CN113503694A - Production, preparation and processing technology of amino acid organic fertilizer - Google Patents

Abstract

The invention relates to a production, preparation and processing technology of an amino acid organic fertilizer, which uses a production, preparation and processing device of the amino acid organic fertilizer, the production, preparation and processing device for the amino acid organic fertilizer comprises an installation bottom plate, supporting legs, supporting rods, a dust removal box, a feeding opening, a discharging barrel, a dust removal mechanism, a drying mechanism and a blanking mechanism, and can solve the problems that in the production, preparation and processing process of the amino acid organic fertilizer, it peels off to be difficult to disperse the amino acid fertilizer that has bonded, has reduced the effect that drops of impurity particles such as dust of adhesion on the amino acid fertilizer, is difficult to provide the constant temperature stoving operation of circumference for the amino acid fertilizer, also is difficult to drive accumulational amino acid fertilizer and vibrate and the upset, more is difficult to carry out secondary to the dust particle of adhesion on the amino acid fertilizer and peels off and sweep and carry out synchronous collection scheduling problem to the dust that drops and the dust that suspends.

Description

Production, preparation and processing technology of amino acid organic fertilizer

Technical Field

The invention relates to the technical field of fertilizer production, in particular to a production, preparation and processing technology of an amino acid organic fertilizer.

Background

Organic fertilizer, mainly derived from plants and/or animals, is a carbonaceous material applied to soil to provide plant nutrition as its main function. Is prepared from biological substances, animal and plant wastes and plant residues, eliminates toxic and harmful substances in the biological substances, and is rich in a large amount of beneficial substances, including: various organic acids, peptides and rich nutrient elements including nitrogen, phosphorus and potassium. The amino acid organic fertilizer is a fertilizer containing amino acid substances, and the amino acid exists in the fertilizer as the minimum molecule of protein, so that the amino acid organic fertilizer has the characteristic of being easily absorbed by crops; also has the functions of improving disease resistance of the fertilization objects and improving the quality of the fertilization crops.

The fertilization time of amino acid fertilizer need carry out continuous adjustment according to the growth cycle of plant, and amino acid fertilizer is in the in-process of production preparation, often can adsorb moisture and dust in the surrounding environment because expose in the air, this can cause rotten and the loss of amino acid fertilizer fertility, consequently, in the in-process of carrying out amino acid fertilizer bagging-off operation, need in advance to pile up the amino acid fertilizer of placing and carry out the dust removal drying process, in order to keep amino acid fertilizer's self quality, however, in the in-process of carrying out amino acid fertilizer dust removal drying operation, often can have following problem:

1. traditional amino acid fertilizer is at the in-process of dry dust removal operation, is difficult to disperse the amino acid fertilizer that has bonded and peels off, also is difficult to carry out even dispersion screening with accumulational amino acid fertilizer, has reduced the effect that drops of impurity particles such as dust of adhesion on amino acid fertilizer, and is difficult to carry out synchronous collection operation to the dust that drops and the dust of suspension, has reduced the operating efficiency of amino acid fertilizer dust removal edulcoration operation and the dust removal effect of dust removal.

2. Traditional amino acid fertilizer is at the stoving operation in-process, is difficult to provide the constant temperature stoving operation of circumference for the amino acid fertilizer, also is difficult to drive accumulational amino acid fertilizer and vibrates and overturn, has reduced the stoving effect of each floor amino acid fertilizer stoving operation, and it sweeps away to carry out secondary to the dust granule of adhesion on the amino acid fertilizer more difficult, has reduced the whole clean degree of amino acid fertilizer.

Disclosure of Invention

In order to solve the problems, the invention provides a production, preparation and processing technology of an amino acid organic fertilizer.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides an amino acid fertilizer production preparation processingequipment, it has used an amino acid fertilizer production preparation processingequipment, this amino acid fertilizer production preparation processingequipment includes mounting plate, supporting legs, bracing piece, dust removal case, pan feeding mouth, play feed cylinder, dust removal mechanism, stoving mechanism and blanking mechanism, and concrete technology is as follows when adopting above-mentioned amino acid fertilizer production preparation processingequipment to amino acid fertilizer production preparation processing operation:

s1, blanking and conveying: firstly, manually loading the amino acid organic fertilizer to be subjected to dust removal and drying operation into a dust removal box along a feeding port, and conveying the amino acid organic fertilizer through a dust removal mechanism;

s2, vibration dust removal: in the process of the step S1, the amino acid organic fertilizer in the conveying process is driven to vibrate by the dust removing mechanism, so that dust particles adhered to the amino acid organic fertilizer fall off;

s3, rotary drying: step S2, at the same time, the amino acid organic fertilizer is dried by the drying mechanism, and secondary vibration dust removal is carried out on the amino acid organic fertilizer in the drying process;

s4, collection and storage: in the process of the step 3, the blanking mechanism drives the drying mechanism to rotate obliquely, so that the amino acid organic fertilizer after drying and dust removal in the drying mechanism falls off, and then the amino acid organic fertilizer after drying and dust removal is collected and stored manually;

the utility model discloses a drying machine, including mounting plate, pan feeding mouth, feed cylinder, stoving mechanism, blanking mechanism, dust removal case, supporting legs, bracing piece, dust removal case, pan feeding mouth, feed cylinder, stoving mechanism, dust removal mechanism, blanking mechanism, dust removal case, feed cylinder, blanking mechanism, dust removal case, discharge cylinder.

