CN210613624U - High-efficient ammonium sulfate granule material processing equipment - Google Patents

Abstract

A high-efficiency ammonium sulfate particle material processing device comprises a rack, wherein an ammonium sulfate charging port and an ammonium sulfate discharging port are formed in the rack, a feeding mechanism and a material pressing mechanism are installed in the rack, the material pressing mechanism is arranged at the rear end of the feeding mechanism, the feeding mechanism comprises a plurality of feeding mechanism supporting seats fixedly installed on the bottom of the rack, a feeding assembly is fixedly installed on each feeding mechanism supporting seat, an ammonium sulfate material blocking assembly is also fixedly installed on the inner wall of the rack and above the feeding assembly, a first material pressing mechanism power mechanism is fixedly installed at the end part of a first material pressing mechanism supporting plate, and a first rotating shaft is fixedly installed at the power output end of the first material pressing mechanism power mechanism; can be with adding the ammonium sulfate granular material that is thick form after adding water the stirring to the frame on the material loading subassembly through the hopper through feed mechanism on carrying the material loading subassembly rear end portion, press the shaping with it through swager structure, its structural design is reasonable, and machining efficiency is high.

Description

High-efficient ammonium sulfate granule material processing equipment

Technical Field

The utility model relates to an ammonium sulfate processing equipment, in particular to high-efficient ammonium sulfate granule material processing equipment.

Background

Powdery ammonium sulfate, commonly called as fertile field powder, is suitable for general soil and crops, can ensure that branches and leaves grow vigorously, improve the quality and the yield of fruits, enhance the resistance of the crops to disasters, and can be used as base fertilizer, additional fertilizer and seed fertilizer, the current ammonium sulfate material needs to be processed before use, the processed powdery ammonium sulfate material needs to be added with flocculant or water for stirring according to a proportion until the powdery ammonium chloride material is stirred to a sticky granular ammonium sulfate material, the density of the ammonium sulfate material is lower and the hardness is soft, so the ammonium sulfate material needs to be extruded and formed, the density of the ammonium sulfate material is improved, the hardness is increased, the stirred material is added into a granulator after the powdery ammonium sulfate material is added with flocculant or water for stirring according to a proportion, the hardness of the ammonium sulfate material processed by the granulator is improved, however, the existing granulator sprays the lubricant on the materials in the process of carrying out plasmid on the materials, if the lubricant is not sprayed on the materials, the ammonium sulfate materials are difficult to carry out plasmid, and the components of the ammonium sulfate materials are changed to a certain extent through the ammonium sulfate materials sprayed with the lubricant, so that the existing processing equipment which can carry out plasmid or extrusion molding on the ammonium sulfate materials to improve the density and the processing efficiency is also required.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to prior art not enough, a high-efficient ammonium sulfate granule material processing equipment is provided.

The technical problem to be solved by the utility model is realized by the following technical scheme, comprising a frame, wherein an ammonium sulfate charging port and an ammonium sulfate discharging port are arranged on the frame, a hopper for charging is fixedly arranged on the discharging port, a feeding mechanism and a pressing mechanism are arranged in the frame, and the pressing mechanism is arranged at the back end of the feeding mechanism;

the feeding mechanism comprises a plurality of feeding mechanism supporting seats fixedly arranged on the bottom of the rack, a feeding assembly is fixedly arranged on each feeding mechanism supporting seat, and an ammonium sulfate material blocking assembly is also fixedly arranged on the inner wall of the rack and above the feeding assembly;

the material pressing mechanism comprises a first material pressing mechanism supporting plate, a first material pressing mechanism power mechanism is fixedly mounted at the end part of the first material pressing mechanism supporting plate, a first rotating shaft is fixedly mounted at the power output end of the first material pressing mechanism power mechanism, a first mounting barrel is fixedly mounted on the first rotating shaft, a first supporting rib is fixedly mounted on the first mounting barrel, a first pressing steel ring is fixedly mounted at the other end of the first supporting rib and right below the outlet end of the feeding assembly, an ammonium sulfate material pressing groove is formed in the middle of the first pressing steel ring, sawteeth are further formed in the bottom surface of the ammonium sulfate material pressing groove, and toothed belts meshed with the sawteeth are mounted on the sawteeth;

