CN112611193A

CN112611193A - Agricultural is with automatic drying equipment who has steady ejection of compact structure

Info

Publication number: CN112611193A
Application number: CN202110099142.8A
Authority: CN
Inventors: 林映辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2021-04-06

Abstract

The invention relates to the technical field of crop drying equipment, in particular to an agricultural automatic drying device with a stable discharging structure, which comprises a drying mechanism, wherein the drying mechanism comprises an outer barrel, the bottom of the outer barrel is fixedly welded with a bottom bin, the front of the bottom bin is fixedly welded with a guide bin, a discharging mechanism is fixedly arranged below the front of the guide bin, the discharging mechanism comprises a discharging bin, and the discharging bin is welded and communicated with the position below the front of the guide bin. According to the corn cob discharging device, the discharging mechanism is arranged at the position below the front side of the guiding bin, corn cobs transversely arranged in the discharging bin can be erected by virtue of synchronous and same-direction rotation of the two groups of rubber rollers arranged above the discharging bin, and are stirred by rotation of the two groups of rubber rollers, and the corn cobs are stably extruded and conveyed by matching with synchronous and relative rotation between the two groups of output rollers below, so that the corn cobs are effectively prevented from being clamped in the discharging bin, and smooth stability of the device during discharging is effectively guaranteed.

Description

Agricultural is with automatic drying equipment who has steady ejection of compact structure

Technical Field

The invention relates to the technical field of crop drying equipment, in particular to agricultural automatic drying equipment with a stable discharging structure.

Background

With the development and progress of science and technology, the technology of people in the field of agricultural planting is mature day by day, the yield of crops is improved day by day, corn is used as a high-yield crop in agricultural planting, the corn has strong cold resistance and drought resistance, and the corn is widely used as a feed raw material and stored in national food as an excellent grain crop and is influenced by the characteristics of the corn, the interior of the mature corn is usually wet, and in order to ensure that the mature corn is stored in a high-quality state, the corn is usually required to be dried to remove moisture in the corn, so that the corn is prevented from being wetted and corroded in the storage process, and the storage time of the corn is prolonged;

drying device is used in the processing of corn-on-cob among the prior art, its mode of reuse hot-blast drying usually carries out drying process to the maize, is about to stack the maize inside jar form stoving storehouse, through jar internal portion heating, the cooperation air current flows, gets rid of the inside steam of corn-on-cob, drying device is used in the processing of corn-on-cob among the prior art, although it can carry out drying operation to fresh corn-on-cob, but it still has following several defects:

after drying, a movable door opening is usually arranged at the position below a tank body of equipment, and discharging control is realized on corn cobs in the equipment through opening and closing of the movable door opening;

secondly, in the prior art, when the corn drying device is used for drying, corns are usually directly stacked in the bin body and are affected by mutual extrusion of corn cobs, so that the corn cobs are tightly stacked, and in the actual drying process, the corns which are tightly stacked mutually influence air flow circulation, so that the corn drying efficiency is influenced;

third, corn drying device among the prior art, it is when carrying out work, directly stacks the maize in single big storehouse usually, and under the action of gravity, it is close to pile up between the cob that piles up each other, leads to stirring inconvenience when needs stir the cob, influences the drying speed in the cob drying process.

To this end we propose an automatic drying apparatus with a smooth discharge structure for agricultural use to solve the above problems.

Disclosure of Invention

The invention aims to provide automatic drying equipment with a stable discharging structure for agriculture, and aims to solve the problems that in the prior art, a corn cob drying device provided by the background art is influenced by long corn cob strips during working, so that blanking of corn cobs is easy to block, smooth discharging of the equipment is influenced, and the drying efficiency of the corn cobs is influenced due to tight integral stacking of the corn cobs inside the equipment during working.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an agricultural is with automatic drying equipment that has steady ejection of compact structure, includes drying mechanism, drying mechanism includes the urceolus, and the fixed welding in bottom of urceolus has the end storehouse, the fixed welding in front of end storehouse has the guide storehouse, and the front below position fixed mounting in guide storehouse has discharge mechanism, discharge mechanism includes a feed bin, and goes out feed bin welding intercommunication in the front below position in guide storehouse, bilateral symmetry form rotation is connected with the rubber roller around the inside top position of feed bin, fixed mounting has a servo motor on the outer wall of feed bin, and the rotation output shaft fixed connection of first servo motor is in one of them group the intermediate position of rubber roller, fixedly connected with belt pulley drive mechanism between two sets of rubber rollers, two sets of connect through the transmission of belt pulley drive mechanism between the rubber roller, the cross-section of rubber roller is "Y" font, through grooves are symmetrically formed in the outer walls below the left side and the right side of the discharge bin, sliding seats are symmetrically embedded in the through grooves in the front side and the rear side, an output assembly is installed at the position below the inner portion of the discharge bin and comprises output rollers, the output rollers are provided with two groups, the two groups of output rollers are respectively inserted between the two groups of corresponding sliding seats on the left side and the right side, the output rollers are rotatably connected with the sliding seats, a first bevel gear is fixedly welded in the middle position of the right end of each output roller, an L-shaped frame is fixedly welded on the outer sides of the two groups of sliding seats on the right side, a rotating sleeve is rotatably connected in the middle position of the L-shaped frame, a second bevel gear is fixedly sleeved on the outer side of the rotating sleeve, teeth assembled on the outer side of the second bevel gear are matched with teeth assembled on the outer side of the first bevel gear, and a connecting shaft is inserted, a second servo motor is fixedly mounted on the outer wall of the discharge bin, and a rotating output shaft of the second servo motor is fixedly connected to the middle position of one end of the back face of the connecting shaft.

