CN217838862U - Brewing equipment - Google Patents

Abstract

The utility model provides a brewing equipment, it is complicated to the domestic beer machine technology among the correlation technique, troublesome poeration's problem and do not have sterilizing equipment, and then do not can thoroughly disinfect before the fermentation, lead to the problem that the fermentation accessory substance is many or the fermentation success rate is low, the utility model provides a brewing equipment, brewing equipment including the subassembly that disinfects, infusion subassembly and the gas transmission subassembly of making, disinfect and abluent operation before making at every turn in advance, prevent to have miscellaneous fungus in the whole equipment to avoid influencing whole fermentation process.

Description

Brewing equipment

Technical Field

The utility model relates to a make equipment technical field, particularly relate to a make equipment.

Background

In the correlation technique, when using ordinary user to brew beer at the beer machine, need carry out steps such as solitary washing, disinfect and dry to the inside of beer machine, otherwise can lead to the failure of making beer because of the pollution of miscellaneous fungus at the in-process of making beer, but the manual work is washd, is disinfected and steps such as drying to the beer machine complex operation, and the degree of difficulty is high to, the reliability is low, thereby influences the success rate of beer brewing.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it influences one of the technical problem of making the success rate because of the user is improper to the operation of step such as washing, disinfecting and drying to aim at solving the brewing equipment that exists among the prior art at least.

Therefore, the utility model discloses an aspect provides a brewing equipment.

In view of this, according to the utility model discloses an aspect, the utility model provides a brewing equipment, include: a fermentation assembly; the sterilization component is connected with the fermentation component and is used for sterilizing the fermentation component; the infusion component is connected with the fermentation component and is used for infusing the fermentation component; the gas transmission component is connected with the fermentation component and is used for transmitting gas to the fermentation component; the first liquid discharging assembly is connected with the bottom of the fermentation assembly.

The utility model provides a brewing equipment, including the fermentation subassembly, the subassembly disinfects, infusion subassembly and gas transmission subassembly, the fermentation subassembly is used for fermenting the raw materials in order to brew the finished product, the subassembly that disinfects is connected with the fermentation subassembly, and then can disinfect the fermentation subassembly through the subassembly that disinfects, thereby realize disinfecting the automation of fermentation subassembly, infusion subassembly and fermentation subassembly are connected, and then the infusion subassembly can be to fermentation subassembly transport liquid, thereby realize the washing to the fermentation subassembly, gas transmission subassembly and fermentation subassembly are connected, and then gas transmission subassembly can be to fermentation subassembly gas transmission, thereby realize carrying out drying process to the fermentation subassembly, and then through the subassembly that disinfects, infusion subassembly and gas transmission subassembly can realize disinfecting the automation of brewing equipment, washing and drying, and then make to disinfect brewing equipment, the effect of washing and drying is more stable, and then promote the cleanliness factor of brewing environment, promote the success rate of making wine.

And, brewing equipment still includes first drainage subassembly, first drainage subassembly is connected with the fermentation subassembly, first drainage subassembly is used for discharging the finished product of making good, and, the subassembly that disinfects, infusion subassembly and gas transmission subassembly can go on first drainage subassembly equally, disinfect, wash and dry, thereby further promote brewing equipment and disinfect, wash and the stability of dry effect, promote the cleanliness factor of making the environment, promote the success rate of making, and, first drainage subassembly also can be opened when disinfecting, washing or dry step, thereby make gas or liquid etc. can discharge through first drainage subassembly, reduce gas and liquid hoarding time etc. in the fermentation subassembly, reduce secondary pollution's influence, promote the effect of disinfecting, washing and drying.

And, first row's liquid subassembly sets up in the bottom of fermentation subassembly, consequently, liquid etc. in the sterilization process can discharge fast, can not cause secondary pollution to the runner between fermentation subassembly and the infusion subassembly once more, promotes the bactericidal effect.

In addition, according to the brewing equipment in the above technical scheme that the utility model provides, can also have following additional technical characteristics:

on the basis of the technical scheme, further, the first liquid discharging assembly comprises: one end of the first pipeline is connected with the fermentation assembly; the first valve body is arranged on the first pipeline; the first power part is connected with the first pipeline; the liquid outlet piece is connected with the first power piece; based on the condition that the pressure in the fermentation assembly is greater than or equal to the first threshold value, the first valve body is opened and the first power part does not work when liquid is discharged; based on the condition that the pressure in the fermentation assembly is smaller than a first threshold value, when liquid is discharged, the first valve body is opened, and the first power part works.

In this technical scheme, first drainage subassembly includes first pipeline, first valve body, first power spare and goes out liquid spare, and fermentation subassembly and play liquid spare are connected to first pipeline, and first power spare and first valve body setting are on first pipeline, and then can promote the speed of flowing back through first power spare to, go out liquid spare and also be convenient for connect greatly to liquid, opening or ending of first pipeline can be controlled to first valve body.

In addition, in the process of using the brewing equipment, if the pressure in the fermentation assembly is greater than or equal to the first threshold value, when the first liquid discharging assembly is started, the first power part does not work, specifically, gas is generated in the process of brewing food, and in addition, external gas is introduced, so that the pressure in the fermentation assembly is usually high, liquid can be discharged by utilizing the pressure in the fermentation assembly, the energy is saved, the liquid discharging amount is reduced, and the possibility of spilling due to the fact that the liquid discharging speed is too high is reduced.

If the pressure in the fermentation subassembly is less than first threshold value, then when opening first drainage subassembly, first power spare work, after the pressure release in the fermentation subassembly, the pressure reduction in the fermentation subassembly, consequently, utilize first power spare to promote fermentation subassembly's flowing back speed, promote the flowing back effect.

On the basis of any one of the above technical solutions, further, the method further includes: the second liquid discharging assembly is connected with the bottom of the fermentation assembly and is connected with the bottom of the fermentation assembly at intervals; the second drainage assembly includes: the first filtering piece is arranged at the bottom of the fermentation assembly; one end of the second pipeline is connected with the first filter piece, and the other end of the second pipeline is connected with the first pipeline; the second valve body is arranged on the second pipeline.

In this technical scheme, the brewing equipment still includes second flowing back subassembly, the bottom of second flowing back subassembly and fermentation subassembly is connected, first flowing back subassembly and second flowing back subassembly set up the different positions in the bottom of fermentation subassembly respectively, because in the brewing process, solid matter such as yeast can be deposited to the bottom of fermentation subassembly, and then can discharge the liquid of the bottom of fermentation subassembly through second flowing back subassembly, specifically, second flowing back subassembly includes first filtering piece, second pipeline and second valve body, the second pipeline is connected with first filtering piece, the second valve body sets up on the second pipeline, first filtering piece sets up the bottom at the fermentation subassembly, thereby can filter liquid and solid in the fermentation subassembly, the liquid that passes through the filtration flows into the third pipeline through the second pipeline, finally discharge through first flowing back subassembly, thereby promote the finished product rate of making, and, the energy can be saved.

Wherein, the first drainage subassembly is connected with the peripheral lateral wall of the bottom of fermentation subassembly, and that is the junction position of first drainage subassembly and fermentation subassembly is higher than the junction position of second drainage subassembly and fermentation subassembly.

On the basis of any technical scheme, the pressure detection device is arranged in the fermentation assembly and is used for detecting the liquid pressure and the gas pressure in the fermentation assembly; and the controller is electrically connected with the pressure detection device and is used for determining the liquid level in the fermentation assembly according to the liquid pressure and the gas pressure.