The drying mechanism comprises flexible pipes, drying cylinders, drying rotating shafts, positioning rods, drying rotating rings, drying blocks, drying rods, discharge ports, synchronizing wheels, synchronizing belts, positioning frames, eccentric wheels and drying motors, the flexible pipes are installed on the discharge cylinders, the drying cylinders are installed on the flexible pipes, the drying rotating shafts are installed at the end parts of the drying cylinders through bearings, the synchronizing wheels are installed on the drying rotating shafts through splines, the synchronizing wheels on the front side and the rear side are connected through the synchronous belt in a transmission manner, the positioning frames are installed on the side walls of the drying cylinders, the drying motors are installed on one of the positioning frames through motor bases, the output shafts of the drying motors are connected with one of the drying rotating shafts through couplings, the eccentric wheels are installed on the drying rotating shafts on the same side of the drying motors through the splines, the eccentric wheels are located on the inner sides of the positioning frames, the discharge ports are installed on the lower sides of the drying cylinders far away from one end of the dust removal box, lie in evenly installing the multiunit locating lever along its circumference in the inboard stoving pivot of a stoving section of thick bamboo, the stoving change of looks isogenic structure is all installed jointly to the tip of the locating lever of the same group, and evenly install the stoving pole along its circumference between adjacent two sets of stoving changes, the inside wall of a stoving section of thick bamboo evenly installs multiunit stoving piece along its circumference, and the stoving piece in the same group all lies in between adjacent two sets of stoving change, the stoving piece that sets up through circumference can make the air of each region in the section of thick bamboo of drying be in even constant temperature state, the effect of circumferential direction through the stoving pole makes the continuous upset of accumulational amino acid fertilizer, inertia when rotating through the eccentric wheel can make the amino acid fertilizer in the section of thick bamboo of drying carry out synchronous reciprocating vibration, promote the stoving effect of each layer amino acid fertilizer stoving operation.

Further, the discharge gate in crisscross evenly install the screening pole from top to bottom, and evenly be provided with the brush along its circumference on the lateral wall of screening pole, the brush that sets up on the screening pole can be swept the brush clearance to amino acid fertilizer at the in-process that passes the discharge gate, promotes amino acid fertilizer's whole clean degree.

Further, the dust removing mechanism comprises an air pump, an adsorption pipe, a dust removing bottom plate, a conveying rotating shaft, a conveying belt, a conveying motor, a dust removing plate, a ring cavity, a dust removing pipe and a hose, wherein the dust removing bottom plate is installed at the lower end of the inner wall of the dust removing box, the ring cavity is symmetrically installed on the dust removing bottom plate and is communicated with the discharge cylinder, the conveying rotating shafts are symmetrically installed in the dust removing box and the discharge cylinder through bearings, the conveying rotating shaft on the dust removing box is in transmission connection with the conveying rotating shaft in the discharge cylinder through the conveying belt, the conveying motor is installed on the outer wall of the dust removing box through a motor base, an output shaft of the conveying motor is connected with the conveying rotating shaft on the dust removing box through a coupler, the dust removing plate is installed in the dust removing box and is positioned at the inner side of an annular area of the conveying belt, the dust removing pipe is evenly installed at the upper end of the ring cavity, the adsorption pipe is installed at the upper end of the drying cylinder, the air pump is installed at the upper end of the drying cylinder, the adsorption tube is located the top of discharge gate and the adsorption tube is linked together with the air pump, is connected with the hose on the air pump, and the other end of hose is linked together with dust removal board and dust removal pipe respectively, collects the dust that suspends in the annular cavity through the intercommunication effect of hose and dust removal pipe and adsorbs, further promotes the operation effect of amino acid fertilizer dust removal edulcoration operation.

Further, conveyer belt outside lateral wall on evenly be provided with the striker plate, evenly be provided with the screening net on the conveyer belt, and the screening net all is located between two adjacent striker plates, evenly install the ball through normal running fit's mode on the inboard lateral wall of conveyer belt, the vibrating mass is evenly installed to the up end of dust removal board, and the ball supports and leans on the vibrating mass, the striker plate that sets up on the conveyer belt can carry out even dispersion with accumulational amino acid fertilizer, strengthens the operation effect of follow-up amino acid fertilizer dust removal edulcoration operation.

Furthermore, dust removal board, dust removal pipe and adsorption tube in all be provided with the filter pulp that is used for adsorbing the dust particulate matter, can realize carrying out automatic collection to the dust that produces in the drying process through the adsorption of filter pulp.

Further, dust removal incasement wall upper end install the direction pivot through the bearing, install the deflector through the spline in the direction pivot, the deflector slope is installed at the dust removal incasement and the lower extreme of deflector is connected through the outer wall upper end of guide spring with the annular chamber, the up end cross of deflector is provided with the multiunit guide bar, the deflector that sets up through the slope can strengthen the landing effect of amino acid fertilizer, the guide spring of setting can provide certain vibration effect for the deflector when supporting the deflector bottom, avoid the amino acid fertilizer to take place to pile up the phenomenon of jam on the deflector.

Further, the blanking mechanism comprises a hinged support, a blanking cylinder, a fixed plate, a blanking rotating shaft, a blanking rotating rod, a telescopic rod, a bearing frame, a blanking spring and a bearing seat, the hinged support is installed in the middle of the lower end of the dust removing box, the blanking cylinder is installed on the hinged support in a rotating fit mode, the fixed plate is symmetrically installed at the front and back of the lower end of the dust removing box close to the edge position, the blanking rotating shaft is installed between the fixed plates through a bearing, the blanking rotating rod is installed in the middle of the blanking rotating shaft through a spline, the rotating end of the blanking rotating rod is connected with an output shaft of the blanking cylinder in a rotating fit mode, the telescopic rods are symmetrically installed at two ends of the blanking rotating shaft through splines, the bearing frame is installed at the moving end of the telescopic rod, the bearing frame is located below the drying cylinder and connected with the drying cylinder through the blanking spring, the bearing seat is installed on the upper end face of the installation bottom plate, and the bearing seat is positioned below the bearing frame, the passing speed of the amino acid organic fertilizer in the drying cylinder can be increased by downwards inclining the tail end of the drying cylinder, and the reciprocating vibration effect of the subsequent drying cylinder can be further enhanced by the elastic support of the blanking spring.

