DE102008047814A1 - Computed tomography device for generating three-dimensional tomography image of patient, has noise generating unit converting anti-noise signals into anti-noise signal that is phase-shifted into noise around specified degree - Google Patents

Abstract

The device (2) has an anti-noise device (1) reducing noise developed during operation of the device. A control unit (3) supplies anti-noise signals, and a noise generating unit (4) e.g. loud speaker and piezoelectric film, converts the anti-noise signals into an anti-noise signal that is phase-shifted into the noise around 180 degree. An acoustic sensor (5) converts interfering noise into an interfering signal, and control unit generates the anti-noise signals by analysis of the interfering signal. The noise generating unit is arranged on a housing and/or components of the device. An independent claim is also included for a method for reducing anti-noise developed during operation of a tomography device.

Description

The The invention relates to a tomography device with a counter-noise device and a method of reducing an operation of the tomography device resulting noise.

With Tomography devices become two- or three-dimensional images from an examination area of a patient for diagnosis or therapeutic purposes. For example, with a computed tomography device generated three-dimensional slices. The construction of a computed tomography device includes a gantry with a stationary support frame, in a rotary frame is rotatably mounted about an axis. On the Rotary frame is arranged a receiving system, which is an X-ray tube and one opposite the tube Detector includes. By rotation of the rotating frame at the same time continuous feed of a stored on a storage device Patients in the direction of the system axis become projections spiraling captured from a variety of different projection directions. As in the generation of X-rays of the X-ray tube used electrical energy to 99% in heat energy is converted, the computed tomography device has a Cooling device to overheat the electronic components to avoid.

at Operation of the mechanical and electrical components of the tomography device creates a level of noise, both from the patient and also perceived by the operating staff as unpleasant. To arise For example, disturbing structure-borne sound and airborne sound waves by rotation of the rotating frame, by rotation of the anode within the X-ray tube or by the operation of the cooling device. Especially in the tunnel opening of the gantry, through which the patient is pushed at the sampling, the patient is a special exposed to high noise levels.

One important aspect in the design of a tomography device is therefore the minimization of the operation of the tomography device resulting noise. To make the spread more disruptive Structure-borne sound and airborne sound waves in a tomography device To prevent or minimize, there are two different Approaches. On the one hand there is the possibility of the Noise generation directly by optimizing the sound to reduce the causing component. For example, would be it possible by using a noise-optimized pivot bearing the structure-borne sound wave propagation during rotation of the rotating frame or to minimize upon rotation of the anode. Such an optimization However, it is associated with a high cost and the achieved Reduction of background noise is usually not sufficient.

A Another possibility is the sound propagation by using noise insulation mats to prevent. For example, to reduce airborne sound propagation on the inside of the housing of the tomography device the Noise insulation mats glued on. The structure-borne sound propagation Beyond that also by use of appropriate passive damping materials to the for holding the Minimize components provided contact points.

A However, effective reduction of sound propagation is only beginning achieved from a certain thickness of the insulating material. The However, for the insulation usable volume of construction is very limited, so these measures usually are not sufficient to reduce the background noise to the desired level To reduce the level.

From the US 5,675,658 is known a counter-noise device in the form of a headphone. The headphone has to reduce noise, a microphone for detecting an interference signal, a processor for generating a Gegenschallsig nals from the interference signal and a speaker that generates from the antinoise signal sound waves that reduce the noise.

One however, such headphones are not suitable for the use in a tomography device. The one in the headphones arranged electronic components would be at detection from image data in the area of the head to image artifacts or make imaging completely impossible. Wearing a headphone is beyond from the persons usually felt as unpleasant. Thereby, that the auricles lie directly against the head of the patient, but also the useful sound is necessarily dampened. A useful sound may be, for example, the voice of an operator, which the patient to carry out the investigation Breathing commands are there. Therefore, certain measures are to Filtering out and amplifying the useful sound from the Environment necessary.

task The present invention is therefore a tomography device and a method for a tomography device so to design that a reduction in operation of the tomography device arising Störschalls with simple means effectively can be reduced.

This object is achieved by a tomography device according to the features of independent claim 1. Advantageous embodiments of the tomography device are the subject of the dependent claims 2 to 8. The object is further by a A method for a tomography device according to the features of independent claim 9 solved. Advantageous embodiments of the method are the subject of the dependent claims 10 to 13.

