DE112018001465T5 - Cleaning and sterilizing device - Google Patents

Abstract

The present invention relates to a cleaning and sterilizing device comprising a cleaning basin, an ozone generator, a centrifugal impeller, a gas diffusion plate, an electric motor, a coupling device and a separation hood. The separation hood forms a chamber together with the cleaning basin. The gas diffusion plate is provided inside the chamber and divides the chamber into a mixing space and a gas distribution space. The separation hood is provided with a water inlet opening and a water outlet opening. The ozone generator provides gas in the gas distribution room. The centrifugal impeller is provided inside the mixing room. The electric motor is connected to the centrifugal impeller via the coupling device. The construction of the invention is simple, with the gas generated by the ozone generator creating bubbles through the gas diffusion plate. The electric motor drives the centrifugal impeller to rotate to form a stream of water for cutting bubbles, the bubbles being detached before enlargement, creating nano-bubbles, which increases solubility. At the same time, the centrifugal impeller causes the water to enter through the water inlet opening and to exit from the water outlet opening, so that a water cycle is created, whereby the ozone water is mixed with the water in the cleaning basin and thus enables easy cleaning and sterilization of objects.

Description

TECHNICAL AREA

The present invention relates to the technical field of household appliances, in particular a cleaning and sterilizing device.

STATE OF THE ART

In the course of continuous social development, the requirements for hygiene, environment and health are increasing every day. However, fertilizers and pesticides are always used when irrigating fruit and vegetables, so that the fruit and vegetables can still have toxic residues on their surface after ripening. If there is no efficient and thorough removal of these residues before consumption, they gradually accumulate in the human body after consumption, which is a long-term health hazard. Different types of meat contain enormous amounts of Salmonella, and washing with water can spread the bacteria around and lead to contamination of the dishes. A conventional way of sterilization is to use equipment for treatment with sterilizing liquid, bleaching powder or by electrolysis of tap water to produce chlorine gas which is dissolved in the water and forms hypochlorous acid. With these types of sterilization, however, halocarbons are formed simultaneously with the sterilization, which represent a secondary contamination. Devices for sterilizing fruit and vegetables using ozone are also known on the market. With simple air stones or jet devices, however, the ozone dissolves only with difficulty in water, so that the concentration of the ozone in the water does not meet the requirements for sterilization, and enormous amounts of ozone also evaporate into the air and contribute to air pollution.

CONTENT OF THE INVENTION

The object of the present invention is to provide a cleaning and sterilizing device which increases the contact effect between ozone and water, increases the solubility of the ozone and thus improves the cleaning and sterilizing effect.

According to an embodiment of the present invention, there is provided a cleaning and sterilizing device which generates a water flow by rotating a centrifugal impeller at a high speed to cut bubbles of an ozone-containing gas on the gas diffusion plate and thereby form nano-bubbles. The cleaning and sterilization device according to an embodiment of the present invention comprises a cleaning basin, an ozone generator, a centrifugal impeller, a gas diffusion plate, an electric motor, a coupling device and a separation hood. The separation hood is provided within the cleaning basin and, together with the cleaning basin, forms a chamber, the gas diffusion plate being provided within the chamber, thereby dividing the chamber into a mixing space and a gas distribution space. The upper part of the separation hood is provided with a water inlet opening that is continuously connected to the mixing chamber, a water outlet opening that is continuously connected to the mixing chamber being provided on a side wall of the separation hood. The ozone generator is arranged outside the cleaning basin and conveys a generated gas into the gas distribution space through a gas discharge pipe, the gas forming bubbles through the distribution openings in the gas distribution plate and entering the mixing space. The centrifugal impeller is provided within the mixing space with the electric motor mounted outside of the cleaning basin and connected to the centrifugal impeller through the coupling device, the electric motor driving the centrifugal impeller to rotate to form a water flow to cut the bubbles flowing out of the gas diffusion plate.

Furthermore, it is provided in the technical solution mentioned that the cleaning and sterilization device also comprises an outer housing, the cleaning basin being provided inside the outer housing, an assembly space being formed between the outer housing and the cleaning basin, the electric motor and the ozone generator being inside of the assembly room are arranged.

