X-ray or gamma ray systems or devices – Electronic circuit – With switching means
Reexamination Certificate
2000-12-20
2002-06-18
Dunn, Drew (Department: 2882)
X-ray or gamma ray systems or devices
Electronic circuit
With switching means
C378S095000, C378S197000, C378S205000, C324S690000, C324S756010
Reexamination Certificate
active
06408051
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to an apparatus for medical X-ray diagnosis and/or X-ray therapy which includes a detection device for electromagnetic detection of the presence of an object in the vicinity of a movable part of the apparatus, and also includes:
at least one sensor electrode which is mounted on the movable part in order to produce an electromagnetic field in the vicinity of this sensor electrode,
at least one sensor electrode which is mounted on the movable part in order to detect an electromagnetic field in the vicinity of this sensor electrode,
a receiver for receiving, via a sensor electrode, an input signal which corresponds to the electromagnetic field in the vicinity of the sensor electrode, and
an additional electrode.
An apparatus of this kind is known from U.S. Pat. No. 5,651,044.
An apparatus for medical diagnosis and/or therapy may be provided with a radiation transmitter and a radiation receiver. An example in this respect is formed by a medical X-ray apparatus which is provided with an X-ray source and an X-ray detector, which is usually referred to as an image intensifier. These two elements are arranged at some distance from one another and the patient to be examined or treated is positioned between the X-ray source and the image intensifier. The X-ray source and the image intensifier are positioned relative to the body of the patient in such a manner that an image can be formed of the desired cross-section of the body (the object). The orientation and the position of such apparatus can often be adjusted by means of a motor drive. Generally speaking, in the context of the present invention an object is to be understood to mean the body of a patient to be examined or another object to be examined, the body or a part of the body of a person operating the apparatus, parts of the apparatus itself (for example, the patient table) or of neighboring apparatus, or other obstacles which could invade the path of movement of the parts of the apparatus.
Many of such apparatus are provided with a so-called C-arm, that is, a circular carrier which is rotatable in its own plane (so about an axis extending perpendicularly to the plane in which the C-arm is situated) by way of a trackway, its own plane being rotatable about an axis situated in said plane. Furthermore, a number of other possibilities of displacement also exist.
During the use of the apparatus it is important that a movable part, for example the image intensifier, closely approaches the object to be examined so that the desired clarity and magnification factor of the image can be attained. The image intensifier has a comparatively large front surface for receiving the X-rays and each point on this front surface or on its circumference could come into contact with the object to be examined. Such a collision can take place in any direction of movement of the image intensifier. This is undesirable and, therefore, such an apparatus is provided with a detection device for the detection of the presence of an object in the vicinity of the movable part of the apparatus. It is important to install such a detection device notably in the case of motor-driven apparatus. When the presence of an object is detected within a given small distance from the movable part of the object, the motion of (said part of) the apparatus can be stopped so as to prevent a collision.
The cited U.S. Pat. No. 5,651,044 discloses a medical X-ray apparatus with a capacitive collision sensor which is capable of detecting the presence of an object within a given distance from the movable part (the image intensifier) of the apparatus. The apparatus is provided with a signal source for producing an electric signal which is applied to a sensor electrode mounted on the outer circumference of the image intensifier. An electromagnetic field is thus produced in the vicinity of this sensor electrode; also connected to the sensor electrode is a signal receiver which receives a signal which corresponds to the electromagnetic field in the vicinity of the sensor electrode. This signal is further processed by means of a processing unit which produces an output signal corresponding to the field strength. This known detection device utilizes the same sensor electrode for the production as well as the detection of the field strength.
The known detection device is also provided with one or more additional electrodes for the electromagnetic shielding of the sensor electrodes for the detection of the presence of other components of the X-ray apparatus, such as the image intensifier itself or the slide on which it moves.
The sensor electrodes of the known detection device are mounted around the X-ray receiving window of the image intensifier. Because the X-ray receiving window of an image intensifier may be comparatively large, particularly at the center of this (often approximately circular) window there are regions which lie outside the sensitive area of the sensor electrodes, so that in these regions the proximity of the object to be examined cannot be detected or only inadequately so.
BRIEF SUMMARY OF THE INVENTION
It is an object of the invention to provide an apparatus of the kind set forth in which the detection of the proximity of an object to be examined is enhanced.
To this end, the apparatus according to the invention is characterized in that
the additional electrode is RF coupled to at least one sensor electrode,
which additional electrode is arranged in the beam path between the X-ray apparatus and in the sensitive area of said sensor electrode, and
which additional electrode includes a carrier of a material which is substantially transparent to X-rays, said carrier supporting a layer of an electrically conductive material of a thickness such that this layer is substantially transparent to X-rays.
The sensitive area of the detection device is expanded by the RF coupling of the additional electrode to the sensor electrode. The arrangement of the additional electrode in the beam path of the apparatus ensures that this electrode covers exactly the region in which a reduction of the intensity occurs in the known apparatus. The original region covered by the sensor electrode remains the same. Because the carrier of the additional electrode and the layer of electrically conductive material are both substantially transparent to X-rays, the additional electrode does not form an obstacle for the X-rays to be detected.
The movable part in a first embodiment of the invention is formed by an X-ray detector whose X-ray receiving side has a substantially cylindrical shape, the sensor electrodes being constructed so as to be strip-shaped and being arranged in a mutual parallel arrangement in the same plane around the cylindrical shape whereas the additional electrode is arranged directly in front of the X-ray receiving side of the X-ray detector. The strip-shaped sensor electrode, or assembly of sensor electrodes, in this embodiment creates a sensitive area which is situated mainly in the vicinity of the edge of the X-ray receiving window of the apparatus; if a plurality of sensor elements are present (for example, separate transmitter and receiver electrodes), they are arranged so as to extend parallel to one another. Because of the strip-like shape of the electrodes, a preferred orientation for the sensitivity is avoided. The additional electrode can be formed as a circular plate which is arranged directly in front of the X-ray receiving window; it should be proportioned such that the edge of this plate very closely approaches the edge of the sensor electrode.
The strip-shaped sensor electrode in a further embodiment of the invention is subdivided into a number of N parts, the additional electrode being subdivided into a corresponding number of N sectors, each of said sectors being situated opposite a respective one of said parts of the detection electrode. This step enables the detection of not only the presence of an obstacle, but also of the position of the obstacle relative to the X-ray detector, for example, by determination of the
Habraken Wilhelmus Johannes Petrus
Kruijer Casparus Willibrordus
Van Horne Cornelis Henricus Martinus
Dunn Drew
Vodopia John
LandOfFree
Electromagnetic object detector provided with an additional... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Electromagnetic object detector provided with an additional..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Electromagnetic object detector provided with an additional... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2957636