Furthermore, the telescopic link form through the concatenation of sliding fit's mode by two sections secant planes are regular polygon's slide bar, and be connected through expanding spring between two sections slide bars, the stiff end of telescopic link is installed in the blanking pivot through the spline, the removal end of telescopic link is installed on the bearing frame through the spline.

Furthermore, the bearing frame be L shape structure, the electro-magnet is installed to the lower extreme symmetry of bearing frame, is provided with the inclined plane that highly inclines gradually downwards from the left side to the right side on the bearing seat, and is provided with the magnet hole with electro-magnet matched with on the inclined plane.

The invention has the beneficial effects that:

1. according to the invention, the sliding effect of the amino acid organic fertilizer can be enhanced through the guide plate which is obliquely arranged, the guide spring can support the bottom of the guide plate and provide a certain vibration effect for the guide plate, the phenomenon that the amino acid organic fertilizer is accumulated and blocked on the guide plate is avoided, the guide rod arranged on the guide plate enables the bonded amino acid organic fertilizer to uniformly disperse and slide through the limiting and blocking effect of the guide rod, and the operation effect of the subsequent dust removal and drying operation of the amino acid organic fertilizer is improved.

2. According to the dust removal mechanism provided by the invention, the striker plate arranged on the conveying belt can uniformly disperse the accumulated amino acid organic fertilizer, the operation effect of the subsequent amino acid organic fertilizer dust removal and impurity removal operation is enhanced, the amino acid organic fertilizer on the conveying belt can vibrate through the intermittent abutting action between the balls and the vibrating block, the arranged screening net can screen and filter the amino acid organic fertilizer in the vibrating conveying process, the dropping effect of impurity particles such as dust adhered to the amino acid organic fertilizer is enhanced, the dust suspended in the annular cavity is collected and adsorbed through the communication action of the hose and the dust removal pipe, and the operation effect of the amino acid organic fertilizer dust removal and impurity removal operation is further improved.

3. According to the drying mechanism provided by the invention, the air in each area in the drying cylinder can be in a uniform constant temperature state through the circumferentially arranged drying blocks, the accumulated amino acid organic fertilizer is continuously turned over through the circumferential rotation effect of the drying rod, the amino acid organic fertilizer in the drying cylinder can synchronously vibrate in a reciprocating manner through the inertia of the eccentric wheel during rotation, the drying effect of the drying operation of the amino acid organic fertilizer on each layer is improved, meanwhile, dust particles adhered to the amino acid organic fertilizer are subjected to secondary vibration and fall off, the hair brush arranged on the screening rod can sweep and clean the amino acid organic fertilizer in the process that the amino acid organic fertilizer passes through the discharge hole, and the overall cleaning degree of the amino acid organic fertilizer is improved.

4. According to the blanking mechanism provided by the invention, the passing speed of the amino acid organic fertilizer in the drying cylinder can be increased by downwards inclining the tail end of the drying cylinder, and meanwhile, the reciprocating vibration effect of the subsequent drying cylinder can be further enhanced through the elastic support of the blanking spring, so that the operation effect of dedusting and impurity removal of the amino acid organic fertilizer is further enhanced.

Drawings

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

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a front view of the overall structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is an enlarged schematic view taken at A of FIG. 3 in accordance with the present invention;

FIG. 5 is an enlarged schematic view at B of FIG. 3 of the present invention;

FIG. 6 is an enlarged schematic view at C of FIG. 3 of the present invention;

FIG. 7 is a schematic view of a partial perspective structure of the dust removing mechanism of the present invention;

FIG. 8 is an enlarged schematic view taken at D of FIG. 7 in accordance with the present invention;

FIG. 9 is a schematic view of a partial three-dimensional structure of the blanking mechanism of the present invention;

FIG. 10 is a schematic view of a first partial perspective view of the drying mechanism of the present invention;

fig. 11 is a schematic view of a second partial perspective structure of the drying mechanism of the present invention.

In the figure: 1. mounting a bottom plate; 2. supporting legs; 3. a support bar; 4. a dust removal box; 5. a feeding port; 6. a discharging barrel; 7. a dust removal mechanism; 8. a drying mechanism; 9. a blanking mechanism; 7a, an air pump; 7b, an adsorption tube; 7c, a dust removal bottom plate; 7d, conveying rotating shafts; 7e, a conveyer belt; 7f, a conveying motor; 7g, a dust removal plate; 7h, a ring cavity; 7j, a dust removal pipe; 7k, a hose; 7m, filter cotton; 7e3, balls; 7e2, screening net; 7e1, striker plate; 4a12, guide bar; 4a, a guide rotating shaft; 4a11, guide spring; 8a, a flexible tube; 8b, drying the cylinder; 8c, drying the rotating shaft; 8d, positioning a rod; 8e, drying the rotary ring; 8f, drying the blocks; 8g, drying the rods; 8h, discharging; 8j, a synchronizing wheel; 8k, a synchronous belt; 8m, a positioning frame; 8n, an eccentric wheel; 8p, drying the motor; 9a, a hinged support; 9b, a blanking cylinder; 9c, fixing plates; 9d, blanking rotating shafts; 9e, blanking rotating rods; 9f, a telescopic rod; 9g, a bearing frame; 9h, blanking a spring; 9j, a bearing seat; 9g1, electromagnet; 9j1, magnet hole.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments, it being understood that the specific embodiments described herein are only for the purpose of explaining the present invention and are not intended to limit the present invention.

Referring to fig. 1 and 2, an amino acid organic fertilizer production, preparation and processing technology uses an amino acid organic fertilizer production, preparation and processing device, and the amino acid organic fertilizer production, preparation and processing device comprises an installation bottom plate 1, supporting legs 2, a supporting rod 3, a dust removal box 4, a feeding port 5, a discharging barrel 6, a dust removal mechanism 7, a drying mechanism 8 and a blanking mechanism 9.

