A mold assembly may include a mold frame having an opening extending in a plane and a movable mold insert adjuster to move a mold insert having a slot forming protrusion within the plane within opening.

A fluid ejection device includes a molded body having a first molded surface and a second molded surface opposite the first molded surface, and a fluid ejection die molded into the molded body, with the fluid ejection die having a first surface substantially coplanar with the first molded surface of the molded body and a second surface substantially coplanar with the second molded surface of the molded body, with the first surface of the fluid ejection die having a plurality of fluid ejection orifices formed therein and the second surface of the fluid ejection die having at least one fluid feed slot formed therein.

Examples include a fluidic device comprising a fluidic die, a support element, and a conductive member. The support element is coupled to the fluidic die, and the support element has a fluid channel formed therein. The fluid channel exposes at least a portion of aback surface of the fluidic die. The support element further includes a member opening passing therethrough. The conductive member is connected to the fluidic die, and the conductive member is a least partially disposed in the member opening such that a portion of the conductive member is exposed to the fluid channel of the support element.

A method of manufacturing a liquid ejection head including a first step of having a molten resin becoming a first portion flow in between a first position in a first mold and a first position in a second mold and the molten resin becoming a second portion flow in between a second position in the first mold and a second position in the second mold; a second step of relatively moving the first and second molds, after opening the molds; a third step of closing the molds; a fourth step of joining the first and second portions, a fifth step of taking out the first and second portions and the sealing portion from the molds and mounting a recording element substrate; and a step of forming a space portion between a liquid supply path surface and a mounting surface.

An example fluidic device may comprise a fluidic die and a support element coupled to the fluidic die. A fluid channel may be arranged within the support element and may define a fluid path through the support element and a fluid aperture of the fluidic die. A conductive element may be arranged in the fluid path and separated from the fluidic die. A conductive lead may provide an electrical coupling between a ground of the fluidic die and the conductive element.

A fluid ejection device may include a fluid ejection die embedded in a moldable material, a number of fluid actuators within the fluid ejection die to recirculate fluid within a number of firing chambers of the fluid ejection die, and a number of cooling channels defined in the moldable material thermally coupled to the fluid ejection die.

A fluid ejection device may include a fluid ejection die embedded in a moldable material, a number of fluid recirculation pumps within the fluid ejection die to recirculate fluid within a number of firing chambers of the fluid ejection die, and a number of heat exchangers thermally coupled to a fluid channel side of the fluid ejection die.

In a liquid ejection head and a method of manufacturing the ejection head, an ejection port board is provided with an expanded portion that communicates with a supply port and has an open end that is larger than an opening of the supply port.

A manufacturing method of a liquid ejection head including manufacturing a flow path constituting member for supplying a liquid to an ejection module, the manufacturing a flow path constituting member including using a metal mold which is constituted of a fixed mold and a movable mold, the manufacturing a flow path constituting member including: a first step of molding a first member, a second member, and a third member independently at locations different from each other in the metal mold, the first member, the second member, and the third member constituting the flow path constituting member; a second step of joining the first member and the second member in a specific manner; and a third step of joining the second member and the third member in a specific manner.

In an embodiment, a fluid flow structure includes a micro device embedded in a molding. A fluid feed hole is formed through the micro device, and a saw defined fluid channel is cut through the molding to fluidically couple the fluid feed hole with the channel.