Preferably, the guide bin is obliquely and fixedly communicated with the front of the bottom bin, the bottom of the bottom bin is obliquely and fixedly communicated with the collection bin, and the filter plate is fixedly welded at the communication position of the bottom bin and the collection bin.

Preferably, the electrothermal tube is uniformly fixed on the inner wall of the outer barrel, the fan is fixedly mounted on the back of the bottom bin, the air outlet of the fan is fixedly communicated with the main air duct, the main air duct is vertically arranged on the back of the outer barrel, the air inlet of the fan is fixedly communicated with the return pipe, the other end of the return pipe is fixedly communicated with the top of the outer barrel, and the one-way valve is fixedly mounted inside the air inlet of the fan.

Preferably, the outside size of sliding seat and the inside size looks adaptation that leads to the groove, sliding seat and lead to sliding connection between the groove, it has the spring to inlay in the inside that leads to the groove, and the one end fixed connection of spring is on the inner wall that leads to the groove, the other end fixed connection of spring is on the outer wall of sliding seat, the sliding seat passes through the spring and leads to between the groove elasticity sliding connection.

Preferably, the connecting shaft is rotatably connected to the outer wall of the right side of the discharging bin, the cross section of the connecting shaft is square, the inner size of the rotary sleeve is matched with the outer size of the connecting shaft, and the rotary sleeve is connected with the connecting shaft in a sliding mode.

Preferably, the top of the bottom bin is fixedly provided with a separating mechanism, the separating mechanism is provided with six groups, the six groups of separating mechanisms are sequentially and vertically stacked at the top of the bottom bin, each separating mechanism comprises a separating barrel, the bottommost group of separating barrels are welded and communicated with the top of the bottom bin, the six groups of separating barrels are sequentially stacked, welded and communicated, a rotating ring is inlaid on the inner wall of each separating barrel and is rotatably connected with the separating barrels, a stirring plate is uniformly fixed on the inner wall of the rotating ring, an outer gear ring is fixedly sleeved on the outer wall of the rotating ring, one side of the front face of the outer gear ring is meshed and connected with a straight gear, a vertical shaft is vertically fixed at the middle position of the straight gear, and the straight gear is rotatably connected with the separating barrels through the vertical shafts;

preferably, every group all fixed welding intercommunication has the reposition of redundant personnel cover on the back one side outer wall of separating a section of thick bamboo, and reposition of redundant personnel cover and the junction fixedly connected with baffle of separating a section of thick bamboo, and the inside of baffle evenly has seted up the through-hole, evenly encircle on the top outer wall of separating a section of thick bamboo and seted up the exhaust hole.

Preferably, every group the inside of separating a section of thick bamboo all installs shutoff mechanism, and shutoff mechanism is including the valve plate, every group the inside of separating a section of thick bamboo all is provided with two sets of valve plates, and two sets of the valve plate symmetry form rotates to be connected on the below inner wall of separating a section of thick bamboo, every group the valve plate is attached to and is had the half-gear in the equal fixed welding in one side of separating bobbin base intermediate position, the fixed welding in inside top intermediate position of separating a section of thick bamboo has a section of thick bamboo of erecting, and erects the inside vertical inserting of a section of thick bamboo and be equipped with the lifter, the bottom welded fastening of lifter has the rack, and the rack is vertical inserts and establish two sets of corresponding between the half-gear, the tooth of rack outside assembly.

Preferably, the top is a set of it has the lid storehouse to separate the fixed intercommunication in top of a section of thick bamboo, and the fixed welding in top of lid storehouse has the feed inlet, and is linked together between feed inlet and the lid storehouse, the top appearance of feed inlet is for leaking hopper-shaped, the open-top appearance of feed inlet is the rectangle.

Preferably, the top is a set of the inside rack welded fastening of shutoff mechanism is a set of in the below directly over the inside lifter of shutoff mechanism, the top fixed mounting of lid storehouse has electric telescopic handle, and the top is a set of the top fixed welding of lifter is on electric telescopic handle's power output shaft, and is adjacent two sets of fixed connection between the inside vertical axis of partition mechanism, the bottom fixed mounting of urceolus has third servo motor, and third servo motor's rotation output shaft fixed connection is a set of in the below the bottom of vertical axis.

