KR20180089323A - Smart factory type for coffee and grain of standard capacity - Google Patents

Abstract

The present invention relates to a smart-factory type distributor for a standard quantity of coffee beans and grains. More specifically, the distributor comprises: a storage tank having an internal space into which sorted coffee beans or crops are inserted; an inclined surface inclined downwards to the center of the storage tank; an inlet formed in the center of the inclined surface to be penetrated downwards to make the coffee beans or crops inserted into the lower part; a storage temporarily storing the coffee beans or crops inserted through the inlet; and an outlet discharging the coffee beans or crops stored in the storage so that the coffee beans or crops are transferred to a worktable. A plurality of outlets are arranged at regular intervals in a circumferential direction, and the worktable is installed to be matched with each of the outlets. As mentioned above, in regard to manufacturing food such as coffee and grains through the IoT technology-based device of the present invention, more standardized work than what a skillful worker is possible (working hour control for reducing a loss of time, and grain weight control on a loss of materials caused by a mistake of a worker or a working environment), a sanitary production process environment is provided, big data is able to be formed about production by working hour, and thus, an IoT-based production prediction system processing big data about clients and sales is built. As such, the present invention is capable of enabling fresh and healthy products to be produced, thereby optimizing a customized service.

Description

Technical Field [0001] The present invention relates to a smart factory type distributor for coffee beans and cereals,

The present invention relates to a device for automatically transferring and storing coffee beans and grains to the present storage and dispensing apparatus at a process step before storage in the apparatus, and automatically distributing the desired amount of grains to the machine in the next process. IOT is used to automatically control each process step. A smart factory type dispenser for coffee beans and cereals, which can produce safe and healthy food production with more accurate production process by providing a smart factory type working environment while reducing the labor force.

Smart Factory refers to factories that have enhanced their energy efficiency and increased the proportion of automation by incorporating advanced information technology (IT) into their manufacturing plants.

In other words, it is an intelligent factory that can improve productivity, quality, and customer satisfaction by applying information and communication technology (ICT) to the entire production process such as design, development, manufacturing, distribution and logistics.

Therefore, IOT is installed between plant and equipment in the plant to exchange real-time information to increase productivity, and automatic detection of product location and inventory quantity to reduce human, material and resources I will.

Conventional techniques for dispensing grain or coffee include a storage container for storing grains in a lower hole in a storage container of Patent Registration No. 1502760 and a receiving body coupled to a lower portion of the storage container, And a pull-out unit for pulling the grains passing through the lower hole in a horizontal direction, while the pull-out unit is filled with the grains passing through the lower hole at the time of advancement and then blocking the grain leakage of the lower hole at the time of backward movement And only the filled grain is taken out in the lateral direction.

Another conventional technique is disclosed in Japanese Patent Application Laid-Open Publication No. 2015-0043957, in which a grain storage body for storing grain, a grain discharging unit for discharging a predetermined amount of the grain stored in the grain storage body, A base; The grain discharging unit includes a grain retrieving and supporting member having a discharged grain storing portion in which the grain discharged from the grain storing body is stored for drawing out, an operating knob for taking out the grain stored in the discharged grain storing portion, The upper and lower portions are opened so that the grain to be drawn out is introduced into the discharged grain storing portion, and the grain discharging plates are connected to each other by the side plates of both sides And a grain inflow preventing member that is provided at a rear side of the grain breeding publication and blocks a cereal from flowing into the discharged grain storing portion in a state where the pulling action of the grain progresses The present invention relates to a grain storage device having a constant-volume delivery structure.

The conventional distributor has a disadvantage in that it is difficult to dispense in a fixed amount, and that the number of manual operations is large and the production efficiency is low.

Disclosure of Invention Technical Problem [8] The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a smart product- And to provide an IOT-based coffee bean and a grain dispenser that can be constructed as an automated production process.

