JP2006020749A - Ultrasonic diagnostic device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To store accumulated degradation information relating to a probe for the each probe. <P>SOLUTION: The degradation information relating to the probe 10 is stored in a memory 14. For the date of starting use, the date of starting the use of the probe 10 is stored. For a total transmission / reception time, the cumulative time of the transmission / reception time of ultrasonic waves 18 by the probe 10 after starting the use is stored, and the total transmission / reception time is appropriately updated by a device body. For a probe serial No., an intrinsic number allocated to the probe 10 is stored, and from the probe serial No., the probe 10 can be specified. Also, for a probe type, the kind (such as linear and sector) of the probe 10 is stored. In addition, in the memory 14, the information on a probe frequency or the like can be stored. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an ultrasonic diagnostic apparatus, and more particularly to a technique for providing deterioration information of an ultrasonic probe.

  If the probe (ultrasonic probe) of the ultrasonic diagnostic apparatus deteriorates due to long-term use, it may cause, for example, a reduction in image quality of the ultrasonic image. For this reason, conventionally, various techniques relating to probe degradation have been proposed. For example, in Patent Document 1, in order to suppress the deterioration of the probe, it is determined that the probe is not used when the ultrasonic wave is emitted in the air, and the transmission of the ultrasonic wave while being emitted in the air is interrupted. The technology to be shown is shown.

JP 63-122429 A

  Even if transmission at the time of air emission is interrupted, deterioration of the probe over time cannot be prevented as long as ultrasonic waves are transmitted and received during normal diagnosis. For this reason, the present invention focuses on how to obtain effective information regarding the aging of the probe. As information on aging degradation, for example, a method of storing the accumulated usage time of the probe in the ultrasonic diagnostic apparatus main body or the like can be considered. However, the probes are not always connected to the same apparatus body. Therefore, it is necessary to store the deterioration information in consideration of a usage form in which the probe is shared by a plurality of apparatus main bodies.

  Therefore, an object of the present invention is to provide accumulated deterioration information regarding each ultrasonic probe for each ultrasonic probe.

  In order to achieve the above object, an ultrasonic diagnostic apparatus according to a preferred embodiment of the present invention is an ultrasonic diagnostic apparatus having an ultrasonic probe and an apparatus main body, wherein the ultrasonic probe includes the ultrasonic probe. A memory for storing deterioration information related to the probe, wherein the apparatus main body acquires the deterioration information from the ultrasonic probe, and the deterioration information of the ultrasonic probe according to the use state of the ultrasonic probe; It is characterized by updating.

  Preferably, the ultrasonic probe stores a cumulative use time of the ultrasonic probe as deterioration information. Preferably, the ultrasonic probe stores a cumulative transmission / reception time of the ultrasonic probe as deterioration information, and the apparatus main body receives the ultrasonic wave according to a transmission / reception state with the ultrasonic probe. The accumulated transmission / reception time of the probe is updated. Preferably, the apparatus main body updates the accumulated transmission / reception time of the ultrasonic probe every predetermined time.

  In order to achieve the above object, an ultrasonic probe according to a preferred embodiment of the present invention is an ultrasonic probe of an ultrasonic diagnostic apparatus, wherein the ultrasonic probe is the ultrasonic probe. A memory for storing deterioration information related to the child is provided, and the deterioration information is updated by the apparatus main body according to the use state of the ultrasonic probe.

  According to the present invention, for each ultrasonic probe, accumulated deterioration information related to the ultrasonic probe is provided.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the drawings.

  FIG. 1 shows a probe configuration diagram of an ultrasonic diagnostic apparatus according to the present invention. The probe 10 is an ultrasonic probe that transmits ultrasonic waves 18 into a living body to acquire echo data from the living body, and is connected to an ultrasonic diagnostic apparatus main body (not shown) via a probe cable 16. The probe 10 has a plurality of vibration elements 12, and the transmission timing of ultrasonic pulses output from each vibration element 12 is appropriately controlled by the apparatus main body to realize scanning of an ultrasonic beam by an electronic scanning method. Is done. Examples of the electronic scanning method include linear scanning and sector scanning.

