SE418644B - Room ejection aggregate related to an air-conditioning system - Google Patents

Abstract

A room ejection aggregate in an air-conditioning plant comprising a hollow housing 1, the side walls 2, bottom part 3 and lid 4 of which are arranged to delimit a mixing chamber 5, in the lower portion of which a collecting tube 8 for introduction of fresh air, provided with nozzles 9, is arranged. In the mixing chamber, an air moistening means 12 is arranged. The side wall and lid are provided with an inlet opening 6 and an outlet opening 7, respectively. In the inlet opening 6, a heat exchanger 10 is arranged by the side wall of the housing. According to the invention, the heat exchanger 10 is constructed in the form of a so-called contact apparatus with a sprayed packing (filling body packing), and the air humidifier 12 comprises a drip pan 13 disposed in the lower portion of the mixing chamber, sprayers 14 disposed above the heat exchanger 10 and connected to the drip pan 13 through a pipeline 15, and a pump 16 which is installed in the pipeline 15 for supplying water from the drip pan 13 to the sprayers 14. <IMAGE>

Description

vsosvzs-s 2 nings are arranged in the common housing of the conditioning device.

It is obvious that the power drives and electrical assemblies of the known independent conditioning device must have a considerable power margin in order to be able to keep the predetermined parameters of air constant when varying in outdoor conditions within a wide range. An undoubted advantage of the known independent conditioning devices is that they do not require a branched indoor network of overhead lines. However, the known independent conditioning devices have not been given a wide range of uses for a number of reasons arising from constructive considerations. Due to the fact that the known independent conditioning device has a complicated construction, it becomes relatively expensive to manufacture, at the same time as its functional reliability and service life are reduced. When independent conditioning devices are installed in each room in a multi-storey building, the total energy consumption increases so much that the existing electrical network can not satisfy the need for electricity. In order to be able to remove the heat from the outside of the condensers, the independent conditioning device must be installed in the window opening, which is not always convenient to do. The other disadvantage of the well-known independent air conditioning system is that it has large dimensions.

The development work, which aims to improve primary air-conditioning devices and room units at air-conditioning systems, has proven to be more successful in this respect.

Room units have a simple construction, take up little space in the room and can be installed in any suitable place. In addition, the total energy consumption of all units in the air-conditioning system in a building is considerably lower than that of the sets of air-conditioning systems installed in all rooms in the same building. Thanks to these and other advantages, air-conditioning systems have a wide range of uses.

A known room injection unit in an air conditioning system (compare, for example, Bahco Induction Units, prospectus of a Swedish company, "Bahco Ventilation", 1974) comprises a hollow housing, side walls, bottom part and lid arranged to define a mixing chamber, in which lower part a collecting pipe for primary air supply is arranged. An inlet hole is accommodated in the side wall of the house, in which a surface-type heat exchanger is arranged. The heat exchanger is built in the form of a pipe spiral and connected to a system for supplying heat transfer means. Such a known room unit has been used successfully for both cooling and heating of air during summer resp. winter time and ensures stable temperature conditions in premises.

When working with the system with these known room units, however, certain inconveniences arise, which are associated with the humidity not being stable, which is due to the fact that the air supplied from the primary air conditioning system to different room units has the same moisture content. climatic conditions in different rooms are generally different, which means that operating conditions for the room units are not the same, whereby these conditions also vary significantly during the day. Since humidity is only regulated centrally, in practice the optimum humidity cannot be kept constant in every room.