a second pressing mechanism supporting plate is fixedly arranged on the inner wall of the rack and above the ammonium sulfate material pressing groove, a second pressing mechanism power mechanism is fixedly arranged at the end part of the second pressing mechanism supporting plate, a second rotating shaft is fixedly arranged at the power output end of the second pressing mechanism power mechanism, a second mounting cylinder is fixedly arranged on the second rotating shaft, a second rib is fixedly arranged on the second mounting cylinder, and a second pressing steel ring is fixedly arranged at the other end of the second rib and in the ammonium sulfate material pressing groove;

an ammonium sulfate material collecting box is fixedly arranged on the inner wall of the bottom of the rack and below the first pressing steel ring.

The to-be-solved technical problem of the utility model can also be realized through following technical scheme, the material loading subassembly adopt belt conveyor.

The technical problem to be solved by the utility model can also be realized by the following technical scheme that the above high-efficiency ammonium sulfate granular material processing equipment comprises 2 baffles which are fixedly arranged on the inner wall of the frame and above the feeding component, and a plurality of inclined baffles are also fixedly arranged on the inner wall of the frame and above the feeding component between the 2 baffles;

the 2 baffles are respectively and fixedly arranged on the inner wall of the rack and the left side and the right side of the feeding assembly, and the distance between the 2 baffles and the feeding assembly is respectively 3 cm;

the inclined baffle is provided with 3, and the tip of 3 inclined baffle and the interval between the material loading subassembly set gradually 12cm, 8cm and 4cm form setting according to the material loading subassembly material loading direction.

The utility model discloses the technical problem that solve can also be realized through following technical scheme, above a high-efficient ammonium sulfate granule material processing equipment, first support rib be provided with 4, 4 first support ribs use first pivot center as benchmark circumference fixed mounting on the outer wall of a first installation section of thick bamboo.

The utility model discloses the technical problem that solve can also realize through following technical scheme, above a high-efficient ammonium sulfate granule material processing equipment, the second rib be provided with 4, 4 second ribs use second pivot center as benchmark circumference fixed mounting on the outer wall of second installation section of thick bamboo.

The technical problem to be solved by the utility model can also be realized through the following technical scheme, the above-mentioned high-efficient ammonium sulfate granule material processing equipment is fixedly provided with an upper supporting plate and a lower supporting plate on the inner wall of the frame and above and below the first pressing steel ring, the end parts of the upper supporting plate and the lower supporting plate are fixedly provided with a shaft body, the outer wall of the shaft body is fixedly provided with a rolling bearing, the outer ring of the rolling bearing is fixedly provided with a gear matched with the toothed belt for use, and the toothed belt is sequentially connected with the first pressing steel ring and the 2 gears;

the end part of the upper supporting plate is positioned between the first pressing steel ring and the feeding component.

The utility model discloses the technical problem that solve can also realize through following technical scheme, above a high-efficient ammonium sulfate granule material processing equipment, the cingulum middle part that is located between 2 gears is with first steel ring contact of pressing down and be straight form installation status.