In this technical scheme, the brewing equipment still including setting up the pressure measurement device in fermentation subassembly inside, pressure measurement device and controller electricity are connected, and the controller can acquire the liquid pressure and the gas pressure in the fermentation subassembly through pressure measurement device, through the difference of liquid pressure and gas pressure, can calculate the height of liquid to can know the remaining wine volume in the fermenter.

On the basis of any one of the above technical solutions, further, the method further includes: one end of the third pipeline is connected with the sterilization component and the gas transmission component, and the other end of the third pipeline is connected with the first liquid discharge component; and the third valve body is arranged on the third pipeline.

In this technical scheme, brewing equipment still includes third pipeline and third valve body, the one end of third pipeline with disinfect the subassembly and be connected with gas transmission subassembly, the other end is connected with first drainage subassembly, and then disinfect subassembly and gas transmission subassembly can be solitary disinfect to first drainage subassembly, wash and dry, because first drainage subassembly can discharge and disinfect to fermentation subassembly, wash and dry gas or liquid, and then this part gas and liquid are to the disinfecting of first drainage subassembly, washing and dry ability are lower, therefore, the third pipeline can be solitary disinfect to first drainage subassembly, wash and dry, thereby promote the disinfecting to first drainage subassembly, washing and dry effect, and, after the finished product of making a brew is obtained through first drainage subassembly at every turn, all can disinfect to first drainage subassembly, wash and dry, and then promote food safety, reduce the possibility that pollution such as mildening and rot appears in first drainage subassembly.

And the third valve body is arranged on the third pipeline and can control the connection or the disconnection of the third pipeline, so that whether the sterilization assembly, the infusion assembly and the gas transmission assembly sterilize, clean and dry the first liquid discharge assembly through the third pipeline can be controlled.

On the basis of any one of the above technical solutions, further, the fermentation assembly includes: the material storage piece is connected with the sterilization component, the infusion component, the gas transmission component and the material storage piece; one end of the fourth pipeline is connected with the sterilization component, the infusion component and the gas transmission component, and the other end of the fourth pipeline is connected with the material storage component; the fourth valve body is arranged on the fourth pipeline; the fifth pipeline is connected with the material storage piece, the fourth pipeline and the fourth valve body in parallel; the fifth valve body is arranged on the fifth pipeline; one end of the sixth pipeline is connected with the fifth pipeline and the material storage piece; the fermentation piece, the storage piece and the fifth pipeline are connected through a sixth pipeline; the other end of the sixth pipeline is connected with the sixth valve body; and the sixth valve body is arranged on the sixth pipeline.

In the technical scheme, the fermentation assembly comprises a storage piece and a fermentation piece, the storage piece is connected with a sterilization assembly, a transfusion assembly and a gas transmission assembly, the fermentation assembly is connected with the sterilization assembly, the transfusion assembly is connected with the gas transmission assembly, and the storage piece is also connected with the fermentation assembly, specifically, the storage piece is connected with the sterilization assembly through a fourth pipeline, the transfusion assembly is connected with the gas transmission assembly through a fifth pipeline and a sixth pipeline, the transfusion assembly is connected with the gas transmission assembly through a fourth valve body, the communication and the cut-off of the fourth pipeline can be controlled, the fifth pipeline is connected in parallel with the two ends of the fourth valve body and the storage piece, the fifth valve body is arranged on the fifth pipeline, the communication and the cut-off of the fifth pipeline are controlled, and different communication relations of the storage piece, the fermentation piece, the sterilization assembly, the transfusion assembly and the gas transmission assembly can be realized according to different working states of the fourth valve body, the fifth valve body and the sixth valve body.

Specifically, can realize the fermentation and alone with the subassembly that disinfects, infusion subassembly and gas transmission subassembly three are linked together, the storage is alone with the subassembly that disinfects, infusion subassembly and gas transmission subassembly three are linked together, and the storage, the fermentation, the subassembly that disinfects, infusion subassembly and gas transmission subassembly homogeneous phase intercommunication, and then can focus to the position of difference and disinfect, wash and dry, because carry out the fermentation of raw materials in the fermentation, and then the residue in the fermentation is more, it needs focus to disinfect, wash and dry, therefore, through the setting of above-mentioned flow path, can be so that the subassembly that disinfects, infusion subassembly and gas transmission subassembly are independently disinfected the fermentation, wash and dry, thereby can the energy can be saved.

On the basis of any one of the above technical solutions, further, the number of the storage member, the fourth pipeline and the fourth valve body is multiple.

In this technical scheme, the quantity of storage piece, fourth pipeline and fourth valve body is a plurality of to can hold different raw materials of dress, in order to satisfy the brewing demand, thereby promote the brewing effect.

On the basis of any one of the above technical solutions, further, the method further includes: the opening and closing detection device is arranged on the storage part and the fermentation part and used for detecting the opening and closing state of the storage part and the opening and closing state of the fermentation part.

In this technical scheme, be provided with the detection device that opens and shuts on storage spare and the fermentation spare, can judge that the storage spare is in the open mode or closed condition, can also judge that the fermentation spare is in the open mode or closed condition.

On the basis of any one of the above technical solutions, further, the fermentation assembly further includes: the heat exchange piece is arranged on the fermentation piece; the exhaust assembly is connected with the fermentation piece and comprises an exhaust valve; the first safety valve is arranged between the exhaust valve and the fermentation assembly.

In this technical scheme, brewing equipment still includes the exhaust subassembly, and the exhaust subassembly is connected with the fermentation piece to can discharge the gas in the fermentation piece, and then adjust the pressure in the fermentation piece, thereby make and keep the required pressure of fermentation in the fermentation piece, promote the success rate of making a brew.

The fermentation subassembly is still including setting up the heat transfer spare on the fermentation piece, and the heat transfer spare can heat and/or refrigerate the fermentation piece to obtain the temperature that the fermentation needs, promote the success probability of making.

Brewing equipment still includes first relief valve, and first relief valve sets up in the centre of discharge valve and fermentation subassembly, and then can open discharge valve, and after fermentation subassembly pressure exceeded the first pressure threshold value of first relief valve, first relief valve opened, and then reduced the pressure in the fermentation subassembly, and then promoted brewing equipment's security.

On the basis of any one of the above technical solutions, further, the method further includes: the second safety valve is arranged between the sterilization component and the fermentation component.

