CN113860249B - Carbonated beverage disinfection system - Google Patents

Abstract

The invention is suitable for the technical field of carbonated beverage production equipment, and particularly relates to a carbonated beverage disinfection system, which comprises a workbench and a glass bottle fixing frame, wherein the glass bottle fixing frame is connected to the surface of the workbench in a sliding manner, and the carbonated beverage disinfection system also comprises: the steam injection joint is arranged at the bottom of the glass bottle fixing frame and is used for sending high-temperature steam into the glass bottle; the steam conveying structure is arranged on the workbench and used for conveying high-temperature steam for the steam injection joint, and the steam injection joint can be driven to move in the process of conveying the high-temperature steam. According to the invention, the steam injection joint and the steam conveying structure are arranged, so that high-temperature steam can be fully injected into the glass bottle, and the waste of the high-temperature steam can be avoided, thereby improving the application range of the disinfection system.

Description

Carbonated beverage disinfection system

Technical Field

The invention relates to the technical field of carbonated beverage production equipment, in particular to a carbonated beverage disinfection system.

Background

Along with the development of science and technology, the automation degree of industrial production is higher and higher, the production of carbonated beverages also realizes full-automatic assembly line operation, a part of carbonated beverages on the market are packaged by glass bottles at present, the glass bottles of the beverages need to be cleaned and sterilized by cleaning solution before the beverages or liquid foods are injected in the actual filling production process, and special sterilizing equipment needs to be used at the moment.

At present, a disinfection method of a beverage glass bottle which is commonly used is a high-temperature steam disinfection method, but the existing steam disinfection system can not efficiently inject high-temperature steam into the glass bottle so as to disinfect the inside of the glass bottle, and the disinfection efficiency is lower.

Disclosure of Invention

An object of an embodiment of the present invention is to provide a carbonated beverage disinfection system, which aims to solve the following problems: at present, a disinfection method of a beverage glass bottle which is commonly used is a high-temperature steam disinfection method, but the existing steam disinfection system can not efficiently inject high-temperature steam into the glass bottle so as to disinfect the inside of the glass bottle, and the disinfection efficiency is lower.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a carbonated beverage disinfection system, includes workstation and glass bottle mount, and glass bottle mount sliding connection is on the surface of workstation, carbonated beverage disinfection system still includes:

the steam injection joint is arranged at the bottom of the glass bottle fixing frame and is used for sending high-temperature steam into the glass bottle;

the steam conveying structure is arranged on the workbench and used for conveying high-temperature steam to the steam injection joint, and the steam injection joint can be driven to move in the process of conveying the high-temperature steam, so that the surface of the steam injection joint is attached to the glass bottle mouth on the glass bottle fixing frame; and

and the moving structure is arranged on the glass bottle fixing frame and the steam conveying structure and is used for driving the glass bottle fixing frame to move on the workbench by taking the steam conveying structure as power input and matching with mechanical transmission.

Further, the vapor delivery structure includes:

the gas storage part is connected inside the workbench and used for storing high-temperature steam;

the steam sending component is arranged in the workbench, water is stored in the steam sending component, the steam sending component is used for producing high-temperature steam, and the high-temperature steam can be sent into the gas storage part;

the steam injection assembly is communicated with the gas storage piece, is used for installing a steam injection joint and is also used for sending high-temperature steam into the steam injection joint;

the steam pressing assembly is arranged on the workbench and the gas storage piece and is used for pressing high-temperature steam in the gas storage piece into the steam injection assembly through mechanical transmission; and

and the water discharging component is arranged on the steam sending component, is communicated with the inside of the gas storage component and is used for discharging water in the gas storage component.

Further, the steam sending assembly comprises:

the liquid storage part is connected to the inner wall of the workbench and used for storing water;

the heating element is arranged on the inner wall of the liquid storage element and is used for heating water in the liquid storage element;

the third air communicating piece is arranged on the side surface of the liquid storage piece and used for sending high-temperature steam into the gas storage piece; and

and the second control piece is arranged on the outer side of the third ventilation piece and used for avoiding the backflow of high-temperature steam in the third ventilation piece.