Compared with the prior art, the beneficial effects of the utility model are that: the ammonium sulfate blocking component above the feeding component can interfere with the thick ammonium sulfate granular materials stacked on the feeding component and can prevent the stacked thick ammonium sulfate granular materials from falling onto the bottom of the rack from two sides of the feeding component to a certain extent, and the thick ammonium sulfate granular materials can pass through a material passing gap after interfering with 3 inclined baffles and passing through a gap between the 3 inclined baffles and the feeding component, the distance between the end parts of the 3 inclined baffles and the feeding assembly is set to be 12cm, 8cm and 4cm according to the feeding direction of the feeding assembly in sequence, namely the thickness of the viscous ammonium sulfate granular material on the feeding assembly is 4cm when the viscous ammonium sulfate granular material reaches the rear end part of the feeding assembly, and the viscosity of the powdery ammonium sulfate material is reduced when the powdery ammonium sulfate material is stirred with water according to a certain proportion and reaches a formed granular state, so that the powdery ammonium sulfate material cannot be adhered to the feeding assembly all the time, and when the ammonium sulfate material reaches the other end of the feeding assembly, the ammonium sulfate material can fall into an ammonium sulfate material pressing groove of a first pressing steel ring below the feeding assembly by self weight, and the structure design is reasonable; the ammonium sulfate material falling into the ammonium sulfate material pressing groove is rolled by a second pressing steel ring, namely a gap between the end surface of the second pressing steel ring and the end surface of the toothed belt on the ammonium sulfate material pressing groove is a pressing space of the ammonium sulfate material, the ammonium sulfate material in the part can be extruded by the second pressing steel ring and the toothed belt into sheet ammonium sulfate material with density larger than that of the ammonium sulfate material before extrusion, and the installation distance between the second pressing steel ring and the toothed belt is designed to be less than 3cm, this interval can set up to 1cm, and its radial distance major part of the ammonium sulfate material that the stirring becomes the graininess all surpasss this interval, so the ammonium sulfate material that this process makes to be located the ammonium sulfate material and presses the indent all can be extruded, and the ammonium sulfate material dead weight after the extrusion falls to the ammonium sulfate material collection box, and its structural design is reasonable, and machining efficiency is high.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of a first pressing steel ring of the present invention;

fig. 3 is a schematic structural view of the upper support plate of the present invention;

fig. 4 is a left side view structural diagram of the feeding assembly and the supporting seat of the feeding mechanism of the present invention;

fig. 5 is a schematic structural view of the second pressing steel ring of the present invention.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings so as to facilitate the further understanding of the present invention by those skilled in the art, and do not limit the right thereto.

Embodiment 1, refer to fig. 1-5, a high-efficiency ammonium sulfate granular material processing device, including a frame 1, an ammonium sulfate feed inlet 2 and an ammonium sulfate discharge outlet 3 are provided on the frame 1, a hopper 28 for feeding is fixedly mounted on the discharge outlet 3, a feeding mechanism and a pressing mechanism are mounted in the frame 1, the pressing mechanism is provided at the rear of the feeding mechanism;

the feeding mechanism comprises a plurality of feeding mechanism supporting seats 4 fixedly arranged on the bottom of the rack 1, a feeding assembly 5 is fixedly arranged on each feeding mechanism supporting seat 4, and an ammonium sulfate material blocking assembly is also fixedly arranged on the inner wall of the rack 1 and above each feeding assembly 5;

the material pressing mechanism comprises a first material pressing mechanism supporting plate 6, a first material pressing mechanism power mechanism 7 is fixedly installed at the end portion of the first material pressing mechanism supporting plate 6, a first rotating shaft 8 is fixedly installed at the power output end of the first material pressing mechanism power mechanism 7, a first installation barrel 9 is fixedly installed on the first rotating shaft 8, a first supporting rib 10 is fixedly installed on the first installation barrel 9, a first pressing steel ring 11 is fixedly installed on the other end of the first supporting rib 10 and right below the outlet end of the feeding assembly 5, an ammonium sulfate material pressing groove 12 is formed in the middle of the first pressing steel ring 11, sawteeth are further formed in the bottom surface of the ammonium sulfate material pressing groove 12, and toothed belts 13 meshed with the sawteeth are installed on the sawteeth;

