CN114794867A

CN114794867A - Automatic beverage machine for coarse cereals and use method

Info

Publication number: CN114794867A
Application number: CN202210649861.7A
Authority: CN
Inventors: 臧延青; 贾建; 曹漫钰; 曹阳
Original assignee: Heilongjiang Bayi Agricultural University
Current assignee: Heilongjiang Bayi Agricultural University
Priority date: 2022-06-10
Filing date: 2022-06-10
Publication date: 2022-07-29

Abstract

The invention relates to the field of beverage making equipment, in particular to an automatic five-cereal beverage machine, wherein five-cereal powder is arranged in a five-cereal powder conveying mechanism, the output end of the five-cereal powder conveying mechanism is butted with a stirring barrel, the output end of a water conveying mechanism is butted with the stirring barrel, the stirring end of the stirring mechanism is arranged in the stirring barrel, an electromagnetic valve is arranged at the output port of the stirring barrel, a heat exchange cup seat and a water receiving container are respectively arranged at the sliding ends of a linear driving mechanism, the linear driving mechanism can drive the heat exchange cup seat and the water receiving container to move horizontally in a reciprocating switching manner, an opening for accommodating a beverage cup is formed in the top of the heat exchange cup seat, a pure water barrel is connected with a heating water tank through a pure water output pipe and a water inlet pipe, and a pipeline between the pure water barrel and the heating water tank passes through the heat exchange cup seat; the water receiving container is communicated with the sewage bucket through a sewage discharge pipe. The beverage machine can be used for making healthy coarse cereal beverages and can also be used for reducing the temperature of the beverages before consumers take the beverages. The invention also provides a use method of the automatic coarse cereal beverage machine.

Description

Automatic beverage machine for coarse cereals and use method

Technical Field

The invention relates to the field of beverage making equipment, in particular to an automatic five-cereal beverage machine and a using method thereof.

Background

The whole grain crops are generally referred to as food crops. The five cereals mean: rice, wheat, soybean, corn, potatoes, and also grains other than rice and flour are also conventionally called minor cereals. The coarse grains are beneficial to diabetes mellitus, and the coarse grains are used for replacing part of fine grains, so that the research on controlling blood sugar of a diabetic patient shows that the postprandial blood sugar change after eating the coarse grains and the miscellaneous beans is generally smaller than that of wheat and common rice, and the research is beneficial to the blood sugar control of the diabetic patient. Some foreign diabetic dietary guidance organizations have suggested that diabetic patients choose coarse cereals and miscellaneous beans as much as possible, which can be eaten as staple food or as part of staple food. However, the ability of these coarse cereals and miscellaneous beans to maintain a postprandial glycemic response is also different. Such as oat, buckwheat, barley, red rice, black rice, red bean, hyacinth bean and the like, can obviously relieve the postprandial hyperglycemia state of the diabetic patients, reduce the blood sugar fluctuation within 24 hours, reduce the fasting blood sugar, reduce the insulin secretion and is beneficial to the blood sugar control of the diabetic patients.

The cereals are also the main sources of dietary fibers, and many cereals have a large amount of unsaturated fatty acids which can reduce cholesterol and prevent cardiovascular diseases and other diseases, so that most of nutrients necessary for human bodies can be provided, and the cereals are the food group with the most nutritional value. The coarse cereals are the basic stones in the diet. Therefore, related scholars continuously research the nutrients contained in the miscellaneous grains from ancient times to present, and the miscellaneous grains are integrated into the food therapy of the traditional Chinese medicine and the modern medicine, and can be matched with other food materials and medicinal materials to enhance the benefit to human bodies.

Beverage equipment among the prior art is mostly the equipment of milk tea drink preparation, does not have an equipment to the preparation of five cereals beverage yet, and the equipment of milk tea drink preparation among the prior art is not suitable for if use in the preparation of five cereals beverage, because the five cereals have certain granularity after infusing, hang the cup easily, can lead to the fermentation of five cereals to produce the sour and stink for a long time, influences the taste promptly, still influences the beverage health. In addition, the time for heating the coarse cereals is long, the brewing temperature is high, and consumers cannot directly take out the prepared beverage by hands.

