CN213133205U - Production equipment of multi-element chelate fertilizer - Google Patents

Abstract

The utility model discloses a production facility of multielement chelate fertilizer, which comprises a mounting base, an annular mounting disc, a mixing kettle and a plurality of groups of reaction kettles, wherein the annular mounting disc is nested and mounted on the mounting base in a relative rotation manner, the annular mounting disc is in power connection with a driving motor, the mixing kettle is fixedly mounted at the inner side of the mounting base and positioned below the annular mounting disc, and the reaction kettles are fixedly mounted on the annular mounting disc in an annular array manner; the mounting base is fixedly provided with a main feed hopper, the top ends of all groups of mixing kettles are matched and connected with a first feed hopper, the mixing kettles are matched and provided with a first stirring blade and a heating pipe, and the bottom ends of the mixing kettles are matched and connected with a first discharge pipe; the top end of the mixing kettle is connected with a second feed hopper in a matching way, and a second stirring blade is installed in the mixing kettle in a matching way. The utility model discloses have area little, can high-efficient quick beneficial effect who produces many first chelate fertilizers.

Description

Production equipment of multi-element chelate fertilizer

Technical Field

The utility model relates to a fertilizer production facility technical field, specific production facility of many first chelate fertilizers that says so.

Background

The chelated trace element fertilizer is better than the inorganic trace element fertilizer, is not easy to be fixed in soil, is easy to be dissolved in water, is not dissociated, and can be well absorbed and utilized by plants. Can also be mixed with other solid or liquid fertilizers for application without chemical reaction and reducing the fertilizer efficiency of any fertilizer.

However, in the production process of the chelate fertilizer, the interaction between the elements in the chelate fertilizer needs to be considered, which causes the reduction of the fertilizer efficiency, so that the chelate reaction needs to be carried out on the initial materials in batches according to whether the fertilizer efficiency influence is generated, and various wastes generated by the chelate reaction need to be mixed. In the process, a plurality of reaction devices are needed, the occupied area is large, and the production efficiency is greatly limited.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a production facility that area is little, can high-efficient quick production many first chelate fertilizer.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: production equipment of a multi-element chelated fertilizer comprises a mounting base, an annular mounting disc, a mixing kettle and a plurality of groups of reaction kettles, wherein the annular mounting disc is nested and mounted on the mounting base in a relative rotation mode, the annular mounting disc is in power connection with a driving motor, the driving motor drives the annular mounting disc to horizontally rotate, the mixing kettle is fixedly mounted on the inner side of the mounting base and located below the annular mounting disc, and the reaction kettles are fixedly mounted on the annular mounting disc in an annular array;

a main feed hopper is fixedly arranged on the mounting base, the top ends of the mixing kettles of all groups are connected with first feed hoppers in a matching manner, the outlet ends of the main feed hoppers are opposite to the inlet ends of the first feed hoppers of one group, first stirring blades and heating pipes are arranged in the mixing kettles of all groups in a matching manner, and the bottom ends of the mixing kettles of all groups are connected with first discharge pipes in a matching manner;

the top of mixing kettle is supporting to be connected with the second feeder hopper, and the entrance point of second feeder hopper is relative with one of them a set of first discharging pipe, supporting second stirring leaf of installing in the mixing kettle, and the bottom of mixing kettle is supporting to be connected with the second discharging pipe.

The mounting base inboard is provided with the installation cavity, mixing kettle, reation kettle all set up in the installation cavity.

Driving motor fixed mounting is in on the mounting base and set up the periphery at the annular mounting disc, drive gear has consolidated in driving motor's the axis of rotation, the periphery of annular mounting disc is the annular array and arranges the teeth of a cogwheel, and drive gear is connected with the meshing of the teeth of a cogwheel.

First stirring leaf power is connected with first agitator motor, and first agitator motor fixed mounting is at the top that corresponds reation kettle, heating pipe spiral sets up in the lateral wall that corresponds reation kettle.

And the second stirring blade is in power connection with a second stirring motor, and the second stirring motor is fixedly arranged at the top of the mixing kettle.

The bottom of the reaction kettle and the bottom of the mixing kettle are both arranged to be in an inverted cone shape, and the first discharging pipe and the second discharging pipe are respectively arranged at the lowest ends of the inverted cones in the reaction kettle and the mixing kettle.

Each group the first feeder hopper all sets up in the periphery department of relative annular mounting disc, each group first discharging pipe all sets up in the inner peripheral department of relative installation carousel.

The first discharging pipe is provided with a first electromagnetic switch valve in a matching mode, and the second discharging pipe is provided with a second electromagnetic switch valve in a matching mode.

The utility model has the advantages that: the annular mounting disc is driven to rotate by the operation of the driving motor, so that first feed hoppers corresponding to each group of reaction kettles mounted on the annular mounting disc sequentially pass through the main feed hoppers, raw materials required by the reaction are added into the corresponding reaction kettles through the main feed hoppers, the first stirring motor is started to drive the first stirring blades to rotate, and chelation reaction is carried out under the heating action of the heating pipe to generate a specific chelated fertilizer; and after the reaction in the reaction kettle is finished, adding the generated chelate fertilizer into a mixing kettle for mixing to generate the multi-element chelate fertilizer. All equipment in the whole production process is assembled and installed, the occupied area is small, and multiple groups of reaction kettles can work in a matched mode to efficiently produce the multi-element chelated fertilizer.

