CN111573597A

CN111573597A - Filling device and method for bottled hydrogen-rich beverage

Info

Publication number: CN111573597A
Application number: CN202010332867.2A
Authority: CN
Inventors: 何珍宝
Original assignee: Wuhan Baoying Puji Technology Co ltd
Current assignee: Wuhan Baoying Puji Technology Co ltd
Priority date: 2020-04-24
Filing date: 2020-04-24
Publication date: 2020-08-25
Anticipated expiration: 2040-04-24
Also published as: CN111573597B

Abstract

The invention discloses a filling device and a method for bottled hydrogen-rich beverage, which relates to the field of hydrogen-rich beverage preparation, and comprises a filling box, wherein the bottom of one side of the filling box is communicated with a bottle inlet box through a bottle inlet pipe, and the bottom of the other side of the filling box is communicated with a bottle outlet box. The beverage filled in the invention is always positioned in a small-range local closed hydrogen atmosphere, so that the pollution caused by operators and the environment can be isolated, the packaged beverage bottle has no air, the hydrogen concentration in the beverage bottle is high, and the hydrogen content of the hydrogen-rich beverage formed in the beverage bottle is high.

Description

Filling device and method for bottled hydrogen-rich beverage

Technical Field

The invention relates to the field of beverage filling, in particular to a filling device and method for bottled hydrogen-rich beverage.

Background

At present, a lot of purified water, mineral water and nutritional drinks are available in the market, air can be brought into beverage bottles when the drinks are filled, bacteria can be carried into the beverage bottles by the air, and the quality guarantee period of the product is very limited. Therefore, the beverage needs to control bacteria by ultraviolet sterilization, ozone sterilization or addition of a bactericide, a preservative and the like, but the sterilization means can generate negative effects on a human body and has potential safety hazards.

Disclosure of Invention

The invention aims to overcome the defect that air can be brought into a beverage bottle when the existing beverage is filled, and provides a filling device and a filling method for bottled hydrogen-rich beverage.

In order to achieve the purpose, the invention provides a filling device for bottled hydrogen-rich beverage, which comprises a filling box, wherein the bottom of one side of the filling box is communicated with a bottle inlet box through a bottle inlet pipe, the bottom of the other side of the filling box is communicated with a bottle outlet box, the other side of the filling box is provided with a bottle outlet, the bottle outlet is communicated with the bottle outlet box, the filling box is internally provided with a first mechanical arm and a transmission platform respectively, a transmission roller is arranged on the transmission platform, a filling opening and a sealing cover opening are respectively arranged above the transmission roller, drinking water is placed in the filling box, the liquid level of the drinking water does not pass through the bottle inlet pipe and the bottle outlet respectively, the upper part of the filling box is communicated with a first hydrogenation pipe and a first emptying pipe respectively, the bottom of the filling box is communicated with a first water inlet pipe and a first water discharge pipe respectively, and valves are arranged on the first hydrogenation pipe, the first emptying pipe, the.

Further, still include storage water tank and beverage case, the bottom of storage water tank communicates the second inlet tube respectively, second drain pipe and first connecting pipe, the storage water tank passes through the bottom intercommunication of first connecting pipe and beverage case, the top of storage water tank communicates second hydrogenation pipe and second evacuation pipe respectively, the top of beverage case communicates third evacuation pipe, the bottom of beverage case communicates filling tube and discharge pipe respectively, filling tube and filling mouth intercommunication, the second inlet tube, second hydrogenation pipe, the second evacuation pipe, the second drain pipe, first connecting pipe, the third evacuation pipe, all set up the valve on filling tube and the discharge pipe.

Furthermore, a second manipulator is arranged in the bottle discharging box.

Furthermore, a circulating pipe is communicated between two sides of the bottom of the filling box, and a pump is arranged on the circulating pipe.

Further, the circulation pipe is respectively communicated with the first water inlet pipe and the first water discharge pipe.