Referring to fig. 2, mounting plate 1 under the terminal surface corner all around all install supporting legs 2, bracing piece 3 is evenly installed to mounting plate 1's up end, dust removal case 4 is installed jointly to bracing piece 3's upper end, pan feeding mouth 5 is installed to dust removal case 4's upper end, feed cylinder 6 is installed to the front and back symmetry on the lower extreme lateral wall of dust removal case 4, install stoving mechanism 8 jointly between the feed cylinder 6, install dust removal mechanism 7 in the dust removal case 4, blanking mechanism 9 is installed to the lower extreme of dust removal case 4.

Referring to fig. 3, 5, 8 and 7, the dust removing mechanism 7 includes an air pump 7a, an adsorption pipe 7b, a dust removing bottom plate 7c, a conveying rotating shaft 7d, a conveying belt 7e, a conveying motor 7f, a dust removing plate 7g, an annular cavity 7h, a dust removing pipe 7j and a hose 7k, the dust removing bottom plate 7c is installed at the lower end of the inner wall of the dust removing box 4, the annular cavity 7h is symmetrically installed on the dust removing bottom plate 7c, the annular cavity 7h is communicated with the discharging barrel 6, the conveying rotating shafts 7d are symmetrically installed in the dust removing box 4 and the discharging barrel 6 through bearings, the conveying rotating shaft 7d on the dust removing box 4 is in transmission connection with the conveying rotating shaft 7d in the discharging barrel 6 through the conveying belt 7e, the conveying motor 7f is installed on the outer wall of the dust removing box 4 through a motor base, an output shaft of the conveying motor 7f is connected with the conveying rotating shaft 7d on the dust removing box 4 through a coupling, install dust removal board 7g in dust removal case 4, and dust removal board 7g is located the annular region inboard of conveyer belt 7e, conveyer belt 7e outside lateral wall on evenly be provided with striker plate 7e1, evenly be provided with screening net 7e2 on the conveyer belt 7e, and screening net 7e2 all is located between two adjacent striker plates 7e1, evenly install ball 7e3 through normal running fit's mode on the inboard lateral wall of conveyer belt 7e, vibrating mass 7g1 is evenly installed to the up end of dust removal board 7g, and ball 7e3 supports and leans on vibrating mass 7g1, dust removal pipe 7j is evenly installed to the upper end of annular chamber 7h, adsorption tube 7b is installed to the upper end of drying barrel 8b, air pump 7a is installed to the upper end of drying barrel 8b, adsorption tube 7b is located the top of discharge gate 8h and adsorption tube 7b is linked together with air pump 7a, be connected with hose 7k on the air pump 7a, and the other end of the hose 7k is respectively communicated with a dust removal plate 7g and a dust removal pipe 7j, and filter cotton 7m for adsorbing dust particles is arranged in the dust removal plate 7g, the dust removal pipe 7j and the adsorption pipe 7 b.

During the concrete work, the amino acid organic fertilizer that will wait to dry and remove dust is filled to dust removal case 4 along pan feeding mouth 5 through the manual work, later, start conveying motor 7f and drive and carry pivot 7d and rotate, it carries conveyer belt 7e to rotate in step to drive through carrying pivot 7d, it carries the removal to drive the amino acid organic fertilizer that drops through conveyer belt 7e, striker plate 7e1 that sets up on conveyer belt 7e can carry out even dispersion with accumulational amino acid organic fertilizer, the operation effect of follow-up amino acid organic fertilizer dust removal edulcoration operation is strengthened, when conveyer belt 7e rotates, drive ball 7e3 and carry out the synchronous mobile, in the process that ball 7e3 removes, the intermittent type between ball 7e3 and vibrating mass 7g1 supports the effect and makes conveyer belt 7e carry out synchronous reciprocating vibration, further drive the amino acid organic fertilizer in the transportation process and vibrate, the effect that drops of impurity granule such as dust on the amino acid fertilizer of reinforcing adhesion, the screening net 7e2 that sets up can sieve the amino acid fertilizer among the vibratory feed process and filter, make the dust impurity after the separation drop on the dust removal board 7g of below, further filter pulp 7m on the dust removal board 7g carries out the secondary absorption to the dust granule and collects, when conveyer belt 7e carries the amino acid fertilizer, start air pump 7a, take out the air current in hose 7k through air pump 7a, further collect the absorption with the dust of suspension in annular chamber 7h through hose 7k and dust removal pipe 7 j's intercommunication, further promote the operation effect of amino acid fertilizer dust removal edulcoration operation.

Referring to fig. 3 and 4, a guide rotating shaft 4a is mounted at the upper end of the inner wall of the dust removing box 4 through a bearing, a guide plate 4a1 is mounted on the guide rotating shaft 4a through a spline, the guide plate 4a1 is obliquely mounted in the dust removing box 4, the lower end of the guide plate 4a1 is connected with the upper end of the outer wall of the annular cavity 7h through a guide spring 4a11, and a plurality of groups of guide rods 4a12 are arranged on the upper end face of the guide plate 4a1 in a staggered manner.

During specific work, after the amino acid organic fertilizer is artificially loaded into the feeding port 5, the amino acid organic fertilizer slides downwards under the guide effect of gravity and the guide plate 4a1, the guide spring 4a11 is arranged to support the bottom of the guide plate 4a1 and provide a certain vibration effect for the guide plate 4a1, the phenomenon of blockage caused by accumulation of the amino acid organic fertilizer on the guide plate 4a1 is avoided, and the guide rod 4a12 arranged on the guide plate 4a1 can make the amino acid organic fertilizer slide on the conveyor belts 7e on two sides uniformly through the self limiting blocking effect.