Compared with the prior art, the invention has the beneficial effects that:

1. the discharging mechanism is arranged at the position below the front side of the guide bin, corn cobs transversely arranged in the discharging bin can be erected by virtue of synchronous equidirectional rotation of the two groups of rubber rollers arranged above the discharging bin through rotary stirring of the two groups of rubber rollers, and the corn cobs are stably extruded and conveyed by matching with synchronous relative rotation between the two groups of output rollers below, so that the corn cobs are effectively prevented from being clamped in the discharging bin, and smooth stability of the device during discharging is effectively guaranteed;

2. the springs are embedded in the through grooves, and the sliding seats can be supplemented and moved in the through grooves through the elastic supports of the through grooves;

3. the collecting bin is fixedly communicated with the bottom of the bottom bin, the filter plate is fixedly welded at the joint of the bottom bin and the collecting bin, and when the device works, corn kernels falling from corn cobs falling in the device can pass through the filter plate and fall into the collecting bin to be collected through blocking of the filter plate, so that the corn cobs and the falling corn kernels can be effectively classified and collected;

4. the rotary ring is rotationally connected with the separating cylinder, and the straight gear is meshed with the teeth between the outer gear rings to be connected, so that when the device works, the rotary ring can be driven to rotate inside the separating cylinder through the rotation driving of the vertical shaft, the stirring plate can rotate and disturb inside the separating cylinder, corn cobs inside the separating cylinder are stirred, the phenomenon that airflow circulation is affected due to the fact that the corn cobs are tightly stacked is avoided, and the drying efficiency effect of the device is effectively improved;

5. install in the inside of separating a section of thick bamboo through setting up shutoff mechanism, it connects in the inside below position of separating a section of thick bamboo to set up the valve plate and rotate, through the shutoff of valve plate to the bottom of separating a section of thick bamboo, make and separate the inside independent space that forms of a section of thick bamboo, be convenient for separate the inside corn-on-cob of the device step by step, it is obstructed to avoid the corn-on-cob to pile up overweight and lead to the stirring, be connected through setting up the tooth meshing between rack and the half-gear, make the device convenient to valve plate control, the effectual control flexibility that has promoted the.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic perspective cross-sectional view of the structure of the present invention;

FIG. 2 is a schematic front perspective view of the present invention;

FIG. 3 is a schematic rear perspective view of the structure of the present invention;

FIG. 4 is a schematic side sectional view of the structure of the present invention;

FIG. 5 is a schematic perspective sectional view of the discharging mechanism of the present invention;

FIG. 6 is a perspective view of the discharging mechanism of the present invention;

FIG. 7 is a perspective view of the internal structure of the present invention;

FIG. 8 is a schematic side sectional view of the partition mechanism of the present invention;

fig. 9 is a schematic perspective exploded view of the partition mechanism of the present invention.

