Abstract: A method for producing a microfluidic device includes: a) forming a carrier plate in an injection compression molding tool; b) arranging at least one functional element on one side of the carrier plate; c) forming a cover plate in an injection compression molding tool, wherein the injection compression molding tool is the same or different than that used to form the carrier plate; and d) arranging the cover plate on the carrier plate to cover the at least one functional element and to seal the fluidic device in an airtight manner.

Abstract: A sealing frame for delimiting a surface of a component which is to be covered with a molding compound includes an upper frame part and a lower frame part which may be detachably joined together. The component to be covered with the molding compound is enclosable by the upper frame part and the lower frame part in such a way that a cavity is formed by the sealing frame and the component. The component is inserted into the upper frame par and lower frame part, and the upper and lower frame part are joined to form the sealing frame, so that the cavity is formed which is enclosed by the component and the upper frame part, and a molding compound is introduced into the cavity and cured to form a cover.

Abstract: A temperature control plate for controlling the temperature of components. The temperature control plate is formed of a plastic-metal composite material which includes a metal fiber fabric that is surrounded by a thermoset plastic. A casing contains the components. The temperature control plate is configured for conducting heat away from temperature-exposed components.

Abstract: The present invention relates to a process for producing a wiper arm for a window wiper device for a motor vehicle, with an upper arm portion, on which a mount is provided, in order to fix the wiper arm detachably to a wiper drive of the window wiper device, and a lower arm portion, which is pivotably connected to the upper arm portion, as well as at least one wiper blade holder which is pivotably connected to the lower arm portion, characterized by producing the wiper arm in a multi-component injection-molding process in which, in a first process step, the upper arm portion is injection-molded along with at least one first pivot pin formed on it by means of a first material component in a partial portion of a cavity, in a second process step the lower arm portion, pivotably connected to the upper arm portion, is injection-molded along with at least one second pivot pin formed on it by means of a second material component in a second partial portion of the cavity by encapsulation of the first pivot pin, and i

Abstract: A method for producing a microfluidic device includes: a) forming a carrier plate in an injection compression molding tool; b) arranging at least one functional element on one side of the carrier plate; c) forming a cover plate in an injection compression molding tool, wherein the injection compression molding tool is the same or different than that used to form the carrier plate; and d) arranging the cover plate on the carrier plate to cover the at least one functional element and to seal the fluidic device in an airtight manner.

Abstract: A method for regulating an injection molding process in which process setting variables of an injection molding machine are controlled via a regulating module, which receives data from a process-internal sensor system of the injection molding machine, data on the fabricating sequence of the injection molding component parts from an external sensor system and/or data on the quality of a fabricated injection molded component part from an online component part control, evaluates these data in a quality prognosis module and, as a function of the data evaluation, performs a change in the process setting variables of the injection molding machine, because of the change in the process setting values, the working point of the injection molding machine being changed so that the quality features of the injection molded component parts fabricated using the changed working point lie within the specified tolerances of the quality of the injection molded component parts.

Abstract: A measuring device for an injection molding system for ascertaining a batch-specific characteristic number of a plasticized plastic includes a flow channel which is situated between a plasticizing unit of an injection molding machine and an injection molding tool, a first pressure sensor and a second pressure sensor and a first temperature sensor and a second temperature sensor being situated along the flow channel. The flow channel has a taper between the first pressure sensor and the second pressure sensor.

Abstract: A measuring device for an injection molding system for ascertaining a batch-specific characteristic number of a plasticized plastic includes a flow channel which is situated between a plasticizing unit of an injection molding machine and an injection molding tool, a first pressure sensor and a second pressure sensor and a first temperature sensor and a second temperature sensor being situated along the flow channel. The flow channel has a taper between the first pressure sensor and the second pressure sensor.

Abstract: A sealing frame for delimiting a surface of a component which is to be covered with a molding compound includes an upper frame part and a lower frame part which may be detachably joined together. The component to be covered with the molding compound is enclosable by the upper frame part and the lower frame part in such a way that a cavity is formed by the sealing frame and the component. The component is inserted into the upper frame par and lower frame part, and the upper and lower frame part are joined to form the sealing frame, so that the cavity is formed which is enclosed by the component and the upper frame part, and a molding compound is introduced into the cavity and cured to form a cover.

Abstract: The present invention relates to a process for producing a wiper arm for a window wiper device for a motor vehicle, with an upper arm portion, on which a mount is provided, in order to fix the wiper arm detachably to a wiper drive of the window wiper device, and a lower arm portion, which is pivotably connected to the upper arm portion, as well as at least one wiper blade holder which is pivotably connected to the lower arm portion, characterized by producing the wiper arm in a multi-component injection-molding process in which, in a first process step, the upper arm portion is injection-molded along with at least one first pivot pin formed on it by means of a first material component in a partial portion of a cavity, in a second process step the lower arm portion, pivotably connected to the upper arm portion, is injection-molded along with at least one second pivot pin formed on it by means of a second material component in a second partial portion of the cavity by encapsulation of the first pivot pin, and i