a second pressing mechanism supporting plate 14 is fixedly arranged on the inner wall of the rack 1 and above the ammonium sulfate material pressing groove 12, a second pressing mechanism power mechanism 15 is fixedly arranged at the end part of the second pressing mechanism supporting plate 14, a second rotating shaft 16 is fixedly arranged at the power output end of the second pressing mechanism power mechanism 15, a second mounting cylinder 17 is fixedly arranged on the second rotating shaft 16, a second rib 18 is fixedly arranged on the second mounting cylinder 17, and a second pressing steel ring 19 is fixedly arranged at the other end of the second rib 18 and in the ammonium sulfate material pressing groove 12;

an ammonium sulfate material collecting box 20 is fixedly arranged on the inner wall of the bottom of the frame 1 and below the first pressing steel ring 11. The first pressing mechanism power mechanism 7 and the second pressing mechanism power mechanism 15 adopt AM060 ultra-precise helical tooth servo planetary speed reducers, 2 ultra-precise helical tooth servo planetary speed reducers are respectively connected with an external servo motor driver through communication lines, the servo motor drivers are respectively connected with an external plc controller through communication lines, and the power supplies of the 2 ultra-precise helical tooth servo planetary speed reducers are supplied with power by an external power supply, so that when the device is installed, the power output ends of the 2 ultra-precise helical tooth servo planetary speed reducers drive the first pressing steel ring 11 and the second pressing steel ring 19 to rotate, the linear speeds of the end parts of the toothed belt 13 on the first pressing steel ring 11 and the second pressing steel ring 19 are the same; the cross section of the frame 1 is rectangular; the cross section of the supporting seat 4 of the feeding mechanism is rectangular; the cross sections of the first rotating shaft 8 and the second rotating shaft 16 are arranged in a circular shape; the cross sections of the first supporting ribs 10 and the second ribs are arranged in a circular shape; the cross section of the ammonium sulfate material pressing groove 12 is rectangular; the surface of the second pressing steel ring 19 is not provided with sawteeth, so that the toothed belt 13 cannot be broken due to hard contact when the second pressing steel ring 19 is in contact with the surface of the toothed belt 13; the cross sections of the first mounting cylinder 9 and the second mounting cylinder 17 are arranged in a circular ring shape; the cross sections of the first pressing mechanism supporting plate 6 and the second pressing mechanism supporting plate 14 are rectangular; the cross section of the ammonium sulfate material collecting box 20 is rectangular.

In embodiment 1, the ammonium sulfate material falls into the ammonium sulfate material pressing groove 12 through the feeding assembly 5 and is rolled by the second pressing steel ring 19, that is, a gap between an end surface of the second pressing steel ring 19 and an end surface of the toothed belt 13 on the ammonium sulfate material pressing groove 12 is a pressing space of the ammonium sulfate material, the ammonium sulfate material in the part can be extruded by the second pressing steel ring 19 and the toothed belt 13 into a sheet ammonium sulfate material with a density larger than that of the ammonium sulfate material before extrusion, because the installation distance between the second pressing steel ring 19 and the toothed belt 13 is designed to be less than 3cm in design, that is, the distance can be set to 1cm, and most of the radial distance of the ammonium sulfate material stirred into particles exceeds the distance, the process enables the ammonium sulfate material in the ammonium sulfate material pressing groove 12 to be extruded, the extruded material moves along the straight part of the toothed belt 13, when the material moves to the end point of the straight part of the toothed belt 13, because the end point of the straight part of the toothed belt 13 is surrounded on the gear 27 close to the bottom of the rack 1, namely the movement direction of the toothed belt 13 at the position is changed, the ammonium sulfate material pressed into a sheet body falls into the ammonium sulfate material collecting box 20 by self weight, the structural design is reasonable, and the processing efficiency is high;