In the figure: 100. a drying mechanism; 110. an outer cylinder; 120. a bottom bin; 130. a guide bin; 140. a collection bin; 150. filtering the plate; 160. an electric heating tube; 170. a fan; 180. a main air duct; 190. a return pipe; 200. a discharging mechanism; 210. a discharging bin; 221. a rubber roller; 222. a first servo motor; 223. a belt pulley transmission mechanism; 231. a through groove; 232. a sliding seat; 233. a spring; 240. an output component; 241. an output roller; 242. a first bevel gear; 243. an L-shaped frame; 244. a rotating sleeve; 245. a second bevel gear; 246. a connecting shaft; 247. a second servo motor; 300. a separation mechanism; 310. a separation cylinder; 320. rotating the ring; 330. a poking plate; 340. an outer ring gear; 350. a spur gear; 360. a vertical axis; 410. a flow dividing cover; 420. a partition plate; 430. an exhaust hole; 500. a plugging mechanism; 510. a valve plate; 520. a half gear; 530. a vertical cylinder; 540. a lifting rod; 550. a rack; 610. covering the bin; 620. a feed inlet; 710. an electric telescopic rod; 720. a third servo motor; 800. a one-way valve.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, an embodiment of the present invention is shown: an automatic drying device with a stable discharging structure for agricultural use comprises a drying mechanism 100, wherein the drying mechanism 100 comprises an outer cylinder 110, a bottom bin 120 is fixedly welded at the bottom of the outer cylinder 110, a guide bin 130 is fixedly welded at the front of the bottom bin 120, a discharging mechanism 200 is fixedly installed at the position below the front of the guide bin 130, the discharging mechanism 200 comprises a discharging bin 210, the discharging bin 210 is welded and communicated at the position below the front of the guide bin 130, rubber rollers 221 are symmetrically and rotationally connected with the front side and the rear side of the upper position in the discharging bin 210 in a front-rear symmetrical mode, a first servo motor 222 is fixedly installed on the outer wall of the discharging bin 210, a rotating output shaft of the first servo motor 222 is fixedly connected at the middle position of one group of the rubber rollers 221, a belt pulley transmission mechanism 223 is fixedly connected between the two groups of the rubber rollers 221, and the two groups of the rubber rollers 221 are, the section of the rubber roller 221 is in a Y shape, through grooves 231 are symmetrically formed in the outer walls of the lower portions of the left side and the right side of the discharge bin 210, sliding seats 232 are symmetrically embedded in the through grooves 231 in a front-back symmetrical manner, an output assembly 240 is installed in the lower portion of the interior of the discharge bin 210, the output assembly 240 comprises output rollers 241, two groups of the output rollers 241 are arranged, the two groups of the output rollers 241 are respectively inserted between the two groups of the corresponding sliding seats 232 on the left side and the right side, the output rollers 241 are rotatably connected with the sliding seats 232, a first bevel gear 242 is fixedly welded in the middle position of the right end of the output roller 241, an L-shaped frame 243 is fixedly welded on the outer sides of the two groups of the sliding seats 232 on the right side, a rotating sleeve 244 is rotatably connected in the middle position of the L-shaped frame 243, a second bevel gear 245 is fixedly arranged on the outer side of the rotating sleeve 244, and, a connecting shaft 246 is inserted in the middle of the two corresponding sets of rotating sleeves 244 in a penetrating manner, a second servo motor 247 is fixedly installed on the outer wall of the discharging bin 210, a rotating output shaft of the second servo motor 247 is fixedly connected to the middle of one end of the back of the connecting shaft 246, the cross section of the rubber roller 221 is Y-shaped, when the device is used for discharging materials, the first servo motor 222 is electrified and started to drive one set of the rubber roller 221 to rotate, the front and back sets of the corresponding rubber rollers 221 synchronously rotate in the same direction through the transmission of the belt pulley transmission mechanism 223, the corn cobs transversely lying above the two sets of the rubber rollers 221 are adjusted and erected by means of the continuous transmission of the rubber rollers 221, the discharging operation stability of the device is effectively improved, the phenomenon that the corn cobs transversely lie inside the discharging bin 210 to cause discharging blockage is avoided, and the discharging stability of the device is effectively improved, the two groups of output rollers 241 are rotationally connected to the lower position inside the discharge bin 210 in a front-back symmetrical manner, when the device works, the second servo motor 247 is electrified and started to drive the connecting shaft 246 fixed on the rotating output shaft to rotate, so that the two groups of rotating sleeves 244 sleeved outside the output rollers rotate synchronously, the rotating sleeves 244 drive the two groups of second bevel gears 245 arranged symmetrically to rotate, the two groups of output rollers 241 arranged symmetrically in the front-back symmetrical manner synchronously rotate oppositely by means of tooth meshing transmission between the second bevel gears 245 and the first bevel gears 242, and corns conveyed vertically from the upper part are stably extruded and conveyed out by means of the rotary extrusion of the two groups of output rollers 241, so that the stable and smooth discharging of corn cobs during discharging of the device is effectively guaranteed, and the discharging stability of the device is convenient to guarantee;

further, the guide bin 130 is fixedly communicated with the front of the bottom bin 120 in an inclined manner, the bottom of the bottom bin 120 is in an inclined manner, the collection bin 140 is fixedly communicated with the bottom of the bottom bin 120, a filter plate 150 is fixedly welded at the communication position of the bottom bin 120 and the collection bin 140, the guide bin 130 is arranged and fixedly communicated with the front of the bottom bin 120 in an inclined manner, the corn cobs slide down by virtue of gravity to be guided, so that the corn cobs are more smooth in discharging, the filter plate 150 is fixedly embedded between the bottom bin 120 and the collection bin 140, in the discharging process after the corn cob picking device works, the corn falling on the corn cobs can stably enter the collection bin 140 to be collected by virtue of the filtering of the filter plate 150, the classified collection and discharging of the corn cobs and the falling corn particles are effectively carried out, the convenience in the post-processing of the corn cobs is conveniently ensured, the inclined bottom of the bottom bin 120 is arranged, and the sliding smoothness in, the situation that the corn is accumulated at the bottom of the bottom bin 120 to influence the discharging of the device is avoided;

furthermore, the electric heating tubes 160 are uniformly fixed on the inner wall of the outer barrel 110, the fan 170 is fixedly installed on the back surface of the bottom bin 120, the main air duct 180 is fixedly communicated with the air outlet of the fan 170, the main air duct 180 is vertically arranged on the back surface of the outer barrel 110, the return pipe 190 is fixedly communicated with the air inlet of the fan 170, the other end of the return pipe 190 is fixedly communicated with the top of the outer barrel 110, the check valve 800 is fixedly installed inside the air inlet of the fan 170, when the device works, the fan 170 is electrified to start, outside air is pumped into the device through the main air duct 180, the heat inside the device is increased by heating after the electric heating tubes 160 are electrified, the corn cobs inside the device are effectively baked, the return pipe 190 is communicated with the air inlet positions of the outer barrel 110 and the fan 170, hot air circulation is effectively formed inside the device, and the drying efficiency of the device for the corn cobs is, the one-way valve 800 is arranged at the air inlet of the fan 170, so that the stable air flow circulation direction in the device is effectively ensured;

