CN210303567U - Processing equipment for forming granular ammonium sulfate material after stirring - Google Patents

Abstract

A processing device for forming granular ammonium sulfate materials after stirring comprises a rack and a feeding mechanism, wherein the feeding mechanism comprises a hopper arranged above the rack, a material supporting plate is fixedly arranged on the inner wall of the rack, and a feeding mechanism comprises a material pipe connected to the bottom of the supporting plate; granular ammonium sulfate material after the stirring gets into to the frame in the material backup pad through pan feeding mechanism on, the material pipe of being connected bottom the backup pad in the reinforced mechanism of process gets into to the reinforced mechanism of spiral, carry out the pay-off to granular ammonium sulfate material through the reinforced mechanism of spiral, can press granular ammonium sulfate material through pressing the electronic telescoping cylinder in the forming mechanism and pressing the subassembly, the granular ammonium sulfate material extrusion after stirring its and water is cubic ammonium sulfate material, its structural design is reasonable, ammonium sulfate material treatment effeciency is high.

Description

Processing equipment for forming granular ammonium sulfate material after stirring

Technical Field

The utility model relates to an ammonium sulfate production facility, in particular to for material processing equipment based on stirring back shaping graininess ammonium sulfate.

Background

The physical property of the ammonium sulfate is colorless transparent orthorhombic crystal, the aqueous solution is acidic, is insoluble in alcohol, acetone and ammonia water, has hygroscopicity, and is solidified into blocks after moisture absorption; the chemical property is that ammonia gas, nitrogen gas, sulfur dioxide and water are completely decomposed by heating to 513 ℃ or higher, the ammonia gas is released by the action of alkali, and reacts with barium chloride solution to generate barium sulfate precipitate, and the protein can also be salted out;

when the ammonium sulfate material is processed, generally, the powdery ammonium sulfate material and water are firstly stirred into the granular ammonium sulfate material, then the granular ammonium sulfate material stirred with the water is extruded into blocks, the ammonium sulfate material extruded into the blocks is smashed, the smashed ammonium sulfate material is ground, the density of the ground granular ammonium sulfate material is increased, but after the current ammonium sulfate material is extruded by an extruder, the volume of the blocky ammonium sulfate material is large, the shape is different, and the workload of subsequent smashing processing is large and is not practical.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to prior art not enough, provide a processing equipment for shaping graininess ammonium sulfate material after based on the stirring.

The technical problem to be solved by the utility model is realized by the following technical proposal, comprising a frame,

the feeding mechanism comprises a hopper arranged above the rack, and a material supporting plate is fixedly arranged on the inner wall of the rack;

the feeding mechanism comprises a material pipe connected to the bottom of the supporting plate, and a spiral feeding mechanism is mounted at the outlet end of the material pipe;

the pressing and forming mechanism comprises an electric telescopic cylinder fixedly arranged on the bottom of the material supporting plate, and a pressing component is fixedly arranged on the power output end of the electric telescopic cylinder;

the ejection mechanism comprises an ejection component arranged below the pressing component;

the material storage box is fixedly arranged on the bottom of the rack and below the material ejecting assembly, and an opening for discharging is formed in the bottom of the material storage box.

The utility model discloses the technical problem that solve can also be realized through following technical scheme, above a based on stirring back shaping graininess ammonium sulfate processing equipment for material, pressing component including pressing the clamp plate, pressing clamp plate bottom fixed mounting has the connecting plate, there is feeding box at connecting plate bottom fixed mounting, seted up the blanking groove on pressing the clamp plate, fixed mounting has the pan feeding pipe bottom the blanking groove between connecting plate and the feeding box, fixed mounting has the spring on the outer wall of connecting plate bottom, pan feeding pipe, fixed mounting has the box of pressing that is used for plugging up pan feeding pipe exit end and establishes on the other end of spring, offer the material mouth that is used for the ejection of compact to establish pressing the left and right sides of box.

The utility model discloses the technical problem that solve can also be realized through following technical scheme, above a based on stirring back shaping graininess ammonium sulfate processing equipment for material, press forming mechanism be provided with 6 groups, every group is according to all having seted up 8 blanking grooves on the pressure board in the forming mechanism, adjacent 2 groups are according to the interval of forming mechanism the same, adjacent 2 groups press the clearance between the forming mechanism and constitute the liftout clearance, press the interval of 2 adjacent blanking grooves on the pressure board the same.