Drawings

FIG. 1 is a schematic diagram of the relationship of the present invention;

fig. 2 is an installation schematic diagram of the annular mounting disc, the reaction kettle and the mixing kettle in the utility model.

In the figure: the device comprises a mounting base 1, an annular mounting disc 2, a mixing kettle 3, a reaction kettle 4, a driving motor 5, a total feeding hopper 6, a first feeding hopper 7, a first stirring blade 8, a heating pipe 9, a first discharging pipe 10, a second feeding hopper 11, a second stirring blade 12, a second discharging pipe 13, a mounting cavity 14, a driving gear 15, gear teeth 16, a first stirring motor 17 and a second stirring motor 18.

Detailed Description

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

Referring to fig. 1-2, a production facility of a multi-element chelate fertilizer comprises a mounting base 1, an annular mounting disc 2, a mixing kettle 3 and a plurality of groups of reaction kettles 4, wherein the annular mounting disc 2 is nested and mounted on the mounting base 1 in a relative rotation manner, the annular mounting disc 2 is in power connection with a driving motor 5, the driving motor 5 drives the annular mounting disc 2 to horizontally rotate, the mixing kettle 3 is fixedly mounted on the inner side of the mounting base 1 and positioned below the annular mounting disc 2, and the reaction kettles 4 are fixedly mounted on the annular mounting disc 2 in an annular array;

a main feed hopper 6 is fixedly installed on the installation base 1, the top ends of the groups of mixing kettles 3 are connected with first feed hoppers 7 in a matching manner, the outlet ends of the main feed hoppers 6 are opposite to the inlet ends of one group of the first feed hoppers 7, first stirring blades 8 and heating pipes 9 are installed in the groups of mixing kettles 3 in a matching manner, and the bottom ends of the groups of mixing kettles 3 are connected with first discharge pipes 10 in a matching manner;

the top of mixing kettle 3 is supporting to be connected with second feeder hopper 11, and the entrance point of second feeder hopper 11 is relative with a set of first discharging pipe 10 wherein, and supporting second stirring leaf 12 of installing in mixing kettle 3, and the bottom of mixing kettle 3 is supporting to be connected with second discharging pipe 13.

In the utility model, the inner side of the mounting base 1 is provided with the mounting cavity 14, the mixing kettle 3 and the reaction kettle 4 are both arranged in the mounting cavity 14, and the reasonability of the arrangement of the mixing kettle 3 and the reaction kettle 4 is ensured;

the driving motor 5 is fixedly installed on the installation base 1 and arranged on the periphery of the annular installation disc 2, a driving gear 15 is fixedly connected to a rotating shaft of the driving motor 5, gear teeth 16 are arranged on the periphery of the annular installation disc 2 in an annular array mode, the driving gear 15 is meshed with the gear teeth 16, and the driving gear 15 is driven to rotate by controlling the driving motor 5 to work so as to drive the annular installation disc 2 to stably rotate;

the first stirring blade 8 is in power connection with a first stirring motor 17, the first stirring motor 17 is fixedly installed at the top of the corresponding reaction kettle 4, the heating pipe 9 is spirally arranged in the side wall of the corresponding reaction kettle 4, the first stirring blade 8 is driven to work through the work of the first stirring motor 17, materials in the reaction kettle 4 are uniformly stirred, and the materials in the corresponding reaction kettle 4 are heated through the heating pipe 9;

the second stirring blade 12 is in power connection with a second stirring motor 18, the second stirring motor 18 is fixedly arranged at the top of the mixing kettle 3, the chelated fertilizers reacted in each group of reaction kettles 4 are uniformly added into the mixing kettle 3, the second stirring blade 12 is driven to rotate through the work of the second stirring motor 18, and various waste materials in the mixing kettle 3 are uniformly stirred;

the bottoms of the reaction kettle 4 and the mixing kettle 3 are both arranged in an inverted cone shape, and the first discharge pipe 10 and the second discharge pipe 13 are respectively arranged at the lowest ends of the inverted cones in the reaction kettle 4 and the mixing kettle 3, so that fertilizers produced by reaction can be conveniently discharged;

each group of first feed hoppers 7 are arranged at the periphery of the corresponding annular mounting disc 2, so that corresponding materials can be conveniently added into the corresponding reaction kettles 4 through the main feed hopper 6, each group of first discharge pipes 10 are arranged at the inner periphery of the corresponding mounting disc, and waste materials generated in the reaction of each reaction kettle 4 can be conveniently conveyed into the mixing kettle 3 through the first discharge pipes 10;

the first discharging pipe 10 is provided with a first electromagnetic switch valve in a matching way, so that the output state of the fertilizer generated by the reaction in each group of reaction kettles 4 can be conveniently controlled, and the second discharging pipe 13 is provided with a second electromagnetic switch valve in a matching way, so that the output state of the multi-element chelated fertilizer mixed in the mixing kettle 3 can be conveniently controlled.

