At present, crystal lamps are loved and bought by many consumers because they can bring elegant and fashionable atmosphere to the room. Although now, more types and styles of lighting have entered the market, it looks like a war against crystal lamps.
With the development of optical fiber and diode technology, crystal lamps become smaller and lighter, which is more suitable for modern home decoration. Coupled with the development of crystal cutting technology, crystal lamps become more compact, and its modern lines and fantastic colors will become a highlight of modern rooms. With the progress and development of these technologies, crystal lamps still occupy a very important position in the market and are still favored by consumers.
But at present, in the process of manufacturing crystal lamps in traditional enterprises, the backboard used in manufacturing crystal lamps is generally cut from a whole piece of stainless steel. However, because the backboard is an integrated ring structure, workers can only cut a small amount of backboard on a whole piece of stainless steel, and the remaining materials can no longer meet the cutting size requirements of backboard, resulting in a lot of waste of raw materials and increased manufacturing costs.
Technical realization elements:
The purpose of the utility model is to overcome the shortcomings of the prior art and provide a crystal lamp which saves materials and reduces the manufacturing cost. A front plate mounting structure comprises an arc-shaped front plate, a light source assembly, a pressing piece, a plurality of first fixing ear buckles and a plurality of front plate connecting sub-heads, wherein the light source assembly and the pressing piece are respectively arranged on the arc-shaped front plate, and a plurality of first fixing ear buckles are respectively arranged on two sides of the arc-shaped front plate.
The arc-shaped front plate is respectively provided with a plurality of front plate connecting sub-heads; An assembled backboard structure comprises a first semi-arc backboard, a second semi-arc backboard, a stiffener assembly, two welding cylinders, a plurality of backboard connecting joints and a plurality of second fixing ear buckles, wherein two ends of the first semi-arc backboard are respectively connected with two ends of the second semi-arc backboard to form an arc backboard, and the two welding cylinders are respectively arranged at the joint of the first semi-arc backboard and the second semi-arc backboard.