Latch module and an appliance using the same

What is claimed is: 1. A latch module for controlling an opening and a closing of a door of an appliance, comprising: a latch; a spring that applies an elastic force to the latch; a motor; and a cam that contacts a contact surface of the latch and is coupled to the motor, the motor to drive the cam to pivot the latch, wherein, the cam includes a first radius, a second radius, and a third radius in a circumferential direction at an outer circumference of the cam, the first radius of the cam interacts with the contact surface of the latch so that the latch is disposed in a first basic position, and the first basic position is a position in which the door is capable of being manually opened or closed, the second radius of the cam interacts with the contact surface of the latch so that the latch is disposed in a second basic position, and the second basic position is a position in which the latch is released from the door, and the third radius interacts of the cam with the contact surface of the latch so that the latch is disposed in a third basic position, and the third basic position is a position in which the latch securely locks the door so that the door is not capable of being manually opened. 2. The latch module of claim 1 , wherein, the second radius has a radius to pivot the latch in a first direction with respect to the first basic position so that the latch is disposed in the second basic position, and in the second basic position, the latch is pivoted in the first direction with respect to the first basic position, and the third radius has a radius to pivot the latch in a second direction with respect to the first basic position so that the latch is disposed in the third basic position, and in the third basic position, the latch is pivoted in the second direction different from the first direction with respect to the first basic position. 3. The latch module of claim 1 , wherein the first radius is in a range of 210° to 320° with respect to a reference line passing through a center of the cam and having 0°, the second radius is in a range of 10° to 30°, and the third radius is in a range of 80° to 140°. 4. The latch module of claim 1 , wherein the latch comprises an extension having a sub-contact surface protruding from the extension in a direction of the cam, wherein a cam surface facing the sub-contact surface with the first radius of the cam that contacts the contact surface of the latch has a radius providing a space between the cam surface and the sub-contact surface that allows for the sub-contact surface to approach the cam surface when the latch is moved from the first basic position to the second basic position. 5. The latch module of claim 4 , wherein a distance between the sub-contact surface and a center of rotation of the cam with the second radius of the cam that contacts the contact surface of the latch in the second basic position is equal to or greater than a radius of the cam surface that faces the sub-contact surface. 6. The latch module of claim 4 , wherein the cam surface that faces the sub-contact surface is the first radius, the third radius or a connecting surface that connects the first radius and the third radius when the first radius of the cam contacts the contact surface of the latch. 7. The latch module of claim 4 , wherein the sub-contact surface faces the first radius of the cam when the second radius of the cam contacts the contact surface of the latch. 8. The latch module of claim 4 , wherein the sub-contact surface does not interact with the surface of the cam while a contact between the cam and the contact surface of the latch transitions from the first radius to the second radius when the cam is rotated. 9. The latch module of claim 4 , wherein the cam surface that faces the sub-contact surface is the second radius when the third radius of the cam contacts the contact surface of the latch. 10. The latch module of claim 4 , wherein the radius of the cam surface that faces the sub-contact surface with the third radius of the cam in contact with the contact surface of the latch is greater than a distance between the sub-contact surface and the center of rotation of the cam when the latch is in the first basic position. 11. The latch module of claim 4 , wherein a radius of the cam surface that faces the sub-contact surface while a contact between the cam and the contact surface of the latch transitions from the first radius to the third radius when the cam rotates exceeds the distance between the sub-contact surface and the center of rotation of the cam when the latch is in the first basic position. 12. The latch module of claim 11 , wherein the radius of the cam surface in contact with the sub-contact surface with the third radius of the cam contacting the contact surface of the latch is the same as a distance between the sub-contact surface and the center of rotation of the cam forcing the latch to be in the third basic position. 13. An appliance comprising: a main body including a cavity having an open front; a pull-down door that opens and closes the open front of the cavity; a pin; a latch holder including; a latch to engage the pin; a bi-directional motor; a cam that contacts a contact surface of the latch and is coupled to the bi-directional motor, and the cam includes a first radius, a second radius, and a third radius in a circumferential direction at an outer circumference of the cam; and a spring that applies an elastic force to the latch in a direction of the cam; and a controller configured to rotate the cam via the bi-directional motor, wherein, the latch is pivoted by the rotation of the cam, the first radius of the cam interacts with the contact surface of the latch so that the latch is disposed in a first basic position, and the first basic position is a position in which the door is capable of being manually opened or closed, the second radius of the cam interacts with the contact surface of the latch so that the latch is disposed in a second basic position, and the second basic position is a position in which the latch is released from the door, the third radius interacts of the cam with the contact surface of the latch so that the latch is disposed in a third basic position, and the third basic position is a position in which the latch securely locks the door so that the door is not capable of being manually opened. 14. The appliance of claim 13 , wherein, the second radius is greater than the first radius, the third radius is less than the radius of the first radius, the controller is configured to rotate the cam from the first radius to the third radius in an automatic opening operation, and the controller is configured to rotate the cam from first radius to the second radius in a secure lock operation. 15. The appliance of claim 14 , wherein the controller is configured to rotate the cam from the second radius to the first radius based on a completion of the automatic opening operation. 16. The appliance of claim 14 , further comprising: a temperature sensor, wherein the controller is configured to rotate the cam from the third radius to the first radius based on determining that the cavity of the main body being at a predetermined temperature via the temperature sensor. 17. The appliance of claim 13 , wherein the latch comprises an extension having a sub-contact surface protruding from the extension in the direction of the cam, wherein a cam surface facing the sub-contact surface with the first radius of the cam that contacts the contact surface