Disclosure of Invention

In order to solve the problems, the invention provides an automatic coarse cereal beverage machine which can be used for making healthy coarse cereal beverages and can also be used for reducing the temperature of the beverages before consumers take the beverages. The invention also provides a use method of the automatic coarse cereal beverage machine.

In order to achieve the purpose, the invention adopts the technical scheme that:

in a first technical scheme, the automatic five-cereal beverage machine comprises a five-cereal powder conveying mechanism, a stirring mechanism, a water conveying mechanism, a stirring barrel, a linear driving mechanism, a heat exchange cup seat, a water receiving container, a pure water barrel and a sewage barrel, wherein the five-cereal powder conveying mechanism is internally provided with the five-cereal powder, the output end of the five-cereal powder conveying mechanism is in butt joint with the stirring barrel so as to convey the five-cereal powder to the stirring barrel, the output end of the water conveying mechanism is in butt joint with the stirring barrel so as to convey hot water to the stirring barrel, the stirring end of the stirring mechanism is arranged in the stirring barrel so as to sufficiently stir the five-cereal powder and the hot water in the stirring barrel, the output port of the stirring barrel is provided with an electromagnetic valve, the heat exchange cup seat and the water receiving container are respectively arranged at the sliding ends of the linear driving mechanism, and the linear driving mechanism can drive the heat exchange cup seat and the water receiving container to move horizontally in a reciprocating switching manner, so that the heat exchange cup base and the water receiving container alternately move to the lower part of the output port of the stirring barrel,

the top of the heat exchange cup base is provided with an opening for accommodating a drink cup, the purified water barrel is connected with the heating water tank through a purified water output pipe and a water inlet pipe, and a pipeline between the purified water barrel and the heating water tank passes through the heat exchange cup base so as to reduce the temperature of drinks in the drink cup and improve the temperature of purified water entering the heating water tank; the water receiving container is communicated with the sewage bucket through a sewage discharge pipe.

In a first technical scheme, as preferred, corn flour conveying mechanism includes corn flour storehouse, feeding motor, auger output mechanism and meal outlet, auger output mechanism sets up the lower extreme in corn flour storehouse, auger output mechanism's feed inlet and corn flour storehouse intercommunication, feeding motor's power end is connected with auger output mechanism's auger blade, meal outlet sets up at auger output mechanism's end, meal outlet and agitator top butt joint.

In a first technical scheme, as preferred, the heating water tank includes box, baffle, income water cavity, income water interface, play water interface, heating rod and temperature sensor, and wherein it sets up respectively in the relative both sides of box to go into water interface and play water interface, and the baffle has a plurality ofly, and the baffle sets up in the box in turn and between income water interface and play water interface, goes out to form the heated warehouses between water interface and the baffle place region, the heating rod sets up the bottom at the heated warehouses, temperature sensor sets up in the heated warehouses.

In the first technical scheme, as preferred, rabbling mechanism includes agitator motor, puddler and stirring vane, and wherein, the puddler top is connected at agitator motor's output, and the puddler passes the inside that the roof of agitator extended to the agitator, and stirring vane connects the lower extreme outer wall at the puddler.

In the first technical scheme, as preferred, the inside cavity of the middle section of puddler forms the siphonozooid, and the upper portion of this siphonozooid has the water hole of fretwork, water conveying mechanism's output passes through the outlet pipe and rotates sealing joint and is connected with the siphonozooid to make water conveying mechanism to the inside water delivery of puddler middle part siphonozooid, the siphonozooid lower extreme is connected with the shower, and the water of water conveying mechanism output passes through the shower and imports the agitator with the mode of spraying.

In the first technical scheme, preferably, the spraying range of the spraying pipe comprises the inner wall of the stirring barrel and the rod body of the stirring rod.

In the first technical solution, preferably, the heat exchange cup holder includes a container, a cold water inlet, a coil, a hot water outlet, an inlet, and an elastic membrane, wherein an opening is formed in the top of the container, the elastic membrane is disposed in the container through the opening in the top of the container, and is in a relaxed state when in a free state, a cavity is formed between an outer wall of the elastic membrane and an inner wall of the container, a heat conducting liquid is stored in the cavity, both the cold water inlet at the lower end and the hot water outlet at the upper end of the coil penetrate through the container, and the coil is disposed in the cavity and immersed in the heat conducting liquid.

