CN112648839A

CN112648839A - Organic fertilizer drying equipment with solid-liquid separation function

Info

Publication number: CN112648839A
Application number: CN202110084177.4A
Authority: CN
Inventors: 冷晓山
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-04-13

Abstract

The invention discloses organic fertilizer drying equipment with a solid-liquid separation function, which comprises a bottom plate, a separation feeding mechanism, an anti-blocking mechanism, a transverse plate, an eighth support plate and the like; install separation feed mechanism on the bottom plate, be provided with on the separation feed mechanism and prevent blockking up the mechanism, prevent blockking up the mechanism and cooperate with separation feed mechanism, install two diaphragms on the lateral wall of bottom plate, install the eighth extension board on the diaphragm. According to the invention, solid-liquid separation of the organic fertilizer can be completed through the separation feeding mechanism, the separation feeding mechanism can be prevented from being blocked by the organic fertilizer through the cooperation of the separation feeding mechanism and the anti-blocking mechanism, so that the organic fertilizer is prevented from being dried and hindered, and the organic fertilizer stuck together can be shaken and dispersed through the drying mechanism, so that the organic fertilizer can be dried and collected quickly.

Description

Organic fertilizer drying equipment with solid-liquid separation function

Technical Field

The invention relates to organic fertilizer drying equipment, in particular to organic fertilizer drying equipment with a solid-liquid separation function.

Background

The organic fertilizer is mainly derived from plants and animals, and is a carbon-containing material which is applied to soil to provide plant nutrition as a 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 fertilizer not only can provide comprehensive nutrition for crops, but also has long fertilizer efficiency, can increase and update soil organic matters, promote microbial propagation, improve the physical and chemical properties and biological activity of soil, and is a main nutrient for green food production.

In the production process of organic fertilizer, need dry the fertilizer, when drying to the fertilizer at present, pour moist fertilizer into current drying-machine into and dry usually, the moist fertilizer in the current drying-machine can bond together, when drying to the fertilizer that bonds together through the drying-machine, only can dry the fertilizer that bonds on the surface, and the parcel can't obtain effectual stoving at the fertilizer of inside, and current drying-machine is when drying to moist fertilizer, can't carry out solid-liquid separation to moist fertilizer.

Aiming at the defects of the prior art, an organic fertilizer drying device with a solid-liquid separation function, which can uniformly and quickly dry and can perform solid-liquid separation, is developed.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide organic fertilizer drying equipment which can uniformly and quickly dry and can perform solid-liquid separation and has a solid-liquid separation function.

The technical scheme of the invention is as follows:

the utility model provides a fertilizer drying equipment with solid-liquid separation function, comprising a base plate, the separation feed mechanism, prevent blockking up the mechanism, the diaphragm, the eighth extension board, ninth extension board and stoving mechanism, install the separation feed mechanism on the bottom plate, be provided with on the separation feed mechanism and prevent blockking up the mechanism, prevent blockking up the mechanism and separating feed mechanism cooperation, install two diaphragms on the lateral wall of bottom plate, install the eighth extension board on the diaphragm, keep away from one side of the eighth extension board on the diaphragm and install the ninth extension board, install stoving mechanism between two eighth extension boards and two ninth extension boards.

Further, the separating and feeding mechanism comprises a liquid storage barrel, a liquid outlet pipe, a valve, a feeding barrel, a filter screen, a feeding barrel, a discharging barrel, a material containing barrel, a discharging hopper, a first rotating shaft, a spiral conveying blade, a first belt wheel and a driving part, wherein the liquid storage barrel is arranged on a bottom plate, the liquid outlet pipe is embedded at the lower part of the side wall of the liquid storage barrel, the valve is arranged on the liquid outlet pipe, the feeding barrel is arranged at one side of the liquid storage barrel, which is far away from the liquid outlet pipe, the filter screen is embedded on the feeding barrel, the feeding barrel is provided with the feeding barrel, the material containing barrel is arranged at one side of the feeding barrel, which is far away from the discharging barrel, the discharging hopper is arranged on the material containing barrel, the first rotating shaft is rotatably connected between the feeding barrel and the feeding barrel, the spiral conveying blade is arranged on the first rotating shaft in the feeding barrel, the first belt wheel, the drive member is engaged with the first pulley.

Further, the driving part comprises two motor frames, a speed reducing motor, a first support plate, a second rotating shaft, a universal connector, a third support plate, a third rotating shaft, a second belt wheel and a first belt, the motor frames are connected to one side wall of the liquid storage barrel far away from the liquid outlet pipe, the speed reducing motor is arranged between the two motor frames, the first support plate is arranged on the side wall of the feeding barrel, the second rotating shaft is rotatably arranged between the first support plate and the second support plate, the lower end of the second rotating shaft is connected with the upper end of an output shaft of the speed reducing motor through a coupler, the universal connector is arranged at the upper end of the second rotating shaft through a coupler, three third support plates are connected to one side of the side wall of the feeding barrel far away from the second support plate, the third rotating shaft is rotatably arranged between the three third support plates, and the lower end of the, the second belt wheel is installed at the upper end of the third rotating shaft, and a first belt is wound between the second belt wheel and the first belt wheel.

