CN213326897U - Self-disinfection system in beverage machine and beverage machine - Google Patents

Abstract

The utility model provides a from disinfection system and beverage machine in beverage machine disinfects the water source in arranging beverage machine disinfection beverage machine in, includes at least: the self-disinfection system is applied to a beverage machine to comprehensively disinfect the beverage machine, and particularly, the self-disinfection system comprehensively disinfects a water source, a spare water storage assembly, a cavity, a passage pipeline and a water outlet, cannot generate secondary disinfection pollution by adopting an ozone disinfection mode, and has a better disinfection effect.

Description

Self-disinfection system in beverage machine and beverage machine

Technical Field

The utility model relates to a disinfection field of beverage machine, in particular to from disinfection system and beverage machine in beverage machine.

Background

The vending beverage machine is a device which is provided with a material tank in which beverage raw materials are placed, and can discharge materials and mix with other solvents according to the requirements of users to prepare drinkable beverages, and has the advantages of low selling price, quickness in preparation, high beverage selectivity and the like, and can be widely applied to public places such as schools, hospitals, markets and the like. However, due to the use characteristics of the vending machine itself, the safety of the beverage sold by the vending machine is always troubling the consumers.

The disinfection urgency of vending machines is reflected at least in: 1. beverage raw materials and solvents in the automatic vending machine are conveyed through internal pipelines, so that the raw materials and the solvents are inevitably remained on the inner walls of the pipelines, and the remained reagents can cause the pipelines to generate bacteria in the long-term use process, and if the bacteria are not disinfected in time, the bacteria can be introduced into the beverage. 2. The drinking water stored in the standby water storage assembly and the water storage assembly in the vending machine for a long time is easy to deteriorate, and the safety of the beverage is directly affected. 3. The water outlet of the automatic vending beverage machine needs to be exposed in the air, and bacteria from outside to inside are accumulated on the water blowing port after long-term use, and even bacteria can be bred on a pipeline near the water outlet.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a from disinfection system and beverage machine in beverage machine, should be applied to beverage machine in from disinfection system and disinfect to beverage machine comprehensively, specific, should disinfect water source, reserve water storage component, cavity, route pipeline and delivery port comprehensively from disinfection system, and adopt the sterile mode of ozone can not produce sterile secondary pollution, and the disinfection effect is better.

The utility model provides a from disinfection system in beverage machine arranges the water source in the beverage machine disinfection beverage machine in, includes at least: a channel pipeline connected with a water source, and an ozone generator and a water-vapor separator which are arranged on the channel pipeline.

In some embodiments, the inlet of the ozone generator is communicated with air, the outlet of the ozone generator is communicated with the channel pipeline, and the outlet of the ozone generator is provided with a gas refining device which is contacted with water in the channel pipeline to form a water source disinfection passage.

In some embodiments, the inlet and outlet of the ozone generator are connected to the channel tube, wherein the channel tube, the ozone generator and the water source are communicated to form a water source disinfection passage, and the ozone generator produces ozone from water flowing from the water source through the channel tube.

In some embodiments, the passage pipeline connected with the outlet end of the ozone generator is connected with the water-vapor separator, and the other end of the water-vapor separator is communicated with the passage pipeline.

In some embodiments, the outlet of the water vapor separator is in communication with at least one of the chamber or the atmosphere.

In some embodiments, the channel pipeline, the ozone generator and the water storage assembly are communicated to form a water storage assembly disinfection passage; the channel pipeline, the ozone generator and the water outlet are communicated to form a water storage assembly disinfection passage.

In some embodiments, the chamber, the water storage assembly, the water outlet, and the water source share the same ozone generator.

In some embodiments, the inlet end of the ozone generator is communicated with the water source outlet pipeline, the outlet end of the ozone generator is arranged in two ways which are respectively communicated with the water outlet pipeline and the water-vapor separator, the water outlet of the water-vapor separator is arranged in three ways which are respectively communicated with the cavity pipeline, the water source return pipeline and the water storage component inlet pipeline, ozone gas obtained by separation of the water-vapor separator enters the cavity pipeline, water obtained by separation enters the water source return pipeline and/or the water storage component inlet pipeline respectively, and the water storage component outlet pipeline is communicated with the water source outlet pipeline.