Referring to fig. 2, 10 and 11, the drying mechanism 8 includes a flexible tube 8a, a drying cylinder 8b, a drying rotating shaft 8c, a positioning rod 8d, a drying rotating ring 8e, a drying block 8f, a drying rod 8g, a discharging port 8h, a synchronizing wheel 8j, a synchronizing belt 8k, a positioning frame 8m, an eccentric wheel 8n and a drying motor 8p, the discharging cylinder 6 is provided with the flexible tube 8a, the flexible tube 8a is provided with the drying cylinder 8b, the end of the drying cylinder 8b is provided with the drying rotating shaft 8c through a bearing, the drying rotating shaft 8c is provided with the synchronizing wheel 8j through a spline, the synchronizing wheels 8j on the front side and the rear side are in transmission connection through the synchronizing belt 8k, the positioning frame 8m is provided on the side wall of the drying cylinder 8b, one positioning frame 8m is provided with the drying motor 8p through a motor base, and the output shaft of the drying motor 8p is connected with one drying rotating shaft 8c through a coupling, an eccentric wheel 8n is arranged on the drying rotating shaft 8c which is positioned at the same side of the drying motor 8p through a spline, and the eccentric wheel 8n is positioned at the inner side of the positioning frame 8m, the lower sides of the drying cylinders 8b far away from one end of the dust removing box 4 are all provided with discharge ports 8h, sieving rods 8h1 are uniformly arranged in the discharge ports 8h in an up-down staggered manner, the side wall of the screening rod 8h1 is evenly provided with a brush 8h11 along the circumferential direction, a plurality of groups of positioning rods 8d are evenly arranged on the drying rotating shaft 8c positioned at the inner side of the drying cylinder 8b along the circumferential direction, the end parts of the positioning rods 8d in the same group are all provided with a drying rotating ring 8e with the same structure, and evenly install stoving pole 8g along its circumference between two sets of adjacent stoving change rings 8e, the inside wall of a stoving section of thick bamboo 8b evenly installs multiunit stoving piece 8f along its circumference, and the stoving piece 8f in the same group all is located between two sets of adjacent stoving change rings 8 e.

When the drying machine works specifically, the conveyor belt 7e conveys amino acid organic fertilizer, the drying block 8f is electrified and heated, then the drying motor 8p is started and drives one drying rotating shaft 8c to rotate, the other drying rotating shaft 8c is synchronously rotated through the transmission connection between the synchronizing wheel 8j and the synchronizing belt 8k, the drying rotating ring 8e is synchronously rotated through the transmission connection of the positioning rod 8d while the drying rotating shaft 8c rotates, the drying rod 8g is synchronously rotated through the driving of the drying rotating ring 8e, after the conveyor belt 7e drives the amino acid organic fertilizer to be conveyed to the tail end of the discharging cylinder 6, the amino acid organic fertilizer falls into the flexible pipe 8a through the gravity effect, and further slides into the drying cylinder 8b through the conveying guiding effect of the flexible pipe 8a, the drying operation is carried out on the amino acid organic fertilizer through the drying effect of the drying block 8f, the accumulated amino acid organic fertilizer is continuously overturned under the action of the circumferential rotation of the drying rod 8g, in the rotating process of the drying rotating shaft 8c, the eccentric wheel 8n is driven to synchronously rotate, the drying rotating shaft 8c is subjected to reciprocating vibration through inertia when the eccentric wheel 8n rotates, the drying cylinder 8b is further subjected to synchronous reciprocating vibration, the amino acid organic fertilizer in the drying cylinder 8b is further driven to synchronously vibrate in a reciprocating manner, the drying effect of drying operation of the amino acid organic fertilizer on each layer is improved, dust particles adhered to the amino acid organic fertilizer are subjected to secondary vibration and drop at the same time, the adsorption pipe 7b generates suction while the air pump 7a works, the dust particles remained in the drying cylinder 8b are adsorbed and collected through the adsorption force of the adsorption pipe 7b, and the dust particles synchronously slide towards one end of the discharge hole 8h in the overturning and drying operation process of the amino acid organic fertilizer, the brush 8h11 arranged on the screening rod 8h1 can be cleaned in the process that the amino acid organic fertilizer passes through the discharge hole 8h, so that the overall cleaning degree of the amino acid organic fertilizer is improved.

Referring to fig. 6 and 9, the blanking mechanism 9 includes a hinged support 9a, a blanking cylinder 9b, a fixing plate 9c, a blanking rotating shaft 9d, a blanking rotating rod 9e, an expansion link 9f, a bearing frame 9g, a blanking spring 9h and a bearing seat 9j, the hinged support 9a is installed in the middle of the lower end of the dust removing box 4, the blanking cylinder 9b is installed on the hinged support 9a in a rotation fit manner, the fixing plate 9c is symmetrically installed on the lower end of the dust removing box 4 in front and back directions near the edge position, the blanking rotating shaft 9d is installed between the fixing plates 9c through a bearing, the blanking rotating rod 9e is installed in the middle of the blanking rotating shaft 9d through a spline, the rotating end of the blanking rotating rod 9e is connected with the output shaft of the blanking cylinder 9b in a rotation fit manner, the expansion links 9f are symmetrically installed at two ends of the blanking rotating shaft 9d through a spline, the expansion link 9f is formed by splicing two sections of sliding rods with regular polygons as cross sections, and be connected through expanding spring between two sections slide bars, the stiff end of telescopic link 9f is installed on blanking pivot 9d through the spline, and the removal end of telescopic link 9f installs bearing frame 9g jointly through the spline, and bearing frame 9g is located the below of drying cylinder 8b and is connected through blanking spring 9h between bearing frame 9g and the drying cylinder 8b, and bearing seat 9j is installed to the up end of mounting plate 1, and bearing seat 9j is located the below of bearing frame 9g, bearing frame 9g be L shape structure, electro-magnet 9g1 is installed to the lower extreme symmetry of bearing frame 9g, is provided with the inclined plane of highly sloping from a left side to the right gradually on the bearing seat 9j, and is provided with on the inclined plane with electro-magnet 9g1 matched with magnet hole 9j 1.

