A vehicle apparatus configured to selectively position and enclose an opening formed in at least one panel of a vehicle includes a sliding panel and a positioning mechanism. The sliding panel includes an electrical device in communication with a control circuit of the vehicle and the positioning mechanism is configured to slidably position the sliding panel along a positioning track between an open position and a closed position. A control connection is configured to transmit control signals between the control circuit of the vehicle and the electrical device. The control connection extends from a portion of the vehicle to a connection interface of the electrical device, and the connection apparatus is configured to communicate a control signal to adjust an operating state of the electrical device in both the open position and the closed position.

A winding assembly for a protective device of a motor vehicle, and a method for producing such a winding assembly. Such a winding assembly includes a form-stable winding shaft and a flexible winding web held on the winding shaft such that it can be wound up and unwound. The winding shaft is formed by a form-stabilized wound-up first portion of a flexible sheet-form material and the flexible winding web is formed by a second portion of the flexible sheet-form material adjoining the first portion, whereby the winding shaft and the winding web are in continuous one-piece form.

A shading device for a vehicle roof includes at least one shading length that can be rolled up for shading a light-permeable and/or open area of the vehicle roof, a tension bow that is movably mounted in a direction of travel (V), to which the shading length-is fastened, a drive mechanism that can be operated by a drive motor to move the tension and a control unit for activating the drive motor. The shading device includes at least one opposing force element for restricting a traveling movement of the tension bow, and the control unit is designed to activate the drive motor based on an opposing force when the tension bow reaches an end position (P1, P2) defined by the stop element.

The present teaching relates to approaches for dynamic light blocking in a moving vehicle. Sensor data from sensors deployed on a vehicle are received that capture information exterior and interior around the vehicle. The presence of a person in the vehicle is detected based on interior sensor data while a light source exterior to the vehicle is detected based on exterior sensor data. A portion of a window of the vehicle through which light from the light source shines on the person is determined and an appropriate level of shade is applied on the portion of the window to reduce the amount of light shining on the person.

The present teaching relates to approaches for dynamic light blocking in a moving vehicle. Sensor data from sensors deployed on a vehicle are received that capture information exterior and interior around the vehicle. The presence of a person in the vehicle is detected based on interior sensor data while a light source exterior to the vehicle is detected based on exterior sensor data. A portion of a window of the vehicle through which light from the light source shines on the person is determined and an appropriate level of shade is applied on the portion of the window to reduce the amount of light shining on the person.

A laminated glass according to the present invention includes: a first glass plate having a rectangular shape, and including a first side and a second side opposing the first side; a second glass plate arranged opposing the first glass plate, and having substantially the same shape as the shape of the first glass plate; an intermediate film arranged between the first glass plate and the second glass plate; a first bus bar extending along an end portion closer to the first side; a second bus bar extending along an end portion closer to the second side; and a plurality of heating lines extending so as to connect the first bus bar and the second bus bar to each other, wherein at least some of the plurality of heating lines are heating lines having different lengths.

A shading device includes a shading curtain and a drawing device. The shading curtain includes a first and second shading layer that have at least two types of light transmission areas with different light transmission properties. The drawing device includes a first and second drawing member. The first drawing member is connected with the first shading layer and is configured to draw the first shading layer. The second drawing member is connected with the second shading layer and is configured to draw the second shading layer. The first and second drawing members are movable relative to each other between a first relative position and a second relative position. The first and the second shading layers parallelly move relative to each other. In the first relative position, the shading curtain has a first light transmission property, and in the second relative position, the shading curtain has a second light transmission property.

A plastic glazing of a window of a vehicle having a light feature includes a first vehicle window glazing component, a second vehicle window glazing component molded onto the first vehicle window glazing component, and a light unit configured to produce light for the light feature. The light unit being integrated with at least one of the following: the first vehicle window glazing component and the second vehicle window glazing component. The light unit further configured to direct the light for the light feature through or from at least one of the following: the first vehicle window glazing component and the second vehicle window glazing component. The plastic glazing is a one-piece molded plastic construction. At least one of the first vehicle window glazing component and the second vehicle window glazing component is translucent or transparent.

A plastic glazing of a window of a vehicle having a light feature includes a first vehicle window glazing component, a second vehicle window glazing component molded onto the first vehicle window glazing component, and a light unit configured to produce light for the light feature. The light unit being integrated with at least one of the following: the first vehicle window glazing component and the second vehicle window glazing component. The light unit further configured to direct the light for the light feature through or from at least one of the following: the first vehicle window glazing component and the second vehicle window glazing component. The plastic glazing is a one-piece molded plastic construction. At least one of the first vehicle window glazing component and the second vehicle window glazing component is translucent or transparent.

A window treatment adjustment assembly is provided that includes a slider having a base movable along a portion of the frame. A handle extends from the base. A pocket is formed in the screen and includes: a pocket frame attached to the screen to form an opening through the screen; a shroud member attached to at least a portion of the pocket frame. The handle of the slider extends through the opening of the pocket and past the shroud member. The base of the slider is in communication with a mechanism that moves the window treatment.