CN111714668B

CN111714668B - Composite disinfection and purification equipment

Info

Publication number: CN111714668B
Application number: CN202010445883.2A
Authority: CN
Inventors: 卞爱霞
Original assignee: AEC Lighting Solutions Co Ltd
Current assignee: AEC Lighting Solutions Co Ltd
Priority date: 2020-05-22
Filing date: 2020-05-22
Publication date: 2022-04-12
Anticipated expiration: 2040-05-22
Also published as: CN111714668A

Abstract

The invention provides a composite disinfection and purification device, which comprises: ultraviolet ray degassing unit, ozone generation degassing unit and data connecting wire. The ultraviolet ray disinfection device at least comprises: first casing, first handle, ultraviolet ray disinfection subassembly, the ultraviolet ray disinfection subassembly includes first connection terminal at least, ozone takes place degassing unit includes second connection terminal, second casing, second handle, operating panel, LCD screen, ozone generator at least. The data connecting line is connected with the ultraviolet disinfection device and the ozone generation and disinfection device, the ultraviolet disinfection device and the ozone generation and disinfection device can work simultaneously or independently, the output modes and time of the two devices are controlled by the operation panel during simultaneous working, and the setting and the state can be visually checked by the liquid crystal screen.

Description

Composite disinfection and purification equipment

Technical Field

The invention relates to the field of disinfection, sterilization and the like, in particular to a composite disinfection and purification device.

Background

The requirements of people on sanitary conditions are increased along with the rise of living standard, the demands of users on household sterilization are increasingly increased,

ultraviolet disinfection is a low-pressure mercury lamp. The low-pressure mercury lamp is activated by using low-pressure mercury vapor to emit ultraviolet light, the molecular structure of DNA (deoxyribonucleic acid) or RNA (ribonucleic acid) in microbial organism cells can be destroyed by using ultraviolet light with proper wavelength, and growth cell death and/or regenerative cell death are/is caused, so that the sterilization and disinfection effects are achieved, and the ultraviolet UVC technology has the highest sterilization broad spectrum in all current sterilization technologies. Ultraviolet rays cannot be directly irradiated to human skin when sterilizing with ultraviolet rays because they can penetrate cells to cause death.

Because ultraviolet ray penetrability is relatively poor, even can not see through the lower ordinary glass of transmittance, application scope receives great restriction, so in some domestic or commercial occasions that have the sheltering from, can't reach better result of use.

The ozone generator utilizes high-voltage ionization to decompose and polymerize part of oxygen in the air into ozone. Ozone destroys the structure of microbial membranes by the oxidation of oxygen atoms, and ozone can react with double bonds of bacterial cell wall lipids, penetrate into thalli, act on proteins and lipopolysaccharides, change the permeability of cells, and cause bacterial death. It also acts on nuclear substances in the cell, such as purines and pyrimidines in nucleic acids, to destroy DNA. Ozone acts on cell membrane firstly, so that the components of the membrane are damaged, metabolism is obstructed, ozone continuously permeates through the membrane, lipoprotein and lipopolysaccharide in the membrane are damaged, the permeability of the cell is changed, and apoptosis of the cell is caused in a specific closed space, so that the sterilization effect is realized. In a household or commercial scene, when the concentration of the environmental ozone reaches a specific value, all corners of the closed space can be sterilized and disinfected in all directions.

However, when the concentration of ozone in the environment is relatively high, the ozone is an environmental pollution gas, which can kill bacteria and damage human cells, and the ozone disinfection method generally requires more than 1 hour to achieve the ultraviolet UVC sterilization effect, and the sterilization efficiency is low.

The existing disinfection products either use the ultraviolet disinfection mode alone or use ozone alone to sterilize; even if the two are used in combination, when the sterilization is finished, the ozone concentration is diluted by adopting a high-temperature or natural ventilation mode, the time consumption is long, and the use of the space in the emergency situation of a user is delayed.

In view of the above problems, no effective solution has been proposed.

Disclosure of Invention

The embodiment of the invention provides a composite disinfection and purification device, which is used for realizing rapid and omnibearing sterilization and disinfection in a space and also can realize rapid decomposition of ozone in the space after disinfection.