Furthermore, it is provided in the technical solution mentioned that the outer housing is provided with a housing cover, the housing cover also closing the opening of the cleaning basin at the same time as the opening of the outer housing is closed, a UV lamp being provided on an inner surface of the housing cover, wherein the inner surface closes the opening area of the cleaning basin.

It is further provided in the technical solution mentioned that the assembly space is provided with an air filter, the air filter being attached to a side wall of the outer housing and being connected to the ozone generator by an air inlet pipe.

Furthermore, in the technical solution mentioned, a gas pump is provided on the pipeline path of the air inlet pipe between the air filter and the ozone generator.

Furthermore, in the technical solution mentioned, a first one-way valve is provided on the pipeline path between the gas pump and the ozone generator.

Furthermore, in the technical solution mentioned, a second one-way valve is provided on the pipeline path of the gas outlet pipe.

Furthermore, in the technical solution mentioned, a water discharge opening is provided on the lower part of the cleaning basin, the water discharge opening being connected to a water discharge pipe, a water discharge valve being provided on the pipeline path of the water discharge pipe.

It is also provided in the technical solution mentioned that the inner surface of the cleaning basin is provided with a coating layer of TiO ₂ .

It is further provided in the technical solution mentioned that the gas diffusion plate consists of porous material sintered from metal powder, sintered quartz sand or foam.

It is further provided in the technical solution mentioned that the distribution openings of the gas distribution plate have an opening diameter of 1-10 μm.

It is also provided in the technical solution mentioned that the distance between the centrifugal impeller and the gas diffusion plate is 0.5-5 millimeters.

According to a further exemplary embodiment of the present invention, a cleaning and sterilization device is provided in which the cutting of the bubbles formed by the ozone-containing gas on the gas diffusion plate takes place by means of a cutting blade rotating at high speed, and nano-bubbles are thereby formed. According to another embodiment of the present invention, the cleaning and sterilizing device comprises a cleaning basin, an ozone generator, a cutting blade, a gas diffusion plate, an electric motor, a coupling device and a separation hood. The separation hood is provided within the cleaning basin and, together with the cleaning basin, forms a chamber, the gas diffusion plate being provided within the chamber and thereby dividing the chamber into a mixing space and a gas distribution space. The upper part of the separation hood is provided with a water inlet opening that is continuously connected to the mixing chamber, a water outlet opening that is continuously connected to the mixing chamber being provided on a side wall of the separation hood. The ozone generator is arranged outside the cleaning basin and conveys a generated gas into the gas distribution space through a gas discharge pipe, the gas forming bubbles through the distribution openings in the gas distribution plate and entering the mixing space. The cutting blade is provided within the mixing space, the electric motor being located outside the cleaning basin and connected to the cutting blade by the coupling device, the electric motor driving the cutting blade to rotate in order to cut the bubbles flowing out of the diffusion openings of the gas diffusion plate.

It is further provided in the technical solution mentioned that the assembly space is provided with an air filter, the air filter being attached to a side wall of the outer housing and being connected to the ozone generator by an air inlet pipe.

It is further provided in the technical solution mentioned that a gas pump is provided on the pipeline path of the air inlet pipe between the air filter and the ozone generator.

It is further provided in the technical solution mentioned that a first one-way valve is provided on the pipeline path between the gas pump and the ozone generator.

It is further provided in the technical solution mentioned that a second one-way valve is provided on the pipeline path of the gas outlet pipe.

Furthermore, it is provided in the technical solution mentioned that the cleaning and sterilization device also comprises an outer housing, the cleaning basin being provided inside the outer housing, an assembly space being formed between the outer housing and the cleaning basin, the electric motor and the ozone generator being inside of the assembly room are arranged.

Furthermore, it is provided in the technical solution mentioned that a water discharge opening is provided on the lower part of the cleaning basin, the water discharge opening being connected to a water discharge pipe, the water discharge pipe extending outside the outer housing and being on the Pipeline path of the water discharge pipe, a water discharge valve is provided.

