WO2023202004A1 - Full-effect air purification device capable of quickly killing germs and removing peculiar smell - Google Patents

Abstract

Disclosed in the present invention is a full-effect air purification device for quickly killing germs and removing a peculiar smell, which is an air humidification, purification and disinfection apparatus. The full-effect air purification device comprises an outer housing, wherein an air inlet and an air outlet are formed in the outer housing, and a horizontal gas-liquid cyclone tower is mounted in the outer housing; a fan is mounted on a lower portion of the horizontal gas-liquid cyclone tower, the fan is arranged on an air duct between the air inlet and the air outlet, and the horizontal gas-liquid cyclone tower is arranged on an air duct between an air output end of the fan and the air outlet; a composite filter element is further mounted on the air duct between the air inlet and the air outlet, and the composite filter element is arranged below the fan; a water storage tank is provided at a lower portion of the outer housing; and a compartment is provided inside the composite filter element, a discharge port is formed in a lower portion of the compartment, and the discharge port is in communication with the water storage tank by means of a discharge channel. A high-efficiency particulate air filter (HEPA) is used for filtering and purifying air to remove physical contaminants, and activated sea salt in the composite filter element is activated by water to generate a large amount of ultra-highly active free radical clusters to instantly remove chemical and biological contaminants in the air. The full-effect air purification device can achieve full-effect air purification treatment which is safe, efficient, causes no secondary contamination, and can be used when there are people.

Description

Fully effective air purification device that quickly sterilizes and removes odors Technical field

The present invention relates to an air purification equipment. More specifically, the present invention mainly relates to a full-effect air purification device that can quickly sterilize and eliminate odors.

Background technique

Air purifiers on the market basically use solid filters to filter out dust and particles in the air. They are limited to indoor air purification and have little purification effect on chemical pollutants such as TVOC. Therefore, the degree of purification is limited and is not good for indoor air. Overall improvement in quality. The air purification products currently on the market can be roughly divided into humidifiers and dry filter air purifiers. The principles of the two are different. Humidifiers have gradually become popular in recent years due to their advantages such as large humidification capacity, fog-free humidification, and silent operation. For example, the applicant previously applied for a Chinese invention patent with the publication number CN111912069A, which uses a variable-diameter filter element and a double water tank structure. Designed to ensure large humidification capacity while achieving silent operation. Although this type of humidifier has many advantages, there are also common shortcomings in the use of humidifier products, that is, sediments and even mildew are likely to occur in the storage tank, and the water tank needs to be cleaned regularly, and the amount of humidification cannot be accurately controlled. It cannot fundamentally improve the indoor air, and because the water tank in the aforementioned patented technical solution is designed at the top, water leakage may occur during use, affecting the user experience.

Most air purifiers do not completely purify the air and cannot eliminate chemical and biological pollutants in the air. Accordingly, air purification equipment using activated carbon, photocatalysts, and plasma for purification have appeared on the market. However, activated carbon only It can absorb 1/2000th of its own volume of formaldehyde and is prone to saturation and failure. Photocatalyst uses ultraviolet light to irradiate inert metal materials to stimulate active ions for sterilization and odor removal. It is susceptible to technical limitations and has little effect. Plasma is disinfected and sterilized by forming OH radical ions through high-voltage electrolysis and ionization. Since the ozone concentration easily exceeds the standard, the effect is very weak after reducing the power. In addition, traditional air disinfection machines mostly use hypochlorous acid, ozone disinfection and plasma disinfection. The above three types of substances will produce secondary pollution to varying degrees when used, affecting human health, and humans and machines cannot coexist when used. Therefore, it is necessary to study and improve the structure of the aforementioned air purifier.

Contents of the invention

One of the purposes of the present invention is to provide a fully effective air purification device that can quickly sterilize and eliminate odors in order to solve the problem that a single purification method of air purifiers in the prior art cannot improve indoor air quality as a whole, as well as humidifiers. It is easy to breed mold and odor, and the air disinfection machine is easy to produce secondary pollution and cannot coexist with humans and machines, etc. Technical problems.

In order to solve the above technical problems, the present invention adopts the following technical solutions:

The invention provides a full-effect air purification device for rapid sterilization and odor removal, which includes an outer casing. The outer casing is provided with an air inlet and an air outlet. A horizontal gas-liquid cyclone tower or gas-liquid cyclone tower is installed in the outer casing. Liquid contact module; a fan is installed at the lower part of the horizontal gas-liquid cyclone tower. The fan is placed on the air duct between the air inlet and the air outlet. The horizontal gas-liquid cyclone tower is placed at the air outlet of the fan. On the air duct between the end and the air outlet; the horizontal gas-liquid cyclone tower is also connected to the upper water pipe, and the upper water pipe is connected to the water pump module connected to the water storage tank. The air between the air inlet and the air outlet A composite filter element is also installed on the road, and the composite filter element is placed below the fan; the water storage tank is placed at the lower part of the outer casing; a silo is provided inside the composite filter element, and a discharging chamber is provided at the lower part of the silo. The outlet is connected to the water storage tank through the outlet channel. A disturbance sorting mechanism is installed on the outlet. The disturbance sorting mechanism is used to sort the particles in the silo and then add them as needed. inside the water storage tank. In the present invention, the aforementioned particulate matter generally refers to granular disinfectant drugs.

As a preference, a further technical solution is: the disturbance sorting mechanism includes a material distribution mechanism, the material distribution mechanism is provided with a material distribution trough that matches the particulate matter, the material distribution mechanism is also dynamically connected to the drive motor, and the The lower part of the distributing mechanism is provided with a sealing block. The sealing block is placed in the discharging channel. A driving plate is also provided on one side of the discharging channel. One end of the driving plate conflicts with one end of the sealing block. , the other end of the driving plate is dynamically connected to the driving motor through a transmission device.

From the above, it can be seen that the disturbance sorting mechanism and the blanking drive motor are connected in an "unlockable" manner. Moreover, the composite filter element containing the disturbance sorting mechanism has a reliable design that is moisture-proof and waterproof. It has a simple structure, is easy to manufacture, and is easy to install, replace and recycle.

A further technical solution is: a light sensor is installed in the outer shell at the corresponding position of the composite filter element, the collection end of the light sensor is placed inside the discharge channel, and the other end of the sealing block is also in contact with the return spring. Conflict, the bottom of the silo has an inclined surface, and the inclined surface is inclined toward the position of the discharge port; the discharge port of the composite filter element is provided with a sealing structure.

A further technical solution is: the disturbance sorting mechanism includes a cutting tooth plate, a lever is coaxially installed on the upper part of the cutting tooth plate, a material distribution hole is provided on the cutting tooth plate, and the cutting tooth plate It is also meshed with the first rack, the first rack is dynamically connected with the second rack, the second rack is meshed with the power gear; the first rack and the second rack are attracted by magnets Connection; the other end of the first rack conflicts with the return spring.

A further technical solution is: the horizontal gas-liquid cyclone tower is also connected to the downwater pipe, and the downwater pipe is connected to the water storage tank; the water pump module pumps the liquid into the liquid storage tank through the upper water pipe in a unit time The amount of water is greater than or equal to the amount of water discharged from the horizontal gas-liquid cyclone tower into the water storage tank through the sewer pipe.