Further, the steam pressing component comprises:

the piston piece is connected with the inner wall of the gas storage piece and is used for extruding high-temperature steam in the gas storage piece;

the extrusion piece is used for driving the piston piece to move;

the resetting piece is arranged between the gas storage piece and the piston piece and is used for driving the piston piece to move;

the first rotating piece is used for installing the extrusion piece and can also drive the extrusion piece to rotate; and

the driving piece is installed on the side face of the workbench, and the output end of the driving piece is connected with the first rotating piece and used for driving the first rotating piece to move.

Further, the steam injection assembly comprises:

the first ventilation piece is used for installing a steam injection joint and can also send high-temperature steam into the steam injection joint;

the second ventilating piece is communicated with the gas storage piece, is connected with the first ventilating piece in a sliding manner and is used for sending high-temperature steam into the first ventilating piece;

the blocking piece is hinged on the second ventilation piece and used for blocking high-temperature steam from entering the second ventilation piece;

the elastic piece is arranged on the inner wall of the second ventilating piece and used for pressing the blocking piece; and

the jacking piece is arranged on the surface of the steam pressing assembly and used for driving the blocking piece to move.

Further, the drain assembly includes:

the liquid passing part is arranged on the surface of the steam sending component, is communicated with the inside of the gas storage part and is used for discharging water in the gas storage part into the steam sending component; and

the first control piece is installed on the outer side of the liquid passing piece and used for preventing high-temperature steam in the steam sending assembly from entering the liquid passing piece.

Further, the moving structure includes:

the connecting assembly is used for driving the glass bottle fixing frame to move; and

and the transmission assembly is arranged on the steam conveying structure and the workbench and used for driving the connecting assembly to move by taking the steam conveying structure as power input and matching with mechanical transmission.

Further, the connection assembly includes:

the second adsorption piece is arranged on the surface of the glass bottle fixing frame and is used for driving the glass bottle fixing frame to move; and

the first absorption piece is arranged on the transmission assembly and used for being connected with the second absorption piece through being mutually absorbed by the second absorption piece and further driving the second absorption piece to move.

Further, the transmission assembly includes:

the first transmission piece is connected with the connecting component and is used for driving the connecting component to move;

the sliding part is connected to the surface of the workbench in a sliding manner and is used for driving the first transmission part to move;

the second transmission piece is connected with the first transmission piece and used for driving the first transmission piece to move;

the second rotating part is rotatably connected to the surface of the workbench and is used for driving the second transmission part to rotate;

the third transmission piece is arranged at one end of the second rotating piece and is used for driving the second rotating piece to rotate; and

and the fourth transmission part is arranged on the steam conveying structure and used for driving the third transmission part to move by taking the steam conveying structure as power input.

According to the carbonated beverage disinfection system provided by the invention, the steam injection joint and the steam conveying structure are arranged, so that high-temperature steam can be fully injected into the glass bottle, and the waste of the high-temperature steam can be avoided, thereby improving the application range of the disinfection system.

Drawings

Fig. 1 is a schematic diagram of a carbonated beverage sanitizing system.

Fig. 2 is a partial schematic structure diagram of a steam pressing assembly, a gas storage part, a water drainage assembly and a steam sending assembly in a carbonated beverage sterilizing system.

FIG. 3 is a schematic view of a portion of a vapor injection assembly in a carbonated beverage sterilization system.

Fig. 4 is a partial schematic view of a first transmission member and a slider member in a carbonated beverage sterilization system.

In the figure: 1. a work table; 2. a steam delivery structure; 21. a steam injection assembly; 211. a jack-up member; 212. a first vent; 213. a second vent; 214. an elastic member; 215. a blocking member; 22. a gas storage member; 23. a steam pressing component; 231. a reset member; 232. a piston member; 233. a drive member; 234. a first rotating member; 235. an extrusion; 24. a drainage assembly; 241. a first control member; 242. a liquid passing part; 25. a steam delivery assembly; 251. a liquid storage member; 252. a heating member; 253. a second control member; 254. a third vent member; 3. a moving structure; 31. a transmission assembly; 311. a first transmission member; 312. a second transmission member; 313. a slider; 314. a second rotating member; 315. a third transmission member; 316. a fourth transmission member; 32. a connecting assembly; 321. a first suction attachment; 322. a second adsorption member; 4. a glass bottle fixing frame; 5. a steam injection joint.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and 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.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1-4, the carbonated beverage sterilizing system provided by the embodiment of the present invention includes a workbench 1 and a glass bottle holder 4, and the glass bottle holder 4 is slidably connected to a surface of the workbench 1, and the carbonated beverage sterilizing system further includes:

the steam injection joint 5 is arranged at the bottom of the glass bottle fixing frame 4 and is used for sending high-temperature steam into the glass bottle;

the steam conveying structure 2 is arranged on the workbench and used for conveying high-temperature steam to the steam injection joint 5, and in the process of conveying the high-temperature steam, the steam injection joint 5 can be driven to move, so that the surface of the steam injection joint 5 is attached to the glass bottle mouth on the glass bottle fixing frame 4; and

and the moving structure 3 is arranged on the glass bottle fixing frame 4 and the steam conveying structure 2 and is used for driving the glass bottle fixing frame 4 to move on the workbench 1 by taking the steam conveying structure 2 as power input and matching with mechanical transmission.

In an embodiment of the present invention, the steam injection joint 5 may be a conical rubber nozzle, the steam delivery structure 2 may extrude high-temperature steam by using mechanical transmission, and the moving high-temperature steam pushes the steam injection joint 5, so that the surface of the steam injection joint 5 is attached to the mouth of the glass bottle on the glass bottle fixing frame 4, thereby achieving the purpose that the high-temperature steam is fully injected into the glass bottle to sterilize the glass bottle without leakage and waste, or the ventilation object is driven by the telescopic object to directly extend into the glass bottle, so that the high-temperature steam can enter the glass bottle through the ventilation object to sterilize the glass bottle, the moving structure 3 may drive the glass bottle fixing frame 4 to move on the workbench 1 by using the steam delivery structure 2 as power input and cooperating with the mechanical transmission, or may drive the glass bottle fixing frame 4 to move by using the motor directly driving and cooperating with the mechanical transmission, and aims to enable a plurality of sets of glass bottles on the glass bottle fixing frame 4 to be sterilized by the high-temperature steam.

As shown in fig. 1-4, in one embodiment of the present invention, the vapor delivery structure 2 comprises:

a gas storage member 22 connected to the inside of the table 1 for storing high temperature steam;

the steam sending component 25 is arranged inside the workbench 1, water is stored inside the steam sending component 25 and used for producing high-temperature steam, and the high-temperature steam can be sent into the gas storage part 22;

the steam injection assembly 21 is communicated with the gas storage piece 22, is used for installing the steam injection joint 5 and is also used for sending high-temperature steam into the steam injection joint 5;

the steam pressing component 23 is arranged on the workbench 1 and the gas storage part 22 and is used for pressing high-temperature steam in the gas storage part 22 into the steam injection component 21 through mechanical transmission; and

and the water discharging component 24 is installed on the steam sending component 25, is communicated with the inside of the gas storage part 22, and is used for discharging water in the gas storage part 22.

In this embodiment, the gas storage component 22 may be a gas storage chamber or a gas storage tank, the steam delivery component 25 may produce high-temperature steam by heating water, and may deliver the high-temperature steam into the gas storage component 22 to sterilize the glass bottle, the steam injection component 21 may enable the steam injection joint 5 to be sufficiently attached to the opening of the glass bottle by lifting the high-temperature steam, or may utilize a telescopic object to drive the steam injection joint 5 to move toward the glass bottle to enable the steam injection joint 5 to contact the glass bottle during the process of delivering the high-temperature steam, so as to avoid waste caused by overflow of the high-temperature steam from the opening of the glass bottle when injecting the steam into the glass bottle, the steam pressure component 23 may drive the piston object to move by driving a motor and mechanical transmission to squeeze the high-temperature steam in the gas storage component 22 into the glass bottle, or may directly drive the piston object to move to squeeze the high-temperature steam by driving a cylinder or other telescopic object, and the steam delivery component 25 may deliver part of the water into the gas storage component 22 again.

