Class / Patent application number | Description | Number of patent applications / Date published |
378068000 | Including object support or positioning | 20 |
20080279331 | X-RAY IMAGING SYSTEM AND X-RAY IMAGING METHOD - An X-ray imaging system is disclosed which can effect positioning of an X-ray irradiator and an X-ray receiver in an adaptive manner. The X-ray imaging system uses an X-ray irradiator and an X-ray receiver opposed to each other through a space to radiograph a subject positioned between the two and comprises radiographing device having the X-ray irradiator and the X-ray receiver, optical radiographing device for picking up an optical image of the subject, specifying device for analyzing the optical image and specifying physical characteristics of the subject, and positioning device for positioning the X-ray irradiator and the X-ray receiver of the radiographing device on the basis of the specified physical characteristics and a portion to be radiographed of the subject. | 11-13-2008 |
20100067659 | DEVICE AND METHOD FOR IMMOBILIZING PATIENTS FOR BREAST RADIATION THERAPY - According to the improved systems and methods described herein, a patient may be immobilized so that one or both breasts are returned to a known position. Additionally, the improved systems and methods reduce respiratory movement of the breasts. Thus, the immobilization devices and techniques described herein provide accurate and reproducible breast positioning while simultaneously reducing respiratory motion. | 03-18-2010 |
20100189221 | SELF CONTAINED IRRADIATION SYSTEM USING FLAT PANEL X-RAY SOURCES - The present disclosure describes a self-contained irradiator comprising at least one X-ray source inside a shielded enclosure, the one or more sources each operable to emit X-ray flux across an area substantially equal to the proximate facing surface area of material placed inside the enclosure to be irradiated. The irradiator may have multiple flat panel X-ray sources disposed, designed or operated so as to provide uniform flux to the material being irradiated. The advantages of the irradiator of the present disclosure include compactness, uniform flux doses, simplified thermal management, efficient shielding and safety, the ability to operate at high power levels for sustained periods and high throughput. | 07-29-2010 |
20100189222 | PANORAMIC IRRADIATION SYSTEM USING FLAT PANEL X-RAY SOURCES - The present disclosure describes a panoramic irradiator comprising at least one X-ray source inside a shielded enclosure, the one or more sources each operable to emit X-ray flux across an area substantially equal to the proximate facing surface area of material placed inside the enclosure to be irradiated. The irradiator may have multiple flat panel X-ray sources disposed, designed or operated so as to provide uniform flux to the material being irradiated. The advantages of the irradiator of the present disclosure include compactness, uniform flux doses, simplified thermal management, efficient shielding and safety, the ability to operate at high power levels for sustained periods and high throughput. | 07-29-2010 |
20100189223 | DIGITALLY ADDRESSED FLAT PANEL X-RAY SOURCES - An apparatus and method for the X-ray irradiation of materials is provided. This apparatus includes an irradiation chamber, a number of flat electromagnetic (X-ray) sources having a number of addressable cathode emitters, a support mechanism, a heat transfer system, a shielding system, and a process controller. A shielded portal within the shielding system allows access to an interior volume of the irradiation chamber. The electromagnetic sources are positioned on or embedded within interior surfaces of the irradiation chamber. These electromagnetic sources generate an electromagnetic flux, such as an X-ray flux, where this flux is used to irradiate the interior volume of the irradiation chamber and any materials placed therein. The operation of the electromagnetic sources and the number of addressable cathode emitters being controlled by the process controller. The materials placed within the interior of the chamber may be supported by a low attenuation support mechanism. This low attenuation support mechanism does not substantially reduce the X-ray flux intended to irradiate the materials placed within the interior volume of the irradiation chamber. | 07-29-2010 |
20120148025 | System and method for non-destructive decontamination of sensitive electronics using soft x-ray radiation - A method is provided for decontaminating biological pathogens residing in an enclosure of an electronic device. The method includes: identifying materials used to encase the enclosure of the electronic device; tailoring x-ray radiation to penetrate the materials encasing the enclosure; and directing x-ray radiation having a diffused radiation angle towards the electronic device. | 06-14-2012 |