Further, the anti-blocking mechanism comprises an annular sliding frame, a fourth support plate, a fifth support plate, a fourth rotating shaft, a first gear, a third belt wheel, a fourth belt wheel, a second belt, a convex frame, a gear ring and a pressing component, wherein the annular sliding frame is fixedly connected to a liquid storage barrel on the upper side of the motor frame, the fourth support plate is installed on the side wall of the annular sliding frame, the fifth support plate is installed on the side wall of the liquid storage barrel on the upper side of the fourth support plate, the fourth rotating shaft is rotatably installed between the fourth support plate and the fifth support plate, the lower end of the fourth rotating shaft is provided with the first gear wheel, the upper end of the fourth rotating shaft is provided with the third belt wheel, the fourth belt wheel is installed on the second rotating shaft on the upper side of the first support plate, the second belt is wound between the fourth belt wheel and the third belt wheel, the convex frame is slidably arranged on the annular sliding frame on the upper side of the fourth support plate, a pressing component is arranged between the material containing barrel and the side wall of the lower hopper, and the pressing component is matched with the convex frame.

Further, the pressing component comprises a sixth supporting plate, a seventh supporting plate, a spline rod, a sliding rod, a fixing plate, a first spring, a connecting plate, a first contact wheel, a connecting frame and an anti-blocking rod, the sixth supporting plate is connected to the side wall of the material containing barrel, the seventh supporting plate is installed on the side wall of the discharging hopper, the spline rod is arranged between the seventh supporting plate and the sixth supporting plate in a sliding mode, the sliding rods are installed at the upper end and the lower end of the spline rod, the fixing plate is installed at the lower end of the sliding rod at the lower side, the first spring is connected between the fixing plate and the sixth supporting plate, the first spring is wound on the sliding rods, the connecting plate is installed on the fixing plate, the first contact wheel is installed on the lower portion of the connecting plate in a rotating mode, the first contact wheel is matched with the convex frame, the connecting frame is installed at the upper.

Further, the drying mechanism comprises a support, two sliding plates, two mounting rods, a mounting plate, an electric heating wire, a drying plate, a baffle plate, a first swing pore plate, a first supporting block, a fifth rotating shaft, a second swing pore plate and a moving part, wherein the two support are respectively connected between two adjacent eighth supporting plates and ninth supporting plates, two sliding grooves are respectively formed in two sides of the support, the sliding plates are arranged in the sliding grooves in a sliding mode, the mounting plates are embedded in the sliding plates, the mounting plates are arranged between the four mounting rods on the lower side, the mounting plates are also arranged between the four mounting rods on the upper side, the electric heating wire is embedded in the mounting plates, the drying plate is arranged on the mounting plates, the baffle plate is arranged on the side wall of the drying plate on the lower side, the first swing pore plate is rotatably arranged on the outer side wall of the support between the upper sliding groove and the lower sliding groove on, the fifth rotating shaft is installed between the two first supporting blocks in a rotating mode, the second swing pore plates are installed at the two ends of the fifth rotating shaft, the four installation rods on the other side are matched with the corresponding second swing pore plates, a moving part is installed on one side, close to the discharging barrel, of the side wall of the charging barrel, the moving part is fixedly connected with the upper side installation plate, and the moving part is matched with the convex frame.

Further, the moving part comprises two second support blocks, a sixth rotating shaft, a second gear, a first rack, a third gear, a hollow sliding frame, sliding blocks, a second spring, a second rack and a second contact wheel, the number of the second support blocks is two, the second support blocks are respectively connected to one side of the support close to the first support block, the sixth rotating shaft is rotatably arranged between the two second support blocks, the sixth rotating shaft is provided with two second gears, both sides of the bottom of the upper side mounting plate are fixedly connected with the first racks, the first racks are meshed with the corresponding second gears, the sixth rotating shaft between the two second gears is provided with the third gear, one side of the side wall of the upper charging barrel close to the discharging barrel is provided with the hollow sliding frame, the hollow sliding frame is internally provided with two sliding blocks in a sliding manner, the second spring is connected between the upper side sliding block and the hollow sliding frame, and the second rack is arranged between the side walls of the, and a second contact wheel is rotatably arranged on the side wall of the lower sliding block and is matched with the convex frame.

Further explanation, still including the riser, the seventh pivot, the conveying roller, the conveyer belt, the striker plate, the mounting bracket, servo motor and collecting box, install two risers on the diaphragm, the seventh pivot is installed to the rotary type between two adjacent risers, install the conveying roller in the seventh pivot, around being equipped with the conveyer belt between two conveying rollers, be connected with a plurality of striker plates on the lateral wall of conveyer belt, distance between two adjacent striker plates equals, the rigid coupling has the mounting bracket on the lateral wall of one side riser, the mounting bracket is located the downside of seventh pivot, be provided with servo motor on the mounting bracket, servo motor's output shaft and one side seventh pivot are passed through the shaft coupling installation, the collecting box is placed to one side of keeping away from the bottom plate between two diaphragms, the collecting box is located the.

Further explaining, the multifunctional electric hammer further comprises connecting rods and beating blocks, wherein three connecting rods are arranged on a fifth rotating shaft between the two first supporting blocks, and the beating blocks are arranged on the connecting rods.