A further technical solution is: the lower part of the water storage tank is provided with a tray, the lower part of the tray is provided with a transmission rack, the transmission rack meshes with the transmission gear, and the transmission gear is dynamically connected with the first reduction motor; The tray is provided with a positioning groove structure that matches the lower part of the water storage tank.

A further technical solution is: a heating pipe and a UV-C sterilization pipe are also installed in the middle section of the upper water pipe; a filter is provided between the lower water pipe and the water storage tank.

A further technical solution is that the water storage tank includes a box body, an upper cover and a face cover are respectively installed on the upper part and the front side of the box body, the upper cover is installed on the box body through edge buckles, and the The upper cover is provided with a support beam in the middle, and a plurality of grid holes are provided on both sides of the support beam. The lower part of the upper cover is also provided with a plurality of anti-surge plates extending toward the bottom of the water tank; the water pump module There is a faucet assembly on the water spout assembly, and after the water storage tank is in place, the faucet assembly is sealingly connected to the connector assembly fixedly installed in the outer shell, and the connector assembly is sealingly connected to the water supply pipe.

A further technical solution is: the surface cover of the water storage tank is provided with a first magnet group and a second magnet group, the first magnet group is used for adsorption on the front side of the box, and the second magnet group is used for adsorbing on the front side of the box. In order to be adsorbed on the outer shell, a step is provided at a position corresponding to the outer shell and the water storage tank, and a magnet corresponding to the phase position and magnetic pole of the second magnet group is installed on the step; the surface cover passes through the third After the two magnet groups are adsorbed on the outer shell, they are flush with the side of the outer shell, and at this time, there is a gap between the cover and the front side of the box.

A further technical solution is: the horizontal gas-liquid cyclone tower includes a liquid storage tank and a plurality of liquid distribution trays, and the liquid distribution trays are all installed on the rotating shaft, and between two adjacent liquid distribution trays To maintain the gap, the rotating shaft is installed on the support in the liquid storage tank, and one end of the rotating shaft is dynamically connected to the reduction motor. The lower part of the liquid distribution plate is used to submerge the liquid level of the liquid storage tank during use. the following. You can also infiltrate the aforementioned liquid distribution pan through upper spraying during use.

A further technical solution is: the air inlet is placed on the side or/and bottom surface of the outer casing, the air outlet is placed on the top of the outer casing, a swing leaf assembly is installed on the air outlet, and the swing leaf assembly is integrally It is inclined toward the lower part of the front side of the outer shell; a universal wheel is also installed on the bottom of the outer shell.

A further technical solution is: a filter element compartment door is also provided on the side of the outer shell. The filter element compartment door is installed on the outer shell through magnetic suction. A Hall switch is also installed between the filter element compartment door and the outer shell. , the Hall switch is connected to the central processor; an RFID tag is installed at any position of the composite filter element.

A further technical solution is: a sensor module is also provided inside the outer casing. The sensor module, the fan, the first reduction motor and the second reduction motor are respectively connected to the central processing unit. The central processing unit is also connected to the central processing unit. Power module; the central processing unit at least includes a temperature and humidity sensor and a particle sensor.

A further technical solution is: the upper water pipe is connected to the horizontal gas-liquid cyclone tower through a reversing valve, the reversing valve is also connected to the water outlet pipe, and the water storage tank is also connected to the water inlet pipe, so A solenoid valve is also installed on the water inlet pipe.

A further technical solution is: the water inlet pipe and the water outlet pipe are connected to the water inlet joint and the water outlet joint respectively, and the water inlet joint and the water outlet joint are located on the outer shell; there are two solenoid valves; and the solenoid valve The valves and reversing valves are all connected to the central processor.

A further technical solution is that the gas-liquid contact module is made of fiber material, and the lower part is immersed in the liquid storage tank, and is used to adsorb the liquid in the liquid storage tank above the liquid level.

Compared with the prior art, the beneficial effects of the present invention include but are not limited to the following:

By designing a composite filter element and a horizontal gas-liquid cyclone tower at the same time in the air purifier, physical pollutants in the air are removed through solid-state filtration, and chemical pollutants and biological pollutants are instantly "inside the machine" through the disinfectant. "Mineralization decomposes and effectively improves indoor air quality. At the same time, by adding a silo to the composite filter element and cooperating with the disturbance sorting mechanism to control the addition of granular disinfectant drugs into the water storage tank as needed, the automatic preparation of the disinfectant solution can be completed. This makes the present invention a three-in-one full-effect air purifier that has the functions of an evaporative humidifier, an air purifier, and an air sterilizer.

By designing the water storage tank at the lower part of the horizontal gas-liquid cyclone tower with a liquid storage tank, and using the upper and lower water pipes to circulate water between the water storage tank and the liquid storage tank, not only the liquid level in the liquid storage tank is maintained Constant, it also uses running water to reduce sediments in the liquid storage tank and water storage tank to avoid mildew and affect the air purification effect. The lower water storage tank can also avoid water leakage caused by failure of the water flow channel seal.

Description of the drawings

Figure 1 is a schematic structural diagram for explaining an embodiment of the present invention.

Figure 2 is a schematic diagram of the structure in Figure 1.

Fig. 3 is a longitudinal sectional view in the first direction of Fig. 1;

Figure 4 is a schematic structural diagram of a liquid dispensing device used to illustrate an embodiment of the present invention.

Figure 5 is a schematic diagram of the internal structure of Figure 1.

FIG. 6 is a longitudinal cross-sectional view in the second direction of FIG. 1 .

Figure 7 is an enlarged view of point A in Figure 6.

Figure 8 is a schematic structural diagram illustrating a water storage tank in one embodiment of the present invention.

Figure 9 is a longitudinal sectional view of Figure 8.

Figure 10 is a schematic structural diagram for explaining a horizontal gas-liquid cyclone tower in one embodiment of the present invention.

Figure 11 is a circuit module diagram for illustrating an embodiment of the present invention.

Figure 12 is a schematic diagram illustrating the structure of the water inlet and outlet pipes in one embodiment of the present invention.

FIG. 13 is a schematic structural diagram of another liquid dispensing device used to illustrate another structure of the present invention that has a similar function to the liquid dispensing device shown in FIG. 4 .

In the figure, 1 is the outer shell, 101 is the air inlet, 102 is the air outlet, 2 is the universal wheel, 3 is the liquid storage tank, 4 is the horizontal gas-liquid cyclone tower, 41 is the liquid distribution plate, and 42 is the rotating shaft. , 5 is the upper water pipe, 6 is the lower water pipe, 7 is the water storage tank, 71 is the box body, 72 is the upper cover, 73 is the surface cover, 74 is the support beam, 75 is the grid hole, 76 is the anti-surge board, 77 It is the first magnet group, 78 is the second magnet group, 8 is the fan, 9 is the composite filter element, 10 is the water pump module, 11 is the transmission rack, 12 is the transmission gear, 13 is the heating pipe, and 14 is the UV-C sterilization pipe. , 15 is the swing leaf assembly, 16 is the tray, 17 is the operation panel, 18 is the reversing valve, 19 is the water outlet pipe, 20 is the water inlet pipe, 21 is the water inlet joint, 22 is the water outlet joint, 23 is the solenoid valve, 24 is Support, 51 is the silo, 52 is the discharge port, 53 is the discharge channel, 54 is the material distribution mechanism, 55 is the sealing block, 56 is the drive plate, 57 is the return spring, 58 is the particle disinfection drug, 61 is The blanking gear plate, 62 is a lever, 63 is a material distribution hole, 64 is a first rack, 65 is a second rack, 66 is a power gear, and 67 is a magnet.