In this technical scheme, brewing equipment still includes the second relief valve, and the second relief valve setting is between subassembly and the fermentation subassembly of disinfecting, and then can make the quantity of the material that disinfects in the subassembly of disinfecting sufficient back, is disinfecting corresponding part, promotes the bactericidal effect to, after the pressure in the fermentation subassembly is too high, also can discharge through the second relief valve, thereby promote brewing equipment's security.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a brewery installation according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a portion of a brewing apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view of a brewery installation according to an embodiment of the present invention;

FIG. 4 is a block diagram showing a control structure of a brewery plant according to an embodiment of the present invention;

FIG. 5 is a flow chart showing a brewing process of the brewing apparatus according to one embodiment of the present invention;

FIG. 6 is a block diagram of a controller and a pressure detecting device of a brewing apparatus according to an embodiment of the present invention;

fig. 7 is a block diagram showing the construction of the controller and the open/close detection device in the brewing apparatus according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 7 is:

100 brewing equipment, 110 fermentation components, 112 storage components, 114 fourth pipelines, 116 fourth valve bodies, 118 fifth pipelines, 120 fifth valve bodies, 122 fermentation components, 1222 main bodies, 1224 cover bodies, 124 sixth pipelines, 126 sixth valve bodies, 130 sterilization components, 140 liquid conveying components, 142 liquid storage components, 144 first power components, 150 gas conveying components, 152 second filter components, 154 second power components, 160 first liquid discharging components, 162 first pipelines, 164 first valve bodies, 166 third power components, 168 liquid discharging components, 172 third pipelines, 174 third valve bodies, 180 second liquid discharging components, 182 first filter components, 184 second pipelines, 186 second valve bodies, 190 heat exchange pieces, 192 refrigeration pieces, 194 heating pieces, 200 exhaust assemblies, 202 exhaust valves, 204 air pressure detection pieces, 206 first safety valves, 208 seventh pipelines, 220 second safety valves, 232 first one-way valves, 234 second one-way valves, 236 third one-way valves, 238 fourth one-way valves, 240 waste material boxes, 250 liquid level detection pieces, 260 position detection pieces, 270 flow meters, 280 temperature detection pieces, 290 valve bodies, 300 controllers, 310 display panels, 320 pressure detection devices, 322 gas pressure sensors, 324 liquid pressure sensors, 330 opening and closing detection devices, 332 first opening and closing detection devices and 334 second opening and closing detection devices.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A brewing apparatus 100 provided according to some embodiments of the present invention is described below with reference to fig. 1 to 7.

Example 1:

as shown in fig. 1, fig. 2 and fig. 3, the present invention provides a brewing apparatus 100, the brewing apparatus 100 includes a fermentation assembly 110, a sterilization assembly 130, an infusion assembly 140 and an air delivery assembly 150, wherein the sterilization assembly 130, the infusion assembly 140 and the air delivery assembly 150 are all connected to the fermentation assembly 110, the sterilization assembly 130 can sterilize the fermentation assembly 110, the infusion assembly 140 can clean the fermentation assembly 110 on the one hand, and can also infuse into the fermentation assembly 110 during brewing to meet brewing requirements on the other hand, specifically, the infusion of the infusion assembly 140 to the fermentation assembly 110 can occur in a preparation stage of brewing, and/or in a brewing process, and/or after brewing is completed, the air delivery assembly 150 can deliver air to the fermentation assembly 110 to dry the liquid residue.

The utility model provides a brewing equipment 100, including fermentation subassembly 110, the subassembly 130 disinfects, infusion subassembly 140 and gas transmission subassembly 150, fermentation subassembly 110 is used for fermenting the raw materials in order to brew the finished product, it is connected with fermentation subassembly 110 to disinfect subassembly 130, and then can disinfect fermentation subassembly 110 through the subassembly 130 that disinfects, thereby realize disinfecting to fermentation subassembly 110's automation, infusion subassembly 140 and fermentation subassembly 110 are connected, and then infusion subassembly 140 can carry liquid to fermentation subassembly 110, thereby realize the washing to fermentation subassembly 110, gas transmission subassembly 150 and fermentation subassembly 110 are connected, and then gas transmission subassembly 150 can be to fermentation subassembly 110 gas transmission, thereby realize carrying out drying process to fermentation subassembly 110, and then through the subassembly 130 that disinfects, infusion subassembly 140 and gas transmission subassembly 150 can be in order to realize disinfecting to brewing equipment 100's automation, washing and drying, and then make and disinfect brewing equipment 100, the effect of washing and drying is more stable, and then promote brewing environment's cleanliness factor, the success rate of brewing is promoted. Wherein the fluid delivered by the infusion set 140 can be water or an aqueous solution.

Further, the fermentation module 110, the sterilization module 130, the infusion module 140 and the gas delivery module 150 can be connected with each other through pipelines.

Specifically, the brewing apparatus 100 may brew beer, white spirit, fruit wine, soy sauce, vinegar, or other brewed foods.

As shown in fig. 4, the brewing apparatus 100 further includes a controller 300, the controller 300 controls the operations of the sterilization assembly 130, the infusion assembly 140, and the gas delivery assembly 150, specifically, the specific operation flow of the sterilization assembly 130, the infusion assembly 140, and the gas delivery assembly 150 may be that, before the brewing apparatus 100 performs brewing, the controller 300 controls the sterilization assembly 130 to operate first to sterilize the fermentation assembly 110, and then the controller 300 controls the infusion assembly 140 to operate to clean the fermentation assembly 110, and then the controller 300 controls the gas delivery assembly 150 to operate to blow-dry the fermentation assembly 110, in the above steps, the operations of the sterilization assembly 130 and the infusion assembly 140 may be performed once or repeatedly, or the operations of the sterilization assembly 130, the infusion assembly 140, and the gas delivery assembly 150 may be performed once or repeatedly.

Moreover, after the brewing apparatus 100 completes brewing, the controller 300 may control the infusion set 140 to operate first, so as to clean the fermentation set 110, and then the controller 300 controls the air delivery set 150 to operate, so as to dry the fermentation set 110, in the above steps, the operation of the infusion set 140 may be performed one or more times, or the operations of the infusion set 140 and the air delivery set 150 may be performed one or more times.

Furthermore, a first one-way valve 232 is arranged between the infusion set 140 and the fermentation set 110, and the first one-way valve 232 is communicated from the infusion set 140 to the fermentation set 110. A second one-way valve 234 is arranged between the gas transmission assembly 150 and the fermentation assembly 110, and the second one-way valve 234 is communicated from the gas transmission assembly 150 to the fermentation assembly 110.

In particular, a display panel 310 is also included on the brewing apparatus 100, which can display information such as parameters at the time of brewing.

Further, the brewery installation 100 includes a first drainage assembly 160 connected to the fermentation assembly 110.

In this embodiment, the brewing apparatus 100 further includes a first liquid draining assembly 160, the first liquid draining assembly 160 is connected to the fermentation assembly 110, the first liquid draining assembly 160 is used for draining brewed products, and the sterilization assembly 130, the liquid feeding assembly 140 and the gas feeding assembly 150 can also sterilize, clean and dry the first liquid draining assembly 160, thereby further improving the stability of the sterilization, cleaning and drying effects of the brewing apparatus 100, improving the cleanliness of the brewing environment, improving the success rate of brewing, and the first liquid draining assembly 160 can also be opened during the sterilization, cleaning or drying steps, so that gas or liquid and the like can be drained through the first liquid draining assembly 160, reducing the accumulation time of gas and liquid in the fermentation assembly 110 and the like, reducing the influence of secondary pollution, and improving the sterilization, cleaning and drying effects.

Specifically, the first liquid discharging assembly 160 is connected to the peripheral side wall of the fermentation assembly 110, and further, the first liquid discharging assembly 160 is connected to the peripheral side wall of the lower portion of the fermentation assembly 110, so that solids can remain due to fermentation of the raw material, and the solids can settle to the bottom of the fermentation assembly 110, and further, the first liquid discharging assembly 160 is connected to the peripheral side wall of the fermentation assembly 110, so that clean liquid on the upper layer of the finished product can be obtained, and the quality of the taken-out finished product can be improved.

