CN219441565U - Granulator is used in production of diammonium phosphate - Google Patents

Abstract

The utility model discloses a granulator for producing diammonium phosphate, relates to the technical field of granulators for producing diammonium phosphate, and aims to solve the problems that fragments and powder which are not firmly adhered to the surfaces of particles are likely to fall on the ground when the particles dried in the practical process of the existing granulator are conveyed, production loss is increased on the side surface, and production cost is increased. Including the granulator main part, be provided with the feed inlet in the granulator main part, the feed inlet sets up as an organic wholely with the granulator main part, the granulator main part is provided with the discharge gate in the one end of keeping away from the feed inlet, the discharge gate sets up as an organic wholely with the granulator main part, still includes the defeated material structure, the defeated material structure sets up on the discharge gate, discharge gate and defeated material structure welded connection, be provided with the side baffle on the defeated material structure, side baffle and defeated material structure welded connection, be provided with the conveyer belt on the side baffle, conveyer belt stiff end and side baffle welded connection.

Description

Granulator is used in production of diammonium phosphate

Technical Field

The utility model relates to the technical field of granulators for producing diammonium phosphate, in particular to a granulator for producing diammonium phosphate.

Background

The screw granulator is a forming machine capable of manufacturing materials into specific shapes, and the underwater granulator is similar to the airflow granulator and the water spraying granulator, and mainly comprises a plastic granulator, a single-double screw plastic extruder, a plastic film blowing machine, a bag making machine, a printing machine, a coating machine, a tape dividing and cutting machine, a dividing and cutting machine and a packing belt machine. Alloy materials are mainly used in the aspect of modified formulation, and particularly PET, PC, ABS, (PP and PA) are materials which are growing in the current application areas; the plastic formula develops the formulas of preservative film, degradable film, PET tackifying and toughening, etc. Except that it has a smooth flow of water over the die face in direct contact with the die face, as in the application No. 202123180300.7, a diammonium phosphate granulator ammonifying apparatus comprising: bear the shell, bear outer wall one side of shell and seted up mounting hole A, bear outer wall one side fixed mounting support metal frame of shell, the fixed electric telescopic handle that inserts between the interior table wall of support metal frame and mounting hole A utilizes the characteristic that aqueous ammonia can mix with water, simultaneously with reaction sleeve design for the form of uncapping, after aqueous ammonia in the reaction sleeve is washed by rivers, fully by the water source dilution, after handling the completion, open the lid and make the inside that air got into reaction sleeve, make the partial undiluted clean aqueous ammonia fully volatilize, further improve the integrality of handling, effectively solve current device because of can not in time handle the aqueous ammonia that adheres to on reaction vessel inner wall, lead to the aqueous ammonia volume to be greater than predetermined volume's problem when later stage preparation, the quality when product is prepared to the improvement later stage.

In the using process of the device, fragments and powder which are not firmly adhered on the surface of the particles can fall on the ground when the particles dried by the granulator in the practical process are conveyed, the production loss is increased on the side surface, and the production cost is increased; so we propose a granulator for producing diammonium phosphate so as to solve the problems set forth above.

Disclosure of Invention

The utility model aims to provide a granulator for producing diammonium phosphate, which solves the problems that fragments and powder which are not firmly adhered to the surfaces of particles can fall on the ground when the particles which are dried in the practical process of the existing granulator in the background art are conveyed, the production loss is increased on the side surface, and the production cost is increased.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a granulator is used in diammonium phosphate production, includes the granulator main part, be provided with the feed inlet in the granulator main part, the feed inlet sets up as an organic wholely with the granulator main part, the granulator main part is provided with the discharge gate in the one end of keeping away from the feed inlet, the discharge gate sets up as an organic wholely with the granulator main part, still includes the defeated material structure, defeated material structure sets up on the discharge gate, discharge gate and defeated material structure welded connection, be provided with the side baffle on the defeated material structure, side baffle and defeated material structure welded connection, be provided with the conveyer belt on the side baffle, conveyer belt stiff end and side baffle welded connection, defeated material structure is last to be offered and is run through the groove, run through groove and defeated material structure set up as an organic wholely.

Preferably, the granulator body is provided with a radiating pipe, the radiating pipe penetrates through and extends into the granulator body, and the granulator body is connected with the radiating pipe in a welding mode.

Preferably, the granulator main body is provided with a granulator base, and the granulator main body is welded with the granulator base.

Preferably, the material conveying structure is provided with a material conveying structure base, and the material conveying structure base is connected with the material conveying structure in a welding way.

Preferably, a screen is arranged on the through groove, and the screen is welded with the through groove.

