GR20200100403A - Portable device with sterilizing action to fight pathogenetic factors or viruses - Google Patents

Abstract

The invented sterilization apparatus is used in areas of high infectivity for sucking and retaining the viral aerosol. It consists of a solid construction (1) with embedded technologies, such as UVC sterilization lamps (2), photo traps (3), suction mouth 4, specific external blades to achieve air vortex in the use area (5), inner suction nozzle blades (6), disinfection lamp with sterilization frequency of 360-deg optical range (7), lamp outlet (X), lamp protrusion mechanism (9), high pressure suction inlet () 10), flexible air duct (11), power relay (12,) power supply point (13), system’s suction motor (14), filtered air outlets (15), transport wheels (16), timer (17), remote control transmitter (18), airflow valve of the flexible air duct (19), receiver of the device (20), activated carbon filter (21), and high- retention filter for HERA particles (22). Ν

Description

Description

Portable device with sterilizing action to combat pathogenic agents or viruses.

This invention refers to a wheeled device for disinfecting action which is used in areas of high contamination.

This invention refers to a one-volume device, which sucks in air from its upper part, then through the filter it has holds the possible positively charged aerosol, while with the integrated UVC infrared technology lamps or other lamps of similar sterilizing action it has integrated on either side of the filter, sterilizes the air and at the same time the filter itself, before expelling it back into the room via a fan.

In the construction of this device, inside the stem, are integrated: disinfection lamps, power relay, timer, active carbon filter, high efficiency particle retention filter, also known as H.E.R.A. light traps, power supply, directional suction duct connection tamper, UVC technology lamp for disinfecting room structural elements, room disinfection lamp reveal window, linear actuator to highlight room disinfection lamp, high pressure suction flexible air duct, suction motor, suction nozzle room, air outlets, wheels for moving the device between rooms and a receiver. While the above set will also be equipped with a transmitter to manage its operation.

A typical earlier invention for combating pathogenic agents or viruses, manufactured with the aforementioned technical characteristics but also the following functional design, does not exist. Any references to the use of UVC technology lamps for space or air disinfection are made with a different technological approach, with a different action and with different results.

It is a device that is placed in areas vulnerable to possible contamination that need high and rapid absorption efficiency, retention of positively charged aerosol and finally destruction of the ions.

The peculiarity of this invention is that with the use of integrated active carbon filters and H.E.P.A. filters. combined with the disinfection lamps, the specially designed space suction mouth, the additional point with the flexible local suction air duct and the high pressure motor, it acquires functional uniqueness as well as use, mainly in public gathering places or in sanitary areas which becomes imperative for rapid aerosol filtration.

A peculiarity of this device is that its suction part is included in its upper part and therefore, directly closer to the aerosol source, at the height of the human mouth.

Another special feature of the device lies in the specially designed nozzle that fits into the suction inlet of the system, which is located on the upper side. This specific orifice is specially designed to create a low pressure but large perimeter final range dyna starting in the center of the unit and ending in the upper layers of the space where the device is installed.

In addition to their advantages, sterilization lamps also present specific disadvantages. For example, the exposure of the human body, and especially the eyes, to the specific sterilizing UVC radiation, negatively affects the structure of the reproductive material at the DNA and RNA level. Another disadvantage is that the long-term exposure of plastics to radiation from disinfection lamps polymerizes their molecular structure.

In the device in question, light traps made of aluminum are used, which due to their structure and their special design and placement, on the one hand, interrupt the emitted light, in order not to damage human tissue and the eyes, but at the same time enhance the action of disinfection lamp due to the reflective properties of aluminum.

Another innovation of the system is the arrangement of the installation of the UVC lamps in relation to the H.E.R.A. filter. As the specific filters are able to retain viruses, due to the artificial refraction of the air when it passes through them and not due to their retention size, there is a possibility that the virus will adhere inside the filter to a point where, due to its thickness, it cannot destroyed by the action of the disinfecting lamp. Therefore, disinfection lamps are placed on either side of the filter so that the trapped contaminated aerosol is destroyed throughout its depth and structure.