In this embodiment, the steam sending assembly 25 includes:

a liquid storage part 251 connected to the inner wall of the workbench 1 for storing water;

a heating member 252 installed on an inner wall of the liquid storage member 251 for heating water in the liquid storage member 251;

a third ventilating member 254 installed at a side of the liquid storage member 251 for feeding high temperature steam into the gas storage member 22; and

and a second control member 253 provided at an outer side of the third ventilation member 254 for preventing backflow of the high temperature steam inside the third ventilation member 254.

In this embodiment, the liquid storage component 251 can be a water storage tank or a water storage chamber, the heating component 252 can be an electric heating rod or an electric heating plate, the third air-passing component 254 can be an air tube or an air cylinder, the second control component 253 is a one-way valve, the heating component 252 heats water in the liquid storage component 251 to prepare high-temperature steam, and the high-temperature steam enters the air storage component 22 through the third air-passing component 254.

In this embodiment, the steam compression assembly 23 includes:

a piston member 232 connected to an inner wall of the gas storage member 22 for compressing the high-temperature steam in the gas storage member 22;

a pressing member 235 for moving the piston member 232;

the resetting part 231 is arranged between the air storage part 22 and the piston part 232 and is used for driving the piston part 232 to move;

the first rotating piece 234 is used for installing the extrusion piece 235 and can also drive the extrusion piece 235 to rotate; and

the driving member 233 is installed on a side surface of the working platform 1, and an output end of the driving member 233 is connected to the first rotating member 234 for driving the first rotating member 234 to move.

In this embodiment, the reset member 231 may be a spring or an elastic block, the piston member 232 may be a piston plate or a piston block, the extruding members 235 may be a cam or an extruding block, the first rotating member 234 may be a rotating rod or a rotating column, the driving member 233 may be a driving motor or a stepping motor, when high-temperature steam needs to be injected into the steam injection assembly 21, the driving member 233 may be opened, the driving member 233 drives the first rotating member 234 to rotate, the first rotating member 234 drives the plurality of extruding members 235 to rotate, and the extruding members 235 extrude the piston member 232 to move, and then the piston member 232 presses the high-temperature steam in the air storage member 22 into the steam injection assembly 21, and in a process that the piston member 232 extrudes the steam in the air storage member 22, because the second control member 253 is disposed on the third air storage member 254, the high-temperature steam does not enter the liquid storage member 251 through the third air storage member 254.

In the present embodiment, the steam injection assembly 21 includes:

the first ventilation piece 212 is used for installing the steam injection joint 5 and can also send high-temperature steam into the steam injection joint 5;

the second ventilation component 213 is communicated with the gas storage component 22, is connected with the first ventilation component 212 in a sliding manner, and is used for sending high-temperature steam into the first ventilation component 212;

a blocking member 215 hinged to the second venting member 213 for blocking the high temperature steam from entering the second venting member 213;

an elastic member 214 installed on an inner wall of the second vent 213 for pressing the blocking member 215; and

and the jacking piece 211 is arranged on the surface of the steam pressing assembly 23 and is used for driving the blocking piece 215 to move.

In this embodiment, the first ventilation component 212 may be a ventilation pipe or a ventilation cylinder, the bottom end of the first ventilation component 212 is provided with a ventilation hole smaller than the outer diameter of the first ventilation component 212, the second ventilation component 213 may be a ventilation pipe or a ventilation cylinder, the blocking component 215 may be a blocking plate or a blocking block, the elastic component 214 may be an elastic rod or a torsion spring, the jacking component 211 may be a push rod or a jacking column, when the piston component 232 moves upward and presses the high-temperature steam in the air storage component 22, the jacking component 211 is driven to move upward and is pressed against the blocking component 215, so that the high-temperature steam rotates to block the steam circulation, thereby the high-temperature steam moves upward and drives the first ventilation component 212 to slide in the second ventilation component 213, until the steam injection joint 5 on the first ventilation component 212 completely contacts with the mouth of the glass bottle, and the high-temperature steam enters the glass bottle, and by providing the blocking component 215, when the piston component 232 does not press the steam in the air storage component 22 and the steam sending component 25 delivers the steam into the air storage component 22, the steam cannot enter the second ventilation component 213 and then flows away.

