CN215050059U - Intelligent integrated equipment of drying in air of stand - Google Patents

Abstract

The utility model discloses an intelligent integrated spreading and drying equipment, which relates to the technical field of white spirit brewing, and comprises at least one chain scraper conveyor, wherein the input end of the chain scraper conveyor is provided with a water spraying module which can reciprocate along the conveying direction, a yeast discharging module and a plurality of grain discharging modules are arranged above the chain scraper conveyor, and a plurality of air blowing modules are arranged below the chain scraper conveyor; still include PLC control module and input module, input module is connected with PLC control module, and PLC control module output is connected with the chain scraper conveyor, water spray module, the drive switch on bent module and a plurality of grain module down respectively. The utility model discloses the whole stand of messenger's lees dries in the air the process and realizes automaticly completely to do not need manual operation, reduce artifical intensity of labour completely.

Description

Intelligent integrated equipment of drying in air of stand

Technical Field

The utility model relates to a white spirit makes technical field, particularly, relates to an equipment dries in air at intelligent integrated stand.

Background

In the traditional production process of the strong aromatic Chinese spirits, the process of spreading and airing, also called raising and cooling, is carried out, so that the vinasse out of the retort is quickly and uniformly cooled to the cellar-entering temperature, and the volatile acid and the surface moisture of the vinasse are promoted to be largely volatilized as far as possible.

The traditional spreading and airing method comprises the following steps: transporting the vinasse to the ground, enabling workers to turn the vinasse repeatedly and repeatedly by using an iron shovel to quickly cool the vinasse, spreading and airing the vinasse to a proper temperature, then spraying yeast medicines on the vinasse, manually stirring the vinasse and the yeast medicines to mix, and after yeast addition is finished, putting the vinasse into a cellar for fermentation. The traditional spreading and drying mode has the defects of high labor intensity, long spreading and drying time, poor spreading and drying environment and easy pollution.

In order to solve the problem of high labor intensity of the traditional spread drying mode, the spread drying equipment widely adopted in the prior art is a chain plate type spread drying machine, vinasse is spread on a spread drying chain plate with a certain thickness, air holes are formed in the spread drying chain plate, a fan is arranged at the bottom of the spread drying chain plate, the fan can blow air to the chain plate to accelerate cooling of the vinasse, the vinasse is added with yeast when the temperature of the vinasse is reduced to a certain temperature range, the vinasse is manually turned over and shoveled, so that the vinasse and the yeast are uniformly mixed, and the vinasse and the yeast are placed into a cellar for fermentation after stirring. Although the spreading and drying system can greatly reduce the labor intensity of workers, the full-automatic spreading and drying is difficult to realize, so that an intelligent integrated spreading and drying device is urgently needed to form an automatic spreading and drying production line, so that the vinasse is completely free from manual operation in the spreading and drying process, and the labor intensity of workers is completely reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an equipment dries in air at intelligent integrated stand makes the whole stand of lees dry in air the process and realizes the automation completely to do not need manual operation, reduce artifical intensity of labour completely.

For realizing the purpose of the utility model, the technical proposal adopted is that: an intelligent integrated spreading and drying device comprises at least one chain scraper conveyor, wherein a water spraying module capable of reciprocating along the conveying direction is mounted at the input end of the chain scraper conveyor, a lower bending module and a plurality of grain discharging modules are further arranged above the chain scraper conveyor, and a plurality of air blowing modules are further arranged below the chain scraper conveyor; still include PLC control module and input module, input module is connected with PLC control module, and PLC control module output is connected with the chain scraper conveyor, water spray module, the drive switch on bent module and a plurality of grain module down respectively.

Furthermore, the chain plate conveyor comprises a rack, conveying chain plates and a plurality of rollers, the conveying chain plates are wound on the rollers, a chain plate motor for driving one of the rollers to rotate is further installed on the rack, and the PLC control module is connected with a driving switch of the chain plate motor.

Further, install a plurality of material detection sensors on the drag chain conveyor, a plurality of material detection sensors are located the feed side of bent module and a plurality of unloading module down respectively, and a plurality of material detection sensors's output all is connected with PLC control module's input electricity.

Further, still install temperature sensor on the chain scraper conveyor, temperature sensor is located chain scraper conveyor's output, and temperature sensor's output and PLC control module input electricity are connected.