The Inventors have realized that a simple and effective reduction a noise generated during operation of the tomography device then is possible if the tomography device directly a counter-noise device is assigned, wherein the antinoise device a control unit for providing an antinoise signal and a Schallerzeu generating unit for converting the antinoise signal in a phase-shifted by 180 ° to the background noise Has antinoise.

at The present invention is targeted only the noise attenuated. The useful sound can be heard by the people in undocked Form be perceived. This eliminates complex process steps for processing useful sound when wearing a headphone necessary. Furthermore, the control unit and the sound generating unit of the antinoise device completely outside the measuring range of the tomography device be arranged so that by to minimize noise used components no image artifacts arise.

In a first advantageous embodiment of the invention, the Tomography device a sound sensor for converting the Noise in a jamming signal, the control unit for generating the antinoise signal by analyzing the interfering signal is configured. By using a sound sensor, for example a microphone, is the noise of sources of interference detectable in the environment and convertible into a noise signal.

The Analysis of the interference signal is preferably carried out in the frequency domain. The interference signal is via an FFT in real time can be dismantled into frequency components. By appropriate filtering are special frequency bands in which the background noise is particularly strong, herausfilterbar. It would be the same conceivable, an octave analysis to filter out the corresponding To carry out noise.

In a second advantageous embodiment of the invention is the Control unit configured so that the antinoise signal from a Number of counterthrust signal profiles held in a memory unit can be selected depending on an active operating mode is. With this configuration, no sound sensor is needed. Rather, the GE genalsignalprofile in advance of a study on Basis of an analysis of the noise during the course of different Operating modes of the tomography device generated. The antinoise signal profiles are for example dependent on the rotational speed, which can change from operating mode to operating mode. It but would also be conceivable only a single antinoise signal profile to use, which is adapted to the active mode, for example, by the frequency spectrum of the antinoise signal is raised or lowered.

In An advantageous embodiment of the invention is the sound generation unit on a housing of the tomography device and / or a component of the tomography device. Consequently is an effective reduction of background noise immediately near the source of background noise possible. The sound generating unit is particularly advantageous along the circumference of a tunnel lining of the tomography device arranged. In this way, the sound generating unit can be complete outside a measuring field of the tomography device be arranged so that the components of the sound generating unit do not cause image artifacts in the captured image data.

About that In addition, it is advantageously provided, the sound generation unit on the stationary and / or rotating part of the gantry of the computed tomography device. Due to the rotational movement and the high inertial masses to be moved out of the Gantry a particularly high noise level in the nearby areas. By arrangement of the sound generating unit directly At the gantry can be the main part of the noise be effectively reduced.

In An advantageous embodiment of the invention is the sound generation unit a piezo film. Piezo films are thin-walled and can thus without structural change of the tomography device, for example be brought up to the panel. When using piezo foils It is therefore no longer necessary openings for insertion of speakers in the panel of the tomography device to drill. In addition, it is the use of transparent Piezo films no longer necessary, costly measures to perform optical integration of the sound generating unit in the panel. It would also be conceivable, instead of piezofilms conventional Speaker to use. The advantage of such speakers is to see in the availability and generation high sound levels.

• a) Bereitstellen eines Gegenschallsignals und
• b) Erzeugen eines um 180° zu dem Störschall phasenverschobenen Gegenschalls aus dem Gegenschallsignal.

In addition, the object is also achieved by a method for reducing a noise produced during operation of a tomography device with a tomography device, the method comprising the following method steps:

• a) providing an antinoise signal and
• b) generating a 180 ° phase-shifted to the background noise from the antinoise signal.

embodiments the invention and further advantageous embodiments of the invention according to the Subclaims are in the following schematic drawings shown. Show it:

1 in side view a first embodiment of a tomography device according to the invention with a counter sounding device,

2 A second embodiment of a tomography device according to the invention with a counter-noise device,

3 in a sectional representation in a vertical section along the system axis of the tomography device, a gantry with sound conversion units in the form of piezo films,

4 in a perspective view of an inventive tomography device, wherein piezoelectric sheets are arranged as a sound conversion unit on the panel of selected components, and

5 in a perspective view of a tunnel lining of a computed tomography device, are arranged in the segment-wise planar piezoelectric films as a sound generating unit.

