TW202146062A - Sequential air sterilization filter device including a main body, an exhaust fan, a heating member, an ultraviolet lamp set, a filter element and a control module - Google Patents

Abstract

The present invention relates to a sequential air sterilization filter device, which has a main body. A hollow air circulation space inside the main body is in a circular shape. The air circulation space inside the main body is divided into a first accommodating part, a second accommodating part, a third accommodating part, and a fourth accommodating part. An exhaust fan is arranged on one side of the first accommodating part to draw the unclean air into the internal space of the main body from the outside to the inside to form a first airflow. The second accommodating part is equipped with a heating member. An ultraviolet lamp set is provided at the center of the third accommodating part, and configured to emit ultraviolet rays. A filter element is sleeved on at one end of the fourth accommodating part at the aperture position, so that the filter element filters the first airflow into a clean second airflow to be discharged. The control module is provided outside the main body. The exhaust fan, the heating member and the ultraviolet lamp set are controlled by the control module through electrical connection.

Description

Sequential air sterilization filter device

The invention relates to a sequential air sterilization filter device, especially an air sterilization filter device that heats the inhaled air after air extraction, irradiates with ultraviolet light, and finally filters through a filter core, and the inner pipe system of the air sterilization filter device is as follows: The tubular design is a sequential air sterilization filter device that uses sterilizing liquid to sterilize and exhaust gas in a safe space.

In the past, there were common air filtration products on the market. The main operation method was to extract air and filter through the filter according to the air quality in a specific space. The basic sterilization efficiency of filtered air, but with the recent pandemic of the novel coronavirus, air quality no longer only focuses on the filtration of dust and haze such as PM2.5, but further concerns about viruses in droplets or aerosols Or the cleaning of bacteria, especially blocking the spread of viruses, is not easy. Therefore, the method of filtering the air alone cannot fully achieve the best sterilization and virus elimination effect for the virus pandemic environment. It is necessary to provide an air sterilization filter device that is easily available and has better sterilization and virus removal efficiency.

The infection of the current new coronavirus is extremely strong, and there is currently no vaccine or antidote to treat it. Therefore, when the aforementioned mild and moderate patients, especially asymptomatic patients, are in the same space, they are in the same contact or In a space with air convection, viruses will exist everywhere, and there is a risk of infection. The flow of air may carry the virus away. Whether it is the new coronavirus or other influenza viruses, conventional air cleaning devices are not better. Sterilization and virus-killing effect.

The main features of the present invention include: a main body, the hollow air circulation space inside the main body is circular, and the air circulation space inside the main body is divided into a first accommodating part, a second accommodating part, and a third accommodating part. an accommodating part and a fourth accommodating part; an exhaust fan is arranged on the inner side of the first accommodating part to pump the uncleaned air from the outside to the inside into the inner space of the body to form a first air flow; the second accommodating part is equipped with There is a heating element; an ultraviolet lamp group is arranged in the center of the third accommodating part, and the ultraviolet lamp group emits ultraviolet radiation; the opening position of one end of the fourth accommodating part is sleeved with the filter element, so that the filter element can filter After the first air flow, a clean second air flow is formed and discharged; the control module is arranged outside the main body, and the exhaust fan, the heating element, the ultraviolet lamp group and the control module are controlled through electrical connection; the heating element and The ultraviolet lamp group is arranged at the center of the second accommodating part and the third accommodating part, so that the drawn first air flow runs smoothly, and the heat energy emitted by the heating element and the ultraviolet lamp group is uniformly contacted with the ultraviolet rays. the first airflow.