Specifically, when the infusion set 140 cleans the fermentation set 110, the first draining set 160 may be turned on to achieve the flow of the liquid, so as to flush the fermentation set 110, and the first draining set 160 may also be sterilized by the sterilizing set 130, cleaned by the infusion set 140, and dried by the air blowing of the air delivery set 150.

Moreover, the first liquid discharging assembly 160 is arranged at the bottom of the fermentation assembly 110, so that liquid and the like in the sterilization process can be discharged quickly, secondary pollution to a flow channel between the fermentation assembly 110 and the liquid conveying assembly 140 can be avoided, and the sterilization effect is improved.

Example 2:

as shown in fig. 3, based on embodiment 1, further, the first draining assembly 160 includes a first pipeline 162, a first valve 164, a third power member 166 and a draining member 168, one end of the first pipeline 162 is connected to the fermentation assembly 110, the other end is connected to the draining member 168, the first valve 164 is disposed on the first pipeline 162 to control the connection and disconnection of the first pipeline 162, and the third power member 166 is disposed on the first pipeline 162, so that when the first valve 164 is opened, the liquid in the fermentation assembly 110 can be drained through the first pipeline 162 and the draining member 168 by the operation of the third power member 166.

In this embodiment, the first drainage assembly 160 includes a first pipeline 162, a first valve 164, a third power member 166 and a liquid outlet member 168, the first pipeline 162 connects the fermentation assembly 110 and the liquid outlet member 168, the third power member 166 and the first valve 164 are disposed on the first pipeline 162, so that the drainage speed can be increased by the third power member 166, the liquid outlet member 168 is also convenient for receiving liquid, and the first valve 164 can control the opening or closing of the first pipeline 162.

Specifically, the first valve body 164 is an electrically controlled valve, such as a solenoid valve, and the third power member 166 is a water pump.

Wherein, third pipeline 172 all connects at the input and the output of third power piece 166, and then when disinfecting, rinsing and drying first drainage subassembly 160, if third power piece 166 opens, then can disinfect, rinse and dry simultaneously third power piece 166 and play liquid 168, if third power piece 166 closes, then can disinfect, rinse and dry simultaneously play liquid 168.

Furthermore, when the pressure in the fermentation assembly 110 is greater than or equal to the first threshold value during the use of the brewing apparatus 100, the third power unit 166 does not operate when the first drainage assembly 160 is turned on, specifically, since gas is generated during the brewing of the food and external gas is introduced, the pressure in the fermentation assembly 110 is generally high, so that the liquid can be drained by the pressure in the fermentation assembly 110, thereby saving energy, reducing the drainage amount, and reducing the possibility of the liquid being spilled due to the excessively high drainage speed.

If the pressure in the fermentation assembly 110 is less than the first threshold, the third power member 166 operates when the first drainage assembly 160 is turned on, and after the pressure in the fermentation assembly 110 is released, the pressure in the fermentation assembly 110 is reduced, so that the drainage speed of the fermentation assembly 110 is increased by using the third power member 166, and the drainage effect is improved.

Example 3:

as shown in fig. 3, in addition to the embodiment 2, the brewing apparatus 100 further includes a second drainage assembly 180 disposed at the bottom of the fermentation assembly 110, the second drainage assembly 180 includes a first filtering member 182, a second pipeline 184 and a second valve body 186, the second valve body 186 is disposed on the second pipeline 184, and the second valve body 186 is opened and closed, so that the second pipeline 184 can be opened and closed, and the first filtering member 182 is disposed on the fermentation assembly 110, the third pipeline 172 is connected to the first filtering member 182, so that when the second valve body 186 is opened, the liquid in the fermentation assembly 110 passes through the first filtering member 182 and is discharged through the second pipeline 184, and when the second valve body 186 is closed, the liquid in the fermentation assembly 110 cannot be discharged through the second pipeline 184.

In this embodiment, the brewing apparatus 100 further comprises a second drainage assembly 180, the second drainage assembly 180 is connected to the bottom of the fermentation assembly 110, solid substances such as yeast can be deposited on the bottom of the fermentation assembly 110 during brewing, and thus the liquid on the bottom of the fermentation assembly 110 can be discharged through the second drainage assembly 180, specifically, the second drainage assembly 180 comprises a first filtering member 182, a second pipeline 184 and a second valve body 186, the second pipeline 184 is connected to the first filtering member 182, the second valve body 186 is disposed on the second pipeline 184, and the first filtering member 182 is disposed on the bottom of the fermentation assembly 110, so as to filter the liquid and the solid substances in the fermentation assembly 110, and the filtered liquid is discharged through the second pipeline 184, thereby improving the extraction rate of the final product.

Further, the other end of the second pipe 184 is connected to the third pipe 172.

In this embodiment, the brewing apparatus 100 further comprises a second drainage assembly 180, the second drainage assembly 180 is connected to the bottom of the fermentation assembly 110, and solid substances such as yeast can be deposited on the bottom of the fermentation assembly 110 during brewing, so that liquid in the bottom of the fermentation assembly 110 can be discharged through the second drainage assembly 180, specifically, the second drainage assembly 180 comprises a first filtering member 182, a second pipeline 184 and a second valve body 186, the second pipeline 184 is connected to the first filtering member 182, the second valve body 186 is disposed on the second pipeline 184, the first filtering member 182 is disposed on the bottom of the fermentation assembly 110, so as to filter liquid and solid substances in the fermentation assembly 110, and the filtered liquid flows into the third pipeline 172 through the second pipeline 184 and is finally discharged through the first drainage assembly 160, so as to improve the yield of the finished product and save energy.

After the fermentation module 110 is sterilized or cleaned, more liquid is drained through the first drainage module 160, and less water remains at the bottom of the fermentation module and is drained from the second drainage module 180 through the bottom. The first filter 182 may allow liquids and small solids to pass through and may be opened manually to allow large deposits to fall into the waste bin 240.

The second valve body 186 is an electrically controlled valve, such as a solenoid valve.

Example 4:

as shown in fig. 6, in addition to any one of the embodiments 1 to 3, further, the brewing apparatus 100 comprises a pressure detecting device 320 and a controller 300, wherein the pressure detecting device 320 is arranged inside the fermentation assembly 110 for detecting the liquid pressure and the gas pressure inside the fermentation assembly 110; the controller 300 is electrically connected with the pressure detection device 320 and is used for determining the liquid level in the fermentation assembly 110 according to the liquid pressure and the gas pressure.

In this embodiment, the brewing apparatus 100 further comprises a pressure detecting device 320 disposed inside the fermentation assembly 110, the pressure detecting device 320 is electrically connected to the controller 300, the controller 300 can obtain the liquid pressure and the gas pressure in the fermentation assembly 110 through the pressure detecting device 320, and the liquid level can be calculated according to the difference between the liquid pressure and the gas pressure, so as to know the amount of wine remaining in the fermentation member 122.

Specifically, the pressure detecting means 320 includes a gas pressure sensor 322 and a liquid pressure sensor 324, the liquid pressure sensor 324 is capable of detecting the pressure of the liquid, and the pressure of the liquid is the sum of the gravity and the gas pressure of the liquid to the liquid pressure, and therefore, the amount of the liquid can be determined based on the liquid pressure detected by the liquid pressure sensor 324 and the gas pressure detected by the gas pressure sensor 322.