The embodiment of the invention provides a composite disinfection and purification device, which comprises: the ultraviolet disinfection device, the ozone generation disinfection device and the data connecting line; the ultraviolet disinfection device is provided with a first control panel used for controlling the operation of the composite disinfection and purification equipment; the ozone generating and sterilizing device is provided with a second control board for controlling the operation of the composite sterilizing and purifying equipment; the data connecting line is connected with the first control board and the second control board and is used for transmitting data information and control signals which are generated by the first control board and the second control board and used for controlling the operation of the composite disinfection and purification equipment.

Furthermore, the ozone generating and disinfecting device at least comprises a second shell, an operation panel and a liquid crystal screen, wherein the operation panel and the liquid crystal screen are respectively assembled above the second shell.

Furthermore, the ultraviolet disinfection device is provided with a first wire holder, the ozone generation disinfection device is provided with a second wire holder, and two ends of the data connection line are respectively connected with the first wire holder and the second wire holder.

Further, the ultraviolet ray sterilizing apparatus includes at least: first left lid, first casing, first handle, first right lid, ultraviolet ray disinfection subassembly, microwave radar.

Furthermore, first casing upper portion is equipped with first handle, and the left side is equipped with first left lid, and the right side is equipped with first right lid, still be equipped with the microwave radar on the first casing, the microwave radar with the ultraviolet ray disinfection subassembly is connected, the assembly of ultraviolet ray disinfection subassembly is in inside the first casing, by buckle on the first handle is fixed.

Still further, the uv disinfection module comprises at least: handle, clamp plate, bracing piece, otter board, base, first two unification sockets still include mercury lamp, lamp stand fixing device first control panel, ballast.

Furthermore, the first wire holder and the first two-in-one socket are located on the outer side of the base, the first control board and the ballast are assembled on the lower portion inside the base, the lamp holder fixing device is assembled on the upper portion inside the base, the lamp holder is assembled on the upper portion of the lamp holder fixing device, the mercury lamp is assembled on the upper portion of the lamp holder, the support rod and the screen plate are assembled on the outer side of the mercury lamp, and the pressing plate and the handle are assembled on the top of the ultraviolet disinfection component.

Furthermore, the ozone generating and sterilizing device further comprises a second left cover, a second handle, a panel label, a second right cover, a second two-in-one socket, a second control board, a fan fixing device, an ozone generator and a power supply control board.

Still further, the second casing top is equipped with the second handle, the panel labeling is located one side of second handle, the second casing left side is equipped with the left lid of second, and the right side is equipped with the right lid of second, the second connection terminal is located the left lid outside of second, the second closes one and inserts the seat and is located the right lid outside of second.

Furthermore, the ozone generator and the power supply control board are assembled in the middle of the interior of the second shell, the second control board is assembled below the interior of the second shell, and the fan fixing device are assembled at one end of the interior of the second shell.

The technical scheme has the following beneficial effects:

adopt disconnect-type modular design, ultraviolet ray degassing unit and ozone generation degassing unit both can be used alone separately, do and use as whole linkage after connecting through the data link, open ultraviolet ray degassing unit earlier and carry out disinfection fast, then take place the all-round disinfection of degassing unit through ozone and disinfect, open ultraviolet ray degassing unit once more at last, mainly treat that the ozone in disinfection region carries out the rapid decomposition.

In addition, when linkage use, ultraviolet ray degassing unit and ozone take place degassing unit's data can the linkage, through operating panel and the LCD screen on the ozone takes place degassing unit casing, can operate the setting to ultraviolet ray degassing unit and ozone simultaneously to obtain operation interface through the LCD screen, convenience of customers uses.

In addition, the liquid crystal screen of the ozone generation and disinfection device can display the detected ozone concentration in the space in real time, and automatically adjust the ozone concentration through the detection result, thereby ensuring the ozone concentration and the use effect in the space.

Drawings

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 drawings without creative efforts.

