RU203576U1 - Recirculator lamp for air disinfection and lighting - Google Patents

Abstract

The utility model relates to lighting devices that are structurally combined with bactericidal recirculators using ultraviolet (UV) radiation for air disinfection. The recirculating lamp contains a housing made with an inlet window, a main compartment and an outlet window, and a UV emitter installed in the housing, visible light emitters, a power and control unit and a fan for air circulation. The emitters are located in the main compartment, made using a polymer material that transmits visible light and blocks UV radiation. The use of the utility model makes it possible to lighten the weight and simplify the design of the device due to the absence of compartments for separating the emitters of visible light and the UV emitter. 9 p.p. f-ly, 3 dwg

Description

The utility model relates to lighting devices that are structurally combined with bactericidal recirculators using ultraviolet (UV) radiation for air disinfection.

A recirculator lamp for disinfection of air and lighting is known from the prior art (RU 2209637 C1, 08/10/2003), comprising a housing made with an inlet window, a main compartment and an outlet window, at least one UV emitter installed in the housing, a UV reflector radiation, located on one side, and applied to the other side of the main compartment of the body, a layer of phosphor for converting UV radiation into visible light radiation. Recirculator luminaire is designed to process a fluid medium - water or air, without forced circulation. Such devices, converting UV radiation into visible using a phosphor, are difficult to manufacture and give poor illumination.

Known recirculator lamp for disinfection of air and lighting (US 9308289 B2, 04/12/2016), containing a housing made with an entrance window, an exit window, a compartment for lighting, in which visible light emitters are installed, and a compartment for air disinfection, in which UV emitter. The housing also contains a power supply and control unit. The air circulates without the use of mechanical devices by means of natural convection. The disadvantages of such a recirculator and the like can be attributed to the need to create various compartments for the location of the emitters, which leads to a complication of the design and an increase in the weight of the device as a whole. In addition, natural convection, in contrast to forced circulation, is ineffective and significantly increases the amount of time required to decontaminate indoor air.

As a prototype, a recirculator lamp for disinfection of air and lighting (KR 20130125436 A, 11/19/2013) was chosen, containing a housing made with an entrance window, a main compartment and an exit window, at least one UV emitter installed in the housing, a lens for amplification UV radiation, visible light emitters, fan for air circulation and power and control unit. The main compartment is divided by a substrate for installing the emitters into the upper section, in which disinfection is carried out, and the lower section, intended for the location of the visible light emitters. The disadvantages of the prototype are expressed in low efficiency and low reliability. Air circulation is organized only in the UV radiation zone, therefore, visible light emitters are not forcedly cooled, which adversely affects their service life. The lens and substrate of this device also complicates the design.

The task of the utility model is to eliminate the above disadvantages.

The technical result consists in lightening the weight and simplifying the design of the recirculating lamp by making the main compartment of the housing made of a material capable of transmitting visible radiation and blocking UV radiation, which makes it possible to abandon compartments and various partitions for separating the emitters.

The specified result is achieved in a recirculating lamp for disinfection of air and lighting, containing a housing made with an inlet window, a main compartment and an outlet window, a UV emitter installed in the housing, visible light emitters, a power supply and control unit and a fan for circulating the air flow, when In this case, the emitters are located in the main compartment, made using a polymer material capable of transmitting visible radiation and blocking ultraviolet radiation.

The fan is located in the inlet window of the case.

Additionally, an LED indicator of the operation of the ultraviolet emitter can be made on the body.

In a preferred embodiment, the polymeric material occupies at least 80% of the area of the main compartment.

It is also preferred that the main compartment is made of polymethyl methacrylate.

The body can be cylindrical.

The recirculating lamp is equipped with three visible light emitters, located equidistant from the ultraviolet emitter.

The body contains an aluminum support element, which is the rear part of the main compartment wall.

The recirculator can be arranged to be placed on a surface in a vertical position.

The recirculator can be designed to be suspended in a horizontal position.

The recirculator can be wall-mounted.

The implementation of the main compartment of the housing of the proposed recirculator lamp from a material that is transparent to visible light and impenetrable to UV radiation, allows you to avoid the need to separate the mentioned emitters in different compartments, do not use partitions, dividers and do not combine body materials, for example, transparent and opaque, and place all the emitters in one compartment, through which the disinfected air passes, additionally performing the function of cooling the emitters of visible light, which increases their service life.

The utility model is illustrated with the help of Figs. 1-3, which show an advantageous embodiment.

Figure 1 shows a longitudinal top view of the device at an angle in section.

Figure 2 shows a recirculator lamp in cross section.

Figures 3a-3b show a cross-sectional view of the main compartment with and without a support element.