Furthermore, guide rails are mounted on two sides of the input end of the chain plate conveyor, the water spraying module comprises fixed frames and walking wheels rotatably mounted on the fixed frames, the walking wheels are matched with the guide rails, a water spraying pipe is connected between the two fixed frames, a conveying water pump is connected to the water spraying pipe, and a plurality of water spraying nozzles are arranged on the water spraying pipe; one of them install the walking motor of road wheel of drive on the mount, PLC control module is connected with the actuating switch of walking motor.

Furthermore, a plurality of position information acquisition sensors are further installed at the inlet end of the chain plate conveyor and are arranged along the conveying direction of the chain plate conveyor, and the output ends of the position information acquisition sensors are electrically connected with the input end of the PLC control module.

Further, the grain discharging module comprises a storage hopper fixedly supported above the chain scraper conveyor, a discharge port is arranged below the storage hopper, and a feeder is arranged in the discharge port.

Furthermore, the feeder comprises a rotating shaft supported on the discharge port in a rotating mode and blades distributed at equal intervals along the circumferential direction of the rotating shaft, one end of the rotating shaft penetrates through the discharge port and extends outwards, a feeding motor for driving the rotating shaft to rotate is further installed on the outer wall of the storage hopper, and the PLC control module is connected with a driving switch of the feeding motor.

Further, still install weighing sensor on the storage hopper, and a plurality of weighing sensor's output all is connected with PLC control module's input electricity.

Further, the bent module includes that fixed stay is at the bent silo of drag chain conveyor top down, and a plurality of vertical downwardly extending's conveyer pipe is installed to bent silo bottom, and the lower extreme of a plurality of conveyer pipes installs the shower jointly, and the shower extends along drag chain conveyor's width direction, and the bottom fixed mounting of shower has a plurality of overflow holes.

Furthermore, a plurality of switch valves are installed on the conveying pipes, and the PLC control module is electrically connected with the execution switch of the switch valves.

Furthermore, a plurality of scattering modules are rotatably supported on the chain plate conveyor and are arranged at intervals along the conveying direction of the chain plate conveyor.

Furthermore, the scattering module comprises a scattering roller which is rotatably supported on the chain plate conveyor, rake teeth and screw blades are installed on the scattering roller, a scattering motor which drives the scattering roller to rotate is also installed on the chain plate conveyor, and a driving switch of the scattering motor is connected with the output end of the PLC control module.

Furthermore, a plurality of boxes are further installed below the chain scraper conveyor, the boxes are arranged at intervals along the conveying direction of the chain scraper conveyor, the air blowers are installed in the boxes one by one through the plurality of air blowing modules, and the driving switches of the air blowers are connected with the output end of the PLC control module.

The utility model has the advantages that,

the utility model discloses a to the link plate conveyer, the water spray module, lower song module, lower grain module, the air-blast module is integrated, and set PLC control module, make PLC control module respectively to the link plate conveyer, the water spray module, lower song module, lower grain module, air-blast module control, make the equipment that dries in the air of integrated stand realize the intelligent integrated form stand equipment that dries in the air, make the stand in the air the in-process only need the workman cooperation make the lees empty can at the input of link plate conveyer, make the stand of lees dry in the air and form automatic production line, make the lees dry in the air the in-process at the stand and do not need manual operation completely, reduce artifical intensity of labour completely.

Drawings

Fig. 1 is a structural diagram of the intelligent integrated spreading and drying device provided by the utility model;

FIG. 2 is a block diagram of a water spray module;

FIG. 3 is a block diagram of a let-down module;

FIG. 4 is a cross-sectional view of a shower;

FIG. 5 is a block diagram of the grain discharge module;

FIG. 6 is a block diagram of a break-up module;

fig. 7 is a system block diagram of an intelligent integrated stand-drying device;

FIG. 8 is an electrical control schematic diagram of the PLC control module and the water spray module;

FIG. 9 is an electrical control schematic of the water spray module;

FIG. 10 is an electrical control schematic of the variable frequency controller on the travel motor;

FIG. 11 is an electrical control schematic diagram of the PLC control module and the chain scraper conveyor, the yeast-discharging module and a plurality of grain-discharging modules;

FIG. 12 is an electrical control schematic of the slat conveyor;

fig. 13 is an electrical control schematic diagram of the blanking motor;

fig. 14 is an electrical control schematic diagram of a blanking motor up-conversion controller;

fig. 15 is an electrical control schematic diagram of a variable frequency controller of a chain-link motor.