During the operation, in the process that the amino acid organic fertilizer passes through the drying cylinder 8b, the blanking rotating rod 9e is pulled by the blanking cylinder 9b to rotate, the blanking rotating shaft 9d is driven by the blanking rotating rod 9e to synchronously rotate, the symmetrically-installed telescopic rods 9f are driven by the blanking rotating shaft 9d to rotate, in the rotating process of the telescopic rods 9f, the drying cylinder 8b which is in a horizontal state at present is synchronously inclined downwards through the transmission connection of the bearing frame 9g, the arranged flexible pipe 8a can adapt to the change of the inclination angle between the tail end of the drying cylinder 8b and the discharging cylinder 6 when the drying cylinder 8b rotates, the bearing frame 9g can adapt to the change of the interval between the drying cylinder 8b and the dust removing box 4 through the self-telescopic characteristic of the telescopic rods 9f, after the bearing frame 9g moves downwards and is attached to the inclined plane on the bearing seat 9j, the electromagnet 9g1 arranged below the bearing frame 9g synchronously enters the magnet hole 9j1, then, the electromagnet 9g1 is electrified, the position of the bearing frame 9g is fixed through the magnetic adsorption between the electromagnet 9g1 and the bearing seat 9j, the inclination angle of the drying cylinder 8b is further relatively fixed, the passing speed of the amino acid organic fertilizer in the drying cylinder 8b can be increased by inclining the tail end of the drying cylinder 8b downwards, meanwhile, the reciprocating vibration effect of the subsequent drying cylinder 8b can be further enhanced through the elastic support of the blanking spring 9h, and the operation effect of dust removal and impurity removal of the amino acid organic fertilizer is further enhanced.

The specific process for producing, preparing and processing the amino acid organic fertilizer by adopting the amino acid organic fertilizer production, preparation and processing device is as follows:

s1, blanking and conveying: the amino acid organic fertilizer to be dried and dedusted is manually filled into the dedusting box 4 along the material inlet 5, and then the amino acid organic fertilizer slides downwards under the guide action of gravity and the guide plate 4a1, the guide spring 4a11 can support the bottom of the guide plate 4a1 and provide a certain vibration effect for the guide plate 4a1, so that the phenomenon that the amino acid organic fertilizer is accumulated and blocked on the guide plate 4a1 is avoided, and the guide rod 4a12 arranged on the guide plate 4a1 enables the amino acid organic fertilizer to uniformly slide towards the conveyor belts 7e on two sides under the self limiting and blocking action;

s2, vibration dust removal: the conveying motor 7f is started and drives the conveying rotating shaft 7d to rotate, the conveying rotating shaft 7d drives the conveying belt 7e to synchronously rotate, the conveying belt 7e drives the dropped amino acid organic fertilizer to convey and move, the material baffle 7e1 arranged on the conveying belt 7e can uniformly disperse the accumulated amino acid organic fertilizer, the conveying belt 7e3 is driven to synchronously move while the conveying belt 7e rotates, in the moving process of the ball 7e3, the conveying belt 7e synchronously vibrates in a reciprocating manner through the intermittent abutting action between the ball 7e3 and the vibrating block 7g1, the amino acid organic fertilizer in the conveying process is further driven to vibrate, the arranged sieving net 7e2 can sieve and filter the amino acid in the vibrating conveying process, the separated dust and impurities fall onto the dust removing plate 7g below, and further secondary adsorption and collection are carried out on dust particles through the filter cotton 7m on the dust removing plate 7g, when the conveyer belt 7e conveys the amino acid organic fertilizer, the air pump 7a is started, the air flow in the hose 7k is pumped out through the air pump 7a, and the dust suspended in the annular cavity 7h is collected and adsorbed through the communication effect of the hose 7k and the dust removal pipe 7 j;

s3, rotary drying: when the conveyer belt 7e conveys the amino acid organic fertilizer, the drying block 8f is electrified and heated, then the drying motor 8p is started and drives one drying rotating shaft 8c to rotate, the other drying rotating shaft 8c synchronously rotates through the transmission connection between the synchronizing wheel 8j and the synchronizing belt 8k, when the drying rotating shaft 8c rotates, the drying rotating ring 8e synchronously rotates through the transmission connection of the positioning rod 8d, the drying rod 8g is driven to synchronously rotate through the drying rotating ring 8e, when the conveyer belt 7e drives the amino acid organic fertilizer to be conveyed to the tail end of the discharging barrel 6, the amino acid organic fertilizer falls into the flexible pipe 8a through the gravity action, and further falls into the drying barrel 8b through the conveying guiding action of the flexible pipe 8a, and the amino acid organic fertilizer is dried through the drying action of the drying block 8f, the accumulated amino acid organic fertilizer is continuously overturned under the action of the circumferential rotation of the drying rod 8g, in the rotating process of the drying rotating shaft 8c, the eccentric wheel 8n is driven to synchronously rotate, the drying rotating shaft 8c is subjected to reciprocating vibration through inertia when the eccentric wheel 8n rotates, the drying cylinder 8b is further subjected to synchronous reciprocating vibration, the amino acid organic fertilizer in the drying cylinder 8b is further driven to synchronously vibrate in a reciprocating manner, the drying effect of drying operation of the amino acid organic fertilizer on each layer is improved, dust particles adhered to the amino acid organic fertilizer are subjected to secondary vibration and drop at the same time, the adsorption pipe 7b is further enabled to generate suction while the air pump 7a works, the dust particles remained in the drying cylinder 8b are adsorbed and collected through the adsorption force of the adsorption pipe 7b, and the dust particles synchronously slide towards one end of the discharge hole 8h in the overturning and drying operation process of the amino acid organic fertilizer, the brush 8h11 arranged on the screening rod 8h1 can perform brushing and cleaning on the amino acid organic fertilizer in the process that the amino acid organic fertilizer passes through the discharge hole 8h, so that the overall cleaning degree of the amino acid organic fertilizer is improved;

