Optical device for augmented reality having ghost image prevention function

What is claimed is: 1 . An optical device for augmented reality having a ghost image prevention function, the optical device comprising: an image output unit configured to output virtual image light; an optical means configured such that the virtual image light output from the image output unit propagates through an inside thereof and real object image light is transmitted therethrough toward a pupil of an eye of a user; a first optical element disposed inside the optical means, and configured to transfer the virtual image light, output and transferred from the image output unit, to a plurality of second optical elements; and the plurality of second optical elements disposed inside the optical means, and configured to provide a virtual image to the user by transferring the virtual image light, transferred from the first optical element, toward the pupil of the eye of the user; wherein the optical means has a first surface through which the virtual image light and the real object image light are output toward the pupil of the user, a second surface which is opposite to the first surface and on which the real object image light is incident, and a third surface on which the virtual image light output from the image output unit is incident; wherein the third surface is formed to have an inclination angle θ in with respect to a normal line in a forward direction from the pupil; wherein the third surface is disposed to face a surface of the image output unit; and wherein the image output unit is spaced apart from the third surface so that a distance L g between the image output unit and the third surface satisfies the following equation: L g ≥ L d 2 ⁢ 1 - n 2 ⁢ sin 2 ⁢ θ i ⁢ n n 2 ⁢ sin 2 ⁢ θ i ⁢ n where L d is a length of the image output unit, θ in is an inclination angle between the third surface of the optical means and the normal line in the forward direction from the pupil, and n is a refractive index of the optical means. 2 . The optical device of claim 1 , wherein the inclination angle θ in between the third surface of the optical means and the normal line in the forward direction from the pupil has a value in a range of 30° to 60°. 3 . The optical device of claim 1 , wherein the third surface of the optical means and the surface of the image output unit are disposed parallel to each other. 4 . The optical device of claim 1 , wherein the virtual image light output from the image output unit is reflected by total internal reflection on the second surface of the optical means and then transferred to the first optical element, and the virtual image light output from the first optical element is reflected again by total internal reflection on the second surface of the optical means and then transferred to the second optical elements. 5 . The optical device of claim 1 , wherein the first optical element is any one of a reflective means configured to reflect the incident virtual image light and a half mirror configured to transmit part of the incident virtual image light therethrough and reflect part of the incident virtual image light. 6 . The optical device of claim 5 , wherein the first optical element is embedded inside the optical means so that a reflective surface of the first optical element faces the second surface of the optical means. 7 . The optical device of claim 6 , wherein the reflective surface is a curved surface that is concavely formed with respect to a direction of the second surface of the optical means. 8 . The optical device of claim 1 , wherein the plurality of second optical elements are arranged such that each center of the plurality of second optical elements are located along a straight line perpendicular to the normal line in the forward direction from the pupil when viewed from a side. 9 . The optical device of claim 1 , wherein the plurality of second optical elements are arranged spaced apart from each other to appear like a two-dimensional array when viewed from a front. 10 . The optical device of claim 1 , wherein the plurality of second optical elements are arranged inclined inside the optical means to transfer the virtual image light, transferred from the first optical element, to the pupil. 11 . The optical device of claim 1 , wherein each of the plurality of second optical elements is any one of a reflective means configured to reflect the incident virtual image light and a half mirror configured to transmit part of the incident virtual image light therethrough and reflect part of the incident virtual image light. 12 . The optical device of claim 1 , wherein the plurality of second optical elements are each formed of any one of a refractive element, a diffractive element, and a holographic optical element, or a combination thereof. 13 . The optical device of claim 1 , wherein the plurality of second optical elements have a size in a range of 0.3 to 4 mm.