Trip device for circuit breaker

What is claimed is: 1. A trip device for a circuit breaker, the trip device comprising: a first terminal; a second terminal separated from the first terminal; a bimetal in which a slot with one side opened is formed at one end of the bimetal, the one end is divided into a first end portion and a second end portion along the slot such that the slot is formed between the first end portion and the second end portion, and the second end portion is connected to the second terminal; and a heater positioned between the first terminal and the bimetal such that the first terminal and the bimetal are not in direct contact, wherein the heater is configured to generate heat to heat the bimetal when a current flows, wherein the bimetal generates the heat when the current flows between the first end portion and the second end portion, and a heating amount of the bimetal is changed based on a length of the slot, and wherein the heater is coupled to the first terminal via a first end portion of the heater, and the heater is coupled to the first end portion of the bimetal via a second end portion of the heater, wherein the heater comprises a directly heating portion that is in contact with the bimetal to heat the bimetal through conduction and a radiant heating portion separated from the bimetal to heat the bimetal through convection or radiation, wherein the directly heating portion is provided at a lower portion of the heater including the second end portion of the heater, and the radiant heating portion is provided at an upper portion of the heater including the first end portion of the heater, and wherein the directly heating portion is connected to the first end portion of the bimetal, and the radiant heating portion is connected to the first terminal. 2. The trip device of claim 1 , wherein the slot is formed as a long hole which extends in one direction. 3. The trip device of claim 2 , wherein the length of the slot is formed as a length in which the bimetal generates heat by a predetermined amount of heat under a specific current value. 4. The trip device of claim 3 , wherein as the length of the slot increases, the heating amount of the bimetal increases under the specific current value. 5. The trip device of claim 1 , wherein the bimetal is formed to be symmetric with respect to the slot. 6. The trip device of claim 1 , wherein the first end portion and the second end portion are formed symmetrically. 7. The trip device of claim 1 , wherein the radiant heating portion does not contact the bimetal. 8. The trip device of claim 1 , wherein the bimetal and the heater are arranged in parallel such that the first end portion of the heater is proximate to the other end of the bimetal and the second end portion of the heater is proximate to the one end of the bimetal. 9. The trip device of claim 1 , wherein the heater further comprises a slant portion that is located between the directly heating portion and the radiant heating portion.