Further, a method for filling by using the filling device for bottled hydrogen-rich beverage comprises the following steps:

firstly, pre-hydrogenation;

adding the beverage into the water storage tank through the second water inlet pipe, opening the valve on the second emptying pipe, extruding the air in the water storage tank by the beverage until the beverage flows out, and closing the valve on the second emptying pipe; connecting a hydrogen source into a second hydrogenation pipe, opening valves on the second hydrogenation pipe and a second drain pipe, allowing hydrogen to enter a water storage tank and discharge drinks with the same volume until the hydrogen occupies one half to three quarters of the volume of the water storage tank, stopping hydrogenation, and closing the valves on the second hydrogenation pipe and the second drain pipe;

secondly, emptying;

emptying the beverage box: opening valves on the first connecting pipe and the third emptying pipe to enable the beverage in the water storage tank to enter the beverage tank, extruding air in the beverage tank by the beverage, discharging the air through the third emptying pipe until the air in the beverage tank is exhausted, and closing the valves on the first connecting pipe and the third emptying pipe;

emptying a filling box: opening a valve on the first emptying pipe, closing valves on the first hydrogenation pipe and the first drainage pipe, opening a valve on the first water inlet pipe, communicating the first water inlet pipe with a drinking water source, enabling drinking water to enter the filling box and extruding air in the filling box out of the first emptying pipe until the air is exhausted, and closing the valves on the first water inlet pipe and the first emptying pipe;

thirdly, hydrogenation;

filling a box for hydrogenation: opening valves on the first hydrogenation pipe and the first drainage pipe, allowing hydrogen to enter the filling box, extruding drinking water with the same volume until the liquid level of the drinking water is higher than the bottle inlet pipe and the bottle outlet and lower than the transmission platform, and then stopping, and closing the valves on the first hydrogenation pipe and the first drainage pipe;

and (3) hydrogenation in a beverage box: opening valves on the third emptying pipe and the discharge pipe, discharging the drink with the same volume by hydrogen until the set liquid level is reached, and closing the valves on the third emptying pipe and the discharge pipe;

fourthly, filling;

placing a beverage bottle into a bottle inlet box, keeping a bottle mouth upward, placing the beverage bottle into water in the bottle inlet box, enabling water to enter from the bottle mouth and extrude air in the beverage bottle, moving the beverage bottle filled with water into a filling box, starting a first mechanical arm to take out the beverage bottle from the water, inverting the beverage bottle, removing the water in the beverage bottle, placing the bottle mouth of the beverage bottle upward on a transmission roller, driving the beverage bottle to move by the transmission roller, opening a valve on a filling pipe when the beverage bottle moves to be right below a filling opening, injecting 50% -98% of the volume of the beverage bottle into the beverage bottle, and enabling hydrogen to occupy the upper space in the beverage bottle;

capping;

when the beverage bottle moves to the position right below the sealing cover opening, the sealing cover opening seals the bottle cover and the beverage bottle together;

sixthly, checking and packaging;

and the conveying roller drives the beverage bottles to move continuously, after the beverage bottles move to the bottle outlet, the beverage bottles enter the bottle outlet box from the bottle outlet, and the second mechanical arm takes out the beverage bottles from the water for surface drying, leakage detection, photometric measurement and packaging to obtain the bottled hydrogen-rich beverage.

Compared with the prior art, the invention has the following beneficial effects: when the bottled hydrogen-rich beverage is filled, the bottled hydrogen-rich beverage is in an air-isolated environment, a certain amount of hydrogen is added into the beverage bottle, then the beverage bottle is sealed, and the hydrogen is sealed in the bottle to replace the existing sterilization method, so that the bottled hydrogen-rich beverage is obtained. The beverage filled in the invention is always positioned in a small-range local closed hydrogen atmosphere, so that the pollution caused by operators and the environment can be isolated, the packaged beverage bottle has no air, the hydrogen concentration in the beverage bottle is high, and the hydrogen content of the hydrogen-rich beverage formed in the beverage bottle is high.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Description of the drawings:

FIG. 1 is a schematic view of the construction of the potting case of the present invention.

Fig. 2 is a schematic structural diagram of a water storage tank in the invention.

Fig. 3 is a schematic structural view of the beverage box of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which embodiments of the invention belong. If a definition set forth in this section is contrary to or otherwise inconsistent with a definition set forth in the patents, patent applications, published patent applications, and other publications that are herein incorporated by reference, the definition set forth in this section prevails over the definition that is incorporated herein by reference.

In addition, the weight of the related components mentioned in the description of the embodiments of the present invention may not only refer to the specific content of each component, but also represent the proportional relationship of the weight among the components, and therefore, it is within the scope of the disclosure of the description of the embodiments of the present invention to scale up or down the content of the related components according to the description of the embodiments of the present invention.