furthermore, the outside dimension of the sliding seat 232 is matched with the inside dimension of the through groove 231, the sliding seat 232 is slidably connected with the through groove 231, the spring 233 is embedded in the through groove 231, one end of the spring 233 is fixedly connected with the inner wall of the through groove 231, the other end of the spring 233 is fixedly connected with the outer wall of the sliding seat 232, the sliding seat 232 is elastically slidably connected with the through groove 231 through the spring 233, and the spring 233 is elastically supported between the sliding seat 232 and the through groove 231, so that when the device is used, relative movement between two corresponding output rollers 241 can be realized, when a large corn falls downwards, under the extrusion effect of the volume of the corn cob, the spring 233 is extruded and deformed, the sliding seat 232 is pushed in the through groove 231, the distance between the two output rollers 241 can be flexibly adjusted, and when the device works, the output rollers 241 are always kept in close contact with the corn cob, the applicability and the conveying stability of the device are effectively guaranteed;

further, the connecting shaft 246 is rotatably connected to the outer wall of the right side of the discharging bin 210, the cross section of the connecting shaft 246 is square, the inner size of the rotating sleeve 244 is matched with the outer size of the connecting shaft 246, the rotating sleeve 244 is in sliding connection with the connecting shaft 246, the inner size of the rotating sleeve 244 is matched with the outer size of the connecting shaft 246, and the rotating sleeve 244 and the connecting shaft 246 can only move back and forth relatively through limitation of the inner size of the rotating sleeve 244 and the outer shape of the connecting shaft 246, so that idle rotation between the rotating sleeve 244 and the connecting shaft 246 is avoided, and the transmission stability between the connecting shaft 246 and the rotating sleeve 244 is effectively guaranteed when the device works;

further, the top of the bottom bin 120 is fixedly provided with a partition mechanism 300, the partition mechanism 300 is provided with six groups, the six groups of partition mechanisms 300 are sequentially and vertically stacked on the top of the bottom bin 120, the partition mechanism 300 comprises partition cylinders 310, the lowermost group of partition cylinders 310 are welded and communicated on the top of the bottom bin 120, the six groups of partition cylinders 310 are sequentially stacked, welded and communicated, the inner walls of the partition cylinders 310 are embedded with rotary rings 320, the rotary rings 320 are rotatably connected with the partition cylinders 310, the inner walls of the rotary rings 320 are uniformly fixed with shifting plates 330, the outer walls of the rotary rings 320 are fixedly sleeved with outer gear rings 340, one sides of the front surfaces of the outer gear rings 340 are meshed and connected with straight gears 350, the middle positions of the straight gears 350 are vertically fixed with vertical shafts 360, the straight gears 350 are rotatably connected with the partition cylinders 310 through the vertical shafts 360, when the device works, the vertical shafts 360 are rotatably driven, the vertical shafts 360 drive the straight gears 350 fixed on the outer sides of the vertical shafts 360 to rotate, through the meshing transmission of the teeth between the straight gear 350 and the outer gear ring 340, the butterfly rotating ring 320 rotates in the separating cylinder 310, so that the poking plate 330 fixed on the inner wall of the rotating ring 320 rotates in the separating cylinder 310 to stir the corn cobs placed in the separating cylinder 310, the uniformity of the baked corn cobs blown and dried by the air is effectively guaranteed, and the efficiency of drying the corn cobs is improved;

furthermore, a shunting cover 410 is fixedly welded and communicated on the outer wall of one side of the back of each group of separating cylinders 310, a partition plate 420 is fixedly connected to the joint of the shunting cover 410 and the separating cylinders 310, through holes are uniformly formed in the partition plate 420, vent holes 430 are uniformly formed in the outer wall of the upper portion of each separating cylinder 310 in a surrounding mode, the shunting cover 410 is fixedly communicated on the outer wall of the back of each separating cylinder 310, the shunting cover 410 is fixedly communicated with the main air duct 180, so that when the device works, air flow in the main air duct 180 can be uniformly and quickly blown into the separating cylinders 310, and smooth air flow in the separating cylinders 310 is facilitated through the vent holes 430 formed in the outer wall of the upper portions of the separating cylinders 310, so that corn cobs placed in the device are uniformly and quickly dried;

further, the inside of each group of separating cylinders 310 is provided with the plugging mechanism 500, and the plugging mechanism 500 comprises a valve plate 510, the inside of each group of separating cylinders 310 is provided with two groups of valve plates 510, and the two groups of valve plates 510 are symmetrically and rotatably connected to the inner wall below the separating cylinders 310, one side of each group of valve plates 510 close to the middle position of the bottom of the separating cylinder 310 is fixedly welded with a half gear 520, the middle position above the inside of the separating cylinder 310 is fixedly welded with a vertical cylinder 530, a lifting rod 540 is vertically inserted in the vertical cylinder 530, the bottom of the lifting rod 540 is fixedly welded with a rack 550, the rack 550 is vertically inserted between the two corresponding groups of half gears 520, teeth assembled outside the rack 550 are matched with teeth assembled outside the half gears 520, and are rotatably connected to the inside of the separating cylinders 310 by arranging the valve plates 510, when the device is used, in the up-down and down moving process of the lifting rod 540, the rack 550 fixed below the lifting rod can, by means of the meshing of the teeth between the rack 550 and the half gear 520, the rack 550 is driven to rotate by the half gear 520 in the up-and-down moving process, so that the valve plate 510 is inclined to rotate, the inclination angle of the valve plate 510 is controlled, the bottom of the separating cylinder 310 is blocked, and by blocking the two groups of valve plates 510, when the device works, the corn cobs in the separating cylinder 310 are independent in layering, so that the phenomenon that the corn cobs are stacked tightly is avoided, the stirring plate 330 is favorable for stably and effectively mixing the corn cobs in the separating cylinder 310, and the inconvenience of rolling caused by excessive stacking of the corn cobs is avoided;