FIG. 1 is a general view of a composite disinfection and purification apparatus according to an embodiment of the present invention;

FIG. 2 is a front view of an ultraviolet disinfection apparatus according to an embodiment of the present invention;

FIG. 3 is a right side view of the ultraviolet disinfection apparatus according to an embodiment of the present invention;

FIG. 4 is a bottom view of the ultraviolet disinfection apparatus in accordance with an embodiment of the present invention;

FIG. 5 is a front view of a UV sterilization assembly according to an embodiment of the present invention;

FIG. 6 is a left side view of the UV sterilization assembly according to an embodiment of the present invention;

FIG. 7 is a front view of an ozone generating and disinfecting device according to an embodiment of the present invention;

figure 8 is a left side view of the ozone generating and disinfecting device according to the embodiment of the present invention.

FIG. 9 is a right side view of the ozone generating and disinfecting device according to the embodiment of the present invention;

figure 10 is a bottom view of an ozone generating and disinfecting device according to an embodiment of the present invention.

An ultraviolet ray disinfection device 1, an ozone generation disinfection device 2, a data connecting line 3,

A first housing 11, a first left cover 12, a first handle 13, a first right cover 14, an ultraviolet disinfection component 15, a microwave radar 16, a handle 1501, a pressing plate 1502, a supporting rod 1503, a screen 1504, a base 1505, a first two-in-one socket 1506, a mercury lamp 1507, a lamp holder 1508, a lamp holder fixing device 1509, a first control board 1510, a ballast 1511, a first wiring holder 17, a second wiring holder 17, a third wiring holder, a fourth wiring holder, a fifth wiring holder, a sixth wiring holder, a fourth wiring holder, a fifth wiring holder, a sixth wiring holder, a fourth wiring holder, a fifth wiring holder, a sixth wiring holder, a fourth wiring holder, a sixth wiring holder, a fifth wiring holder, a sixth wiring holder, a fifth wiring holder, a sixth wiring holder, a fifth wiring holder, a sixth wiring holder, a fifth wiring holder, a sixth wiring holder, a fifth wiring holder, a sixth wiring holder, a fifth wiring holder, a sixth wiring holder, a fifth wiring holder, a sixth wiring holder, a fifth wiring holder, a sixth wiring holder, a fifth,

The second casing 21, the operation panel 211, the liquid crystal screen 212, the second left cover 22, the second handle 23, the second right cover 24, the panel label 25, the second two-in-one socket 26, the second wire holder 27, the second control panel 28, the fan 29, the fan fixing device 30, the ozone generator 31 and the power control panel 32.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

as shown in fig. 1 to 10, an embodiment of the present invention provides a composite disinfection and purification apparatus, including: the device comprises an ultraviolet disinfection device 1, an ozone generation disinfection device 2 and a data connection line 3; the ultraviolet disinfection device 1 is provided with a first control board 1510 used for controlling the operation of the composite disinfection and purification equipment; the ozone generating and sterilizing device 2 is provided with a second control board 28 for controlling the operation of the composite sterilizing and purifying equipment; the data connection line 3 is connected to the first control board 1510 and the second control board 28, and is used for transmitting data information and control signals generated by the first control board 1510 and the second control board 28 and used for controlling the operation of the composite disinfection and purification equipment.

The ultraviolet ray sterilizing apparatus 1 and the ozone generating sterilizing apparatus 2 can be used independently when they are not connected by the data connecting line 3.

The ozone generating and disinfecting device 2 at least comprises a second shell 21, an operation panel 211 and a liquid crystal screen 212, wherein the operation panel 211 and the liquid crystal screen 212 are respectively assembled above the second shell 21.

When the ultraviolet ray sterilizing apparatus 1 and the ozone generating sterilizing apparatus 2 are connected by the data connecting line 3, the ultraviolet ray sterilizing apparatus 1 and the ozone generating sterilizing apparatus 2 are used in linkage as a whole.

As shown in fig. 1 and 5, the ultraviolet disinfection apparatus is provided with a first wire holder 17, the ozone generation disinfection apparatus is provided with a second wire holder 27, and both ends of the data connection line 3 are respectively connected with the first wire holder 17 and the second wire holder 27.