The technical problem to be solved by the utility model can also be realized by the following technical proposal that the processing equipment for molding the granular ammonium sulfate material after stirring comprises a material ejecting component,

the fixed plate is fixedly arranged on the inner wall of the rack and below the pressing component, and a pressing opening is formed in the fixed plate;

the upper ejection mechanism comprises an upper ejection mechanism mounting block fixedly mounted on the bottom of the rack, an upper ejection mechanism power mechanism is fixedly mounted on the upper ejection mechanism mounting block, an upper ejection plate is fixedly mounted on the power output end of the upper ejection mechanism power mechanism, and an upper ejection plate supporting block is fixedly mounted on the upper ejection plate;

and the lower ejection mechanism comprises a lower ejection mechanism mounting block fixedly mounted on the bottom of the frame, a lower ejection mechanism power mechanism is fixedly mounted on the lower ejection mechanism mounting block, a lower ejector plate is fixedly mounted on the power output end of the lower ejection mechanism power mechanism, and a lower ejector plate supporting block is fixedly mounted on the lower ejector plate.

The utility model discloses the technical problem that solve can also realize through following technical scheme, above a based on stirring back shaping graininess ammonium sulfate processing equipment for material, last liftout mechanism power unit and lower liftout mechanism power unit adopt electronic telescoping cylinder.

The utility model discloses the technical problem that solve can also realize through following technical scheme, above a based on stirring back shaping graininess ammonium sulfate processing equipment for material still installs the controller that is used for controlling electronic telescoping cylinder, spiral feeding mechanism, goes up ejecting mechanism power unit and ejecting mechanism power unit work and establishes down on the frame outer wall, electronic telescoping cylinder, spiral feeding mechanism, go up ejecting mechanism power unit and ejecting mechanism power unit down pass through the wire and be connected with external power source, electronic telescoping cylinder, spiral feeding mechanism, go up ejecting mechanism power unit and ejecting mechanism power unit down pass through the communication line and be connected with the controller.

Compared with the prior art, the utility model has the advantages and positive effects that, the graininess ammonium sulfate material after the stirring gets into to the frame in the material backup pad through pan feeding mechanism on, the material pipe of being connected with the backup pad bottom in the feeding mechanism gets into in the spiral feeding mechanism, carry out the pay-off to graininess ammonium sulfate material through spiral feeding mechanism, can press graininess ammonium sulfate material through electronic telescoping cylinder and the pressing component in the pressing forming mechanism, the graininess ammonium sulfate material extrusion after stirring it with water is blocky ammonium sulfate material, the graininess ammonium sulfate material through the extrusion blocking is its ejecting pressing component through liftout mechanism, need not manual operation, blocky ammonium sulfate material dead weight after the ejecting falls to the material storage box in, break away from the frame through material storage box bottom opening;

wherein, the last liftout mechanism of liftout mechanism and liftout mechanism down can be successively with the cubic ammonium sulfate material jack-up in the charging chute, prevent to a certain extent that cubic ammonium sulfate material from adhering in the charging chute, because of ammonium sulfate material course of working is adding water earlier powdered ammonium sulfate material and stirs into the granular ammonium sulfate material, extrude the granular ammonium sulfate material into the piece again, smash the cubic ammonium sulfate material to the more granular ammonium sulfate material of density again, grind the granular ammonium sulfate material after will smashing again and make its surface more mellow and more moist, even the small part of adhesion of cubic ammonium sulfate material is on the charging chute inner wall, do not influence the follow-up processing use of cubic ammonium sulfate material yet, its structural design is reasonable, excellent in processing effect.

Drawings

FIG. 1 is a schematic structural view of the present invention before use;

fig. 2 is a schematic structural view of the utility model when pressing;

FIG. 3 is a schematic structural diagram of the material ejection of the present invention;

FIG. 4 is another schematic structural diagram of the material ejecting device of the present invention;

fig. 5 is a partially enlarged schematic view of the present invention;

fig. 6 is a schematic top view of the fixing plate 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.

Example 1, referring to fig. 1-6, a processing apparatus for forming a particulate ammonium sulfate material based on stirring, comprises a frame 1,

the feeding mechanism comprises a hopper 2 arranged above the rack 1, and a material supporting plate 3 is fixedly arranged on the inner wall of the rack 1;

the feeding mechanism comprises a material pipe 4 connected to the bottom of the supporting plate, and a spiral feeding mechanism 5 is installed at the outlet end of the material pipe 4;

the pressing and forming mechanism comprises an electric telescopic cylinder 6 fixedly arranged at the bottom of the material supporting plate 3, and a pressing component is fixedly arranged on the power output end of the electric telescopic cylinder;

the ejection mechanism comprises an ejection component arranged below the pressing component;

the material storage box 7 is fixedly installed on the bottom of the rack 1 and below the material ejecting assembly, and an opening 8 for discharging is formed in the bottom of the material storage box 7.

