Abstract: A flame simulation light comprises a light base and a light housing. The light base is provided with a plurality of light-emitting plates extending in the direction away from the light base. The adjacent light-emitting plates are arranged end to end and enclose a cavity with gaps. At least an inner light source is arranged in the cavity to emit light through the gaps. Therefore, a flame is simulated more realistically compared with conventional flame simulation light. Further, different light effects can be observed from different angles, which makes the flame simulation light more interesting. In addition, this manner of simulating flame can have diverse flame effects by changing inclination, arc, height, width, or shape of the light-emitting plates. In terms of the effect of having inner and outer flames, various combinations are possible. Compared with conventional integral flame simulation light, this flame simulation light realizes diversity.

Abstract: The invention relates to a fountain light comprising a light body. The light body is provided therein with an isolation plate dividing an inner chamber of the light body into a water storage camber and a power supply chamber, which are vertically arranged one above the other. The concaved part of the decorative cover has a hollowed-out pattern. The lighting fountain can be integrated into a small sized lamp, which has the effect that it can be flexibly transferred to various sites where the available space is limited.