  The probe 10 has a readable / writable memory 14. The memory 14 is preferably a non-volatile memory, such as a flash memory, that can retain stored contents even when power is not supplied. However, in the present invention, the memory 14 is not limited to a nonvolatile memory. For example, a DRAM or SRAM may be used. When a DRAM, SRAM, or the like is used as the memory 14, a battery (not shown) or the like is stored in the probe 10 in order to retain the stored contents even when power is not supplied from the apparatus main body, for example, when the probe 10 is detached from the main body. Installed. The memory 14 may be provided in a connector (not shown) connected to the apparatus main body side of the probe cable 16.

  In the present embodiment, deterioration information regarding the probe 10 is stored in the memory 14. FIG. 1 shows the storage content 20 of the memory 14.

  In the use start date, the use start date of the probe 10 is stored. For example, when the probe 10 is first connected to the apparatus main body, the date of connection is written from the apparatus main body. The date when the ultrasonic wave 18 is transmitted / received for the first time may be written.

  The accumulated transmission / reception time of the ultrasonic wave 18 performed by the probe 10 after the start of use is stored in the total transmission / reception time. The total transmission / reception time is appropriately updated by the apparatus main body. This update operation will be described in detail later using FIG.

  Probe serial No. The number assigned to the probe 10 is stored in the probe serial number. Thus, the probe 10 can be identified. The probe type stores the type (linear, sector, etc.) of the probe 10. Probe serial No. For example, the probe type is registered in the memory 14 in advance by the manufacturer of the probe 10 before shipping. In addition, the memory 14 may store information such as the probe frequency.

  FIG. 2 shows an overall configuration diagram of the ultrasonic diagnostic apparatus according to the present invention. The ultrasonic diagnostic apparatus includes a probe 10 and an apparatus main body 30. A memory 14 described in detail with reference to FIG. 1 is mounted in the probe 10. On the other hand, the apparatus main body 30 includes a memory access unit 32, a control unit 34, a storage unit 36, and a timer 38. The apparatus main body 30 also includes a transmission / reception control unit, an ultrasonic image forming unit, an image display unit, and the like (not shown), and has a function of displaying an ultrasonic image based on echo data acquired from the probe 10.

  In the ultrasonic diagnostic apparatus of FIG. 2, the total transmission / reception time, which is deterioration information regarding the probe 10, is written in the memory 14 by the apparatus main body 30. The deterioration information writing operation will be described below.

  When the power of the apparatus main body 30 is turned on while the probe 10 is connected to the apparatus main body 30, or when the probe 10 is connected to the apparatus main body 30 while the power is supplied to the apparatus main body 30, the control is performed. The unit 34 receives the total transmission / reception time and the probe serial number from the memory 14 in the probe 10 via the memory access unit 32. Is read. Of course, the total transmission / reception time and probe serial no. At the same time, other information (see FIG. 1) may be read.

  The control unit 34 reads the read total transmission / reception time and the probe serial number. Are stored in the storage unit 36 in association with each other. Even when a plurality of probes 10 are used, a probe serial number unique to each probe 10 is used. Thus, the probe 10 corresponding to the information stored in the storage unit 36 can be specified.

  The control unit 34 constantly monitors the start time and stop time of transmission / reception with the probe 10. In general, in diagnosis using an ultrasonic diagnostic apparatus, a user repeatedly performs operations such as reproduction of a moving image of an ultrasonic image, reproduction of a still image (image freeze), and reproduction stop according to the diagnosis content and diagnosis situation. For this reason, exchange of transmission / reception signals with the probe 10 is frequently started and stopped. For example, transmission / reception is continued during moving image reproduction, and transmission / reception is stopped during still image reproduction.

  The control unit 34 constantly monitors transmission / reception between the probe 10 and the apparatus main body 30 and stores the start time and stop time in the storage unit 36. For the time, time information managed by the timer 38 is used. The controller 34 controls the probe serial number of the probe 10. The transmission start time and stop time are stored one after another for each start and stop.

  When the diagnosis is continued and a predetermined time elapses, the control unit 34 calculates the total transmission / reception time from the start of diagnosis until the time when the predetermined time elapses. That is, the total time is calculated by summing the time between the start time and the stop time stored for each start / stop in the storage unit 36. Then, the control unit 34 calculates the new total transmission / reception time by adding the total transmission / reception time of the probe 10 already read before the diagnosis is started and the total transmission / reception time when the predetermined time has elapsed, and calculates the memory of the probe 10. 14 total transmission / reception times are updated. Note that the predetermined time after the diagnosis is started is, for example, one minute intervals. The predetermined time may be determined using a user operation for still image reproduction (freeze reproduction) or the like as a trigger. By performing the update every predetermined time, even if the probe 10 is removed from the apparatus main body 30 during the diagnosis, the error in the total transmission / reception time can be suppressed by the update immediately before the probe 10 is removed.