s4, collection and storage: in the process that the amino acid organic fertilizer passes through the drying cylinder 8b, the blanking rotating rod 9e is pulled by the blanking cylinder 9b to rotate, the blanking rotating shaft 9d is driven by the blanking rotating rod 9e to synchronously rotate, the symmetrically-installed telescopic rods 9f are driven by the blanking rotating shaft 9d to rotate, in the rotating process of the telescopic rods 9f, the drying cylinder 8b which is in a horizontal state previously is synchronously inclined and rotated downwards through the transmission connection of the bearing frame 9g, the arranged flexible pipe 8a can adapt to the inclination angle change between the tail end of the drying cylinder 8b and the discharging cylinder 6 when the drying cylinder 8b rotates, the bearing frame 9g can adapt to the interval change between the drying cylinder 8b and the dust removing box 4 through the self-telescopic characteristic of the telescopic rods 9f, after the bearing frame 9g moves downwards and is attached to the inclined surface on the bearing seat 9j, the electromagnet 9g1 arranged below the bearing frame 9g synchronously enters the magnet hole 9j1, afterwards, electrify to electro-magnet 9g1, make the position of bearing frame 9g fixed through the magnetic force adsorption between electro-magnet 9g1 and the bearing seat 9j, further make the inclination of drying cylinder 8b relatively fixed, through making the terminal downward sloping of drying cylinder 8b multiplicable amino acid fertilizer's the speed of passing through in drying cylinder 8b, the while can further strengthen the reciprocating vibration effect of follow-up drying cylinder 8b through blanking spring 9 h's elastic support, further strengthen the operation effect of amino acid fertilizer dust removal edulcoration, afterwards, collect through the artifical amino acid fertilizer that drops in to discharge gate 8h and deposit.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides an amino acid fertilizer production preparation processingequipment, its used amino acid fertilizer production preparation processingequipment, this amino acid fertilizer production preparation processingequipment includes mounting plate (1), supporting legs (2), bracing piece (3), dust removal case (4), pan feeding mouth (5), goes out feed cylinder (6), dust removal mechanism (7), stoving mechanism (8) and blanking mechanism (9), its characterized in that: the specific process of the production, preparation and processing operation of the amino acid organic fertilizer by adopting the production, preparation and processing device of the amino acid organic fertilizer is as follows:

s1, blanking and conveying: firstly, manually loading the amino acid organic fertilizer to be subjected to dust removal and drying operation into a dust removal box (4) along a feeding port (5), and conveying the amino acid organic fertilizer through a dust removal mechanism (7);

s2, vibration dust removal: in the process of the step S1, the amino acid organic fertilizer in the conveying process is driven to vibrate by the dust removal mechanism (7), so that dust particles adhered to the amino acid organic fertilizer fall off;

s3, rotary drying: step S2, at the same time, the amino acid organic fertilizer is dried by the drying mechanism (8), and secondary vibration dust removal is carried out on the amino acid organic fertilizer in the drying process;

s4, collection and storage: in the process of the step S3, the blanking mechanism (9) drives the drying mechanism (8) to rotate obliquely, so that the amino acid organic fertilizer dried and dedusted in the drying mechanism (8) falls off, and then the amino acid organic fertilizer dried and dedusted is collected and stored manually;

supporting legs (2) are mounted at the corners of the periphery of the lower end face of the mounting base plate (1), supporting rods (3) are uniformly mounted on the upper end face of the mounting base plate (1), dust removing boxes (4) are mounted at the upper ends of the supporting rods (3) together, a feeding opening (5) is mounted at the upper end of each dust removing box (4), discharging barrels (6) are symmetrically mounted on the side wall of the lower end of each dust removing box (4) from front to back, drying mechanisms (8) are mounted between the discharging barrels (6) together, a dust removing mechanism (7) is mounted in each dust removing box (4), and a blanking mechanism (9) is mounted at the lower end of each dust removing box (4);

the drying mechanism (8) comprises a flexible pipe (8a), a drying cylinder (8b), a drying rotating shaft (8c), a positioning rod (8d), a drying rotating ring (8e), a drying block (8f), a drying rod (8g), a discharge hole (8h), a synchronizing wheel (8j), a synchronizing belt (8k), a positioning frame (8m), an eccentric wheel (8n) and a drying motor (8p), wherein the flexible pipe (8a) is arranged on the discharge cylinder (6), the drying cylinder (8b) is arranged on the flexible pipe (8a), the drying rotating shaft (8c) is arranged at the end part of the drying cylinder (8b) through a bearing, the synchronizing wheel (8j) is arranged on the drying rotating shaft (8c) through a spline, the synchronizing wheels (8j) on the front side and the rear side are in transmission connection through the synchronizing belt (8k), the positioning frame (8m) is arranged on the side wall of the drying cylinder (8b), wherein, a positioning frame (8m) is provided with a drying motor (8p) through a motor base, an output shaft of the drying motor (8p) is connected with one drying rotating shaft (8c) through a coupling, the drying rotating shaft (8c) positioned at the same side of the drying motor (8p) is provided with an eccentric wheel (8n) through a spline, the eccentric wheel (8n) is positioned at the inner side of the positioning frame (8m), the lower side of the drying cylinder (8b) far away from one end of the dust removing box (4) is provided with a discharge hole (8h), the drying rotating shaft (8c) positioned at the inner side of the drying cylinder (8b) is uniformly provided with a plurality of groups of positioning rods (8d) along the circumferential direction thereof, the end parts of the positioning rods (8d) of the same group are both provided with drying rotating rings (8e) with the same structure, and drying rods (8g) are uniformly arranged between two adjacent groups of drying rotating rings (8e) along the circumferential direction thereof, the inner side wall of the drying cylinder (8b) is uniformly provided with a plurality of groups of drying blocks (8f) along the circumferential direction, and the drying blocks (8f) in the same group are all positioned between two adjacent groups of drying rotating rings (8 e).