the first pressing mechanism supporting block 6 and the second pressing mechanism supporting block 14 are respectively provided with a hole for mounting the first rotating shaft 8 and the second rotating shaft 16, a rotating bearing is fixedly mounted in the hole, so that the first pressing mechanism supporting block 6 and the second pressing mechanism supporting block 14 can support the first rotating shaft 8 and the second rotating shaft 16, the first pressing mechanism power mechanism 7 and the second pressing mechanism power mechanism 15 can be fixedly placed on the cuboid block supporting block 26, the cuboid supporting block 26 is provided with 2 blocks, the bottom end part of the cuboid block 26 for fixedly mounting the first pressing mechanism power mechanism 7 is fixedly mounted on the inner wall of the bottom of the machine body 1, and the other block is fixedly mounted on the inner wall of the top of the machine body 1, so that the first pressing mechanism power mechanism 7 and the second pressing mechanism power mechanism 15 can be supported.

Embodiment 2, the high efficiency ammonium sulfate granular material processing equipment of embodiment 1, the material loading assembly 5 adopts a belt conveyor. The power supply of the belt conveyor is powered by an external power supply.

Embodiment 3, the high efficiency ammonium sulfate granular material processing apparatus described in embodiment 1, the ammonium sulfate blocking assembly includes 2 baffles 21 fixedly installed on the inner wall of the rack 1 and above the feeding assembly 5, and a plurality of inclined baffles 22 are also fixedly installed on the inner wall of the rack 1 and above the feeding assembly 5 between the 2 baffles 21;

the 2 baffle plates 21 are respectively and fixedly arranged on the inner wall of the frame 1 and the left side and the right side of the feeding assembly 5, and the distance between the 2 baffle plates 21 and the feeding assembly 5 is respectively set to be 3 cm;

the inclined baffle 22 is provided with 3, and the interval between the tip of 3 inclined baffle 22 and the material loading subassembly 5 sets gradually 12cm, 8cm and 4cm form setting according to material loading subassembly 5 material loading direction. The cross section of the baffle 21 is rectangular; the inclined baffle 22 is rectangular in cross section.

In embodiment 3, the ammonium sulfate granular material in a viscous state located at the front end of the feeding assembly 5 moves to the rear end of the feeding assembly 5 along with the feeding assembly 5, because the ammonium sulfate blocking assembly comprises 2 baffles 21 arranged on the inner wall of the rack 1 and on the left and right sides of the feeding assembly 5, the baffles 21 can prevent the ammonium sulfate material from falling to the bottom of the rack 1 from the two sides of the feeding assembly 5 to a certain extent, a material receiving box can be placed right below the feeding assembly 5 on the bottom of the rack 1 to contain a small part of the ammonium sulfate material falling from the feeding assembly 5, the uneven ammonium sulfate material interferes with the 3 inclined baffles 22 and passes through a gap between the 3 inclined baffles 22 and the feeding assembly 5, and because the gap between the end of the 3 inclined baffles 22 and the feeding assembly 5 is sequentially set to be 12cm according to the feeding direction of the feeding assembly 5, 8cm and 4cm form setting, it is 4cm to be its thickness when arriving the 5 rear end of material loading subassembly for the ammonium sulfate granular material of consistency that lie in on the material loading subassembly 5 promptly, because of powdery ammonium sulfate material with water behind the stirring according to a certain proportion, when reaching the shaping graininess, its viscosity reduces, so can not adhere all the time on material loading subassembly 5, when the ammonium sulfate material reachs on the 5 other ends of material loading subassembly, the ammonium sulfate material can drop to the first ammonium sulfate material of pressing steel ring 11 in the material loading subassembly 5 below by oneself and press the inslot 12, in the course of working, even there are few part ammonium sulfate material adhesion on material loading subassembly 5, can not influence the normal course of working of this ammonium sulfate granular material processing equipment yet, its structural design is reasonable.

Embodiment 4, embodiment 1 a high-efficient ammonium sulfate granule material processing equipment, first support rib 10 be provided with 4, 4 first support ribs 10 use 8 centers of first pivot as benchmark circumference fixed mounting on the outer wall of first installation section of thick bamboo 9.

