See-through type display apparatus

What is claimed is: 1. A see-through type display apparatus comprising: an image forming unit configured to transmit an image; a relay optical system configured to receive the image transmitted by the image forming unit and to transmit a primary imaging image; and an optical combiner configured to receive the primary imaging image from the relay optical system and to form a multi-depth plane, wherein the relay optical system comprises: a first lens configured focus the image received from the image forming unit; a first polarizer positioned such that a surface normal of the first polarizer forms a non-zero angle with an optical axis of the first lens and configured to reflect light of a first polarization and transmit light of a second polarization, orthogonal to the first polarization; a condensing mirror configured to reflect and focus light incident thereon from the first polarizer; and a polarization converter provided to convert a polarization of light transmitted between the first polarizer and the condensing mirror member, such that light incident on the first polarizer from the condensing mirror has the first polarization, and the light incident on the condensing mirror from the first polarizer has the second polarization. 2. The see-through type display apparatus of claim 1 , wherein the image is transmitted by the image forming unit and received by the relay optical system on a first optical path extending in a first direction, wherein the primary imaging image is transmitted by the relay optical system and received by the optical combiner on a second optical path extending in a second direction. 3. The see-through type display apparatus of claim 2 , configured to be worn over both eyes of a user, wherein the image forming unit is positioned in the see-through type display apparatus between portions of the see-through type display apparatus configured to align with the both eyes of the user or is positioned in the see-through type display apparatus outside the portions of the see-through type display apparatus configured to align with the both eyes of the user. 4. The see-through type display apparatus of claim 1 , wherein the condensing mirror member comprises a concave mirror. 5. The see-through type display apparatus of claim 4 , further comprising: a second lens between the polarization converter and the concave mirror. 6. The see-through type display apparatus of claim 1 , wherein the condensing mirror member comprises a doublet mirror including a lens and a concave mirror. 7. The see-through type display apparatus of claim 1 , wherein the first lens comprises a single lens. 8. The see-through type display apparatus of claim 1 , wherein the first lens comprises a doublet lens including a convex lens and a concave lens. 9. The see-through type display apparatus of claim 1 , wherein the first polarizer is a wire grid polarizer. 10. The see-through type display apparatus of claim 1 , wherein the see-through type display apparatus is configured to be worn by a user as one of a glasses-type apparatus, a goggle-type apparatus and a head-mounted display apparatus. 11. The see-through type display apparatus of claim 1 , wherein the first polarizer comprises a polarization selective transmission reflective surface, wherein the polarization selective transmission reflective surface faces towards the image forming unit, wherein the condensing mirror member comprises a first condensing mirror member and a second condensing mirror member and the polarization converter comprises a first polarization converter and a second polarization converter; wherein the light of the second polarization transmitted through the first polarizer is transmitted through the first polarization converter, reflected by the first condensing mirror member, transmitted again through the first polarization converter, is incident on the first polarizer as light of the first polarization, and is reflected by the first polarizer and thereby directed toward the optical combiner; wherein the light of the first polarization reflected by the first polarizer is transmitted through the second polarization converter, reflected from the second condensing mirror, transmitted again through the second polarization converter, is incident on the first polarizer as light of the second polarization, and is transmitted through the first polarizer and thereby directed to the optical combiner. 12. The see-through type display apparatus of claim 11 , further comprising: a second polarizer, between the image forming unit and the first polarizer, configured to transmit only light having the second polarization. 13. The see-through type display apparatus of claim 1 , wherein the image transmitted by the image forming unit comprises a first image and a second image; wherein the image forming unit comprises: a first display configured to form the first image; a second display configured to form the second image; and a beam splitter configured to transmit the first image toward the relay optical system and to reflect the second image toward the relay optical system, and wherein the image forming unit is configured to form a multi-focal point. 14. The see-through type display apparatus of claim 13 , wherein the first polarizer comprises a polarization selective transmission reflective surface, wherein the polarization selective transmission reflective surface faces away from the image forming unit. 15. The see-through type display apparatus of claim 1 , wherein the image forming unit comprises: a single display configured to form the image, wherein the first polarizer comprises a polarization selective transmission reflective surface, wherein the polarization selective transmission reflective surface faces away from the image forming unit; and a polarization rotator, between the image forming unit and the first polarizer, configured to switch between converting a polarization of light transmitted therethrough into the first polarization and converting the polarization of light transmitted therethrough into the second polarization, wherein the condensing mirror member comprises a first condensing mirror member and a second condensing mirror member and the polarization converter comprises a first polarization converter and a second polarization converter; wherein the light of the second polarization transmitted through the polarization rotator is transmitted through the first polarization converter, reflected by the first condensing mirror member, transmitted again through the first polarization converter, is incident on the first polarizer as light of the first polarization, and is reflected by the first polarizer and thereby directed toward the optical combiner; wherein the light of the first polarization transmitted through the polarization rotator is transmitted through the second polarization converter, reflected by the second condensing mirror, transmitted again through the second polarization converter, is incident on the first polarizer as light of the second polarization, and is transmitted by the first polarizer and thereby directed toward the optical combiner; and wherein the condensing mirror member and the polarization converter are configured to implement a multi-focal point. 16. The see-through type display apparatus of claim 1 , wherein the image forming unit comprises: a single display configured to form the image, wherein the first polarizer comprises a polarization selective transmission reflective surface, wherein the polarization selective transmission reflective surface faces away from the ima