It is also provided in the technical solution mentioned that the inner surface of the cleaning basin is provided with a coating layer of TiO ₂ .

It is further provided in the technical solution mentioned that the gas diffusion plate consists of porous material sintered from metal powder, sintered quartz sand or foam.

It is further provided in the technical solution mentioned that the distribution openings of the gas distribution plate have an opening diameter of 1-10 μm.

It is also provided in the technical solution mentioned that the distance between the cutting blade and the gas diffusion plate is 0.5-5 millimeters.

Compared to the prior art, the cleaning and sterilizing device according to the present invention, by rotating the centrifugal impeller or cutting blade at high speed, forms a water flow for cutting the nano-bubbles formed on the gas diffusion plate, the bubbles being enlarged from the gas diffusion plate even before enlargement detached and nano-bubbles arise, which increases the contact effect between ozone-containing gas and water, increases the solubility of the ozone and thus improves the cleaning and sterilization effect.

Rotation of the cutting blade at high speed in the present invention can further cut the bubbles within the mixing space, causing a further increase in the ozone content in the water, which improves the sterilization effect.

In addition, a water flow is formed by the centrifugal impeller or the cutting blade of the cleaning and sterilizing device according to the present invention, which leads the water located in the cleaning basin through the water inlet opening located on the upper part of the separation hood into the mixing space, the ozone water located inside the mixing space passing through the water outlet opening is directed and thus a water cycle is created within the mixing room, which promotes the mixing of the ozone water within the mixing room, whereby cleaning and sterilization of the objects located within the cleaning basin is facilitated and the cleaning effect is improved.

The present invention is explained in greater detail on the basis of exemplary embodiments and drawings.

list of figures

• shows an illustration of a construction of a cleaning and sterilizing device according to an embodiment of the present invention.

EMBODIMENTS

An embodiment of the present invention is illustrated by an illustration. However, it is to be understood that the scope of the present invention is not limited by this embodiment.

As in shown, promotes an ozone generator in a cleaning and sterilizing device according to the embodiment of the present invention 3 a generated gas containing ozone into the cleaning basin 2 , whereby ozone water is formed by dissolving the ozone-containing gas in water and the cleaning and sterilization of the in the cleaning basin 2 objects located. In the cleaning basin 2 is a separation hood 7 provided, the separation hood 7 together with the cleaning basin 2 a chamber 21 forms. It is understood that in the Embodiment shown the separation hood 7 on the lower part of the cleaning basin 2 is provided, but that a specialist in the technical field concerned the separation hood 7 according to the circumstances also on a side wall of the cleaning basin 2 can arrange. The present invention is not limited in this regard. In the chamber 21 is a gas diffusion plate 6 provided, the gas diffusion plate 6 the chamber 21 in a mixing room 211 and a gas distribution room 212 divided. The top of the separation hood 7 is with one with the mixing room 211 provided continuously connected water inlet opening (not shown), being on a side wall of the separation hood 7 a water outlet opening (not shown) connected to the mixing chamber is provided. The ozone generator 3 is outside the cleaning basin 2 arranged. The ozone generator 3 conveys a generated ozone-containing gas into the gas distribution area through a gas discharge pipe 212 wherein the gas through the diffusion openings (not shown) of the gas diffusion plate 6 Bubbles and forms in the mixing room 211 arrives. For example, the gas diffusion plate 6 consist of porous material sintered from metal powder, sintered quartz sand or foam. It is to be understood that a person skilled in the technical field concerned will understand the material of the Gas distribution plate 6 can choose as needed. The present invention is not limited in this regard. For example, the gas diffusion plate 6 is a porous titanium plate made of sintered metal powder. If there are requirements regarding corrosion protection, a porous plate made of sintered stainless steel powder can be provided.