In the present embodiment, the drain assembly 24 includes:

a liquid-passing member 242 installed on the surface of the vapor-sending member 25, communicating with the inside of the gas storage member 22, and configured to discharge water in the gas storage member 22 into the vapor-sending member 25; and

and a first control part 241 installed at an outer side of the liquid passing part 242 for preventing the high temperature steam in the steam feeding assembly 25 from entering the liquid passing part 242.

In this embodiment, the liquid passing member 242 may be a water communicating pipe or a water passing cylinder, the first control member 241 may be a one-way valve, when the piston member 232 moves upward and the top port of the liquid passing member 242 is flush with the top surface of the piston member 232, the water accumulated on the piston member 232 flows into the liquid passing member 242 and enters the liquid storage member 251, and by providing the first control member 241, the influence of the high-temperature steam in the liquid storage member 251 on the water entering the liquid passing member 242 in the drainage process can be effectively avoided.

As shown in fig. 1 and 4, in one embodiment of the present invention, the moving structure 3 includes:

the connecting assembly 32 is used for driving the glass bottle fixing frame 4 to move; and

and the transmission assembly 31 is arranged on the steam conveying structure 2 and the workbench 1 and is used for taking the steam conveying structure 2 as power input and matching with mechanical transmission to drive the connecting assembly 32 to move.

In this embodiment, the connection assembly 32 can enable the transmission assembly 31 to keep a connection relationship with the glass bottle holder 4 by an electromagnetic adsorption manner or a plug manner, and the connection assembly 32 can drive the transmission assembly 31 and the glass bottle holder 4 to move by taking the steam conveying structure 2 as power input and matching a gear and rack transmission manner, or drive the transmission assembly 31 and the glass bottle holder 4 to move by directly driving a motor and matching a screw transmission manner.

The connecting assembly 32 includes:

the second adsorption piece 322 is arranged on the surface of the glass bottle fixing frame 4 and is used for driving the glass bottle fixing frame 4 to move; and

the first absorbing part 321 is disposed on the transmission component 31, and is used for being connected to the second absorbing part 322 by being absorbed by the second absorbing part 322, and further driving the second absorbing part 322 to move.

In this embodiment, the second absorbing member 322 may be a magnet plate or a magnet block, the first absorbing member 321 may be an electromagnet rod or an electromagnet plate, and the first absorbing member 321 is energized and absorbs the second absorbing member 322, so that the two are stably connected together.

In the present embodiment, the transmission assembly 31 includes:

the first transmission piece 311 is connected with the connecting assembly 32 and used for driving the connecting assembly 32 to move;

the sliding part 313 is connected to the surface of the workbench 1 in a sliding manner and is used for driving the first transmission part 311 to move;

the second transmission piece 312 is connected with the first transmission piece 311 and used for driving the first transmission piece 311 to move;

a second rotating member 314 rotatably connected to the surface of the working platform 1 for driving the second transmission member 312 to rotate;

a third transmission member 315, installed at one end of the second rotating member 314, for driving the second rotating member 314 to rotate; and

and the fourth transmission part 316 is arranged on the steam conveying structure 2 and is used for driving the third transmission part 315 to move by taking the steam conveying structure 2 as a power input.

In this embodiment, the first transmission member 311 may be a transmission rack or a transmission toothed plate, the sliding member 313 may be a sliding column or a sliding rod, the second transmission member 312 may be a transmission gear or a transmission toothed ring, the second rotation member 314 may be a rotation rod or a rotation column, the third transmission member 315 may be a bevel gear ring or a bevel gear ring, the fourth transmission member 316 may be a bevel gear ring or a bevel gear, when the first transmission member 234 rotates to press the piston member 232, the first suction member 321 is not powered on, the first suction member 321 and the second suction member 322 do not maintain a connection relationship, when it is necessary to move the position of the glass bottle holder 4, so that different sets of glass bottles on the glass bottle holder 4 are sterilized, the first suction member 321 is powered on, so that the first suction member 321 and the second suction member 322 are firmly connected together, then, in a case that the steam pressing member 23 does not rotate for a full circle, the first transmission member 233 drives the first transmission member 234, so that the first transmission member 234 drives the third transmission member 315, the second rotation member 314 and the second transmission member 312 to rotate, so that the first transmission member 311 and the glass bottle holder 4 connected to the glass bottle holder 4 can be moved by the steam transmission member 316, thereby enabling the steam transmission member 311 and the glass bottle holder to be capable of conveying structure to be set at different distances.