It is known to increase the control accuracy of the humidity conditions in rooms by humidifying recirculation air in a room unit (compare, for example, the Soviet Inventor's Certificate 367 319). Said known room section assembly comprises a hollow housing, the side walls, bottom part and lid of which are arranged to delimit a mixing chamber, in the lower part of which a collecting pipe for primary air supply is arranged, which is connected to a primary conditioning device and provided with nozzles. In the side wall of the house, an inlet hole is occupied, in which a heat exchanger is arranged. The lid of the house is provided with an outlet hole. This known assembly is characterized in that a grouting means is arranged in the mixing chamber, which means is built up in the form of a water-supply pipeline, which is arranged in the collecting pipe for primary air supply and is provided with pipe nozzles which are inserted in the nozzles of the collecting pipe. for primary air supply. The heat exchanger is constructed in the form of a tube coil and connected to a system for supplying a heat transfer medium. The collecting pipe for primary air supply has the shape of a box, through whose upper lid the nozzles are passed. At the same time as the primary air leaves the nozzles, it ejects the water from the nozzles, whereby this is atomized in the mixing chamber and moistens the mixture of recirculation and primary air. The known room ejection unit described above makes it possible to individually regulate the moisture content in each room. However, practical experience has shown that this known room unit has a number of disadvantages.

When this known unit operates continuously, water accumulates on the lid of the collecting pipe, which floods the nozzles, disturbs the normal operating condition of the humidifying means and even thrown out is the 7908726-8 unit into the room. It is obvious that in this case it is not possible to accurately regulate such a parameter as humidity.

The operating condition of the humidifier is also affected in a destabilizing manner by the pipe spiral, on which water condenses when air is cooled during summer time. During winter, when the heated heat transfer medium is fed into the heat exchanger, the relative humidity in the room becomes lower due to water evaporation. The other disadvantage of the unit described above is that this - in order to make the unit functional - requires a branched system of APPs and pipes for heating, cooling and supply of the heat transfer medium, which system requires a considerable energy consumption for that this should be able to function normally.

The main object of the present invention is to provide such a room injection unit in an air conditioning system, where the heat exchanger and the humidifying means are designed so that by combining the heat exchange and humidification processes the heat exchanger's destabilizing effect and energy consumption are reduced. of pipelines for the supply and removal of the heat transfer medium.

This is achieved by means of a room ejection unit in an air conditioning system, which ejection unit comprises partly a hollow housing, the side walls, bottom part and lid of which are arranged to delimit a mixing chamber, and partly a collecting pipe for primary air supply, which is provided with nozzles and provided with nozzles. lower part of the housing chamber, partly an inlet hole accommodated in the side wall of the housing, partly a heat exchanger which is arranged in the inlet hole in the side wall of the housing, partly a humidification means arranged in the mixing chamber and partly an outlet hole accommodated in the housing lid, wherein the heat exchanger is built in the form of a so-called contact apparatus with an irrigable gasket, while the humidifying means comprises a bottom plate, which is arranged in the lower part of the mixing chamber, injection nozzles, which are arranged above the heat exchanger and connected to the bottom plate by means of a pipeline, and a pump, which is arranged in the pipeline for water supply from the bottom plate to the injection nozzles. Such a design of the unit contributes to the heat exchange and humidification process being carried out in the irrigable gasket at the same time as finely divided water is in immediate contact with the recirculation air to be taken in from the room to be conditioned (air-conditioned). By combining the heat exchange with the humidification, their mutual destabilizing effect can be reduced to a minimum, whereby by using the water supplied to the humidification step by heat exchange, the need for the special system of pipelines for heat transfer medium supply. When the unit operates under cooling conditions, a considerable part of the heat is absorbed, as water evaporates in the irrigable gasket. All circumstances contribute to reducing the specific energy consumption of the room unit and the air-conditioning system 1 as a whole and to a high level of accuracy for humidity. It should be noted that Vêttenäarupps in the irrigable gasket wets dust and other mechanical particles suspended in the recirculation air, whereby they remove them from the gasket to the bottom plate and purify air. This eliminates the need for a mechanical filter and makes it possible to increase the unit's ejection efficiency by reducing the aerodynamic resistance.

In a possible embodiment of the unit according to the invention, the pump of the humidifying means is a centrifugal pump, which is suitably installed in rooms separate from the primary conditioning device, for example in peripheral parts of a branched air conditioning system.

