초록 ▼

Provided is an air conditioner for performing heating operation through supply of a current to a heating portion including a plurality of positive temperature coefficient (PTC) heaters to be connected to a power supply section, the air conditioner including: a heater output control section for contr

Provided is an air conditioner for performing heating operation through supply of a current to a heating portion including a plurality of positive temperature coefficient (PTC) heaters to be connected to a power supply section, the air conditioner including: a heater output control section for controlling an output of the heating portion; and a plurality of pulse signal generating sections provided correspondingly to the plurality of PTC heaters, each for generating a predetermined pulse signal when a corresponding one of the plurality of PTC heaters is supplied with the current, in which the plurality of PTC heaters are subjected to detection as to whether each of the PTC heaters is in a connected state or in a non-connected state based on presence/absence of the predetermined pulse signal, and the heater output control section subjects the heating portion to output control which is adjusted according to the number of the PTC heaters in the connected state.

대표청구항 ▼

1. An air conditioner comprising: an indoor unit having an inlet and an outlet;an indoor heat exchanger arranged in the indoor unit;a blower duct connecting between the inlet and the outlet inside the indoor unit and forming a blower passage;a blower fan arranged in the blower passage;an outdoor uni

1. An air conditioner comprising: an indoor unit having an inlet and an outlet;an indoor heat exchanger arranged in the indoor unit;a blower duct connecting between the inlet and the outlet inside the indoor unit and forming a blower passage;a blower fan arranged in the blower passage;an outdoor unit having a housing;an outdoor heat exchanger arranged in the housing;an outdoor fan arranged in the housing;a compressor connected to the indoor and outdoor heat exchangers via refrigerant pipe;a power supply section;a terminal section;a heating portion having a plurality of positive temperature coefficient (PTC) heaters;a heater output control section for controlling an output of the heating portion;a plurality of signal generating sections, provided one for each of the plurality of PTC heaters; anda microcomputer connected to the heater output control section and the plurality of signal generating sections,whereinthe power supply section is connected to all or part of the PTC heaters via the terminal section,when the power supply section is connected to part of the PTC heaters via the terminal section, the power supply section is not connected to the rest of the PTC heaters via the terminal section,each of the signal generating sections has an output terminal that is connected to the microcomputer, that is applied with a predetermined voltage, and that is grounded via a rectifier circuit,each of the signal generating sections is,when a corresponding one of the PTC heaters is connected to the power supply section via the terminal section, connected to the power supply section via the terminal section and outputs a pulse signal in a form of square wave comprising only two values of High and Low, andwhen a corresponding one of the PTC heaters is not connected to the power supply section via the terminal section, not connected to the power supply section via the terminal section and outputs a High signal comprising a single value of High,the microcomputer receives the pulse signal or the High signal output from each of the signal generating sections,detects that each of the PTC heaters is connected to the power supply section via the terminal section based on the pulse signal, anddetects that each of the PTC heaters is not connected to the power supply section via the terminal section based on the High signal,the heater output control section subjects the heating portion to output control which is adjusted according to a number of the PTC heaters connected to the power supply section via the terminal section as detected by the microcomputer during heating operation, andduring the heating operation, the compressor, the blower fan, and the outdoor fan are driven, the indoor heat exchanger acts as a condenser on a high temperature side in a refrigeration cycle, and the outdoor heat exchanger acts as an evaporator on a low temperature side in the refrigeration cycle. 2. An air conditioner according to claim 1, wherein the power supply section supplies AC power,the pulse signal alternates between High and Low periodically, anda period of one cycle of the pulse signal equals a period of one cycle of the AC power. 3. An air conditioner according to claim 2, further comprising a zero-cross detecting section for detecting zero-crossing of the power supply section, whereinthe zero-cross detecting section is connected to the microcomputer, andthe microcomputer acquires outputs of the respective signal generating sections every time the zero-cross detecting section detects the zero-crossing of the power supply section. 4. An air conditioner according to claim 2, wherein the microcomputer acquires, by counting of a timer, outputs of the respective signal generating sections at a period other than an integer multiple of the one cycle of the power supply section. 5. An air conditioner according to claim 1, wherein the microcomputer acquires outputs of the respective pulse signal generating sections a plurality of times. 