The first wire holder 17 and the second wire holder 27 may be any port having a data transmission function, and may be various types of USB ports, various types of serial ports, a network port including but not limited to RJ-45 interface, etc., and the ports of the first wire holder 17 and the second wire holder 27 may be different ports, and the data connection line 3 may be a data line having a port that can be connected to the ports of the first wire holder 17 and the second wire holder 27, and the data connection line may be a connection line with an IC chip or a connection line without an IC chip, and when the ports of the first wire holder 17 and the second wire holder 27 are different types of ports, the data connection line may include a chip for converting data of two ports to enable mutual communication, and a corresponding circuit device, etc. The invention is not limited to the port form of the first wire holder 17 and the second wire holder 27, and the type of the data connection wire 3.

As shown in fig. 1 to 5, the ultraviolet disinfection apparatus 1 at least includes: first casing 11, first left lid 12, first handle 13, first right lid 14, ultraviolet ray disinfection subassembly 15, microwave radar 16.

The first handle 13 is assembled on the upper portion of the first casing 11, the first left cover 12 is assembled on the left side, the first right cover 14 is assembled on the right side, the microwave radar 16 is further assembled on the first casing 11, the microwave radar 16 is connected with the ultraviolet disinfection component 15, and the ultraviolet disinfection component 15 is assembled inside the first casing 11 and fixed by a buckle on the first handle 13.

First casing 11 upper portion is equipped with first handle 13, can supply user convenient and fast's removal ultraviolet ray disinfection device 1, first left side lid 12 and first right side lid 14 all can be opened, and inside ultraviolet ray disinfection subassembly 15 assembled first casing 11 through the right side lid of opening, ultraviolet ray disinfection subassembly 15 upper portion can be provided with the buckle, this buckle can with first handle 13 below, the inside buckle of first casing 11 each other the card with, make ultraviolet ray disinfection subassembly 15 be fixed in inside first casing 11. The first casing 11 is a hollow structure, and after the ultraviolet disinfection component 15 is assembled inside the first casing 11, the generated ultraviolet rays can be emitted into the area to be disinfected through the hollow structure of the first casing 11.

As shown in fig. 5 to 6, the uv sterilizing assembly 15 at least includes: the lamp holder comprises a handle 1501, a pressing plate 1502, a supporting rod 1503, a net plate 1504, a base 1505, a first two-in-one socket 1506, a mercury lamp 1507, a lamp holder 1508, a lamp holder fixing device 1509, a first control board 1510, a ballast 1511 and a first wire holder 17.

Wherein, the first wire holder 17 and the first two-in-one socket 1506 are located outside the base 1505, the first control board 1510 and the ballast 1511 are assembled under the inside of the base 1505, the first wire holder 17, the first two-in-one socket 1506 and the ballast 1511 are respectively connected with the first control board 1510, and the first wire holder 17 is used for obtaining setting data and transmitting configuration data of the ultraviolet disinfection apparatus 1 when the ultraviolet disinfection apparatus 1 and the ozone generating and disinfecting apparatus 2 are used in linkage as a whole. The first two-in-one socket 1506 is used for connecting a power supply to provide current and voltage for the ultraviolet disinfection device 1, the first two-in-one socket 1506 can be directly connected with the mains supply, and a power supply with different current and voltage from the mains supply can be obtained through a voltage transformation device. The first control board 1510 is used to control the operation state of the ultraviolet sterilizer 1, and may also be used to acquire and process data detected by the microwave radar 16, and may also be used to acquire and process data or control commands obtained through the first wire holder 17.

The lamp holder fixing device 1509 is installed above the inside of the base 1505, the lamp holder 1508 is installed above the lamp holder fixing device 1509, the mercury lamp 1507 is installed on the upper portion of the lamp holder 1508, and the mercury lamp 1507 can radiate ultraviolet rays at 360 degrees to sterilize the region to be sterilized in all directions.

The mercury lamp 1507 is externally provided with the support rod 1503 and the net plate 1504, and the ultraviolet disinfection module 15 is provided with the pressing plate 1502 and the pull handle 1501 at the top. When it is desired to withdraw the uv sterilizing module 15 from the inside of the first housing 11, the pull handle 1501 may be pulled to withdraw the uv sterilizing module 15 from the inside of the first housing 11.