A recirculator for air disinfection and lighting contains a housing 1, made with an inlet window 2, a main compartment 3 and an outlet window 4. The "main compartment" means a large part, not less than 90% of housing 1, or housing 1 as a whole, in which all the equipment is located ... The material of the compartment 3 is a UV-resistant polymer, for example, polymethyl methacrylate. In this case, it is the walls of the compartment 3, which are external and unique, made of polymer. Thus, in the main compartment 3 there are no partitions and other internal demarcation elements.

Preferably, the housing is cylindrical, with the inlet 2 and outlet 4 windows, as a rule, made of impact-resistant polystyrene in the form of lids with holes connected to the main compartment 3. In this case, the windows 2,4 can be part of the compartment 3.

Section 3 contains a UV emitter 5, for example, a bactericidal ozone-free lamp with a power of 15-30 W and a wavelength of 253.7 nm, and emitters of visible light 6, for example, several LED lamps, fluorescent lamps or LED strips with a power of 10-14 W ... Preferably, three LED linear lamps and one germicidal ozone-free UV lamp are used, evenly spaced in the preferred cylindrical body so that each lamp occupies its own quarter of the cylinder body 1. The UV emitter 5 is located on the rear side, and thus the emitters 6 are evenly removed from UV lamp 5.

The main compartment 3 in a particular embodiment contains an aluminum bearing element 9, which forms a small part of a cylindrical wall, not more than 20% of the circumference in cross section, installed on the side of the UV emitter (Figs. 3a-3b). Accordingly, the polymer material makes up at least 80% of the area of the main compartment and makes it possible to effectively scatter light radiation from lamps 6 and absorb UV from the emitter 5. As a result, the recirculator lamp in the disinfection mode can work both in the absence and in the presence of people in the room. ...

In addition, the housing contains a power supply and control unit 7, as well as a fan 8 for circulating the air flow, usually made in the inlet window of the housing 1.

Unit 7 can carry out the functions of turning on and off the emitters 5,6 according to the signals transmitted from the remote control. Thus, only emitters 6, only UV emitters 5, or all emitters together can be turned on. To control the operating mode, housing 1 can be additionally equipped with an LED indicator for turning on the UV emitter 5.

The proposed recirculator lamp can be made with the possibility of wall mounting, suspended in a horizontal position, or placed on a surface, for example, on the floor or on a table in a vertical position. For this, suitable fastening means are mounted to the housing, in particular to the support element.

The recirculator lamp for air disinfection and lighting works as follows.

By pressing a key on the control panel, the lighting is turned on. The power and control unit receives the switch-on signal and supplies power to the visible light emitters. The emitted light passes through the UV-resistant polymer in the housing.

By pressing the second button on the control panel, the germicidal UV recirculation mode is activated. The power and control unit receives the signal and supplies power to the fan and UV emitter. The air begins to forcibly circulate through the housing and is disinfected. In this case, the used emitters are cooled. UV radiation does not leave the housing, since the main compartment, where such a radiator is located, is made opaque to UV.

By pressing another key, the simultaneous operation of lighting and recirculation is activated.

The LED indicator indicates the selected UV recirculation mode.

Switching off occurs in the same way by pressing the corresponding keys.

The recirculator for air disinfection and lighting is manufactured and tested indoors. The device is lighter than its counterparts and has a simpler design. For a complete disinfection of a room with an area of 30 m ² , 60 minutes a day in the "UV recirculation" mode is enough.

Thus, due to the absence of compartments for separating the emitters of visible light and the UV-emitter, a reduction in weight and a simplification of the design of the claimed recirculating lamp is achieved.

Claims (10)

1. A recirculator lamp for air disinfection and lighting, containing a housing made with an inlet window, a main compartment and an outlet window, an ultraviolet emitter installed in the housing, visible light emitters, a fan for air circulation and a power and control unit, characterized in that the emitters are located in the main compartment, made using a polymer material capable of transmitting visible radiation and blocking ultraviolet radiation. 2. A recirculator lamp according to claim 1, characterized in that the fan is located in the inlet window of the housing. 3. A recirculator lamp according to claim 1, characterized in that the polymer material occupies at least 80% of the area of the main compartment. 4. A recirculator lamp according to claim 1 or 3, characterized in that the main compartment is made of polymethyl methacrylate. 5. A recirculator lamp according to claim 1, characterized in that the body is cylindrical in shape. 6. A recirculator lamp according to claim 1, characterized in that it is equipped with three emitters of visible light, located equidistant from the ultraviolet emitter. 7. A recirculator lamp according to claim 1, characterized in that the housing comprises an aluminum support element, which is the rear part of the wall of the main compartment. 8. A recirculator lamp according to claim 1 or 7, characterized in that it is arranged to be placed on a surface in a vertical position. 9. A recirculator lamp according to claim 1 or 7, characterized in that it is capable of being suspended in a horizontal position. 10. A recirculator lamp according to claim 1 or 7, characterized in that it is wall-mounted.

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