Reference numbers and corresponding part names in the drawings:

1. the grain discharging device comprises a chain scraper conveyor, 2, a water spraying module, 3, a yeast discharging module, 4, a grain discharging module, 5, a blowing module, 6 and a scattering module;

100. the device comprises a rack 101, a conveying chain plate 102, a roller 103 and a chain plate motor;

200. guide rails 201, a fixing frame 202, traveling wheels 203, water spraying pipes 204, water spraying nozzles 205, traveling motors 206 and a water conveying pump;

300. a curved material groove 301, a delivery pipe 302, a spray pipe 303, an overflow hole 304 and a switch valve;

400. the device comprises a storage hopper 401, a discharge hole 402, a rotating shaft 403, a blade 404 and a blanking motor;

500. a box body 501 and a blower;

600. a breaking roller 601, rake teeth 602, propeller blades 603 and a breaking motor.

Detailed Description

The present invention will be described in further detail below with reference to specific embodiments and with reference to the accompanying drawings.

As shown in fig. 1 to 15, the utility model provides an intelligent integrated spreading and drying equipment, which comprises at least one chain scraper conveyor 1, wherein when the conveying distance of the chain scraper conveyor 1 is long, the chain scraper conveyor 1 can be arranged one by one, and when the conveying distance of the chain scraper conveyor 1 is short, a plurality of chain scraper conveyors 1 can be arranged, and the chain scraper conveyors 1 are sequentially butted; meanwhile, both sides of the chain plate conveyor 1 are provided with baffle structures, and the chain plate conveyor 1 can be directly used for horizontal conveying and can also comprise horizontal conveying and lifting conveying.

Can follow direction of delivery reciprocating motion's water spray module 2 is installed to chain scraper conveyor 1's input, and after the lees that need to spread out and dry in the air topples over to chain scraper conveyor's input, through water spray module 2 at chain scraper conveyor 1's input reciprocating motion, make water spray module 2 to even water that sprays on the lees, make the quick cooling of lees.

A lower yeast module 3 and a plurality of grain discharging modules 4 are further arranged above the chain plate conveyor 1, the lower yeast module 3 mainly uniformly adds yeast drugs into the distiller's grains conveyed on the chain plate conveyor 1, and the grain discharging modules 4 mainly uniformly adds bran materials or grains and the like into the distiller's grains conveyed on the chain plate conveyor 1; still be equipped with a plurality of air blast modules 5 below drag chain conveyor 1, a plurality of air blast modules 5 are arranged along drag chain conveyor 1's direction of delivery interval, and air blast module 5 blows to cooling air to drag chain conveyor 1, and mainly used makes the lees continue to cool off after the volume water that adds finishes.

The equipment of drying in air of intelligent integrated stand still includes PLC control module and input module, and PLC control module is programmable controller, and PLC control module's model is AD23-0XB8, and input module is mainly to PLC control module input parameter, instruction, and input module is the MHI touch-sensitive screen, and input module is connected with PLC control module, not only makes the staff directly read through the MHI touch-sensitive screen the utility model discloses a parameter of each state and each module still makes the staff pass through the MHI touch-sensitive screen to PLC control module input corresponding parameter or instruction. The output end of the PLC control module is respectively connected with the chain plate conveyor 1, the water spraying module 2, the yeast dropping module 3 and the driving switches on the plurality of yeast dropping modules 4, the PLC control module sends driving instructions to the chain plate conveyor 1, the water spraying module 2, the yeast dropping module 3 and the driving switches on the plurality of yeast dropping modules 4, so that the chain plate conveyor 1, the water spraying module 2, the yeast dropping module 3 and the driving switches on the plurality of yeast dropping modules 4 act, the chain plate conveyor 1, the water spraying module 2, the yeast dropping module 3 and the plurality of yeast dropping modules 4 automatically act, the whole airing of the vinasse is realized by automatically conveying, adding water, adding yeast, adding bran or adding grains and the like in the airing process, the whole airing of the vinasse is realized intelligently, the vinasse can be poured at the input end of the chain plate conveyor 1 only by matching with workers in the airing process, the airing of the vinasse forms an automatic production line, and the vinasse is completely free of manual operation in the airing process, the labor intensity of workers is completely reduced.