When the ultraviolet disinfection apparatus 1 is used alone, the commercial power can be directly connected to the first two-in-one socket 1506 to supply power to the ultraviolet disinfection apparatus 1, so that the ultraviolet disinfection apparatus 1 starts to work. After the switch of the ultraviolet disinfection device 1 is turned on, the microwave radar 16 is first started, and detects a human body within an effective range, wherein the effective range may be a fixed parameter of the ultraviolet disinfection device 1, and is set before leaving a factory, or may be a dynamic parameter, and is set by a user according to actual needs, and the effective range is an area contained in a circle with the ultraviolet disinfection device 1 as a center and a diameter of 5 meters. The microwave radar 16 feeds back the detection result to the first control board 1510, if the microwave radar 16 does not detect a human body within the effective range, the first control board 1510 sends a working instruction to the mercury lamp 1507 after a certain time, so that the mercury lamp 1507 starts to work, wherein the certain time can be a fixed parameter of the ultraviolet disinfection device 1, the setting is performed before leaving the factory, or can be a dynamic parameter, the user autonomously sets the parameter according to the actual need, in this embodiment, the certain time is 30 seconds, when the microwave radar 16 detects a human body within the effective range, the first control board 1510 immediately sends a working stopping instruction, the mercury lamp 1507 stops working, and the use safety of the user is ensured.

As shown in fig. 7 to 10, the ozone generating and disinfecting device 2 further comprises a second left cover 22, a second handle 23, a second right cover 24, a panel label 25, a second two-in-one socket 26, a second wire holder 27, the second control board 28, a fan 29, a fan fixing device 30, an ozone generator 31, and a power control board 32.

Wherein, the second handle 23 is assembled above the second casing 21, so that the ozone generating and sterilizing device 2 can be conveniently and rapidly moved by a user.

The panel label 25 is located on one side of the second handle 23, and can be used for prompting the user about the caution when in use, explaining how to use the composite disinfection and purification device or the ozone generation and disinfection device 2, and also can be used for displaying logo of a manufacturer, the function of the panel label 25 includes but is not limited to any one or combination of more than one of the above, and the invention does not limit the function of the panel label 25.

Among other things, the ozone generator 31 is used to supply ozone required for sterilization and also to detect the concentration of ozone in the area to be sterilized.

The second left cover 22 is assembled on the left side of the second housing 21, the second right cover 24 is assembled on the right side of the second housing 21, and both the second left cover 22 and the second right cover 24 can be opened and also can be fixed on the second housing 21, so that the second housing is prevented from being opened or detached by a user at will. The second wire holder 27 is located outside the second left cover 22, and the second joint socket 26 is located outside the second right cover 24. The second wire holder 27 is used for acquiring setting data and transmitting configuration data of the ozone generating and disinfecting device 2 when the ultraviolet disinfecting device 1 and the ozone generating and disinfecting device 2 are used in a linkage mode as a whole, the second two-in-one socket 26 is used for being connected with a power supply to provide current and voltage for the ozone generating and disinfecting device 2, the second two-in-one socket 26 can be directly connected with a mains supply, and a power supply with different current and voltage from the mains supply can be acquired through a voltage transformation device.

The ozone generator 31 and the power supply control plate 32 are also assembled in the middle inside the second casing 21, the second control plate 28 is assembled below the inside, and the fan 29 and the fan fixing device 30 are assembled at one end inside the second casing 21.

The power supply control board 32 is connected to the second unified socket 26, the second control board 28, the fan 29, the ozone generator 31, and the like, respectively, and distributes power supplied from the second unified socket 26 to the ozone generator 31, the second control board 28, the fan 29, and the like. The second control board 28 is respectively connected to the second wire holder 27, the fan 29, the ozone generator 31, etc., and is used for controlling the operation state of the ozone generating and sterilizing device 2, acquiring and processing data of the ozone concentration in the region to be sterilized detected by the ozone generator 31, controlling the on or off of the fan 29, or adjusting the rotation speed of the fan 29, acquiring and processing data obtained through the second wire holder 27, or sending processed command information or data information through the second wire holder 27.

