Patent application number | Description | Published |
20090095819 | HOT-AIR TYPE HEATER APPARATUS - A hot-air type heater apparatus includes an air intake for receiving air from an area to be heated by the hot-air type heater apparatus. In particular, the air intake includes a suction fan for drawing air from a surrounding area into the hot-air type heater apparatus. The air from the surrounding area enters the hot-air type heater through the air intake. The hot-air type heater also includes an air passage to direct the air received from the air intake to a ceramic heater. The air passage allows the air received from the air intake to flow into the ceramic heater. The ceramic heater is then able to rapidly increase the air temperature. Furthermore, the hot-air type heater includes a warm air outlet coupled to the ceramic heater. The warm air outlet outputs the air heated by the ceramic heater into the area to be heated by the hot-air type heater apparatus. | 04-16-2009 |
20090096118 | Portable heater and humidifier apparatus - A portable heater and humidifier apparatus is provided. The apparatus includes a housing with an inlet for receiving air from an area exterior to the housing. The housing includes an air passage disposed therein with a ceramic heating element located inside the air passage. The air passage includes a partition stationed between the ceramic heating element and a heater outlet that is used to exhaust heated air. A fan within the housing is used to direct air from outside of the housing into the air passage. The fan then directs the air through the ceramic heating element. A portion of the heated air continues to flow within the air passage until the heated air is exhausted from a heater outlet. The remaining heated air is diverted to a humidifier through an aperture located within the air passage. The heated air is then combined with fine water droplets generated by the humidifier to emit water vapor or mist from a humidifier outlet. | 04-16-2009 |
20120194618 | INK JET RECORDING HEAD AND METHOD OF PRODUCING THE SAME - Provided is an ink jet recording head, including: an ink ejection portion, in which heat is applied to ink supplied inside thereof, thereby providing the ink with a pressure for ejecting the ink outside; a substrate having a first surface on which the ink ejection portion is provided and a second surface on an opposite side to the first surface, the second surface having at least one recess; and a heat radiation member for releasing heat outside, the heat being transmitted from the ink ejection portion to the substrate, the heat radiation member having a protrusion with a shape corresponding to a shape of the recess, the protrusion being embedded in the recess so that the protrusion is provided in direct contact with the recess. | 08-02-2012 |
20130180944 | PROCESS FOR PRODUCING A LIQUID EJECTION HEAD - A process for producing a liquid ejection head including a silicon substrate having a first surface and a second surface that is a surface on an opposite side to the first surface, an ejection energy generating element which is formed on a side of the first surface side and generates energy for ejecting a liquid, a cavity formed in the second surface and a liquid supply port which is formed in a bottom part of the cavity and communicates with the first surface, including, in the following order: (1) forming the cavity in the second surface of the silicon substrate by a first crystal anisotropic etching; (2) forming a chemical leading hollow in a slope of the cavity; (3) expanding the cavity by a second crystal anisotropic etching; and (4) forming the liquid supply port in a bottom face of the cavity by dry etching with the use of an ion. | 07-18-2013 |
20140132672 | LIQUID DISCHARGE HEAD AND METHOD OF MANUFACTURING THE SAME - A liquid discharge head includes a substrate and a flow-path-forming member that forms a plurality of flow paths and discharge ports that are in communication with the flow paths on the substrate. Liquid is to be discharged from the discharge ports. A space is formed between the plurality of flow paths and is filled with a filling material. In the case where a direction in which the liquid is to be discharged from the discharge ports is an upward direction, a top surface of the filling material is positioned at the same height as a face surface of the flow-path-forming member or is positioned higher than the face surface of the flow-path-forming member in the upward direction. | 05-15-2014 |
20150042712 | LIQUID EJECTION HEAD, LIQUID EJECTING APPARATUS, AND METHOD FOR MANUFACTURING LIQUID EJECTION HEAD - A liquid ejection head includes a substrate and a flow path forming member. Energy generating elements that generate energy with which a liquid is ejected are formed on the substrate. The flow path forming member is disposed on the substrate and a flow path which encloses the energy generating elements is formed using the flow path forming member. Plural ejection ports that are in communication with the flow path are formed in the flow path forming member. A groove portion extending obliquely with respect to an X direction in which adjoining ejection ports are arranged is formed between the adjoining ejection ports in the flow path forming member. | 02-12-2015 |
20150306877 | METHOD FOR CLEANING LIQUID EJECTION HEAD - A method for cleaning a liquid ejection head, including a flow path forming member forming a liquid flow path, a heat generating resistive element, and a coating layer covering the heat generating resistive element and in contact with the liquid, in which the heat generating resistive element is made to generate heat and the liquid is made to be ejected from ejection ports, the method including: applying a voltage to the coating layer to produce an electrochemical reaction between the coating layer and the liquid, and causing the coating layer to be eluted into the liquid, thereby removing kogation deposited on the coating layer; and causing the heat generating resistive element to generate heat and causing the liquid to be ejected from the ejection ports while a voltage is applied to the coating layer continuously or intermittently, thereby eliminating air bubbles generated due to the electrochemical reaction. | 10-29-2015 |
20160001560 | METHOD OF CLEANING LIQUID DISCHARGE HEAD - A method of cleaning a liquid discharge head having a substrate provided with a supply port, a heat-generating resistor covered with a covering layer, a liquid chamber forming member configured to form a liquid chamber, and at least one electrode and being configured to discharge liquid supplied to the liquid chamber from the supply port by causing the heat-generating resistor to generate heat, includes applying a voltage to the covering layer and the electrode to cause an electrochemical reaction between the covering layer and the liquid and dissolve the covering layer into the liquid to remove kogations accumulated on the covering layer, in which the covering layer and the electrode to which the voltage is to be applied are not provided in the same liquid chamber having the same cross-sectional area in a direction from the covering layer toward the electrode. | 01-07-2016 |
20160001561 | METHOD FOR CLEANING LIQUID EJECTION HEAD - A method for cleaning a liquid ejection head which includes applying a voltage to a coating layer of the liquid ejection head to cause the coating layer to be eluted in a liquid so that kogation deposited on a coating layer is removed. When removing kogation deposited on the coating layer, temperatures of the liquids in the liquid chambers are selectively changed among a plurality of liquid chambers. | 01-07-2016 |