Array beamforming technology is an array signal processing technique that utilizes multiple small antenna units to form a beam and point it in a specific direction. This technology is commonly used in communication systems, radar, and sonar to improve the efficiency of signal reception and transmission. On the one hand, traditional arrays antenna have a large scale and shape, which makes it difficult to meet the requirements of miniaturization of navigation terminals. On the other hand, satellite navigation signals are distributed in various azimuth and elevation directions in the air. The beam width of traditional arrays antenna is narrow, making it difficult to cover most of the satellite received signals in the air. A small navigation array antenna wide beam shaping design technology is proposed, which achieves the goal of enhancing most of the aerial satellite navigation signals with a single beam through reasonable beam width design. Through theoretical calculations and simulation analysis, combined with the actual aerial angle distribution of satellite navigation signals, it is found that when the spacing between the four antenna elements is 1/3 wavelength, the performance reaches relatively optimal, and beam gain can be achieved for satellite navigation signals with an elevation angle of more than 30 °. Through engineering design verification and testing, it has been shown that a four element antenna with a spacing of 1/3 wavelength can effectively improve the carrier to noise ratio of satellite navigation signals and enhance the receiving performance of the antenna.