6. An air conditioner according to claim 1, further comprising a current detecting section for detecting a current value of the heating portion, whereinthe current detecting section is connected to the heater output control section, andthe heater output control section controls the heating portion such that the current value detected by the current detecting section does not exceed an upper limit, and adjusts the upper limit according to the number of the PTC heaters connected to the power supply section via the terminal section. 7. The air conditioner according to claim 1, wherein the terminal section includes a plurality of terminals. 8. An air conditioner comprising: an indoor unit having an inlet and an outlet;an indoor heat exchanger arranged in the indoor unit;a blower duct connecting between the inlet and the outlet inside the indoor unit and forming a blower passage;a blower fan arranged in the blower passagean outdoor unit having a housing;an outdoor heat exchanger arranged in the housing;an outdoor fan arranged in the housing;a compressor connected to the indoor and outdoor heat exchangers via refrigerant pipe;a power supply section;a terminal section;a heating portion having a plurality of positive temperature coefficient (PTC) heaters;a heater output control section for controlling an output of the heating portion;a plurality of signal generating sections provided one for each of the plurality of PTC heaters; anda microcomputer connected to the heater output control section and the plurality of signal generating sectionswhereinthe power supply section is connected to all or part of the PTC heaters via the terminal section,when the power supply section is connected o part of the PTC heaters via the terminal section, the power supply section is not connected to the rest of the PTC heaters via the terminal section,each of the signal generating sections is, when a corresponding one of the PTC heaters is connected to the power supply section via the terminal section, connected to the power supply section via the terminal section, andwhen a corresponding one of the PTC heaters is not connected to the power supply section via the terminal section, not connected to the power supply section via the terminal section,each of the signal generating sections includes: a voltage application terminal to which a predetermined direct-current voltage is applied;an output terminal connected to the microcomputer;a ground terminal grounded;a pull-up resistor provided between the voltage application terminal and the output terminal;a switch provided between the output terminal and the ground terminal; anda switch control section which,when a corresponding one of the PTC heaters is connected to the power supply section via the terminal section, turns on and off the switch according to AC power supplied form the power supply section, andwhen a corresponding one of the PTC heaters is not connected to the power supply section via the terminal section, keeps the switch off,the microcomputer receives an output from each of the signal generating sections, anddetects whether or not each of the PTC heaters is connected to the power supply section via the terminal section based on the output from each of the signal generating sections,the heater output control section subjects the heating portion to output control which is adjusted to a number of the PTC heaters connected to the power supply section via the terminal section as detected by the microcomputer during heating operation, andduring the heating operation, the compressor, the blower fan, and the outdoor fan are driven, the indoor heat exchanger acts as a condenser on a high temperature side in a refrigeration cycle, and the outdoor heat exchanger acts as an evaporator on a low temperature side in the refrigeration cycle. 9. An air conditioner according to claim 8, wherein the pulse signal alternates between High and Low periodically, anda period of one cycle of the pulse signal equals a period of one cycle of the AC power. 10. An air conditioner according to claim 9, further comprising a zero-cross detecting section for detecting zero-crossing of the power supply section, whereinthe zero-cross detecting section is connected to the microcomputer, andthe microcomputer acquires outputs of the respective signal generating sections every time the zero-cross detecting section detects the zero-crossing of the power supply section. 11. An air conditioner according to claim 9, wherein the microcomputer acquires, by counting of a timer, outputs of the respective signal generating sections at a period other than an integer multiple of the one cycle of the power supply section. 12. An air conditioner according to claim 8, wherein the microcomputer acquires outputs of the respective signal generating sections a plurality of times. 13. An air conditioner according to claim 8, further comprising a current detecting section for detecting a current value of the heating portion, whereinthe current detecting section is connected to the heater output control section, andthe heater output control section controls the heating portion such that the current value detected by the current detecting section does not exceed an upper limit and adjusts the upper limit according to the number of the PTC heaters connected to the power supply section via the terminal section. 14. The air conditioner according to claim 8, wherein the terminal section includes a plurality of terminals.