When the ozone generating and sterilizing device 2 is used alone, the commercial power can be directly connected to the second combined socket 26 to supply power to the ozone generating and sterilizing device 2, so that the ozone generating and sterilizing device can start to work. After the switch of the ozone generating and sterilizing device 2 is turned on, the ozone generator 31 detects the ozone concentration in the area to be sterilized and provides the detected data to the second control board 28, the second control board 28 controls the fan 29 to rotate according to the obtained detected data, the ozone generator 31 generates ozone, and the second control board 28 can also send the detected data to the liquid crystal screen 212 for displaying. When the ozone concentration of the area to be sterilized reaches or falls below a preset value, the ozone generator 31 starts generating ozone, and the generated ozone is diffused to the area to be sterilized by the fan 29. When the ozone concentration in the area to be disinfected reaches or is higher than a preset value, the ozone generator 31 stops generating ozone. The preset value may be a fixed parameter, set before leaving the factory, or a dynamic parameter, and is set by the user according to actual needs, and when the user sets the preset value by himself, the operation may be performed through the operation panel 211.

When disinfection device 2 uses as whole linkage when ultraviolet ray degassing unit 1 and ozone generation degassing unit, earlier ultraviolet ray degassing unit 1 and ozone generation degassing unit 2 pass through data connection line 3 and connect, then with commercial power lug connection on first two-in-one socket 1506 and the second two-in-one socket 26, wherein when data connection line 3 is for the connecting wire that has the power transmission function, the commercial power can only be connected on one of them of first two-in-one socket 1506 or second two-in-one socket 26, ultraviolet ray degassing unit 1 or ozone generation degassing unit 2 can obtain working power supply through data connection line 3.

When the ultraviolet disinfection apparatus 1 and the ozone generating and disinfecting apparatus 2 are used in a linked manner as a whole, the microwave radar 16 is first started and detects a human body within an effective range, wherein the effective range can be a fixed parameter of the ultraviolet disinfection apparatus 1 and set before leaving a factory or a dynamic parameter, and a user can autonomously set within a range in which the microwave radar 16 can work according to actual needs, and in the embodiment, the effective range refers to an area contained in a circle with the ultraviolet disinfection apparatus 1 as a center and a diameter of 5 meters. The microwave radar 16 feeds back the detection result to the first control board 1510, if the microwave radar does not detect a human body within the effective range, the first control board 1510 sends a working instruction to the mercury lamp 1507 after a certain time, so that the mercury lamp 1507 starts to work, wherein the certain time can be a fixed parameter of the ultraviolet disinfection device 1, the setting is performed before leaving the factory, or a dynamic parameter, the user autonomously sets the working instruction according to actual needs, in this embodiment, the certain time is 30 seconds, when the microwave radar 16 detects a human body within the effective range, the first control board 1510 immediately sends a working stopping instruction, the mercury lamp 1507 stops working, and the use safety of the user is ensured.

When the ultraviolet disinfection device 1 is disinfected and turned off, but the microwave radar 1507 does not detect a human body, the ozone generating and disinfecting device 2 is started, the ozone generator 31 detects the ozone concentration in the area to be disinfected and provides the detection data to the second control board 28, the second control board 28 controls the fan 29 to rotate according to the obtained detection data, the ozone generator 31 generates ozone, and the second control board 28 can also send the detection data to the liquid crystal screen 212 for displaying. When the ozone concentration of the area to be sterilized reaches or falls below a preset value, the ozone generator 31 starts generating ozone, and the generated ozone is diffused to the area to be sterilized by the fan 29. When the ozone concentration in the area to be disinfected reaches or is higher than a preset value, the ozone generator 31 stops generating ozone. The preset value may be a fixed parameter, set before leaving the factory, or a dynamic parameter, and is set by the user according to actual needs, and when the user sets the preset value by himself, the operation may be performed through the operation panel 211.