Another main feature of the present invention is that it operates in a sequential air sterilization filter device, wherein the sequential air sterilization filter device has a body, and the air circulation space inside the body is divided into a first accommodating part, a second accommodating part, a first accommodating part, and a second accommodating part. Three accommodating parts and a fourth accommodating part, wherein the first accommodating part is provided with an exhaust fan, the second accommodating part is equipped with a heating element, and the third accommodating part is provided with an ultraviolet lamp set at the center position, The opening at one end of the fourth accommodating part is sleeved with a filter core, the heating element and the ultraviolet lamp group are arranged at the center of the second accommodating part and the third accommodating part, and the following steps are performed: the suction step operates When the control module activates the exhaust fan to draw the unpurified air from the outside into the body to form the first airflow, the exhaust volume of the exhaust fan is adjusted according to the size of the exhaust volume, so that the first airflow is inside the body. Sufficient space for sterilization; heating step is to activate the heating element through the control module to heat up to above 150°C, so that the bacteria or viruses passing through the first air flow through the second accommodating part are killed or damaged; the light step is to pass through The control module activates the ultraviolet lamp group to generate ultraviolet light for sterilization, so that the RNA or DNA of bacteria or viruses is further destroyed when the first air flow passes through the third accommodating part; the filtering step is when the first air flow passes through the fourth accommodating part. A filter core set in the cylinder body filters out dust, haze, peculiar smell or bacteria and viruses.

Please refer to the schematic diagram of the steps of the preferred embodiment of the present invention shown in FIG. 1 , and the schematic side sectional view of the sequential air sterilization filter device of the preferred embodiment of the present invention shown in FIG. 2 , the sequential air sterilization filter device of the present invention is: Provide a sequential air sterilization filter device that can perform sterilization effect simply but efficiently, and has five steps to perform air sterilization filtration. In terms of structural design, the present invention has a body 10, and the main feature of the body 10 is its interior The surrounding of the hollow air circulation space is of circular design. The air circulation space inside the main body 10 is divided into a first accommodating portion 11 , a second accommodating portion 12 , a third accommodating portion 13 and a fourth accommodating portion 14 . , the direction of air circulation is from the direction of the first accommodating part 11 to enter and flow to the fourth accommodating part 14, wherein an exhaust fan 20 is arranged on the inner side of the first accommodating part 11 to pump the uncleaned air P from the outside to the inside. The first air flow F1 is formed in the inner space of the main body 10, and the first air flow F1 further flows through the second accommodating portion 12. The second accommodating portion 12 is provided with a heating element 30, and the heating element 30 is arranged in the second accommodating portion 12. The central position of the two accommodating portions 12 is used to spread the thermal energy H in the second accommodating portion 12 evenly. The first air flow F1 passes through the second accommodating portion 12 and then enters the third accommodating portion 13 . An ultraviolet lamp group 40 is arranged in the center of the portion 13 , and the ultraviolet lamp group 40 emits ultraviolet (UVC) radiation to uniformly irradiate the ultraviolet light in the third accommodating portion 13 . After the first air flow F1 passes through the third accommodating portion 13 Entering into the fourth accommodating portion 14 , a fixing portion 141 is defined at the edge of the opening of one end of the fourth accommodating portion 14 . In this preferred embodiment, the fixing portion 141 is a screw thread and is sleeved on the fixing portion 141 There is a hollow cylinder 50 to cover the opening at one end of the fourth accommodating portion 14. The cylinder 50 is sleeved with a filter core 51, so that the filter core 51 can filter the discharged first airflow F1, the first airflow F1 After flowing through the filter core 51, a clean second air flow F2 is formed and discharged; wherein the exhaust fan 20, the heating element 30, and the ultraviolet lamp group 40 are controlled through the electrical connection through the control module 60 disposed outside the main body. .

Please refer to FIG. 3 , which is an exploded perspective sectional view of a preferred embodiment of the present invention, wherein the exhaust fan 20 , the heating element 30 , the ultraviolet lamp group 40 , the cylinder 50 and the filter element 51 are arranged on the first At the center of the accommodating portion 11 , the second accommodating portion 12 , the third accommodating portion 13 and the fourth accommodating portion 14 , such a design can make the drawn first airflow F1 run smoothly, and make the heating element 30 and The heat energy H emitted by the ultraviolet lamp group 40 and the ultraviolet rays uniformly irradiate the passing first airflow F1, which can sterilize the bacteria or viruses existing in the passing first airflow F1; wherein the exhaust fan 20 The control module 60 is connected with the control wire 21 to enable or disable the ventilation action, the heating element 30 is connected with the control module 60 by the control wire 31, and the ultraviolet lamp set 40 can be supported through the support The rod 44 sets the group of external line lamps at the center of the third accommodating portion 13, and connects the control module 60 with the control line 43. The ultraviolet lamp in this embodiment may have an ozone lamp 41 that emits ultraviolet rays with a wavelength of 185 nm and The germicidal lamp 42 emits ultraviolet germicidal light with a wavelength of 254 nm, and the filter core 51 set in the cylinder body 50 is a filter core structure with a high-efficiency air particle filter (HEPA) in this embodiment or a special filter for antibacterial and toxin filtering. Filter cans to filter out dust, odors or bacteria and viruses.