In the case of the room units which are arranged closer to the primary conditioning device, it is suitable that the pump of the humidifier is built up in the form of an air-water injector, which is connected to the collecting pipe for the primary air supply and to the bottom plate.

It is suitable that a mechanical filter is arranged at the inlet in the pipeline for water supply from the bottom plate to the injection nozzles, which prevents dirt from the bottom plate from ending up in the injection nozzles, at the same time as the unit has higher functional safety.

It is suitable that a throttle valve (a damper) is arranged in the collecting pipe for primary air supply, which throttling valve is intended to change the flow rate and selectively interrupt the supply of air to said collecting pipe nozzles or to the air-water ejector, which makes it possible to substantially increase the control range. for the parameters of the supplied air.

It is suitable that a pipe socket is connected to one side wall of the housing in the upper part of the mixing chamber, which pipe socket is led outside the room and provided with a shutter-shaped member. This makes it possible to accumulate cold air outside at night, which helps to reduce the energy consumption of the unit and the system as a whole.

It is suitable that a pressure chamber is arranged in the lower part of the mixing chamber, which pressure chamber comprises a screen wall and a lid and is connected to the bottom plate below the screen wall and "to the collecting pipe for primary air supply by means of a pipeline built into the lid. the unit helps the pump to operate very stably, as the water level in the butt plate is kept constant.To remove the dirt that has precipitated in the bottom plate, it is suitable that an outlet pipe socket provided with a shut-off valve is connected to the bottom plate via the bottom part of the housing.

It is furthermore suitable that the irrigable gasket is arranged so that it bridges a part of the inlet hole and that the other part of the inlet hole is provided with a shutter-shaped member, which makes it possible to fine-tune the parameters of the mixture of primary and recirculation air ( inflowing air).

The invention is described in more detail below with reference to the accompanying drawing, in which Fig. 1 shows a vertical section through the room section assembly proposed according to the invention at an air conditioning system, Fig. 2 shows a vertical section through an embodiment of the room section assembly according to the invention with a pump in the form of an airwater injector, Fig. 3 shows a cross section through a collecting pipe for primary air supply provided with a throttle valve, Fig. 4 shows a vertical section through an embodiment of the room section assembly according to the invention with a pressure chamber, Fig. 5 shows a vertical section through an embodiment of the room selection unit according to the invention with a pipe socket, which is connected to one of the side walls of the housing, Fig. 6 shows a perspective view of an embodiment of a so-called contactor with a hygroscopic irrigable gasket, Fig. 7 shows a perspective view of the contactor with an irrigable gasket of ceramic rings and Fig. 8 shows a perspective view of an embodiment of the contactor with an irrigable gasket of corrugated strips.

The room selection unit shown in Fig. 1 for an air conditioning system (a climate system) comprises a hollow housing 1 provided with heat and sound insulation, the side walls 2, bottom part 3 and lid 4 of which are arranged to delimit a mixing chamber 5.

The side wall 2 of the housing 1 is provided with an inlet opening 6 for supplying recirculation air from a room in the mixing chamber 5. An outlet opening 7 is accommodated in the cover 1 of the housing 1, through which a humidified mixture of primary and recirculation air can be discharged to the premises. In the lower part of the mixing chamber 5 a collecting pipe 8 for primary air supply provided with nozzles 9 is arranged. At the side wall 2 of the housing 1 a heat exchanger 10 is arranged in the inlet opening 5, which according to the invention is built in the form of a so-called contact device (a heat and substance transfer device) with an irrigable gasket (packing or filling body) ll. In the mixing chamber 5 a humidifying means 12 is arranged, which according to the invention comprises a bottom plate 13 arranged in the lower part of the mixing chamber 5 and injection nozzles 14 arranged above the heat exchanger 10 for irrigating the packing body 11. The bottom plate 13 is connected to the injection nozzle 14 pipeline 15, in which a pump 16 is arranged. The pump 16 is of the centrifugal type and intended for water supply from the bottom plate 13 to the injection nozzles 14. At the inlet in the pipeline 15 for water supply from the bottom plate 13 to the injection nozzles 14, according to the invention, a mechanical filter 17 is arranged.

