CN214950472U - Sulfur blue warship series alginic acid fertilizer apparatus for producing - Google Patents

Abstract

The utility model provides a sulfur blue warship series alginate fertilizer production device, which comprises a drying box body and a material chute, wherein the upper part and the lower part of the drying box body are in an open state, the material chute is arranged at the lower part of the drying box body, a material cover is arranged on the upper part of the drying box body, a material guide hopper is arranged on the upper part of the material cover, a vapor outlet is respectively arranged on two sides of the material guide hopper, a plurality of heating pipes distributed along the front and back directions of the drying box body are arranged in the drying box body, two heating pipes which are adjacent up and down are distributed in a left-right staggered state, a heat supply box body is arranged on the front side wall of the drying box body, the heat supply box body is communicated with the heating pipe, a heat supply pipe group is used for conveying heating media into the heat supply box body, the rear side wall of the drying box body is provided with a collecting box body which is communicated with the heating pipe, and a collecting guide pipe is used for outputting heating media in the collecting box body. The device can improve the drying quality of the fertilizer granules and the filtration of powder and fine granules clamped in the fertilizer granules.

Description

Sulfur blue warship series alginic acid fertilizer apparatus for producing

Technical Field

The utility model relates to a sulphur blue warship series alginic acid fertilizer apparatus for producing.

Background

At present, the production and manufacture of sulphur blue ship series amino acid water soluble fertilizer particles are generally carried out by adopting a high tower granulation process, wherein in the process, all raw materials are required to be melted and then sent into a high tower for granulation. After granulation is completed, the fertilizer particles need to be dried so as to improve the compression resistance of the fertilizer particles and realize smooth packaging and transportation of the fertilizer. When utilizing current material drying-machine to carry out the material and drying, material granule gathering phenomenon often takes place to lead to some material granules can't in time be dried, thereby reduced drying efficiency, furtherly, current drying-machine can't realize powder and tiny granule that mix with in the material granule at the discharge end, is unfavorable for then improving fertilizer production quality.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a sulphur blue warship series alginic acid fertilizer production device, material particles can be fully diffused in the drying box, the particles are fully diffused, and can be dried in time, thereby being beneficial to improving the drying efficiency on the whole; the screen cloth of material chute bottom portion can filter powder and tiny granule, realizes the clearance of the interior impurity of material granule then to do benefit to and improve fertilizer production quality.

The utility model provides a technical scheme that its technical problem adopted is: a sulfur blue warship series alginate fertilizer production device comprises a drying box body and a material chute, wherein the upper part and the lower part of the drying box body are in an open state, the material chute is arranged at the lower part of the drying box body, a material cover is arranged at the upper part of the drying box body, a material guide hopper is arranged at the upper part of the material cover, water vapor outlets are respectively arranged at two sides of the material guide hopper, a plurality of heating pipes distributed along the front and back directions of the drying box body are arranged in the drying box body, the heating pipes penetrate through the front side wall and the back side wall of the drying box body, two heating pipes which are adjacent up and down are distributed in a left and right staggered state, a heat supply box body is arranged on the front side wall of the drying box body, the heat supply box body is communicated with the heating pipes, a heat supply pipe group is used for conveying heating media into the heat supply box body, and a collecting box body is arranged on the back side wall of the drying box body, the collecting box body is communicated with the heating pipe, and a collecting guide pipe is used for outputting the heating media in the collecting box body.

Preferably, a separating plate for separating inlet ends of two longitudinal heating pipe sets adjacent to each other on the left and right is arranged in the heat supply box, each heating pipe set comprises a shunt pipe, communicating pipes which correspond to the heating cavities distributed on the left and right sides of the separating plate one by one are arranged on the shunt pipes, and the communication between the shunt pipes and the corresponding heating cavities is realized by the communicating pipes.

Furthermore, the communicating pipe is communicated with the lower part of the corresponding heating cavity, and the collecting guide pipe is communicated with the upper part of the collecting box body.