The chain scraper conveyor 1 comprises a rack 100, a conveying chain plate 101 and a plurality of rollers 102, the rollers 102 are arranged at intervals along the conveying direction of vinasse, the conveying chain plate 101 is jointly wound on the rollers 102, a chain scraper motor 103 for driving one of the rollers 102 to rotate is further installed on the rack 100, the chain scraper motor 103 is a variable frequency motor, the output end of the chain scraper motor 103 is connected with the rollers 102 through a speed reducer, and a PLC control module is connected with a driving switch of the chain scraper motor 103. When the chain plate motor 103 needs to be started or stopped, the PLC control module sends a driving instruction to a driving switch of the chain plate motor 103, and the driving switch on the chain plate motor 103 acts after receiving the driving instruction, so that the driving switch on the chain plate motor 103 is opened or closed, and the automatic control of the chain plate conveyor 1 is realized.

The chain plate conveyor 1 is provided with a plurality of material detection sensors, the material detection sensors are directly used by the existing sensors, the material detection sensors are respectively positioned on the feeding sides of the lower bending module 3 and the blanking modules, the material detection sensors are used for detecting whether the chain plate conveyor 1 conveys the vinasse to the corresponding blanking module or the feeding side of the lower bending module 3, and the output ends of the material detection sensors are electrically connected with the input end of the PLC control module; chain scraper conveyor 1 is in the transportation process to the lees, when material detection sensor material, material detection sensor gives PLC control module with signal transmission, PLC control module is after receiving the signal of telecommunication, drive switch send instruction in the lower bent module 3 or the unloading module in PLC control module and the lower bent module 3 that corresponds, make lower bent module 3 and a plurality of unloading modules begin to carry out the unloading to grain or bran material or bent material, the grain or bran material or bent material that make the unloading directly spill on the lees, make even spraying in the lees of grain or bran material or bent material, make grain or bran material or bent material and the mixture of lees more even.

Still install temperature sensor on chain scraper conveyor 1, temperature sensor is located chain scraper conveyor 1's output, temperature sensor can detect the temperature of lees, temperature sensor gives PLC control module with signal transmission after the temperature that detects lees, PLC control module contrastive analysis, when the temperature of contrast result lees is too high, PLC control module sends the instruction to air-blast motor's variable frequency controller, make air-blast motor's frequency uprise, make air-blast motor's rotational speed rise, thereby make air-blower 501's power grow, improve the cooling effect of air-blower 501 to the lees.

Guide rails 200 are respectively installed on two sides of an input end of the chain plate conveyor 1, the two guide rails 200 are respectively installed on two side walls of the chain plate conveyor 1, the water spraying module 2 comprises a fixing frame 201 and a plurality of walking wheels 202 rotatably installed on the fixing frame 201, the walking wheels 202 are I-shaped wheels, the walking wheels 202 are matched with the guide rails 200, the walking wheels 202 on each fixing frame 201 can be in a plurality, the fixing frame 201 is jointly supported by the walking wheels 202, a water spraying pipe 203 is fixedly connected between the two fixing frames 201, a conveying water pump 206 is connected to the water spraying pipe 203, an inlet end of the conveying water pump 206 is connected with a dosing water system in a wine brewing process, meanwhile, a plurality of water spraying nozzles 204 are installed on the water spraying pipe 203, and the water spraying nozzles 204 are uniformly distributed at intervals along the length direction of the water spraying pipe 203; meanwhile, a walking motor 205 for driving the walking wheels 202 is installed on one of the fixing frames 201, the output end of the walking motor 205 is connected with the walking wheels 202 through a speed reducer, the walking motor 205 is a variable frequency motor capable of rotating forward and backward, so that the rotating speed and the rotating direction of the walking motor 205 can be adjusted, the PLC control module is connected with a driving switch of the walking motor 205, a driving instruction is sent to the driving switch of the walking motor 205 through the PLC control module, the walking motor 205 rotates forward or backward, or the rotating speed is increased and the rotating speed is reduced, so that the water spraying module 2 can adjust according to the distribution condition of vinasse poured at the input end of the chain plate conveyor 1, the water added into the vinasse is enabled to be more uniform, the PLC control module is electrically connected with the conveying water pump 206, when the conveying water pump 206 needs to be started or stopped, the PLC control module sends an execution command to the driving switch of the conveying water pump 206, the drive switch of the transfer pump 206 starts to operate upon receiving the execution command, and the drain pump 206 is started or stopped.