The sequential air sterilization and filtering device of the present invention has five steps in operation: the suction step S1, during the operation of the present invention, the control module 60 starts the suction fan 20 to draw the external unpurified air P into the main body 10 to form a first The air flow F1, wherein the air extraction volume of the air extraction fan 20 is adjusted according to the size of the exhaust air, so that the first air flow F1 can pass through the main body 10 with sufficient space for sterilization; the heating step S2 is activated through the control module 60 The heating element 30 heats up to above 150°C, so that the bacteria or viruses passing through the second accommodating portion 12 are killed or damaged when the first airflow F1 passes through the second accommodating portion 12; the illumination step S3 is to activate the ultraviolet lamp group 40 through the control module 60 to generate 185 nm The wavelength emits ozone light UVC1 for deodorization and sterilization or emits 254nm wavelength sterilization light UVC2 for sterilization, so that the first airflow F1 further destroys the RNA or DNA of bacteria or viruses when passing through the third accommodation portion 13; filtering step S4, the first airflow F1 When passing through the fourth accommodating portion 14 , the filter core 51 set in the cylinder 50 filters out dust, haze, odor, bacteria and viruses; in the exhaust step S5 , the first airflow F1 passes through the filter set in the cylinder 50 . After the core 51, the second air flow F2 of clean air is formed and discharged; the above steps are destroyed by heating and sterilized by ultraviolet light, and then the clean air F2 is discharged by means of filtering and blocking, which can have excellent air filtering effect, especially the heating temperature can be adjusted and Evenly dispersed in the main body 10, and the design of selectively adjusting the wavelength of ultraviolet light to achieve different effects achieves excellent air sterilization filtering effect.

To sum up, the sequential air sterilization filter device of the present invention can provide users with safe air that can be easily obtained by effective sterilization design, which has deep market benefits and is also helpful during epidemics, and there are no similar or identical patent applications. First, if the requirements for application for an invention patent are met, a patent application can be filed in accordance with the law.

10: Ontology 11: The first accommodating part 12: Second accommodating part 13: The third accommodating part 14: Fourth accommodating part 20: Exhaust fan 21: Control Line 30: heating element 31: Control Line 40: UV lamp group 41: Ozone light 42: Germicidal lamp 43: Control Line 50: Cylinder 51: Filter 60: Control Module F1: First Airflow F2: Second Airflow H: heat energy P: Uncleaned air UVC1: Ozone light UVC2: germicidal light

FIG. 1 is a schematic diagram of the steps of a preferred embodiment of the present invention. FIG. 2 is a schematic side sectional view of a sequential air sterilization filter device according to a preferred embodiment of the present invention. FIG. 3 is an exploded perspective view of a preferred embodiment of the present invention.

10: Ontology

11: The first accommodating part

12: Second accommodating part

13: The third accommodating part

14: Fourth accommodating part

20: Exhaust fan

21: Control Line

30: heating element

31: Control Line

40: UV lamp group

41: Ozone light

42: Germicidal lamp

43: Control Line

50: Cylinder

51: Filter

60: Control Module

F1: First Airflow

F2: Second Airflow

H: heat energy

P: Uncleaned air

UVC1: Ozone light

UVC2: germicidal light

Claims (5)

