DE102004021585A1 - Air sterilization device, has illuminant emitting ultraviolet radiation in range of wavelength of about two hundred and fifty nano meters during flow of air though housing to sterilize air, and reflectors arranged in polygon form in housing - Google Patents

Abstract

The device has a blower arranged below/within a tubular housing for sucking air in the housing and for producing an air flow in the axial direction via the housing. An illuminant (12) is arranged within the housing and emits ultraviolet (UV) radiation in the range of wavelength of about 250 nano meters during the air flow via the housing to sterilize the air. Reflectors (13) are arranged in polygon form in the cross section of housing.

Description

The The present invention relates to a sterilization apparatus. Devices of this kind are for example intended for waiting rooms in medical practices or similar Facilities, in which there are people who are at an increased risk of infection. As is well known, people come with infectious diseases through Bacteria or viruses are triggered be, to the doctor and stay in the waiting room. there There is a risk of getting other healthy people in the waiting room present with an infectious disease. A similar Situation is in public accessible clear in hospitals or other buildings in which there is a high level of public access, for example in schools, authorities and the same.

you has tried to create devices for sterilization, which for this Applications are suitable. However, the known devices are usually not sufficiently effective. The devices are defective insofar as they only have an incomplete part of the room air sterilize. Thus, although a lesser proportion of pathogens the Device leaves, remains a residual infection risk. If such a germ removal device is working with a bulb which produces germicidal UV light is for one full Sterilization very important, that within the device no shadow zones occur, which is an irradiation of bacteria or viruses in these Prevent areas.

The The object of the present invention is a device for sterilization for to provide the stated uses, which works more effectively and a complete one Sterilization guaranteed.

The solution This object is achieved by a device according to the invention for sterilization with the features of the main claim.

According to the invention, this device comprises a housing, a fan disposed below or inside the housing, which draws air into the housing and generates an air flow in the axial direction (longitudinal direction) through the approximately tubular housing from bottom to top, wherein inside the housing bulbs are arranged, which generate ultraviolet radiation predominantly in the area of germicidal UV light. The air can for example be sucked laterally and / or from below into the housing, which is at least partially open on the underside. It then enters the aspirated air to be sterilized and contains bacteria and viruses in the housing and is transported by the generated in the axial direction in the housing air flow through the approximately tubular housing, preferably this air flow is from bottom to top, since the tubular housing is usually placed so that the longitudinal direction of the air flow, that is, the axial direction of the air flow is approximately vertical and thus from bottom to top. By the irradiation with the bulbs, which emits UV light in the range germicidal frequencies, which is preferably so-called UV-C radiation having wavelengths in the range of preferably about 250 nm, then during the passage of air through the housing a effective and complete sterilization made. Thus, an air stream of sterilized air leaves the housing at the other end, that is preferably in a vertically placed housing approximately in the upper end region. It is important that on the one hand, the air flow is calculated so that a sufficient air flow through the sterilization device is given, which is sufficient for the intended air exchange for the particular room. For example, a sterilization device calculated in this way can sterilize a volume flow of 100 m ³ or several 100 m ³ / h and thereby achieve an efficiency of, for example, 99% or more.

Preferably are in the area of the inside of the housing of the sterilization device Reflectors arranged, which used for sterilization UV light steer so that no shadow zones arise, possibly a flow through of bacteria or viruses would allow without this with the UV light applied become. Preferably, at least one reflector is used for this purpose or a reflector assembly with multiple reflectors, these Reflectors inside the housing viewed in cross-section through the housing preferably form a polygon arrangement. Next is special prefers an asymmetric arrangement of reflectors, since This will prevent shadow zones and that from the reflectors Reflected UV light reaches virtually all areas within the enclosure. In order to achieve a further air purification one can preferably within of the housing in addition to the bulbs provide a filter device. It is advantageous if one exclusively in the flow direction used filtering devices arranged behind the light sources, since these then absorb dust particles, but the filter device no more germs, as they already flow through the Device killed before reaching the filter device.

A device of the type according to the invention may for example have a rack, which is arranged below a fan. As a result, the device can be set up so that the longitudinal flow of air through the housing approximately in the vertical direction and enters through openings or gaps in the area of the rack above the ground in the at least partially open lower end of the tubular housing. The germ-containing air flow is thus first sucked by the fan into the housing and then flows in the longitudinal direction through the housing at such a speed that prior to the escape of the air flow from the housing at the other end a complete sterilization is given. It can therefore be calculated in a simple manner via the air flow rate and the flow rate, the housing size, the housing cross-section, the housing length and number and power of the used for sterilization bulbs that emit UV light, when optimal sterilization performance is achieved. The dimensioning of the sterilization device is dependent on the size of the room and the frequency of the proposed air exchange. The approximately tubular housing of the device, which is flowed through, for example, a length of about 1 m to 1.5 m, a cross-sectional area of several 100 cm ² , a power consumption of, for example, between about 50 watts and about 200 watts. With room sizes of, for example, in the range between 50 m ³ and 100 m ³ and degermination performance between, for example, about 200 m ³ / h and about 800 m ³ / h, for example, up to a 16-fold flow through the device and a correspondingly frequent disinfection of the room air reach per hour. The numbers mentioned are intended for illustrative purposes only and are not intended to limit the scope of the invention.