The embodiment of the invention provides a filling device for bottled hydrogen-rich drink, which comprises a filling box 1, wherein the bottom of one side of the filling box 1 is communicated with a bottle inlet box 2 through a bottle inlet pipe, the bottom of the other side of the filling box 1 is communicated with a bottle outlet box 3, the other side of the filling box 1 is provided with a bottle outlet 4, the bottle outlet 4 is communicated with the bottle outlet box 3, a first mechanical arm 5 and a transmission platform 6 are respectively arranged in the filling box 1, a transmission roller 7 is arranged on the transmission platform 6, a filling port 8 and a sealing cover port 9 are respectively arranged above the transmission roller 7, drinking water is placed in the filling box 1, the liquid level of the drinking water respectively sinks through the bottle inlet pipe and the bottle outlet 4, the upper part of the filling box 1 is respectively communicated with a first hydrogenation pipe 10 and a first emptying pipe 11, the bottom of the filling box 1 is respectively communicated with a first water inlet pipe 27 and a first water discharge pipe 28, the first hydrogenation pipe 10 and the, valves are provided on both the first inlet pipe 27 and the first outlet pipe 28.

The utility model provides a filling device of bottled hydrogen-rich drink, still include storage water tank 13 and beverage case 19, the bottom of storage water tank 13 communicates second inlet tube 14 respectively, second drain pipe 17 and first connecting pipe 18, storage water tank 13 communicates through the bottom of first connecting pipe 18 with beverage case 19, the top of storage water tank 13 communicates second hydrogenation pipe 15 and second evacuation pipe 16 respectively, the top of beverage case 19 communicates third evacuation pipe 20, the bottom of beverage case 19 communicates filling pipe 21 and discharge pipe 22 respectively, filling pipe 21 communicates with filling opening 8, second inlet tube 14, second hydrogenation pipe 15, second evacuation pipe 16, second drain pipe 17, first connecting pipe 18, third evacuation pipe 20, all set up the valve on filling pipe 21 and the discharge pipe 22.

And a second manipulator 24 is arranged in the bottle discharging box 3.

A circulating pipe 25 is communicated between the two sides of the bottom of the filling box 1, and a pump 26 is arranged on the circulating pipe 25.

The circulation pipe 25 communicates with a first inlet pipe 27 and a first outlet pipe 28, respectively.

The beverage filling steps of the invention are as follows:

firstly, pre-hydrogenation;

before entering the beverage tank 19, the beverage needs to be pre-hydrogenated, and hydrogen is dissolved in the beverage, so that the beverage can be kept fresh and not deteriorated. The pre-hydrogenation process comprises the following steps: adding the beverage into the water storage tank 13 through the second water inlet pipe 14, opening the valve on the second emptying pipe 16, extruding the air in the water storage tank 13 by the beverage until the beverage flows out, and closing the valve on the second emptying pipe 16; and (3) connecting a hydrogen source into the second hydrogenation pipe 15, opening valves on the second hydrogenation pipe 15 and the second water drainage pipe 17, allowing hydrogen to enter the water storage tank 13 and discharge the drink with the same volume (the part of drinking water can be recycled), stopping hydrogenation until the hydrogen occupies one half to three quarters of the volume of the water storage tank 13, and closing the valves on the second hydrogenation pipe 15 and the second water drainage pipe 17.

Secondly, emptying;

emptying the beverage box 19: opening the valves on the first connecting pipe 18 and the third emptying pipe 20 to enable the beverage in the water storage tank 13 to enter the beverage tank 19, extruding the air in the beverage tank 19 by the beverage, discharging the air through the third emptying pipe 20 until the air in the beverage tank 19 is exhausted, and closing the valves on the first connecting pipe 18 and the third emptying pipe 20;

emptying the filling box 1: the valve on the first emptying pipe 11 is opened, the valves on the first hydrogenation pipe 10 and the first drainage pipe 28 are closed, the valve on the first water inlet pipe 27 is opened, the first water inlet pipe 27 is communicated with a drinking water source, drinking water enters the filling box 1 and air in the filling box is squeezed out from the first emptying pipe 11 until the air is exhausted, and the valves on the first water inlet pipe 27 and the first emptying pipe 11 are closed.

Thirdly, hydrogenation;

filling the tank 1 with hydrogen: opening valves on the first hydrogenation pipe 10 and the first drainage pipe 28, allowing hydrogen to enter the filling box 1, extruding drinking water with the same volume until the liquid level of the drinking water is higher than the bottle inlet pipe and the bottle outlet 4 and lower than the transmission platform 6, and then stopping, and closing the valves on the first hydrogenation pipe 10 and the first drainage pipe 28;

19, hydrogenation in the beverage box: and opening valves on the third emptying pipe 20 and the discharge pipe 22, discharging the drink with the same volume by using hydrogen until a set liquid level is reached, and closing the valves on the third emptying pipe 20 and the discharge pipe 22.