Pig. 2 shows an embodiment of the ejection assembly according to the invention, in which the pump 16 of the humidifier 12 is built up in the form of an air-water injector 18, which is connected to the bottom plate 13 by means of a pipe socket 19. In this embodiment of the ejection assembly according to the invention the mechanical filter 17 arranged at the inlet of the pipe socket 19.

In this embodiment, further, the collecting pipe 8 for primary air supply, according to the invention, is provided with a throttle valve (a damper) 20, which is intended to change the air flow rate and selectively bridge the air supply to the nozzle 9 of the collecting pipe 8 or to the air-water injector 18. 20 is arranged in the collecting pipe 8 as shown in Fig. 3.

Fig. 4 shows an embodiment of the room selection assembly according to the invention, which according to the invention is provided with a pressure chamber 21, which is arranged in the lower part of the mixing chamber 5 and comprises a screen wall 22 and a lid 23. The pressure chamber 21 is connected with the bottom plate 13 under the screen wall 22 and with the collecting pipe 8 for primary air supply by means of a pipeline 24 built into the lid 23. In this embodiment of the room selection unit according to the invention, an outlet pipe socket 25 provided with a shut-off valve 26 is connected to the base plate 13. 1 bottom part 3. In the upper part of the mixing chamber 5 an electric heater 27 is arranged, which is intended for further heating of the mixture of air and recirculation air during winter time.

Fig. 5 shows an embodiment of the assembly according to the invention, in which the irrigable packing body 11 is arranged so that it bridges one part of the inlet opening 6, the other part of which is provided with a shutter-shaped member 28. The best results are obtained , when the irrigable packing body 11 is arranged to bridge the upper part of the inlet opening 6. In this embodiment of the unit, in addition, a pipe socket 29 is connected to one of the side walls 2 of the housing 1 in the upper part of the mixing chamber 5, which pipe socket is moved outside the premises and provided with a shutter-shaped member 30. The best results are obtained when the pipe socket 29 is connected to the side wall 2 of the housing 1, which is opposite the side wall 2 of the housing 1 with the inlet opening 6 accommodated therein. The inlet and outlet openings 6 and 6, respectively. 7 are in this embodiment provided with louver-shaped members 31 and 31, respectively. 32.

Figs. 6-8 show different embodiments of the so-called the contactor with the irrigable packing body ll. In the irrigable packing body 11, heat and substance transfer processes are carried out, at the same time as the recirculation air, which flows from the room into the room section unit, is humidified.

Pig. 6 shows an embodiment of the contact device, which comprises a so-called cassette 33 with grid walls 34. In a cavity in the cassette 33, the hygroscopic packing body 11 of wood planer shavings 35 is arranged.

Fig. 7 shows an embodiment of the contact apparatus, which comprises the irrigable packing body 11 in the form of ceramic rings 36 in bulk form, which are arranged in the inner cavities of the cassette 33.

Fig. 8 shows an embodiment of the contact apparatus, which comprises the irrigable packing body 11 in the form of corrugated strips 37, which are arranged vertically in the cassette 33 and form curved channels.

The room selection unit for an air conditioner works as follows. During the operation of the unit, primary air, which has been previously treated in a primary conditioning device (not shown), flows into the collecting pipe 8, from where it is fed into the mixing chamber 5 via high-speed nozzles 9.

“During the summer and winter period, pre-chilled resp. heated primary air in the mixing chamber 5.