20140294155 | RADIOGRAPHY DEVICE AND METHOD FOR EXAMINATIONS IN THE FIELD OF PEDIATRIC RADIOLOGY - A radiography device and a radiography method are specifically adapted for examinations in the field of pediatric radiology. The radiography device examines a diagnosis-relevant region of a patient. The device has a radiation source, which emits radiological rays in an irradiation direction. An irradiation surface is selectable in dependence of a specified examination region of the patient. The radiography device also has a measurement field. The size of the measurement field is changeable such that the size of the measurement field and the size of the irradiation surface correlate. | 10-02-2014 |
20150023472 | X-Ray Testing Device for Material Testing and Method for the Generation of High-Resolution Projections of a Test Object by means of X-Ray Beams - An X-ray testing device for generating high-resolution geometric projections of a test object, includes a highly focusing X-ray source having: a rotary anode assembly formed by a rotatably mounted anode plate, an anode plate drive connected to rotate the anode plate and a rotational angle encoder detecting the rotation angle of the anode plate; an electron gun producing a focused electron beam; and an electron beam control unit having an electron beam deflecting unit and a control unit, the electron beam deflecting unit controlling the point of incidence of the electron beam generated by the electron gun on the anode plate. The control unit controlling the electron beam deflecting unit dependent on the detected rotation angle of the anode plate minimizing the positional change of the point of incidence on the anode plate relative to a reference point on a bracket holding the test object located in a fixed position. | 01-22-2015 |
20150294832 | X-RAY APPARATUS AND STRUCTURE MANUFACTURING METHOD - Provided is an X-ray apparatus including: a target configured to generate an X-ray by collision of electrons or transmission of electrons; a filament configured to release the electrons to the target; a housing that has the filament therein; and a first holding member configured to hold a portion of the target disposed on an outer side of the housing on the outer side of the housing. | 10-15-2015 |
20160073981 | FLOOR MAT RADIATION ATTENUATION SHIELD - A system attenuates scatter radiation during a radiological procedure. The radiological procedure using a radiation machine including an emitter, a receiver, a base, and a table for a patient. The base is supported by a floor. The system includes a barrier formed of a radiation attenuation material and positioned over an area on the floor. The barrier is comprised of an elastomeric material and disposed beneath the table. The barrier on the floor can reduce substantial amounts of scatter radiation. | 03-17-2016 |
378069000 | With object moving | 10 |
20080273661 | Irradiation method and apparatus - An apparatus and method for providing uniform X-Ray irradiation to material carried in a plurality of containers. The apparatus includes an X-Ray tube providing a linear source of irradiation and also a 4pi (360 degrees) irradiation. The material to be irradiated is placed in containers suspended on a vertical carousel wheel type structure. The individual containers are mounted receive irradiation throughout the rotation of the wheel. The tube is mounted approximately at the axis or center of the wheel. In operation, the containers of material are rotated around the tube, and due to their orientation and the 4 pi irradiation from the source, each and all the containers receive a uniform irradiation for the material contained therein. | 11-06-2008 |
20140037064 | CONTROL DEVICE - The invention relates to a control device ( | 02-06-2014 |
20140341353 | APPARATUS AND METHOD FOR THE STERILIZATION OF CONTAINERS WITH A SCREENING DEVICE AGAINST X-RAYS - An apparatus for the sterilization of containers with a conveying device which conveys the containers along a pre-set conveying path, with at least one stressing device which acts upon the containers with radiation, for the purpose of the sterilization thereof, and with a screening device which screens off X-ray radiation which is formed in the context of the sterilization. The screening device has at least one outer wall which bounds the conveying path of the containers and which extends along the conveying path. The outer wall has at least one recess which forms a cavity which faces the conveying path of the containers in such a way that X-ray radiation formed during the sterilization can enter this cavity. | 11-20-2014 |