furthermore, the top of the uppermost group of separating cylinders 310 is fixedly communicated with a cover bin 610, the top of the cover bin 610 is fixedly welded with a feed inlet 620, the feed inlet 620 is communicated with the cover bin 610, the upper appearance of the feed inlet 620 is funnel-shaped, the top opening of the feed inlet 620 is rectangular, the feed inlet 620 is fixed at the top of the cover bin 610, the feed inlet 620 arranged in an open manner can effectively guide the corn cobs during feeding, and the convenience of the corn cobs during filling in the device is effectively improved;

further, the rack 550 inside the upper plugging mechanism 500 is welded and fixed right above the lifting rod 540 inside the lower plugging mechanism 500, the top of the cover bin 610 is fixedly provided with the electric telescopic rod 710, the top of the uppermost lifting rod 540 is fixedly welded on the power output shaft of the electric telescopic rod 710, the vertical shafts 360 inside two adjacent groups of separating mechanisms 300 are fixedly connected, the bottom of the outer barrel 110 is fixedly provided with the third servo motor 720, the rotating output shaft of the third servo motor 720 is fixedly connected with the bottom of the lowermost vertical shaft 360, the rack 550 inside two groups of separating mechanisms 300 which are adjacent up and down is fixedly connected with the lifting rod 540, and the power output shaft of the electric telescopic rod 710 is fixedly connected on the lifting rod 540, so that when the device works, the racks 550 can be synchronously controlled to move up and down by the driving of the electric telescopic rod 710, therefore, each valve plate 510 is synchronously controlled, the control convenience of the device is effectively guaranteed, and the vertical shafts 360 are fixedly connected with each other, so that the third servo motor 720 can synchronously drive each vertical shaft 360 to rotate simultaneously when being electrified for working, and the device is favorable for driving stability;

the working principle is as follows: when the device works, a worker connects the device with an external power supply through a wire, so that the external power supply provides electric support for the device, and then the worker controls the device to be powered on and started;

when the valve plate separating device works, a worker controls the electric telescopic rod 710 to be powered on and started, the lifting rod 540 below is driven to move upwards through the extension and retraction of the electric telescopic rod 710, the lifting rod 540 drives the racks 550 to move upwards, the racks 550 synchronously move upwards through the sequential welding between the lifting rod 540 and the racks 550, the outer sides of the two corresponding valve plates 510 in each separating cylinder 310 are turned downwards through the meshing of the racks 550 and the corresponding half gears 520, an inclined slope is formed, and a sufficient gap is left between the synchronous valve plates 510 and the inner wall of the separating cylinder 310;

during operation, a worker carries out corn cob feeding operation through the feeding hole 620 above the cover bin 610, the corn cobs are enabled to quickly fall into the separating cylinders 310 below through the guiding of the feeding hole 620, the corn cobs are stacked inside the separating cylinders 310 layer by layer through gaps between the separating cylinders 310 and the valve plate 510, and then the worker provides electric support for the electric telescopic rod 710, so that the electric telescopic rod 710 drives the rack 550 to move downwards through the lifting rod 540, the valve plate 510 is enabled to turn over and close to the inner walls of the separating cylinders 310 after rotating, and the corn cobs inside the separating cylinders 310 are isolated;

when the device works, the third servo motor 720 is powered on and started to drive the vertical shaft 360 fixed on the rotating output shaft to rotate, the vertical shaft 360 drives the corresponding spur gear 350 to rotate, the rotating ring 320 rotates in the separating cylinder 310 by means of the meshing of the teeth between the spur gear 350 and the outer gear ring 340, so that the stirring plate 330 rotates around the middle position of the separating cylinder 310 to stir corn cobs placed in the separating cylinder 310, synchronously, after the fan 170 is powered on and started, outside air flows to the inside of the device to be conveyed, the air flows uniformly and stably flow into the inside of each separating cylinder 310 through the conveying of the main air duct 180 and the flow distribution of each flow distribution cover 410, and is guided out of the exhaust holes 430 on the outer wall above the corresponding separating cylinder 310 to the inside of the outer cylinder 110 under the pushing of subsequent air flows, and then flows back to the air inlet position of the fan 170 under the convergence of the return pipe 190, carrying out circulating air supply operation;