In addition, an additional innovation is installed in the structure of the device's construction and offers, in addition to the disinfection of the airborne aerosol, a disinfecting action against the surfaces of the area of its use. The device has a built-in lamp, which emits at disinfecting frequencies, in a visual range of 360 degrees and which, for reasons of additional protection of the human organism, is invisibly encased within the structure of the device and is revealed only at the discretion of the user and only when the he himself will have left his area of use.

The specific lamp will have integrated technologies such as a light sensor, a motion detection sensor and a temperature control sensor so that it cannot be activated or deactivated during the period of its use, in the possible case that the user or another person enters the space during at the time of the sterilizing action.

The range of innovations of the portable device is completed by waiting for the adaptation of a special flexible air duct, on the stem of the unit, from where the user will now be able to select pointwise, the position where a large absorbent power will be focused, close to the point of aerosol secretion . Like for example, at a dental or maxillofacial surgery site.

The present invention can be fully understood from the following detailed descriptions taken in conjunction with the attached drawings 1 and 2.

1) In drawing 1, it shows the section of the whole portable device with the sterilizing action. In drawing 1 which relates to the invention, it shows the outline of the disinfection device (1) the UVC technology lamps (2) the light traps (3) the suction mouth (4) the specially designed fins on the outside in order to achieve air flow inside the area of use (5) the inner fins of the suction port (6) the 360-degree field of view disinfection lamp (7) the lamp exit port (8) the lamp pop-up mechanism (9) the high-pressure suction inlet (10) the flexible air duct ( 11) power relay (12) power point (13) system suction motor (14) filtered air outlet ports (15) transport wheels (16) operation timer (17) remote control transmitter (18) ) the air flow valve of the flexible air duct (19) the receiver of the device (20) the activated carbon filter (21) and the high-retention HEPA particle filter (22) 2) In drawing 2, the top view of the device is shown heating system, with the system stem (1) the suction nozzle (4) the specially designed external fins in order to achieve air flow inside the use area (5) the internal fins of the suction nozzle (6) the 360-degree visual range disinfection lamp ( 7) the bulb outlet (8)

Claims (6)

Claims 1) The sterilizing device for combating pathogens or viruses consists of a compact structure with a central stem (1) and integrated technologies such as UVC sterilizing lamps (2) light traps (3) suction nozzle (4) special external fins designed to achieve air flow within the space of use (5) the internal fins of the suction port (6) the 360-degree field of view disinfection lamp (7) the lamp exit port (8) the lamp pop-up mechanism (9) the high pressure suction inlet (10) flexible air duct (11) power relay (12) power point (13) system suction motor (14) filtered air outlet ports (15) transport wheels (16) timer (17) the remote control transmitter (18) the air flow valve of the flexible air duct (19) the device receiver (20) the activated carbon filter (21) and the filter of high particle retention HEPA (22) 2) The device with a sterilizing action according to claim 1 and 2, is characterized by its single and pre-assembled construction (1) and can sterilize both the aerosol and the structural and portable elements of its area of use. 3) The device with a sterilizing action according to claim 1, 2 and 3, has the suction side in the upper part of the device (1) through two aerosol suction sources (4) and (10) in order to be closer to the aerosol source, at the height of the human mouth. 4) The device with sterilizing action according to claim 1, 2, 3 and 4 has a special point of directed high-pressure air suction (10). 5) The device with sterilizing action according to claim 1, 2, 3, 4 and 5 has an air suction mouth with specially designed fins (4), inside and outside, in order to create an air vortex with an axis in the center of the device and a large perimeter final range in the upper air layers of the space where the device is installed. 6) The device with a sterilizing action according to claim 1, 2, 3, 4, 5 and 6, has disinfecting lamps placed on either side of the filter (2), of high particle retention (22), so that the trapped contaminated aerosol is destroyed together sterilize the entire filter structure as well.