In some embodiments, when the water source is a non-pressurized water source, the water pump is disposed before or after the ozone generator.

In some embodiments, a switch is disposed on the passage line.

According to another aspect of the present invention, the self-sanitizing system within the beverage machine is applied within the beverage machine.

Compared with the prior art, the utility model has the following characteristics and beneficial effect:

1. the mode that adopts ozone disinfection cooperation to optimize the pipeline setting carries out comprehensive disinfection to water source, reserve water storage component, head tank, passageway pipeline and the delivery port in the beverage machine comprehensively, reaches the purpose of full aspect, quick, efficient disinfection and sterilization.

2. The ozone sterilization has strong sterilization strength and breadth, can kill most of bacteria and microorganisms, destroy the quality of botulism and toxin, also has the functions of removing peculiar smells such as mildew, fishy smell and odor, and does not leave any substance, thereby solving the problem of secondary pollution generated during the sterilization of the disinfectant.

3. The ozone water disinfects the environment in the chamber independently by the ozone gas, disinfects the channel pipeline on the way of flowing through each device by the ozone gas through the water-vapor separator, and does not influence the normal operation of the waterway system while completing the disinfection by the self-decomposition of the ozone water.

Drawings

Fig. 1 is a schematic frame diagram of a self-disinfection system in a beverage machine according to an embodiment of the present invention.

In the figure: 11-a water source outlet pipeline, 12-a water source return pipeline, 13-a water storage component inlet pipeline, 14-a water storage component outlet pipeline, 15-a chamber pipeline, 16-a water outlet pipeline, 20-a water source, 21-a water source outlet, 22-a water source inlet, 30-a water storage component, 40-an ozone generator, 50-a chamber, 60-a water-vapor separator and 70-a water pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

As shown in fig. 1, according to the utility model discloses a self-disinfection system in beverage machine is demonstrateed, should disinfect to equipment and the passageway pipeline in the beverage machine from the disinfection system is used to in the beverage machine, and adopts the sterile mode of ozone, utilizes the principle of ozone water self-decomposition to avoid the secondary pollution of disinfectant, and the disinfection effect is better more comprehensive.

Specifically, the self-disinfection system, the water source (20) arranged in the beverage machine for disinfecting the beverage machine, the water storage assembly (30) and the chamber (50) at least comprise: a channel pipeline connected with a water source (20), and an ozone generator (40) and a water-vapor separator (60) which are arranged on the channel pipeline

The channel pipeline (10), the ozone generator (40) and the water source (20) are communicated to form a water source disinfection passage, namely, water flowing out of the water source (20) flows out of the water source water outlet (21) and then flows back into the water source (20) from the water source water inlet (21) through the water source disinfection passage.

In order to realize the operation of the ozone generator (40), the ozone generator (40) is connected with a power supply assembly.

In the embodiment of the utility model, the ozone generator (40) has two modes to realize the ozone generation.

The first mode is as follows: the inlet and outlet of the ozone generator (40) are connected with the channel pipeline, wherein the channel pipeline (10), the ozone generator (40) and the water source (20) are communicated to form a water source disinfection passage, and the ozone generator (40) directly prepares ozone from water flowing through the channel pipeline from the water source (20).

The second mode is as follows: the inlet of the ozone generator (40) is communicated with air, the outlet of the ozone generator (40) is communicated with the channel pipeline, and the outlet of the ozone generator (40) is provided with a gas refining device which is contacted with water in the channel pipeline to form a water source disinfection passage.

No matter the mode, the channel pipeline comprises a water source water outlet pipeline (11) and a water source water return pipeline (12) which are communicated with a water source (20), and two ends of the ozone generator (40) are respectively connected with the water source water outlet pipeline (11) and the water source water return pipeline (12).