In the embodiment 1, the frame 1 is a stainless steel frame 1 with a rectangular section, and the bottom of the frame 1 is provided with a support leg 9 for supporting the frame 1; the cross section of the material pipe 4 is circular, one end of the material pipe 4 is communicated with the inside of the material supporting plate 3, the other end of the material pipe is connected with a feeding hole of the spiral feeding mechanism 5, and the spiral feeding mechanism 5 can adopt a spiral conveyor.

Embodiment 2, embodiment 1 the processing equipment for shaping graininess ammonium sulfate material after stirring, the subassembly of pressing include pressing the clamp plate 10, press clamp plate 10 bottom fixed mounting have connecting plate 11, at connecting plate 11 bottom fixed mounting have feeding box 12, seted up blanking groove 13 on pressing the clamp plate 10, at blanking groove 13 bottom, fixed mounting has feeding pipe 14 between connecting plate 11 and feeding box 12, at connecting plate 11 bottom, fixed mounting has spring 15 on the outer wall of feeding pipe 14, fixed mounting has the box 16 of pressing that is used for blockking up feeding pipe 14 exit end to establish on the other end of spring 15, set up the material mouth that is used for the ejection of compact to establish in the left and right sides that presses box 16. The cross section of the pressing plate 10 is rectangular; the cross section of the connecting plate 11 is rectangular, and a gap for accommodating the feeding pipe 14 and the pressing box 16 is formed in the connecting plate 11; the cross section of the material inlet box 12 is rectangular, and a plurality of through holes for accommodating the pressing box 16 are formed in the material inlet box 12; the cross section of the feeding pipe 14 is arranged in a circular shape, wherein 5 feeding pipes 14 in 1 pressing assembly are arranged, and the distance between every two adjacent feeding pipes 14 is the same; the cross section of the pressing box 16 is rectangular, and the left and right surfaces of the pressing box 16 are open, that is, the material can fall into the pressing opening 17 through the left and right sides of the pressing box 16.

In embodiment 2, when the material falls onto the pressing plate 10 through the discharge end of the screw conveyor, the granular material falls into the pressing box 16 through the 5 feeding pipes 14 connected to the pressing plate 10, because the bottom of the pressing box 16 is closed and only the left and right sides of the pressing box 16 are open, the granular material can fall into the pressing opening 17 through the left and right sides of the pressing box 16, and the springs 15 disposed on the outer walls of the feeding pipes 14 and the bottom of the connecting plate 11 are used for contracting or restoring the pressing box 16.

Embodiment 3, the processing equipment for molding the granular ammonium sulfate material after stirring, according to embodiment 1, the pressing and molding mechanisms are provided with 6 sets, each set of pressing and molding mechanism has 8 blanking slots 13 formed on a pressing plate 10, the intervals between every two adjacent sets of pressing and molding mechanisms are the same, the gaps between every two adjacent sets of pressing and molding mechanisms form a material ejecting gap 18, and the intervals between every two adjacent blanking slots 13 on the pressing plate 10 are the same. Press forming mechanism to be provided with 6 groups, every group presses and has all seted up 8 charging chutes 13 on the pressing plate 10 among the forming mechanism, and this setting can improve the efficiency that the ammonium sulfate material was handled.

Embodiment 4, the processing equipment for forming a granular ammonium sulfate material after stirring as described in embodiment 1, wherein the material ejecting assembly comprises,

a fixing plate 19 which is fixedly arranged on the inner wall of the frame 1 and below the pressing component, and a pressing opening 17 is arranged on the fixing plate 19;

the upper ejection mechanism comprises an upper ejection mechanism mounting block 20 fixedly mounted at the bottom of the rack 1, an upper ejection mechanism power mechanism 21 is fixedly mounted on the upper ejection mechanism mounting block 20, an upper ejection plate 22 is fixedly mounted at the power output end of the upper ejection mechanism power mechanism 21, and an upper ejection plate supporting block 23 is fixedly mounted on the upper ejection plate 22;