Embodiment 5, embodiment 1 a high-efficient ammonium sulfate granule material processing equipment, the second rib be provided with 4, 4 second ribs use second pivot 16 centers as benchmark circumference fixed mounting on the outer wall of second installation section of thick bamboo 17.

Embodiment 6, the high efficiency ammonium sulfate particle material processing equipment described in embodiment 1, wherein an upper support plate 23 and a lower support plate 24 are fixedly installed on the inner wall of the frame 1 above and below the first pressing steel ring 11, a shaft body 25 is fixedly installed at the end portions of the upper support plate 23 and the lower support plate 24, a rotating bearing is fixedly installed on the outer wall of the shaft body 25, a gear 27 used in cooperation with the toothed belt 13 is fixedly installed on the outer ring of the rotating bearing, and the toothed belt 13 is sequentially connected to the first pressing steel ring 11 and the gear 27 of 2;

the end part of the upper supporting plate 23 is positioned between the first pressing steel ring 11 and the feeding component 5. The upper supporting plate 23 and the lower supporting plate 24 have the same structure, and the cross sections of the upper supporting plate 23 and the lower supporting plate 24 are arranged in a rectangular shape; the shaft body 25 has a circular cross section. Embodiment 7, the high efficiency ammonium sulfate granule material processing equipment that embodiment 6 said, the middle part of the toothed belt 13 that is located between 2 gears 27 contacts with first pressing steel ring 11 and is the straight installation state.

When the device is used, sticky ammonium sulfate granular materials stirred by adding water are added onto the front end part of the feeding component 5 through the hopper, the feeding component 5 is started through an external power supply, the sticky ammonium sulfate granular materials on the feeding component 5 are conveyed to the rear end part of the feeding component 5 by the feeding component 5, the sticky ammonium sulfate granular materials on the rear end part of the feeding component 5 fall onto the non-sawtooth surface of the ammonium sulfate material of the first pressing steel ring 11 under the rear end part of the feeding component 5 under the self weight of the ammonium sulfate material of the first pressing steel ring 12, meanwhile, the first pressing mechanism power mechanism 7 and the second pressing mechanism power mechanism 15 are started to work through the external power supply, the ammonium sulfate material between the end surface of the second pressing steel ring 19 and the non-sawtooth surface of the toothed belt 13 is pressed, namely, the sticky ammonium sulfate granular materials with lower density are pressed to be in the form ammonium sulfate sheet-shaped materials with higher density, because the middle part of the toothed belt 13 between the 2 gears 27 is in contact with the first pressing steel ring 11 and is in a straight installation state, namely, a pressing part is arranged between the contact parts of the second pressing steel ring 19 and the toothed belt 13 and the first pressing steel ring 11, and because the middle part of the toothed belt 13 between the 2 gears 27 is in contact with the first pressing steel ring 11 and is in a straight state, namely, the ammonium sulfate sheet material in a sheet shape after being extruded can move along the toothed belt 13 in a straight part, when the straight ammonium sulfate sheet material reaches the position of the gear 27 near the bottom of the rack 1 in the rack 1, the toothed belt 13 of the part is not in the straight state, namely the moving direction of the toothed belt 13 of the part is changed, so that the ammonium sulfate sheet material passing through the part can fall into the ammonium sulfate material collecting box 20.

