RU2011126C1 - Conditioning device - Google Patents

Abstract

FIELD: conditioning devices. SUBSTANCE: sprinkling unit is made in form of reservoir filled with liquid and provided with adjustable holes in bottom; reservoir is mounted above heat exchanger. Heat exchanger is made of tubular elements which are mounted at clearance in each row, thus ensuring surface tension of liquid between lateral surfaces of elements. Proportioning chute and tank which are brought in communication with each other are mounted in succession above reservoir. Elements made of hygroscopic material and partially immersed in water are mounted in sump. EFFECT: enhanced efficiency. 4 cl, 3 dwg

Description

 The invention relates to techniques for air conditioning, and in particular to devices for conditioning used in buildings and structures for various purposes.

 A device for processing supply air in a ventilation system is known, including a heat exchanger, a drip tray, an irrigation unit (see, for example, a.s. N 332293, class F 24 F 3/14).

 However, this device does not have sufficient efficiency due to uneven irrigation of the heat exchanger.

 Closest to the invention, the technical solution is a conditioning device comprising a heat exchanger, a liquid tray, fans and an irrigation unit.

 This known device also does not have sufficient efficiency, since the irrigation unit does not provide the required and uniform wetting of the heat exchanger elements.

 In addition, the presence of a spray gun with an independent drive increases capital and operating costs, including electricity, and also creates additional noise during operation of the device.

 The aim of the invention is to increase the efficiency of the device, as well as reducing capital and operating costs by eliminating the noted drawbacks.

 In FIG. 1 shows a conditioning device, front view with the fan removed; in FIG. 2 - a device for conditioning, general view, axonometry; in FIG. 3 - irrigation unit, option, axonometry.

 The device for air conditioning includes a heat exchanger 1, a tray 2 with liquid and a tank 3 installed directly above the heat exchanger 1, having a perforated bottom 4. The flow through the openings in the bottom 4 is regulated, for which they are calibrated or with a valve (not shown) that operates at a given water level in the tank 3.

 The heat exchanger 1 is made of tubular elements arranged in parallel rows 5. Moreover, in each row, the distance (gap) between the side surfaces of the tubular elements 5 is selected in such a way as to provide surface tension of the liquid between these surfaces.

 This ensures a uniform distribution of fluid over the entire area of the heat exchanger, since the free movement of fluid from top to bottom through the gaps between all tubular elements 6 will only occur when it reaches a certain level, ensuring that the surface exceeds the tension. This is what ensures uniform wetting of the tubular elements 5.

 The water supply to the tank 3 can be carried out from the water supply system or using a pump (not shown) from the pallet 2.

 However, in this way it is not always possible to ensure a uniform flow of water into the tank. In addition, a pump or water supply network is required to fill it, which complicates operation and is not always possible.

 In this case, the device can be equipped with a rotary dispensing tray 6, which is in series installed in height above the capacity 3, and communicates with the tank 7. The tank 7 is filled with a certain amount of water, which with the help of any regulating device (valve, calibrated hole, etc.) ) enters the rotary dispensing tray 6. The tray is filled, capsized, and the water is poured into the tank 3, filling it evenly, which ensures its even flow through the holes in the bottom to the surface of the tubular elements 6.

 In order for the tray to tip over freely when a certain volume of water enters it, it is necessary to place the center of gravity of the empty tray below the geometric axis connecting the points of its attachment and relative to which it rotates. To do this, the tray runs a triangular profile. When the tray is full, the center of gravity shifts above the specified axis and the tray tips over.

 The device has fans 8 and 9.

 In the pallet 2 can be installed lamellar elements (not shown) of absorbent material protruding from the water. Their use is advisable if the water from the pan 2 is not pumped into the tank 3 or tank 7, and it cannot be drained according to the operating conditions.

 Accumulating and evaporating water, the elements 10 free the pan 2 from the water coming from the heat exchanger 1, which facilitates the operation of the device.

 The arrows in the drawing show the direction of air flow.

 The device can be installed in various ways, for example, in the plane of a window opening or in the outer fence of a building.

 A device for air conditioning works as follows.

 When you turn on the fan 8, the intake of external or internal air directed through the heat exchanger 1. At the same time, from the tank 3, water through the holes in the bottom enters the outer surface of the tubular elements 5, the gap between which provides surface tension of the liquid and, therefore, its uniform passage between the tubular elements and uniform wetting of their surface. When the liquid evaporates from the surface, the air passing through the tubular elements 5 is cooled.

 If the device is equipped with a dispensing tray and a tank, then the tank is first filled, and then water, for example, using a control valve or a calibrated hole, enters the dispensing tray, designed for a certain volume, after which it capsizes, and water enters the tank 3 with perforated bottom.

 Further, the operation of the device occurs similarly to the first embodiment.

 Thus, the main advantages of the device are provided precisely by the uniform flow of water to the surface of the tubular elements and their uniform wetting.

 In addition, the possibility of eliminating the pump for pumping water to the upper tank, facilitates the operation of the device and reduces capital costs. Preliminary calculations and the operation of the prototype device showed the possibility of increasing thermal performance by about 10-15%.

 (56) Copyright certificate of the USSR N 1665182, cl. F 24 F 3/14, 1989.

Claims (4)

 1. DEVICE FOR AIR CONDITIONING, including a heat exchanger, a tray with liquid, fans and an irrigation unit, characterized in that, in order to increase efficiency and reduce capital and operating costs, the irrigation unit is made in the form of a container with a liquid with adjustable holes in the bottom mounted above heat exchanger.  2. The device according to p. 1, characterized in that the heat exchanger is made of tubular elements, which are installed in each row with a gap that provides surface tension of the liquid between the side surfaces of adjacent tubular elements.  3. The device according to p. 1, characterized in that it is equipped with a metering tray and a tank connected in series with each other.  4. The device according to paragraphs. 1 to 3, characterized in that it is equipped with elements of a hygroscopic material installed in the pallet, partially immersed in water.

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