The utility model discloses a theory of operation is: when the device is used, the driving motor 5 works to drive the annular mounting disc 2 to rotate, so that the first feed hoppers 7 corresponding to the groups of reaction kettles 4 arranged on the annular mounting disc 2 sequentially pass through the main feed hopper 6, raw materials required by reaction are added into the corresponding reaction kettles 4 through the main feed hopper 6, the first stirring motor 17 is started to drive the first stirring blades 8 to rotate, and chelation reaction is carried out under the heating action of the heating pipe 9 to generate specific chelated fertilizer;

in the process of carrying out reaction on each group of reaction kettles 4, the driving motor 5 drives the annular mounting disc 2 to further rotate, the first discharge pipe 10 corresponding to the reaction kettle 4 after the reaction is finished is rotated to a position opposite to the second feed hopper 11, and the corresponding first electromagnetic switch valve is opened to add the produced chelated fertilizer into the mixing kettle 3;

after the chelate fertilizers generated by the reaction in each group of reaction kettles 4 are all added into the mixing kettle 3, the second stirring blade 12 is driven to rotate by controlling the second stirring motor 18 to uniformly mix the chelate fertilizers in the mixing kettle 3 to generate the multi-element chelate fertilizer, and the multi-element chelate fertilizer is output by opening the second electromagnetic switch valve.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A production facility of many first chelating fertilizers which characterized in that: the device comprises a mounting base (1), an annular mounting disc (2), a mixing kettle (3) and a plurality of groups of reaction kettles (4), wherein the annular mounting disc (2) is nested and mounted on the mounting base (1) in a relative rotation mode, the annular mounting disc (2) is in power connection with a driving motor (5), the driving motor (5) drives the annular mounting disc (2) to horizontally rotate, the mixing kettle (3) is fixedly mounted on the inner side of the mounting base (1) and located below the annular mounting disc (2), and the reaction kettles (4) are fixedly mounted on the annular mounting disc (2) in an annular array;

a main feed hopper (6) is fixedly installed on the installation base (1), the top end of each group of mixing kettles (3) is connected with a first feed hopper (7) in a matching manner, the outlet end of the main feed hopper (6) is opposite to the inlet end of one group of first feed hoppers (7), each group of mixing kettles (3) is provided with a first stirring blade (8) and a heating pipe (9) in a matching manner, and the bottom end of each group of mixing kettles (3) is connected with a first discharge pipe (10) in a matching manner;

the top of mixing kettle (3) is supporting to be connected with second feeder hopper (11), and the entrance point of second feeder hopper (11) is relative with one of them a set of first discharging pipe (10), supporting second stirring leaf (12) of installing in mixing kettle (3), and the bottom of mixing kettle (3) is supporting to be connected with second discharging pipe (13).

2. The apparatus for producing a sequestered polyelement fertilizer of claim 1, wherein: the mounting base (1) inboard is provided with installation cavity (14), mixing kettle (3), reation kettle (4) all set up in installation cavity (14).

3. The apparatus for producing a sequestered polyelement fertilizer of claim 2, wherein: driving motor (5) fixed mounting be in on mounting base (1) and set up the periphery at annular mounting disc (2), drive gear (15) have been consolidated in the axis of rotation of driving motor (5), the periphery of annular mounting disc (2) is the annular array and has arranged teeth of a cogwheel (16), and drive gear (15) are connected with the meshing of the teeth of a cogwheel (16).

4. The apparatus for producing a sequestered fertilizer according to claim 3, wherein: first stirring leaf (8) power is connected with first agitator motor (17), and first agitator motor (17) fixed mounting is at the top that corresponds reation kettle (4), heating pipe (9) spiral setting is in the lateral wall that corresponds reation kettle (4).

5. The apparatus for producing a sequestered polyelement fertilizer of claim 4, wherein: the second stirring blade (12) is in power connection with a second stirring motor (18), and the second stirring motor (18) is fixedly installed at the top of the mixing kettle (3).

6. The apparatus for producing a sequestered polyelement fertilizer of claim 5, wherein: the bottom of reation kettle (4), mixed cauldron (3) all sets up to the form of inverted cone, first discharging pipe (10), second discharging pipe (13) set up the least significant end of inverted cone in reation kettle (4), mixed cauldron (3) respectively.

7. The apparatus for producing a sequestered polyelement fertilizer of claim 6, wherein: each group of the first feed hopper (7) is arranged at the periphery of the relative annular mounting disc (2), and each group of the first discharge pipe (10) is arranged at the inner periphery of the relative mounting rotary disc.

8. The apparatus for producing a sequestered polyelement fertilizer of claim 7, wherein: a first electromagnetic switch valve is installed on the first discharging pipe (10) in a matched mode, and a second electromagnetic switch valve is installed on the second discharging pipe (13) in a matched mode.

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