CN112093384B

CN112093384B - Organic chemical fertilizer production cooling conveying equipment

Info

Publication number: CN112093384B
Application number: CN202011001999.3A
Authority: CN
Inventors: 刘伟龙
Original assignee: Individual
Current assignee: QUWO WANXIANGHONG FERTILIZER Co.,Ltd.
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2022-11-01
Anticipated expiration: 2040-09-22
Also published as: CN112093384A

Abstract

The invention relates to cooling conveying equipment for organic fertilizer production, which comprises a base, a conveying device and a cooling device, wherein the conveying device is arranged on the upper surface of the base, and the cooling device is arranged above the conveying device. The invention can solve the following problems when organic fertilizer particles which are just produced are cooled and conveyed at present: carry out the in-process of carrying at the chemical fertilizer granule and cool down the processing and do not carry out quantitative transport cooling to the chemical fertilizer granule that carries, too much chemical fertilizer granule piles up together like this, leads to chemical fertilizer granule cooling rate slow easily, and the cooling effect is poor, collects the packing at the back, and the chemical fertilizer granule that does not cool down completely bonds, and is inconvenient to the use in later stage, does not carry out quantitative collection packing for the chemical fertilizer granule after the cooling is handled in addition, can reduce the production efficiency of chemical fertilizer granule like this.

Description

Organic chemical fertilizer production cooling conveying equipment

Technical Field

The invention relates to the field of fertilizer production, in particular to cooling and conveying equipment for organic fertilizer production.

Background

The organic substances are mainly processed organic fertilizers (such as livestock and poultry manure, municipal waste organic matters, sludge, straws, sawdust, food processing waste and the like), substances containing organic substances (grass peat, weathered coal, lignite, humic acid and the like), and substances added with microbial agents and stimulating growth, which are called organic active fertilizers or biological slow release fertilizers. When organic fertilizer is produced, most of the organic fertilizer is produced into particles, and the organic fertilizer needs to be cooled after being produced into particles, because chemical activity of chemical fertilizer particles with too high temperature is higher, the chemical fertilizer particles are easy to lose fertilizer efficiency.

At present, the organic fertilizer particles which are just produced are cooled and conveyed, and the following problems exist: carry out the in-process of carrying at the chemical fertilizer granule and cool down the processing and do not carry out quantitative transport cooling to the chemical fertilizer granule that carries, too much chemical fertilizer granule piles up together like this, leads to chemical fertilizer granule cooling rate slow easily, and the cooling effect is poor, collects the packing at the back, and the chemical fertilizer granule that does not cool down completely bonds, and is inconvenient to the use in later stage, does not carry out quantitative collection packing for the chemical fertilizer granule after the cooling is handled in addition, can reduce the production efficiency of chemical fertilizer granule like this.

Disclosure of Invention

The invention aims to provide cooling conveying equipment for organic fertilizer production, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a cooling conveying device for organic fertilizer production comprises a base, a conveying device and a cooling device, wherein the conveying device is arranged on the upper surface of the base, and the cooling device is arranged above the conveying device; wherein:

the material conveying device comprises a material conveying plate, a material conveying roller, a material conveying belt, a material conveying push plate, material conveying support plates, a material conveying shaft lever and a slow descending branch chain, wherein the material conveying plate is arranged in the middle of the upper surface of the base, the material conveying roller is symmetrically arranged at two ends of the material conveying plate, the material conveying belt is arranged on the material conveying roller, the material conveying push plate is uniformly arranged on the material conveying belt, the material conveying support plates are arranged at one ends of the material conveying plate, material conveying grooves are formed in the material conveying support plates, the material conveying shaft lever is uniformly arranged in the material conveying grooves, the slow descending branch chain is uniformly arranged on the material conveying shaft lever, and the cooling device is connected with the material conveying shaft lever through belt transmission;