Example 5:

as shown in FIG. 3, in addition to any one of the embodiments 1 to 4, the brewing apparatus 100 further comprises a third pipeline 172 and a third valve 174 disposed on the third pipeline 172, wherein one end of the third pipeline 172 is connected to the sterilizing module 130, the infusion module 140 and the gas delivery module 150, the other end of the third pipeline 172 is connected to the first discharging module 160, and the third valve 174 is opened and closed, so as to achieve the connection and disconnection between the first pipeline and the sterilizing module 130, the infusion module 140 and the gas delivery module 150.

In this embodiment, the brewing apparatus 100 further comprises a third pipeline 172 and a third valve 174, one end of the third pipeline 172 is connected to the sterilization assembly 130, the infusion assembly 140 and the gas delivery assembly 150, and the other end is connected to the first drainage assembly 160, so that the sterilization assembly 130, the infusion assembly 140 and the gas delivery assembly 150 can independently sterilize, clean and dry the first drainage assembly 160, and since the first drainage assembly 160 can discharge the gas or liquid that has been sterilized, cleaned and dried from the fermentation assembly 110, and the gas or liquid has a low capability of sterilizing, cleaning and drying the first drainage assembly 160, the third pipeline 172 can independently sterilize, clean and dry the first drainage assembly 160, thereby improving the sterilization, cleaning and drying effects on the first drainage assembly 160, and after each brewed product is obtained from the first drainage assembly 160, the first drainage assembly 160 can be sterilized, cleaned and dried, thereby improving food safety and reducing the possibility of mildew and other contamination of the first drainage assembly 160.

The third valve 174 is disposed on the third pipeline 172, and is capable of controlling the connection and disconnection of the third pipeline 172, and further controlling whether the sterilization unit 130, the infusion unit 140, and the gas delivery unit 150 sterilize, clean, and dry the first waste liquid unit 160 through the third pipeline 172.

Specifically, the third valve 174 and the fermentation assembly 110 are connected in parallel, so that the first drainage assembly 160 can be cleaned separately, wherein the gas delivery assembly 150, the sterilization assembly 130 and the liquid delivery assembly 140 can be connected in sequence through a pipeline, the third pipeline 172 is connected between the sterilization assembly 130 and the liquid delivery assembly 140, or the third pipeline 172 is connected between the gas delivery assembly 150 and the sterilization assembly 130.

The third valve 174 is an electrically controlled valve, such as a solenoid valve.

A fourth check valve 238 is further provided in the third line 172, the fourth check valve 238 is provided between the third valve body 174 and the first drain assembly 160, and the fourth check valve 238 is communicated in a direction from the third valve body 174 to the first drain assembly 160.

Example 5:

as shown in fig. 2 and 3, in addition to any one of embodiments 1 to 4, the fermentation assembly 110 further includes a storage member 112, a fourth pipeline 114, a fourth valve body 116, a fifth pipeline 118, a fifth valve body 120, a sixth pipeline 124, a sixth valve body 126, and a fermentation member 122, wherein cavities are formed on the storage member 112 and the fermentation member 122.

One end of a fourth pipeline 114 is connected with the storage component 112, the other end of the fourth pipeline is connected with the sterilization component 130, the infusion component 140 and the gas transmission component 150, a fourth valve body 116 is arranged on the fourth pipeline 114, one end of a fifth pipeline 118 is connected with the storage component 112, the other end of the fifth pipeline is connected with the fourth pipeline 114, the fifth pipeline 118 is connected with the fourth valve body 116 and the storage component 112 in parallel, one end of a sixth pipeline 124 is connected with the fifth pipeline 118 and the storage component 112, the other end of the sixth pipeline is connected with the fermentation component 122, and the sixth valve body 126 is arranged on the sixth pipeline 124.

Furthermore, a plurality of flow paths are formed in the fermentation assembly 110, wherein one flow path is from the fourth pipeline 114 to the storage member 112, the other flow path is from the fourth pipeline 114 to the storage member 112, then to the sixth pipeline 124, then to the fermentation member 122, the third flow path is from the fifth pipeline 118 to the sixth pipeline 124, and then to the fermentation member 122.

In this embodiment, the fermentation assembly 110 includes a storage component 112 and a fermentation component 122, the storage component 112 is connected with a sterilization component 130, a transfusion component 140 and a gas transmission component 150, the fermentation component 110 is connected with the sterilization component 130, the transfusion component 140 and the gas transmission component 150, and the storage component 112 is further connected with the fermentation component 110, specifically, the storage component 112 is connected with the sterilization component 130, the transfusion component 140 and the gas transmission component 150 through a fourth pipeline 114, the fermentation component 122 is connected with the sterilization component 130, the transfusion component 140 and the gas transmission component 150 through a fifth pipeline 118 and a sixth pipeline 124, and the fermentation component 122 is connected with the sterilization component 130, the transfusion component 140 and the gas transmission component 150 through a fifth pipeline 118 and a sixth pipeline 150, and a fourth valve body 116 is disposed on the fourth pipeline 114 to control the communication and the stop of the fourth pipeline 114, a fifth pipeline 118 is connected in parallel at two ends of the fourth valve body 116 and the storage component 112, and a fifth valve body 120 is disposed on the fifth pipeline 118 to control the communication and the stop of the fifth pipeline 118, and further realize different communication relationships of the storage component 112, the fermentation component 130, the sterilization component 150 and the gas transmission component 140 according to different working states of the fourth valve body 116, the fifth valve body 120 and the sixth valve body 126.

Specifically, the fermentation part 122 can be communicated with the sterilization component 130, the infusion component 140 and the gas transmission component 150 independently, the storage part 112 is communicated with the sterilization component 130, the infusion component 140 and the gas transmission component 150 independently, the storage part 112, the fermentation part 122, the sterilization component 130, the infusion component 140 and the gas transmission component 150 are communicated uniformly, and further, the sterilization, cleaning and drying can be performed according to different positions, because the fermentation of raw materials is performed in the fermentation part 122, and further, more residues are left in the fermentation part 122, and the sterilization, cleaning and drying are performed mainly, therefore, through the arrangement of the flow paths, the sterilization component 130, the infusion component 140 and the gas transmission component 150 can sterilize, clean and dry the fermentation part 122 independently, and energy can be saved.

And, the auxiliary brewing material can be placed in the storage container 112, and during the brewing process, the auxiliary brewing material in the storage container 112 can be automatically fed into the fermentation container 122 without opening the brewing apparatus 100, and the fermentation can be performed accordingly.

Also, the infusion module 140 can be controlled to operate to introduce the supplement into the fermentation chamber 122 via the liquid during the feeding process, and the air delivery module 150 can be controlled to operate to blow dry the liquid in the storage chamber 112 or discharge the liquid into the fermentation chamber 122 after the feeding process is completed.

Wherein, the bottom of the fermentation part 122 may be a reverse cone, so as to facilitate the precipitation of the solid raw material, and to facilitate the discharge of the first drainage component 160 due to more finished products on the upper layer.

Specifically, the fourth valve body 116 is an electrically controlled valve, such as a solenoid valve, the fifth valve body 120 is an electrically controlled valve, such as a solenoid valve, and the sixth valve body 126 is an electrically controlled valve, such as a solenoid valve.

Further, a third check valve 236 is disposed at the outlet of the accumulator 112, the third check valve 236 is connected between the accumulator 112 and the sixth pipeline 124, the third check valve 236 is communicated from the accumulator 112 to the sixth pipeline 124, and the fifth pipeline 118 is connected to both ends of the third check valve 236 and the fourth valve body 116.