In a second technical scheme, the use method of the coarse cereal automatic beverage machine uses the coarse cereal automatic beverage machine as described in any one of the first technical scheme,

the process for preparing the single-cup coarse cereal beverage comprises the following steps:

step 1, placing a drink cup in a heat exchange cup seat, and driving the heat exchange cup seat to move below the output end of a stirring barrel by a linear driving mechanism; according to the selection of a user, the coarse cereal powder conveying mechanism conveys a corresponding amount of coarse cereal powder into the stirring barrel, the water conveying mechanism heats purified water in the water conveying mechanism and detects the temperature of the purified water in the water conveying mechanism in real time, when the temperature of the purified water in the water conveying mechanism reaches 100 ℃, a first amount of purified water is output and enters the stirring barrel, the stirring mechanism continuously stirs in the process, so that the boiling water and the coarse cereal powder are fully mixed, the coarse cereal powder is sealed and cooked, after the stirring mechanism stirs for a preset time, the stirring barrel outputs an internal beverage and falls into a beverage cup, then the water conveying mechanism outputs a second amount of purified water again and enters the stirring barrel, and the second amount of purified water directly enters the beverage cup; in the process, purified water output by the purified water bucket exchanges heat with the drink in the drink cup through the heat exchange cup seat so as to reduce the temperature of the drink in the drink cup;

step 2, the linear driving mechanism drives the water receiving container to move to the position below the stirring barrel, the heat exchange cup base moves out of the position below the stirring barrel, the water conveying mechanism outputs purified water to flush the stirring barrel, the stirring rod and related pipelines for beverage flowing, wastewater enters the sewage barrel through the water receiving container and the drain pipe, and the water conveying mechanism stops outputting the purified water after the preset time is continued;

and 3, after the beverage in the heat exchange cup seat is taken away, putting the beverage cup into the heat exchange cup seat, and driving the heat exchange cup seat to return to the position below the output end of the stirring barrel to standby by the linear driving mechanism.

In the second technical scheme, preferably, the process for continuously making n cups of the coarse cereal beverage is as follows:

and (3) repeating the step (1) and the step (3), continuously finishing n-1 cups of the coarse cereal beverage, and sequentially executing the step (1) to the step (3) when the last cup of the coarse cereal beverage is prepared, wherein n is a positive integer not less than 1.

The beneficial effects of the invention are as follows:

the device can be used for quickly making the coarse grain beverage, during the making process, the coarse grain powder and the boiling water are fully stirred and can be smoldered, the boiling water is output and segmented, the coarse grain powder can be smoldered, and appliances used for making the beverage can be kept clean. The purified water absorbs the heat of the drinks in the drink cup in the process of inputting the purified water into the heating water tank, so that the drinks can be cooled, the temperature of the purified water entering the heating water tank can be increased, the energy consumption is reduced, and multiple purposes are achieved.

The use method of the automatic coarse cereal beverage machine can quickly make coarse cereal beverages, can eliminate residues in beverage making appliances, can adjust the making steps corresponding to different making cups, ensures cleanness and sanitation of the beverages, accelerates the making speed of the beverages, and reduces the waiting time of consumers.

Drawings

Fig. 1 is a schematic structural view of the coarse cereal automatic beverage machine of the invention.

Fig. 2 is a schematic structural view of another state of the coarse cereal automatic beverage machine of the invention.

Fig. 3 is a schematic view of the inside of a mixing tank of the automatic coarse cereal beverage machine of the invention.

Fig. 4 is a schematic view of a heating water tank in the automatic coarse cereal beverage machine of the invention.

Fig. 5 is a schematic view of a heat exchange cup in the automatic coarse cereal beverage maker according to the invention.

Fig. 6 is a schematic view of a heat exchange cup holder of the automatic cereal beverage machine of the invention placing a beverage cup.