The system comprises a chain plate conveyor 1, a plurality of position information acquisition sensors, a plurality of signal acquisition sensors and a PLC control module, wherein the inlet end of the chain plate conveyor 1 is also provided with the position information acquisition sensors which are arranged along the conveying direction of the chain plate conveyor 1; specifically, the number of the position signal collecting sensors in the present invention is 5, when the PLC control module sends an instruction to the driving switch on the traveling motor 205, the traveling motor 205 is rotated, the water spraying module 2 is moved at the input end of the spread-drying module, when the third position information collecting sensor along the conveying direction of the wine lees detects the water spraying module 2, the third position information collecting sensor sends an instruction to the PLC control module, the PLC control module sends an instruction to the frequency conversion controller on the traveling motor 205, so that the frequency of the traveling motor 205 is lowered, the traveling motor 205 is rotated at a low speed, the water spraying module 2 is advanced at a low speed, after the fourth position information collecting sensor detects the water spraying module 2, the fourth position information collecting sensor sends an instruction to the PLC control module, the PLC control module sends an instruction to the frequency conversion controller on the traveling motor 205, so that the frequency of the traveling motor 205 is raised, the walking motor 205 is enabled to rotate rapidly, the water spraying module 2 advances rapidly, after the fifth position information acquisition sensor detects the water spraying module 2, the fifth position information acquisition sensor sends an instruction to the PLC control module, the PLC control module sends an instruction to a driving switch on the walking motor 205 and sends an instruction to a variable frequency controller on the walking motor 205, the walking motor 205 rotates reversely rapidly, the water spraying module 2 retracts rapidly, after the fourth position information acquisition sensor detects the retraction of the water spraying module 2, the fourth position information acquisition sensor sends an instruction to the PLC control module, the PLC control module sends an instruction to the variable frequency controller on the walking motor 205, the frequency of the walking motor 205 is lowered, the walking motor 205 rotates slowly, the water spraying module 2 retracts slowly, after the third position information acquisition sensor detects the retraction of the water spraying module 2, the third position information acquisition sensor sends an instruction to the PLC control module, the PLC control module sends an instruction to the variable frequency controller on the walking motor 205 to enable the frequency of the walking motor 205 to be high, the walking motor 205 rotates rapidly and the water spraying module 2 retracts rapidly, after the second position information acquisition sensor detects that the water spraying module 2 retracts, the second position information acquisition sensor sends an instruction to the PLC control module, the PLC control module sends an instruction to the driving switch on the walking motor 205 and sends an instruction to the variable frequency controller on the walking motor 205 to enable the walking motor 205 to rotate rapidly and forwardly and the water spraying module 2 to advance rapidly, the third position information acquisition sensor sends an instruction to the PLC control module, the PLC control module sends an instruction to the variable frequency controller on the walking motor 205 to enable the frequency of the walking motor 205 to be low, and the walking motor 205 rotates at a low speed, the water spraying module 2 advances at a low speed, the walking motor 205 reciprocates in a circulating manner until the water spraying amount is reached, the PLC control module sends an instruction to a driving switch on the walking motor 205 to enable the walking motor 205 to rotate in the reverse direction rapidly, the water spraying module 2 is in the original position rapidly, and when the first position information acquisition sensor detects the water spraying module 2, the PLC control module sends an instruction to the driving switch of the walking motor 205 to enable the walking motor 205 to stop rotating, and the water spraying module 2 finishes working.