The invention has the beneficial effects that:

1. according to the invention, solid-liquid separation of the organic fertilizer can be completed through the separation feeding mechanism, the separation feeding mechanism can be prevented from being blocked by the organic fertilizer through the cooperation of the separation feeding mechanism and the anti-blocking mechanism, so that the organic fertilizer is prevented from being dried and hindered, and the organic fertilizer stuck together can be shaken and dispersed through the drying mechanism, so that the organic fertilizer can be dried and collected quickly;

2. the conveyor belt rotates clockwise to be matched with the collection box, so that the dried organic fertilizer can be conveniently collected;

3. strike the continuous stoving board to the downside through beating the piece and strike, so can prevent that the fertilizer from gluing on the stoving board of downside, cause the hindrance for follow-up fertilizer is dried.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partially cut-away perspective structure of the separating and feeding mechanism of the present invention.

Fig. 3 is a schematic perspective view of the separating and feeding mechanism of the present invention.

Fig. 4 is a schematic perspective view of a part of the separating and feeding mechanism of the present invention.

Fig. 5 is a schematic perspective view of the convex frame of the present invention.

Fig. 6 is a schematic perspective view of the anti-clogging mechanism of the present invention.

Fig. 7 is a schematic perspective view of the drying mechanism of the present invention.

Fig. 8 is a schematic sectional perspective view of the stent of the present invention.

Fig. 9 is a schematic perspective view of the drying plate of the present invention.

Fig. 10 is a schematic perspective view of the baffle of the present invention.

Fig. 11 is a schematic perspective view of the striking block of the present invention.

Fig. 12 is a schematic perspective view of a first rack according to the present invention.

Fig. 13 is a schematic perspective view of the hollow sliding rack of the present invention.

Fig. 14 is a schematic perspective view of the conveyor belt of the present invention.

In the above drawings: 1: bottom plate, 2: separation feed mechanism, 201: liquid storage barrel, 202: outlet pipe, 203: valve, 204: a feed cylinder, 2041: a filter screen, 205: cartridge loading, 206: go out the feed cylinder, 207: cartridge, 208: hopper, 209: first rotating shaft, 210: screw conveying blade, 211: first pulley, 212: motor mount, 213: gear motor, 214: first plate, 215: second plate, 216: second rotating shaft, 217: universal connector, 218: third plate, 219: third rotating shaft, 220: second pulley, 221: first belt, 3: prevent blockking up mechanism, 301: annular carriage, 302: fourth plate, 303: fifth plate, 304: fourth rotation shaft, 305: first gear, 306: third pulley, 307: fourth pulley, 308: second belt, 309: convex frame, 310: ring gear, 311: sixth plate, 312: seventh plate, 313: spline shaft, 314: slide bar, 315: fixing plate, 316: first spring, 317: connection plate, 318: first contact wheel, 319: connecting frame, 320: anti-clogging bar, 4: transverse plate, 5: eighth plate, 6: ninth plate, 7: drying mechanism, 701: a support, 702: a chute, 703: a slide plate, 704: mounting rod, 705: mounting plate, 706: heating wire, 707: drying plate, 708: a baffle, 709: first swing orifice plate, 710: first branch block, 711: fifth rotating shaft, 712: second swing orifice, 713: second branch block, 714: sixth rotating shaft, 715: second gear, 716: first rack, 717: third gear, 718: hollow carriage, 719: slider, 720: second spring, 721: second rack, 722: second contact wheel, 9: riser, 10: seventh rotation shaft, 11: conveying roller, 12: conveyor belt, 13: striker plate, 14: mounting frame, 15: servo motor, 16: collection box, 17: connecting rod, 18: and (6) knocking blocks.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

example 1

The utility model provides an fertilizer drying equipment with solid-liquid separation function, refer to fig. 1 and show, including bottom plate 1, separation feed mechanism 2, prevent blockking up mechanism 3, diaphragm 4, eighth extension board 5, ninth extension board 6 and stoving mechanism 7, separation feed mechanism 2 is installed at the top of bottom plate 1, be provided with on the separation feed mechanism 2 and prevent blockking up mechanism 3, prevent blockking up mechanism 3 and the cooperation of separation feed mechanism 2, diaphragm 4 is all installed to both sides around the 1 right side wall of bottom plate, eighth extension board 5 is installed in the top left side of diaphragm 4, ninth extension board 6 is installed on the right side at diaphragm 4 top, install stoving mechanism 7 between the top of two eighth extension boards 5 and two ninth extension boards 6 around and around.

When the organic fertilizer needs to be dried, a user pours the organic fertilizer into the separation feeding mechanism 2, then the user enables the separation feeding mechanism 2 to work, the separation feeding mechanism 2 can work to separate solid and liquid of the organic fertilizer, when a proper amount of liquid is in the separation feeding mechanism 2, the user only needs to discharge the liquid in the separation feeding mechanism 2, the separation feeding mechanism 2 can drive the anti-blocking mechanism 3 to work while working, the anti-blocking mechanism 3 can dredge the organic fertilizer in the separation feeding mechanism 2, so that the organic fertilizer can be prevented from blocking the separation feeding mechanism 2 to cause obstruction to the drying of the organic fertilizer, the separation feeding mechanism 2 can work to convey the organic fertilizer after the solid and liquid separation to the drying mechanism 7, meanwhile, the user starts the drying mechanism 7 to work, the drying mechanism 7 can work to dry the organic fertilizer after the solid and liquid separation, the anti-blocking mechanism 3 can work to enable the drying mechanism 7 to work, can make the organic fertilizer that bonds together shake on the stoving mechanism 7 and scatter, so can conveniently dry the organic fertilizer, the organic fertilizer after the stoving drops downwards thereupon, and after the organic fertilizer is whole to be dried and is accomplished, the user closes separation feed mechanism 2 and stoving mechanism 7, and the user is collected the organic fertilizer after drying afterwards can.

Example 2

On the basis of embodiment 1, referring to fig. 2-4, the separating and feeding mechanism 2 includes a liquid storage barrel 201, a liquid outlet pipe 202, a valve 203, a feeding barrel 204, a filter screen 2041, an upper material barrel 205, a discharging barrel 206, a material containing barrel 207, a discharging hopper 208, a first rotating shaft 209, a spiral conveying blade 210, a first pulley 211 and a driving component, the liquid storage barrel 201 is installed on the top of the bottom plate 1, the liquid outlet pipe 202 is embedded on the lower portion of the side wall of the liquid storage barrel 201, the valve 03 is installed on the liquid outlet pipe door 2202, the feeding barrel 204 is installed on the top of the liquid storage barrel 201, the filter screen 2041 is embedded on the lower portion of the feeding barrel 204, the upper material barrel 205 is installed on the feeding barrel 204, the discharging barrel 206 is installed on the right portion of the upper material barrel 205, the material containing barrel 207 is installed on the left portion of the upper material barrel 205, the discharging hopper 208 is installed on the top of the material containing barrel 207, a, the spiral conveying blade 210 is positioned in the upper charging barrel 205, the upper end of the first rotating shaft 209 is provided with a first belt pulley 211, the first belt pulley 211 is positioned at the upper side of the upper charging barrel 205, and a driving part is arranged among the liquid storage barrel 201, the feeding barrel 204 and the upper charging barrel 205 and is matched with the first belt pulley 211.

When organic fertilizer needs to be dried, a user pours the organic fertilizer into the lower hopper 208, the organic fertilizer in the lower hopper 208 falls into the material containing barrel 207 downwards, the organic fertilizer in the material containing barrel 207 falls into the upper barrel 205 downwards, meanwhile, the user starts the driving part to work to enable the first belt pulley 211 to rotate clockwise, the first belt pulley 211 rotates clockwise to enable the first rotating shaft 209 to rotate clockwise, the first rotating shaft 209 rotates clockwise to enable the spiral conveying blade 210 to rotate clockwise, the spiral conveying blade 210 rotates clockwise to feed the organic fertilizer in the upper barrel 205 upwards, the organic fertilizer in the upper barrel 205 can be extruded at the same time, solid-liquid separation of the organic fertilizer in the upper barrel 205 is completed, the liquid falls into the liquid storage barrel 201 downwards through the filter screen 2041, the organic fertilizer moves upwards to fall onto the drying mechanism 7 downwards through the material outlet barrel 206, and solid-liquid separation and drying of the organic fertilizer are convenient, when a proper amount of liquid is stored in the liquid storage barrel 201, the user opens the valve 203, the liquid in the liquid storage barrel 201 flows out through the liquid outlet pipe 202, and after the liquid in the liquid storage barrel 201 flows out completely, the user closes the valve 203.

Referring to fig. 3-4, the driving member includes a motor frame 212, a speed reducing motor 213, a first support plate 214, a second support plate 215, a second rotating shaft 216, a universal connector 217, a third support plate 218, a third rotating shaft 219, a second belt wheel 220 and a first belt 221, two motor frames 212 are provided and are both connected to the side wall of the liquid storage barrel 201, the two motor frames 212 are located at the rear side of the liquid outlet pipe 202, the speed reducing motor 213 is provided between the two motor frames 212, the first support plate 214 is installed on the side wall of the material inlet barrel 204, the second support plate 215 is installed on the side wall of the material inlet barrel 205, the first support plate 214 and the second support plate 215 are both located right above the speed reducing motor 213, the second rotating shaft 216 is rotatably installed between the first support plate 214 and the second support plate 215, the lower end of the second rotating shaft 216 is connected to the upper end of the output shaft of the speed reducing motor 213 through a coupling, the universal connector 217 is installed on, the side wall of the upper charging barrel 205 on the upper side of the second support plate 215 is connected with three third support plates 218, a third rotating shaft 219 is rotatably installed between the three third support plates 218, the lower end of the third rotating shaft 219 is fixedly connected with a universal connector 217 through a coupler, the upper end of the third rotating shaft 219 is provided with a second belt wheel 220, and a first belt 221 is wound between the second belt wheel 220 and the first belt wheel 211.

When needing to dry the fertilizer, the user starts gear motor 213 and makes second pivot 216 clockwise rotation, and second pivot 216 clockwise rotation can make third pivot 219 clockwise rotation through universal connector 217, and third pivot 219 clockwise rotation can make second band pulley 220 clockwise rotation, can make first band pulley 211 clockwise rotation through first belt 221, so can provide power to the fertilizer material loading, and after the whole stoving of organic fertilizer was accomplished, the user closed gear motor 213 can.

Example 3

In addition to embodiment 2, referring to fig. 4 to 6, the anti-clogging mechanism 3 includes an annular carriage 301, a fourth support plate 302, a fifth support plate 303, a fourth rotating shaft 304, a first gear 305, a third pulley 306, a fourth pulley 307, a second belt 308, a convex frame 309, a gear ring 310 and a pressing member, the annular carriage 301 is fixedly connected to the reservoir 201 on the upper side of the motor frame 212, the fourth support plate 302 is mounted on the side wall of the annular carriage 301, the fourth support plate 302 is located on the left side of the reduction motor 213, the fifth support plate 303 is mounted on the side wall of the reservoir 201 on the upper side of the fourth support plate 302, the fourth rotating shaft 304 is rotatably mounted between the fourth support plate 302 and the fifth support plate 303, the first gear 305 is mounted at the lower end of the fourth rotating shaft 304, the third pulley 306 is mounted at the upper end of the fourth rotating shaft 304, the fourth pulley 307 is mounted on the second rotating shaft 216 on the upper side of the first support plate 214, the second belt 308 is wound between the fourth pulley 307 and the third pulley 306, a convex frame 309 is arranged on the annular sliding frame 301 on the upper side of the fourth support plate 302 in a sliding mode, a gear ring 310 is arranged on the lower portion of the outer side wall of the convex frame 309, the gear ring 310 is meshed with the first gear 305, a pressing component is arranged between the material containing barrel 207 and the side wall of the lower hopper 208, and the pressing component is matched with the convex frame 309.

The clockwise rotation of the second rotating shaft 216 can enable the fourth belt wheel 307 to rotate clockwise, the clockwise rotation of the third belt wheel 306 can enable the fourth rotating shaft 304 to rotate clockwise through the second belt 308, the clockwise rotation of the third belt wheel 306 can enable the fourth rotating shaft 304 to rotate clockwise, the clockwise rotation of the fourth rotating shaft 304 can enable the first gear 305 to rotate clockwise, the anticlockwise rotation of the gear ring 310 follows the gear ring, the anticlockwise rotation of the gear ring 310 can enable the convex frame 309 to rotate anticlockwise, the anticlockwise rotation of the convex frame 309 can enable the pressing component to work, the working of the pressing component can dredge organic fertilizers in the discharging hopper 208, and therefore the blocking of the discharging hopper 208 by the organic fertilizers can be prevented, and the obstruction of the feeding of the organic.

Referring to fig. 6, the pressing member includes a sixth supporting plate 311, a seventh supporting plate 312, a spline rod 313, a sliding rod 314, a fixing plate 315, a first spring 316, a connecting plate 317, a first contact wheel 318, a connecting frame 319 and an anti-blocking rod 320, the sixth supporting plate 311 is connected to the side wall of the material containing barrel 207, the seventh supporting plate 312 is mounted on the side wall of the lower hopper 208, the seventh supporting plate 312 is located right above the sixth supporting plate 311, the spline rod 313 is slidably arranged between the seventh supporting plate 312 and the sixth supporting plate 311, the sliding rod 314 is mounted at both upper and lower ends of the spline rod 313, the fixing plate 315 is mounted at the lower end of the lower sliding rod 314, the first spring 316 is fixedly connected between the fixing plate 315 and the sixth supporting plate 311, the first spring 316 is wound on the sliding rod 314, the connecting plate 317 is mounted at the bottom of the fixing plate 315, the first contact wheel 318 is rotatably mounted at the lower part of the connecting plate 317, the, the upper end of the upper slide rod 314 is provided with a connecting frame 319, the connecting frame 319 is provided with an anti-blocking rod 320, and the lower end of the anti-blocking rod 320 is positioned in the lower hopper 208.

When the convex frame 309 rotates counterclockwise to press the first contact wheel 318 to move upwards, the convex frame 309 continues to rotate counterclockwise, so that the first contact wheel 318 moves upwards, the first contact wheel 318 moves upwards to move the connecting plate 317 upwards, the connecting plate 317 moves upwards to move the fixing plate 315 upwards, the first spring 316 is compressed therewith, the fixing plate 315 moves upwards to move the lower slide bar 314 upwards, the lower slide bar 314 moves upwards to move the spline bar 313 upwards, the upper slide bar 314 moves upwards therewith, the upper slide bar 314 moves upwards to move the connecting frame 319 upwards, the connecting frame 319 moves upwards to move the anti-clogging bar 320 upwards, when the convex frame 309 rotates counterclockwise without pressing the first contact wheel 318, the anti-clogging bar 320 moves downwards to reset under the action of the elastic force of the first spring 316, organic fertilizer in the lower hopper 208 can be dredged through the continuous upward and downward movement of the anti-clogging bar 320, so can prevent that fertilizer from will blanking hopper 208 and block up, cause the hindrance for the fertilizer material loading.

Example 4

On the basis of embodiment 3, referring to fig. 7 to 13, the drying mechanism 7 includes two brackets 701, two sliding plates 703, two mounting rods 704, two mounting plates 705, two heating wires 706, two drying plates 707, two baffles 708, a first swing hole plate 709, a first support block 710, a fifth rotating shaft 711, a second swing hole plate 712, and a moving member, where the brackets 701 are respectively connected between the left and right adjacent eighth support plates 5 and ninth support plate 6, the left and right sides of the bracket 701 are both provided with two sliding grooves 702, the sliding plates 703 are slidably arranged in the sliding grooves 702, the mounting rods 704 are embedded in the sliding plates 703, the mounting plates 705 are connected between the inner ends of the lower four mounting rods 704, the mounting plates 705 are also arranged between the inner ends of the upper four mounting rods 704, the heating wires 706 are embedded at the top of the mounting plates 705, the drying plates 707 are arranged at the top of the mounting plates, the baffles 707 are arranged on the right, first swing orifice plate 709 is installed to the rotation type on the support 701 lateral wall between two upper and lower spout 702 on the right side, four installation poles 704 on the right side cooperate with the first swing orifice plate 709 that corresponds respectively, first piece 710 is installed to the left part of support 701, fifth pivot 711 is installed to the rotary type between two first pieces 710 around, second swing orifice plate 712 is all installed at both ends around fifth pivot 711, four installation poles 704 on the left side all cooperate with the second swing orifice plate 712 that corresponds, install the moving part on the last feed cylinder 205 lateral wall of play feed cylinder 206 downside, the moving part and upside mounting panel 705 rigid coupling, the moving part cooperates with convex frame 309.

When organic fertilizer is required to be dried, a user starts the heating wire 706 to heat, so that the drying plate 707 becomes hot, the organic fertilizer in the discharging barrel 206 falls downwards onto the drying plate 707 on the upper side, the convex frame 309 rotates anticlockwise to enable the moving part to work, the moving part can enable the upper mounting plate 705 and the lower mounting plate 705 to swing left and right, the upper mounting plate 705 and the lower mounting plate 705 swing left and right and heat, so that the organic fertilizer on the drying plates 707 on the upper side and the lower side can be dried, meanwhile, the organic fertilizer caked on the drying plate 707 can be scattered through the continuous left and right swinging of the drying plates 707 on the upper side and the lower side, because the upper drying plate 707 is obliquely arranged in a left-high-right mode, the organic fertilizer on the upper drying plate 707 slides rightwards and falls onto the lower drying plate 707, the organic fertilizer on the upper drying plate 707 can be conveniently dropped downwards onto the lower drying plate 707 through the baffle 708, the organic fertilizer can be prevented from flowing out through the sliding groove 702 by the sliding plate, and because the lower drying plate 707 is arranged in a right-high left-low inclined mode, the organic fertilizer on the lower drying plate 707 slides leftwards and falls, and after the organic fertilizer is completely dried, a user turns off the heating wire 706.

Referring to fig. 12-13, the moving component includes a second support 713, a sixth rotating shaft 714, a second gear 715, a first rack 716, a third gear 717, a hollow sliding frame 718, a sliding block 719, a second spring 720, a second rack 721 and a second contact wheel 722, the second support 713 is connected to the bracket 701, the second support 713 is located at the left side of the first support 710, the sixth rotating shaft 714 is rotatably installed between the front and rear second support 713, the front and rear sides of the sixth rotating shaft 714 are respectively installed with the second gear 715, the front and rear sides of the bottom of the upper mounting plate 705 are respectively fixed with the first rack 716, the first rack 716 is engaged with the corresponding second gear 715, the middle of the sixth rotating shaft 714 is installed with the third gear 717, the side wall of the upper barrel 205 at the lower side of the discharging barrel 206 is installed with the hollow sliding frame 718, the hollow sliding frame 718 is internally provided with two sliding blocks 719, a second spring 720 is connected between the upper sliding block 719 and the hollow sliding frame 718, a second rack 721 is installed between the right side walls of the upper and lower sliding blocks 719, a second contact wheel 722 is rotatably installed on the left side wall of the lower sliding block 719, and the second contact wheel 722 is matched with the convex frame 309.

When the cam 309 rotates counterclockwise to press the second contact wheel 722 to move upward, the cam 309 continues to rotate counterclockwise, so that the second contact wheel 722 moves upward, the upward movement of the second contact wheel 722 can move the lower slide block 719 upward, the upward movement of the lower slide block 719 can move the hollow carriage 718 upward, the upward movement of the hollow carriage 718 can move the upper slide block 719 upward, the second spring 720 is compressed, the upward movement of the hollow carriage 718 can move the second rack 721 upward, the upward movement of the second rack 721 can move the third rack 717 clockwise, the clockwise rotation of the third rack 717 can rotate the sixth shaft 714 clockwise, the clockwise rotation of the sixth shaft 714 can rotate the front and rear second racks 715 clockwise, the clockwise rotation of the second rack 715 can move the second rack 721 rightward, the second rack 721 can move the upper mounting plate 705 rightward, the upper mounting plate 705 moves rightwards to enable the upper drying plate 707 to move rightwards, the lower drying plate 707 moves leftwards through the matching of the first swing hole plate 709 and the second swing hole plate 712, when the convex frame 309 rotates anticlockwise and does not extrude the second contact wheel 722, the first rack 716 can move downwards under the action of the elastic force of the second spring 720, the upper drying plate 707 swings leftwards to reset along with the upper drying plate 707, the lower drying plate 707 swings rightwards to reset along with the lower drying plate 707, organic fertilizers on the drying plate 707 can be dried conveniently, the organic fertilizers adhered together can be shaken and dispersed through the continuous swinging of the upper and lower drying plates 707, and the organic fertilizers can be dried conveniently.

Example 5

On the basis of the embodiment 4, referring to fig. 14, the conveying device further comprises a vertical plate 9, a seventh rotating shaft 10, a conveying roller 11, a conveying belt 12, a baffle plate 13, a mounting frame 14, a servo motor 15 and a collecting box 16, wherein the vertical plate 9 is mounted on the top of the transverse plate 4 on the left side of the eighth support plate 5 and the ninth support plate 6, the seventh rotating shaft 10 is rotatably mounted between the front vertical plate 9 and the rear vertical plate 9, the conveying roller 11 is mounted on the seventh rotating shaft 10, the conveying belt 12 is wound between the left conveying roller 11 and the right conveying roller 11, at least five baffle plates 13 are connected to the outer side wall of the conveying belt 12, the distance between two adjacent baffle plates 13 is equal, the mounting frame 14 is fixedly connected to the rear side wall of the left rear vertical plate 9, the mounting frame 14 is located on the lower side of the seventh rotating shaft 10, the servo motor 15 is arranged on the top of, between the right parts of the front and rear cross plates 4 is placed a collecting box 16, which collecting box 16 is located on the lower side of the conveyor belt 12.

When needs are dried to the fertilizer, the user starts servo motor 15 and makes left side seventh pivot 10 clockwise rotation, left side seventh pivot 10 clockwise rotation can make left side conveying roller 11 clockwise rotation, can make right side conveying roller 11 clockwise rotation through conveyer belt 12, so can make conveyer belt 12 clockwise rotation, the fertilizer after the stoving drops on conveyer belt 12 thereupon downwards, can carry the fertilizer after the stoving right side through conveyer belt 12 clockwise rotation, can collect the fertilizer after the stoving through collecting box 16, when having the appropriate amount fertilizer in the collecting box 16, the user can to the fertilizer processing in the collecting box 16, can conveniently carry the fertilizer through striker plate 13, after the fertilizer after the stoving is whole to be collected and is accomplished, the user closes servo motor 15.

Referring to fig. 11, the robot further includes a connecting rod 17 and a striking block 18, three connecting rods 17 are mounted on the fifth rotating shaft 711, the three connecting rods 17 are located between the two first supporting blocks 710, and the striking block 18 is mounted at the left end of the connecting rod 17.

The second swing hole plate 712 can swing to enable the fifth rotating shaft 711 to rotate, the fifth rotating shaft 711 rotates through the connecting rod 17, the knocking block 18 can knock the drying plate 707 on the lower side continuously, and therefore organic fertilizers can be prevented from being adhered to the drying plate 707 on the lower side and hindering the subsequent organic fertilizer drying.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims

1. The utility model provides an fertilizer drying equipment with solid-liquid separation function, including the bottom plate, characterized by: still including separating feed mechanism, prevent blockking up mechanism, diaphragm, eighth extension board, ninth extension board and stoving mechanism, install separating feed mechanism on the bottom plate, be provided with on the separating feed mechanism and prevent blockking up the mechanism, prevent blockking up the mechanism and cooperate with separating feed mechanism, install two diaphragms on the lateral wall of bottom plate, install the eighth extension board on the diaphragm, keep away from one side of eighth extension board on the diaphragm and install the ninth extension board, install stoving mechanism between two eighth extension boards and two ninth extension boards.

2. The organic fertilizer drying equipment with the solid-liquid separation function as claimed in claim 1, which is characterized in that: the separating feeding mechanism comprises a liquid storage barrel, a liquid outlet pipe, a valve, a feeding barrel, a filter screen, a feeding barrel, a discharging barrel, a material containing barrel, a discharging hopper, a first rotating shaft, a spiral conveying blade, a first belt wheel and a driving part, wherein the liquid storage barrel is arranged on a bottom plate, the liquid outlet pipe is embedded at the lower part of the side wall of the liquid storage barrel, the valve is arranged on the liquid outlet pipe, the feeding barrel is arranged at one side of the liquid storage barrel, which is far away from the liquid outlet pipe, the filter screen is embedded on the feeding barrel, the feeding barrel is arranged on the feeding barrel, the material containing barrel is arranged on the feeding barrel, the discharging hopper is arranged on the material containing barrel, the first rotating shaft is connected between the feeding barrel and the feeding barrel in a rotating manner, the spiral conveying blade is arranged on the first rotating shaft in the feeding barrel, the first belt wheel is arranged at the upper end of the first, the drive member is engaged with the first pulley.

3. The organic fertilizer drying equipment with the solid-liquid separation function as claimed in claim 2, which is characterized in that: the driving part comprises two motor frames, two speed reducing motors, a first support plate, a second rotating shaft, a universal connector, a third support plate, a third rotating shaft, a second belt wheel and a first belt, the two motors are arranged and are connected to one side wall of the liquid storage barrel far away from the liquid outlet pipe, the speed reducing motor is arranged between the two motor frames, the first support plate is arranged on the side wall of the feeding barrel, the second rotating shaft is rotatably arranged between the first support plate and the second support plate, the lower end of the second rotating shaft is connected with the upper end of an output shaft of the speed reducing motor through a coupler, the universal connector is arranged at the upper end of the second rotating shaft through a coupler, three third support plates are connected to one side of the side wall of the feeding barrel far away from the second support plate, the third rotating shaft is rotatably arranged between the three third support plates, and the, the second belt wheel is installed at the upper end of the third rotating shaft, and a first belt is wound between the second belt wheel and the first belt wheel.

4. The organic fertilizer drying equipment with the solid-liquid separation function as claimed in claim 2, which is characterized in that: the anti-blocking mechanism comprises an annular sliding frame, a fourth support plate, a fifth support plate, a fourth rotating shaft, a first gear, a third belt wheel, a fourth belt wheel, a second belt, a convex frame, a gear ring and a pressing component, wherein the annular sliding frame is fixedly connected to a liquid storage barrel on the upper side of a motor frame, the fourth support plate is installed on the side wall of the annular sliding frame, the fifth support plate is installed on the side wall of the liquid storage barrel on the upper side of the fourth support plate, the fourth rotating shaft is rotatably installed between the fourth support plate and the fifth support plate, the first gear is installed at the lower end of the fourth rotating shaft, the third belt wheel is installed at the upper end of the fourth rotating shaft, the fourth belt wheel is installed on the second rotating shaft on the upper side of the first support plate, the second belt wheel is wound between the fourth belt wheel and the third belt wheel, the convex frame is slidably installed on the annular sliding frame on the upper side of the fourth support plate, the gear ring is installed at the lower part of the, the hold-down member engages the male frame.

5. The organic fertilizer drying equipment with the solid-liquid separation function as claimed in claim 4, which is characterized in that: the lower pressing part comprises a sixth supporting plate, a seventh supporting plate, a spline rod, a sliding rod, a fixing plate, a first spring, a connecting plate, a first contact wheel, a connecting frame and an anti-blocking rod, the sixth supporting plate is connected to the side wall of the material containing barrel, the seventh supporting plate is installed on the side wall of the lower hopper, the spline rod is arranged between the seventh supporting plate and the sixth supporting plate in a sliding mode, the sliding rod is installed at the upper end and the lower end of the spline rod, the fixing plate is installed at the lower end of the lower sliding rod, the first spring is connected between the fixing plate and the sixth supporting plate, the first spring is wound on the sliding rod, the connecting plate is installed on the fixing plate, the first contact wheel is installed in a rotating mode on the lower portion of the connecting plate, the first contact wheel is matched with the convex frame, the connecting frame is installed at the upper end.

6. The organic fertilizer drying equipment with the solid-liquid separation function as claimed in claim 4, which is characterized in that: the drying mechanism comprises a support, a sliding plate, two mounting rods, a mounting plate, heating wires, a drying plate, a baffle, a first swing orifice plate, first supporting blocks, a fifth rotating shaft, a second swing orifice plate and a moving part, wherein the two support are respectively connected between two adjacent eighth supporting plates and ninth supporting plates, two sliding grooves are formed in two sides of the support, the sliding plate is arranged in each sliding groove in a sliding mode, the mounting rods are embedded in the sliding plate, the mounting plate is arranged between the four lower mounting rods, the mounting plate is also arranged between the four upper mounting rods, the heating wires are embedded in the mounting plate, the drying plate is arranged on the mounting plate, the baffle is arranged on the side wall of the lower drying plate, the first swing orifice plate is rotatably arranged on the outer side wall of the support between the upper sliding groove and the lower sliding groove on one side, the four mounting rods on one side are respectively matched with the corresponding first swing orifice plates, the first supporting blocks are, second swing orifice plates are installed at two ends of the fifth rotating shaft, four installation rods on the other side are matched with the corresponding second swing orifice plates, a moving part is installed on one side, close to the discharging barrel, of the side wall of the charging barrel, the moving part is fixedly connected with the upper side installation plate, and the moving part is matched with the convex frame.

7. The organic fertilizer drying equipment with the solid-liquid separation function as claimed in claim 6, which is characterized in that: the moving part comprises second support blocks, a sixth rotating shaft, a second gear, a first rack, a third gear, a hollow sliding frame, sliding blocks, a second spring, two second racks and second contact wheels, the number of the second support blocks is two, the second support blocks are respectively connected to one side of the support close to the first support block, the sixth rotating shaft is rotatably installed between the two second support blocks, the two second gears are installed on the sixth rotating shaft, the first racks are fixedly connected to two sides of the bottom of the upper side installation plate, the first racks are meshed with the corresponding second gears, the third gear is installed on the sixth rotating shaft between the two second gears, the hollow sliding frame is installed on one side, close to the discharging barrel, of the side wall of the upper charging barrel, the two sliding blocks are slidably installed in the hollow sliding frame, the second spring is connected between the upper side sliding block and the hollow sliding frame, the second racks are installed between the side walls of the upper sliding block and the lower sliding block, the second contact wheel is, the second contact wheel is matched with the convex frame.

8. The organic fertilizer drying equipment with the solid-liquid separation function as claimed in claim 6, which is characterized in that: still including the riser, the seventh pivot, the conveying roller, the conveyer belt, the striker plate, a mounting bracket, servo motor and collecting box, install two risers on the diaphragm, the seventh pivot is installed to the rotary type between two adjacent risers, install the conveying roller in the seventh pivot, around being equipped with the conveyer belt between two conveying rollers, be connected with a plurality of striker plates on the lateral wall of conveyer belt, distance between two adjacent striker plates equals, the rigid coupling has the mounting bracket on the lateral wall of one side riser, the mounting bracket is located the downside of seventh pivot, be provided with servo motor on the mounting bracket, servo motor's output shaft and one side seventh pivot are passed through the shaft coupling installation, one side of keeping away from the bottom plate between two diaphragms is placed at the collecting box, the collecting box is located the.

9. The organic fertilizer drying equipment with the solid-liquid separation function as claimed in claim 8, which is characterized in that: the three-shaft type.