Claims (7)

1. The utility model provides a high-efficient ammonium sulfate granule material processing equipment which characterized in that: the device comprises a rack, wherein an ammonium sulfate feeding port and an ammonium sulfate discharging port are formed in the rack, a hopper for feeding is fixedly arranged on the discharging port, a feeding mechanism and a material pressing mechanism are arranged in the rack, and the material pressing mechanism is arranged at the rear end of the feeding mechanism;

the feeding mechanism comprises a plurality of feeding mechanism supporting seats fixedly arranged on the bottom of the rack, a feeding assembly is fixedly arranged on each feeding mechanism supporting seat, and an ammonium sulfate material blocking assembly is also fixedly arranged on the inner wall of the rack and above the feeding assembly;

the material pressing mechanism comprises a first material pressing mechanism supporting plate, a first material pressing mechanism power mechanism is fixedly mounted at the end part of the first material pressing mechanism supporting plate, a first rotating shaft is fixedly mounted at the power output end of the first material pressing mechanism power mechanism, a first mounting barrel is fixedly mounted on the first rotating shaft, a first supporting rib is fixedly mounted on the first mounting barrel, a first pressing steel ring is fixedly mounted at the other end of the first supporting rib and right below the outlet end of the feeding assembly, an ammonium sulfate material pressing groove is formed in the middle of the first pressing steel ring, sawteeth are further formed in the bottom surface of the ammonium sulfate material pressing groove, and toothed belts meshed with the sawteeth are mounted on the sawteeth;

a second pressing mechanism supporting plate is fixedly arranged on the inner wall of the rack and above the ammonium sulfate material pressing groove, a second pressing mechanism power mechanism is fixedly arranged at the end part of the second pressing mechanism supporting plate, a second rotating shaft is fixedly arranged at the power output end of the second pressing mechanism power mechanism, a second mounting cylinder is fixedly arranged on the second rotating shaft, a second rib is fixedly arranged on the second mounting cylinder, and a second pressing steel ring is fixedly arranged at the other end of the second rib and in the ammonium sulfate material pressing groove;

an ammonium sulfate material collecting box is fixedly arranged on the inner wall of the bottom of the rack and below the first pressing steel ring.

2. A high efficiency ammonium sulfate granular material processing apparatus as claimed in claim 1, wherein: the feeding assembly adopts a belt conveyor.

3. A high efficiency ammonium sulfate granular material processing apparatus as claimed in claim 1, wherein: the ammonium sulfate blocking assembly comprises 2 baffles fixedly arranged on the inner wall of the frame and above the feeding assembly, and a plurality of inclined baffles are also fixedly arranged on the inner wall of the frame and above the feeding assembly between the 2 baffles;

the 2 baffles are respectively and fixedly arranged on the inner wall of the rack and the left side and the right side of the feeding assembly, and the distance between the 2 baffles and the feeding assembly is respectively 3 cm;

the inclined baffle is provided with 3, and the tip of 3 inclined baffle and the interval between the material loading subassembly set gradually 12cm, 8cm and 4cm form setting according to the material loading subassembly material loading direction.

4. A high efficiency ammonium sulfate granular material processing apparatus as claimed in claim 1, wherein: first support rib be provided with 4, 4 first support ribs use first pivot center as benchmark circumference fixed mounting on the outer wall of first installation section of thick bamboo.

5. A high efficiency ammonium sulfate granular material processing apparatus as claimed in claim 1, wherein: the second rib be provided with 4, 4 second ribs use second pivot center as benchmark circumference fixed mounting on the outer wall of second installation section of thick bamboo.

6. A high efficiency ammonium sulfate granular material processing apparatus as claimed in claim 1, wherein: an upper supporting plate and a lower supporting plate are fixedly arranged on the inner wall of the rack and above and below the first pressing steel ring, shaft bodies are fixedly arranged at the end parts of the upper supporting plate and the lower supporting plate, a rotating bearing is fixedly arranged on the outer wall of the shaft bodies, a gear matched with the toothed belt is fixedly arranged on the outer ring of the rotating bearing, and the toothed belt is sequentially connected onto the first pressing steel ring and the 2 gears;

the end part of the upper supporting plate is positioned between the first pressing steel ring and the feeding component.

7. The high efficiency ammonium sulfate granular material processing equipment as claimed in claim 6, wherein: the middle part of the toothed belt positioned between the 2 gears is in contact with the first pressing steel ring and is in a straight installation state.

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