Preferably, a loading tray is arranged at the lower end of the material conveying structure and arranged at a corresponding position of the through groove, and the loading tray is welded with the material outlet.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the feeding hole is formed in the granulator main body, the feeding hole and the granulator main body are integrally formed, the discharging hole is formed in one end far away from the feeding hole, the granulator main body is integrally formed with the granulator main body, the granulator further comprises the conveying structure, the conveying structure is arranged on the discharging hole, the discharging hole is connected with the conveying structure in a welded mode, the conveying structure is provided with the side baffle, the side baffle is connected with the conveying structure in a welded mode, the side baffle is provided with the conveying belt, the fixed end of the conveying belt is connected with the side baffle in a welded mode, the conveying structure is provided with the through groove, the through groove is integrally formed with the conveying structure, the conveying structure can be used for conveying materials which are formed by particles from the discharging hole when the granulator main body outputs the materials which are formed from the discharging hole, the conveying belt arranged on the conveying structure forwards conveys the materials, the size is smaller or the broken particles can fall from the through groove, the conveying structure is provided with the feeding tray at the lower end, the feeding tray is arranged at the corresponding position of the through groove, the feeding tray is connected with the discharging hole in a welded mode, the feeding tray falls into the feeding tray, the feeding tray is convenient, the feeding tray can effectively prevent the particles from falling into the feeding tray from being formed in the granulating machine, and the granulating machine from being effectively and being adhered to the surface of the actual production surface of the granulating machine, and the particles can not be firmly manufactured, and can be adhered to the surface of the particles can be produced, and cannot be easily and firmly and can be manufactured, and cannot be adhered to the ground.

2. Through being provided with the screen cloth on running through the groove, screen cloth and running through groove welded connection, the setting of screen cloth can avoid the qualified granule material of volume also to fall into the loading tray of below through running through the groove in, has guaranteed to fall into the material of only size disqualification or breakage in the loading tray.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is a right side view of the present utility model;

in the figure: 1. a granulator body; 2. a heat radiating pipe; 3. a feed inlet; 4. a granulator base; 5. a discharge port; 6. a material conveying structure; 7. a conveyor belt; 8. a side baffle; 9. a through groove; 10. a material conveying structure base; 11. a loading tray; 12. and (3) screening.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-3, an embodiment of the present utility model is provided: the utility model provides a granulator is used in diammonium phosphate production, including granulator main part 1, be provided with feed inlet 3 on the granulator main part 1, feed inlet 3 and granulator main part 1 set up as an organic wholely, granulator main part 1 is provided with discharge gate 5 on the one end of keeping away from feed inlet 3, discharge gate 5 and granulator main part 1 set up as an organic wholely, still include conveying structure 6, conveying structure 6 sets up on discharge gate 5, discharge gate 5 and conveying structure 6 welded connection, be provided with side baffle 8 on the conveying structure 6, side baffle 8 and conveying structure 6 welded connection, be provided with conveyer belt 7 on the side baffle 8, conveyer belt 7 stiff end and side baffle 8 welded connection, set up run-through 9 on the conveying structure 6, run-through 9 and conveying structure 6 set up as an organic wholely, the setting of conveying structure 6 can be when granulator main part 1 exports the material that has particle shaping from discharge gate 5, the material can fall to conveying structure 6, and carry forward with the material by conveyer belt 7 that sets up on the conveying structure 6, and the volume is less or, the conveyer belt 7 that has set up on the conveying structure 6 carries out the tray 11 from the broken down from the conveyer belt 7, the tray 11 is connected with the tray 11 in the run-through position, the corresponding tray 11 is read out, the tray 11 is connected to the feed tray is convenient.

Referring to fig. 1, a heat dissipation tube 2 is disposed on a granulator body 1, the heat dissipation tube 2 extends into the granulator body 1, the granulator body 1 is welded with the heat dissipation tube 2, and the heat dissipation tube 2 can enable heat in the granulator body 1 to be discharged from the heat dissipation tube 2 when the granulator body 1 works for a long time, so that the granulator body 1 is prevented from overheating due to long-time working.

Referring to fig. 1, a granulator base 4 is disposed on a granulator body 1, and the granulator body 1 is welded to the granulator base 4.

Referring to fig. 3, a material conveying structure base 10 is disposed on the material conveying structure 6, and the material conveying structure base 10 is welded with the material conveying structure 6.

Referring to fig. 3, a screen 12 is disposed on the through slot 9, the screen 12 is welded to the through slot 9, and the arrangement of the screen 12 can prevent the granular materials with qualified volume from falling into the loading tray 11 below through the through slot 9, so that only the materials with unqualified size or broken materials falling into the loading tray 11 are ensured.