The reference numerals include:

10-a corn flour bin, 11-a feeding motor, 12-a flour discharging port, 20-a heating water tank, 201-a clapboard, 202-a heating bin, 203-a water inlet cavity, 204-a water inlet interface, 205-a water outlet interface, 206-a heating rod, 207-a temperature sensor, 21-a water pump, 22-a water outlet pipe, 23-a rotary sealing joint, 24-a spray pipe, 25-a water inlet pipe, 30-a stirring motor, 31-a stirring rod, 32-a stirring blade, 40-a stirring barrel, 41-an electromagnetic valve, 51-a linear driving motor, 52-a sliding table, 53-a heat exchange cup seat, 531-a container, 532-a cold water inlet, 533-a coil pipe, 534-a hot water outlet, 535-an introducing port, 536-an elastic membrane, 54-a water receiving container, 60-a purified water barrel, 61-a purified water output pipe, 70-a sewage barrel, 71-a sewage discharge pipe and 80-a drink cup.

Detailed Description

In order to make the purpose, technical solution and advantages of the present technical solution more clear, the present technical solution is further described in detail below with reference to specific embodiments. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present teachings.

Example 1

As shown in fig. 1-6, in a first technical solution, an automatic cereal grain beverage machine includes a cereal grain conveying mechanism, a stirring mechanism, a water conveying mechanism, a stirring barrel 40, a linear driving mechanism, a heat exchange cup base 53, a water receiving container 54, a purified water barrel 60 and a sewage barrel 70, wherein the cereal grain powder conveying mechanism is internally provided with cereal grain powder, an output end of the cereal grain conveying mechanism is in butt joint with the stirring barrel 40 to convey the cereal grain powder to the stirring barrel 40, an output end of the water conveying mechanism is in butt joint with the stirring barrel 40 to convey hot water to the stirring barrel 40, a stirring end of the stirring mechanism is arranged in the stirring barrel 40 to fully stir the cereal grain powder and the hot water in the stirring barrel 40, an electromagnetic valve 41 is arranged at an output port of the stirring barrel 40, the heat exchange cup base 53 and the water receiving container 54 are respectively arranged at a sliding end of the linear driving mechanism, the linear driving mechanism can drive the water receiving container 54 and the linear driving mechanism to move horizontally in a reciprocating manner, so that the heat exchange cup base 53 and the water receiving container 54 alternately move to the lower part of the output port of the stirring barrel 40, the top of the heat exchange cup base 53 is provided with an opening for accommodating the drink cup 80, the purified water barrel 60 is connected with the heating water tank 20 through the purified water output pipe 61 and the water inlet pipe 25, and a pipeline between the purified water barrel 60 and the heating water tank 20 passes through the heat exchange cup base 53 to reduce the temperature of the drink in the drink cup 80 and improve the temperature of the purified water entering the heating water tank 20; the water receiving container 54 is communicated with the slop pail 70 through a sewage discharging pipe 71.

The corn flour conveying mechanism comprises a corn flour bin 10, a feeding motor 11, an auger output mechanism and a flour discharging port 12, the auger output mechanism is arranged at the lower end of the corn flour bin 10, a feeding port of the auger output mechanism is communicated with the corn flour bin 10, a power end of the feeding motor 11 is connected with auger blades of the auger output mechanism, the flour discharging port 12 is arranged at the tail end of the auger output mechanism, and the flour discharging port 12 is in butt joint with the top of the stirring barrel 40.

As shown in fig. 1, the powder outlet 12 is disposed above the stirring barrel 40, and in other embodiments, the powder outlet 12 may also be disposed at a top position inside the stirring barrel 40, so that the coarse cereal powder directly enters the stirring barrel 40. In the embodiment, the auger output mechanism has the advantages that the amount of the coarse grain powder can be directly controlled and output through the control of the feeding motor 11, and the output amount is more accurately controlled. The amount of cereal flour may be controlled by the consumer, such as the concentration of the beverage or the corresponding different capacity of the drinking cup 80.

As shown in fig. 3, the stirring mechanism includes a stirring motor 30, a stirring rod 31 and a stirring blade 32, wherein the top end of the stirring rod 31 is connected to the output end of the stirring motor 30, the stirring rod 31 extends to the inside of the stirring barrel 40 through the top wall of the stirring barrel 40, and the stirring blade 32 is connected to the outer wall of the lower end of the stirring rod 31.