20150305694 | X-RAY DIAGNOSTIC APPARATUS AND FOOT SWITCH USED FOR THE SAME - According to one embodiment, an X-ray diagnostic apparatus which can improve operability is provided. This apparatus comprises a top configured to move, a bed including the top, an X-ray tube configured to generate X-rays applied to an object placed on the top, a peripheral unit used around the bed, and control processing circuitry configured to generate a control signal. The peripheral unit moves in a self-propelled manner between a first position and a second position by a motor. The control processing circuitry generates a control signal for controlling the movement of the peripheral unit. | 10-29-2015 |
20150320382 | METHOD FOR MOVING A MOTORIZED TABLE AND ASSOCIATED MEDICAL IMAGING SYSTEM - A method for moving a motorized table designed to receive a patient in a medical imaging system comprising a radiation detector capable of detecting a beam of radiation emitted by a radiation source, the method comprising generating a signal that indicates a movement of the motorized table in the plane of the motorized table causing or tending to cause said beam to at least partially or completely leave an area predefined by the user of the medical imaging system. | 11-12-2015 |
20150351708 | RADIOGRAPHIC DEVICE - An diagnostic X-ray radiography device and system whereby a subject (M) can be placed on and taken off of an imaging bed safely, easily, and comfortably. In the device and system a placement-accommodating-state memory ( | 12-10-2015 |
20160015353 | X-RAY IMAGING APPARATUS AND METHOD FOR CREATING X-RAY IMAGE - An X-ray imaging apparatus comprises an X-ray source for irradiating X-rays to a subject; a sensor mounted on the source; and a controller for obtaining a volume of the subject based on an output value of the sensor, determining a degree of obesity of the subject based on the volume, and controlling an irradiation level of the X-rays based on the degree of obesity of the subject, wherein the output value of the sensor comprises, if the sensor comprises multiple image sensors, tilting angles of the multiple image sensors while the X-ray source is being shifted. An X-ray imaging apparatus and method for controlling the same where characteristics, e.g., a degree of obesity, of a subject may be automatically detected. Based on the detected characteristics of the subject, an intensity of X-rays may be automatically controlled, thereby improving the quality of the X-ray image. | 01-21-2016 |
20160074000 | X-RAY DIAGNOSTIC APPARATUS - An X-ray diagnostic apparatus according to one embodiment comprises an X-ray tube, an X-ray detector, a holding mechanism, position specifying circuitry and control circuitry. The X-ray detector detects the X-ray which has been generated by the X-ray tube and has passed through an object placed on a top of a bed movable in an examination room. The holding mechanism holds the X-ray tube and the X-ray detector, and movable in the examination room. The position specifying circuitry specifies a position of the holding mechanism in the examination room and a position of the bed in the examination room. The control circuitry controls the holding mechanism in order to change a position and angle of the holding mechanism based on the position of the holding mechanism and the position of the bed. | 03-17-2016 |
20160099086 | SUBSTRATE TRANSFER SYSTEM HAVING IONIZER - A substrate transfer system includes a substrate transfer chamber between a substrate receiving port and a process chamber, the substrate transfer chamber providing a space for transferring a substrate between the substrate receiving port and the process chamber, and an ionizer within the substrate transfer chamber, the ionizer including a light source to irradiate electromagnetic waves having a predetermined radiation angle toward the substrate to eliminate static electricity of the substrate. | 04-07-2016 |
20160146968 | Apparatus for Examining Moving Products, in Particular Moving Piece Goods, by X-Ray - Provided is an apparatus for x-ray examination of moving products, including a conveyor device with a conveying means on which a product to be irradiated rests in a movement plane. The product is transported in at least one of the following manners: along a predetermined movement trajectory at a predetermined speed; in accordance with a predetermined time-dependent course of speed or position; is rotated about a rotary axis that is substantially perpendicular to the movement plane, or any combination thereof. A radiation generating device, configured to generate an x-ray beam, is positioned on one side of the conveying means, and has a detector device, positioned on the opposite side of the conveying means. The radiation generating device is configured to generate an x-ray beam widening in fanlike fashion beginning at an x-radiation source of the radiation generating device. | 05-26-2016 |