2. The production, preparation and processing technology of the amino acid organic fertilizer as claimed in claim 1, which is characterized in that: discharge gate (8h) in crisscross evenly install screening pole (8h1) from top to bottom, and evenly be provided with brush (8h11) along its circumference on the lateral wall of screening pole (8h 1).

3. The production, preparation and processing technology of the amino acid organic fertilizer as claimed in claim 1, which is characterized in that: the dust removal mechanism (7) comprises an air pump (7a), an adsorption pipe (7b), a dust removal bottom plate (7c), a conveying rotating shaft (7d), a conveying belt (7e), a conveying motor (7f), a dust removal plate (7g), an annular cavity (7h), a dust removal pipe (7j) and a hose (7k), the dust removal bottom plate (7c) is installed at the lower end of the inner wall of the dust removal box (4), the annular cavity (7h) is symmetrically installed on the dust removal bottom plate (7c), the annular cavity (7h) is communicated with a discharge barrel (6), the conveying rotating shaft (7d) is symmetrically installed in the dust removal box (4) and the discharge barrel (6) through bearings, the conveying rotating shaft (7d) on the dust removal box (4) is in transmission connection with the conveying rotating shaft (7d) in the discharge barrel (6) through the conveying belt (7e), the conveying motor (7f) is installed on the outer wall of the dust removal box (4) through a motor base, an output shaft of the conveying motor (7f) is connected with a conveying rotating shaft (7d) on the dust removal box (4) through a coupler, a dust removal plate (7g) is installed in the dust removal box (4), the dust removal plate (7g) is located on the inner side of an annular area of the conveying belt (7e), a dust removal pipe (7j) is evenly installed at the upper end of the annular cavity (7h), an adsorption pipe (7b) is installed at the upper end of the drying cylinder (8b), an air pump (7a) is installed at the upper end of the drying cylinder (8b), the adsorption pipe (7b) is located above the discharge port (8h) and communicated with the air pump (7a), a hose (7k) is connected onto the air pump (7a), and the other end of the hose (7k) is communicated with the dust removal plate (7g) and the dust removal pipe (7j) respectively.

4. The production, preparation and processing technology of the amino acid organic fertilizer as claimed in claim 3, which is characterized in that: conveyer belt (7e) outside lateral wall on evenly be provided with striker plate (7e1), evenly be provided with screening net (7e2) on conveyer belt (7e), and screening net (7e2) all is located between two adjacent striker plates (7e1), ball (7e3) are evenly installed through normal running fit's mode on the inside lateral wall of conveyer belt (7e), vibrating mass (7g1) are evenly installed to the up end of dust removal board (7g), and ball (7e3) support and lean on vibrating mass (7g 1).

5. The production, preparation and processing technology of the amino acid organic fertilizer as claimed in claim 3, which is characterized in that: and filter cotton (7m) for adsorbing dust particles are arranged in the dust removing plate (7g), the dust removing pipe (7j) and the adsorption pipe (7 b).

6. The production, preparation and processing technology of the amino acid organic fertilizer as claimed in claim 3, which is characterized in that: dust removal case (4) inner wall upper end install guide shaft (4a) through the bearing, install deflector (4a1) through the spline on guide shaft (4a), deflector (4a1) slope is installed in dust removal case (4) and the lower extreme of deflector (4a1) is connected with the outer wall upper end of annular chamber (7h) through guide spring (4a11), the up end crisscross of deflector (4a1) is provided with multiunit guide bar (4a 12).

7. The production, preparation and processing technology of the amino acid organic fertilizer as claimed in claim 1, which is characterized in that: the blanking mechanism (9) comprises a hinged support (9a), a blanking cylinder (9b), a fixing plate (9c), a blanking rotating shaft (9d), a blanking rotating rod (9e), an expansion link (9f), a bearing frame (9g), a blanking spring (9h) and a bearing seat (9j), the hinged support (9a) is installed in the middle of the lower end of the dust removal box (4), the blanking cylinder (9b) is installed on the hinged support (9a) in a rotation fit mode, the fixing plates (9c) are symmetrically installed at the front and back of the lower end of the dust removal box (4) close to the edge position, the blanking rotating shaft (9d) is installed between the fixing plates (9c) through a bearing, the blanking rotating rod (9e) is installed in the middle of the blanking rotating shaft (9d) through a spline, and the rotating end of the blanking rotating rod (9e) is connected with the output shaft of the blanking cylinder (9b) through a rotation fit mode, telescopic links (9f) are symmetrically installed at two ends of a blanking rotating shaft (9d) through splines, a bearing frame (9g) is installed at a moving end of each telescopic link (9f), the bearing frame (9g) is located below a drying cylinder (8b), the bearing frame (9g) is connected with the drying cylinder (8b) through a blanking spring (9h), a bearing seat (9j) is installed on the upper end face of a mounting base plate (1), and the bearing seat (9j) is located below the bearing frame (9 g).

8. The production, preparation and processing technology of the amino acid organic fertilizer as claimed in claim 7, which is characterized in that: the telescopic rod (9f) is formed by splicing two sections of sliding rods with sections being regular polygons in a sliding fit mode, the two sections of sliding rods are connected through a telescopic spring (9f1), the fixed end of the telescopic rod (9f) is installed on the blanking rotating shaft (9d) through a spline, and the moving end of the telescopic rod (9f) is installed on the bearing frame (9g) through a spline.

9. The production, preparation and processing technology of the amino acid organic fertilizer as claimed in claim 7, which is characterized in that: bearing frame (9g) be L shape structure, electro-magnet (9g1) are installed to the lower extreme symmetry of bearing frame (9g), be provided with the inclined plane of highly descending from a left side to the right side gradually on bearing seat (9j), and be provided with on the inclined plane with electro-magnet (9g1) matched with magnet hole (9j 1).

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