High-frequency heating apparatus

The invention claimed is: 1. A high frequency heating apparatus for driving a magnetron, comprising, a direct current power supply; a series circuit comprising a pair of semiconductor switching elements; and a resonance circuit connected with a primary coil of a leakage transformer and a capacitor; in which the series circuit is connected to the direct current power supply in parallel, and, in an AC equivalent circuit, an end of the resonance circuit is connected to an intermediate point of one end of the series circuit and the other end is connected to an end of the direct current power supply, and further comprising, a drive means for driving the respective semiconductor switching elements; a rectifying means, which is connected to a secondary coil of the leakage transformer; and a magnetron, which is connected to the rectifying means, wherein a variable dead time preparation circuit which allows a period for which respective semiconductor switching elements are simultaneously turned off to vary in response to a switching frequency is provided, wherein the variable dead time preparation circuit allows the dead time to increase in response to a rise in the switching frequency when the switching frequency is greater than or equal to a predetermined switching frequency, and wherein the variable dead time preparation circuit allows the dead time to remain constant or to increase minutely as a function of the switching frequency when the switching frequency is less than the predetermined switching frequency. 2. A high frequency heating apparatus for driving a magnetron, comprising, a direct current power supply; two sets of series circuits each consisting of a pair of semiconductor switching elements; and a resonance circuit connected with a primary coil of a leakage transformer and a capacitor; in which two sets of the series circuits are respectively connected to the direct current power supply in parallel, and an end of the resonance circuit is connected to an intermediate point of the one end of series circuits and the other end thereof is connected to an intermediate point of the other direct current power supply, and further comprising, a drive means for driving the respective semiconductor switching elements; a rectifying means, which is connected to a secondary coil of the leakage transformer; and a magnetron, which is connected to the rectifying means, wherein a variable dead time preparation circuit which allows a period for which respective semiconductor switching elements are simultaneously turned off to vary in response to a switching frequency is provided, wherein the variable dead time preparation circuit allows the dead time to increase in response to a rise in the switching frequency when the switching frequency is greater than or equal to a predetermined switching frequency, and wherein the variable dead time preparation circuit allows the dead time to remain constant or increase minutely as a function of the switching frequency when the switching frequency is less than the predetermined switching frequency. 3. A high frequency heating apparatus for driving a magnetron, comprising, a direct current power supply; a series circuit consisting of a pair of semiconductor switching elements; and a resonance circuit connected with a primary coil of a leakage transformer and a capacitor; in which the series circuit is connected to the direct current power supply in parallel, and the resonance circuit is connected in parallel to one of the semiconductor switching elements, and further comprising, a drive means for driving the respective semiconductor switching elements; a rectifying means, which is connected to a secondary coil of the leakage transformer; and a magnetron, which is connected to the rectifying means, wherein a variable dead time preparation circuit which allows a period for which respective semiconductor switching elements are simultaneously turned off to vary in response to a switching frequency is provided, wherein the variable dead time preparation circuit allows the dead time to increase in response to a rise in the switching frequency when the switching frequency is greater than or equal to a predetermined switching frequency, and wherein the variable dead time preparation circuit allows the dead time to remain constant or increase minutely as a function of the switching frequency when the switching frequency is less than the predetermined switching frequency. 4. A high frequency heating apparatus according to any one of claims 1 through 3 , wherein the variable dead time preparation circuit allows dead time to increase sharply at the predetermined switching frequency or more. 5. A high frequency heating apparatus according to any one of claims 1 through 3 , wherein the constant value or the minutely increased value of the dead time is variable below the predetermined switching frequency. 6. A high frequency heating apparatus according to claim 4 , wherein the sharply increased value of the dead time is variable above the predetermined switching frequency. 7. A high frequency heating apparatus according to any one of claims 1 through 3 , wherein a value of the predetermined switching frequency to which the variable dead time preparation circuit compares the switching frequency is variable. 8. A high frequency heating apparatus according to any one of claims 1 through 3 , wherein the variable dead time preparation circuit allows the dead time to increase stepwise in response to the rise in the switching frequency. 9. A high frequency heating apparatus according to any one of claims 1 through 3 , wherein the variable dead time preparation circuit prepares dead time based on plus or minus offset voltages which vary by a first slope in proportion to an increase in the switching frequency and further vary from the predetermined switching frequency by a second slope. 10. A high frequency heating apparatus according to any one of claims 1 through 3 , wherein the variable dead time comprises: a VCC power supply, a duty controlled power supply, a first current which varies in proportion to the switching frequency, a second current which flows from the predetermined switching frequency and varies in proportion to the switching frequency, a third current which is obtained by synthesizing the first and second currents and multiplying the result by a predetermined coefficient, and an upper and lower potential preparation means for preparing upper and lower potentials which are obtained by adding plus and minus offset potentials in proportion to the third current to the duty controlled power supply, wherein the dead time is prepared based on the upper and lower potentials. 11. A high frequency heating apparatus according to claim 10 , wherein at least either voltage of the duty controlled power supply or the switching frequency varies so as to control input power or input current. 12. A high frequency heating apparatus for driving a magnetron, which is comprised of a frequency-controlled type resonance inverter circuit having at least an arm including semiconductor switching elements; the high frequency heating apparatus further comprises a variable dead time preparation circuit, which allows a period for which the respective semiconductor switching elements are simultaneously turned off to vary in response to a switching frequency; wherein, the variable dead time preparation circuit prepares a dead time based on plus and minus offset voltages which vary by a first slope in proportion to an increase in the switching frequency and further vary from a predetermined switching frequency by a second slope, wherein the variabl