Detailed ways

The main purpose of the present invention is to improve indoor air quality, and the quality of indoor air will directly affect people's health and quality of life. Therefore, the inventor has been looking for a method to allow people to breathe until the sky is clear after rain. The same fresh air. After research, the inventor found that under bright light, you can see a lot of dust, hair, fibers and dander floating in the air. Microorganisms such as bacteria and viruses, because they cannot survive alone, will attach to these air pollutants, and then Spread by airflow.

Based on the above-mentioned practical technical problems, the inventor of the present invention innovatively proposes the purification theory of solid-state filtration and mineralization reaction sterilization, allowing people to breathe fresh air like a clear sky after rain. And after long-term research, the inventor found that there are thousands of pollutants in the air. HEPA filtration can filter out more than 99.95% of solid pollutants in the air, thereby purifying physical pollutants in the air.

This is because in addition to the above-mentioned physical pollutants, there are also chemical and biological pollutants in the air, especially with the raging respiratory infectious diseases in recent years. According to incomplete statistics, indoor air pollution is often more serious than outdoor air pollution2 ~3 times, and in some cases of serious pollution, it can even reach more than 100 times, while chemical and biological pollutants cannot be removed through filtration. Therefore, the inventor has newly designed the function and structure of the air purifier to better deal with the complete purification of chemical pollutants and biological pollutants present in the indoor air.

The above-mentioned chemical pollutants mainly include benzene, toluene, formaldehyde, ammonia, carbon monoxide, hydride, sulfide, nicotine, pet odor, etc. Physical pollutants mainly include dust, pollen, dander, hair, fibers, etc. Inhalable dust below PM10 has a particularly great impact on human health. Biological pollutants mainly include bacteria, viruses, molds, fungi, etc., such as: Staphylococcus aureus, Escherichia coli, H1N1, Mycobacterium histogenum, Trichophyton mentagrophyton, dust mites, etc.

The full-effect air purification device for rapid sterilization and odor removal provided by the invention uses a HEPA high-efficiency air filter to filter out dust, fibers, hair, dander, etc. floating in the air, as well as viruses and bacteria attached to them. , and then let the air flow pass through the horizontal gas-liquid cyclone tower and make gas-liquid contact with the disinfectant liquid, so that chemical pollutants and biological pollutants can be instantly mineralized and inactivated "in-machine" through the disinfectant liquid.

The invention innovatively adds a structure to the air purification device that can automatically prepare air disinfection liquid through dissolution and activation of solid disinfection drugs, and cooperates with the gas-liquid contact of circulating water flow and HEPA filtration to achieve full-efficiency air purification.

By using preactivated SRR free radical particles as a disinfectant, the preactivated SRR (potassium hydrogen persulfate complex salt) free radical particles are activated and dissolved when exposed to water, producing a large amount of inorganic free radicals such as sulfate, carbonate, and chloride ions, and Maintain chemical balance in water (can last 3 to 5 days). Formaldehyde, toluene, sulfide, TVOC and other chemical pollutants in the air interact with the free radical clusters in the water film in the horizontal gas-liquid cyclone tower 4 in an instant (10 to the negative 5th power to the negative 8th power seconds ) undergoes a mineralization reaction to form carbon dioxide, water and inorganic substances through mineralization. Carbon dioxide, as a raw material, continues to react with free radical clusters to form a chain cycle reaction, achieving natural, clean, environmentally friendly and safe air purification of carbon sequestration and carbon utilization, and forming a chemical balance. The aforementioned free radical cluster ions have an electric valence of E0=2.51-3.0V and are extremely active. It can instantly destroy the cell membranes of bacteria, viruses, molds, and fungi, inhibit cell decomposition, achieve instant inactivation, and achieve full-effect control of biological pollutants in the air.

Since the reaction time of the free radical clusters is extremely short (10 seconds to the negative 5th power to the negative 8th power), the reaction is completed in the horizontal gas-liquid cyclone tower 4 inside the machine and is generally not released outside the machine. It will not bring other secondary pollution, and fully realize the natural, clean, environmentally friendly and safe air purification where man and machine coexist.

The structure of the present invention will be further described below in conjunction with the accompanying drawings.

Referring to Figure 1, one embodiment of the present invention is a fully effective air purification device for rapid sterilization and odor removal, which includes an outer shell 1. The outer shell 1 is provided with an air inlet 101 and an air outlet 102. More importantly, as shown in Figure 3, the above-mentioned horizontal gas-liquid cyclone tower 4 is installed on the inner upper part of the outer shell 1. The function of the horizontal gas-liquid cyclone tower 4 is to remove water or eliminate water. The killing liquid is brought out and evenly distributed on top to form a liquid film, which contacts the flowing air entering the air duct to achieve instant air disinfection. Here, it should be further explained that the aforementioned disinfectant solution is made by adding water to activate SRR radical clusters. As mentioned above, the main chemical components of SRR radical clusters include potassium sulfate, sodium sulfate, and sodium chloride. . It can quickly mineralize with chemical pollutants in the air and kill biological pollutants through oxidation reactions, thereby eliminating or reducing harm to human health.

Based on the above purpose, a fan 8 needs to be installed at the lower part of the horizontal gas-liquid cyclone tower 4. The fan 8 is placed on the air duct between the air inlet 101 and the air outlet 102, and the aforementioned horizontal gas-liquid cyclone tower 4 also needs to be placed on the air duct between the air outlet end of the fan 8 and the air outlet 102, so that the fan 8 generates negative pressure and causes the air to enter the air duct from the air inlet 101; the aforementioned gas-liquid cyclone tower 4 is also connected to the water supply pipe 5 is connected, and the water supply pipe 5 is connected to the water pump module 10 connected with the water storage tank 7 .

At the same time, a composite filter element 9 needs to be installed on the air duct between the air inlet 101 and the air outlet 102. A HEPA filter can be used outside the composite filter element, and the composite filter element 9 is installed below the fan 8. In this way, when the fan 8 rotates to generate negative pressure, the airflow enters the air duct from the air inlet 101, and passes through the composite filter element 9 and the horizontal gas-liquid cyclone tower 4 in sequence. In this process, solid-state filtration and disinfectant liquid gas-liquid contact are achieved. Eliminating physical, chemical and biological pollutants in the air is a very effective way to purify the air and significantly improve indoor air quality.

More importantly, as shown in Figure 4, in order to facilitate the preparation of the above-mentioned disinfectant, the inventor has newly designed the structure of the above-mentioned composite filter element 9, which is different from the structure of the filter element in air purifiers on the market. The above-mentioned composite filter element 9 has a hollow structure inside, and a bin 51 is provided inside. The lower part of the bin 51 is provided with a discharge port 52, and the discharge port 52 is connected with the water storage tank 7 through the discharge channel 53. The above-mentioned granular pre-activated SRR free radical clusters are encapsulated in the HEPA filter element as particulate disinfecting drugs. The composite filter element 9 is used as a consumable material of the air purifier product and should be replaced after the disinfectant is used up for a period of time.

