RU2011142186A

RU2011142186A - AIR CONDITIONING

Info

Publication number: RU2011142186A
Application number: RU2011142186/06A
Authority: RU
Inventors: Хидехико КИНОСИТА; Цуйоси ЯМАДА
Original assignee: Дайкин Индастриз, Лтд.
Priority date: 2009-03-19
Filing date: 2010-03-19
Publication date: 2013-04-27
Also published as: EP2410264A1; RU2482402C1; US20120000228A1; AU2010225956A1; EP2410264A4; JP5067505B2; CN102356285A; CN102356285B; KR20110139287A; AU2010225956B2; WO2010106817A1; JPWO2010106817A1

Abstract

1. Кондиционер (1), который включает в себя, по меньшей мере, компрессионный механизм (21), устройство (41) для охлаждения хладагента, расширительный механизм (24) и устройство (23) для нагревания хладагента, причем кондиционер (1) содержит:генератор (68) магнитного поля для генерации магнитного поля для индукционного нагрева трубки (F) для хладагента для циркуляции хладагента в компрессионный механизм (21), устройство (41) для охлаждения хладагента, расширительный механизм (24) и устройство (23) для нагревания хладагента и/или элемент в тепловом контакте с хладагентом, проходящим через трубку (F) для хладагента;датчик (14) температуры выделяющейся теплоты для измерения температуры участка, который генерирует тепло за счет индукционного нагрева при помощи генератора (68) магнитного поля; иблок (11) управления для осуществления управления защитой от перегрева для увеличения степени открытия расширительного механизма (24), или когда температура, измеренная датчиком (14) температуры выделяющейся теплоты, достигает или превышает заданную температуру выделяющейся теплоты, или когда скорость увеличения температуры, измеренной датчиком (14) температуры выделяющейся теплоты, достигает или превышает заданную скорость увеличения.2. Кондиционер (1) по п.1, в котором генератор (68) магнитного поля генерирует магнитное поле для индукционного нагрева трубки (F) для хладагента на впуске внутри трубки для хладагента на стороне впуска компрессионного механизма (21) и/или элемента в тепловом контакте с хладагентом, проходящим через трубку (F) для хладагента на впуске.3. Кондиционер (1) по п.1, в котором блок (11) управления осуществляет управление при запуске �1. Air conditioning (1), which includes at least a compression mechanism (21), a device (41) for cooling the refrigerant, an expansion mechanism (24) and a device (23) for heating the refrigerant, the conditioner (1) comprising : magnetic field generator (68) for generating a magnetic field for induction heating of the refrigerant pipe (F) for circulating the refrigerant into the compression mechanism (21), a device (41) for cooling the refrigerant, an expansion mechanism (24) and a device (23) for heating refrigerant and / or element in thermal contact with ladagentom passing through the tube (F) for coolant; sensor (14) the temperature of the released heat temperature measuring portion which generates heat by induction heating with a generator (68) of the magnetic field; a control unit (11) for controlling overheating protection to increase the degree of opening of the expansion mechanism (24), or when the temperature measured by the temperature sensor (14) reaches the heat generated or exceeds a predetermined temperature of the heat generated, or when the rate of increase of the temperature measured by the sensor (14) the temperature of the released heat, reaches or exceeds the specified rate of increase. 2. An air conditioner (1) according to claim 1, in which the magnetic field generator (68) generates a magnetic field for induction heating of the refrigerant pipe (F) in the inlet inside the refrigerant pipe on the inlet side of the compression mechanism (21) and / or the element in thermal contact with refrigerant passing through the inlet refrigerant pipe (F). 3. The air conditioner (1) according to claim 1, in which the control unit (11) controls at startup �

Claims

1. Air conditioning (1), which includes at least a compression mechanism (21), a device (41) for cooling the refrigerant, an expansion mechanism (24) and a device (23) for heating the refrigerant, the conditioner (1) comprising :

a magnetic field generator (68) for generating a magnetic field for induction heating of the refrigerant pipe (F) for circulating the refrigerant into the compression mechanism (21), a device (41) for cooling the refrigerant, an expansion mechanism (24) and a device (23) for heating the refrigerant and / or an element in thermal contact with the refrigerant passing through the refrigerant pipe (F);

a sensor (14) for the temperature of the released heat to measure the temperature of the portion that generates heat by induction heating using a magnetic field generator (68); and

a control unit (11) for controlling overheating protection to increase the degree of opening of the expansion mechanism (24), or when the temperature measured by the temperature sensor (14) of the generated heat reaches or exceeds the set temperature of the generated heat, or when the rate of increase of the temperature measured by the sensor (14) the temperature of the heat generated, reaches or exceeds a predetermined rate of increase.

2. The air conditioner (1) according to claim 1, in which the magnetic field generator (68) generates a magnetic field for induction heating of the refrigerant pipe (F) in the inlet inside the refrigerant pipe on the inlet side of the compression mechanism (21) and / or element thermal contact with the refrigerant passing through the inlet refrigerant pipe (F).

3. The air conditioner (1) according to claim 1, in which the control unit (11) controls at start-up to force the magnetic field to be generated by the magnetic field generator (68), so that the temperature of the area where the heat is generated by induction heating using the generator ( 68) of the magnetic field, reaches a predetermined target temperature at startup, while the actuation of the compression mechanism (21) starts from the off state of the compression mechanism (21), and also controls after starting after completion at board at startup; and

when controlling overheating protection, control is also performed after start-up, the control unit (11) increases the degree of opening of the expansion mechanism (24) when the temperature measured by the temperature sensor (14) of the generated heat reaches or exceeds the set temperature of the released heat after start-up, which is a temperature equal to or greater than the specified target temperature at startup.

4. The air conditioner (1) according to claim 3, in which when controlling the overheating protection, control at the same time is carried out at startup, the control unit (11) increases the degree of opening of the expansion mechanism (24) when the rate of temperature increase measured by the temperature sensor (14) heat released at the moment when the specified target temperature at startup is reached, reaches or exceeds the specified increase rate.

5. The air conditioner (1) according to claim 4, wherein, when determining a predetermined increase rate that has been reached or exceeded, the control unit (11) increases the degree of opening of the expansion mechanism (24) only when the rotation speed of the compression mechanism (21) reaches or exceeds the set rotation speed.

6. Air conditioning (1) according to any one of paragraphs. 3-5, further comprising an assembly (44, 29a, 11) for determining a state of a refrigerant on the side of a cooling device for determining a state of a refrigerant passing from a device (41) for cooling a refrigerant into an expansion mechanism (24);

at the same time, upon completion of control at startup, the control unit (11) starts controlling the setting of the degree of subcooling to control the degree of opening of the expansion mechanism (24), so that the degree of subcooling, determined using the value determined by the unit (44, 29a, 11) to determine the state of the refrigerant on the side of the cooling device, remains unchanged at a given target degree of subcooling; and

when controlling overheating protection, it is also possible to control the setting of the degree of subcooling, the control unit (11) further increases the degree of opening of the expansion mechanism (24) beyond the limits of the degree of opening regulated by controlling the setting of the degree of subcooling when the temperature measured by the temperature sensor (14) heat, reaches or exceeds the set temperature of the released heat when controlling the installation of the degree of subcooling, which is the temperature Q, equal to or greater than the predetermined target temperature when running.