The grain discharging module 4 comprises a storage hopper 400 fixedly supported above the chain scraper conveyor 1, the storage hopper 400 is in a rectangular funnel shape, the storage hopper 400 is used for storing bran materials or grains and the like added into the vinasse, a discharge port 401 is arranged below the storage hopper 400, the width of the discharge port 401 is consistent with that of the chain scraper conveyor 1, so that the bran materials or the grains sent out through the discharge port 401 uniformly drop on the vinasse conveyed by the chain scraper conveyor 1, and the bran materials or the grains are more uniformly mixed with the vinasse; simultaneously; the discharge port 401 is a rectangular pipe, a feeder is further installed in the discharge port 401, and bran material or grain in the storage hopper 400 can be evenly fed through the feeder after entering the discharge port 401 through the feeder, so that the bran material or grain mixed into the distiller's grains is more even.

The feeder comprises a rotating shaft 402 rotatably supported on the discharge port 401 and blades 403 uniformly arranged at intervals along the circumferential direction of the rotating shaft 402, the blades 403 and the rotating shaft 402 are in an integral structure, a trough is formed between two adjacent blades 403, and the rotating shaft 402 rotates at a constant speed to uniformly discharge bran materials or grains in the trough; meanwhile, one end of the rotating shaft 402 penetrates through the discharge port 401 and extends outwards, the outer wall of the storage hopper 400 is further provided with a discharging motor 404 for driving the rotating shaft 402 to rotate, the discharging motor 404 is a variable frequency motor, a speed reducer can be connected between the output end of the discharging motor 404 and the rotating shaft 402, the PLC control module is connected with a driving switch of the discharging motor 404, a driving instruction is sent to the driving switch of the discharging motor 404 through the PLC control module, the driving switch of the discharging motor 404 is enabled to act, and the PLC control module is enabled to control automatic discharging of a discharging device.

Still install weighing sensor on the storage hopper 400, a plurality of weighing sensor set up one by one on a plurality of storage hoppers 400, a plurality of weighing sensor detect the weight of grain or chaff among a plurality of storage hoppers 400 respectively, a plurality of weighing sensor transmit PLC control module after detecting the weight of grain or chaff, make the staff learn behind the weight of grain or chaff accessible input module to the frequency of PLC control module input unloading motor 404 and link joint motor 103, and after the settlement finishes, input the start command through input module, PLC control module is after receiving the start command that input module sent, PLC control module automatic control link joint motor 103, the start of unloading motor 404.

Make a song module 3 including the bent material groove 300 of fixed stay in drag chain conveyor 1 top down, bent material is the liquid form, and the bent material that mixes is deposited in the storage inslot, and the conveyer pipe 301 of a plurality of vertical downwardly extending is installed to the bottom in bent material groove 300, make the automatic conveyer pipe 301 that enters into of bent material in bent material groove 300, and shower 302 is installed jointly to the lower extreme of a plurality of conveyer pipes 301, the length of shower 302 and drag chain conveyor 1's width cooperation, a plurality of overflow holes 303 have been seted up to the bottom of shower 302, make bent material pass through conveyer pipe 301 and enter into back in the shower 302, finally through the even discharge of overflow hole 303, make the even lees of spraying of bent material on drag chain conveyor 1 transport in, make the bent material of lees joining more even.

The conveying pipes 301 are all provided with the switch valves 304, the switch valves 304 are directly used by the existing electromagnetic valves, the execution switches of the switch valves 304 are all electrically connected with the output end of the PLC control module, when the switch valves 304 are required to be controlled to be opened or closed, the PLC control module sends execution commands to the execution switches of the switch valves 304 to enable the execution switches to act, so that the switch valves 304 are opened or closed, the conveying pipes 301 are opened or closed, the spraying or closing of the spraying pipes 302 is controlled, and the spraying of the bent materials is controlled.

All be equipped with the flowmeter on water spray module 2 and the piece of song piece 3 down, the flowmeter is prior art's direct use, when the flowmeter is to PLC control module send instruction in the detection, when PLC control module contrast obtains the water gaging that water spray module 2 sprayed and reaches the default, PLC control module sends instruction to the drive switch of ooff valve 304, ooff valve 304 stops to spray water, thereby make water spray module 2 realize the ration water spray, when the material of cranking that PLC control module contrast obtained piece 3 of song of down sprayed reaches the default, PLC control module sends alarm command, make people in time supplement the material of cranking in the piece 3 of song down.