The smart coffee powder dispenser for cereals and coffee beans according to the present invention comprises a storage tank in which an inner space is formed so that coffee fruit or grains selected therein can be injected into the storage tank and a downwardly directed And a storage for temporarily storing coffee fruits or grains introduced through the inlet, wherein the storage is temporarily stored in the storage, and the storage is temporarily stored in the storage And a discharge door for discharging the coffee beans or the grains to be delivered to the workbench, wherein a plurality of the discharge items are arranged at a predetermined interval along the circumferential direction of the reservoir, and the workbench is installed so as to correspond to the discharge door one to one to be.

As described above, the present invention of the present invention, in which the IOT technology is installed, is used in food manufacturing, especially in the production of coffee and cereals, more precisely quantified work (more precise work time control to reduce time loss, It is possible to control the weight of grains caused by the loss of raw materials. It also provides a hygienic production process environment and it is possible to make big data such as production amount according to working time, and it is based on IOT , It is possible to produce fresh and healthy products without stock, thereby achieving optimization of customized services.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an IOT-based dispenser for coffee beans and cereals according to the present invention.
2 is a schematic view of another embodiment of the inventive IOT-based coffee bean and grain dispenser.
3 is a side schematic view of an ultrasonic cleaner for coffee beans and cereals of the present invention.
Fig. 4 is a schematic front view of an ultrasonic washing machine for coffee beans and cereals according to the present invention. Fig.
Fig. 5 is a side schematic view of a coffee machine for coffee bean and grain according to the present invention. Fig.
Fig. 6 is a front schematic view of a coffee bean of the present invention and a grain selector. Fig.

A storage tank 310 in which an inner space is formed so as to allow the selected fruit or grain to be injected into the storage tank 310 and an inclined surface 311 formed downward toward the center of the storage tank 310 in the storage tank 310, A feed port 312 through which the coffee fruit or the cereal is fed into the lower part and which is formed to penetrate downward at the center of the inclined surface 311; And a discharge door 314 for discharging coffee fruits or grains temporarily stored in the storage 313 to be delivered to the workbench 320. The discharge 314 includes a plurality of discharges 314, And the work table 320 is arranged to correspond to the discharge door 314 in a one-to-one correspondence.

When it is recognized that work among the plurality of work benches 320 is completed, the discharge door 314 communicating with the work bench 320 is opened, so that coffee beans or cereals, temporarily stored in the storage 313, (320).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an IOT-based coffee bean and grain dispenser of the present invention.

A storage tank 310 in which an inner space is formed so that coffee beans or grains cleaned inwardly are introduced into the storage tank 310 as shown in FIG. 1; An inlet 312 through which the coffee beans or cereals are introduced into the lower portion and which is formed to penetrate downward at a central portion of the inclined surface 311 and a coffee bean inserted through the inlet 312; A reservoir 313 in which cereals are temporarily stored and a discharge door 314 for discharging the coffee beans or cereals temporarily stored in the reservoir 313 to be transferred to a workbench 320 which is a next processing apparatus.

A plurality of the discharge doors 314 are arranged at predetermined intervals along the circumferential direction of the reservoir 313 and the workbench 320 as the next processing apparatus is installed so as to correspond to the discharge door 314 in a one- to be.

When it is recognized that the operation of the plurality of work platforms 320 is completed, the discharge door 314, which is in communication with the work platform 320, is opened, so that the coffee beans or grain And is discharged to the work table 320.

More specifically, the reservoir 313 is a place where coffee beans or grains discharged to the work platform 320 are stored in a predetermined amount, and is connected to the work table 320 through respective discharge doors 314 by a control unit (not shown) The coffee beans or the cereals are discharged.

Meanwhile, an automatic switch 330 is installed between the main body 310 and the storage 313, and the automatic switch 330 is also controlled by the controller.

The control unit is well known and is a means of tolerance, and a detailed description thereof will be omitted.

2 is a schematic diagram of another embodiment of the IOT-based coffee bean and grain dispenser of the present invention.