In the 1 and 2 are two different embodiments of a tomography device 2 , here a computer tomography device with a counter-noise device 1 , shown. Inside the computer tomography devices 2 there is a gantry 13 with a stationary support frame, not shown 11 and one in the support frame about a system axis 15 rotatably arranged support frame 12 , hereinafter referred to as a rotating frame. On the rotating frame 12 is arranged a recording system. The essential components of the imaging system include an x-ray source in the form of an x-ray tube 17 and one of the x-ray tubes 17 oppositely arranged detector 18 , In a tunnel opening 14 is located on an adjustable arranged patient support device 19 a patient 21 , By a rotation of the rotating frame 12 with simultaneous continuous advance of the patient support device 19 in the direction of the system axis 15 For example, projections from a plurality of different projection directions can be recorded spirally along an examination area. The projections obtained in this way by the spiral scanning are transmitted to a computer unit, not shown, and charged to a three-dimensional slice image.

During operation of the computed tomography device 2 caused by rotation of the rotating frame 12 but also, for example, by the generation of an airflow for cooling of the on the rotating frame 12 stored electronic components is used, and by the rotation of an anode within the x-ray tube 17 unwanted noise that a patient has 10 but also one next to the computed tomography device 2 standing operator 22 as disturbing. To reduce the noise, the two embodiments of computed tomography devices 2 in the 1 and 2 in each case a counter sound device 1 on.

In the in 1 shown embodiment of the computed tomography device comprises the antinoise device 1 a sound sensor in the form of a microphone 5 , The microphone 5 converts the noise into a noise signal. This interference signal is sent to a control unit 3 directed to the generation of an antinoise signal. The generation of the antinoise signal takes place by analysis of the interfering signal in the frequency domain. A real-time capable processing is ensured in this embodiment by a transformation of the interfering signal in the frequency domain by means of an FFT.

A particularly efficient analysis of the interference signal is possible if the characteristic frequency spectrum of all possible sources of interference in the run-up to investigations is evaluated and the result of the analysis of the control unit 3 is provided for generating the antinoise signal. Differences in the characteristic frequency spectrum are in particular for different operating modes of the computed tomography device 2 to be expected by the different rotational speeds of the rotating frame 12 caused. On the basis of the results generated in this way, filters can subsequently be defined with which the background noise can be selectively damped or filtered out. As a filter, for example, a mask can be used with the specific frequencies of noise sources in the frequency domain are masked.

The antinoise signal thus generated is applied to a sound generating unit 4 the antinoise device 1 directed. The antinoise device 1 generates by conversion of the antinoise signal a 180 ° to the background noise phasenver pushed counter sound. Due to this phase shift, background noise and counter-noise in the event of interference almost cancel each other out. As a result, only the useful signal, for example, the voice one to the patient 21 speaking operator 22 , perceived.

The antinoise device 1 also includes a position sensor 23 For example, a camera or an ultrasonic transmitter with receiver, to register the current position of the Head of the patient 21 in relation to the sound generating unit 4 , The generation of the counter sound as a function of a via the position sensor 23 Detected position of the head ensures that an improved cancellation of the noise due to interference in the region of the head.

In contrast to the first embodiment of the computed tomography device 2 has the in 2 embodiment shown no sound sensor 5 on. Thus, in this embodiment also not the current interference signal is detected and converted into an interfering signal and analyzed. The antinoise signal is rather of a number in a memory unit 6 reserved antinoise signal profiles as a function of the active operating mode of the computed tomography device 2 selected. Each of the antinoise signal profiles is in advance by analyzing the noise to a specific mode of the computed tomography device 2 been generated. However, it would also be conceivable to use a single antinoise signal profile which depends on the rotational speed of the rotating frame 12 is corrected. The adaptation takes place, for example, taking account of operating parameters, for example the rotational speed of the rotary frame, by raising or lowering the frequency components of the antinoise signal profile.

The 3 shows a section through the gantry 13 in the vertical direction along the system axis 15 , To reduce the rotation of the rotating frame 12 resulting noise are exemplified at three different positions sound generating units in the form of piezo films 4 arranged. In the upper part of the sectional image is the piezo film 4 directly in the gap between the rotating and stationary part 11 . 12 the gantry 13 , By a corresponding control of the piezo film 4 can be directly in the warehouse of the gantry 13 resulting noise can be reduced. In the lower part of the sectional image is on the one hand a piezo film 4 between the stationary part 11 and the outer frame 16 of the computed tomography device 2 , This piezo film 4 reduces the transmission of sound between the gantry 13 and the outer frame 16 , so that the two parts are almost acoustically decoupled. In addition, another piezo film 4 each under the stand 20 of the computed tomography device 2 arranged. An arranged at this point sound generating unit 4 in turn serves for the acoustic decoupling of the computer tomography device 2 to the environment. By this measure, the propagation of structure-borne noise on the base of the computed tomography device 2 reduced. On the other hand, by a corresponding generation of an antinoise signal, a transmission of vibrations of the substructure, for example by railways, subways, which are located in the vicinity of the building, on the computed tomography device 2 be actively suppressed.