Still rotate the supporting on the chain scraper conveyor 1 and have a plurality of modules 6 of breaing up, a plurality of modules 6 of breaing up are arranged along chain scraper conveyor 1's direction of delivery interval, one of them module 6 of breaing up can be located chain scraper conveyor 1's input, the module 6 of breaing up can be located between two adjacent grain modules 4 down, between grain module 4 and the module 3 of making hard liquor distiller's grains down and chain scraper conveyor 1's output, make the lees when carrying, when exporting, after the chaff, after the grain, go on after the yeast distiller's grains are broken up and mix down, not only make things convenient for the lees to break up, the cooling, and make the bran material, grain and bent material spill can abundant mixed lees after falling on the lees, thereby need not to air lees and mix again after spreading, the process flow of lees has been reduced.

Break up module 6 and including rotating the roller 600 that breaks up of supporting on drag chain conveyor 1, the both ends of breaking up roller 600 all rotate the supporting in drag chain conveyor 1's both sides through the bearing, and break up and install rake teeth 601 and propeller blade 602 on the roller 600, rake teeth 601 is the T type, rake teeth 601 evenly distributed is on breaking up roller 600, propeller blade 602 arranges along breaking up roller 600 spiral, cooperation through propeller blade 602 and rake teeth 601, can not only realize breaking up the lees, along with the rotation of breaking up roller 600, rake teeth 601 enables the lees uplift, make lees turn-over on drag chain conveyor 1, make the mixture of lees more abundant, the cooling effect that makes lees is better.

The chain plate conveyor 1 is also provided with a scattering motor 603, and the output end of the scattering motor 603 is connected with the scattering roller 600 through a coupler or a reducer; meanwhile, the break-up motor 603 is a variable frequency motor, a drive switch of the break-up motor 603 is connected with an output end of the PLC control module, when the break-up motor 603 is driven to start or stop, the PLC control module sends an execution command to the drive switch of the break-up motor 603, and the drive switch of the break-up motor 603 starts to operate after receiving the execution command, so as to start or stop the break-up motor 603.

A plurality of box bodies 500 are further mounted below the chain-plate conveyor 1, the width of each box body 500 corresponds to the width of the chain-plate conveyor 1, and the outer side of each box body 500 is provided with an opening and closing door which can be opened and closed, so that the box bodies 500 can be opened or closed; the multiple box bodies 500 are arranged at intervals along the conveying direction of the chain conveyor 1, the multiple air blowing modules 5 are installed on the air blowers 501 in the multiple box bodies 500 one by one, and the air blowers 501 blow air to the conveying surface of the chain conveyor 1, so that cooling air is directly applied to the conveying surface of the chain conveyor 1, and the vinasse conveyed on the chain conveyor 1 can be cooled rapidly; meanwhile, the blower 501 is composed of a blower motor and fan blades fixed on the output end of the blower motor, and a drive switch of the blower motor is connected with the output end of the PLC control module, when the blower 501 operates or stops, the PLC control module sends an execution command to the drive switch of the blower motor, and the drive switch of the blower motor starts to operate after receiving the command, so that the blower motor operates or stops, thereby operating or stopping the blower 501.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (14)

1. The intelligent integrated spreading and drying equipment is characterized by comprising at least one chain plate conveyor (1), wherein a water spraying module (2) capable of reciprocating along the conveying direction is installed at the input end of the chain plate conveyor (1), a lower bending module (3) and a plurality of lower grain modules (4) are further arranged above the chain plate conveyor (1), and a plurality of air blowing modules (5) are further arranged below the chain plate conveyor (1); still include PLC control module and input module, input module is connected with PLC control module, and PLC control module output is connected with chain scraper conveyor (1), water spray module (2), drive switch on bent module (3) and a plurality of grain module (4) down respectively.

2. The intelligent integrated spreading and drying equipment according to claim 1, wherein the chain plate conveyor (1) comprises a rack (100), a conveying chain plate (101) and a plurality of rollers (102), the conveying chain plate (101) is wound on the plurality of rollers (102) together, a chain plate motor (103) for driving one of the rollers (102) to rotate is further mounted on the rack (100), and the PLC control module is connected with a driving switch of the chain plate motor (103).

3. The intelligent integrated spreading and drying equipment according to claim 1, wherein a plurality of material detection sensors are mounted on the chain scraper conveyor (1), the plurality of material detection sensors are respectively positioned at the feeding sides of the lower bending module (3) and the plurality of blanking modules, and the output ends of the plurality of material detection sensors are electrically connected with the input end of the PLC control module.