As shown in FIG. 2, one discharge door 314 is mounted on the lower end of the reservoir 313, and a rail 370 is provided in the lower part of the discharge door 314 in the left and right or front and rear directions, A plurality of discharge cylinders 360 are seated on the rail 370.

The discharge cylinder 360 is mounted on the lower surface of the rail 360 with a wheel 361 mounted thereon so that the number of the discharge cylinders 360 can be reduced by the number of the discharge cylinders 360 and the work table 320, 320).

The discharge cylinder 360 and the corresponding work platform 320 are connected to each other by a common connection pipe.

When the coffee beans or the grain placed on the workbench 320 are removed, the discharge cylinder 360 corresponding to the workbench 320 is positioned below the discharge door 314 by the control unit, The coffee beans or the grain loaded in the discharge cylinder 314 fall into the discharge cylinder 360 via the discharge door 314 and the coffee beans or the grain contained in the discharge cylinder 314 are again returned to the workbench 314 corresponding to the discharge cylinder 314, (320).

Meanwhile, a weight detection sensor 350 is installed in the reservoir 313, so that a certain amount of coffee beans or cereals are discharged to the discharge cylinder 314.

This series of processes is controlled by a conventional control unit.

More specifically,

Configure the features of the device

Sensing for .IOT control: temperature, humidity, weight, timer, automatic and manual selection switch

Function setting: Smart effect type automation construction by using IOT control by utilizing sense of desired work

 Monitor operation panel: Current weight of raw material (weight sense), maximum load, temperature and humidity, operation status of each device connected with this device (transmission and dispensing volume, current work progress: (1) (1) (1) (1) (2) (1) (2) (1) (2) Day-week-month-by-year), the ability to control and manage this device with smartphone apps,

Condition setting and function: Maximum load capacity, temperature, humidity,

Maximum load setting: If the grain reaches the maximum value of the library, it is sent to the sensor of the previous process to stop transmission and wait for transmission.

. Daily workload statistics function: Statistics of workload (transmission and discharge by machine) of this device and connected devices

Selection switch (automatic and manual): Controls the automatic and manual control of the progress between this unit and the front and rear work steps, so that it is applied to the desired operation when necessary (eg milking of the retaining unit Therefore, it is possible to select the selection switch for raw material supply after the silk screening process.

The load capacity of this unit

 It consists of a base 100kg loadable tank, but it can store up to 1 tonne of load, but the important thing is not the size of the tank to load, but the function of the IOT technology-based distributor. Therefore, the size of the tank can be adjusted according to the working environment.

How the device works

Arrangement of the apparatus and the machines and equipment at the pre- and post-processing stages:

As shown in FIG. 5, the arrangement of the present apparatus and the machines at the pre- and post-processing stages can be achieved by arranging a plurality of machines and apparatuses according to the processes of the front and rear stages of the process, Thereby enhancing the management efficiency of the operator.

.IOT control:

Interlocking between the pre-processing steps of the apparatus and the apparatus;

When this device is turned on, inputs are first required on the monitor.

Monitor Indicator Input Setting Factor:

Always visible elements:

The maximum load of this unit (100kg ~ 1 ton), current temperature, grain temperature, external humidity, humidity inside this unit

The number of the front and rear process machine currently in operation and the workload per machine

When you turn on this unit, you need to enter:

Enter a target amount to work on a day or at a given time (eg 8 hours work, grain production target 310 kg)

. Enter the workable capacity of the machine and the device in the previous process step of this equipment (eg 5kg once)

. Enter the number of the machine and device to be used in the previous process step of this device (eg machine 1, machine 5, etc.)

. Enter a target amount to work in the next process step of this unit (eg 7 hours work, grain production target 250 kg)

. Enter the workable capacity of the machine and the device of the next process step of this equipment (eg 3kg once)

. Enter the number of the machine and device to be used in the next process step of this device (eg machine 3, machine 5, etc.)

. When the work instruction information is input, an automatic operation is performed by the IOT control by depressing the selection switch for operation of the apparatus.