A perturbation sorting mechanism is installed on the outlet 52 of the above-mentioned composite filter element 9. The perturbation sorting mechanism is used to sort the granular disinfectant drugs in the silo 51 and then add them to the water storage tank 7 as needed. At the same time, in order to facilitate the particle sterilization medicine to fall into the water storage tank 7 and dissolve it in the water to complete the liquid preparation, the discharge channel 53 can be set vertically as shown in the figure.

Preferably, in order to facilitate and accurately control the addition amount of the granular killing drug 58 in the silo, the structure of the above-mentioned disturbance sorting mechanism can be designed as a transverse material distribution mechanism 54, with multiple distribution troughs provided on the material distribution mechanism 54. , the size of the distributing trough is consistent with the size of the above-mentioned granular disinfectant medicine, and the distributing mechanism 54 needs to be connected to the driving motor when in use. The driving motor drives the distributing mechanism 54 to rotate, and at the same time, the lower part of the distributing mechanism 54 is also It is necessary to design a sealing block 55, which is placed in the discharging channel 53, and a driving plate 56 is also provided on one side of the discharging channel 53. One end of the driving plate 56 conflicts with one end of the sealing block 55. , the other end of the driving plate 56 is dynamically connected to the aforementioned driving motor through a transmission device, so that under the action of the driving motor and the transmission device, the driving plate 56 can push the sealing block to one side, and the displacement of the sealing block 55 can be controlled. Opening and closing of the material channel 53, when the discharge channel 53 is opened, the sorted granular sterilizing drugs fall to the water storage tank 7 through the discharge channel 53. Furthermore, in order to facilitate the timely reset of the sealing block 55 after the granular disinfectant medicine falls, a return spring 57 can also be added, and the other end of the sealing block 55 conflicts with the return spring 57, and the driving motor drives the driving plate through the transmission device. After 56 is reset, the return spring 57 drives the sealing block 55 to reset.

On the other hand, in order to facilitate the concentration of the granular sterilizing drugs in the silo 51 at the discharge port 52, an inclined surface can also be designed at the bottom of the silo 51, and the inclined surface can be tilted toward the location of the discharge port 52. , so that the granular sterilizing drugs can sequentially enter the distributing trough of the above-mentioned distributing mechanism 54 to complete the sorting. At the same time, in order to facilitate the central processing unit to detect the particle disinfection drug added to the water storage tank 7 in a single time, a light sensor can be installed inside the outer casing. The installation position of the light sensor corresponds to the aforementioned composite filter element 9, and the light sensor The collection end of the sensor is placed inside the discharging channel 53. When granular disinfectant medicine enters the water storage tank 7, the light sensor can collect a signal and transmit it to the central processor, indicating that it has been added to the water storage tank 7. One particle of the disinfectant drug can accurately control the concentration of the disinfectant liquid prepared in the water storage tank 7. When the preparation operation is performed but no particle of the disinfectant drug passes through the discharge channel, it means that the particles in the silo 51 When the disinfectant is used up, the user can be reminded to replace the filter element.

Based on the above mentioned, the outlet 52 of the composite filter element 9 can be sealed with rubber to prevent the granular disinfectant medicine packaged inside the silo 51 from deteriorating due to moisture before use on the machine. And during the use of the air purification device, the service life of the composite filter element 9 is determined by three factors, which are the use time of the composite filter element 9 after being opened, the total amount of HEPA filtered dust, and the amount of particle disinfection drugs. The aforementioned three Factors come first.

Based on the above structure, the air purifier in this embodiment performs the process of preparing the disinfectant liquid as follows: Under normal conditions, the sealing block 55 seals the discharge channel 53. When the disinfectant liquid needs to be prepared, the granular disinfectant drug passes through the silo. The bottom of 51 is concentrated at the discharge port 52. Under the action of the rotation of the distributing mechanism 54, the granular disinfectant medicine enters the distributing tank one after another. By controlling the step rotation of the drive motor, the continuous entry of single particle disinfectant medicine can be controlled. Each time the discharging channel 53 rotates a distance, a particle of killing medicine enters the discharging channel 53; at this time, the driving motor drives the driving plate 56 through the transmission device to push the sealing block 55 to one side, so that the discharging channel 53 Open, the aforementioned granular disinfectant medicine entering the discharge channel 53 will fall into the water storage tank 7 along the discharge channel 53, and the granular disinfectant medicine will be dissolved in the water in the water storage tank 7 to complete the preparation of the activated disinfectant liquid, and then drive The motor drives the drive plate 56 to reset through the transmission device, the return spring 57 drives the sealing block 55 to reset, and the discharge channel 53 is closed, completing one liquid dispensing. In actual use, intelligent weighting can be performed to obtain the required liquid concentration based on factors such as the amount of water in the water storage tank 7, user control preferences, sensor sensing of ambient air management, and purification treatment status, thereby controlling the entry into the water storage tank 7 The principle of dissolving the amount of activated particles to kill the drug is the same as mentioned above and will not be repeated here. By accurately controlling the concentration of the disinfectant solution prepared in the water storage tank 7, different needs for indoor air disinfection are met.

At the same time, in order to improve the liquid distribution efficiency, it is also preferable to add a liquid distribution tank on the upper part of the above-mentioned water storage tank 7. The volume of the liquid distribution tank is much smaller than the water storage tank 7. The water storage tank 7 and the liquid distribution tank are connected by pipes. The water in the water storage tank 7 is pumped to the liquid distribution tank to complete the preparation of the disinfectant liquid in the liquid distribution tank, and then a water pump is added to the liquid distribution tank to pump the prepared disinfectant liquid into the horizontal gas-liquid cyclone tower. In addition, another water pump can be installed in the liquid distribution tank for self-cleaning, that is, the liquid in the liquid distribution tank is pumped back to the water storage tank through the pipeline through this water pump for cyclic cleaning. By adding a liquid preparation tank, it can be avoided that the design volume of the water storage tank 7 is too large in some embodiments and affects the preparation efficiency of the disinfectant solution, making the preparation of the disinfectant solution more accurate and suitable for indoor use in various spaces. It should be noted here that even if a separate liquid distribution tank is added to the water storage tank 7, the liquid distribution principle is still the same as that of directly matching the liquid in the water storage tank 7, so it will not be described in detail here.

Referring to Figure 13, the inventor also provides that based on the specific function of the above-mentioned disturbance sorting mechanism, another structure is designed to realize its function, which includes a blanking gear plate 61, and a dial is coaxially installed on the upper part of the blanking gear plate 61. The rod 62 is provided with a material distribution hole 63 on the blanking gear plate 61, and the blanking gear plate 61 is also meshed with the first rack 64, and then the first rack 64 and the second rack 65 are dynamically connected. The rack 65 is used to mesh with the power gear 66. The size of the distribution hole 63 is consistent with the volume of the granular medicine. The granular medicine is preferably designed to be spherical. When in use, the aforementioned power gear 66 is dynamically connected to the output shaft of the drive motor. Under normal conditions, the distributing hole 63 and the discharge port 52 are staggered from each other. At this time, the discharge port 52 is kept sealed by the gasket at the bottom of the discharge gear plate 61 , the material distribution hole 63 is connected with the discharge channel. The drive motor drives the second rack 65 to move through the power gear 66, thereby driving the first rack 64 to move, and then the first rack 64 drives the lowering gear plate 61 to rotate, and the lever 62 is placed inside the silo, and as the The lowering toothed disc 61 rotates together, so that after the lowering toothed disc 61 rotates to connect the distributing hole 63 on the upper part with the discharging port 52, the lever 62 will dial a granular medicine in the silo 51 into the distributing material. hole 63. After the first rack 64 and the second rack 65 drive the lowering gear 61 to reset, the distributing hole 63 is connected to the discharging channel again, and the granular medicines therein are discharged into the water storage tank through the discharging channel. After dissolution and activation, the discharge port 52 is again sealed by the gasket at the lower part of the discharge gear 61 .