4. The intelligent integrated spreading and drying equipment according to claim 1, wherein a temperature sensor is further mounted on the chain-plate conveyor (1), the temperature sensor is located at the output end of the chain-plate conveyor (1), and the output end of the temperature sensor is electrically connected with the input end of the PLC control module.

5. The intelligent integrated spreading and drying equipment according to claim 1, wherein guide rails (200) are mounted on two sides of the input end of the chain plate conveyor (1), the water spraying module (2) comprises fixed frames (201) and walking wheels (202) rotatably mounted on the fixed frames (201), the walking wheels (202) are matched with the guide rails (200), a water spraying pipe (203) is further connected between the two fixed frames (201), a conveying water pump (206) is connected to the water spraying pipe (203), and a plurality of water spraying nozzles (204) are arranged on the water spraying pipe (203); one of the fixed frames (201) is provided with a walking motor (205) for driving a walking wheel (202), and the PLC control module is connected with a driving switch of the walking motor (205) and a driving switch of the conveying water pump (206).

6. The intelligent integrated spreading and drying equipment according to claim 5, wherein a plurality of position information acquisition sensors are further mounted at the inlet end of the chain conveyor (1), the position information acquisition sensors are arranged along the conveying direction of the chain conveyor (1), and the output ends of the position information acquisition sensors are electrically connected with the input end of the PLC control module.

7. The intelligent integrated spreading and drying equipment according to claim 1, wherein the grain discharging module (4) comprises a storage hopper (400) fixedly supported above the chain-plate conveyor (1), a discharge hole (401) is formed below the storage hopper (400), and a feeder is installed in the discharge hole (401).

8. The intelligent integrated spreading and drying device of claim 7, wherein the feeder comprises a rotating shaft (402) rotatably supported on the discharge port (401) and blades (403) uniformly arranged at intervals along the circumferential direction of the rotating shaft (402), one end of the rotating shaft (402) extends outwards through the discharge port (401), a feeding motor (404) for driving the rotating shaft (402) to rotate is further mounted on the outer wall of the storage hopper (400), and the PLC control module is connected with a driving switch of the feeding motor (404).

9. The intelligent integrated spreading and drying device as claimed in claim 7, wherein the storage hopper (400) is further provided with a weighing sensor, and the output ends of the weighing sensors are electrically connected with the input end of the PLC control module.

10. The intelligent integrated spreading and drying equipment according to claim 1, wherein the lower bent module (3) comprises a bent trough (300) fixedly supported above the chain plate conveyor (1), a plurality of conveying pipes (301) vertically extending downwards are installed at the bottom of the bent trough (300), a spraying pipe (302) is installed at the lower ends of the plurality of conveying pipes (301), the spraying pipe (302) extends along the width direction of the chain plate conveyor (1), and a plurality of overflow holes (303) are fixedly installed at the bottom of the spraying pipe (302).

11. The intelligent integrated spreading and drying device according to claim 10, wherein a plurality of the delivery pipes (301) are respectively provided with a switch valve (304), and the PLC control module is electrically connected with an execution switch of the switch valve (304).

12. The intelligent integrated spreading and drying device according to claim 1, wherein the scraper conveyor (1) is further rotatably supported with a plurality of scattering modules (6), and the scattering modules (6) are arranged at intervals along the conveying direction of the scraper conveyor (1).

13. The intelligent integrated spreading and drying equipment according to claim 12, wherein the scattering module (6) comprises a scattering roller (600) rotatably supported on the chain-plate conveyor (1), rake teeth (601) and propeller blades (602) are mounted on the scattering roller (600), a scattering motor (603) for driving the scattering roller (600) to rotate is further mounted on the chain-plate conveyor (1), and a driving switch of the scattering motor (603) is connected with an output end of the PLC control module.

14. The intelligent integrated spreading and drying equipment according to claim 1, wherein a plurality of boxes (500) are further installed below the chain scraper conveyor (1), the boxes (500) are arranged at intervals along the conveying direction of the chain scraper conveyor (1), the air blowing modules (5) are installed on the air blowers (501) in the boxes (500) one by one, and a driving switch of the air blower (501) is connected with an output end of the PLC control module.

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