CN213084214U - Carbon dioxide adds device and has device's sake jar - Google Patents

Abstract

The utility model relates to a carbon dioxide adds device and has device's sake jar, carbon dioxide adds the device and includes sintering micropore stick, the chamber of admitting air has been seted up to sintering micropore stick's one end, sintering micropore stick is provided with the intake pipe that is used for inserting the intracavity that admits air in chamber open-ended one end of admitting air, the intake pipe is embedded to be equipped with the check valve, the tip of sintering micropore stick is provided with the installation department that supplies the intake pipe to run through. This application has the advantage that improves carbon dioxide and adds efficiency.

Description

Carbon dioxide adds device and has device's sake jar

Technical Field

The application relates to the field of beer production and processing, in particular to a carbon dioxide adding device and a sake tank with the same.

Background

The beer has a plurality of contents such as bouquet, pure, full, mellow and slightly ester-fragrant taste, refreshing mouth-killing power and the like, wherein the mouth-killing power has the deepest impression to people, and the strong mouth-killing power can enable the drinkers to belch continuously after drinking so as to promote the digestion of the intestines and stomach of the human body and have the functions of invigorating the stomach and promoting the secretion of saliva or body fluid.

Carbon dioxide is generated in the fermentation process of beer, and the carbon dioxide can improve the mouth killing ability of the beer, but is influenced by factors such as pressure and temperature in a sake tank, so that the carbon dioxide finally dissolved in the beer is less, and the mouth killing ability of the beer is seriously influenced. However, in the related art, carbon dioxide gas is generally introduced directly into the sake tank through the gas inlet pipe, and carbon dioxide is not sufficiently dissolved in beer, which causes a problem of low efficiency of adding carbon dioxide.

In view of the above-mentioned related art, the inventors consider that there is a drawback that the carbon dioxide addition efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to improve carbon dioxide and add efficiency, this application provides a carbon dioxide adds device and has device's sake jar, has the advantage that improves carbon dioxide and adds efficiency.

In a first aspect, the present application provides a carbon dioxide adding device, which adopts the following technical scheme:

the utility model provides a carbon dioxide adds device, includes the sintering micropore stick, the chamber of admitting air has been seted up to the one end of sintering micropore stick, the sintering micropore stick is provided with the intake pipe that is used for inserting the intracavity of admitting air in chamber open-ended one end of admitting air, the embedded check valve that is equipped with of intake pipe, the tip of sintering micropore stick is provided with the installation department that supplies the intake pipe to run through.

Through adopting above-mentioned technical scheme, when needs add carbon dioxide to beer in, send into the air inlet intracavity with carbon dioxide gas through the intake pipe to make carbon dioxide gas enter into beer through the hole of sintering micropore stick. Through setting up simple structure, high-efficient swift carbon dioxide interpolation device for during carbon dioxide gas passes through the hole of sintering micropore stick, can enter into beer with the state of the fine bubble of vaporific, thereby make carbon dioxide fully dissolve in beer, and then improve carbon dioxide and add efficiency. Meanwhile, the one-way valve is arranged in the air inlet pipe, so that beer is prevented from flowing back into the air inlet pipe, and the use stability of the carbon dioxide adding device is improved.

Preferably, the installation department includes flange, flange is provided with the installation sleeve towards the terminal surface of sintering microporous stick, the tip of sintering microporous stick is inserted and is located in the installation sleeve and form fixed connection.

Through adopting above-mentioned technical scheme, through setting up dismantled and assembled and make things convenient for the carbon dioxide of dismouting to add the device, the person of facilitating the use maintains, changes and washs the operation such as the part that the device was added to the carbon dioxide to improve the convenience of use that the device was added to the carbon dioxide.

The second aspect, this application provides a sake jar with carbon dioxide adds device, adopts following technical scheme:

the utility model provides a sake jar with carbon dioxide adds device, includes a jar body, the diapire of the jar body runs through there is the flowing back interface, the diapire of the jar body runs through and has a plurality of mounting holes that are located flowing back interface periphery, carbon dioxide adds the device and sets up to a plurality of and insert respectively in corresponding mounting hole, the outside of jar body diapire all is provided with the ring flange that supplies corresponding flange to be connected in the opening part of every mounting hole, be provided with the carbon dioxide conveyor who adds the device and be connected with carbon dioxide on the jar body.

