초록 ▼

A pod mount assembly 20 is configured in a folding quad pod design with four ground-engaging legs 22, 24, 26, 28, and a rotatable central column 30. The ground-engaging legs rotatably connect to the base of the central column 30. The central column 30 contains a telescoping central shaft 32. The cen

A pod mount assembly 20 is configured in a folding quad pod design with four ground-engaging legs 22, 24, 26, 28, and a rotatable central column 30. The ground-engaging legs rotatably connect to the base of the central column 30. The central column 30 contains a telescoping central shaft 32. The central column 30 is rotatable from a horizontal position into a vertical position. The telescopic shaft 32 is extendable upward from a retracted position within the central column 30 into a extended position there above. The pod mount assembly 20 includes a hydraulic pump and cylinder to rotate the central column 30 and extend the telescopic shaft 32. The unique folding and collapsible design of the pod mount assembly 20 creates a small form factor for high mobility and ease of deployment. The pod mount assembly 20 acts as the mounting base for an antenna assembly 10. A controller assembly 40 utilizes a triple tombstone controller configuration for the steering of a dish assembly 100, with each tombstone controller allowing for independent rotation around a respective axis. The controller assembly 40 includes a pod mount attachment 42 for connecting to the telescopic shaft 32 of the pod mount assembly 20, a first tombstone 44, a second tombstone 46, a vertical support 48, an axle bracket 50, a third tombstone 52, and a back frame attachment for connecting to a back frame 60. The controller assembly 40 has the steering capability to control articulation in azimuth, elevation, and polarization.

대표청구항 ▼

A pod mount assembly 20 is configured in a folding quad pod design with four ground-engaging legs 22, 24, 26, 28, and a rotatable central column 30. The ground-engaging legs rotatably connect to the base of the central column 30. The central column 30 contains a telescoping central shaft 32. The cen

A pod mount assembly 20 is configured in a folding quad pod design with four ground-engaging legs 22, 24, 26, 28, and a rotatable central column 30. The ground-engaging legs rotatably connect to the base of the central column 30. The central column 30 contains a telescoping central shaft 32. The central column 30 is rotatable from a horizontal position into a vertical position. The telescopic shaft 32 is extendable upward from a retracted position within the central column 30 into a extended position there above. The pod mount assembly 20 includes a hydraulic pump and cylinder to rotate the central column 30 and extend the telescopic shaft 32. The unique folding and collapsible design of the pod mount assembly 20 creates a small form factor for high mobility and ease of deployment. The pod mount assembly 20 acts as the mounting base for an antenna assembly 10. A controller assembly 40 utilizes a triple tombstone controller configuration for the steering of a dish assembly 100, with each tombstone controller allowing for independent rotation around a respective axis. The controller assembly 40 includes a pod mount attachment 42 for connecting to the telescopic shaft 32 of the pod mount assembly 20, a first tombstone 44, a second tombstone 46, a vertical support 48, an axle bracket 50, a third tombstone 52, and a back frame attachment for connecting to a back frame 60. The controller assembly 40 has the steering capability to control articulation in azimuth, elevation, and polarization. connection film is formed by solder plating. 6. The compact antenna according to claim 3, wherein said connection film covers all surfaces of said terminal. 7. The compact antenna according to claim 3, wherein said radiating section and said terminal are formed by punching metal plates. 8. The compact antenna according to claim 3, wherein said radiating section is covered with dielectric, and said terminal is exposed from said dielectric. 9. The compact antenna according to claim 3, wherein said antenna conductor comprises a core and a conductor film covering an outer surface of said core corresponding to at least a radiating section, and said conductor film is made of material having higher electric conductivity than that of the core. 10. The compact antenna according to claim 9, wherein said conductor film has a film thickness equal to or greater than a skin depth δ specified by the following equation: δ=(2/(σ·μ·ω)), wherein σ is electric conductivity of the conductor, μ is magnetic permeability and ω is angular frequency. 11. A producing method of a compact antenna comprising: a punching step in which an antenna conductor comprising a radiating section for sending and receiving radio wave and a terminal for connecting said radiating section to a circuit board is formed by punching a metal plate; a coating step which coats said radiating section with dielectric; and a connection film forming step in which said connection film is selectively formed for said terminal using said dielectric as a mask. 12. The producing method of the compact antenna according to claim 11, wherein at the punching step, said metal plate is punched into a shape including a frame which supports said antenna conductor, the producing method further comprises a cutting step for cutting an antenna conductor from said frame after said connection film forming step. 13. The producing method of the compact antenna according to claim 12, wherein at the punching step, said metal plate is punched into a shape in which said frame and said terminal are separated from each other. 14. The producing method of the compact antenna according to claim 12, wherein at the punching step, said metal plate is punched into a shape in which said frame and said terminal are continuous, the producing method further comprises a preliminary cutting step for cutting off said frame and terminal before said connection film forming step.