Fourthly, filling;

putting a beverage bottle into a bottle inlet box 2, keeping a bottle mouth upward, putting the beverage bottle into water in the bottle inlet box 2, enabling water to enter from the bottle mouth and extruding air in the beverage bottle, moving the beverage bottle filled with water into a filling box 1, starting a first mechanical arm 5 to take out the beverage bottle from the water, inverting the beverage bottle, removing the water in the beverage bottle, putting the bottle mouth of the beverage bottle upward on a transmission roller 7, driving the beverage bottle to move by the transmission roller 7, opening a valve on a filling pipe 21 when the beverage bottle moves to be right below a filling opening 8, injecting 50-98% of the volume of the beverage bottle into the beverage bottle, and enabling hydrogen to occupy the upper space in the bottle;

capping;

when the beverage bottle is moved to the position right below the opening 9 of the cover, the opening 9 of the cover seals the bottle cap and the beverage bottle together.

Sixthly, checking and packaging;

the conveying roller 7 drives the beverage bottle to move continuously, after the beverage bottle moves to the bottle outlet 4, the beverage bottle enters the bottle outlet box 3 from the bottle outlet 4, the second mechanical arm 24 takes out the beverage bottle from the water, and the surface drying, leakage detection, photometric measurement and packaging are carried out to obtain the bottled hydrogen-rich beverage.

In the pre-hydrogenation step, a pressure pump can be arranged on the second water inlet pipe 14, after the hydrogen stops adding, the pressure pump is started to enable the beverage to be continuously added into the water storage tank 13, and the hydrogen in the water storage tank 13 is compressed until the pressure is balanced. The design can increase the pressure in the water storage tank 13, and the beverage in the water storage tank 13 can flow out conveniently.

In the step (iv), the beverage bottle filled with water is driven by the water flow to move into the filling box 1 by opening the pump 26.

When the bottled hydrogen-rich beverage is filled, the bottled hydrogen-rich beverage is in an air-isolated environment, a certain amount of hydrogen is added into the beverage bottle, then the beverage bottle is sealed, and the hydrogen is sealed in the bottle to replace the existing sterilization method, so that the bottled hydrogen-rich beverage is obtained. The beverage filled in the invention is always positioned in a small-range local closed hydrogen atmosphere, so that the pollution caused by operators and the environment can be isolated, the packaged beverage bottle has no air, the hydrogen concentration in the beverage bottle is high, and the hydrogen content of the hydrogen-rich beverage formed in the beverage bottle is high.

The technical contents not described in detail in the present invention are all known techniques. The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and the technical solutions in the idea of the present invention all belong to the protection scope of the present invention, it should be noted that, for those skilled in the art, several modifications and decorations without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The filling device for the bottled hydrogen-rich drink is characterized by comprising a filling box (1), wherein the bottom of one side of the filling box (1) is communicated with a bottle inlet box (2) through a bottle inlet pipe, the bottom of the other side of the filling box (1) is communicated with a bottle outlet box (3), the other side of the filling box (1) is provided with a bottle outlet (4), the bottle outlet (4) is communicated with the bottle outlet box (3), a first mechanical arm (5) and a transmission platform (6) are respectively arranged in the filling box (1), a transmission roller (7) is arranged on the transmission platform (6), a filling opening (8) and a sealing cover opening (9) are respectively arranged above the transmission roller (7), drinking water is placed in the filling box (1), the liquid level of the drinking water does not pass through the bottle inlet pipe and the bottle outlet opening (4), the upper part of the filling box (1) is respectively communicated with a first hydrogenation pipe (10) and a first emptying pipe (11), the bottom of the filling box (1) is respectively communicated with a first water inlet pipe (27) and a first drainage pipe (28), valves are arranged on the first hydrogenation pipe (10), the first emptying pipe (11), the first water inlet pipe (27) and the first water discharge pipe (28).

2. The filling device of a bottled hydrogen-rich beverage according to claim 1, further comprising a water storage tank (13) and a beverage tank (19), wherein the bottom of the water storage tank (13) is communicated with a second water inlet pipe (14), a second water outlet pipe (17) and a first connecting pipe (18) respectively, the water storage tank (13) is communicated with the bottom of the beverage tank (19) through the first connecting pipe (18), the top of the water storage tank (13) is communicated with a second hydrogenation pipe (15) and a second emptying pipe (16) respectively, the top of the beverage tank (19) is communicated with a third emptying pipe (20), the bottom of the beverage tank (19) is communicated with a filling pipe (21) and a discharge pipe (22) respectively, the filling pipe (21) is communicated with a filling opening (8), the second water inlet pipe (14), the second hydrogenation pipe (15), the second emptying pipe (16), the second water outlet pipe (17), the first connecting pipe (18), Valves are arranged on the third emptying pipe (20), the filling pipe (21) and the discharge pipe (22).