The inside cavity of the middle part section of puddler 31 and form the siphonozooid, the upper portion of this siphonozooid has the water hole of crossing of fretwork, and water conveying mechanism's output passes through outlet pipe 22 and rotates sealing joint 23 and is connected with the siphonozooid to make water conveying mechanism to puddler 31 inside water delivery of siphonozooid in the middle part, the siphonozooid lower extreme is connected with spray tube 24, and the water of water conveying mechanism output passes through spray tube 24 and imports to agitator 40 with the mode that sprays. The spraying range of the spraying pipe 24 comprises the inner wall of the stirring barrel 40 and the rod body of the stirring rod 31. The actual amount of spray and the actual amount of spray from the spray tube 24 can be referred to in example 2.

As shown in fig. 4, the heating water tank 20 includes a tank body, a partition 201, a water inlet cavity 203, a plurality of water inlet ports 204, a plurality of water outlet ports 205, a heating rod 206, and a temperature sensor 207, wherein the water inlet ports 204 and the water outlet ports 205 are respectively disposed on two opposite sides of the tank body, the partition 201 is disposed in the tank body alternately, the partition 201 is disposed between the water inlet ports 204 and the water outlet ports 205, a heating chamber 202 is formed between the water outlet ports 205 and the partition 201, the heating rod 206 is disposed at the bottom of the heating chamber 202, and the temperature sensor 207 is disposed in the heating chamber 202. An inlet chamber 203 is formed between the inlet port 204 and the region of the baffle 201.

After the purified water enters the tank body from the water inlet port 204, the purified water sequentially enters the heating chamber 202 due to the arrangement of the partition plate 201, and substantially the purified water also sequentially flows out from the water outlet port 205. The temperature of the purified water is detected by the temperature sensor 207 in real time in the heating chamber 202, and when the temperature reaches 100 ℃, the water pump 21 is started to enable the heating water tank 20 to output the purified water.

As shown in fig. 5 and 6, the heat exchange cup holder 53 includes a container 531, a cold water inlet 532, a coil 533, a hot water outlet 534, an inlet 535, and an elastic membrane 536, wherein the container 531 is provided with an opening at the top, the elastic membrane 536 is disposed in the container 531 from the opening at the top of the container 531, and the elastic membrane 536 is in a relaxed state when in a free state, a cavity is formed between the outer wall of the elastic membrane 536 and the inner wall of the container 531, the cavity stores a heat conducting liquid, the cold water inlet 532 at the lower end and the hot water outlet 534 at the upper end of the coil 533 both pass through the container 531, and the coil 533 is disposed in the cavity and immersed in the heat conducting liquid. The inlet 535 has a chamfered structure to facilitate the insertion of the drinking cup 80.

When the device is used, firstly, the auger conveying device is driven by the feeding motor 11 to convey coarse cereal powder to the stirring barrel 40, in the second process, the temperature sensor 207 detects the water temperature of water in the heating bin 202, meanwhile, the heating rod 206 heats purified water in the heating bin 202, when the water reaches 100 ℃, the water pump 21 is started, meanwhile, the stirring motor 30 is started, the water pump 21 quantitatively outputs 200cc of boiling water for the first time, the boiling water enters the hollow section of the stirring rod 31 through the water outlet pipe 22 and the rotary sealing joint 23, then the boiling water enters the stirring barrel 40 through continuous spraying of the spraying pipe 24, the stirring rod 31 drives the stirring blades 32 to smolder the coarse cereal powder to be slightly viscous paste, after 30 seconds of stirring, the electromagnetic valve 41 is opened, and a beverage is output from the lower end of the stirring barrel 40 and enters the beverage cup 80 in the heat exchange cup seat 53.

After the electromagnetic valve 41 is opened, the heating water tank 20 outputs purified water for the second time, the temperature of the outputted purified water is 60-80 ℃, and the purified water continuously washes the inner wall of the stirring barrel 40, the stirring rod 31 and the stirring blade 32. This time, the output of purified water is 300 cc.

After the beverage falls into the beverage cup 80, due to the existence of the elastic membrane 536, the elastic membrane 536 can be attached to the outer wall of the beverage cup 80 by the heat conduction liquid extrusion part, because the purified water output by the heating water tank 20 for the second time enters the heating water tank 20 through the purified water output pipe 61, the coil 533 and the water inlet pipe 25, in the process that the purified water passes through the coil 533, the heat is transferred to the purified water in the coil 533 through the heat conduction liquid again, and the purified water is heated to a warm state from normal temperature through the coil 533, so that the temperature of the beverage in the beverage cup 80 can be reduced, and the water temperature of the water entering the heating water tank 20 can be increased.

