[Problem] To provide: a model component having stable quality and having gradation; and a production method therefor

[Solution] A model component having: a first layer formed using a first material having a first color; and a second layer that covers at least part of the first layer and comprises a second material having a second color that is different from the first color. The second layer includes a region having a thickness in at least one section that is less than other sections. The region includes a section in which the first layer is exposed to the surface of the second layer.

[Problem] To provide: a model component having stable quality and having gradation; and a production method therefor

[Solution] A model component having: a first layer formed using a first material having a first color; and a second layer that covers at least part of the first layer and comprises a second material having a second color that is different from the first color. The second layer includes a region having a thickness in at least one section that is less than other sections. The region includes a section in which the first layer is exposed to the surface of the second layer.

The present disclosure provides a robot eye lamp control method as well as an apparatus and a terminal device using the same. The method includes: loading a simulation image corresponding to an cut shape of the eye lamp of the robot onto a display interface of a terminal device remotely connected with the robot; detecting a color setting instruction issued to each color block area in the simulation image by a user, and generating combined parameter information comprising each color value in response to having received a color confirmation instruction issued by the user, and transmitting the combined parameter information to the robot so that the robot performs a light control on the eye lamp based on the combined parameter information. The present disclosure guarantees that the robot will respond to an interactive instruction only when the light display effect and the actual demand of the user matches.

A decoration is disclosed, which includes: a light source emitting light in at least two directions; a transmission member having an eyeball pattern; and a projection member; the light emitted by the light source in at least two directions passes through the transmission member, and projects the eyeball pattern onto at least two positions on the projection member. Another disclosed decoration includes: two sets of light sources, each set of light sources emitting light in at least two directions; two transmission members, each transmission member having an eyeball pattern; and two projection members; the light emitted by each set of the light sources in at least two directions passes through the transmission member, and projects the eyeball pattern onto at least two positions on the projection member. The decoration has simple structure and diverse functions, and produces a visual effect of moving eyeballs by means of projection for decoration applications.

An apparatus includes: a foldable material including a first portion and a second portion, the second portion at least partially surrounding the first portion; an inner connection structure; and an outer connection structure. The inner connection structure is configured to rotate relative to the outer connection structure; at least part of the first portion of the foldable material is attached to the inner connection structure and at least part of the second portion of the foldable material is attached to the outer connection structure; and the foldable material changes shape when the inner connection structure rotates relative to the outer connection structure.

A decoration is disclosed, which includes: a light source emitting light in at least two directions; a transmission member having an eyeball pattern; and a projection member; the light emitted by the light source in at least two directions passes through the transmission member, and projects the eyeball pattern onto at least two positions on the projection member. Another disclosed decoration includes: two sets of light sources, each set of light sources emitting light in at least two directions; two transmission members, each transmission member having an eyeball pattern; and two projection members; the light emitted by each set of the light sources in at least two directions passes through the transmission member, and projects the eyeball pattern onto at least two positions on the projection member. The decoration has simple structure and diverse functions, and produces a visual effect of moving eyeballs by means of projection for decoration applications.

The present disclosure provides a robot eye lamp control method as well as an apparatus and a terminal device using the same. The method includes: loading a simulation image corresponding to an cut shape of the eye lamp of the robot onto a display interface of a terminal device remotely connected with the robot; detecting a color setting instruction issued to each color block area in the simulation image by a user, and generating combined parameter information comprising each color value in response to having received a color confirmation instruction issued by the user, and transmitting the combined parameter information to the robot so that the robot performs a light control on the eye lamp based on the combined parameter information. The present disclosure guarantees that the robot will respond to an interactive instruction only when the light display effect and the actual demand of the user matches.

An illuminated display device with a base member representing an eye and having a primary cavity therein, usually existing as a pair of devices to represent two eyes. Thin walls within the primary cavity divide it into multiple chambers, wherein each chamber has a unique shape and volume that represents a view of a unique emotive response in an eye. Illumination devices are placed in each unique thin-walled chamber shape to emit light in a pattern from the chamber volume through a top opening of the cavity. Lighting all illumination devices equally imitates an open eye, while illuminating the volume of one or more unique chamber shapes at OFF or lesser brightness than the volume in other chambers creates a negative space, giving the illusion that the eye has changed shape to equal the shape in the brightly lit chambers only. The device can thus imitate the changing shapes in an eye shown when expressing emotion and the device is capable of exhibiting eight or more distinct emotive responses. A speaker can emit sounds in synchronization with a pattern of illumination to enhance the emotive effect. The unique chamber shapes and volumes in the primary cavity can be covered by translucent material that may be printed with a graphic representation of an eye.

An illuminated display device with a base member representing an eye and having a primary cavity therein, usually existing as a pair of devices to represent two eyes. Thin walls within the primary cavity divide it into multiple chambers, wherein each chamber has a unique shape and volume that represents a view of a unique emotive response in an eye. Illumination devices are placed in each unique thin-walled chamber shape to emit light in a pattern from the chamber volume through a top opening of the cavity. Lighting all illumination devices equally imitates an open eye, while illuminating the volume of one or more unique chamber shapes at OFF or lesser brightness than the volume in other chambers creates a negative space, giving the illusion that the eye has changed shape to equal the shape in the brightly lit chambers only. The device can thus imitate the changing shapes in an eye shown when expressing emotion and the device is capable of exhibiting eight or more distinct emotive responses. A speaker can emit sounds in synchronization with a pattern of illumination to enhance the emotive effect. The unique chamber shapes and volumes in the primary cavity can be covered by translucent material that may be printed with a graphic representation of an eye.