  The total transmission / reception time of the memory 14 is updated every time the probe 10 is used. Even when the probe 10 is connected to another apparatus main body 30, the apparatus main body 30 updates the total transmission / reception time of the memory 14. As a result, even if the probe 10 is used in another apparatus main body 30, the accumulated transmission / reception time from the start of use of the probe 10 is stored in the memory 14 as the total transmission / reception time.

  For this reason, the total transmission / reception time stored in the memory 14 is effective information as deterioration information when determining the lifetime of the probe 10. That is, the total transmission / reception time can be used as an index of the aging of the probe 10. For example, the replacement of the probe 10 may be determined by reading the total transmission / reception time from the memory 14 during maintenance of the ultrasonic diagnostic apparatus. Further, when the probe 10 breaks down, the total transmission / reception time may be used for determining whether the deterioration is due to aging or the impact.

  The deterioration information stored in the memory 14 may be information other than the total transmission / reception time. For example, a value obtained by monitoring the power value supplied from the apparatus main body 30 to the probe 10 at the time of transmission / reception and integrating the power value at each time over the total transmission / reception time (time integration value of transmission / reception power), etc. May be stored in the memory 14. Instead of the transmission / reception power, the time integration value of the transmission / reception voltage may be stored.

  As mentioned above, although preferred embodiment of this invention was described, embodiment mentioned above is only a mere illustration in all the points, and does not limit the scope of the present invention.

  For example, in the above description, the control unit 34 in FIG. 2 has constantly described transmission and reception between the probe 10 and the apparatus main body 30 and stores the start time and stop time in the storage unit 36. The start time and the stop time may be stored in a temporary area provided in the memory 14. In this case, the control unit 34 reads the transmission start and stop times from the temporary area in a timely manner (for example, when the apparatus is activated), calculates the total transmission / reception time, and adds the calculated total time to the total transmission / reception time. The new total transmission / reception time is calculated and the total transmission / reception time is updated. According to this configuration, the total transmission / reception time can be updated without using the storage unit 36 of the apparatus main body 30.

  It is also possible to display the total transmission / reception time on the screen, or to provide a message prompting maintenance when the total transmission / reception time reaches a predetermined time.

It is a probe block diagram of the ultrasonic diagnostic apparatus according to the present invention. 1 is an overall configuration diagram of an ultrasonic diagnostic apparatus according to the present invention.

Explanation of symbols

  10 probe, 14 memory, 20 storage content, 30 apparatus main body, 34 control unit, 36 storage unit.

Claims (5)

In an ultrasonic diagnostic apparatus having an ultrasonic probe and an apparatus main body,
The ultrasonic probe includes a memory for storing deterioration information related to the ultrasonic probe,
The apparatus main body acquires deterioration information from the ultrasonic probe, and updates the deterioration information of the ultrasonic probe according to the use state of the ultrasonic probe.
An ultrasonic diagnostic apparatus. The ultrasonic diagnostic apparatus according to claim 1,
The ultrasonic probe stores the accumulated use time of the ultrasonic probe as deterioration information.
An ultrasonic diagnostic apparatus. The ultrasonic diagnostic apparatus according to claim 1,
The ultrasonic probe stores the accumulated transmission / reception time of the ultrasonic probe as deterioration information,
The apparatus main body updates the accumulated transmission / reception time of the ultrasonic probe according to the transmission / reception status with the ultrasonic probe,
An ultrasonic diagnostic apparatus. The ultrasonic diagnostic apparatus according to claim 3.
The apparatus body updates the accumulated transmission / reception time of the ultrasonic probe every predetermined time,
An ultrasonic diagnostic apparatus. In the ultrasonic probe of the ultrasonic diagnostic equipment,
The ultrasonic probe includes a memory for storing deterioration information related to the ultrasonic probe, and the deterioration information is updated by the apparatus main body according to a use state of the ultrasonic probe.
An ultrasonic probe characterized by that.

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