Referring to fig. 1, a loading tray 11 is disposed at the lower end of the feeding structure 6, the loading tray 11 is disposed at a position corresponding to the through slot 9, and the loading tray 11 is welded to the discharge port 5.

Working principle: when in use, the granulator main body 1 is provided with the feed inlet 3, the feed inlet 3 and the granulator main body 1 are integrally arranged, one end of the granulator main body 1 far away from the feed inlet 3 is provided with the discharge outlet 5, the discharge outlet 5 and the granulator main body 1 are integrally arranged, the granulator further comprises a conveying structure 6, the conveying structure 6 is arranged on the discharge outlet 5, the discharge outlet 5 is in welded connection with the conveying structure 6, the conveying structure 6 is provided with a side baffle 8, the side baffle 8 is in welded connection with the conveying structure 6, the side baffle 8 is provided with a conveying belt 7, the fixed end of the conveying belt 7 is in welded connection with the side baffle 8, the conveying structure 6 is provided with a through groove 9, the through groove 9 and the conveying structure 6 are integrally arranged, the conveying structure 6 can be arranged so that when the granulator main body 1 outputs the materials which are formed by particles from the discharge outlet 5, the materials can fall onto the conveying structure 6, and the conveyer belt 7 arranged on the material conveying structure 6 conveys the materials forwards, the size is smaller or broken particles can fall from the through groove 9, the lower end of the material conveying structure 6 is provided with a material loading tray 11, the material loading tray 11 is arranged at a corresponding position of the through groove 9, the material loading tray 11 is welded with the discharge hole 5 and falls into the material loading tray 11, the material is convenient for workers to recycle and reprocess, the granulator body 1 is provided with a radiating pipe 2, the radiating pipe 2 extends into the granulator body 1 in a penetrating way, the granulator body 1 is welded with the radiating pipe 2, the radiating pipe 2 can discharge heat in the granulator body 1 from the radiating pipe 2 when the granulator body 1 works for a long time, the situation that the granulator body 1 is overheated due to long-time work is avoided, the through groove 9 is provided with a screen 12, the screen 12 is welded with the through groove 9, the arrangement of the screen 12 can prevent the granular materials with qualified volume from falling into the charging tray 11 below through the through groove 9, and ensure that only materials with unqualified size or crushed materials fall into the charging tray 11.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a granulator for diammonium phosphate production, includes granulator main part (1), be provided with feed inlet (3) on granulator main part (1), feed inlet (3) are as an organic whole setting with granulator main part (1), granulator main part (1) are provided with discharge gate (5) on the one end that keeps away from feed inlet (3), discharge gate (5) are as an organic whole setting with granulator main part (1);

the method is characterized in that: still including defeated material structure (6), defeated material structure (6) sets up on discharge gate (5), discharge gate (5) and defeated material structure (6) welded connection, be provided with side baffle (8) on defeated material structure (6), side baffle (8) and defeated material structure (6) welded connection, be provided with conveyer belt (7) on side baffle (8), conveyer belt (7) stiff end and side baffle (8) welded connection, offered on defeated material structure (6) and run through groove (9), run through groove (9) and defeated material structure (6) set up as an organic wholely.

2. A granulator for the production of diammonium phosphate as recited in claim 1, characterized in that: the granulator is characterized in that a radiating pipe (2) is arranged on the granulator body (1), the radiating pipe (2) penetrates through and extends into the granulator body (1), and the granulator body (1) is connected with the radiating pipe (2) in a welding mode.

3. A granulator for the production of diammonium phosphate as recited in claim 1, characterized in that: the granulator is characterized in that a granulator base (4) is arranged on the granulator main body (1), and the granulator main body (1) is connected with the granulator base (4) in a welding mode.

4. A granulator for the production of diammonium phosphate as recited in claim 1, characterized in that: the material conveying structure (6) is provided with a material conveying structure base (10), and the material conveying structure base (10) is connected with the material conveying structure (6) in a welding mode.

5. A granulator for the production of diammonium phosphate as recited in claim 1, characterized in that: the screen (12) is arranged on the penetrating groove (9), and the screen (12) is welded with the penetrating groove (9).

6. A granulator for the production of diammonium phosphate as recited in claim 5, characterized in that: the feeding device is characterized in that a feeding tray (11) is arranged at the lower end of the feeding structure (6), the feeding tray (11) is arranged at a corresponding position of the through groove (9), and the feeding tray (11) is connected with the discharging hole (5) in a welding mode.