The inventive device It can be easily cleaned and maintained and is therefore very user-friendly. The UV radiation used for sterilization destroys vital substances for the microorganisms Building blocks and kills a broad spectrum of pathogens. The construction of the housing of Device can be designed so that it is avoided that for People also harmful UV light to the outside penetrates. When using a filter device, the through the device flowing Additional air cleaned of suspended matter. The degermination device according to the invention is suitable for all premises with high visitor frequency, especially for waiting rooms in medical practices, for pharmacies, Gyms, offices or publicly accessible Building.

According to one preferred embodiment The invention provides that the housing of the device in several parts formed. For example, you see two half-shells before, so that at a disassembly for maintenance purposes or the like, a safety device can be provided, which ensures that when removing housing parts An electric disconnection takes place which supplies the power to the UV light emitting fluorescent lamps interrupts. As is known the UV-C radiation for the human eye is not safe. For example, you can provide two half-shells of the housing and if a the half-shells is removed, so that simultaneously a contact connection solved.

Farther it is preferable, the housing on the upper side by a Cover or the like to close, with corresponding facilities are provided, the first the removal of the upper part (lid), for example, to take out disable the filter device. For example, you can to locking pin or the like, the structural design being such is that the top can only be removed if a the half shells of the housing was previously removed. By the latter measure, as previously stated, the Power supply to the bulbs interrupted. Only then can removed the top or removed the filter device to clean the filter, for example. This prevents that someone the top or the insight from above forth on the bulbs preventing covering filter device takes out while the bulbs are switched on. So it is the first Disassembly of the housing, which leads to an electrical separation, so no UV-C radiation more is delivered. Only then can the filter device be taken out be or a housing covering the top Lid can be removed.

The in the subclaims mentioned features relate to preferred developments of the task solution according to the invention. Further Advantages arise from the following detailed description.

following The present invention will be described with reference to exemplary embodiments to the accompanying drawings. Show

1 a perspective view of a degermination device according to the invention;

2 a schematically simplified longitudinal section through a device according to the invention;

2a a cross section through the Vorrich at the bottom;

3 a schematically simplified cross section through the device according to the invention.

First, it will open 1 Referenced. The illustration shows a perspective view of a degermination device according to the invention according to an embodiment variant. The device comprises a housing 10 , which is formed cuboid in principle with a rectangular cross-section. The housing has a stand frame on the underside 14 on, being that feet 14a and between the lower edge of the wall 10 the housing and a bottom plate 14b that stands on the ground, side openings 15 available. These side openings 15 result in principle from the fact that on all four sides in each case the lateral wall 10a of the housing at a distance above the foot plate 14b of the stand frame 14 ends. This makes it possible to have an in 1 unrecognizable fan the room air from below into the housing 10 suck. The room air to be sterilized then flows inside the housing 10 in the longitudinal direction from bottom to top and is sterilized by suitable bulbs that emit ultraviolet radiation.

This will be explained in more detail below with reference to FIGS 2 and 3 explained in more detail.

2 shows a schematically simplified longitudinal section through the in 1 illustrated device for sterilization. One recognizes in 2 the housing 10 , which is hollow inside, so that in principle results in a tubular shape with an angular cross-section. In 2 you can see the fan located in the lower part of the housing 11 , by means of which the room air is sucked in from below and laterally in the direction of the arrow. The aspirated room air then flows to the sterilization in the interior of the housing 10 in the direction of the arrow from bottom to top. For sterilization are several bulbs 12 provided in the form of fluorescent lamps which emit UV light preferably in the wavelength range of the so-called UV-C radiation. In the embodiment, four such fluorescent lamps 12 spaced apart parallel in the longitudinal direction of the housing, that is arranged in the flow direction. The sterilization device is designed so that the through the housing 10 flowing air in the upper end of the fluorescent lamps 12 who is here with 12a is designated, completely sterilized. The sterilized air then flows further in the direction of the arrow upwards and flows through a filter device 16 Finally, at the top of the housing 10 leave the device. The filter device 16 is streamed by already sterilized air and serves primarily to catch suspended particles and particles. By the arrangement of the filter device 16 In the upper part there is the advantage that the filter does not pick up germs and therefore the cleaning of the filter is much easier.

