A tile for heat insulation has a body forming an enclosure. The body can be aluminum or aluminum alloy material. Inside the enclosure one or more panels of reflective material are disposed and divide the enclosure into two or more separate sub-chambers. The tile inhibits conduction, convection and radiation heat transfer therethrough. The tile can be a rectangular box (e.g., have planar surfaces) for insulating a home or building, or can be curved with a C-shape to allow the tile to conform to a curved surface, such as a vessel (e.g., tank, pipe) having a circular perimeter, or can have an S-shape to provide a roof tile.

• 출원번호 : 18677034
• 출원인 : Gross, William Tod
• 특허번호 :
• IPC : E04B-001/78(2006.01);E04B-001/76(2006.01);

A control circuit (101), while optimizing a radiation treatment plan (113) for a particular patient, outsources an optimization calculation to an external resource (203) and then receives from that external resource a resultant optimization calculation. By one approach, that optimization calculation comprises an optimization high-level utility function calculation. The external resource may comprise, for example, a third-party resource.

• 출원번호 : EP2024/064847
• 출원인 : SIEMENS HEALTHINEERS INTERNATIONAL AG
• 특허번호 :
• IPC : G16H-040/67(2018.01);G16H-010/60(2018.01);G16H-020/40(2018.01);G16H-050/20(2018.01);G16H-050/70(2018.01);A61B-006/00(2024.01);G06F-008/41(2018.01);

The invention relates to a bulk-material conveying system, in particular for conveying raw-material powder in an installation for producing a three-dimensional workpiece by irradiating layers of the raw-material powder with electromagnetic radiation or particle radiation. The bulk-material conveying system comprises a conveying pipe designed to convey a gas flow and, at least in sections, a bulk-material flow driven by the gas flow, and a metering device designed to supply the gas flow with a predetermined amount of bulk material per unit of time. The amount is determined by a control value fed to the metering device. The bulk-material conveying system also comprises a conveyor device designed to convey the gas flow through the conveying pipe, and at least one measuring device for measuring at least one parameter of the gas flow. The bulk-material conveying system also comprises a control device designed to determine a gas density of the gas flow on the basis of the measured at least one parameter of the gas flow, to determine a bulk-material mass flow of the bulk-material flow on the basis of the control value fed to the metering device, to determine a target speed of the gas flow on the basis of the gas density and on the basis of the bulk-material mass flow, and to control the conveyor device to convey the gas flow at the determined target speed.

• 출원번호 : EP2024/064754
• 출원인 : NIKON SLM SOLUTIONS AG
• 특허번호 :
• IPC : B22F-012/50(2021.01);B22F-012/57(2021.01);B22F-010/85(2021.01);B22F-012/80(2021.01);B22F-012/90(2021.01);B29C-064/153(2017.01);B29C-064/357(2017.01);B33Y-030/00(2015.01);B33Y-040/00(2020.01);B33Y-050/02(2015.01);B07B-001/54(2006.01);B07B-013/18(2006.01);B22F-010/28(2021.01);B65G-053/66(2006.01);B22F-010/73(2021.01);

The invention relates to a powder-conveying system for conveying raw-material powder to an installation for manufacturing a three-dimensional workpiece by irradiating layers of the raw-material powder with electromagnetic radiation or particle radiation. The powder-conveying system comprises: a conveyor line which is designed to convey a gas flow, at least along sections, and a powder flow driven by the gas flow, at least along sections; and a conveyor device which is designed to convey the gas flow through the conveyor line. The powder-conveying system also comprises: a first tank, which is connected to the conveyor line, for supplying the installation with powder for an additive manufacturing process; and at least one overflow container, which is connected to the conveyor line, for receiving excess powder accumulating during the additive manufacturing process. The powder-conveying system also comprises: a buffer container which is connected to the conveyor line for supplying a sieve device with powder to be sieved; and the sieve device for sieving the powder to be sieved and for dispensing sieved powder. The powder-conveying system comprises an interface for an external tank, which interface is connected to the conveyor line, for introducing fresh or impure powder into the powder-conveying system. The powder-conveying system also comprises a controller for controlling the powder-conveying system, so that the system carries out at least one of the following conveying processes: a. conveying the sieved powder into the first tank; b. conveying powder from the at least one overflow container into the buffer container; and c. conveying powder from the external tank into the buffer container.

• 출원번호 : EP2024/064744
• 출원인 : NIKON SLM SOLUTIONS AG
• 특허번호 :
• IPC : B22F-010/28(2021.01);B22F-010/70(2021.01);B22F-012/50(2021.01);B22F-012/80(2021.01);B29C-064/153(2017.01);B29C-064/357(2017.01);B33Y-030/00(2015.01);B33Y-040/00(2020.01);B22F-010/85(2021.01);B22F-012/90(2021.01);B33Y-050/02(2015.01);B22F-010/73(2021.01);B01D-046/00(2022.01);

Embodiments of the present disclosure provides a system and method for determining a radiation field angle. The system comprises at least one storage medium, the at least one storage medium including a set of instructions; and at least one processor in communication with the at least one storage medium, wherein when executing the set of instructions, the at least one processor is configured to cause the system to perform operations including obtaining an alternative angle set, the alternative angle set including multiple selectable beam angles; and determining a target irradiation field angle set based on the alternative angle set through iterative calculations.