the cooling device comprises a cooling frame body, driving branch chains, reciprocating branch chains, a material placing unit, cooling grooves, cooling shaft rods and cooling dial wheels, wherein the cooling frame body is arranged on the upper surface of a base, the driving branch chains are arranged in the cooling frame body, a plurality of reciprocating branch chains are uniformly arranged between the driving branch chains, the reciprocating branch chains are arranged in a stepped manner along the length direction of the cooling frame body and are sequentially reduced from left to right, the material placing unit is arranged on the reciprocating branch chain at the highest position of the left end of the driving branch chain, the cooling grooves are arranged from the second reciprocating branch chain from left to right, a plurality of ventilation holes are formed in the bottom plate of the cooling grooves, the cooling shaft rods are uniformly arranged in the cooling grooves along the length direction of the cooling grooves, a cooling motor is arranged on the outer wall of one side of each cooling groove body, one end of one cooling shaft rod is connected with the output end of the cooling motor in a gear meshing manner, a plurality of cooling dial wheels are uniformly arranged on the cooling shaft rods in a gear meshing manner, the adjacent cooling shaft rods are arranged in a staggered manner, and a fan is arranged on the left side of the cooling frame body;

the reciprocating branched chain comprises reciprocating frame bodies, reciprocating chutes, reciprocating sliding plates, reciprocating shaft rods and reciprocating gears, wherein a plurality of reciprocating frame bodies are sequentially arranged on the upper surface of the base from left to right, the reciprocating chutes are symmetrically formed in two ends of each reciprocating frame body, the reciprocating sliding plates are slidably arranged in the reciprocating chutes, the lower end surfaces of the cooling tank bodies are connected with the upper end surfaces of the reciprocating sliding plates, the reciprocating shaft rods are arranged between two ends inside the reciprocating frame bodies and between the reciprocating sliding plates, the two reciprocating shaft rods are positioned in the same vertical direction, the reciprocating gears are arranged on the reciprocating shaft rods, the reciprocating gears on the two reciprocating shaft rods are meshed and connected, and the reciprocating gears are eccentric gears;

the driving branched chain comprises a driving motor, driving rollers, a driving belt, driving racks and a driving gear, wherein the driving motor is arranged on the side wall of the reciprocating branched chain at the leftmost end of the cooling frame body, the driving rollers are symmetrically arranged at two ends of the reciprocating branched chain at the leftmost end and the rightmost end of the cooling frame body, the driving rollers at the same side are connected through the driving belt, the output end of the driving motor is connected with the driving roller at the leftmost end, the driving belt is divided into two driving racks, a plurality of driving racks are uniformly arranged between the two driving racks, the driving gears are symmetrically arranged at two ends of the reciprocating branched chain, the driving racks can be meshed and connected when being positioned below the driving gears, and the driving racks are not in contact connection when being positioned above the driving gears;

the blowing unit includes blowing cell body, blowing driving lever, blowing thumb wheel, blowing motor and ration subassembly, has seted up a plurality of ventilation hole on the blowing cell body bottom plate, has set gradually the blowing driving lever in the blowing cell body, connects through chain drive between the blowing driving lever one end, evenly is provided with the blowing thumb wheel on the blowing driving lever, and blowing cell body lower surface is provided with the blowing motor, connects through chain drive between the one end of blowing motor and one of them blowing driving lever, and blowing cell body right-hand member is provided with the ration subassembly.

As a further scheme of the invention: the conveying plate is characterized in that the upper surface of the conveying plate is uniformly provided with a conveying channel, the cross section of the conveying channel is semicircular, the cross section of the conveying push plate is semicircular, and the conveying push plate is in matched contact with the conveying channel.

As a further scheme of the invention: the slow descending branch chain comprises a slow descending chute, a slow descending slide block and a slow descending support plate, the slow descending chute is uniformly arranged on the conveying shaft rod, the slow descending slide block is arranged in the slow descending chute in a sliding mode through a slow descending spring, the cross sections of the slow descending chute and the slow descending slide block are arc-shaped, and the slow descending support plate is arranged on the slow descending slide block.

As a further scheme of the invention: spacing slide is installed to the symmetry around the reciprocal framework right flank, slidable mounting has spacing slider in the spacing slide, has evenly seted up the spacing hole of a plurality of on the spacing slide lateral wall, can insert the spacer pin in the spacing hole, there is spacing branch reciprocating slide up end through spring slidable mounting, hinged joint is passed through on blowing cell body lower surface and cooling cell body lower surface and the spacing branch, connect through spacing connecting rod between blowing cell body lower surface and cooling cell body lower surface and the spacing slider.