3 shows a cross section through the housing 10 the device according to the invention, wherein there is in particular the arrangement of the four fluorescent lamps in this case 12 and the reflectors 13 can recognize. In principle, it is an octagonal reflector arrangement through which the air to be sterilized flows, wherein the air from the light of the fluorescent lamps 12 is charged. In order to avoid that shadow zones form within the housing, one does not work with the usual parabolic reflectors. The reflectors 13 As you can see, they form an octagonal arrangement so that, in principle, there are eight flat surfaces, the one of the four fluorescent lamps 12 radiated UV light is reflected. Some of the beams are in 3 drawn by way of example. The fluorescent lamps are arranged so that they each with respect to the center line 17 the respective reflector surface, which extends in the vertical direction, are arranged eccentrically. As a result, the fall of the fluorescent lamps 12 radiated light rays each on the reflector so that they are reflected from there - according to the law angle of incidence equal to the angle of reflection - in a manner that ensures that no dead zones or shadow zones are formed in which there is no exposure to UV light. On the basis of in 3 drawn light beams 18 . 19 that of the reflectors 17 as reflected rays 20 . 21 this is readily apparent. It can be seen that the reflected rays become effective in other zones than the output rays 18 . 19 , As a result, a total of eight reflector sections 17 are present, which are arranged due to the octagon shape at obtuse angles to each other, the rays after repeated single and multiple reflection at the reflector sections each new paths. This achieves that, in principle, the entire cross-sectional area between the eight reflector sections 17 is acted upon by UV light. When arranging four fluorescent lamps 12 as in the embodiment according to 3 In addition, a uniformly high luminance is achieved over the entire cross section.

The fluorescent lamps 12 can at an in 2 visible socket carrier 22 be held, which is in the embodiment to two-sided held fluorescent lamps with socket carriers at both ends. The number of fluorescent lamps used 12 whose distances from one another in the housing 10 as well as the length of the fluorescent lamps and their power one can vary so that a killing of the sucked into the housing with the indoor air germs is ensured to more than 99%. It can be determined by the size of the housing 10 , depending on the desired frequency of air exchange and the room size, taking into account the housing cross-section and the performance of the blower 11 calculate the period of time the air takes to travel longitudinally through the housing 10 that is, by the part of the housing in which the fluorescent lamps 12 are to flow. The radiant power is then chosen to ensure complete kill of the germs within this time.

10

casing

10a

lateral wall

11

fan

12

Lamp

12a

end

13

reflectors

14

standing frame

14a

feet

14b

baseplate

15

lateral openings

16

filtering device

17

reflector sections

18 19

light rays

20 21

reflected radiate

22

fitting carrier

Claims (10)

Device for disinfecting, comprising a housing ( 10 ), an inside or below the housing arranged fan ( 11 ), which sucks air into the housing and generates an air flow in the axial direction (longitudinal direction) through the approximately tubular housing, preferably from bottom to top, wherein inside the housing illuminants ( 12 ) are arranged, which generate an ultraviolet radiation predominantly in the range of germicidal UV light. Device for degermination according to claim 1, characterized in that on the inside of the housing ( 10 ) Reflectors ( 13 ) are arranged. Device for degermination according to claim 2, characterized in that a plurality of reflectors ( 13 ) within the housing ( 10 ) are viewed in cross-section through the housing viewed in a polygon arrangement. Device for disinfecting according to claim 2 or 3, characterized in that at least one illuminant with respect to the center line of at least one reflector surface ( 13 ) is arranged asymmetrically and / or eccentrically. Device for degermination according to one of claims 1 to 4, characterized in that inside the housing ( 10 ) is provided above the lighting means, or arranged downstream of the light sources in the flow direction, a filter device is provided. Device for degermination according to one of claims 1 to 5, characterized in that only in the flow direction behind the light sources ( 12 ) arranged a filter device ( 16 ) is provided. Device for degermination according to one of claims 1 to 6, characterized in that this a stand frame ( 14 ) below the blower ( 11 ), so that the device can be set up such that the longitudinal flow of the air through the housing extends approximately in the vertical direction. Device for disinfecting according to one of claims 1 to 7, characterized in that at least one device is provided which causes an electrical separation upon removal of parts of the housing, the power supply of the lighting means ( 12 ) interrupts. Device for degermination according to claim 8, characterized characterized in that the device comprises a contact connection, when removing a housing part, in particular a half-shell of the side housing an electrical separation causes. Device for degermination according to one of claims 8 or 9, characterized in that the removal of an upper part of the housing ( 10 ) and / or the removal of the filter device ( 16 ) is prevented by a locking device in normal operation, which releases only when, by electrical isolation, the power supply of the lamps ( 12 ) was interrupted.