Preferably, but without any restriction in this regard, the distribution openings of the gas distribution plate have 6 an opening diameter of 1 - 10µm. In the mixing room 211 is a centrifugal impeller 5 provided, the centrifugal impeller 5 by rotating at high speed a stream of water to cut out of the gas diffusion plate 6 flowing bubbles moved. An electric motor 4 of the centrifugal impeller 5 is located outside the cleaning basin 2 and drives via the coupling device 41 the centrifugal impeller 5 to turn on. Between the electric motor 4 , the coupling device 41 and the cleaning basin 2 a watertight construction is planned. In the present embodiment, the ozone-containing gas can pass through the diffusion openings of the gas diffusion plate 6 Form nano-bubbles with the centrifugal impeller 5 by rotating at high speed a stream of water to cut the at the gas diffusion plate 6 formed bubbles moved, the bubbles being expanded from the gas diffusion plate 6 detached, which creates nano-bubbles. In order to obtain a comparatively good cutting and peeling effect of the bubbles, the distance between the gas diffusion plate is 6 and the centrifugal impeller 5 preferably 0.5 - 5 millimeters.

Furthermore, it is provided in one or more exemplary embodiments of the present invention that the cleaning and sterilizing device also has an outer housing 1 May include, the cleaning basin 2 inside the outer case 1 is arranged, between the outer housing 1 and the cleaning basin 2 an assembly room 11 is trained. Preferably, without any restriction in this regard, it is provided that the outer housing 1 with a housing cover 12 is provided, the housing cover 12 simultaneously with the closure of the opening of the outer housing 1 also the opening of the cleaning basin 2 closes, being on the inner surface of the housing cover 12 a UV lamp (not shown) is provided, the inner surface of the opening area of the cleaning basin 2 seals, so that the Sterilastionseffekt is improved. The ozone generator 3 and the electric motor 4 can in the assembly room 11 be provided.

Furthermore, it is provided in one or more exemplary embodiments of the present invention that the cleaning and sterilizing device also has an air filter 8th is provided, which serves to collect and filter air. The air filter is through an air inlet tube with the ozone generator 3 connected and provides the material to be processed for the ozone generator 3 ready. A gas pump is preferred on the pipeline path of the air inlet pipe, without any restriction in this regard 9 provided, the gas pump 9 Provides driving force, sucks in air from the outside and at the same time air in the ozone generator 3 inflated. Preferred, without limitation, is on the pipeline path between the gas pump 9 and the ozone generator 3 a first one-way valve 10 provided to prevent backflow. Preferred, without limitation, is on the gas outlet pipeline path between the ozone generator 3 and the cleaning basin 2 a second one-way valve 101 provided to prevent backflow. In one or more exemplary embodiments, with an outer housing 1 can the air filter 8th inside the assembly room 11 be arranged and on a side wall of the outer housing 1 to be appropriate.

Further, in one or more embodiments of the present invention is on the lower part of the cleaning basin 2 a water discharge opening 102 is provided, the water discharge opening 102 is connected to a water discharge pipe, with a water discharge valve on the pipe path of the water discharge pipe 103 is provided for in the cleaning basin 2 to discharge resulting wastewater. In one or more embodiments with an outer housing 1 the water outlet pipe extends outside the outer housing 1 ,

It is further provided in one or more exemplary embodiments of the present invention that the inner surface of the cleaning basin 2 with a coating layer 22 is made of TiO ₂ . Under the catalytic effect of the coating layer 22 from TiO ₂ , the ozone water forms hydroxyl radicals with a high concentration, whereby under the doubling effect of hydroxyl radicals and ozone water the cleaning and sterilization effect in the cleaning basin 2 is increased.

In another exemplary embodiment of the present invention, the essential difference from the exemplary embodiments listed above is that the centrifugal impeller 5 is replaced by a cutting blade, while the other components and their connection arrangements match the exemplary embodiments listed above and will not be described again here.