As a further scheme of the invention: all slidable mounting has the striker plate on cooling cell body and blowing cell body opposite face and between the opposite face of adjacent cooling cell body, and the striker plate can move along with cooling cell body or blowing cell body together.

As a further scheme of the invention: the discharging deflector rod is an irregular-shaped deflector rod formed by fixedly connecting a plurality of isometric circular rods and a plurality of isometric straight connecting rods.

As a further scheme of the invention: the ration subassembly includes the ration axostylus axostyle, the ration driving lever, quantitative push rod, the ration kelly, ration branch and ration baffle, blowing cell body both ends face right-hand member symmetry is provided with the ration axostylus axostyle, be provided with ration driving lever and quantitative push rod on the ration axostylus axostyle respectively, the ration driving lever is located the inboard and the right angle between the two of quantitative push rod, it has the ration kelly to be located the right-hand slidable mounting of ration axostylus axostyle, but the contact of ration driving lever intermittent type and ration kelly lower extreme, but quantitative push rod intermittent type and the contact of ration kelly middle part, be connected with ration branch between the ration kelly upper end, install the ration baffle on the ration branch, sliding connection between blowing cell body right-hand member and the ration baffle.

Compared with the prior art, the invention has the following advantages:

can solve the following problems when organic fertilizer particles which are just produced are cooled and conveyed at present: the fertilizer particles are cooled in the conveying process, and the fertilizer particles are not conveyed quantitatively, so that too many fertilizer particles are stacked together, the fertilizer particles are easy to cool slowly, the cooling effect is poor, the fertilizer particles are collected and packaged later, the fertilizer particles which are not cooled completely are bonded, the fertilizer particles are inconvenient to use in the later period, and the fertilizer particles which are not cooled are collected and packaged quantitatively, so that the production efficiency of the fertilizer particles is reduced;

when the device is used for cooling and conveying organic fertilizer particles which are just produced, the quantitative component is arranged in the feeding unit, so that the quantitative conveying can be realized when the fertilizer particles are conveyed downwards, the subsequent cooling treatment of the fertilizer particles can be more sufficient, the fertilizer particles are subjected to different stirring when being subjected to the cooling treatment, the cooling effect of the fertilizer particles is effectively improved, and the quantitative pushing device is also arranged on the conveying device, so that the fertilizer particles are also subjected to the quantitative conveying when being collected and packaged, and the integral production efficiency of the fertilizer particles is effectively improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic perspective view of the discharge driving lever and the discharge driving wheel of the present invention;

FIG. 5 is a schematic representation of the driving chain of the present invention;

FIG. 6 is a perspective view of the dosing assembly of the present invention;

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 6.

A cooling conveying device for organic fertilizer production comprises a base 1, a conveying device 2 and a cooling device 3, wherein the conveying device 2 is arranged on the upper surface of the base 1, and the cooling device 3 is arranged above the conveying device 2; wherein:

the material conveying device 2 comprises a material conveying plate 20, a material conveying roller 21, a material conveying belt 22, a material conveying push plate 23, a material conveying support plate 24, a material conveying shaft rod 25 and slow descending branch chains 26, wherein the material conveying plate 20 is arranged in the middle of the upper surface of the base 1, the material conveying rollers 21 are symmetrically arranged at two ends of the material conveying plate 20, the material conveying belt 22 is arranged on the material conveying roller 21, the material conveying push plate 23 is uniformly arranged on the material conveying belt 22, the material conveying support plate 24 is arranged at one end of the material conveying plate 20, material conveying grooves are formed in the material conveying support plate 24, the material conveying shaft rod 25 is uniformly arranged in the material conveying grooves, the slow descending branch chains 26 are uniformly arranged on the material conveying shaft rod 25, and the cooling device 3 is connected with the material conveying shaft rod 25 through belt transmission; during specific work, fertilizer particles cooled by the cooling device 3 firstly pass through the material conveying support plate 24, then the slowly-falling branch chains 26 enable the fertilizer particles to slowly roll down onto the material conveying plate 20, then the material conveying roller 21 drives the material conveying belt 22 to move, and the material conveying push plate 23 on the clinker belt 22 can push the fertilizer particles on the material conveying plate 20 to the other end of the material conveying plate 20 to be collected and packaged.