the lower ejection mechanism comprises a lower ejection mechanism mounting block 24 fixedly mounted at the bottom of the frame 1, a lower ejection mechanism power mechanism 25 is fixedly mounted on the lower ejection mechanism mounting block 24, a lower ejector plate 26 is fixedly mounted at the power output end of the lower ejection mechanism power mechanism 25, and a lower ejector plate supporting block 27 is fixedly mounted on the lower ejector plate 26. The cross section of the fixing plate 19 is rectangular, the cross section of the pressing opening 17 is rectangular, the cross section of the bottom edges of the feeding box 12 and the pressing boxes 16 is smaller than the cross section size of the pressing opening 17 by 1cm, and the arrangement is used for pressing the bottom surfaces of the feeding box 12 and the pressing boxes 16 to completely press the bottom surfaces of the pressing opening 17 and the pressing opening 17 when in use. The cross sections of the lower part of the upper ejection mechanism mounting block 20 and the lower ejection mechanism mounting block 24 are rectangular, and the cross section of the top part of the upper ejection mechanism mounting block 20 is rectangular; the cross sections of the upper ejector plate supporting block 23 and the lower ejector mechanism power mechanism 25 are rectangular.

In the processing equipment for forming the granular ammonium sulfate material after stirring according to embodiments 5 and 4, the upper ejection mechanism power mechanism 21 and the lower ejection mechanism power mechanism 25 adopt the electric telescopic cylinder 6.

Embodiment 6, embodiment 5 the processing equipment for forming the granular ammonium sulfate material after stirring is characterized in that a controller for controlling the electric telescopic cylinder 6, the spiral feeding mechanism 5, the upper ejection mechanism power mechanism 21 and the lower ejection mechanism power mechanism 25 to work is further installed on the outer wall of the frame 1, the electric telescopic cylinder 6, the spiral feeding mechanism 5, the upper ejection mechanism power mechanism 21 and the lower ejection mechanism power mechanism 25 are connected with an external power supply through wires, and the electric telescopic cylinder 6, the spiral feeding mechanism 5, the upper ejection mechanism power mechanism 21 and the lower ejection mechanism power mechanism 25 are connected with the controller through communication wires. The controller can adopt a plc controller, the plc controller controls the electric telescopic cylinder 6, the spiral feeding mechanism 5, the upper ejection mechanism power mechanism 21 and the lower ejection mechanism power mechanism 25 to work, and the extension end stroke of the electric telescopic cylinder 6 is smaller than the distance of 5cm between the bottom surface of the feeding box 12 and the bottom surface of the pressing box 16 to the bottom surface of the pressing opening 17; the feeding amount of the spiral feeding mechanism 5 in each feeding operation can only just fill the pressing port 17; the power output end strokes of the upper ejection mechanism power mechanism 21 and the lower ejection mechanism power mechanism 25 are the distance from the bottom of the pressing opening 17 to the top of the pressing opening 17.

When the device is used, granular ammonium sulfate materials stirred with water are added above a material supporting plate 3 in a rack 1 through a hopper 2, at the moment, the granular ammonium sulfate materials fall into a spiral feeding mechanism 5 through a material pipe 4 by self weight, at the moment, a plc controller drives the spiral feeding mechanism 5 to work, the granular ammonium sulfate materials are added into a blanking groove 13 right below the spiral feeding mechanism 5 through the spiral feeding mechanism 5, the granular ammonium sulfate materials enter a pressing box 16 through 5 feeding pipes 14 below the blanking groove 13, the granular ammonium sulfate materials fall into a pressing opening 17 right below the pressing box 16 through left and right open ends of the pressing box 16, the plc controller does not drive the spiral feeding mechanism 5 to feed when the pressing opening 17 is filled with the granular ammonium sulfate materials, at the moment, the plc controller drives an electric telescopic cylinder 6 to work, a power output end of the pressing plate 10 presses down, at the moment, the bottom surfaces of the feeding box 12 and the pressing box 16 are contacted with the granular ammonium sulfate materials in the pressing opening 17 and pressed, pressing the granular ammonium sulfate material into a block shape, wherein the pressing box 16 can be extruded by the granular ammonium sulfate material to enable the spring 15 to contract, and when the extrusion is completed and the plc controller drives the power output end of the electric telescopic cylinder 6 to recover the initial position, the spring 15 stretches and contracts to enable the pressing box 16 to recover to the initial state so as to meet the requirement of feeding the granular ammonium sulfate material at the next time;

the ammonium sulfate blocky materials extruded into blocks are driven by the plc controller to work, the ammonium sulfate blocky materials are ejected out of the bottom surface of the pressing opening 17 through the upper ejector plate supporting block 23 on the power output end of the power mechanism 21, but the ammonium sulfate blocky materials are still adhered to the top surface of the upper ejector plate supporting block 23 at the moment, the plc controller drives the lower ejector plate supporting block 27 on the upper ejector plate 26 on the power output end of the lower ejector mechanism power mechanism 25 to eject the ammonium sulfate blocky materials adhered to the top surface of the upper ejector plate 22 at the moment, the self weight of the ammonium sulfate blocky materials falls into the material storage box 7 right below the ammonium sulfate blocky materials through the gap between 2 groups of pressing forming mechanisms, namely the ejector gap 18 at the moment, the ammonium sulfate blocky materials are separated from the frame 1 through the opening 8 arranged at the bottom of the material storage box 7, and a user can place, its structural design is reasonable, and ammonium sulfate material treatment efficiency is high.

