Phase-shift unit, phase shifter and antenna

What is claimed is: 1. A phase-shift unit, comprising: a first substrate and a second substrate provided opposite to each other; a liquid crystal layer provided between the first substrate and the second substrate; a microstrip line disposed at a side of the second substrate facing towards the first substrate, and configured to receive or transmit a microwave signal; and a grounding layer provided at a side of the first substrate facing towards the second substrate and formed with a via hole; wherein a projection of the via hole onto the second substrate and a projection of the microstrip line onto the second substrate have an overlapped area therebetween; wherein the liquid crystal layer is configured to shift a phase of the microwave signal to be received by the microstrip line or of the microwave signal transmitted by the microstrip line by changing a phase velocity of the microwave signal; wherein the via hole is configured to feed the microwave signal that has been phase-shifted out of the phase-shift unit, or feed the microwave signal to be received by the microstrip line into the phase-shift unit such that the microwave signal is phase-shifted; and wherein the projection of the microstrip line onto the second substrate divides the projection of the via hole onto the second substrate into two portions symmetrical about the projection of the microstrip line onto the second substrate. 2. The phase-shift unit of claim 1 , wherein the microstrip line extends continuously on the second substrate. 3. The phase-shift unit of claim 1 , wherein the grounding layer is continuous except the via hole. 4. The phase-shift unit of claim 1 , wherein both the microstrip line and the grounding layer are metal layers. 5. The phase-shift unit of claim 1 , wherein the projection of the microstrip line onto the second substrate spans and exceeds the projection of the via hole onto the second substrate. 6. The phase-shift unit of claim 1 , wherein the microstrip line comprises a first portion extending in a winding shape on the second substrate, and a second portion electrically connected to the first portion, the projection of the via hole onto the second substrate overlaps a projection of the second portion onto the second substrate, and no overlap is between a projection of the first portion onto the second substrate and the projection of the via hole onto the second substrate. 7. The phase-shift unit of claim 1 , further comprising: a first alignment layer and a second alignment layer provided at opposite sides of the liquid crystal layer, respectively. 8. The phase-shift unit of claim 7 , wherein: the first alignment layer is provided between the liquid crystal layer and the grounding layer; and the second alignment layer is provided between the liquid crystal layer and a film layer where the microstrip line is located. 9. The phase-shift unit of claim 1 , wherein buffer layers are provided between the second substrate and the microstrip line, and between the first substrate and the grounding layer, respectively. 10. A phase shifter, comprising at least one said phase-shift unit of claim 1 . 11. The phase shifter of claim 10 , comprising a plurality of said phase-shift units, wherein the plurality of phase-shift units have the first substrate and the second substrate in common. 12. An antenna, comprising at least one said phase shifter of claim 10 . 13. The antenna of claim 12 , wherein: the antenna further comprises at least one patch unit provided at a side of the first substrate facing away from the liquid crystal layer and configured to transmit or receive an electromagnetic wave signal; and a projection of the at least one via hole onto the second substrate is located within a projection of the at least one patch unit onto the second substrate. 14. The antenna of claim 13 , wherein the projection of at least one patch unit onto the second substrate and the projection of the first portion of at least one microstrip line onto the second substrate have an overlapped area therebetween. 15. The antenna of claim 12 , wherein the antenna comprises four via holes in an array arrangement, and the antenna comprises patch units being in a one-to-one positional correspondence to the four via holes, and wherein a projection of the patch unit onto the first substrate at least covers a projection of the via hole onto the first substrate.