The upper surface of the material conveying plate 20 is uniformly provided with a conveying channel, the cross section of the conveying channel is semicircular, the cross section of the material conveying push plate 23 is semicircular, and the material conveying push plate 23 is in matched contact with the conveying channel; during specific work, the material conveying push plate 23 is matched with the conveying channel, fertilizer particles falling on the material conveying plate 20 in batches can be pushed in an equal amount to the other end of the material conveying plate 20 in batches and then collected and packaged respectively, and therefore production and packaging of the fertilizer are more efficient.

The slow descending branch chain 26 comprises a slow descending chute 260, a slow descending slide block 261 and a slow descending support plate 262, the slow descending chute 260 is uniformly arranged on the material conveying shaft rod 25, the slow descending slide block 261 is slidably mounted in the slow descending chute 260 through a slow descending spring, the cross sections of the slow descending chute 260 and the slow descending slide block 261 are both arc-shaped, and the slow descending support plate 262 is mounted on the slow descending slide block 261; during specific work, the chemical fertilizer granule can fall earlier on slowly falling extension board 262, wait to the chemical fertilizer granule and accumulate certain volume after slowly falling extension board 262, slowly fall slider 261 just can remove in slowly falling spout 260 and make slowly falling extension board 262 can rotate round defeated material axostylus axostyle 25, thereby roll progressively the chemical fertilizer granule to defeated material board 20 on, can avoid the chemical fertilizer granule directly to roll to preventing on defeated material board 20 that the chemical fertilizer granule leads to the breakage because the impact striking, can also further improve the effect of cooling to the chemical fertilizer granule.

The cooling device 3 comprises a cooling frame body 30, driving branch chains 31, reciprocating branch chains 32, discharging units 33, cooling grooves 34, a cooling shaft rod 35 and a cooling thumb wheel 36, wherein the cooling frame body 30 is arranged on the upper surface of the base 1, the driving branch chains 31 are arranged in the cooling frame body 30, a plurality of reciprocating branch chains 32 are uniformly arranged between the driving branch chains 31, the reciprocating branch chains 32 are arranged in a stepped manner along the length direction of the cooling frame body 30 and are sequentially reduced from left to right, the discharging units 33 are arranged on the reciprocating branch chains 32 at the highest position of the left end of the driving branch chains 31, the cooling grooves 34 are formed from the second reciprocating branch chains 32 from left to right, a plurality of vent holes are formed in the bottom plate of each cooling groove 34, the cooling shaft rod 35 is uniformly arranged in the cooling groove 34 along the length direction, a cooling motor is arranged on the outer wall of one side of each cooling groove 34, one end of each cooling shaft rod 35 is connected with the output end of the cooling motor in a gear meshing manner, one end of each cooling shaft rod 35 is in gear meshing transmission manner, a plurality of cooling thumb wheels 36 are uniformly arranged on each shaft rod 35, a plurality of cooling grooves are arranged on each cooling groove rods, the cooling grooves 35, a plurality of cooling thumb wheel 36 are arranged between adjacent thumb wheels arranged in a staggered manner, and a fan is arranged on the left side of the cooling frame body 30; during specific work, drive branch chain 32 can take reciprocal branch chain 32 to carry out up-and-down reciprocating motion in cooling frame body 30, make blowing unit 33 and cooling cell body 34 reciprocate, make the chemical fertilizer granule can roll gradually and fall to next grade on, the cooling motor in the cooling cell body 34 can take cooling axostylus axostyle 35 to rotate in addition, make cooling thumb wheel 36 carry out the stirring that does not stop to the chemical fertilizer granule, in addition the effect of fan, make the cooling that the chemical fertilizer granule can be quick air-dry.