How to operate the device in detail

. When the operator sets the workload that can be loaded on the apparatus, it is displayed on the monitor of the apparatus. The apparatus gives a work instruction to the pre-work machine and apparatus, Receive the work and send it to this device. At this time, when setting the workload of this equipment, it is necessary to simultaneously set the workable amount (kg) per machine and equipment in the previous process step so that the machine and the device of the previous process can simultaneously set the workable weight. For example, if 310 kg of raw material (grain) per day is set in this unit, the weight of grain that can be processed per machine in the previous process step is 5 kg, if 5 machines are operated at the same time, Since the amount of grains to be worked on is 5kg, you have to work 12 times at 25kg at a time, and the remaining 10kg of work is left. If you work once more on machine 1 and machine 2 again, It becomes possible.

. In proceeding with the set operation, the work done through the conveyor is transferred to the apparatus when the work is completed in the machine at the previous process stage of the apparatus.

. When all the set workload is completed;

. This device stops the operation of the machines and devices in the previous process step and turns off the machines and devices.

 . This system database sets the time that is set for each machine and device in the previous process step, that is, the amount of work per day. The data processing uses the related sense and mechanism mounted on each machine.

. When the maximum grain load of the unit is exceeded during operation, ie when the grain is loaded in the warning range (when 900 kg of grain has been loaded), a warning beep sounds and the warning light on this unit is turned on. However, this device continues the operation until the maximum load of 1 ton is loaded, and when the amount of one ton is completed, it automatically manages the machine in the previous process stage, , The machine in the previous process step is allowed to stand.

Interlocking between the present invention and the next process

. When the worker sets and inputs the target quantity of the next production process and the machine number to be worked on in this apparatus, it is displayed on the monitor of the apparatus, and the apparatus issues a work instruction to the next work machine and apparatus, The received machine and the device receive the target raw material, work it, and transfer the data to the device to make big data. At this time, when setting the work amount of the next process to the present apparatus, the work amount (kg) that can be operated per machine and apparatus is input simultaneously in the next process step.

. For example, if 310 kg of raw material (grain) per day is set in this unit, the weight of grain that can be processed per machine in the previous process step is 5 kg, if 5 machines are operated at the same time, Since the amount of grains to be worked on is 5kg, you have to work 12 times at 25kg at a time, and the remaining 10kg of work is left. If you work once more on machine 1 and machine 2 again, It becomes possible. (The same method of operation in the previous process step)

. When the grain is transferred from the present apparatus to the next process step, a distributor (distributor) mounted at the bottom of the apparatus operates. The distributor, which is operated by the interlocking of the machine and the device of the next process by IOT control, transmits the grain to the next process machine and device according to the work instruction set by the worker when the device is operated. The dispenser controls the target quantity and the working machine by a constant IOT control in the distributor mounted on the bottom of the apparatus to send the grain to the machine set by the worker.

. Thus, the distributor mounts the grain on the conveyor of the module that sends the grain to the machine, sends the grain to the machine to be worked on, and manages and controls several machines and devices in this way and collects big data according to the work.

. In carrying out the work set up as in the previous process, when the work is completed in the machine of the previous step of the apparatus, the grains which are worked through the conveyor are transferred to the apparatus.

. A method of transferring grain from a dispenser of the present apparatus to a machine and apparatus of a next process step includes a method of utilizing a conveyor and a method of using the tank height of the apparatus, It is also possible to inject grain into the machine's inlet.

. When all the set workload is completed;

. This device stops the operation of the machine and the device of the next process step and turns off the machine and the device.

. This device database sets the time that is set for each machine and device in the next process step, that is, the daily amount of work. The data processing uses the related sense and mechanism mounted on each machine.

FIG. 3 is a side schematic view of a smart factory type ultrasonic cleaner for coffee beans and cereals of the present invention, and FIG. 4 is a front schematic view of a smart factory ultrasonic cleaner for coffee beans and cereals of the present invention.

