Heat pump and method of controlling heat based on operating frequency of heating load of heating space thereof

What is claimed is: 1. A control method of a heat pump which heats a heated space through heat exchange between outdoor air and a refrigerant and heat exchange between the refrigerant and circulation water, the control method comprising: calculating a maximum allowable frequency of a compressor based on a temperature of the outdoor air and a heating load of the heated space; operating the compressor at the calculated maximum allowable frequency, calculating a mean operating frequency of the compressor while operating the compressor at the calculated maximum allowable frequency; comparing a product of the calculated maximum allowable frequency and an error coefficient with the calculated mean operating frequency; recalculating the maximum allowable frequency based on a result of the comparison between the product of the calculated maximum allowable frequency and the error coefficient with the calculated mean operating frequency; operating the compressor at the recalculated maximum allowable frequency, recalculating the heating load of the heated space based on the recalculated maximum allowable frequency; and recalculating the maximum allowable frequency by increasing the maximum allowable frequency when the product of the calculated maximum allowable frequency and the error coefficient is greater than the calculated mean operating frequency, which indicates that a heating performance of the heat pump is greater than the heating load of the heated space, in order to prevent the compressor from repeating on and off operation. 2. The control method according to claim 1 , wherein the mean operating frequency is calculated by dividing an integrated value of an operating frequency of the compressor during an operation of the compressor by an operating time of the compressor. 3. The control method according to claim 1 , where the recalculating of the maximum allowable frequency includes decreasing the maximum allowable frequency when the product of the calculated maximum allowable frequency and the error coefficient is equal to or less than the mean operating frequency, which indicates that the heating performance of the heat pump is less than the heating load of the heated space, in order to prevent the compressor from being on operation all the time. 4. The control method according to claim 3 , wherein the mean operating frequency is calculated by dividing an integrated value of an operating frequency of the compressor during an operation of the compressor by an operating time of the compressor. 5. The control method according to claim 1 , wherein the compressor increases the operating frequency of the compressor when the temperature of the heated space is lower than a desired temperature input by a user. 6. A heat pump which heats a heated space through heat exchange between outdoor air and a refrigerant and heat exchange between the refrigerant and circulation water, the heat pump comprising: an outdoor unit including a compressor which circulates the refrigerant and an outdoor heat exchanger which evaporates the refrigerant to exchange heat between the refrigerant and the outdoor air; a hydro unit including an indoor heat exchanger which condenses the refrigerant to exchange heat between the refrigerant and the circulation water and a circulation pump which pumps the circulation water to the heated space; an outdoor temperature sensing unit which senses a temperature of the outdoor air; and a control unit which calculates a maximum allowable frequency of the compressor based on the sensed temperature and a heating load of the heated space, operates the compressor at the calculated maximum allowable frequency, calculates a mean operating frequency of the compressor while operating the compressor at the calculated maximum allowable frequency, compares a product of the calculated maximum allowable frequency and an error coefficient with the calculated mean operating frequency; recalculates the maximum allowable frequency based on a result of the comparison between the product of the calculated maximum allowable frequency and the error coefficient with the calculated mean operating frequency, and operates the compressor at the recalculated maximum allowable frequency, wherein the control unit recalculates the heating load of the heated space based on the recalculated maximum allowable frequency, wherein the control unit recalculates the maximum allowable frequency by increasing the maximum allowable frequency when the product of the calculated maximum allowable frequency and the error coefficient is greater than the calculated mean operating frequency, which indicates that a heating performance of the heat pump is greater than the heating load of the heated space, in order to prevent the compressor from repeating on and off operation. 7. The heat pump according to claim 6 , wherein the control unit calculates the mean operating frequency by dividing an integrated value of an operating frequency of the compressor during an operation of the compressor by an operating time of the compressor. 8. The heat pump according to claim 6 , wherein the control unit recalculates the maximum allowable frequency by decreasing the maximum allowable frequency when the product of the calculated maximum allowable frequency and the error coefficient is equal to or less than the mean operating frequency, which indicates that the heating performance of the heat pump is less than the heating load of the heated space, in order to prevent the compressor from being on operation all the time. 9. The heat pump according to claim 8 , wherein the control unit calculates the mean operating frequency by dividing an integrated value of an operating frequency of the compressor during an operation of the compressor by an operating time of the compressor. 10. The heat pump according to claim 6 , wherein the hydro unit further includes a sub-heater which heats the circulation water having heat-exchanged with the refrigerant. 11. The heat pump according to claim 10 , further comprising a heating unit which heats the heated space through the circulation water. 12. The heat pump according to claim 11 , wherein: the heating unit includes a heating valve which opens or closes a flow of the circulation water, an input unit which receives a desired temperature input by a user, an indoor temperature sensing unit which senses the temperature of the heated space; and the heating unit controls opening or closing of the heating valve according to a result of comparison between the desired temperature and the temperature of the heated space sensed by the indoor temperature sensing unit. 13. The heat pump according to claim 12 , wherein the control unit increases the operating frequency of the compressor when the temperature of the heated space is lower than the desired temperature input by the user. 14. The heat pump according to claim 11 , wherein the heating unit includes at least one of a radiator which radiates the heat of the circulation water to the heated space and an underfloor heater which provides the heat of the circulation water to a floor of the heated space. 15. The heat pump according to claim 6 , wherein the indoor heat exchanger includes a spiral heat exchanger which includes a plurality of spiral channels formed therein and the refrigerant and the circulation water pass through the plurality of spiral channels so as to perform the heat exchange therebetween. 16. The heat pump according to claim 6 , wherein the indoor heat exchanger includes a plate heat exchanger which includes a plurality of heat transfer plates stac