The driving branched chain 31 comprises a driving motor 310, a driving roller 311, a driving belt 312, driving racks 313 and a driving gear 314, the driving motor 310 is arranged on the side wall of the reciprocating branched chain 32 at the leftmost end of the cooling frame 30, the driving rollers 311 are symmetrically arranged at two ends of the reciprocating branched chain 32 at the leftmost end and the rightmost end of the cooling frame 30, the driving rollers 311 at the same side are connected through the driving belt 312, the output end of the driving motor 310 is connected with the driving roller 311 at the leftmost end, the driving belt 312 is divided into two belts, a plurality of driving racks 313 are uniformly arranged between the two belts, the driving gears 314 are symmetrically arranged at two ends of the reciprocating branched chain 32, the driving racks 313 can be meshed and connected when being positioned below the driving gear 314, and the driving racks 313 are not in contact connection when being positioned above the driving gear 314; during specific work, the driving motor 310 rotates to drive the driving roller 311 to rotate, the driving roller 311 drives the driving belt 312 to move, the driving belt 312 drives the driving rack 313 to be intermittently meshed with the driving gear 314, and due to the installation position relationship between the driving rack 313 and the driving gear 314, the driving belt 312 can be meshed with the driving gear once after moving for a circle, so that the adjacent reciprocating branched chains 32 do not reciprocate simultaneously, but one reciprocating branched chain 32 reciprocates at intervals, fertilizer particles can enter the cooling groove body 34 from the feeding unit 33 in order, and then enter the next cooling groove body 34 from the previous cooling groove body 34, and therefore the fertilizer particles can be cooled more fully.

The reciprocating branched chain 32 comprises reciprocating frame bodies 320, reciprocating chutes 321, reciprocating sliding plates 322, reciprocating shaft rods 323 and reciprocating gears 324, the plurality of reciprocating frame bodies 320 are sequentially installed on the upper surface of the base 1 from left to right, the reciprocating chutes 321 are symmetrically arranged at two ends of the reciprocating frame bodies 320, the reciprocating sliding plates 322 are slidably installed in the reciprocating chutes 321, the lower end surface of the cooling tank body 34 is connected with the upper end surface of the reciprocating sliding plates 322, the reciprocating shaft rods 323 are arranged between two ends in the reciprocating frame bodies 320 and between the reciprocating sliding plates 322, the two reciprocating shaft rods 323 are located in the same vertical direction, the reciprocating gears 324 are installed on the reciprocating shaft rods 323, the reciprocating gears 324 on the two reciprocating shaft rods 323 are meshed and connected, and the reciprocating gears 324 are eccentric gears; during specific work, the driving rack 313 is intermittently meshed with the driving gear 314, then the reciprocating shaft 323 drives the reciprocating gear 324 to rotate, the reciprocating gear 324 is an eccentric gear, so that when the highest point of contact of the two reciprocating gears 324 is meshed, the reciprocating sliding plate 322 can ascend in the reciprocating chute 320, and when the lowest point of the two reciprocating gears 324 is meshed, the reciprocating sliding plate 322 descends in the reciprocating chute 320, so that the reciprocating sliding plate 322 drives the discharging unit 33 and the cooling groove body 34 to reciprocate up and down.

The front and the back of the right side face of the reciprocating frame body 320 are symmetrically provided with limiting slide ways 3200, limiting sliding blocks 3201 are arranged in the limiting slide ways 3200 in a sliding mode, a plurality of limiting holes 3202 are uniformly formed in the side wall of each limiting slide way 3200, limiting pins 3203 can be inserted into the limiting holes 3202, limiting support rods 3204 are arranged on the upper end face of each reciprocating slide plate 322 in a sliding mode through springs, the lower surface of the material placing groove body 330 and the lower surface of the cooling groove body 34 are connected with the upper ends of the limiting support rods 3204 through hinges, and the lower surface of the material placing groove body 330 and the lower surface of the cooling groove body 34 are connected with the limiting sliding blocks 3201 through limiting connecting rods; during specific work, when blowing unit 33 and cooling cell body 34 carry out up-and-down reciprocating motion along with reciprocating slide 322, make spacing slider 3201 reciprocate at spacing slide 3200 through spacing connecting rod, insert spacer 3203 in spacing hole 3202 of co-altitude, spacing slider 3201's the position of shifting up can be restricted, thereby make blowing unit 33 and cooling cell body distance when moving up 34 restricted, then blowing unit 33 and cooling cell body just can appear the rotation of certain angle to 34, the roll that the chemical fertilizer granule can be better falls to next grade like this.