• 출원번호 : 18677869
• 출원인 : SHANGHAI UNITED IMAGING HEALTHCARE CO., LTD.
• 특허번호 :
• IPC : A61N-005/10(2006.01)

Field of bifacial photovoltaic solar panels comprising rows of bifacial photovoltaic panels arranged in rows arranged in a NORTH SOUTH direction so that the bifacial photovoltaic panels are each equipped with two surfaces for collecting solar radiation, these surfaces belonging to an ideal plane perpendicular to the almost parallel ground to the North South meridian axis so that one surface of the double-sided photovoltaic panel looks almost to the east at the rising of the sun and the other surface of the double-sided photovoltaic panel opposite to the first, looks almost to the west at the setting of the sun characterized by the fact that each row of bifacial photovoltaic panels includes poles fixed in the ground and panels arranged between one pole and another, each bifacial photovoltaic panel is attached on one side to a pole and on the other side to the next pole with lateral constraints 5 that allow rotation and that the axis passing through the lateral constraints 5 is arranged at a certain distance above the axis passing through the center of gravity 4 of the panel.

• 출원번호 : 24178649.0
• 출원인 : Tecna Energy Srl
• 특허번호 :
• IPC : H02S-020/10(2014.01);H02S-020/30(2014.01);A01G-009/24(2006.01);

The invention concerns a system for controlling pest infestation of crops, comprising one or more light sources that are particularly arranged in a grid like pattern, wherein the one or more light source is configured to emit UV radiation in a direction substantially different to a radiation direction for crop growth. A fog generator is configured to produce fog in a first volume covered by the UV radiation emitted by the one or more light sources, where the produced fog comprises a specified density and a specified range of droplet size; said fog scattering UV radiation emitted by the one or more light sources towards the crops. The first volume is distanced from the one or more light sources.

• 출원번호 : EP2024/064703
• 출원인 : AMS-OSRAM INTERNATIONAL GMBH
• 특허번호 :
• IPC : A61L-002/10(2006.01);A61L-002/00(2006.01);A01G-007/04(2006.01);A01M-007/00(2006.01);A01M-013/00(2006.01);

Provided herein are systems and methods for a multisource capable thermophotovoltaic (TPV) system. The TPV system includes an absorber that receives directed energy in the form of electromagnetic radiation from at least a primary source and converts the electromagnetic radiation to thermal energy, an emitter, thermally coupled to the absorber, wherein the emitter receives the thermal energy from the absorber and radiates the thermal energy, and a photovoltaic cell which receives the thermal energy from the emitter and converts the thermal energy to electric power. The absorber may receive energy from at least a second source providing a combination of two or more power generation technologies to obtain efficiencies higher than what could be obtained by identical sources individually. Using multiple sources also provides the capability to extend the duration of available electric power to a load and to control the output power in response to the variable loads.

• 출원번호 : CA2024/050709
• 출원인 : OQAB DIETRICH INDUCTION INC.
• 특허번호 :
• IPC : H02S-010/30(2014.01);H02S-040/22(2014.01);H02S-040/44(2014.01);

An optoelectronic semiconductor module (1), comprising a semiconductor emitter (10) and a photonic module (20), is described herein. The semiconductor emitter (10) comprises an emitting region (103) configured to emit an electromagnetic radiation. The photonic module (20) is arranged downstream of the semiconductor emitter (10). The photonic module (20) comprises a waveguide (200) configured to guide the electromagnetic radiation along its propagation path. The waveguide (200) comprises a rib region (2001) and a slab region (2002).

• 출원번호 : EP2024/064601
• 출원인 : AMS-OSRAM INTERNATIONAL GMBH
• 특허번호 :
• IPC : H01S-005/40(2006.01);H01S-005/026(2006.01);

The technical field of the present invention pertains to protective shielding for spacecraft. The present invention solves the problem of improving the effect of reducing the amount of exposure to cosmic radiation of a spacecraft (4) and life such as humans aboard the spacecraft (4) that is exhibited by a radiation-shielding substance (3) having the property of shielding cosmic radiation by absorbing or reflecting the cosmic radiation. The solution is to change and optimize the placement, on the path of the cosmic radiation, of cosmic radiation shielding (1) comprising the radiation-shielding substance (3) in accordance with changes in the cosmic radiation. The main use of the present invention is for reducing the amount of exposure to cosmic radiation of the spacecraft (4) and life such as humans aboard the spacecraft (4).

• 출원번호 : JP2024/019457
• 출원인 : WAKI Hiroki
• 특허번호 :
• IPC : B64G-001/54(2006.01);B64G-001/22(2006.01);B64G-001/24(2006.01);B64G-001/44(2006.01);