Medical dressing

We claim: 1. A dressing for applying to a wound of a patient, the dressing comprising: a dressing body to make contact with a wound of a patient, wherein the dressing body has a first surface to make contact with the wound of the patient and a second surface opposite to the first surface; and a light irradiation device to apply light to the wound of the patient for sterilization and preventing infection and including: a device board having at least one light emitting diode mounted thereon, the at least one light emitting diode arranged to be on the first surface of the dressing body and in direct contact with the first surface of the dressing body and configured to apply the light toward the wound; wherein the light has a predetermined range of wavelength bands among an infrared light wavelength, a visible light wavelength, and an ultraviolet light wavelength such that application of the light induces destruction of bacteria present in the wound of the patient or accelerates a recovery of the wound; and wherein the light irradiation device includes: first and second light sources operable to emit first light and second light at timings close to each other, regardless of whether the timings overlap or not, the first light and the second light having mutually different wavelengths, respectively, wherein the first light has a first wavelength band for inducing the destruction of the bacteria by damaging a cell of the bacteria, as the first light acts on a photosensitizer present in the bacteria, and the second light has a second wavelength band for inducing the destruction of the bacteria by changing a structure of a genetic material present in the cell of the bacteria. 2. The dressing of claim 1 , wherein the first light is blue light, and the second light is ultraviolet light, and wherein the second light is irradiated with a daily maximum irradiation amount of about 3 mJ/cm 2 . 3. The dressing of claim 2 , wherein the first light has a wavelength in a range of about 400 nm to about 420 nm, or a range of about 455 nm to about 470 nm. 4. The dressing of claim 1 , further comprising: a controller to control the first light and the second light. 5. The dressing of claim 4 , further comprising: an oxygenator connected with the controller to supply oxygen. 6. The dressing of claim 1 , wherein the first light is irradiated for a first time, and the second light is irradiated for a second time shorter than the first time. 7. The dressing of claim 6 , wherein irradiation of the second light starts after irradiation of the first light is completed. 8. The dressing of claim 6 , wherein irradiation of the second light starts before irradiation of the first light is completed, and at least a portion of the first time and at least a portion of the second time mutually overlap. 9. The dressing of claim 1 , wherein the light irradiation device further includes: a water-proof protective film provided on the at least one light emitting diode to protect the light emitting diode. 10. The dressing of claim 9 , wherein the device board is flexible. 11. (The dressing of claim 1 , further comprising: a drape provided in the dressing body and attached to a skin close to the wound of a patient to form an inner space by covering the wound; a negative pressure generating member to apply negative pressure to the inner space by communicating with the inner space; and a tube that connects the inner space with the negative pressure generating member. 12. The dressing of claim 11 , further comprising: a pressure sensor provided in the inner space to sense whether the negative pressure is applied to the inner space, wherein the pressure sensor is provided on the device board. 13. The dressing of claim 12 , wherein the dressing body has: a first thickness when the negative pressure is not applied, and a second thickness when the negative pressure is applied, and wherein the light emitting diode is exposed from the device board toward the wound to correspond to the second thickness when the negative pressure is applied. 14. The dressing of claim 11 , wherein the dressing body has an exudate opening to absorb exudate from the wound. 15. The dressing of claim 1 , wherein the light irradiation device further includes a light emitting diode provided in a form of a flip chip having first and second electrodes, and wherein the first and second electrodes of the flip chip are directly connected with a wiring of a device board. 16. The dressing of claim 1 , wherein the dressing body is at least one of a foam dressing type, a hydrocolloid dressing type, a porous silicone film dressing type, or a hydrofiber dressing type. 17. The dressing of claim 1 , further comprising: a sensor unit provided inside or outside the dressing body to sense a state of the wound of the patient. 18. The dressing of claim 17 , wherein the light irradiation device interworks with the sensor unit to set a wavelength and an output intensity of light emitted from the light emitting diode. 19. The dressing of claim 1 , wherein the light irradiation device emits light having a wavelength band that varies depending on a phase of the wound of the patient. 20. The dressing of claim 19 , wherein the light irradiation device is operable to emit: light having a blue wavelength band, when the phase of the wound of the patient is an infection phase, light having a green wavelength band or a first red wavelength band, when the phase of the wound of the patient is a proliferation phase, or light having a second red wavelength band or an infrared wavelength band, when the phase of the wound of the patient is a maturation phase.