An insert device for receiving an artistic medium thereon for use with a lampshade. The device may include an insert configured to be used in association with a lampshade. The insert may include a first side and a second side. A design may be located on the first side of the insert, where the insert with the design is configured to be drawn on using an artistic implement. The insert may be made from a translucent material that is capable of receiving and retaining an artistic medium thereon. The artistic medium can be erased or otherwise removed from the translucent material. The design on the insert may be used in association with a lampshade such that it is exposed for viewing in association with the lampshade when the insert is in a three-dimensional shape.

An insert device for receiving an artistic medium thereon for use with a lampshade. The device may include an insert configured to be used in association with a lampshade. The insert may include a first side and a second side. A design may be located on the first side of the insert, where the insert with the design is configured to be drawn on using an artistic implement. The insert may be made from a translucent material that is capable of receiving and retaining an artistic medium thereon. The artistic medium can be erased or otherwise removed from the translucent material. The design on the insert may be used in association with a lampshade such that it is exposed for viewing in association with the lampshade when the insert is in a three-dimensional shape.

The present disclosure provides a method for producing light coverings that can take any arbitrary symmetrical volumetric forms and that can be flat-foldable or collapsible. The method can also be modified to produce other 3D structures that are collapsible by using other materials and assembly methods.

The present invention generally concerns a custom lampshade with a digital print. More specifically, the lamp shade includes an end cap that joins with printing substrates capable of passing light. At least one end cap is used to shape and support a substrate having a digital image printed on at least one of its surfaces. The end cap has a center aperture with a diameter sized to accept a threaded portion of a shade rest or a diameter that is sized to accept a lamp socket. The end cap has an outer channel sized to accept the edges of a transparent substrate material. In another embodiment, the end cap is devoid of an outer channel, but is joined about its outer diameter with a translucent substrate material via an adhesive. When the lamp shade is used, a light source illuminates the digital image printed on either substrate.

The present invention generally concerns a custom lampshade with a digital print. More specifically, the lamp shade includes an end cap that joins with printing substrates capable of passing light. At least one end cap is used to shape and support a substrate having a digital image printed on at least one of its surfaces. The end cap has a center aperture with a diameter sized to accept a threaded portion of a shade rest or a diameter that is sized to accept a lamp socket. The end cap has an outer channel sized to accept the edges of a transparent substrate material. In another embodiment, the end cap is devoid of an outer channel, but is joined about its outer diameter with a translucent substrate material via an adhesive. When the lamp shade is used, a light source illuminates the digital image printed on either substrate.

A strip of a flexible plastic has a transparent cover surface which permits passage of light and an opposed bottom surface and sides which are opaque to passage of light. A series of spaced apart light emitting diodes are positioned on the top surface in electrical contact with a pair of spaced apart, generally parallel electrical wires running along the length of the top surface and individual electric bulbs are positioned on top of each light emitting diode. When electric current flows through the electrical wires, light is transmitted from each light emitting diode through each bulb and out in a unidirectional manner.

A table lamp with emergency escape function is provided to include a holder having a depositing part for putting a high temperature safety glove and a space part for depositing a printed circuit board; an arm fixedly deposited on the holder; a frame mounted onto the arm; a lighting module held on the arm and fixed by the frame; and a smoke lampshade having an opening and covering onto the frame to shade light source of the lighting module. User may quickly and conveniently catch the smoke lampshade, the high temperature safety glove, and utilize the lighting module as a lighting device. The printed circuit board is equipped with a sensing module and a blue tooth device, the sensing module detects surrounding environment where the table lamp is putted, and the blue tooth device transmits unusual signal detected by the sensing module to an outside signal receiving device.

A table lamp with emergency escape function is provided to include a holder having a depositing part for putting a high temperature safety glove and a space part for depositing a printed circuit board; an arm fixedly deposited on the holder; a frame mounted onto the arm; a lighting module held on the arm and fixed by the frame; and a smoke lampshade having an opening and covering onto the frame to shade light source of the lighting module. User may quickly and conveniently catch the smoke lampshade, the high temperature safety glove, and utilize the lighting module as a lighting device. The printed circuit board is equipped with a sensing module and a blue tooth device, the sensing module detects surrounding environment where the table lamp is putted, and the blue tooth device transmits unusual signal detected by the sensing module to an outside signal receiving device.

The present invention generally concerns a custom lampshade with a digital print. More specifically, the lamp shade includes an end cap that joins with printing substrates capable of passing light. At least one end cap is used to shape and support a substrate having a digital image printed on at least one of its surfaces. The end cap has a center aperture with a diameter sized to accept a threaded portion of a shade rest or a diameter that is sized to accept a lamp socket. The end cap has an outer channel sized to accept the edges of a transparent substrate material. In another embodiment, the end cap is devoid of an outer channel, but is joined about its outer diameter with a translucent substrate material via an adhesive. When the lamp shade is used, a light source illuminates the digital image printed on either substrate.