3 to 4, the ultrasonic cleaning kit of the present invention includes a main body 110 having an internal space formed therein, a perforated network 140 installed inside the main body 110, And an inlet door 150 installed in the upper main body 110 of the perforated network 140 and being inserted into the perforated network 140 so as to be inserted into the perforated network 140, And a dust collector 170 for collecting foreign matter and gas generated from the grains and discharging the dust and the gas to the outside of the main body 110. The inside of the main body 110 is cleaned with ultrasonic waves, The ultrasonic cleaning kit 120 is provided.

And a discharge door 160 opened at the lower side of the perforated network 140 by opening and closing means for discharging the coffee beans cleaned and dried to the lower portion of the perforated network 140.

And a discharge door support member 161 for supporting the discharge door 260 toward the discharge port 111 is provided in the lower portion of the discharge door 160.

The perforated network 140 is installed to be rotatable in the main body 110. The perforated network 140 is formed to have a larger diameter toward the central portion than at both ends, and the inclination angle is preferably about 50 degrees.

A plurality of hot air spray nozzles 180 for spraying hot air toward the inner periphery of the perforated network 140 are installed in the perforated network 140 so as to protrude from the inner peripheries of the perforated network 140 Feature.

The hot air spray nozzle 180 alternately includes a forward hot air nozzle 181 for spraying hot air in a positive direction and a reverse hot air nozzle 182 for spraying hot air in a reverse direction, When the hot air is sprayed from the hot air nozzle 181, the perforated network 140 rotates in the normal direction and then rotates in the reverse direction when the hot air nozzle 182 is sprayed.

A magnet 130 is attached to the outside of the perforated network 140 to separate heavy metals from coffee beans or grains introduced into the perforated network 140.

It is preferable that the magnet 130 uses a round bar-shaped magnetic bar.

In more detail, the operation of the ultrasonic cleaner 100 of the present invention will be described.

1) washing step

When coffee beans or grains are put into the perforated network 140 of the apparatus, strong wind blows fine dust while floating in a space in the perforated network 140 through the hot air blowing nozzles arranged at regular intervals for a predetermined time. The blown fine dust escapes to the outside of the main body 110 by the dust collector 170.

At this time, the sand or foreign matter heavier than the grain is collected downward through the round hole of the washing chamber or through the through hole of the perforated network 140.

The next step is to inject water at high pressure for a set time.

A water injector (not shown) for injecting water into the perforated network 140 is installed inside the main body 110 separately.

The water sprayed at a high pressure is mixed with coffee beans or cereal, and the raw material is washed. At the same time, the ultrasonic cleaning is also performed through the ultrasonic cleaning kit 120. Also, dust collection through the dust collector 170 is performed throughout the entire process.

2) Drying step

Upon completion of the high-pressure spray and ultrasonic cleaning processes, the drying step is immediately followed. At this time, hot air for drying is sprayed for the set time by the same hot air spray nozzle 180. Moisture generated during the washing process is removed by hot air and dust collecting process, so that the introduced coffee bean or grain is dried.

The dried state of the coffee beans or grains is displayed on the monitor of the ultrasonic washing machine 100 to display the temperature, humidity, and weight of the raw materials in the washing room and display the dried coffee beans or the dried coffee beans according to manual and automatic operation settings. The grain is discharged directly through the discharge port 111 or through the IOT control, the raw material is transferred to the apparatus and the machine of the next process step (such as distribution, crushing, etc.) to establish the automation of the production process.

The next process is a straight line operation through the rectifier 200.

Fig. 5 is a side schematic view of the coffee bean and grain selection machine of the present invention, and Fig. 6 is a front schematic view of the coffee bean and grain selection machine of the present invention.

5 to 6, the water purifier 200 includes a main body 210 having an internal space formed therein, a perforated network 240 installed inside the main body 210, A dust collector 270 installed at an upper portion of the main body 210 to collect foreign matter and gas generated when the grain drawn into the perforated network 240 is collected and discharged to the outside of the main body 210, A blower 230 that feeds the cereal into the inflow path 220 through the wind to the perforated network 240 side and an outlet 220 which is connected to the outlet side of the inflow path 220, A feed door 250 installed in the feed path 220 so as to be opened only to the perforated network 240 and a grained feeder 240 disposed at the lower side of the perforated feeder 240, And a discharge door 260 that is opened to be opened.