Further, the fermenting member 122 includes a main body 1222 and a cover body 1224, the cover body 1224 is fastened to the main body 1222, and the fermenting member 122 further includes a liquid level detecting member 250 provided on the main body 1222 or the cover body 1224 for detecting a pressure inside the fermenting member 122.

Further, the fermentation assembly 110 further includes a position detector 260, and the position detector 260 can detect whether the main body 1222 and the cover 1224 are closed. The position detector 260 can also detect whether the magazine 112 is closed. Specifically, the magazine 112 includes a magazine and a lid, and the position detector 260 can also detect whether the magazine and the lid are closed.

The infusion set 140 can supply liquid to the fermentation element 122 and can also supply liquid to the storage case to dissolve the raw materials.

Example 6:

as shown in fig. 3, based on the embodiment 5, the number of the accumulator 112, the fourth pipeline 114 and the fourth valve body 116 is one or more.

In this embodiment, the number of the storage member 112, the fourth pipeline 114 and the fourth valve body 116 is one or more, and when the number of the storage member, the fourth pipeline 114 and the fourth valve body 116 is more than one, different raw materials can be loaded to meet brewing requirements, so as to improve brewing effect. Specifically, the accumulator 112, the fourth pipeline 114 and the fourth valve body 116 may be two, three or four, etc. The plurality of storage members 112, the fourth pipeline 114 and the fourth valve body 116 may be connected in series or in parallel.

Specifically, the different reservoirs 112 may have different volumes, and the larger volumes may contain the primary materials, such as: concentrated dry powder of wort, small volume of yeast, hops, flavoring agent, etc.

Example 7:

as shown in fig. 7, in addition to embodiment 5 or embodiment 6, the method further includes: the opening and closing detection device 330 is disposed on the storage member 112 and the fermentation member 122, and is configured to detect an opening and closing state of the storage member 112 and an opening and closing state of the fermentation member 122.

In this embodiment, the storage member 112 and the fermentation member 122 are provided with an open/close detection device 330, which can determine whether the storage member 112 is in an open state or a closed state, and can also determine whether the fermentation member 122 is in an open state or a closed state.

Specifically, the open/close detection device 330 is electrically connected to the controller 300, and when the material storage member 112 or the fermentation member 122 is not in the closed state, the steps such as brewing, cleaning, or sterilizing are not performed.

The open/close detection device 330 may be a micro switch, a laser sensor, or a position detection sensor.

Specifically, the storage member 112 is provided with a first opening/closing detection device 332, the first opening/closing detection device 332 is used for detecting whether the storage member 112 is in an open state or a closed state, the fermentation member 122 is provided with a second opening/closing detection device 334, and the second opening/closing detection device 334 is used for detecting whether the fermentation member 122 is in an open state or a closed state.

Example 8:

as shown in fig. 3, in addition to any one of embodiments 5 to 7, further, the fermentation assembly 110 further includes a heat exchange member 190 disposed on the fermentation member 122. Specifically, the heat exchange member 190 may be a semiconductor chilling plate or a heat exchange system.

Specifically, the heat exchanging member 190 includes a refrigerating member 192 and a heating member 194 so as to adjust the temperature of the fermenting member 122.

In this embodiment, the fermentation assembly 110 further comprises a heat exchange member 190 disposed on the fermentation member 122, and the heat exchange member 190 can heat and/or cool the fermentation member 122, so as to obtain the temperature required by fermentation and improve the success rate of brewing.

Specifically, the heat exchange member 190 may be wound around the circumferential side of the fermenting member 122.

Further, the fermenting assembly 110 further includes a heat insulating member disposed outside the fermenting member 122 and enclosing the heat exchanging member 190.

Example 9:

as shown in fig. 3, in addition to any one of the embodiments 1 to 8, further, the brewing apparatus 100 further comprises a vent assembly 200 disposed on the fermenting assembly, specifically, the vent assembly 200 comprises a vent valve 202, specifically, the vent assembly 200 is disposed on the fermenting member 122.

In this embodiment, the brewing apparatus 100 further comprises a gas exhaust assembly 200, the gas exhaust assembly 200 is connected to the fermentation part 122, so as to exhaust the gas in the fermentation part 122, and further, the pressure in the fermentation part 122 is adjusted, so that the pressure required by fermentation is maintained in the fermentation part 122, and the success rate of brewing is improved.

Wherein, the gas transmission component 150 can transmit gas into the fermentation part 122 to realize the stirring of the raw material, and the pressure in the fermentation part 122 can be raised after the stirring, so that the exhaust component 200 can be opened to balance the pressure in the fermentation part 122.

Example 10:

as shown in fig. 3, in addition to the embodiment 9, further, the exhaust assembly 200 further includes a first safety valve 206 disposed between the exhaust valve 202 and the fermentation assembly 110.

In this embodiment, the brewery installation 100 further comprises a first safety valve 206, wherein the first safety valve 206 is disposed between the vent valve 202 and the fermentation assembly 110, such that the vent valve 202 can be opened, and when the pressure of the fermentation assembly 110 exceeds a first pressure threshold of the first safety valve 206, the first safety valve 206 is opened, such that the pressure in the fermentation assembly 110 is reduced, and the safety of the brewery installation 100 is improved.

Specifically, the exhaust assembly 200 includes a seventh pipeline 208, an exhaust valve 202, an air pressure detecting element 204 and a first safety valve 206, and then the controller 300 can detect the air pressure in the fermentation element 122 through the air pressure detecting element 204, and then when the air pressure in the fermentation element 122 is greater than a preset air pressure threshold, the exhaust valve 202 is controlled to open, so as to reach the effect of equalizing the pressure in the fermentation element 122, and further, the pressure in the fermentation element 122 is more suitable for fermentation, thereby improving the success rate of brewing, and the exhaust valve 202, the air pressure detecting element 204 and the third safety valve are all disposed on the seventh pipeline 208.

Example 11:

as shown in fig. 3, in addition to any one of the embodiments 1 to 10, the brewing apparatus 100 further comprises a second safety valve 220 disposed at one end of the fermentation assembly 110, specifically, the second safety valve 220 is connected to the flow path between the gas delivery assembly 150, the sterilization assembly 130 and the liquid delivery assembly 140, for example, the gas delivery assembly 150 and the sterilization assembly 130 are connected by a pipeline, and the second safety valve 220 is connected to the pipeline between the gas delivery assembly 150 and the sterilization assembly 130.

In this embodiment, the brewing apparatus 100 further comprises a second safety valve 220, the second safety valve 220 is disposed between the sterilization assembly 130 and the fermentation assembly 110, so that the sterilization effect can be improved by sterilizing the corresponding components after the amount of the sterilization substance in the sterilization assembly 130 is sufficient, and after the pressure in the fermentation assembly 110 is greater than the second pressure threshold, the second safety valve 220 is opened, and the gas in the fermentation assembly 110 is exhausted through the second safety valve 220, so as to improve the safety of the brewing apparatus 100.

When the steam generator is abnormally blocked, the gas pressure in the pipeline may exceed the second pressure threshold, and the second safety valve 220 exhausts air and releases pressure, thereby improving the safety of the brewing apparatus 100.

Example 12:

further, on the basis of any one of embodiment 1 to embodiment 11, the sterilization assembly 130 includes a steam generator, an ozone generator, or an ion generator.