The production device further comprises a reciprocating motion driving mechanism, wherein the reciprocating motion driving mechanism comprises a driving motor, a swinging rod and a hinged connecting rod, one end of the swinging rod is fixedly connected with an output shaft of the driving motor, a connecting plate is arranged at the lower part of the right side wall of the drying box body, one end of the hinged connecting rod is hinged with the connecting plate, the other end of the hinged connecting rod is hinged with the swinging rod, two supporting plates are respectively arranged at the lower parts of the heating box body and the collecting box body, a guide rod is sleeved on the two supporting plates which are adjacent to each other on the left and right, and the drying box body can be driven to freely reciprocate along the axial direction of the guide rod through the rotation of the driving motor; a delivery hose supplies the heating medium to the shunt pipe, and the collection guide pipe is a hose.

Preferably, the bottom plate of the material chute is a screen for filtering fine powder.

Further, a collecting box for collecting fine powder is arranged at the lower part of the material chute.

Preferably, the production device further comprises a material conveying device, the material conveying device comprises a spiral conveyor and a storage hopper, a discharge port of the storage hopper is communicated with a feed port of the spiral conveyor, and materials flowing out of the spiral conveyor can fall into the material guide hopper.

The utility model has the advantages that: the utility model has simple structure and convenient processing and manufacturing; the heating pipes in the drying box are uniformly distributed, and the heating pipe groups in the longitudinal direction synchronously supply heating mediums through the corresponding heating cavities, so that the uniform heat in the drying box can be ensured, and furthermore, the heating pipes which are adjacent up and down are distributed in a left-right staggered state, so that the full diffusion of particles in the drying box is favorably realized, and the rapid drying of the particles is favorably realized; the drying box body is always in a left-right swinging state in the drying process by utilizing the driving action of the reciprocating swinging driving mechanism, so that the probability of blockage in the drying box body can be effectively reduced; by utilizing the filtering capacity of the screen of the material chute, powder and fine particles mixed in the particles can be effectively removed, and the production quality of the fertilizer is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 some of the preferred embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

FIG. 2 is a schematic view of the distribution of heating pipes in the drying box;

FIG. 3 is an enlarged view of FIG. 1 at A;

in the figure: the device comprises a drying box body 1, a material cover 11, a 111 vapor outlet, a material guide hopper 12, a heating pipe 13, a supporting plate 14, a guide rod 15, a material chute 2, a screen 21, a heat supply box body 3, a dividing pipe 31, a communicating pipe 32, a conveying hose 33, a separating plate 34, a heating cavity 35, a collecting box body 4, a collecting guide pipe 41, a driving motor 51, a swinging rod 52, a hinged connecting rod 53, a connecting plate 54, a screw conveyer 61, a material storage hopper 62 and a collecting box 7.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the following specific embodiments and accompanying drawings 1 to 3, 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 variations without departing from the spirit of the invention, and therefore the invention is not limited by the specific embodiments disclosed below.

The utility model provides a sulphur blue warship series alginate fertilizer apparatus for producing (as shown in figure 1), comprising a drying box body 1 and a material chute 2, wherein the upper part and the lower part of the drying box body 1 are in an open state, the material chute 2 is arranged at the lower part of the drying box body 1, the upper part of the drying box body 1 is provided with a material cover 11, the upper part of the material cover 11 is provided with a material guide hopper 12, two sides of the material guide hopper 12 are respectively provided with a vapor outlet 111, during the drying operation, material particles enter the drying box body 1 from the material guide hopper 12, then enter the material chute 2 from the lower part, enter the next process flow through the flow guiding function of the material chute 2, during the fertilizer particle drying process, the generated vapor is discharged out of the drying box body 1 through the vapor outlet 111, a plurality of heating pipes 13 distributed along the front and back direction of the drying box body 1 are arranged inside the drying box body 1, just the heating pipe 13 runs through preceding lateral wall and the back lateral wall of stoving box 1, upper and lower adjacent two heating pipe 13 is about crisscross state distribution, and all heating pipes 13 are above-mentioned distribution state in the stoving box 1, when the material granule falls, through the guide effect of heating pipe 13, do benefit to the abundant diffusion of material granule, simultaneously, have also prolonged the flow time of granule in stoving box 1 to do benefit to the stoving effect and the drying efficiency who improves the fertilizer granule.