A discharge gate support member 261 for supporting the discharge gate 260 toward the discharge port 211 is provided at a lower portion of the discharge gate 260.

Preferably, the perforated network 240 is rotatably installed in the main body 210, and the blower 230 uses a cooler.

The perforated network 240 is formed in an inner space, and has a plurality of through holes formed therein. The perforated network 240 can circulate air to the inside and the outside of the perforated network 240. The entire perforated network 240 is preferably formed in an annular or cylindrical shape, A rotary shaft 241 is formed at both ends of the body 210 so that the rotary shaft 241 is coupled to the inner side surface of the body 210 and is rotatable within the body 210.

Further, preferably, the perforated network 140 is installed to be rotatable in the main body 110. The perforation network 140 is formed to have a larger diameter toward the central portion than both ends, and the inclination angle is preferably about 50 degrees.

A dust collector 270 is disposed on the upper surface of the main body 210 for collecting foreign matter and gas generated when the dust is generated in the perforated network 240 and discharging the dust and the like to the outside. And therefore, detailed description thereof will be omitted.

In addition, a feed path 220 is formed at one side of the main body 210 so as to feed cereal into the perforated network 240. The feed path 220 is inclined downward, .

A hopper-type inlet 221 into which a predetermined amount of coffee or grain is injected is formed in the upper surface of one end of the inlet path 220 protruding from the main body 210, And a closing door 250 is formed on the side of the closing door 250 opposite to the inlet. The closing door 250 opens in the direction of the perforating network 240.

That is, the closing door 250 is a check valve type and its upper end is hinged to open only in one direction.

A hopper-shaped inlet 221 is formed at the inlet side of the inlet path 220. Between the hopper-shaped inlet 211 and the inlet 220, a feed control plate 221-1 for controlling the feeding of the cereal is installed Is installed.

A blower 230 is installed at one end of the inlet path 220 to feed a predetermined amount of coffee or grain fed through the inlet of the inlet path 220 to the perforated network 240 side, Preferably, the intensity of wind generated is set to an intensity sufficient to open the input door 250.

Accordingly, when the input door 250 is opened by the blower 230, the coffee or the grain in the input path 220 is drawn into the perforated network 240.

At this time, the blower 230 discharges cool air to cool the heat generated in the roasting process of coffee or grains, thereby preventing not only the oxidation but also the generation of benzopyrene generated in the roasting process.

When a coffee bean or grain is drawn into the perforated network 240, air is sprayed into the perforated network 240 to float foreign matter or gas, and foreign substances or gas can be trapped by the dust collector 270 installed on the perforated network 240. So that the gas is discharged to the outside of the main body 210.

Meanwhile, the perforated network 240 may be rotated around a rotation axis 241 as a center axis by a driving means such as a motor, or may be rotated by air injected into the perforated network 240.

A plurality of spray nozzles 280 for spraying air toward the inner circumferential edge of the perforated network 240 are installed at predetermined intervals along the inner circumference of the perforated network 240.

When the air is injected from the injection nozzle 280, the air injected into the injection nozzle 280 causes the perforated network 240 to rotate.

On the other hand, the perforated network 240 can alternately rotate in the forward direction and the reverse direction so that foreign matter or gas can float more efficiently due to the air injection.

That is, the injection nozzle 280 is provided with the forward injection nozzle 281 for injecting air in the forward direction and the reverse direction injection nozzle 282 for injecting air in the reverse direction in the forward direction, Air is sprayed from the spray nozzle 281 and air is sprayed from the reverse spray nozzle 282 after the set time has elapsed so that the perforated network 240 is rotated in the reverse direction.

The cold wind generated by the forward spray nozzle 281 and the reverse spray nozzle 282 is generated similarly to the blower 230.