In comparison to the prior art, the present invention is distinguished by a simple structure and a high degree of user-friendliness. The gas pump draws in air from the outside, which is filtered by an air filter. The filtered air is pumped into the ozone generator, the ozone generator generating ozone. The ozone-containing gas is pumped into the gas distribution room. The gas forms bubbles through the gas distribution plate, which enter the mixing chamber. At the same time, the electric motor drives the centrifugal impeller (or the cutting blade) via the coupling device to rotate at high speed. The centrifugal impeller (or the cutting blade) moves the water flow to cut the bubbles that are formed on the gas distribution plate, so that the bubbles are detached before they are enlarged, so that nano-bubbles ultimately form, which increases the contact effect between ozone-containing gas and water and the solubility of ozone increases. At the same time, the centrifugal impeller (or the cutting blade) causes the water flow to move, so that the water in the cleaning basin reaches the mixing chamber through the water inlet opening on the upper part of the separation hood, while the ozone water in the mixing chamber exits through the water inlet opening and a circuit within the Cleaning basin is created, which promotes the mixing of the ozone water in the cleaning basin and enables easy cleaning and sterilization of objects. In embodiments with a cutting blade, the rotation of the cutting blade at high speed can further cut the bubbles in the mixing space, which further increases the ozone content in the water and improves the sterilization effect.

The present description is merely exemplary embodiments, without the present invention being restricted in this regard. Modifications imaginable by a person skilled in the relevant technical field all fall within the scope of the present invention.

Claims (12)

Cleaning and sterilizing device, characterized in that the cleaning and sterilizing device comprises a cleaning basin, an ozone generator, a gas diffusion plate, an electric motor, a coupling device and a separation hood, the separation hood being provided within the cleaning basin and a chamber together with the cleaning basin The gas diffusion plate is provided within the chamber and divides the chamber into a mixing space and a gas distribution space, the upper part of the separation hood being provided with a water inlet opening which is continuously connected to the mixing space, with a water outlet opening being continuously connected to the mixing space on a side wall of the separation hood is provided, the ozone generator being arranged outside the cleaning basin and conveying a generated gas into the gas distribution space through a gas discharge pipe, the gas being distributed openings of the gas diffusion plate form bubbles and enter the mixing chamber, a centrifugal impeller or a cutting blade being provided within the mixing chamber, the electric motor being arranged outside the cleaning basin and being connected by the coupling device to the centrifugal impeller or the cutting blade, the electric motor being the centrifugal impeller or drives the cutting blade to move a stream of water to cut the bubbles flowing out of the gas diffusion plate. Cleaning and sterilization device after Claim 1 , characterized in that this cleaning and sterilization device comprises an outer housing, the cleaning basin being provided within the outer housing, an assembly space being formed between the outer housing and the cleaning basin, the electric motor and the ozone generator being arranged within the assembly space. Cleaning and sterilization device after Claim 2 , characterized in that the outer housing is provided with a housing cover, wherein the housing cover also closes the opening of the cleaning basin with the closure of the opening of the outer housing, wherein an UV lamp is provided on an inner surface of the housing cover, the inner surface of the The opening area of the cleaning basin closes. Cleaning and sterilization device after Claim 2 , characterized in that the mounting space is provided with an air filter, the air filter being attached to a side wall of the outer housing and being connected to the ozone generator by an air inlet pipe. Cleaning and sterilization device after Claim 4 , characterized in that a gas pump is provided on the pipeline path of the air inlet pipe between the air filter and the ozone generator. Cleaning and sterilization device after Claim 5 , characterized in that on the Pipeline path between the gas pump and the ozone generator, a one-way valve is provided. Cleaning and sterilization device after Claim 1 , characterized in that a second one-way valve is provided on the pipeline path of the gas outlet pipe. Cleaning and sterilization device after Claim 1 , characterized in that a water discharge opening is provided on the lower part of the cleaning basin, the water discharge opening being connected to a water discharge pipe, a water discharge valve being provided on a pipe path of the water discharge pipe. Cleaning and sterilization device after Claim 1 , characterized in that the inner surface of the cleaning basin is provided with a coating layer of TiO ₂ . Cleaning and sterilization device after Claim 1 , characterized in that the gas diffusion plate consists of metal powder sintered porous material, sintered quartz sand or foam. Cleaning and sterilization device after Claim 1 , characterized in that the distribution openings of the gas distribution plate have an opening diameter of 1-10µm. Cleaning and sterilization device after Claim 1 , characterized in that the distance between the centrifugal impeller and the gas diffusion plate is 0.5 - 5 millimeters.

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