In the above process, it is worth explaining that the spraying pipe 24 can rotate along with the stirring rod 31, and the spraying cleaning effect is more thorough.

Heat exchange cup base 53 and water receiving container 54 all set up on slip table 52, and after linear drive motor 51 driven slip table 52 rectilinear movement, heat exchange cup base 53 was pushed out and is received the water level, and water receiving container 54 pushes in and receives the water level. At this time, the water pump 21 continuously outputs water flow, and the electromagnetic valve 41 is opened, so that the stirring barrel 40 is thoroughly cleaned by water spraying. The wastewater in the water receiving container 54 enters the slop pail 70 through a sewage discharge pipe 71.

The beverage machine can also be provided with monitoring equipment at the positions of the purified water bucket 60, the stirring bucket 40 or the heat exchange cup seat 53, so that the use state of the beverage machine can be seen.

Example 2

A method for using the coarse cereal automatic beverage machine of embodiment 1 to make a single cup of coarse cereal beverage comprises the following steps:

step 1, placing a drink cup 80 in a heat exchange cup seat 53, and driving the heat exchange cup seat 53 to move below the output end of a stirring barrel 40 by a linear driving mechanism; according to the selection of a user, the coarse cereal powder conveying mechanism conveys a corresponding amount of coarse cereal powder into the stirring barrel 40, the water conveying mechanism heats purified water in the water conveying mechanism and detects the temperature of the purified water in the water conveying mechanism in real time, when the temperature of the purified water in the water conveying mechanism reaches 100 ℃, a first amount of purified water is output and enters the stirring barrel 40, the stirring mechanism continuously stirs in the process, so that boiling water and the coarse cereal powder are fully mixed, the coarse cereal powder is sealed and cooked, after the stirring mechanism stirs for a preset time, the stirring barrel 40 outputs an internal beverage and falls into the beverage cup 80, then the water conveying mechanism outputs a second amount of purified water again and enters the stirring barrel 40, and the second amount of purified water directly enters the beverage cup 80; in the process, the purified water output by the purified water bucket 60 exchanges heat with the drink in the drink cup 80 through the heat exchange cup seat 53, so as to reduce the temperature of the drink in the drink cup 80;

step 2, the linear driving mechanism drives the water receiving container 54 to move to the position below the stirring barrel 40, the heat exchange cup base 53 moves out of the position below the stirring barrel 40, the water conveying mechanism outputs purified water to flush the stirring barrel 40, the stirring rod 31 and related pipelines for beverage flowing, wastewater enters the sewage barrel 70 through the water receiving container 54 and the sewage discharge pipe 71, and the water conveying mechanism stops outputting the purified water after the preset time is continued;

step 3, after the beverage in the heat exchange cup base 53 is taken away, the heat exchange cup base 53 is put into the beverage cup 80, and the linear driving mechanism drives the heat exchange cup base 53 to return to the position below the output end of the stirring barrel 40 for standby.

Example 3

This example 3 is based on example 2, and when n cups of the whole grain beverage are continuously prepared.

And (3) repeating the step (1) and the step (3), continuously finishing n-1 cups of the coarse cereal beverage, and sequentially executing the step (1) to the step (3) when the last cup of the coarse cereal beverage is prepared, wherein n is a positive integer not less than 1, so that the process of switching to the water receiving container (54) and then flushing is reduced, and the time consumption is reduced.

The device can be used for quickly making the coarse cereal beverage, in the making process, the coarse cereal powder and the boiling water are fully stirred and can be smoldered, the boiling water is output and segmented, the smoldering of the coarse cereal powder can be realized, and an appliance used for making the beverage can be kept clean. The heat of the beverage in the beverage cup 80 is absorbed in the process of inputting the purified water into the heating water tank 20, so that the beverage can be cooled, the temperature of the purified water entering the heating water tank 20 can be increased, the energy consumption is reduced, and multiple purposes are achieved.

The foregoing is only a preferred embodiment of the present invention, and many variations in the specific embodiments and applications of the invention may be made by those skilled in the art without departing from the spirit of the invention, which falls within the scope of the claims of this patent.