And, in some embodiments, when the water source (20) is a non-pressure water source, a water pump (70) is disposed on the water source outlet pipeline (11) and delivers the outlet water of the water source (20) to the ozone generator (40).

The following is set forth in principle: the drinking water flowing out of the water source (20) reaches the ozone generator (40) through the water source water outlet pipeline (11), the drinking water is disinfected under the action of the ozone generator (40), wherein the ozone generator (40) can generate ozone by utilizing the atmosphere or directly generate ozone from the water, the water generates ozone reaction to be converted into ozone water, and the ozone water flows back into the water source (20) through the water source water return pipeline (12). It is worth mentioning that the ozone water sterilizes the water source return pipe (12) through which it flows, and the ozone water arriving in the water source (20) is decomposed into drinking water. In this way, disinfection of the drinking water in the water supply (20) and disinfection of the flow-through line can be achieved.

In addition, the channel pipeline (10), the ozone generator (40) and the water storage assembly (30) are communicated to form a water storage assembly disinfection passage, namely, water flowing out of the water storage assembly (30) flows back into the water storage assembly (30) through the water storage assembly disinfection loop.

Specifically, the channel pipeline comprises a water storage component water inlet pipeline (13) and a water storage component water outlet pipeline (14) which are communicated with the water storage component (30), two ends of the ozone generator (40) are respectively connected with the water storage component water inlet pipeline (13) and the water storage component water outlet pipeline (14), and in some embodiments, the water storage component water outlet pipeline (14) is communicated with the water source water outlet pipeline (11), namely, water in the water storage component water outlet pipeline (14) flows into the ozone generator (40) after flowing into the water source water outlet pipeline (11). The disinfection principle of the water storage component disinfection loop is the same as that of the water source disinfection loop.

In addition, a channel pipeline connected with the outlet end of the ozone generator (40) is connected with a water-vapor separator (60), and the other end of the water-vapor separator is communicated with the channel pipeline. The air outlet of the water-vapor separator (60) is communicated with at least one of the chamber (50) or the atmosphere.

At the moment, the channel pipeline (10), the ozone generator (40), the water-vapor separator (60) and the chamber (50) are communicated to form a chamber disinfection passage, wherein ozone gas obtained after ozone water generated by the ozone generator (40) is separated by the water-vapor separator (60) enters the chamber (50), namely, the chamber (50) is disinfected by the ozone gas directly in the scheme.

Specifically, the channel pipeline comprises a cavity pipeline (15) communicated with the cavity (50), the ozone generator (40) and the water-vapor separator (60) are sequentially communicated with the cavity pipeline (15), and ozone gas obtained by separating ozone water in the water-vapor separator (60) enters the cavity pipeline (15) to be disinfected.

In addition, the channel pipeline (10) further comprises a water outlet pipeline (16) communicated with the water outlet, and the water outlet pipeline (16) is communicated with the ozone generator (40) to form a chamber disinfection passage so as to convey ozone disinfection water to the water outlet.

In an embodiment of the present invention, the water source disinfection path, the water storage assembly disinfection path, the chamber disinfection path, and the chamber disinfection path share one ozone generator (40), i.e. the water source (20), the water storage assembly (30), the chamber (50), and the water outlet share one ozone generator (40).

Specifically, the water inlet end of the ozone generator (40) is communicated with a water source water outlet pipeline (11), the water outlet end of the ozone generator (40) is divided into two paths which are respectively communicated with a water outlet pipeline (16) and a water vapor separator (60), the water outlet of the water vapor separator (60) is divided into three paths which are respectively communicated with a cavity pipeline (15), a water source water return pipeline (12) and a water storage component water inlet pipeline (13), ozone gas obtained by separating the water vapor separator (60) enters the cavity pipeline (15), water obtained by separating enters the water source water return pipeline (12) and/or the water storage component water inlet pipeline (13), and the water storage component water outlet pipeline (14) is communicated with the water source water outlet pipeline (11).