Through adopting above-mentioned technical scheme, set up a plurality of carbon dioxide through the diapire at the sake jar and add the device for the internal beer of jar can fully contact with carbon dioxide gas, thereby improves carbon dioxide and adds efficiency and effect. Simultaneously, the carbon dioxide who sets up at jar body diapire adds the device for carbon dioxide gas enters into jar body back, can follow the bottom of jar body towards the top motion of the jar body, thereby utilizes carbon dioxide gas to stir the internal beer of jar, makes the internal beer of jar can carry out the intensive contact with carbon dioxide gas and mixes, thereby further improves carbon dioxide and adds efficiency and effect. Because the carbon dioxide adds the device and is connected with the ring flange of jar body through flange, the person of facilitating the use adds the device to carbon dioxide and carries out the dismouting for the user can add the device to carbon dioxide and dismantle, and add the device to carbon dioxide and wash, disinfect relevant operation such as, thereby guarantee the cleanness that the carbon dioxide added the device, and then improve food security.

Preferably, the bottom wall of the tank body is in a conical shape with the middle part recessed downwards, and the liquid drainage interface is positioned at the lowest end of the bottom wall of the tank body.

Through adopting above-mentioned technical scheme, through setting up middle part undercut and being the diapire of toper form, have good water conservancy diversion effect for the internal beer of jar can be fast, abundant discharge through flowing back interface, thereby improves production efficiency.

Preferably, the carbon dioxide conveying device comprises an annular carbon dioxide distribution pipe arranged at the bottom of the tank body, each carbon dioxide adding device is communicated with the carbon dioxide distribution pipe through an air supply pipe, and a manual butterfly valve is arranged between each air supply pipe and the carbon dioxide distribution pipe.

Through adopting above-mentioned technical scheme, through the linkage cooperation that utilizes manual butterfly valve, carbon dioxide distributing pipe and air feed pipe for a plurality of carbon dioxide add the device and can carry out autonomous working, thereby make the user can select the quantity of opening that the carbon dioxide added the device according to actual demand, thereby further improve the convenience of use.

Preferably, carbon dioxide conveyor still includes the conveyer pipe, first manometer, first control valve, carbon dioxide filter, sight glass, electromagnetic flowmeter, flow control valve, second manometer and second control valve have set gradually on the conveyer pipe, the tip that the conveyer pipe is close to first manometer one end runs through to the inside of carbon dioxide distributing pipe and is linked together with the carbon dioxide distributing pipe.

Through adopting above-mentioned technical scheme, through setting up simple structure, health, high-efficient swift carbon dioxide conveyor, realize pressurization, disinfection of disinfecting, measurement and other relevant operations before the carbon dioxide gas adds to further improve production efficiency.

Preferably, the air supply pipe is communicated with the carbon dioxide adding device through a quick connector.

Through adopting above-mentioned technical scheme, because the air feed pipe is linked together through quick connector with the carbon dioxide interpolation device, make things convenient for the dismouting of carbon dioxide interpolation device to the operation such as dismantlement, washing, the sterilization of convenient to use person to whole carbon dioxide interpolation device further improves the convenience of use.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the carbon dioxide adding device which is simple in structure, efficient and rapid, carbon dioxide gas can enter the beer in the state of aerosol fine bubbles when passing through the pores of the sintered microporous rod, so that the carbon dioxide can be fully dissolved in the beer, and the carbon dioxide adding efficiency is improved;

2. the carbon dioxide adding devices are arranged on the bottom wall of the sake tank, so that beer in the tank body can be fully contacted with carbon dioxide gas, and the carbon dioxide adding efficiency and effect are improved;

3. through the linkage cooperation that utilizes manual butterfly valve, carbon dioxide distributing pipe and air feed pipe for a plurality of carbon dioxide add the device and can carry out independent work, thereby make the user can select the quantity of opening of carbon dioxide interpolation device according to actual demand, thereby further improve and use the convenience.

Drawings

Fig. 1 is a schematic structural diagram of the embodiment.

Fig. 2 is an enlarged schematic view of region a in fig. 1.

FIG. 3 is a schematic view showing the internal structure of the sintered microporous rod according to the present embodiment.

Fig. 4 is a schematic structural diagram of the carbon dioxide transport device in the present embodiment.

Description of reference numerals: 1. a tank body; 2. a liquid discharge interface; 3. mounting holes; 4. a carbon dioxide delivery device; 41. a carbon dioxide dispensing tube; 42. a delivery pipe; 5. sintering the microporous rod; 6. an air inlet cavity; 7. an air inlet pipe; 8. an installation part; 81. butting flanges; 82. installing a sleeve; 9. a flange plate; 10. a one-way valve; 11. a manual butterfly valve; 12. an air supply pipe; 13. a first pressure gauge; 14. a first control valve; 15. a carbon dioxide filter; 16. a sight glass; 17. an electromagnetic flow meter; 18. a quantity regulating valve; 19. a second pressure gauge; 20. a second control valve; 21. a quick connector.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses carbon dioxide adds device and has device's sake jar. Referring to fig. 1, the sake can includes a can body 1, and the bottom wall of the can body 1 is arranged in a tapered shape with a downward concave middle portion. The diapire of jar body 1 runs through to have flowing back interface 2, and flowing back interface 2 is located the least significant end of jar body 1 diapire.