The above-mentioned preferred method is to facilitate the connection between the first rack 64 and the second rack 65 , and the first rack 64 and the second rack 65 can be dynamically connected by attracting the magnet 67 . Furthermore, in order to facilitate the reset of the first rack 64 and the second rack 65, a return spring can be added to the disturbance sorting mechanism, so that the other end of the first rack 64 conflicts with the return spring, and then After the driving motor stops, the first rack 64, the second rack 65 and the blanking gear plate 61 can be reset by the elastic force of the return spring, so that the first rack 64, the second rack 65 and the blanking gear plate 61 are all in the initial state, the discharge port 52 is kept sealed by the gasket at the lower part of the discharge gear plate 61, and the material distribution hole 63 is connected with the discharge channel.

As shown in Figure 10, the preferred structure of the horizontal gas-liquid cyclone tower 4 is to include a liquid storage tank 3 and a plurality of liquid distribution trays 41. The liquid distribution trays 41 are made of polymer materials and have a Multiple pits or protrusions are provided to facilitate water to adhere to the surface of the liquid distribution pan 41. Multiple liquid distribution pans 42 are set on the rotating shaft 42, and a gap is maintained between two adjacent liquid distribution pans 42. , the rotating shaft 42 is installed on the support 24 in the liquid storage tank 3, and one end of the rotating shaft 42 is dynamically connected to the second reduction motor, and the lower part of the liquid distribution plate 42 is used to submerge the liquid level of the liquid storage tank 3 during use. Next, when the second reduction motor drives the rotating shaft 42 to rotate, the plurality of liquid distribution trays 42 rotate synchronously with the rotating shaft 42, thereby continuously bringing the liquid in the liquid storage tank above the liquid level and adhering to the liquid distribution tray 42 A liquid film is formed on the air to facilitate gas-liquid contact with the flowing air. The aforementioned pits, protrusions and lower holes on the liquid distribution tray 41 can all achieve the same functional purpose. The current practical application is that each liquid distribution tray has 2460 small holes, and each gas-liquid cyclone tower has a total of 46 liquid distribution trays.

At the same time, when the horizontal gas-liquid cyclone tower 4 is in use, water can also be sprayed from the upper part to infiltrate the above-mentioned liquid distribution tray 42, thereby achieving the above-mentioned gas-liquid contact.

Moreover, the inventor has also carried out an optimized design, specifically placing the air inlet 101 on the side or/and bottom of the outer shell 1, and the air outlet 102 on the top of the outer shell 1. As shown in Figure 6 and Figure 2, the aforementioned air outlet A swing vane assembly 15 is installed on the housing 102, and the entire swing vane assembly 15 is tilted toward the lower part of the front side of the outer shell 1 to facilitate control of the air outlet direction.

Based on the above structure, as shown in Figure 5, it is preferable to add an upper water pipe 5 and a lower water pipe 6 in the outer shell 1 at the same time, and connect the above-mentioned liquid storage tank 3 with the upper water pipe 5 and the lower water pipe 6 respectively. And the liquid storage tank 3 is respectively connected to the water storage tank 7 through the upper water pipe 5 and the lower water pipe 6, thereby forming a circulating water path. The aforementioned water storage tank 7 is installed at the lower part of the outer shell 1, and the aforementioned water pump module 10 is directly installed inside the water storage tank 7. The water pump module 10 can be a submersible pump, and the water outlet of the aforementioned water pump module 10 is connected to the aforementioned water supply pipe 5. Then, under the action of the water pump module 10, the water in the water storage tank 7 can be continuously pumped to the upper liquid storage tank 3 through the upper water pipe 5. At the same time, the water in the liquid storage tank 3 passes through the lower water pipe 6 It is discharged into the water storage tank 7 so that the water in the liquid storage tank 3 becomes living water.

And during the above cycle, the amount of water a pumped into the liquid storage tank 3 by the water pump module 10 through the upper water pipe 5 in a unit time is greater than or equal to the amount b of water discharged into the water storage tank 7 by the liquid storage tank 3 through the down water pipe 6 . That is, in the aforementioned logical relationship, the best state should be that the amount of water c evaporated by the water washing and purification module 4 during the air washing process is equal to a-b, and the value of c is greater than 0, so that the liquid level in the liquid storage tank 3 can be maintained for a long time. constant. When the difference between a and b is greater than c, the liquid level in the liquid storage tank rises. When it reaches the highest liquid level, it flows back into the water storage tank through the overflow channel, or the water pump module 10 stops running, causing the liquid level in the liquid storage tank to rise. The water flows back to the water storage tank 7 through the sewer pipe and then restarts. When a is equal to b, and c is not 0, as the running time increases, the liquid level in the liquid storage tank decreases. When the liquid level reaches the lowest level, the water pump module increases the pumping volume, making a greater than b, thus making The fluid level in the reservoir rises.

Preferably, two sewer pipes 6 connected to the liquid storage tank 3 can be used, and the two sewer pipes 6 are connected to the lower water storage tank 7 through a tee joint; then, the water tank cavity of the liquid storage tank 3 is arranged outside A mezzanine, an overflow port is provided at the highest water level in the upper part of the sink cavity, and the overflow port is connected to the aforementioned mezzanine, and then the two downpipes 6 are connected to the sink cavity and the mezzanine respectively, that is, when the above a> b, and when a-b>c, the water in the sink cavity flows into the mezzanine through the overflow port, and flows into the water storage tank 7 through the sewer pipe in the mezzanine, thereby preventing the water level in the liquid storage tank from being too high and causing water to flow from the liquid storage tank 3 overflow, causing water to leak and wet the floor. Based on the aforementioned structure, a normally open valve can also be installed at the corresponding position where the sewer pipe 6 communicates with the liquid storage tank 3, so that the amount of water in the liquid storage tank 3 can be more conveniently controlled.

As mentioned above, in this embodiment, by simultaneously designing the composite filter element 9 and the horizontal gas-liquid cyclone tower 4 in the air purifier, physical pollutants in the air are removed through solid-state filtration, and chemical pollutants are removed. Pollutants and biological pollutants are instantly "in-machine" and mineralized and decomposed by the disinfectant liquid, effectively improving indoor air quality. At the same time, by adding a bin 51 in the composite filter element 9, and cooperating with the disturbance sorting mechanism to control the particle disinfection drugs on demand. Add it to the water storage tank 7, thereby completing the automatic preparation of the disinfectant solution. And by designing the water storage tank 7 at the lower part of the horizontal gas-liquid cyclone tower 4 with a liquid storage tank, and using the upper water pipe 5 and the lower water pipe 6 to circulate water between the water storage tank 7 and the liquid storage tank 3, not only the storage tank The liquid level in the liquid tank 3 is kept constant, and the sediment in the liquid tank 3 and the water storage tank is reduced by flowing water to avoid mildew and affecting the air purification effect. The lower water storage tank 7 can also prevent water flow. Water leakage caused by channel seal failure.