Claims (6)

1. The utility model provides a processing equipment for shaping graininess ammonium sulfate material after based on stirring which characterized in that: comprises a machine frame, a first guide rail, a second guide rail,

the feeding mechanism comprises a hopper arranged above the rack, and a material supporting plate is fixedly arranged on the inner wall of the rack;

the feeding mechanism comprises a material pipe connected to the bottom of the supporting plate, and a spiral feeding mechanism is mounted at the outlet end of the material pipe;

the pressing and forming mechanism comprises an electric telescopic cylinder fixedly arranged on the bottom of the material supporting plate, and a pressing component is fixedly arranged on the power output end of the electric telescopic cylinder;

the ejection mechanism comprises an ejection component arranged below the pressing component;

the material storage box is fixedly arranged on the bottom of the rack and below the material ejecting assembly, and an opening for discharging is formed in the bottom of the material storage box.

2. The processing equipment for forming the granular ammonium sulfate material after stirring as claimed in claim 1, wherein: the pressing assembly comprises a pressing plate, a connecting plate is fixedly mounted at the bottom of the pressing plate, a feeding box is fixedly mounted at the bottom of the connecting plate, a blanking groove is formed in the pressing plate, a feeding pipe is fixedly mounted between the bottom of the blanking groove and the connecting plate and the feeding box, a spring is fixedly mounted on the outer wall of the feeding pipe at the bottom of the connecting plate, the other end of the spring is fixedly provided with a pressing box used for plugging an outlet end of the feeding pipe, and material openings used for discharging materials are formed in the left side and the right side of the pressing box.

3. The processing equipment for forming the granular ammonium sulfate material after stirring as claimed in claim 1, wherein: the press forming mechanism be provided with 6 groups, 8 charging chutes have all been seted up on the pressure board in every group press forming mechanism, 2 adjacent groups press forming mechanism's interval is the same, 2 adjacent groups press forming mechanism's clearance between the clearance constitution liftout clearance, press 2 adjacent charging chutes on the board the interval the same.

4. The processing equipment for forming the granular ammonium sulfate material after stirring as claimed in claim 1, wherein: the material ejecting component comprises a material ejecting component,

the fixed plate is fixedly arranged on the inner wall of the rack and below the pressing component, and a pressing opening is formed in the fixed plate;

the upper ejection mechanism comprises an upper ejection mechanism mounting block fixedly mounted on the bottom of the rack, an upper ejection mechanism power mechanism is fixedly mounted on the upper ejection mechanism mounting block, an upper ejection plate is fixedly mounted on the power output end of the upper ejection mechanism power mechanism, and an upper ejection plate supporting block is fixedly mounted on the upper ejection plate;

and the lower ejection mechanism comprises a lower ejection mechanism mounting block fixedly mounted on the bottom of the frame, a lower ejection mechanism power mechanism is fixedly mounted on the lower ejection mechanism mounting block, a lower ejector plate is fixedly mounted on the power output end of the lower ejection mechanism power mechanism, and a lower ejector plate supporting block is fixedly mounted on the lower ejector plate.

5. The processing equipment for forming the granular ammonium sulfate material after stirring as claimed in claim 4, wherein: the upper ejection mechanism power mechanism and the lower ejection mechanism power mechanism adopt electric telescopic cylinders.

6. The processing equipment for forming the granular ammonium sulfate material after stirring as claimed in claim 5, wherein: the outer wall of the frame is also provided with a controller for controlling the electric telescopic cylinder, the spiral feeding mechanism, the upper ejection mechanism power mechanism and the lower ejection mechanism power mechanism to work, the electric telescopic cylinder, the spiral feeding mechanism, the upper ejection mechanism power mechanism and the lower ejection mechanism power mechanism are connected with an external power supply through wires, and the electric telescopic cylinder, the spiral feeding mechanism, the upper ejection mechanism power mechanism and the lower ejection mechanism power mechanism are connected with the controller through communication wires.

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