When the ozone generating and sterilizing device 2 is sterilized and is closed and the microwave radar 16 does not detect a human body, the ultraviolet sterilizing device 1 is opened again, and the main purpose is to rapidly decompose the ozone in the area to be sterilized.

The invention discloses a sterilizing and purifying device, which adopts a separated modular design, wherein a purple needle line sterilizing device and an ozone generating and sterilizing device can be independently used, and can also be used as a whole in a linkage mode after being connected through a data connecting line, an ultraviolet sterilizing device is started to perform rapid sterilization, then the ozone generating and sterilizing device performs omnibearing sterilization, and finally the ultraviolet sterilizing device is started again to perform rapid decomposition on ozone in a region to be sterilized.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only illustrative of the present invention and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A composite disinfection and purification device, comprising: the short wave ultraviolet disinfection device, the ozone generation disinfection device and the data connecting line; the short wave ultraviolet disinfection device is provided with a first control board for controlling the composite disinfection and purification equipment to operate; the ozone generating and sterilizing device is provided with a second control board for controlling the operation of the composite sterilizing and purifying equipment; the data connecting line is connected with the first control board and the second control board and is used for transmitting data information and control signals which are generated by the first control board and the second control board and used for controlling the operation of the composite disinfection and purification equipment; wherein, shortwave ultraviolet ray degassing unit includes: short wave ultraviolet disinfection component and microwave radar; the microwave radar is connected with the short-wave ultraviolet disinfection component.

2. The composite sterilizing and purifying apparatus as claimed in claim 1, wherein said ozone generating and sterilizing device comprises at least a second housing, an operation panel and a liquid crystal panel, said operation panel and said liquid crystal panel being respectively mounted above said second housing.

3. The composite sterilizing and purifying apparatus as claimed in claim 2, wherein said short wave ultraviolet ray sterilizing device is provided with a first wire holder, said ozone generating and sterilizing device is provided with a second wire holder, said first wire holder is connected with said first control board, said second wire holder is connected with said second control board, and both ends of said data connecting wire are connected with said first wire holder and said second wire holder, respectively.

4. A combined disinfection and purification apparatus as claimed in claim 3, wherein said short wave uv disinfection means comprises at least: first left lid, first casing, first handle, first right lid.

5. The combined disinfection and purification device of claim 4, wherein said first handle is assembled on the upper portion of said first housing, said first left cover is assembled on the left side, said first right cover is assembled on the right side, said microwave radar is further assembled on said first housing, said shortwave ultraviolet disinfection component is assembled inside said first housing and fixed by a buckle on said first handle.

6. The composite disinfection and purification apparatus of claim 4, wherein said short wave UV disinfection module comprises at least: handle, clamp plate, bracing piece, otter board, base, first two unification sockets still include mercury lamp, lamp stand fixing device first control panel, ballast.

7. The combined disinfection and purification apparatus of claim 6, wherein the first wire holder and the first two-in-one socket are located outside the base, the first control board and the ballast are assembled below the inside of the base, the lamp holder fixing device is assembled above the inside of the base, the lamp holder is assembled above the lamp holder fixing device, the mercury lamp is assembled on the upper part of the lamp holder, the support rod and the screen plate are assembled outside the mercury lamp, and the pressing plate and the handle are assembled on the top of the short wave ultraviolet disinfection component.

8. The composite disinfecting and purifying apparatus of claim 3, wherein the ozone generating and disinfecting means further comprises a second left cover, a second handle, a panel label, a second right cover, a second two-in-one socket, the second control board, a fan fixing means, an ozone generator, and a power control board.

9. The composite disinfecting and purifying apparatus as described in claim 8, wherein said second housing has said second handle mounted thereon, said panel label is located on one side of said second handle, said second housing has said second left cover mounted on the left side thereof, and has said second right cover mounted on the right side thereof, said second wire holder is located on the outside of said second left cover, and said second two-in-one socket is located on the outside of said second right cover.

10. The combined disinfection and purification apparatus of claim 8, wherein said ozone generator and said power supply control board are mounted in the middle of the interior of said second housing, said second control board is mounted under the interior, and said fan fixing means are mounted at one end of the interior of said second housing.