The heating device is characterized in that a heating box body 3 is arranged on the front side wall of the drying box body 1, the heating box body 3 is communicated with the heating pipes 13, a heating pipe group is used for conveying heating mediums into the heating box body 3, in practical application, in order to improve the uniformity of conveying the heating mediums to the heating pipes 13 by the heating box body 3 and keep the heat in the whole drying box body 1 balanced, a partition plate 34 used for separating the inlet ends of two longitudinal heating pipe groups adjacent to each other on the left and right is arranged in the heating box body 3, the heating box body 3 is divided into a plurality of independent heating cavities 35 through the separation effect of the partition plate 34, the heating pipe group comprises a shunt pipe 31, the shunt pipe 31 is provided with a communicating pipe 32 which is in one-to-one correspondence with the heating cavities 35 distributed on the left and right sides of the partition plate 34, and the shunt pipe 32 is communicated with the corresponding heating cavities 35, the shunt tubes 31 synchronously supply heating mediums into the communicating tubes 32, and the heating cavities 35 synchronously supply the heating mediums into the corresponding heating tubes 13, so that the heat supply quantity in the heating tubes 13 is kept more balanced. The rear side wall of the drying box body 1 is provided with a collecting box body 4, the collecting box body 4 is communicated with the heating pipe 13, a collecting guide pipe 41 is used for outputting heating media in the collecting box body 4, namely the heating media are released from the heating pipe 13 and then flow into the collecting box body 4, and the heating media in the collecting box body 4 finally flow out through the collecting guide pipe 41.

To further ensure the heating effect of the heating pipe 13, the communicating pipe 32 is communicated with the lower portion of the corresponding heating chamber 35, and the collecting draft pipe 41 is communicated with the upper portion of the collecting box 4.

In order to further improve the passing performance of fertilizer particles in the drying box body 1, a reciprocating motion driving mechanism is further arranged in the device, the reciprocating motion driving mechanism comprises a driving motor 51, a swinging rod 52 and a hinged connecting rod 53, one end of the swinging rod 52 is fixedly connected with an output shaft of the driving motor 51, a connecting plate 54 is arranged at the lower part of the right side wall of the drying box body 1, one end of the hinged connecting rod 53 is hinged with the connecting plate 54, the other end of the hinged connecting rod 53 is hinged with the swinging rod 52, two supporting plates 14 are respectively arranged at the lower parts of the heat supply box body 3 and the collection box body 4, a guide rod 15 is sleeved on the two left and right adjacent supporting plates 14, the drying box body 1 can be driven to freely reciprocate along the axial direction of the guide rod 15 through the rotation of the driving motor 51, the reciprocating swing of the drying box body 1 plays a role in vibrating role on the material particles in the drying box body, thereby improving the fluidity of the fertilizer particles in the drying box body 1, reducing the occurrence probability of material blockage in the drying box body 1 and being beneficial to the normal drying of the fertilizer particles; a delivery hose 33 supplies the heating medium to the branch pipe 31, the collection guide pipe 41 is a hose, and both the delivery hose 33 and the collection guide pipe 41 are hoses, so that the normal supply of the heating medium can be ensured during the reciprocating swing of the drying case 1.

In the drying process, as the fertilizer particles are continuously dried, some powder or fine particles are generated, so that the powder or fine particles are conveniently removed from the fertilizer particles, the bottom plate of the material chute 2 is a screen 21 for filtering fine powder, and further, in order to facilitate the collection of the powder and the fine particles, a collecting box 7 for collecting fine powder is arranged at the lower part of the material chute 2.