By supplying primary air at a high speed, a vacuum (low pressure) is generated in the mixing chamber, which promotes that recirculation air from the room is sucked into the mixing chamber 5 via the inlet opening 6. At the same time as primary air is supplied, the humidification means 7908726 12, whereby water from the bottom plate 13 by means of the centrifugal pump 16 through the filter 17 and the pipeline 15 is supplied to the injection nozzles 14, where it is atomized (pulverized) and water the heat exchanger 10 of the heat exchanger 10. The recirculation air flows through the inlet opening 6 into the mixing opening 6. the clay eggs 34 of the cassette 33 cassette and the irrigable packing body 11. In the packing body 11, air is brought into contact with water droplets and the moistened packing material, whereby it is moistened and cooled, at the same time as the recirculation air is purified from the particles suspended therein, which together with water droplets drain to the bottom plate 13. The thus treated recirculation air is mixed. in the mixing chamber 5 - with the supplied primary air, which results in the inflowing air having the parameters required for the room to be air-conditioned (conditioned). The inflowing air flows out via the outlet opening 7 into the room. The water passes through the packing body 11, partially evaporates and drains to the bottom plate 13. When the irrigable packing body 11 consists of the hygroscopic wooden planer chips 35, the water to be atomized flows through the curved channels formed by the chip 35 in the direction of from down. Similarly, said water flows through the curved channels in the irrigable packing body 11, which are formed by the ceramic rings 36 in bulk form or the corrugated strips 37.

When the pump 16 is constituted by the air-water ejector 18, a part of the treated primary air flows at high speed at the nozzles 9 into the mixing chamber 5, where vacuum (low pressure) is generated, while the other part of the primary air stream is introduced into the ejector 18, while water ejected from the base plate 13 through the filter 17 and the pipe socket 19.

The formed air-water mixture is supplied to the injection nozzles 14 through the pipeline 15. The flow rate of the primary air flowing through the nozzles 9 and the air-water injector 18 is regulated by means of the damper 20. The continued operation of the ejection unit is carried out in exactly the same manner as above.

During the operation of the embodiment of the unit according to the invention shown in Fig. 4, primary air flows partly from the collecting pipe 8 in the pressure chamber 21 via the pipeline 24. Under the influence of the air pressure, the water is forced out of the pressure chamber 21, under the screen wall 22, into the bottom plate 13, in that the water level in the bottom plate 13 is raised, whereby the water by itself flows into the ejector l8. The water level in the bottom plate 13 is regulated by changing the pressure of the primary air to be supplied. The contaminated water is periodically removed from the bottom plate 13 via the outlet pipe socket 25, after which the bottom plate 13 is filled with clean water. The continued function of the room section assembly is carried out in the same way as in the first embodiment of the unit. In winter, the incoming air obtained is further heated by means of the electric heater 27, after which it is fed via the outlet opening 7 into the room to be air-conditioned.

During the operation of the unit according to Fig. 5, the recirculation air to be sucked into the mixing chamber 5 is divided into two streams. The first stream is sucked via the upper part of the inlet opening 6 and passes through the irrigable packing body 11, at the same time as it is moistened and cooled. The second air stream is sucked via the lower part of the inlet opening 6. This makes it possible to most effectively control the final parameters of the inflowing air obtained.

During the night, with this embodiment of the room ejection unit, cold can accumulate in the cooled water present in the bottom plate 13, since cold during this time is not consumed by the room to be air-conditioned. In this case, the shutter-shaped members 28 and 31 of the inlet opening 6 and the shutter-shaped members 32 of the outlet opening 7 are closed and the shutter-shaped members 30 of the pipe nozzle 29 are opened, while the nozzles 9 of the collecting pipe 8 for primary air supply are closed. From the primary air conditioning unit (not shown), primary outdoor air, which has not been heat-treated and has a relatively low temperature, is fed into the collecting pipe.

The primary air flows through the air-water ejector 18 and transfers the water from the base plate 13 to the heat exchanger 10. The heat exchange in the ejector 18 and the heat exchanger 10 results in the water being cooled to the wet night air temperature.

