SU717568A1 - Stand for heat engineering testing of conditioner - Google Patents

Description

(G, 4) STAND FOR HEAT TECHNICAL CONSTRUCTION OF AIR CONDITIONER 3 7 path 1, in which preparatory 2 and test 3 are marked air conditioners, temperature sensor 4, heat load simulator 5 and measuring equipment 6. The stand also contains a heat exchanger 7, the capacity of which is equal to the accumulating capacity the room for which the test air conditioner is intended, the heat exchanger 7 and the temperature sensor 4 are installed in series and placed in the air duct 1 behind the air conditioner 3. In addition, Air 7 and simulator 5 can be connected by a circulating circuit 8, 6 which is additionally connected to a liquid tank 9 with supply 10 and outlet 11 pipelines on which vents 12 are installed. The power supplied to simulator 5 (electric heater) is measured Psmchschi measuring equipment 6, for example wattmeter. The parameters of the air leaving preparative air conditioner 2 are recorded by thermometers 13. A pump 14 is installed in the circulation circuit 8. When calculating the heat sink 7, it is taken into account that the simulator 5 (heater 1) has a certain heat storage capacity, therefore the heat storage capacity of the heat exchanger 7 must be less by this amount. The liquid cavity of the heat exchanger 7 can be included in the circulation circuit 8. In the latter, the pump 14 and the liquid reservoir 9 are installed. In this case, the simulator 5 is not embedded in the air path 1, but in the circulation circuit 8. The amount of water in the inverter 9 is calculated on the assumption that the total heat storage capacity of the heat exchanger 7 and the train 8 is equal to the heat storage capacity of the room for which the air conditioner under test is intended. By varying the amount of water in the tank with the help of valves 12, it is possible to imitate the thermal storage capacity of any room. The tests on the proposed stand are carried out as follows: 6 Air at admission to the preparatory conditioner 2, due to the perceived heat and humidity load, the air is given to the specified parameters, which are monitored by thermometers 13. The heat and moisture load is transferred to the test box, where the ji is processed. is supplied to simulator 5. Here, the thermal load, which is monitored with a power meter, and fed to the heat exchanger 7, enters the heat exchanger 7. The correspondence between the thermal load on the service In real-life conditions, the room and the air conditioner are provided with a cyclical operation of the air conditioner. Similar phenomena occur during stand tests. During the cycle, the temperature of the air coming out of the cooler 3 and entering the simulator 5 and the heat exchanger 7 changes. At the same time, the temperature of the heat exchanger 7 itself also changes. Therefore, heat is accumulated (summedul) in the heat exchanger 7 or transferred accumulated tagla to the air passing through it (KOI and its cooling). Since the heat storage capacity of the heat exchanger 7 is equal to the storage capacity of the room, the air parameters measured by the temperature sensor 4 at the exit of the heat exchanger 7 will be the same as in the room served by the cooling gear 3. When the liquid cavity of the heat exchanger 7 is turned on in the circulation circuit 8, the tests are carried out similarly. The difference is as follows. When the fluid circulates through the circuit 8 carried out by the pump 14, the latter contributes some constant amount of heat to the circuit 8. Therefore, inputting thermal load through simulator 5 should be corrected for the amount of heat introduced by pump 14. The heat load created by simulator 5 is transferred to the water heated in circuit 8 and changes its temperature. The heated water enters the heat exchanger 7, where the heat load is transferred to the air passing through it. Cycling the temperature of the air passing through the heat exchanger 7 leads to a change in the temperature of the surface of the heat exchanger 7. Due to the circulation of water in the circuit 8, heat is accumulated and then returned to the air to all circuits, i. in the serviced room, the number of IDs per unit, in addition to

No, the characteristics of the elements of air conditioners (for example, the stability in the operation of the thermostatic Element) and, thus, determine the suitability of the expert for the specific room.

The indicated elements of the Stand can be replaced, if necessary (depending on the type of equipment under test) with others. For example, not only an electric heater can be used as a simulator, but also a recuperative heat exchanger, in which heat exchange takes place as the phase state of the heat and gel is changed and its flow rate is constant. The heat exchanger 7 can be exchanged with the liquid cavity shut off. To reduce the dimensions of the heat exchanger 7, the liquid cavity can be filled with water or another liquid.

Claims (2)

1. Stand for heat testing of the air conditioner, containing the air path, in which the preparatory and test air conditioners, temperature sensor, thermal load simulator and from: measuring equipment are placed, characterized in that, in order to reduce the size and shorten the test period for positional control of the air conditioner, the stand further includes a heat exchanger whose storage capacity is equal to the storage capacity of the room for which the test air conditioner is intended, and the heat & Lennik and temperatures are set in series and placed in the air tract behind the test conditioner. 2. The stand according to claim 1, which is connected with the fact that the heat exchanger and simulator are connected by circulation circuits, in which the liquid reservoir is additionally connected to the fluid reservoir and to the water pipelines. Information sources, taken into account in the examination 1. Zakharov Yu. V. Ship's air-conditioning installation and refrigerating machines. L., Shipbuilding, 1972, p. 534. ut.2