The working mode of the invention is as follows: the heating element 252 heats the water in the liquid storage part 251 to prepare high-temperature steam, the high-temperature steam enters the gas storage part 22 through the third air passing part 254, when the high-temperature steam needs to be injected into the steam injection assembly 21, the driving element 233 can be opened, the driving element 233 drives the first rotating element 234 to rotate, the first rotating element 234 drives the plurality of extrusion elements 235 to rotate, and the extrusion elements 235 extrude the piston element 232 to move, so that the piston element 232 presses the high-temperature steam in the gas storage part 22 into the steam injection assembly 21, and in the process that the piston element 232 extrudes the steam in the gas storage part 22, because the second control element 253 is arranged on the third air passing part 254, the high-temperature steam cannot enter the liquid storage part 251 through the third air passing part 254, when the piston element 232 moves upwards and extrudes the high-temperature steam in the gas storage part 22, the jacking part 211 is driven to move upwards and is abutted against the blocking element 215, the high-temperature steam moves upwards and drives the first ventilating piece 212 to slide in the second ventilating piece 213, until the steam injection joint 5 on the first ventilating piece 212 is completely attached to the bottle mouth of the glass bottle, and the high-temperature steam enters the glass bottle, the blocking piece 215 is arranged, so that when the piston piece 232 does not extrude the steam in the air storage piece 22 and the steam sending component 25 sends the steam into the air storage piece 22, the steam cannot enter the second ventilating piece 213 and flow away, when the piston piece 232 moves upwards and the top end mouth of the liquid passing piece 242 is flush with the top end surface of the piston piece 232, the water accumulated on the piston piece 232 can flow into the liquid passing piece 242 and enter the liquid storage piece 251, and the first control piece 241 is arranged, so that the influence of the high-temperature steam in the liquid storage piece 251 on the water drainage engineering on the water entering the liquid passing piece 242 can be effectively avoided;

when the first rotating member 234 rotates to press the piston member 232, the first absorbing member 321 is not powered on, the first absorbing member 321 is not connected to the second absorbing member 322, when the position of the glass bottle holder 4 needs to be moved, so that different groups of glass bottles on the glass bottle holder 4 are sterilized, the first absorbing member 321 is powered on, so that the first absorbing member 321 is firmly connected to the second absorbing member 322, and then, under the condition that the steam pressing assembly 23 cannot rotate for a full circle, the first rotating member 234 is driven by the driving member 233, so that the first rotating member 234 drives the third transmission member 315, the second rotating member 314 and the second transmission member 312 to rotate through the fourth transmission member 316, and the second transmission member 312 drives the first transmission member 311 to move, so that the first absorbing member 321 connected to the first transmission member 311 drives the second absorbing member 322 and the glass bottle holder 4 to move for a preset distance, and the steam conveying structure 2 can sterilize glass bottles at different positions on the glass bottle holder 4.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides a carbonated beverage disinfection system, includes workstation and glass bottle mount, and glass bottle mount sliding connection is on the surface of workstation, its characterized in that, carbonated beverage disinfection system still includes:

the steam injection joint is arranged at the bottom of the glass bottle fixing frame and is used for sending high-temperature steam into the glass bottle;

the steam conveying structure is arranged on the workbench and used for conveying high-temperature steam to the steam injection joint, and the steam injection joint can be driven to move in the process of conveying the high-temperature steam, so that the surface of the steam injection joint is attached to the glass bottle mouth on the glass bottle fixing frame;

the moving structure is arranged on the glass bottle fixing frame and the steam conveying structure and is used for taking the steam conveying structure as power input and matching with mechanical transmission to drive the glass bottle fixing frame to move on the workbench;

the steam delivery structure includes:

the gas storage part is connected inside the workbench and used for storing high-temperature steam;

the steam sending component is arranged in the workbench, water is stored in the steam sending component, the steam sending component is used for producing high-temperature steam, and the high-temperature steam can be sent into the gas storage part;

the steam injection assembly is communicated with the gas storage piece, is used for installing a steam injection joint and is also used for sending high-temperature steam into the steam injection joint;

the steam pressing assembly is arranged on the workbench and the gas storage piece and is used for pressing high-temperature steam in the gas storage piece into the steam injection assembly through mechanical transmission;

the water discharging component is arranged on the steam sending component, is communicated with the inside of the gas storage component and is used for discharging water in the gas storage component;

the steam delivery assembly comprises:

the liquid storage part is connected to the inner wall of the workbench and used for storing water;

the heating element is arranged on the inner wall of the liquid storage element and is used for heating water in the liquid storage element;

the third air communicating piece is arranged on the side surface of the liquid storage piece and used for sending high-temperature steam into the gas storage piece;

the second control piece is arranged on the outer side of the third ventilation piece and used for avoiding high-temperature steam in the third ventilation piece from flowing back;

the vapor compression assembly comprises:

the piston piece is connected with the inner wall of the gas storage piece and is used for extruding high-temperature steam in the gas storage piece;

the extrusion piece is used for driving the piston piece to move;

the resetting piece is arranged between the gas storage piece and the piston piece and is used for driving the piston piece to move;

the first rotating piece is used for installing the extrusion piece and can also drive the extrusion piece to rotate;

the driving piece is arranged on the side surface of the workbench, and the output end of the driving piece is connected with the first rotating piece and used for driving the first rotating piece to move;

the steam injection assembly comprises:

the first ventilation piece is used for installing a steam injection joint and can also send high-temperature steam into the steam injection joint;

the second ventilation piece is communicated with the gas storage piece, is connected with the first ventilation piece in a sliding way and is used for sending high-temperature steam into the first ventilation piece;

the blocking piece is hinged on the second ventilating piece and used for blocking high-temperature steam from entering the second ventilating piece;

the elastic piece is arranged on the inner wall of the second ventilating piece and used for pressing the blocking piece; and

the jacking piece is arranged on the surface of the steam pressing assembly and used for driving the blocking piece to move.

2. A carbonated beverage sanitizing system according to claim 1, wherein said drain assembly comprises:

the liquid communicating piece is arranged on the surface of the steam sending component, communicated with the inside of the gas storage piece and used for discharging water in the gas storage piece into the steam sending component; and

the first control piece is installed on the outer side of the liquid passing piece and used for preventing high-temperature steam in the steam sending assembly from entering the liquid passing piece.

3. A carbonated beverage sanitizing system as recited in claim 1, wherein said moving structure comprises:

the connecting assembly is used for driving the glass bottle fixing frame to move; and

and the transmission assembly is arranged on the steam conveying structure and the workbench and used for driving the connecting assembly to move by taking the steam conveying structure as power input and matching with mechanical transmission.

4. A carbonated beverage sanitizing system as recited in claim 3, wherein said connection assembly comprises:

the second adsorption piece is arranged on the surface of the glass bottle fixing frame and is used for driving the glass bottle fixing frame to move; and

the first adsorption part is arranged on the transmission component and used for adsorbing the second adsorption part to be connected with the second adsorption part through mutual adsorption with the second adsorption part and driving the second adsorption part to move.

5. A carbonated beverage sanitizing system according to claim 4, wherein said drive assembly comprises:

the first transmission piece is connected with the connecting component and used for driving the connecting component to move;

the sliding part is connected to the surface of the workbench in a sliding manner and is used for driving the first transmission part to move;

the second transmission piece is connected with the first transmission piece and used for driving the first transmission piece to move;

the second rotating part is rotatably connected to the surface of the workbench and is used for driving the second transmission part to rotate;

the third transmission piece is arranged at one end of the second rotating piece and is used for driving the second rotating piece to rotate; and

and the fourth transmission part is arranged on the steam conveying structure and used for driving the third transmission part to move by taking the steam conveying structure as power input.

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