3. The filling device for bottled hydrogen-rich drink according to claim 1, wherein a second manipulator (24) is arranged in the bottle outlet box (3).

4. The filling device for bottled hydrogen-rich beverage according to claim 1, wherein a circulation pipe (25) is communicated between two sides of the bottom of the filling box (1), and a pump (26) is arranged on the circulation pipe (25).

5. The filling device of a bottled hydrogen-rich beverage according to claim 1, wherein the circulation pipe (25) is communicated with the first water inlet pipe (27) and the first water outlet pipe (28), respectively.

6. A method for filling by using the filling device for bottled hydrogen-rich beverage as claimed in any one of claims 1 to 5, comprising the steps of:

firstly, pre-hydrogenation;

adding the beverage into the water storage tank (13) through the second water inlet pipe (14), opening a valve on the second emptying pipe (16), extruding the air in the water storage tank (13) by the beverage until the beverage flows out, and closing the valve on the second emptying pipe (16); connecting a hydrogen source into a second hydrogenation pipe (15), opening valves on the second hydrogenation pipe (15) and a second water drainage pipe (17), allowing hydrogen to enter a water storage tank (13) and discharging an equal volume of beverage until the hydrogen occupies one half to three quarters of the volume of the water storage tank (13), stopping hydrogenation, and closing the valves on the second hydrogenation pipe (15) and the second water drainage pipe (17);

secondly, emptying;

emptying the beverage tank (19): opening valves on the first connecting pipe (18) and the third emptying pipe (20) to enable the beverage in the water storage tank (13) to enter the beverage tank (19), extruding the air in the beverage tank (19) by the beverage, enabling the air to be exhausted through the third emptying pipe (20) until the air in the beverage tank (19) is exhausted, and closing the valves on the first connecting pipe (18) and the third emptying pipe (20);

emptying the filling box (1): opening a valve on a first emptying pipe (11), closing valves on a first hydrogenation pipe (10) and a first emptying pipe (28), opening a valve on a first water inlet pipe (27), communicating the first water inlet pipe (27) with a drinking water source, enabling drinking water to enter a filling box (1) and extruding air in the filling box from the first emptying pipe (11) until the air is exhausted, and closing the valves on the first water inlet pipe (27) and the first emptying pipe (11);

thirdly, hydrogenation;

filling a box (1) for hydrogenation: opening valves on the first hydrogenation pipe (10) and the first drainage pipe (28), allowing hydrogen to enter the filling box (1), extruding drinking water with the same volume until the liquid level of the drinking water is higher than the bottle inlet pipe and the bottle outlet (4) and lower than the transmission platform (6), stopping, and closing the valves on the first hydrogenation pipe (10) and the first drainage pipe (28);

hydrogenation of the beverage box (19): opening valves on the third emptying pipe (20) and the discharge pipe (22), discharging the drink with the same volume by hydrogen until a set liquid level is reached, and closing the valves on the third emptying pipe (20) and the discharge pipe (22);

fourthly, filling;

putting a beverage bottle into a bottle inlet box (2), keeping a bottle mouth upward, putting the beverage bottle into water in the bottle inlet box (2), enabling water to enter from the bottle mouth and extrude air in the beverage bottle, moving the beverage bottle filled with water into a filling box (1), starting a first mechanical arm (5) to take out the beverage bottle from the water, inverting the beverage bottle, removing the water in the beverage bottle, putting the bottle mouth of the beverage bottle upward on a transmission roller (7), driving the beverage bottle to move by the transmission roller (7), opening a valve on a filling pipe (21) when the beverage bottle moves to be under a filling port (8), injecting 50% -98% of the volume of the beverage bottle into the beverage bottle, and enabling hydrogen to occupy the upper space in the beverage bottle;

capping;

when the beverage bottle moves to the position right below the sealing cover opening (9), the sealing cover opening (9) seals the bottle cover and the beverage bottle together;

sixthly, checking and packaging;

the conveying roller (7) drives the beverage bottle to move continuously, after the beverage bottle moves to the bottle outlet (4), the beverage bottle enters the bottle outlet box (3) from the bottle outlet (4), the second mechanical arm (24) takes the beverage bottle out of water, and surface drying, leakage detection, optical measurement and packaging are carried out to obtain the bottled hydrogen-enriched beverage.