At the same time, in the above embodiment, in order to improve the evaporation efficiency and further kill bacteria and other harmful substances in the water, a heating pipe 13 and a UV-C sterilization pipe 14 can also be installed in the middle section of the water supply pipe 5. The heating pipe 13 generates heat to cause the water to flow through the upper water pipe 5. The water in the water pipe 5 heats up, which is more conducive to the evaporation efficiency of the water attached to the above-mentioned water washing and purification module 4. At the same time, the UV-C sterilization pipe 14 kills bacteria in the water flowing through the upper water pipe 5 through ultraviolet light to further improve the efficiency of water washing. The cleanliness of the water-washed air on the purification module 4. Based on the same idea as mentioned above, in order to ensure the cleanliness of the circulating water, a filter screen can also be provided between the sewer pipe 6 and the water storage tank 7, that is, when the water flows in the above-mentioned circulating water path, it repeatedly passes through the filter screen. Filter, and then retain as much harmful substances in the water as possible on the filter screen to further reduce the precipitated impurities in the water storage tank 7 and the liquid storage tank 3, and also extend the cleaning cycle of the water storage tank to avoid frequent cleaning of the water storage tank that affects the user experience.

Referring to Figures 6 and 7, according to another embodiment of the present invention, in order to facilitate the user to add water, based on the above structure, the inventor has added an automatic push-out structure of the water tank, specifically adding a structure at the lower part of the water storage tank 7 Pallet 16, and a transmission rack 11 is added to the lower part of the tray 16. The transmission rack 11 meshes with the transmission gear 12 to dynamically connect the transmission gear 12 with the first reduction motor. Based on the aforementioned structure, the transmission rack 11 can be installed at the bottom of the water storage tank 7 One or two parallel transmission racks 11 are added. If two transmission racks 11 are used, the two transmission racks 11 are meshed with their respective transmission gears 12, and then the two transmission gears 12 are respectively meshed with each other through the transmission structure. The first reduction motor is connected with power, so that the central processor controls the start, stop, forward and reverse rotation of the first reduction motor after being triggered, so that the water storage tank 7 can be pushed out and retracted, so that the user can open the water storage tank to add water; or Take out the water storage tank 7 from the tray 16 for cleaning. In order to avoid displacement errors when the water storage tank 7 is taken out and put into the tray 16, a positioning groove structure that matches the lower part of the water storage tank 7 can also be provided on the aforementioned tray 16.

As shown in FIG. 8 and FIG. 9 , further, based on the above embodiments, the inventor has further improved the structure of the water storage tank 7 to further improve the convenience of adding water. Specifically, in the water storage tank 7 , which includes a box 71 with an upper cover 72 and a surface cover 73 installed on the upper and front sides of the box 71 respectively. The upper cover 72 is installed on the box 71 through edge snaps, that is, the upper cover 72 and the box There are no screws or other structures between the boxes 71, and the boxes 71 rely on the toughness of the material to facilitate disassembly and assembly. At the same time, a support beam 74 needs to be designed in the middle of the upper cover 72. A plurality of grid holes 75 are designed on both sides of the support beam 74. Water can be poured into the box 71 through the grid holes 75, and in the grid holes 75 It can also prevent splashing during the process of adding water. At the same time, since the inventor intends to adopt a large-size structural design when designing the vertical air purifier, the height is usually more than one meter, so the bottom of the mobile upper outer shell 1 is installed. When the air purifier is pushed through the universal wheel 2, the water in the box 71 will easily surge due to inertia. If the surge is too large, it will easily overflow from the box 71, so it is still on the upper cover. A plurality of anti-surge plates 76 extending toward the bottom of the water tank are added to the lower part of the water tank 72. The anti-surge plates 76 can reduce the surge in the box 71 and prevent water from overflowing from the box 71; further, in order to make the storage The water tank can be positioned when it is pushed out or retracted, so that the water outlet of the water pump module 10 is connected with the water supply pipe 5. A water nozzle assembly can also be designed in the water pump module 10, and the water nozzle assembly is connected to the outer shell after the water storage tank 7 is in place. The connector assembly fixedly installed in 1 is sealed and connected to the water supply pipe, thereby preventing the water pump module 10 from not being connected to the water supply pipe 5 after the tray 17 drives the water storage tank to retract, affecting the efficiency of the circulating water path.

Preferably, the above-mentioned faucet assembly adopts a structure of end-face soft rubber pad and annular rib sealing to seal and connect the water outlet of the water pump module 10, and a third magnet group can be used for magnetic fixation.

Furthermore, considering the limited service life of the submersible pump components, the above-mentioned water pump module 10 is preferably an integral module, in which the submersible pump, liquid level detection, UV-C sterilization lamp and other components are integrated and installed in the In an independent shell, it is easy to manufacture separately, and it is also convenient to install and replace it as an independent component module in the water storage tank 7 later.

More importantly, the function of the above-mentioned cover 73 is to maintain the overall aesthetics of the outer shell 1 of the purifier. Therefore, based on the above-mentioned purpose, the inventor artificially keeps the cover 73 flush with the outer shell 1 and during the process of frequent water addition. It is convenient to disassemble and assemble the cover 73, so the structure is further improved. Specifically, two sets of magnets are designed on the cover 73 of the water storage tank 7. As shown in Figure 9, they are the first magnet set 77 and The second magnet group 78 is used for adsorbing on the front side of the box 71 , and the second magnet group 78 is used for adsorbing on the outer shell 1 . Correspondingly, the outer shell 1 is connected to the water storage tank 7 A step needs to be designed at the corresponding position, and a magnet or magnet piece corresponding to the phase position and magnetic pole of the second magnet group 78 is installed on the step. The aforementioned first magnet group 77 and second magnet group 78 are on the water tank body. 71 are staggered from each other in the front direction and are not on the same straight line (Figure 9 is a longitudinal cross-sectional view, so the staggered structure of the aforementioned two sets of magnets is not shown); more importantly, the cover 73 is adsorbed by the second magnet set 78 After being on the outer shell 1, it is flush with the side of the outer shell 1, and at this time, there is a gap between the front cover 73 and the front side of the box 71. That is, in this state, the front cover 73 is suspended in front of the box 71. side, when the water storage tank 7 is pushed out under the action of the first reduction motor, the surface cover 73 is separated from the steps on the outer shell 1, so that the first magnet group 77 is adsorbed on the front side of the box 71 and remains in the box 71 Integrated, it avoids the need to remove the cover first and then push out the water tank when adding water, making the operation more convenient and providing a better user experience. It is worth noting that, through the aforementioned magnetic design, the inventor has reduced the manufacturing accuracy requirements on the premise of ensuring that the cover 73 is flush with the outer shell 1, and avoids the error caused by the manufacturing accuracy causing the cover 73 to be flush with the outer shell 1 There is a gap or height difference between them.

At the same time, based on the above-mentioned magnetic attraction structure, a Hall switch can also be installed on the step of the above-mentioned outer shell. The Hall switch is connected to the central processor, so that the central processor can sense the opening of the current front cover through the aforementioned Hall switch. or closed state, so as to combine with the real-time state of the first reduction motor to determine the current state of the tray 16 and the water storage tank 7, which is more conducive to realizing intelligent control at the air purifier end.