As shown in fig. 3, in the case that the sterilization unit 130 includes a steam generator, the sterilization unit 130 is connected to the infusion unit 140 and the fermentation unit 110, the infusion unit 140 supplies liquid to the sterilization unit 130, and the liquid is heated to be steam in the sterilization unit 130 to sterilize the fermentation unit 110. Specifically, the gas delivery module 150 may be separately connected to the fermentation module 110, and the liquid delivery module 140 may be connected to the fermentation module 110 through a steam generator. A first one-way valve 232 is disposed between the steam generator and the administration feeding set 140.

Moreover, the steam generator can also heat the liquid delivered by the infusion set 140, so that the cleaning effect can be improved.

Further, the brewery installation 100 also includes a temperature sensing element 280, the temperature sensing element 280 being configured to sense the temperature of the steam output by the steam generator.

Specifically, the temperature sensing member 280 can sense the temperature of the liquid in the reservoir 142, the temperature of the steam or water after heating by the steam generator, and the temperature of the fermenting member 122. Wherein, the temperature detecting part 280 for detecting the temperature of the liquid in the liquid storage part 142 is arranged on the pipeline between the liquid storage part 142 and the first power part 144; the temperature detection piece 280 for detecting the temperature of the steam or water heated by the steam generator is arranged on the outlet pipeline of the steam generator; the temperature detecting member 280 for detecting the temperature of the fermenting member 122 is provided on a sidewall or a bottom wall of the fermenting member 122.

The Temperature detector 280 is a Temperature sensor (NTC).

In the case where the sterilization assembly 130 includes an ozone generator, the sterilization assembly 130 is connected to the fermentation assembly 110 such that the sterilization assembly 130 generates ozone to sterilize the fermentation assembly 110.

Further, the sterilization module 130 is connected to the gas delivery module 150, and the ozone can enter the fermentation module 110 along with the gas delivered to the fermentation module 110 by the gas delivery module 150.

In the case that the sterilization assembly 130 includes an ion generator, the sterilization assembly 130 is connected to the fermentation assembly 110 such that the sterilization assembly 130 generates ions to sterilize the fermentation assembly 110.

Further, the sterilization module 130 is connected to the gas delivery module 150, and ions can enter the fermentation module 110 along with the gas delivered to the fermentation module 110 by the gas delivery module 150.

In the case where sterilization assembly 130 includes an ozone generator or an ion generator, brewing device 100 may also include a heater to heat the liquid delivered by infusion assembly 140 to enhance cleaning.

Example 13:

as shown in fig. 3, in addition to any one of the embodiments 1 to 12, further, the fluid infusion set 140 includes a liquid storage component 142 and a first power component 144, the liquid storage component 142 is connected to the first power component 144, and the first power component 144 is capable of delivering the liquid in the liquid storage component 142 to the fermentation assembly 110.

In this embodiment, the infusion set 140 includes a reservoir 142 and a first motive member 144, the reservoir 142 is configured to store fluid, and the first motive member 144 is configured to deliver fluid from the reservoir 142 to the respective components to provide sufficient fluid for the cleaning step and sufficient motive force to enhance the cleaning effect.

Specifically, the first power member 144 may be connected to a steam generator, which is connected to the fermenting assembly 110. The first power member 144 may be a water pump.

Further, the brewery installation 100 includes a flow meter 270, the flow meter 270 being disposed in the feeding set 140 for detecting the amount of liquid delivered by the feeding set. Specifically, after the feeding set 140 delivers a predetermined flow of liquid to the steam generator, the steam generator is restarted.

Example 14:

as shown in fig. 3, based on any one of embodiments 1 to 13, further, the gas transmission assembly 150 includes a second filter element 152 and a second power element 154, a gas suction end of the second power element 154 is connected to the second filter element 152, and a gas outlet end of the second power element 154 is connected to the fermentation assembly 110.

In this embodiment, the gas delivery assembly 150 includes a second filter 152 and a second power component 154, the second filter 152 can filter the gas entering the corresponding components, so as to improve the cleanliness of the gas, improve the sterilization, cleaning and drying effects, and improve the success rate of brewing, and the second power component 154 can give power to the gas, thereby improving the drying effect.

Specifically, the second power member 154 is an air pump, a fan, or the like. The second filter 152 is a screen.

Example 15:

as shown in fig. 3, in addition to any one of embodiments 1 to 14, the gas delivery module 150, the sterilization module 130 and the liquid delivery module 140 are sequentially connected, and the fermentation module 110 is connected between the gas delivery module 150 and the sterilization module 130, or the fermentation module 110 is connected between the sterilization module 130 and the sterilization module 130.

In this embodiment, the gas transmission module 150, the sterilization module 130 and the liquid transmission module 140 are connected in sequence, the fermentation module 110 is connected between the gas transmission module 150 and the sterilization module 130, or the fermentation module 110 is connected between the sterilization module 130 and the sterilization module 130, and then the gas transmission module 150, the sterilization module 130 and the liquid transmission module 140 can interact with each other to improve the corresponding effect.

Specifically, the third pipeline 172 may be connected between the fermentation module 110 and the gas delivery module 150, or the fermentation module 110 is connected between the sterilization module 130 and the sterilization module 130.

For example: the third pipe 172 may be connected between the fermentation module 110 and the infusion module 140, and the fermentation module 110 is connected between the gas delivery module 150 and the sterilization module 130. Or the fermentation module 110 may be connected between the sterilization module 130 and the fluid delivery module 140 at the fermentation module 110, and the third pipe 172 may be connected between the gas delivery module 150 and the sterilization module 130.

Further, the fermentation module 110 is connected between the second check valve 234 and the sterilization module 130, and the third pipe 172 is connected between the first check valve 232 and the sterilization module 130.

Example 16:

as shown in fig. 4, on the basis of any one of embodiments 1 to 15, further, the controller 300 is electrically connected to the air pressure detecting member 204, the exhaust valve 202, the liquid level detecting member 250, the position detecting member 260, the heating member 194, the flow meter 270, the first power member 144, the third power member 166, the sterilization assembly 130, the temperature detecting member 280, the second power member 154, the valve body 290 and the cooling member 192, wherein the valve body 290 includes the third valve body 174, the second valve body 186, the fourth valve body 116, the fifth valve body 120, the sixth valve body 126 and the first valve body 164.

The controller 300 may further control the exhaust valve 202, the heating element 194, the first power element 144, the third power element 166, the sterilization assembly 130, the second power element 154, the valve body, and the cooling element 192 according to the monitoring results of the air pressure detecting element 204, the liquid level detecting element 250, the position detecting element 260, the flow meter 270, and the temperature detecting element 280.

For example: the fermentation part 122 is connected with a first safety valve 206, a gas pressure detection part 204 and an exhaust valve 202 through pipelines. When the gas pressure in the fermentation part 122 exceeds the first pressure threshold during the fermentation process, the gas pressure detector 204 sends the detected signal to the controller 300, and the controller 300 opens the exhaust valve 202 to exhaust the gas. If the air vent valve 202 fails, the first safety valve 206 can open the air vent to ensure the safety of the brewing apparatus 100.