Referring to fig. 1 and 2, the bottom wall of the tank body 1 is penetrated with a plurality of mounting holes 3 located around the liquid discharge interface 2, a carbon dioxide adding device is detachably connected in each mounting hole 3, and a carbon dioxide conveying device 4 connected with the carbon dioxide adding device is fixedly connected to the tank body 1.

When carbon dioxide is required to be added into beer in the tank body 1, carbon dioxide gas is sent into the carbon dioxide adding device through the carbon dioxide conveying device 4, and then the carbon dioxide gas is introduced into the tank body 1 through the carbon dioxide adding device, so that the carbon dioxide is dissolved in the beer, and the mouth killing force of the beer is effectively improved.

Through the diapire at the sake jar set up a plurality of carbon dioxide and add the device for the beer in the jar body 1 can fully contact with carbon dioxide gas, thereby improves carbon dioxide and adds efficiency and effect.

Simultaneously, the carbon dioxide that sets up at jar body 1 diapire adds the device for carbon dioxide gas enters into jar body 1 back, can follow the bottom of jar body 1 and move towards the top of jar body 1. Utilize carbon dioxide gas to stir the beer in jar body 1 for the beer in jar body 1 can carry out the intensive contact with carbon dioxide gas and mix, thereby further improves carbon dioxide and adds efficiency and effect.

Referring to fig. 3, the carbon dioxide adding device comprises a stainless steel sintered microporous rod 5 with a diameter of 30mm, the effective air spray length of the sintered microporous rod 5 is 150mm, and the through hole rate of the sintered microporous rod 5 is 15-20%.

Referring to fig. 3, an air inlet cavity 6 is opened at one end of the sintered microporous rod 5, the sintered microporous rod 5 is connected with an air inlet pipe 7 inserted into the air inlet cavity 6 at the opened end of the air inlet cavity 6, and the end of the sintered microporous rod 5 is fixedly connected with an installation part 8 for the air inlet pipe 7 to run through.

Referring to fig. 2 and 3, the mounting portion 8 includes a docking flange 81, a mounting sleeve 82 is fixedly connected to an end surface of the docking flange 81 facing the sintered microporous rod 5, and an end portion of the sintered microporous rod 5 is inserted into the mounting sleeve 82 and forms a fixed connection. The outer side of the bottom wall of the tank body 1 is fixedly embedded with a flange plate 9 for connecting the corresponding butting flanges 81 at the opening of each mounting hole 3.

Referring to fig. 2 and 3, in order to prevent beer in the can body 1 from flowing back into the air inlet pipe 7, a check valve 10 is fixedly embedded in the air inlet pipe 7.

When carbon dioxide is required to be added into beer in the tank body 1, carbon dioxide gas is sent into the gas inlet cavity 6 through the gas inlet pipe 7, and the carbon dioxide gas enters the beer through the pores of the sintered microporous rod 5.

When carbon dioxide gas passes through the pores of the sintered microporous rod 5, the carbon dioxide gas can enter the beer in the state of aerosol fine bubbles, so that the carbon dioxide can be fully dissolved in the beer, and the carbon dioxide adding efficiency is improved.

Because the carbon dioxide adds the device and can dismantle with jar body 1 and be connected, the person of facilitating the use adds the device to the carbon dioxide and washs, disinfects and operation such as disinfect to guarantee the cleanness that the carbon dioxide adds the device, and then improve food security.

Referring to fig. 1 and 4, the carbon dioxide feeding device 4 includes a ring-shaped carbon dioxide distribution pipe 41 fixedly connected to the bottom of the can body 1, the air inlet pipe 7 of each carbon dioxide feeding device is communicated with the carbon dioxide distribution pipe 41 through an air supply pipe 12, and the air supply pipe 12 is an edible bottomless hose.

Referring to fig. 3 and 4, the air supply pipes 12 are communicated with the air inlet pipe 7 through a quick connector 21, and a manual butterfly valve 11 is fixedly connected between each air supply pipe 12 and the carbon dioxide distribution pipe 41.

Referring to fig. 4, the carbon dioxide delivery device 4 further includes a delivery pipe 42, and the delivery pipe 42 is fixedly connected with the first pressure gauge 13, the first control valve 14, the carbon dioxide filter 15, the sight glass 16, the electromagnetic flow meter 17, the flow regulating valve 18, the second pressure gauge 19 and the second control valve 20 in sequence.