Claims

1. The utility model provides an automatic drink machine of five cereals which characterized in that: comprises a five-cereal flour conveying mechanism, a stirring mechanism, a water conveying mechanism, a stirring barrel, a linear driving mechanism, a heat exchange cup seat, a water receiving container, a purified water barrel and a sewage barrel, wherein the five-cereal powder conveying mechanism is internally provided with the five-cereal powder, the output end of the five-cereal powder conveying mechanism is butted with the stirring barrel, so as to convey the coarse grain powder to the stirring barrel, the output end of the water conveying mechanism is butted with the stirring barrel, the mixing mechanism is arranged in the mixing tank at the mixing end for fully mixing the coarse grain powder and the hot water in the mixing tank, the electromagnetic valve is arranged at the output port of the mixing tank, the heat exchange cup seat and the water receiving container are respectively arranged at the sliding ends of the linear driving mechanism, and the linear driving mechanism can drive the heat exchange cup seat and the water receiving container to move horizontally in a reciprocating switching manner, so that the heat exchange cup seat and the water receiving container alternately move below the output port of the stirring barrel;

2. The automatic cereal grain beverage maker according to claim 1, wherein: the corn flour conveying mechanism comprises a corn flour bin, a feeding motor, an auger output mechanism and a flour discharging port, the auger output mechanism is arranged at the lower end of the corn flour bin, a feeding port of the auger output mechanism is communicated with the corn flour bin, a power end of the feeding motor is connected with auger blades of the auger output mechanism, the flour discharging port is arranged at the tail end of the auger output mechanism, and the flour discharging port is butted with the top of the stirring barrel.

3. The automatic cereal grain beverage maker according to claim 1, wherein: the heating water tank comprises a tank body, a plurality of partition plates, a water inlet cavity, a water inlet interface, a water outlet interface, a heating rod and a temperature sensor, wherein the water inlet interface and the water outlet interface are respectively arranged on two opposite sides of the tank body, the partition plates are arranged in the tank body alternately and between the water inlet interface and the water outlet interface, a heating chamber is formed between the areas where the water outlet interface and the partition plates are located, the heating rod is arranged at the bottom of the heating chamber, and the temperature sensor is arranged in the heating chamber.

4. The automatic cereal grain beverage maker according to claim 3, wherein: rabbling mechanism includes agitator motor, puddler and stirring vane, and wherein, the output at agitator motor is connected on the puddler top, and the puddler passes the roof of agitator and extends to the inside of agitator, and stirring vane connects the lower extreme outer wall at the puddler.

5. The automatic cereal grain beverage maker according to claim 4, wherein: the inside cavity of the middle part section of puddler and formation siphonozooid, the upper portion of this siphonozooid has the water hole of crossing of fretwork, water conveying mechanism's output passes through the outlet pipe and rotates sealing joint and is connected with the siphonozooid to make water conveying mechanism to the inside water delivery of puddler middle part siphonozooid, the siphonozooid lower extreme is connected with the shower, and the water of water conveying mechanism output passes through the shower and imports the agitator with the mode that sprays.

6. The automatic cereal grain beverage maker according to claim 5, wherein: the spraying range of the spraying pipe comprises the inner wall of the stirring barrel and a rod body of the stirring rod.

7. The automatic cereal grain beverage maker according to claim 3, wherein: the heat exchange cup base comprises a container, a cold water inlet, a coil pipe, a hot water outlet, an introducing port and an elastic membrane, wherein an opening is formed in the top of the container, the elastic membrane is arranged in the container from the opening in the top of the container and is in a loose state in a free state, a cavity is formed between the outer wall of the elastic membrane and the inner wall of the container, heat conducting liquid is stored in the cavity, the cold water inlet at the lower end of the coil pipe and the hot water outlet at the upper end of the coil pipe penetrate through the container, and the coil pipe is arranged in the cavity and immersed in the heat conducting liquid.

8. A method of using the coarse cereal automatic beverage machine according to any one of claims 1 to 7, wherein the method comprises the following steps:

9. The use method of the coarse cereal automatic beverage machine according to claim 8, characterized in that: the process for continuously making n cups of the coarse cereal beverage comprises the following steps: