving shaft (901) is parallel to the first rotating shaft (4), the first driving shaft (901) is coaxially and fixedly connected with a first gear (903), one end of the first gear (903) far away from the tank body (1) is also coaxially and fixedly connected with a motor (904), a first mounting hole (201) which is arranged corresponding to the first rotating shaft (4) is arranged in the reaction chamber (2), the first rotating shaft (4) penetrates through the first mounting hole (201) and then is coaxially and fixedly connected with a second gear (905), and the second gear (905) is meshed with the first gear (903), the reaction chamber (2) is further internally provided with a second mounting hole (202) which is arranged corresponding to the second rotating shaft (6), the second rotating shaft (6) penetrates through the second mounting hole (202) and then is coaxially fixedly connected with a third gear (906), the second driving shaft (902) is positioned between the first driving shaft (901) and the second rotating shaft (6), the second rotating shaft (6) is coaxially and fixedly connected with a connecting gear (907), one end of the connecting gear (907) is meshed with the first gear (903), the other end of the connecting gear (907) is meshed with the third gear (906), the outer side of the box body (1) is further provided with a supporting plate (908) which is positioned below the motor (904), the supporting plate (908) is fixedly connected with a connecting plate (909), and the motor (904) is fixedly connected onto the connecting plate (909).
3. The suspended fertilizer production reactor according to claim 2, wherein a first bearing (10) is provided between the first mounting hole (201) and the first rotating shaft (4), and a second bearing (11) is provided between the second mounting hole (202) and the second rotating shaft (6).
4. A reactor for producing suspended fertilizer according to claim 3, characterized in that said first rotating shaft (4) extends horizontally and said second rotating shaft (6) is parallel to said first rotating shaft (4).
5. The suspended fertilizer production reactor of claim 4, wherein there is a gap between the first and second flights (5, 7), and the diameter of the second shaft (6) is less than the diameter of the first shaft (4).
6. The reactor for producing suspended fertilizer as claimed in claim 4, wherein the reaction chamber (2) is provided with a yielding chamber (12) at one side close to the second rotating shaft (6), and the yielding chamber (12) is opposite to the second rotating shaft (6).
7. The suspended fertilizer production reactor as set forth in claim 6, characterized in that the bottom of the reaction chamber (2) is provided with a horizontally disposed filter screen (13), and the abdicating chamber (12) is disposed above the filter screen (13).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023002132.8U CN214864233U (en) | 2020-12-14 | 2020-12-14 | Suspension fertilizer production reactor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023002132.8U CN214864233U (en) | 2020-12-14 | 2020-12-14 | Suspension fertilizer production reactor |
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CN214864233U true CN214864233U (en) | 2021-11-26 |
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CN202023002132.8U Active CN214864233U (en) | 2020-12-14 | 2020-12-14 | Suspension fertilizer production reactor |
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