The discharging unit 33 comprises a discharging groove body 330, a discharging driving lever 331, a discharging driving wheel 332, a discharging motor 333 and a quantifying assembly 334, a plurality of vent holes are formed in the bottom plate of the discharging groove body 330, the discharging driving lever 331 is sequentially arranged in the discharging groove body 330, one end of the discharging driving lever 331 is connected with one end of the discharging driving lever 331 through chain transmission, the discharging driving wheel 332 is uniformly arranged on the discharging driving lever 331, the discharging motor 333 is arranged on the lower surface of the discharging groove body 330, the discharging motor 333 is connected with one end of one of the discharging driving lever 331 through chain transmission, and the quantifying assembly 334 is arranged at the right end of the discharging groove body 330; during specific work, the discharging motor 333 drives the discharging driving lever 331 to rotate, the discharging driving lever 331 drives the discharging driving wheel 332 to rotate to stir the fertilizer particles in the discharging groove body 330 to prevent the fertilizer particles at a higher temperature from being adhered, and when the fertilizer particles need to be conveyed into the cooling groove body 34, the quantifying component 334 can control the amount of the fertilizer particles entering the cooling groove body 34 to prevent uneven cooling caused by too many fertilizer particles entering at one time.

The discharging deflector rod 331 is an irregular deflector rod formed by fixedly connecting a plurality of isometric round rods and a plurality of isometric straight connecting rods; during specific work, the irregularity of the discharging driving lever 331 enables the discharging driving wheel 332 to continuously stir the fertilizer particles in the discharging groove body 330 from top to bottom and from left to right, so as to prevent the fertilizer particles still at a higher temperature from being adhered, and further play a role in heat dissipation.

The quantitative assembly 334 comprises a quantitative shaft 3340, a quantitative deflector 3341, a quantitative push rod 3342, a quantitative clamping rod 3343, a quantitative support rod 3344 and a quantitative baffle 3345, the right ends of the two end surfaces of the discharge tank 330 are symmetrically provided with the quantitative shaft 3340, the quantitative shaft 3340 is respectively provided with the quantitative deflector 3341 and the quantitative push rod 3342, the quantitative deflector 3341 is positioned on the inner side of the quantitative push rod 3342, the angle between the quantitative deflector 3341 and the quantitative push rod 3342 is a right angle, the quantitative clamping rod 3343 is slidably mounted on the right side of the quantitative shaft 3340, the quantitative deflector 3341 can be intermittently contacted with the lower end of the quantitative clamping rod 3343, the quantitative push rod 3342 can be intermittently contacted with the middle part of the quantitative clamping rod 3343, the quantitative support rod 3344 is connected between the upper ends of the quantitative clamping rods 3343, the quantitative support rod 3345 is mounted on the quantitative support rod 3344, and the right end of the discharge tank 330 is slidably connected with the quantitative baffle 3345; during operation specifically, quantitative axostylus axostyle 3340's rotation makes ration driving lever 3341 and quantitative push rod 3342 follow to rotate, then quantitative push rod 3342 can jack-up ration kelly 3343 when rotating, make ration branch 3344 pull-up ration baffle 3345, then the fertilizer granule can get into in the next grade, rotate the lower extreme that can stir ration kelly 3343 as ration driving lever 3341, make ration push rod 3342 break away from with ration kelly 3343, then ration baffle 3345 falls, make the fertilizer granule no longer get into the next grade, thereby realize the ration transport of fertilizer granule.

The baffle plates 340 are arranged on the opposite surfaces of the cooling groove bodies 34 and the discharge groove body 330 and between the opposite surfaces of the adjacent cooling groove bodies 34 in a sliding manner, and the baffle plates 340 can move along with the cooling groove bodies 34 or the discharge groove bodies 330; during specific work, when the cooling tank body 34 and the discharge tank body 330 reciprocate, the striker plate 340 can prevent the fertilizer particles from rolling out of the tank body when the two rotate for a certain angle.

The working principle of the invention is as follows:

the fertilizer granule ration that will just produce is placed in blowing unit 33, then starts drive branch chain 31 and takes reciprocal branch chain 32 to carry out reciprocating motion from top to bottom for the fertilizer granule gets into the ration of ration subassembly 334 from blowing unit 33 and begins to cool down in getting into cooling tank 34 and handles, and the fertilizer granule that the cooling was handled is got into feeding device 2 and is gone into again cooling process, and the fertilizer granule is collected the packing by the ration afterwards.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides an organic fertilizer production cooling conveying equipment, includes base (1), feeding device (2) and heat sink (3), its characterized in that: a material conveying device (2) is arranged on the upper surface of the base (1), and a cooling device (3) is arranged above the material conveying device (2); wherein:

the material conveying device (2) comprises a material conveying plate (20), a material conveying roller (21), a material conveying belt (22), a material conveying push plate (23), material conveying support plates (24), material conveying shaft levers (25) and slow descending branch chains (26), wherein the material conveying plate (20) is arranged in the middle of the upper surface of the base (1), the material conveying rollers (21) are symmetrically arranged at two ends of the material conveying plate (20), the material conveying belt (22) is arranged on the material conveying roller (21), the material conveying push plate (23) is uniformly arranged on the material conveying belt (22), the material conveying support plates (24) are arranged at one ends of the material conveying plate (20), material conveying grooves are formed in the material conveying support plates (24), the material conveying shaft levers (25) are uniformly arranged in the material conveying grooves, the slow descending branch chains (26) are uniformly arranged on the material conveying shaft levers (25), and the cooling device (3) is connected with the material conveying shaft levers (25) through belt transmission;

the cooling device (3) comprises a cooling frame body (30), driving branch chains (31), reciprocating branch chains (32), a material placing unit (33), a cooling groove body (34), a cooling shaft lever (35) and a cooling thumb wheel (36), wherein the cooling frame body (30) is arranged on the upper surface of the base (1), the driving branch chains (31) are arranged in the cooling frame body (30), a plurality of reciprocating branch chains (32) are uniformly arranged between the driving branch chains (31), the reciprocating branch chains (32) are arranged in a stepped manner along the length direction of the cooling frame body (30) and are sequentially reduced from left to right, the material placing unit (33) is arranged on the reciprocating branch chain (32) at the highest position of the left end of the driving branch chain (31), the cooling groove body (34) is arranged from left to right, a plurality of vent holes are formed in the bottom plate of the cooling groove body (34), the cooling shaft lever (35) is uniformly arranged in the cooling groove body (34) along the length direction, a cooling motor is arranged on the outer wall of one side of the cooling groove body (34), one end of one cooling shaft lever (35) is connected with the output end of the cooling motor through gear engagement, one end of the cooling shaft lever (35) is in gear engagement transmission, a plurality of cooling dial wheels (36) are uniformly arranged on the cooling shaft lever (35), the shifting wheels on the adjacent cooling shaft levers (35) are arranged in a staggered manner, and a fan is arranged on the inner wall of the left side of the cooling frame body (30);

the driving branched chain (31) comprises a driving motor (310), driving rollers (311), a driving belt (312), driving racks (313) and a driving gear (314), the driving motor (310) is arranged on the side wall of the reciprocating branched chain (32) located at the leftmost end of the cooling frame body (30), the driving rollers (311) are symmetrically arranged at two ends of the reciprocating branched chain (32) located at the leftmost end and the rightmost end of the cooling frame body (30), the driving rollers (311) located at the same side are connected through the driving belt (312), the output end of the driving motor (310) is connected with the driving roller (311) located at the leftmost end, the driving belt (312) is divided into two parts, a plurality of driving racks (313) are uniformly arranged between the two parts, the driving gears (314) are symmetrically arranged at two ends of the reciprocating branched chain (32), the driving racks (313) can be meshed and connected when located below the driving gears (314), and the driving racks (313) are not in contact connection when located above the driving gears (314);

the reciprocating branched chain (32) comprises reciprocating frames (320), reciprocating chutes (321), reciprocating sliding plates (322), reciprocating shaft rods (323) and reciprocating gears (324), a plurality of reciprocating frames (320) are sequentially installed on the upper surface of the base (1) from left to right, the reciprocating chutes (321) are symmetrically formed in two ends of each reciprocating frame (320), the reciprocating sliding plates (322) are installed in the reciprocating chutes (321) in a sliding mode, the lower end face of the cooling groove body (34) is connected with the upper end face of each reciprocating sliding plate (322), the reciprocating shaft rods (323) are arranged between two ends in each reciprocating frame (320) and between the reciprocating sliding plates (322), the two reciprocating shaft rods (323) are located in the same vertical direction, the reciprocating gears (324) are installed on the reciprocating shaft rods (323), the reciprocating gears (324) on the two reciprocating shaft rods (323) are connected in a meshing mode, and the reciprocating gears (324) are eccentric gears;

the emptying unit (33) comprises an emptying tank body (330), an emptying driving lever (331), an emptying driving wheel (332), an emptying motor (333) and a quantitative component (334), a plurality of ventilation holes are formed in the bottom plate of the emptying tank body (330), the emptying driving lever (331) is sequentially arranged in the emptying tank body (330), one end of the emptying driving lever (331) is connected through chain transmission, the emptying driving wheel (332) is uniformly arranged on the emptying driving lever (331), the lower surface of the emptying tank body (330) is provided with the emptying motor (333), one end of the emptying motor (333) and one end of one of the emptying driving levers (331) are connected through chain transmission, and the quantitative component (334) is arranged at the right end of the emptying tank body (330).

2. The cooling and conveying equipment for organic fertilizer production according to claim 1, which is characterized in that: the material conveying plate is characterized in that the upper surface of the material conveying plate (20) is uniformly provided with a conveying channel, the cross section of the conveying channel is semicircular, the cross section of the material conveying push plate (23) is semicircular, and the material conveying push plate (23) is in matched contact with the conveying channel.

3. The cooling and conveying equipment for organic fertilizer production according to claim 1, which is characterized in that: slowly fall branch (26) including slowly falling spout (260), slowly fall slider (261) and slowly fall extension board (262), evenly be provided with slowly fall spout (260) on defeated material axostylus axostyle (25), slowly fall in spout (260) through slowly falling spring slidable mounting have slowly fall slider (261), slowly fall spout (260) and slowly fall slider (261) cross section and be the arc, slowly fall extension board (262) on falling slider (261) and install slowly.

4. The cooling and conveying equipment for organic fertilizer production according to claim 1, which is characterized in that: spacing slide (3200) is installed to the symmetry back before reciprocal framework (320) right flank, slidable mounting has spacing slider (3201) in spacing slide (3200), evenly seted up a plurality of spacing hole (3202) on spacing slide (3200) lateral wall, can insert spacer pin (3203) in spacing hole (3202), there are spacing branch (3204) reciprocating slide (322) up end through spring slidable mounting, hinged joint is passed through on blowing cell body (330) lower surface and cooling cell body (34) lower surface and spacing branch (3204), be connected through spacing connecting rod between blowing cell body (330) lower surface and cooling cell body (34) lower surface and spacing slider (3201).

5. The cooling and conveying equipment for organic fertilizer production according to claim 1, which is characterized in that: the baffle plates (340) are arranged on the opposite surfaces of the cooling tank bodies (34) and the discharge tank bodies (330) and between the opposite surfaces of the adjacent cooling tank bodies (34) in a sliding manner, and the baffle plates (340) can move along with the cooling tank bodies (34) or the discharge tank bodies (330).

6. The cooling and conveying equipment for organic fertilizer production according to claim 1, which is characterized in that: the discharging deflector rod (331) is an irregular deflector rod formed by fixedly connecting a plurality of isometric round rods and a plurality of isometric straight connecting rods.

7. The cooling conveying equipment for organic fertilizer production as claimed in claim 1, which is characterized in that: the quantitative assembly (334) comprises a quantitative shaft rod (3340), a quantitative deflector rod (3341), a quantitative push rod (3342), a quantitative clamping rod (3343), a quantitative support rod (3344) and a quantitative baffle (3345), the quantitative shaft rod (3340) is symmetrically arranged at the right end of the two end faces of the discharging groove body (330), the quantitative deflector rod (3341) and the quantitative push rod (3342) are respectively arranged on the quantitative shaft rod (3340), the quantitative deflector rod (3341) is positioned at the inner side of the quantitative push rod (3342), the angle between the quantitative deflector rod and the quantitative push rod is a right angle, the quantitative clamping rod (3343) is slidably arranged at the right side of the quantitative shaft rod (3340), the quantitative deflector rod (3341) can be intermittently contacted with the lower end of the quantitative clamping rod (3343), the quantitative push rod (3342) can be intermittently contacted with the middle of the quantitative clamping rod (3343), the quantitative support rod (3344) is connected between the upper end of the quantitative clamping rod (3343), the quantitative baffle (3345) is installed on the quantitative support rod (3344), and the discharging groove body (330) is slidably connected with the quantitative baffle (3345).