A sequential air sterilization filter device mainly includes: A main body (10), the inner hollow air circulation space of the main body (10) is circular, and the inner air circulation space of the main body (10) is divided into a first accommodating part (11), a second accommodating part ( 12), a third accommodating portion (13) and a fourth accommodating portion (14); An air extraction fan (20), an air extraction fan (20) is arranged on the inner side of the first accommodating portion (11) to pump the uncleaned air (P) from the outside to the inside into the inner space of the main body (10) to form a first A airflow (F1); a heating element (30), the second accommodating portion (12) is provided with a heating element (30); an ultraviolet lamp group (40), an ultraviolet lamp group (40) is arranged at the center of the third accommodating portion (13), and the ultraviolet lamp group (40) emits ultraviolet (UVC) radiation; A filter element (51), the filter element (51) is sleeved at the opening position of one end of the fourth accommodating portion (14), so that the filter element (51) filters the first airflow (F1) to form a clean second air flow (F1). Airflow (F2) discharge; A control module (60) is disposed outside the main body (10), and the air extraction fan (20), the heating element (30), the ultraviolet lamp group (40) and the control module (60) are electrically permeable link for control; The heating element (30) and the ultraviolet lamp group (40) are arranged at the center of the second accommodating part (12) and the third accommodating part (13), so that the drawn first air flow (F1) runs smoothly , and make the heat energy emitted by the heating element (30) and the ultraviolet lamp group (40) uniformly contact with the ultraviolet rays and pass through the first airflow (F1). The sequential air sterilization filter device as claimed in claim 1, wherein the ultraviolet lamp group (40) sets the outer line lamps of the group at the center position of the third accommodating portion (13) through the support rod (44), and controls The line (43) is connected to the control module (60), and the ultraviolet lamp group (40) has an ozone lamp (41) with a wavelength of 185 nm or a germicidal lamp (42) with a germicidal light with a wavelength of 254 nm. The sequential air sterilization filter device according to claim 1, wherein a fixing portion (141) is provided at the edge of the opening of one end of the fourth accommodating portion (14), and a hollow is sleeved on the fixing portion (141). A cylinder body (50), the filter core (51) is sleeved in the cylinder body (50) to filter the first air flow (F1). A sequential air sterilization and filtration method, which is operated in a sequential air sterilization and filtration device, wherein the sequential air sterilization and filtration device has a body (10), and the internal circulation air space of the body (10) is divided into a first accommodating part (11), the second accommodating part (12), the third accommodating part (13) and the fourth accommodating part (14), wherein the first accommodating part (11) is provided with an air extraction fan (20), The second accommodating portion (12) is provided with a heating element (30), the center of the third accommodating portion (13) is provided with an ultraviolet lamp group (40), and an open sleeve at one end of the fourth accommodating portion (14) A filter core (51) is provided, the heating element (30) and the ultraviolet lamp group (40) are arranged at the center of the second accommodating part (12) and the third accommodating part (13). The following steps: Inhalation step (S1), during operation, the control module (60) starts the air extraction fan (20) to draw the unpurified air (P) from the outside into the main body (10) to form a first air flow (F1), wherein the air is drawn The air extraction volume of the air fan (20) is adjusted according to the size of the exhaust air volume, so that the first air flow (F1) can pass through sufficient space in the main body (10) for sterilization; The heating step (S2) is to activate the heating element (30) through the control module (60) to heat up to above 150°C, so that the first airflow (F1) passes the bacteria or viruses that pass through the second accommodating portion (12). death or damage; The illumination step (S3) is to activate the ultraviolet lamp group (40) through the control module (60) to generate ultraviolet light (UVC) for sterilization, so that the first airflow (F1) is further sterilized when passing through the third accommodating portion (13). or viral RNA or DNA damage; In the filtering step (S4), when the first airflow (F1) passes through the fourth accommodating portion (14), a filter core (51) is set inside the cylinder (50) to filter out dust, haze, odor, bacteria and viruses. The sequential air sterilization and filtration method according to claim 4, wherein the ultraviolet lamp group (40) can generate ozone light with a wavelength of 185 nm for deodorization and sterilization or emit sterilization light with a wavelength of 254 nm for sterilization.

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