For another example: the first valve body 164 is arranged on the pipeline of the inlet of the third power element 166, when wine needs to be discharged, the air pressure detection element 204 firstly detects the internal pressure of the fermentation element 122, when the pressure exceeds a certain pressure opening pressure threshold value, for example, 10kPa, the first valve body 164 is opened, the third power element 166 is not required to be opened, and liquid discharge can be completed by means of the internal pressure of the fermentation element 122; when the pressure is smaller than the opening pressure threshold, the first valve body 164 is opened, and the third power element 166 is simultaneously opened, so that the liquid outlet is ensured to be smooth.

Moreover, the procedure for sterilizing, cleaning and drying the brewing device 100 may be to heat the liquid at a suitable temperature, the second power component 154 may draw air from the atmosphere, and the air may be cleaned by the second filter component 152, so that the air may dry the residual liquid in the pipeline after the steam sterilization and cleaning. And providing the air required for fermentation. Moreover, after each time of discharging the liquid, the liquid remained in the first liquid discharging assembly 160 and the second liquid discharging assembly 180 is dried by blowing, so that the breeding of bacteria is prevented; exhaust can be achieved after the exhaust valve 202 is opened; the third power member 166 functions to pump the liquid in the fermenting assembly 110. The first and second relief valves 206, 220 may automatically open vent relief after the gas pressure in the line exceeds a set value.

Specifically, as shown in FIG. 5, the brewing process of the brewing apparatus 100 can be roughly divided into the following steps:

step 502: the sterilization component, the infusion component and the gas transmission component are used for sterilization, cleaning and drying;

step 504: putting the raw materials into a fermentation assembly;

step 506: the gas transmission component transmits gas to the fermentation component to mix raw materials;

step 508: the heat exchange piece adjusts the temperature of the fermentation assembly to the fermentation temperature;

step 510: the gas transmission component transmits gas to the fermentation component to supplement gas for fermentation;

step 512: sequentially putting auxiliary materials;

step 514: the gas transmission component transmits gas to the fermentation component to remove residual liquid;

step 516: fermenting the raw materials in a fermentation assembly;

step 518: curing the raw materials in the fermentation assembly;

step 520: completing fermentation;

step 522: taking out the brewed finished product.

Specifically, the fermentation assembly 110 and the pipeline of the brewing equipment 100 are sterilized, cleaned, dried and the like; thereafter, the dissolved dry powder enters the fermenting member 122; the air delivery assembly 150 introduces air to the fermentation part 122 to realize uniform mixing of the liquid raw materials; the cooling or heating element 194 adjusts the temperature of the fermenting member 122 to a temperature required for fermentation; the gas transmission component 150 again supplies air to the fermentation part 122 to supplement oxygen required by fermentation; the brewing auxiliary materials in the storage member 112 are thrown in sequence; the gas transmission assembly 150 works to blow off residual liquid in the pipeline; starting fermentation of raw materials; the raw materials begin to be cured; obtaining a finished product after fermentation; when needed, the first drainage assembly 160 or the second drainage assembly 180 can be opened to take out a finished product, wherein the finished product can be beer, white spirit, fruit wine, soy sauce, vinegar or the like.

The utility model discloses it is complicated to domestic beer machine technology among the correlation technique, troublesome poeration's problem and do not have sterilizing equipment, and then can not thoroughly disinfect before the fermentation, lead to the many or problem that the fermentation success rate is low of fermentation accessory substance, a brewing equipment 100 is provided, brewing equipment 100 is including the subassembly 130 that disinfects, infusion subassembly 140 and gas transmission subassembly 150, disinfect and abluent operation before making at every turn, prevent to have miscellaneous fungus in the whole equipment, in order to avoid influencing whole fermentation process. The dry powder obtained by concentrating the wort is fermented, and compared with malt or viscous wort of grains, the process conditions are milder.

Wherein, the connection between each part related in the utility model can be direct connection, also can be through the pipeline connection.

In the present application, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are used broadly and should be construed to include, for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be understood that the terms "upper", "lower", "left", "right", "front", "rear", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the components or units referred to must have a specific direction, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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 (10)

1. Brewing apparatus, characterized in that it comprises:

a fermentation assembly;

the sterilization component is connected with the fermentation component and is used for sterilizing the fermentation component;

the transfusion component is connected with the fermentation component and is used for transfusing the fermentation component;

the gas transmission component is connected with the fermentation component and is used for transmitting gas to the fermentation component;

the first liquid discharging assembly is connected with the bottom of the fermentation assembly.

2. The brewing apparatus of claim 1, wherein the first drainage assembly comprises:

one end of the first pipeline is connected with the fermentation assembly;

the first valve body is arranged on the first pipeline;

the first power part is connected with the first pipeline;

a liquid outlet piece connected with the first power piece,

based on the condition that the pressure in the fermentation assembly is greater than or equal to a first threshold value, the first valve body is opened and the first power part does not work when liquid is discharged; based on the condition that the pressure in the fermentation assembly is smaller than a first threshold value, when liquid is discharged, the first valve body is opened, and the first power piece works.

3. The brewing apparatus of claim 2, further comprising:

the second liquid drainage assembly is connected with the bottom of the fermentation assembly and is connected with the bottom of the fermentation assembly at intervals;

the second drain assembly includes:

the first filtering piece is arranged at the bottom of the fermentation assembly;

one end of the second pipeline is connected with the first filter element, and the other end of the second pipeline is connected with the first pipeline;

and the second valve body is arranged on the second pipeline.

4. The brewing apparatus of claim 1, further comprising:

the pressure detection device is arranged in the fermentation assembly and is used for detecting the liquid pressure and the gas pressure in the fermentation assembly;

and the controller is electrically connected with the pressure detection device and is used for determining the liquid level in the fermentation assembly according to the liquid pressure and the gas pressure.

5. Brewery plant according to any one of claims 1 to 4, wherein the brewery plant further comprises:

one end of the third pipeline is connected with the sterilization component and the infusion component, and the other end of the third pipeline is connected with the first liquid discharging component;

and the third valve body is arranged on the third pipeline.

6. Brewery plant according to any one of claims 1 to 4, wherein the fermentation assembly comprises:

the sterilizing component, the infusion component and the gas transmission component are connected with the storage component;

one end of the fourth pipeline is connected with the sterilization component, the infusion component and the gas transmission component, and the other end of the fourth pipeline is connected with the material storage component;

the fourth valve body is arranged on the fourth pipeline;

the fifth pipeline is connected with the material storage piece, the fourth pipeline and the fourth valve body in parallel;

the fifth valve body is arranged on the fifth pipeline;

one end of the sixth pipeline is connected with the fifth pipeline and the material storage piece;

the fermentation piece is connected with the other end of the sixth pipeline;

and the sixth valve body is arranged on the sixth pipeline.

7. Brewing apparatus according to claim 6,

the quantity of the material storage piece, the fourth pipeline and the fourth valve body is multiple.

8. The brewing apparatus of claim 6, further comprising:

the opening and closing detection device is arranged on the storage piece and the fermentation piece and used for detecting the opening and closing state of the storage piece and the opening and closing state of the fermentation piece.

9. The brewing apparatus of claim 6, wherein the fermentation assembly further comprises:

the heat exchange piece is arranged on the fermentation piece;

the exhaust assembly is connected with the fermentation part and comprises an exhaust valve and a first safety valve, and the exhaust assembly is arranged between the exhaust valve and the fermentation assembly.

10. Brewing apparatus according to any one of claims 1 to 4, further comprising:

and the second safety valve is arranged between the sterilization component and the fermentation component.

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