when the corn cob drying device works, the electric heating tube 160 fixed on the inner wall of the outer barrel 110 is electrified to generate heat, the interior of the device is heated, hot air circulation drying is carried out in cooperation with air flow circulation, and the stirring of the stirring plate 330 is matched, so that the corn cobs are dried quickly;

when the device works, after the corn cob drying operation is finished, a worker controls the electric telescopic rod 710 to be electrified and started to drive the rack 550 to move upwards, so that the valve plate 510 deflects and inclines, the dried corn cobs fall downwards from the connecting position between the valve plate 510 and the inner wall of the separating barrel 310 under the action of gravity, the corn cobs fall into the bottom bin 120 from top to bottom and then enter the discharging bin 210 through the guide of the guide bin 130, and in the falling process of the corn cobs, the corn particles falling from the upper part of the corn cobs enter the collecting bin 140 through the filtering of the filter plate 150 to be collected;

when in work, after the first servo motor 222 is electrified and started, the first servo motor drives a group of rubber rollers 221 fixed on a rotating output shaft of the first servo motor to rotate, through the transmission of the belt pulley transmission mechanism 223, the two corresponding groups of rubber rollers 221 synchronously rotate in the same direction, the corn cobs lying horizontally in the discharging bin 210 are erected by the poking adjustment of the two groups of rubber rollers 221, and then, the second servo motor 247 is powered on to drive the connecting shaft 246 fixed on the rotating output shaft to rotate, the two sets of rotating sleeves 244 are driven to rotate through the connecting shaft 246, so that the two sets of second bevel gears 245 which are symmetrically arranged rotate synchronously, through the tooth engagement between the second bevel gear 245 and the first bevel gear 242, the two corresponding sets of output rollers 241 rotate synchronously relative to each other, the corn cob is stably output by the rotary extrusion of the output roller 241 to carry out the discharging operation, which is the whole working principle of the invention.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an agricultural is with automatic drying equipment that has steady ejection of compact structure, includes drying mechanism (100), its characterized in that: the drying mechanism (100) comprises an outer barrel (110), a bottom bin (120) is fixedly welded at the bottom of the outer barrel (110), a guide bin (130) is fixedly welded at the front of the bottom bin (120), a discharging mechanism (200) is fixedly installed at the position below the front of the guide bin (130), the discharging mechanism (200) comprises a discharging bin (210), the discharging bin (210) is welded and communicated at the position below the front of the guide bin (130), rubber rollers (221) are symmetrically and rotationally connected with the front side and the rear side of the position above the inner part of the discharging bin (210), a first servo motor (222) is fixedly installed on the outer wall of the discharging bin (210), a rotating output shaft of the first servo motor (222) is fixedly connected at the middle position of one set of rubber rollers (221), and a belt pulley transmission mechanism (223) is fixedly connected between the two sets of rubber rollers (221), the rubber rollers (221) are in transmission connection through a belt pulley transmission mechanism (223), the cross section of each rubber roller (221) is Y-shaped, through grooves (231) are symmetrically formed in outer walls of the lower portions of the left side and the right side of the discharge bin (210), sliding seats (232) are symmetrically embedded in the front and the rear of the inner portion of each through groove (231), an output assembly (240) is installed at the position below the inner portion of the discharge bin (210), the output assembly (240) comprises output rollers (241), the output rollers (241) are provided with two groups, the output rollers (241) are respectively inserted between the two groups of sliding seats (232) corresponding to the left side and the right side, the output rollers (241) are rotatably connected with the sliding seats (232), a first bevel gear (242) is fixedly welded in the middle position of the right end of the output rollers (241), and L-shaped frames (243) are fixedly welded on the outer sides of the two groups of the sliding seats (232) on the right side, and the middle position of the L-shaped frame (243) is rotatably connected with a rotating sleeve (244), a second bevel gear (245) is fixedly sleeved on the outer side of the rotating sleeve (244), teeth assembled on the outer side of the second bevel gear (245) are matched with teeth assembled on the outer side of the first bevel gear (242), a connecting shaft (246) is inserted in the middle position of the corresponding two groups of rotating sleeves (244), a second servo motor (247) is fixedly installed on the outer wall of the discharging bin (210), and a rotating output shaft of the second servo motor (247) is fixedly connected to the middle position of one end of the back of the connecting shaft (246).

2. The agricultural automatic drying equipment with the stable discharging structure, according to claim 1, is characterized in that: the fixed intercommunication of guide storehouse (130) slope form is in the front of end storehouse (120), the bottom of end storehouse (120) is the slope form, the fixed intercommunication in bottom storehouse (120) has collection storehouse (140), and the fixed welding of intercommunication department of end storehouse (120) and collection storehouse (140) has filter plate (150).

3. The agricultural automatic drying equipment with the stable discharging structure, according to claim 1, is characterized in that: the utility model discloses a fan, including urceolus (110), bottom bin (120), air inlet, air outlet, air return pipe (190), and the other end of air return pipe (190) is fixed to be communicated at the top of urceolus (110), the inside fixed mounting of air inlet of fan (170) has check valve (800), the back fixed mounting of bottom bin (120) has fan (170), and the fixed intercommunication of air outlet department of fan (170) has main wind channel (180), the vertical form setting of main wind channel (180) is at the back of urceolus (110), the fixed intercommunication of air inlet department of fan (170) has back flow (190), and the fixed intercommunication.

4. The agricultural automatic drying equipment with the stable discharging structure, according to claim 1, is characterized in that: the outside size of sliding seat (232) and the inside size looks adaptation that leads to groove (231), sliding seat (232) and lead to sliding connection between groove (231), the inside of leading to groove (231) is inlayed and is had spring (233), and the one end fixed connection of spring (233) is on the inner wall that leads to groove (231), the other end fixed connection of spring (233) is on the outer wall of sliding seat (232), sliding seat (232) pass through spring (233) and lead to elastic sliding connection between groove (231).

5. The agricultural automatic drying equipment with the smooth discharging structure, according to claim 4, is characterized in that: the connecting shaft (246) is rotatably connected to the outer wall of the right side of the discharging bin (210), the cross section of the connecting shaft (246) is square, the inner size of the rotating sleeve (244) is matched with the outer size of the connecting shaft (246), and the rotating sleeve (244) is in sliding connection with the connecting shaft (246).

6. The agricultural automatic drying equipment with the stable discharging structure, according to claim 1, is characterized in that: the top fixed mounting of end storehouse (120) has partition mechanism (300), and partition mechanism (300) is provided with six groups altogether, six groups partition mechanism (300) vertical pile in the top of end storehouse (120) in proper order, partition mechanism (300) is including separating a section of thick bamboo (310), and a set of below separate a section of thick bamboo (310) welding intercommunication at the top of end storehouse (120), six groups separate and pile up the welding intercommunication in proper order between a section of thick bamboo (310), it has swivel (320) to inlay on the inner wall of a section of thick bamboo (310), and swivel (320) and separate and rotate between a section of thick bamboo (310) and be connected, evenly be fixed with on the inner wall of swivel (320) and dial board (330), fixed cover is equipped with outer ring gear (340) on the outer wall of swivel (320), and the meshing of the positive one side of outer ring gear (340) is connected with spur gear (350), the intermediate position of spur gear (350) is vertical being fixed with vertical axis (360), the straight gear (350) is rotatably connected with the separation cylinder (310) through a vertical shaft (360).

7. The agricultural automatic drying equipment with the smooth discharging structure, according to claim 6, is characterized in that: every group all fixed welding intercommunication has reposition of redundant personnel cover (410) on the back one side outer wall of separating a section of thick bamboo (310), and reposition of redundant personnel cover (410) and junction fixedly connected with baffle (420) of separating a section of thick bamboo (310), and the through-hole has evenly been seted up to the inside of baffle (420), evenly encircle on the top outer wall of separating a section of thick bamboo (310) and seted up exhaust hole (430).

8. The agricultural automatic drying equipment with the smooth discharging structure, according to claim 6, is characterized in that: the inside of each group of separating cylinders (310) is provided with a plugging mechanism (500), the plugging mechanism (500) comprises a valve plate (510), the inside of each group of separating cylinders (310) is provided with two groups of valve plates (510), two groups of valve plates (510) are symmetrically and rotationally connected to the inner wall below the separating cylinder (310), one side of each group of valve plates (510) close to the middle position of the bottom of the separating cylinder (310) is fixedly welded with a half gear (520), a vertical cylinder (530) is fixedly welded at the middle position above the inner part of the separation cylinder (310), a lifting rod (540) is vertically inserted into the vertical cylinder (530), a rack (550) is welded and fixed at the bottom of the lifting rod (540), and the rack (550) is vertically inserted between the two corresponding sets of the half gears (520), the teeth assembled on the outer side of the rack (550) are matched with the teeth assembled on the outer side of the half gear (520).

9. The agricultural automatic drying equipment with the smooth discharging structure, according to claim 8, is characterized in that: the top is a set of it has lid storehouse (610) to separate the fixed intercommunication in top of a section of thick bamboo (310), and the fixed welding in top of lid storehouse (610) has feed inlet (620), and is linked together between feed inlet (620) and lid storehouse (610), the top appearance of feed inlet (620) is for leaking hopper-shaped, the open-top appearance of feed inlet (620) is the rectangle.

10. The agricultural automatic drying equipment with the smooth discharging structure, according to claim 9, is characterized in that: the top is a set of inside rack (550) welded fastening of shutoff mechanism (500) is a set of in the below directly over the inside lifter (540) of shutoff mechanism (500), the top fixed mounting of lid storehouse (610) has electric telescopic handle (710), and the top is a set of the fixed welding of top of lifter (540) is on electric telescopic handle's (710) power output shaft, and is adjacent two sets of fixed connection between the inside vertical axis (360) of partition mechanism (300), the bottom fixed mounting of urceolus (110) has third servo motor (720), and the rotation output shaft fixed connection of third servo motor (720) is a set of in the below the bottom of vertical axis (360).