RU66888U1 - DEVICE FOR IRRADIATION OF AGRICULTURAL ANIMALS - Google Patents

Abstract

The utility model is aimed at increasing the efficiency of the biological action of the device and disinfecting the premises while reducing the cost of consumed electricity per unit area of the irradiated surface, as well as reducing the overall dimensions during transportation of the irradiator. The specified technical result is achieved by the fact that the device comprises a housing, on the lower base of which a flare is made from the outside and from the inside, on which reflectors are mounted on the perimeter of the housing opening on the outside, the light holes of which with erythemic lamps are oriented downward, and on the inside - bactericidal lamps. A trapezoidal reflector with a hole in the smaller base with the possibility of redistributing bactericidal radiation from the inner surface of the trapezoidal reflector to the lower hemisphere is located on the body, made in the form of a parallelepiped with rectangular holes in the upper and lower bases. In the central part of the housing along the longitudinal axis there is a metal profile with chokes, fixed to the walls of the housing. A flange is made along the perimeter of the larger base of the trapezoidal reflector with the possibility of fixing it in the upper position relative to the body, in the upper base of which a rim is made along the perimeter, directed inward, with the possibility of moving the trapezoidal reflector along the sides of the body. 3 ill.

Description

The utility model relates to agriculture, in particular to technological equipment for stall keeping animals, and can be used in installations for irradiating farm animals.

A device is known for irradiating farm animals, containing an air duct having the shape of a truncated pyramid, on the lower base of which a flange is made, on which reflectors are fixed along the perimeter of the air outlet outlet, the light holes of which are oriented downward. In the focal plane of each of the reflectors installed erythema lamps. An infrared emitter in the form of a reflector with a lamp is installed in the area of the air outlet outlet in the same plane as the erythemal lamps. An air collector is installed on the upper base of the air duct, in the internal cavity of which a fan is installed. Reflectors are installed in the inner cavity of the duct, a bactericidal lamp is installed in the focal plane of each of them (RU 36934, IPC ⁷ А01К 1/00, publ. 10.04.2004).

The disadvantage of the device with combined radiation with ultraviolet (UV-C and UV-B) and infrared (thermal) components is that the presence of an infrared radiation source limits the height of the irradiator suspension while reducing the area of action, and also reduces the disinfecting effect of the sources UV-C radiation.

The technical result consists in increasing the effectiveness of the biological action of the device for irradiating farm animals and disinfecting the premises while reducing the costs spent

electricity per unit area of the irradiated surface, as well as a decrease in overall dimensions during transportation of the irradiator.

The technical result is achieved by the fact that the device for irradiating farm animals comprises a housing, on the lower base of which a flare is made from the outside and from the inside, on which reflectors are mounted on the perimeter of the housing opening on the outside, the light holes of which with the erythema lamps are oriented downward, and with on the inside - bactericidal lamps. A trapezoidal reflector with a hole in the smaller base with the possibility of redistributing bactericidal radiation from the inner surface of the trapezoidal reflector to the lower hemisphere is located on the body, made in the form of a parallelepiped with rectangular holes in the upper and lower bases. In the central part of the housing along the longitudinal axis there is a metal profile with chokes, fixed to the walls of the housing. A flange is made along the perimeter of the larger base of the trapezoidal reflector with the possibility of fixing it in the upper position relative to the body, in the upper base of which a rim is made along the perimeter, directed inward, with the possibility of moving the trapezoidal reflector along the sides of the body.

Figure 1 shows a schematic illustration of a variant of a specific implementation of the device; figure 2 - electrical circuit for turning on the lamps; figure 3 is a schematic illustration of a device during transportation.

The device comprises (Fig. 1) a housing 1 made, for example, in the form of a parallelepiped with rectangular holes in the upper and lower bases. On the housing 1 is a trapezoidal reflector 2 with a flange 3 around the perimeter of the larger base with the possibility of fixing it in the upper position relative to the housing 1 during operation of the device. On the outer cone-shaped part of the trapezoidal reflector 2 there are four loops 4 for hanging the device, and in its upper part there is a rectangular hole 5. On the lower base of the housing 1 is made

flanging 6, on which around the perimeter of the outlet of the housing 1 are mounted reflectors 7, the light holes of which are oriented downward. In the focal plane of each of the reflectors 7 installed erythema lamps (type LE-15) 8. In the inner cavity of the housing 1 installed bactericidal lamps 9 (type DBM-15). In this particular case, the device contains two erythema and two bactericidal lamps. Each pair of lamps 8, 9 for connecting to a power supply network (Fig. 2) is equipped with standard electrical fittings and chokes 10 mounted on a metal profile 11 with a flange 12 located along the longitudinal axis in the central part of the housing 1. In addition, the metal profile 1 1 rigidly fixed to the walls of the housing 1. Along the perimeter of the larger base of the trapezoidal reflector 2 (Fig.3) made side 13, directed inward, with the possibility of moving the trapezoidal reflector 2 on the sides of the housing 1.

The device operates as follows. The device is placed above the place of keeping animals so that the radiation 14 from the erythema lamps 8 is directed down to the irradiated animals. The duration of operation of the bactericidal lamps 9 is at least the duration of each cycle of irradiation with erythema lamps 8. The air enters through the lower inlet openings of the housing 1 and due to convection from heated chokes 10 mounted on the metal profile 11. is directed to the bactericidal lamps 9 due to the angle of inclination of the flanging profile and is irradiated with bactericidal lamps 9. The air stream irradiated with bactericidal radiation 15 exits through the upper outlet 5. When cooled, the disinfected spirit descends, acting in the animal accommodation area and providing replacement air to the local area containing the activated pathogenic microorganisms.

Compared with the known solution, the proposed one allows, by redistributing the reflected bactericidal radiation into the lower hemisphere, to increase the effectiveness of the biological effect and the disinfecting

effect. The suspension height of the proposed ultraviolet irradiator does not depend on the need to minimize it as when using infrared lamps, which ensures an increase in the area of its action and, accordingly, the area of the irradiated surface, while reducing the number of ultraviolet irradiators in the installation, reducing the specific power. In addition, the overall dimensions of the proposed ultraviolet irradiator are reduced by using fewer lamps and moving the trapezoidal reflector inside the housing before transportation.

Claims (1)

A device for irradiating farm animals, comprising a housing, on the lower base of which a flare is made on the outer and inner sides, on which reflectors are mounted on the outside of the housing’s perimeter, the light holes of which with erythema lamps are oriented downward, and bactericidal lamps on the inside characterized in that a trapezoidal reflector with an opening in a smaller base is located on the housing with the possibility of redistributing the bactericidal radiation from the internal surface the trapezoidal reflector in the lower hemisphere, and in the central part of the housing along the longitudinal axis there is a metal profile with inductors mounted on the walls of the housing, while flanging is made along the perimeter of the larger base of the trapezoidal reflector in the upper position relative to the housing, in the upper base of which along the perimeter there is a rim directed inward, with the possibility of moving the trapezoidal reflector on the sides of the housing.