In order to facilitate the replacement of the above-mentioned composite filter element, a more preferred structure based on the above-mentioned embodiment is to directly add a filter element compartment door on the side of the above-mentioned outer shell. The filter element compartment door can be installed on the outer shell 1 through magnetic suction, and the filter element compartment door A Hall switch can also be installed between the outer housing 1 and the Hall switch. The Hall switch is connected to the central processor, so that the central processor can sense the current open or closed state of the filter element compartment door, thereby facilitating the user to replace the filter element. , and in order to facilitate the management of the consumables of the air purifier, an RFID tag can be installed at any position of the composite filter element 9. Through the signal interaction between the radio frequency signal of the RFID and the reading device of the central processor, it is ensured that the composite filter element 9 is in Corresponds to the uniqueness of use on the air purifier, ensuring the stability and legality of the use of the air purifier.

Referring to Figure 11, in the present invention, in order to facilitate the control of each of the above-mentioned power components, such as the fan 8, the drive motor, the first reduction motor and the second reduction motor, a central processor can also be added inside the air purifier. , connect the central processor to the power module, connect the motor of the aforementioned fan 8, the first reduction motor and the second reduction motor, and the driving motor for blanking to the central processor, and the central processor is also connected to the housing installed on the The temperature and humidity sensor and particle sensor (such as PM2.5/PM10) on the body 1 and the above-mentioned light sensor collect the temperature, humidity and particle concentration in the current environment, and transmit the collected values to the central processing The central processor determines in advance based on the built-in threshold value to control the start and stop, rotation speed, forward and reverse rotation of the aforementioned fan motor, the first reduction motor and the second reduction motor, thereby forming a closed-loop control system. Based on the above-mentioned idea, the sensor can also be added with formaldehyde value HCHO, TVOC, carbon dioxide and other substances sensors, and the usage method is the same as above. Since this type of control mode has been maturely used in this field, the principles of the aforementioned closed-loop control system will not be described in detail.

Referring to Figures 1 to 13, in actual use, the above-mentioned preferred embodiment of the present invention has a design size of about 1-1.3m, and is moved through the lower universal wheel 2. After the preparation of the above-mentioned disinfectant solution is completed, under the action of the central processor, the fan 8 is controlled to rotate to generate negative pressure, so that the airflow enters through the air inlet 101 and is discharged through the air outlet 102. During the aforementioned process, it passes through the composite filter element in turn. 9 and the horizontal gas-liquid cyclone tower 4 to complete solid-state filtration and gas-liquid contact sterilization. In the aforementioned process, the second reduction motor drives multiple liquid distribution trays of the horizontal gas-liquid cyclone 4 in the liquid storage tank 3 The medium rotation keeps the water film attached to the liquid distribution plate while the air flows through the air duct, ensuring the continuity of the mineralization reaction; at the same time, the values in the air are collected by each sensor and transmitted to the central processor as a basis for judgment. .

When water needs to be added, the switch triggers the first reduction motor, causing the first reduction motor to push out the water storage tank 7 through the transmission gear and transmission rack. At this time, the cover 73 is separated from the step of the outer shell 1 and is adsorbed on the box 71 On the front side, when the water is added, the first reduction motor drives the box 71 to retract. At this time, the cover 73 is adsorbed on the step of the outer body 1 again; if you need to clean the water storage tank 7, you can manually pull the water storage tank 7 out, and then remove the cover 73. After cleaning, attach the cover 73 to the front side of the box (since the cover 73 and the box 71 are connected by magnetic suction, they can be disassembled and assembled more conveniently). Manually Just put it back on the tray 16 and complete the positioning. When the composite filter element 9 needs to be replaced, the filter element compartment door on the outer shell 1 can be manually opened to take out the composite filter element 9, and the filter element compartment door can be closed after replacement.

The above functions can be uniformly controlled by the central processor during operation, or the software control logic suitable for the air purifier of the present invention can be specially designed, which will not be described in detail here.

On the other hand, the inventor has also made further improvements based on the structure of the above-mentioned air purifier, specifically considering that users need to regularly add water to the water storage tank 7 during use, and in some special occasions, such as hospitals, government office buildings, etc. In dense and inconvenient maintenance places, in order to realize the above-mentioned full-efficiency air purification device for rapid sterilization and odor removal without adding water, the water tank can be connected to the continuous water supply pipeline. Referring specifically to Figure 12, a reversing valve 18 is added to the structure, the upper water pipe 5 is connected to the liquid storage tank 3 through the reversing valve 18, and then the reversing valve 18 is also connected to the outlet pipe 19, that is, Under the action of the reversing valve 18, the water pump module 10 inside the water storage tank 7 can be connected with the liquid storage tank 3, and can also be connected with the water outlet pipe 19. When the water pump module 10 is connected with the liquid storage tank 3 , the water in the water storage tank 7 is pumped into the liquid storage tank 3 through the upper water pipe 5. When the water pump module 10 is connected with the water outlet pipe 19, the water in the water storage tank 7 can be discharged by the water pump module 10 through the water outlet pipe 19. At the same time, the water storage tank 7 can also be connected to a water inlet pipe 20. A solenoid valve 23 needs to be installed on the water inlet pipe 20. By controlling the solenoid valve 23 to be on and off, water from an external continuous water source can flow into the water storage tank 7. In conjunction with the previous The drainage method can not only automatically add water to the water storage tank 7, but also clean the water storage tank through the circulating water method of draining first and then adding water, thereby realizing the use of the water storage tank 7 without cleaning and adding water.

Preferably, in order to facilitate the connection of external pipelines, the above-mentioned water inlet pipe 20 and water outlet pipe 19 can be connected with the water inlet joint 21 and the water outlet joint 22 respectively, and the water inlet joint 21 and the water outlet joint 22 can be directly designed in the shell. On the body 1, for example, it is designed at the upper part of the water storage tank 7; at the same time, in order to prevent the failure of the solenoid valve 23 from causing the water in the water storage tank 7 to exceed the highest warning line and overflow, it can be designed to be redundant, that is, at least on the water inlet pipe 20 Two solenoid valves 23 are designed to reduce the overflow of the water storage tank 7 caused by the failure of the solenoid valve 23; and in order to facilitate control, the solenoid valve 23 and the reversing valve 18 can also be connected to the above-mentioned central processor, and the central processing unit The device uniformly controls the working status of the solenoid valve 23 and the reversing valve 18.

On the other hand, the above-mentioned solenoid valve can also be cancelled, and the structure of using a stepper motor to drive the extrusion block is used to close the above-mentioned water inlet pipe 20; when the stepper motor drive extrusion force is cancelled, the extrusion block relies on a spring to return, and at the same time, the silicone water pipe returns to the state. The elastic recovery water inlet pipe opens.

In addition to the above, it should also be noted that "one embodiment", "another embodiment", "embodiment", etc. mentioned in this specification refer to the specific features, structures or structures described in conjunction with this embodiment. Features are included in at least one embodiment generally described herein. The appearance of the same expression in multiple places in the specification does not necessarily refer to the same embodiment. Furthermore, when a specific feature, structure or characteristic is described in connection with any embodiment, it is intended that implementation of such feature, structure or characteristic in conjunction with other embodiments also falls within the scope of the invention.