In particular, the water pump is arranged on a water source outlet pipeline (11) and is arranged in the conveying direction of a water storage component outlet pipeline (14). Namely, the water pump can convey water from the water source outlet pipeline (11) and the water storage assembly outlet pipeline (14).

In some embodiments, the water source outlet pipeline (11), the water source return pipeline (12), the water storage assembly inlet pipeline (13), the water storage assembly outlet pipeline (14), the chamber pipeline (15) and the water outlet pipeline (16) are all provided with a switch member, wherein the switch member is implemented as a one-way valve and plays a role in controlling the flow direction of the water channel.

According to another embodiment of the present invention, the self-disinfecting system is applied to a beverage machine for disinfection.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by the teaching of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as the present invention, fall within the protection scope of the present invention.

Claims (12)

1. A self-sanitizing system in a beverage machine, the self-sanitizing system being disposed in the beverage machine to sanitize the beverage machine, the self-sanitizing system comprising at least: the device comprises a water source (20), a channel pipeline connected with the water source (20), an ozone generator (40) and a water-vapor separator (60), wherein the ozone generator (40) is arranged on the channel pipeline, the inlet end of the ozone generator (40) is communicated with a water source outlet pipeline (11), the outlet end of the ozone generator (40) is arranged in two ways, and the two ways are respectively communicated with a water outlet pipeline (16) and the water-vapor separator (60).

2. The self-disinfection system in a beverage machine according to claim 1, wherein the inlet and outlet of the ozone generator (40) are connected to a channel line, wherein the channel line, the ozone generator (40) and the water source (20) are communicated to form a water source disinfection pathway, and wherein the ozone generator (40) produces ozone from water flowing from the water source (20) through the channel line.

3. The self-disinfecting system in a beverage maker according to claim 1, wherein an inlet of the ozone generator (40) communicates with air, an outlet of the ozone generator (40) communicates with the passage pipe, and a gas detailing device is provided at an outlet position of the ozone generator (40), the gas detailing device being in contact with water in the passage pipe.

4. A self-disinfecting system as claimed in claim 2 or 3, wherein the other end of the water-vapour separator communicates with the channel.

5. The self-sterilizer system in beverage machines according to claim 4, wherein the outlet of the water-vapor separator (60) is open to the chamber (50) or the outlet of the water-vapor separator (60) is open to the atmosphere.

6. The self-disinfecting system in a beverage maker according to any one of claims 2 or 3, wherein the passage pipe, the ozone generator (40) and the water storage unit (30) are communicated to form a water storage unit disinfecting passage; the channel pipeline, the ozone generator (40) and the water outlet are communicated to form a water storage assembly disinfection passage.

7. The self-disinfecting system in a beverage maker according to claim 4, wherein the passage pipe, the ozone generator (40) and the water storage assembly (30) communicate to form a water storage assembly disinfecting passage; the channel pipeline, the ozone generator (40) and the water outlet are communicated to form a water storage assembly disinfection passage.

8. The self-disinfecting system of claim 7 wherein the chamber (50), the water storage assembly (30), the water outlet, and the water source (20) share the same ozone generator (40).

9. The self-disinfection system in a beverage machine according to claim 8, wherein the water outlet of the water vapor separator (60) is divided into three paths, which are respectively communicated with the chamber pipeline (15), the water source return pipeline (12) and the water storage component water inlet pipeline (13), wherein ozone gas separated by the water vapor separator (60) enters the chamber pipeline (15), water separated by the ozone gas enters the water source return pipeline (12) and/or the water storage component water inlet pipeline (13), and the water storage component water outlet pipeline (14) is communicated with the water source water outlet pipeline (11).

10. The self-disinfecting system of claim 3, wherein the water pump (70) is disposed before or after the ozone generator (40) when the water source (20) is a non-pressurized water source.

11. The self-disinfecting system of claim 1, wherein the access conduit is provided with a switch member.

12. A beverage machine, characterized in that a self-sterilizing system in a beverage machine as claimed in claim 1 is used.

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