In the drying process, in order to facilitate the control of the flow rate of the fertilizer particles in the drying box body 1 and ensure the drying quality of the particles, a material conveying device is further arranged in the production device, the material conveying device comprises a screw conveyor 61 and a storage hopper 62, a discharge port of the storage hopper 62 is communicated with a feed port of the screw conveyor 61, the material flowing out of the screw conveyor can fall into the guide hopper 12, the storage hopper 62 is used for buffering a certain amount of fertilizer particles, and the supply flow rate control of the fertilizer particles is realized by controlling the rotating speed of the screw conveyor 61.

In the present invention, "upper", "lower", "front", "rear", "left" and "right" are all relative positions adopted for convenience of describing the positional relationship, and therefore, cannot be interpreted as a limitation to the protection range as an absolute position.

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

The above description is provided for the preferred embodiments and examples of the present invention with reference to the accompanying drawings, but the present invention is not limited to the above embodiments and examples, and it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit of the present invention, and these modifications and variations should be construed as the protection scope of the present invention.

Claims (7)

1. A sulfur blue warship series alginate fertilizer production device is characterized by comprising a drying box body and a material chute, wherein the upper portion and the lower portion of the drying box body are in an open state, the material chute is arranged at the lower portion of the drying box body, a material cover is arranged at the upper portion of the drying box body, a material guide hopper is arranged at the upper portion of the material cover, water vapor outlets are respectively arranged at two sides of the material guide hopper, a plurality of heating pipes distributed along the front and rear direction of the drying box body are arranged in the drying box body, the heating pipes penetrate through the front side wall and the rear side wall of the drying box body, two heating pipes which are adjacent up and down are distributed in a left-right staggered state, a heat supply box body is arranged on the front side wall of the drying box body, the heat supply box body is communicated with the heating pipes, and a heat supply pipe group is used for conveying heating media into the heat supply box body, the rear side wall of the drying box body is provided with a collecting box body, the collecting box body is communicated with the heating pipe, and a collecting guide pipe is used for outputting heating media in the collecting box body.

2. The production device of the sulfur blue warship series alginic acid fertilizer as claimed in claim 1, wherein a partition plate for separating inlet ends of two longitudinal heating pipe sets adjacent to each other on the left and right sides is arranged in the heat supply tank body, the heat supply pipe sets comprise a shunt pipe, the shunt pipe is provided with communicating pipes which are in one-to-one correspondence with the heating cavities distributed on the left and right sides of the partition plate, and the communicating pipes realize the communication between the shunt pipe and the corresponding heating cavities.

3. The production device of sulfur blue warship series alginic acid fertilizer as claimed in claim 2, wherein said communicating pipe is communicated with the lower part of said heating cavity correspondingly, and said collection draft tube is communicated with the upper part of said collection box.

4. The production device of the sulfur blue warship series alginate fertilizer as claimed in claim 3, which is characterized by further comprising a reciprocating motion driving mechanism, wherein the reciprocating motion driving mechanism comprises a driving motor, a swinging rod and a hinged connecting rod, one end of the swinging rod is fixedly connected with an output shaft of the driving motor, a connecting plate is arranged at the lower part of the right side wall of the drying box body, one end of the hinged connecting rod is hinged with the connecting plate, the other end of the hinged connecting rod is hinged with the swinging rod, two supporting plates are respectively arranged at the lower parts of the heat supply box body and the collection box body, a guide rod is sleeved on the two supporting plates which are adjacent to each other left and right, and the drying box body can be driven to freely reciprocate along the axial direction of the guide rod by the rotation of the driving motor; a delivery hose supplies the heating medium to the shunt pipe, and the collection guide pipe is a hose.

5. The production device of sulphur blue warship series alginic acid fertilizer according to claim 1, characterized in that the bottom plate of the material chute is a screen for filtering fine powder.

6. The production device of the sulphur blue warship series alginic acid fertilizer as claimed in claim 5, wherein a collection box for collecting fine powder is arranged at the lower part of the material chute.

7. The production device of sulfur blue warship series alginic acid fertilizer according to claim 1, characterized by further comprising a material conveying device, wherein the material conveying device comprises a screw conveyor and a storage hopper, a discharge port of the storage hopper is communicated with a feed port of the screw conveyor, and the material flowing out of the screw conveyor can fall into the guide hopper.

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