Although the present invention has been described herein with reference to a number of illustrative embodiments thereof, it will be understood that those skilled in the art can devise numerous other modifications and embodiments which will fall within the scope of this disclosure. within the scope and spirit of the principles. More particularly, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, drawings and claims. In addition to variations and improvements in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (13)

1. A full-effect air purification device for rapid sterilization and odor removal, including an outer shell (1). The outer shell (1) is provided with an air inlet (101) and an air outlet (102), and is characterized by: the outer shell (1) A horizontal gas-liquid cyclone tower (4) or a gas-liquid contact module is installed in the body (1); a fan (8) is installed at the lower part of the horizontal gas-liquid cyclone tower (4), and the fan (8) Placed on the air duct between the air inlet (101) and the air outlet (102), the horizontal gas-liquid cyclone tower (4) is placed between the air outlet end of the fan (8) and the air outlet (102). On the air duct; the horizontal gas-liquid cyclone tower (4) is also connected to the water supply pipe (5), and the water supply pipe (5) is connected to the water pump module (10) connected to the water storage tank (7);

   A composite filter element (9) is also installed on the air duct between the air inlet (101) and the air outlet (102); the water storage tank (7) is placed at the lower part of the outer shell (1);

   The composite filter element (9) is provided with a hopper (51) inside, and a discharge port (52) is provided at the lower part of the silo (51). The discharge port (52) communicates with the material through a discharge channel (53). The water storage tank (7) is connected, and a disturbance sorting mechanism is installed on the discharge port (52). The disturbance sorting mechanism is used to sort the particulate matter in the silo (51) and then add it to the storage tank as needed. Inside the water tank (7).
2. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: the disturbance sorting mechanism includes a material distribution mechanism (54), and the material distribution mechanism (54) is provided with a device that is in contact with particulate matter. The distributing mechanism (54) is used for power connection with the driving motor. The lower part of the distributing mechanism (54) is provided with a sealing block (55). The sealing block (55) is placed at the outlet. In the material channel (53), a driving plate (56) is also provided on one side of the discharging channel (53). One end of the driving plate (56) conflicts with one end of the sealing block (55), so The other end of the driving plate (56) is dynamically connected to the driving motor through a transmission device.
3. The full-effect air purification device for rapid sterilization and odor removal according to claim 1 or 2, characterized in that: a light sensor is installed in the outer shell of the corresponding position of the composite filter element (9), and the collection end of the light sensor is placed Inside the discharge channel (53), the other end of the sealing block (55) also conflicts with the return spring (57). The bottom of the bin (51) has an inclined surface, and the inclined surface faces The position of the discharge port (52) is inclined; the discharge port (52) of the composite filter element (9) is provided with a sealing structure.
4. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: the disturbance sorting mechanism includes a cutting toothed disc (61), and the upper part of the cutting toothed disc (61) is coaxially installed. The lever (62) is provided with a material distribution hole (63) on the blanking gear plate (61). The blanking gear plate (61) is also meshed with the first rack (64). The rack (64) is dynamically connected to the second rack (65), and the second rack (65) meshes with the power gear (66); the first rack (64) and the second rack (65) ) is attracted and connected by the magnet (67); the other end of the first rack (64) conflicts with the return spring.
5. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: the horizontal gas-liquid cyclone tower (4) is also connected to the downwater pipe (6), and the downwater pipe (6) 6) Connect to the water storage tank (7); the amount of water pumped into the liquid storage tank (3) by the water pump module (10) through the upper water pipe (5) in a unit time is greater than or equal to the horizontal gas-liquid cyclone The amount of water that the tower (4) discharges into the water storage tank (7) through the sewer pipe (6).
6. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: a tray (16) is provided at the bottom of the water storage tank (7), and a transmission is provided at the bottom of the tray (16). Rack (11), the transmission rack (11) meshes with the transmission gear (12), the transmission gear (12) is dynamically connected to the first reduction motor; the tray (16) is provided with a water storage tank ( 7) The lower part matches the positioning groove structure.
7. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: the water storage tank (7) includes a box body (71), and the upper part and the front side of the box body (71) are respectively An upper cover (72) and a surface cover (73) are installed. The upper cover (72) is installed on the box (71) through edge snaps, and a support beam (74) is provided in the middle of the upper cover (72). ), the support beam (74) is provided with a plurality of grid holes (75) on both sides, and the lower part of the upper cover (72) is also provided with a plurality of anti-surge plates (76) extending toward the bottom of the water tank. ; The water pump module (10) is provided with a water nozzle assembly, and after the water storage tank (7) is in place, the water nozzle assembly is sealed and connected to the connector assembly fixedly installed in the outer shell (1). The connector assembly is sealed with the water supply pipe.
8. The full-effect air purification device for rapid sterilization and odor removal according to claim 1 or 7, characterized in that: the cover (73) of the water storage tank (7) is provided with a first magnet group (77) and a third magnet group (77). Two magnet groups (78), the first magnet group (77) is used for adsorption on the front side of the box (71), and the second magnet group (78) is used for adsorption on the outer shell (1), so The outer shell (1) is provided with steps at positions corresponding to the water storage tank (7), and magnets corresponding to the phase positions and magnetic poles of the second magnet group (78) are installed on the steps; the surface cover ( 73) After being adsorbed on the outer casing (1) by the second magnet group (78), it is flush with the side of the outer casing (1), and at this time, the cover (73) is in contact with the front side of the box (71) Keep a gap between them.
9. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: the horizontal gas-liquid cyclone tower (4) includes a liquid storage tank (3) and a plurality of liquid distribution trays (41 ), the liquid distribution trays (41) are installed on the rotating shaft (42), and a gap is maintained between two adjacent liquid distribution trays (41), and the rotating shaft (42) is installed on the liquid storage tank (42) 3) on the support (24), and one end of the rotating shaft (42) is dynamically connected to the second reduction motor, and the lower part of the liquid distribution plate (41) is used to be submerged into the liquid storage tank (3) during use. ) below the liquid level.
10. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: the air inlet (101) is placed on the side or/and bottom surface of the outer shell (1), and the air outlet (102) ) is placed on the top of the outer casing (1). A swing leaf assembly (15) is installed on the air outlet (102). The whole swing leaf assembly (15) is inclined toward the lower part of the front side of the outer casing (1). ; The bottom of the outer shell (1) is also equipped with a universal wheel (2).
11. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: the side of the outer casing is also provided with a filter cartridge door, and the filter cartridge door is installed on the outer casing (1 ), a Hall switch is also installed between the filter element compartment door and the outer shell (1), and the Hall switch is connected to the central processor; an RFID tag is installed at any position of the composite filter element (9).
12. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: a sensor module is also provided inside the outer casing (1), and the sensor module is connected with the fan (8) and the first The reduction motor and the second reduction motor are respectively connected to a central processor, and the central processor is also connected to a power module; the sensor module at least includes a temperature and humidity sensor and a particle sensor.
13. The full-effect air purification device for rapid sterilization and odor removal according to claim 1, characterized in that: the gas-liquid contact module is made of fiber material, and the lower part is immersed in the liquid storage tank, and is used to remove the gas in the liquid storage tank. Liquid is adsorbed above its surface.

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