The cooled water flows through the irrigable packing body 11 and drains to the bottom plate 13, at the same time as the air separated from the water is removed outwards through the pipe socket 29.

During the day, the shutter 30 of the pipe connection 29 is closed and the shutters 28 and 31 of the inlet opening 6 and the shutter 32 of the outlet opening 7 are opened, while the nozzles 9 are opened by moving the damper 20. The gradually increasing cooling consumption in the room to be air-conditioned is covered. through the cold accumulated in the water.

The air conditioning system (not shown) of the primary air conditioner is in this case switched off. The time during which the ejection unit operates under such operating conditions depends on the

Claims (9)

7908726-8 ll plate 13 volume. When the cooling consumption increases sharply, the air cooling device of the primary air conditioning device is started, whereby primary air is cooled by artificial cooling. The workflow of this embodiment of the room ejection unit is then carried out in the same manner as above. Above, only some particular embodiments of the invention are described, which allow various modifications and additives which will be apparent to those skilled in the art. In addition, other modifications may be made if the scope of the invention is not departed from. Patent claims A room selection unit at an air conditioning system, which unit comprises on the one hand a hollow housing (1) whose side walls (2), bottom part (3) and lid (4) are arranged to delimit a mixing chamber (5), in which lower part is arranged a collecting pipe (8) for primary air supply, which is provided with nozzles (9), wherein the side wall (2) of the housing (1) is provided with an inlet opening (6), and partly a heat exchanger (10), which is arranged at the housing (1). ) side wall (2) in the inlet opening (6), and on the one hand a humidifying means (12) arranged in the mixing chamber (5), while the lid (4) of the housing (1) is provided with an outlet opening (7), characterized in that the heat exchanger (10) is built in the form of a so-called contact apparatus with an irrigable packing body (II), the humidifying means (12) comprising a bottom plate (13) arranged in the lower part of the mixing chamber (5), injection nozzles (14) arranged above heat exchange valves 1 (10) and connected to the base plate (13) by a pipeline (15), and a pump (16) arranged in the pipeline (15) for supplying water from the base plate (13) to the injection nozzles (14). in A unit according to claim 1, characterized in that the pump of the humidifier (12) is a centrifugal pump. 3. An assembly according to claim 1, characterized in that the pump (16) of the humidifier (12) is constructed in the form of a water injector (18) which is connected to the collecting pipe (8). for primary air supply and with the base plate (13). Unit according to one of Claims 1 to 3, characterized in that a mechanical filter (17) is arranged at the inlet in the pipeline (15) for supplying water from the bottom plate (13) to the injection nozzles (14). Unit according to claim 3, characterized in that a damper (20) is arranged in the collecting pipe (8) for primary air supply, which damper is intended to change the air flow rate and selectively bridge the air supply to the nozzles (9) of the collecting pipe (8) or to the air-water injector (18). Assembly according to claim 4, characterized in that a pipe socket (29) is connected to one of the side walls (2) of the housing (1) in the upper part of the mixing chamber (5), which pipe socket is led outside the room and provided with a blind format body (30). 2 Assembly according to claim 1, characterized in that a pressure chamber (21) is arranged in the lower part of the mixing chamber (5), which pressure chamber is provided with a screen wall (22) and a lid (23) and connected to the bottom plate (13). ) under the screen wall (22) and partly the collecting pipe (8) for primary air supply - through a pipeline (24) built into the cover (23). Assembly according to claim 1, characterized in that an outlet pipe socket (25) is connected to the bottom plate (13) via the bottom part (3) of the housing (1), which outlet pipe socket is provided with a shut-off valve (26). 9. An assembly according to claim 1, characterized in that the irrigable packing body (II) is arranged such that it bridges a part of the inlet opening (6), the second part of which is provided with a shutter-shaped member (28),