In the 4 is a perspective view of a computed tomography device 2 with a counter-noise device 1 shown. In this embodiment, individual components are targeted 8th . 9 of the computed tomography device 2 , For example, the compressed air generator of the cooling device, with a piezo film as a sound generating unit 4 jacketed. In this way, targeted sources of noise can be eliminated. In this variant, so the noise is reduced directly at the place of origin.

The 5 shows a perspective view of a tunnel lining 10 of the computed tomography device 2 , On the tunnel panel 10 Piezofo lien as a sound generation unit along the circumference 4 arranged. By appropriate control of the segments can be an efficient reduction of noise in the interior of the tunnel opening 14 be achieved. By using the piezo film 4 made of a ceramic material, no image artifacts are produced in the images produced. In addition, transparent piezo foils can be used 4 use that for the patient 21 are not noticeable at all. The use of these thin-walled films thus requires no structural change of a conventional computed tomography device 2 ,

It It goes without saying that the invention to any other Tomography devices, such as a magnetic resonance device or on a C-arm bow device. The invention comes advantageous always used when through the operation of the tomography device Acoustic interference sources are available for a patient and an operator are perceived as unpleasant.

In summary it can be said:
The invention relates to a tomography device 2 with a counter-noise device 1 and a method of reducing an operation of the tomography device 2 resulting noise. The antinoise device 1 includes a control unit 3 for providing an antinoise signal and a sound generating unit 4 for converting the antinoise signal into a 180 ° out of phase with the background noise. In this way, the noise during operation of the tomography device 2 be effectively reduced without affecting the well-being of a patient 21 or an operator 22 is affected by wearing a headphone.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• US 5675658 [0007]

Claims (13)

Tomography device with a counter-noise device ( 1 ) for reducing a during operation of the tomography device ( 2 ), comprising a control unit ( 3 ) for providing an antinoise signal and a sound generating unit ( 4 ) for converting the antinoise signal into a phase-shifted by 180 degrees to the background noise. Tomography apparatus according to claim 1, comprising a sound sensor ( 5 ) for converting the noise into a noise signal, wherein the control unit ( 3 ) is configured to generate the antinoise signal by analyzing the interfering signal. Tomography apparatus according to claim 1, wherein the control unit ( 3 ) the antinoise signal from a number of in a memory unit ( 6 ) is configured as a function of an activated operating mode. Tomography device according to one of claims 1 to 3, wherein the sound generating unit ( 4 ) on a housing ( 7 ) of the tomography device ( 2 ) and / or a component ( 8th . 9 ) of the tomography device ( 2 ) is arranged. Tomography apparatus according to one of claims 1 to 4, wherein the sound generation unit ( 4 ) along the circumference of a tunnel lining ( 10 ) of the tomography device ( 2 ) is arranged. Tomography apparatus according to one of claims 1 to 5, wherein the sound generation unit ( 4 ) on the stationary ( 11 ) and / or the rotating part ( 12 ) of a gantry ( 13 ) of the tomography device ( 2 ) is arranged. Tomography apparatus according to one of claims 1 to 6, wherein the sound generation unit ( 4 ) is a piezo film. Tomography apparatus according to one of claims 1 to 6, wherein the sound generation unit ( 4 ) is a speaker. Method for reducing a tomography device during operation ( 2 ) resulting noise by means of a tomographic device ( 2 ), comprising the following method steps: a) providing an antinoise signal and b) generating a 180 ° phase-shifted antinoise to the background noise from the antinoise signal. The method of claim 9, wherein for providing the antinoise signal the background noise in an interference signal converted and through an analysis of the interfering signal the Antinoise signal is generated. The method of claim 9 or 10, wherein the analysis the interference signal in the frequency domain. Method according to claim 9, wherein depending on an active mode of the tomography device, the antinoise signal selected from a number of pre-noise signal profiles becomes. The method of claim 12, wherein the to the modes corresponding antinoise signal profiles detected in advance Interference signals are determined.