Referring to fig. 4, an end portion of the delivery pipe 42 near one end of the first pressure gauge 13 penetrates into the interior of the carbon dioxide distribution pipe 41 and communicates with the carbon dioxide distribution pipe 41.

When it is desired to add carbon dioxide to the beer in the canister 1, the first control valve 14 is closed and the second control valve 20 is opened, and carbon dioxide gas is fed into the delivery tube 42 through the end of the delivery tube 42 adjacent the end of the second control valve 20.

Then, the flow of the carbon dioxide gas in the delivery pipe 42 is adjusted by using the flow adjusting valve 18, and when the value of the second pressure gauge 19 is 0.05-0.065 MPa greater than the value of the first pressure gauge 13, the first control valve 14 is opened.

At this time, the carbon dioxide gas sterilized by the carbon dioxide filter 15 enters the carbon dioxide distribution pipe 41 through the transfer pipe 42. Then, the manual butterfly valve 11 is opened, and carbon dioxide gas is introduced into the carbon dioxide adding device through the gas feed pipe 12 and introduced into the tank 1 through the carbon dioxide adding device, thereby adding carbon dioxide.

At this time, the user can calculate the amount of carbon dioxide to be added based on the value of the electromagnetic flowmeter 17, thereby accurately adding carbon dioxide gas.

Through the linkage cooperation that utilizes butterfly valve, carbon dioxide distributing pipe 41 and air feed pipe 12 for a plurality of carbon dioxide add the device and can carry out independent work, thereby make the user can select the quantity of opening of carbon dioxide interpolation device according to actual demand, thereby improve the convenience of use.

Because the air supply pipe 12 is communicated with the carbon dioxide adding device through the quick connector 21, the carbon dioxide adding device is convenient to disassemble and assemble, so that a user can conveniently disassemble, clean, sterilize and the like the whole carbon dioxide adding device, and the use convenience is further improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. A carbon dioxide adds device, includes sintering micropore stick (5), its characterized in that: air inlet chamber (6) have been seted up to the one end of sintering micropore stick (5), sintering micropore stick (5) are provided with in air inlet chamber (6) open-ended one end and are used for inserting intake pipe (7) in air inlet chamber (6), intake pipe (7) are embedded to be equipped with check valve (10), the tip of sintering micropore stick (5) is provided with installation department (8) that supply intake pipe (7) to run through.

2. The carbon dioxide addition device according to claim 1, characterized in that: installation department (8) include flange (81), flange (81) are provided with installation sleeve (82) towards the terminal surface of sintering micropore stick (5), the tip of sintering micropore stick (5) is inserted and is located in installation sleeve (82) and form fixed connection.

3. A sake tank with a carbon dioxide adding device according to any one of claims 1-2, comprising a tank body (1), characterized in that: the diapire of the jar body (1) runs through and has flowing back interface (2), the diapire of the jar body (1) runs through and has a plurality of mounting holes (3) that are located flowing back interface (2) all around, carbon dioxide adds the device and sets up to a plurality of and insert respectively in corresponding mounting hole (3), the outside of the jar body (1) diapire all is provided with ring flange (9) that supply corresponding flange (81) to be connected in the opening part of every mounting hole (3), be provided with carbon dioxide conveyor (4) that are connected with carbon dioxide on the jar body (1).

4. A sake tank according to claim 3, characterized in that: the diapire of jar body (1) is middle part undercut's toper form, flowing back interface (2) are located the least significant end of jar body (1) diapire.

5. A sake tank according to claim 3, characterized in that: the carbon dioxide conveying device (4) comprises annular carbon dioxide distribution pipes (41) arranged at the bottom of the tank body (1), each carbon dioxide adding device is communicated with the carbon dioxide distribution pipes (41) through air supply pipes (12), and manual butterfly valves (11) are arranged between the air supply pipes (12) and the carbon dioxide distribution pipes (41).

6. A sake tank according to claim 5, characterized in that: carbon dioxide conveyor (4) still include conveyer pipe (42), set gradually first manometer (13), first control valve (14), carbon dioxide filter (15), sight glass (16), electromagnetic flowmeter (17), flow control valve (18), second manometer (19) and second control valve (20) on conveyer pipe (42), the tip that conveyer pipe (42) is close to first manometer (13) one end is run through to the inside of carbon dioxide distributing pipe (41) and is linked together with carbon dioxide distributing pipe (41).

7. A sake tank according to claim 5, characterized in that: the air feeding pipe (12) is communicated with the carbon dioxide adding device through a quick connection-peg (21).

Images