 The discharge door 260 is opened at the lower side of the perforated network 240 by means of the opening and closing means 290 so as to discharge the finished grain in the perforated network 240 to the lower portion of the perforated network 240.

On the other hand, a discharge port 211 is formed on a lower surface of the lower body 210 of the discharge door 260.

The power means for opening the discharge door 260 is a well-known conventional means, and a detailed description thereof has been omitted.

When a predetermined amount of grain is fed into the feeding path 220, the grain is fed to the feed path 220 by the cold wind of the blower 230. In this case, And the grain is drawn into the perforated network 240. When the grain is pulled into the perforated network 240, the grain is drawn by the forward jetting nozzle 281 and the reverse jetting nozzle 282 The foreign matter is collected through the dust collector 270 installed on the upper part of the perforated network 240 and is discharged to the outside of the main body 210 and is discharged to the outside of the perforated network 240, When the discharge door 260 installed at the lower part of the perforated network 240 is opened, the cereal is discharged through the discharge door 260 to the lower part of the perforated network 240, And is discharged to the outside through the discharge port 211.

Particularly, the above-mentioned IOT-based grain feed control plate 221-1 is mounted between the feed inlet 221 and the feed-in passage 220, and the discharge of the grain placed in the feed inlet 221 is controlled by the IOT control, The inlet 221 of the perforating network 240 of the input door 250 is opened through the discharge pipe of the input path 220 to transfer the grain.

As described above, the present invention of the present invention, in which the IOT technology is installed, is used in food manufacturing, especially in the production of coffee and cereals, more precisely quantified work (more precise work time control to reduce time loss, It is possible to control the weight of grains caused by the loss of raw materials. It also provides a hygienic production process environment and it is possible to make big data such as production amount according to working time, and it is based on IOT , It is possible to produce fresh and healthy products without stock, thereby achieving optimization of customized services.

100. Ultrasonic Cleaner
110. Body 111. Outlet
120. Injection furnace
130. Magnets
140. Perforations 141. Rotor
150. Input door
160. Exhaust door 161. Exhaust door support member
170. Dust collector
180. Hot Air Injection Nozzle 181. Forward Hot Air Nozzle 182. Inverse Hot Air Nozzle
190. Warning lights
200.
210. Body 211. Outlet
220. Input line 221. Input port 221-1. Input control panel
230. Blower
240. Pier 241. Rotation axis
250. Input door
260. Discharge door 261. Discharge door support member
270. Dust collector
280. Injection nozzle 281. Forward spray nozzle 282. Reverse spray nozzle
290. opening and closing means
300. Dispenser
310. Body 311. Slope 312. Inlet
313. Storage 314. Exit door
320. Workbench
330. Automatic switchgear
340. Warning lights
350. Weight sensor
360. Discharge canister 361. Wheels
370. Rail
400. Hopper 410. Feed control panel
M1, M2, M3. monitor
U. Ultrasonic Cleaning Kit

Claims (3)

A storage tank 310 in which an inner space is formed so as to allow the selected fruit or grain to be injected into the storage tank 310 and an inclined surface 311 formed downward toward the center of the storage tank 310 in the storage tank 310, A feed port 312 through which the coffee fruit or the cereal is fed into the lower part and which is formed to penetrate downward at the center of the inclined surface 311; And a discharge door (314) for discharging coffee fruits or grains temporarily stored in the storage (313) to be transferred to the work platform (320).
The method according to claim 1,
Wherein a plurality of the discharges 314 are arranged at regular intervals along the circumference of the reservoir 313 and the workbench 320 is installed in a one-to-one correspondence with the discharge door 314, And smart factory type distributor for grain.
The method according to claim 1,
When it is recognized that work among the plurality of work benches 320 is completed, the discharge door 314 communicating with the work bench 320 is opened, so that coffee beans or cereals, temporarily stored in the storage 313, (320). ≪ RTI ID = 0.0 > 32. < / RTI >

Images