JP2013027497A - Ultrasonic image display device and control program of the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an ultrasonic image display device capable of reducing the risk of wondering at which position the selection button of an ultrasonic probe is displayed.SOLUTION: The ultrasonic image display device includes a selection button display control part for displaying selection buttons for selecting the ultrasonic probe 2 to be used among the plurality of ultrasonic probes 2 connected to a device body 11 on a touch panel type display so as to be arranged in a prescribed direction for each ultrasonic probe 2 connected to the device body 11. The selection button display control part makes the selection button be displayed according to the display order of the selection buttons in the prescribed direction, which is stored in an HDD 10 beforehand.

Description

  The present invention relates to an ultrasonic image display apparatus having a selection button for selecting an ultrasonic probe to be used among a plurality of ultrasonic probes connected to the ultrasonic image display apparatus, and a control program therefor.

  The ultrasonic image display device transmits and receives ultrasonic waves from an ultrasonic probe to an object, and displays an ultrasonic image based on the obtained echo signal. There are various types of ultrasonic probes such as convex probes, linear probes, and sector probes. Even if the same convex probe or linear probe is used, there are a plurality of types depending on the frequency and size.

  As described above, there are a plurality of types of ultrasonic probes, and a plurality of ultrasonic probes can be connected to a connector provided on the main body of the ultrasonic image display device (for example, Patent Document 1).

JP 2006-187589 A

  As described above, in an ultrasonic image display apparatus in which a plurality of ultrasonic probes are connected to the apparatus main body, a selection button for selecting an ultrasonic probe to be used is displayed on the touch panel display. More specifically, in the apparatus main body, the type of the connected ultrasonic probe is recognized, and selection buttons indicating the recognized ultrasonic probes are displayed in a predetermined direction. When the operator presses the selection button, ultrasonic waves can be transmitted and received by the corresponding ultrasonic probe.

  Conventionally, the selection button is displayed at a position corresponding to the position of the connector to which the ultrasonic probe corresponding to the selection button is connected. Therefore, since the display position of the selection button changes according to the position of the connector to which the corresponding ultrasonic probe is connected, the selection button of the ultrasonic probe to be used is displayed at which position for the operator. Sometimes it was difficult to recognize.

  In addition, in the ultrasonic image display device that does not have a touch panel display, a push-down type selection button is provided, and by pressing this selection button, it is possible to transmit and receive ultrasonic waves using the corresponding ultrasonic probe. Become. In this case, since the ultrasonic probe selected by a certain selection button is determined according to the position of the connector of the apparatus main body, the position of the selection button changes depending on the position of the connector to which the ultrasonic probe is connected. Therefore, it may be difficult for the operator to recognize the position of the selection button of the ultrasonic probe to be used.

  One aspect of the invention made to solve the above-described problem is that a selection button for selecting an ultrasonic probe to be used among a plurality of ultrasonic probes connected to the apparatus main body is connected to the apparatus main body. A selection button display control unit that displays on the touch panel display so as to be arranged in a predetermined direction for each ultrasonic probe, the selection button display control unit, according to the display order of the selection buttons in the predetermined direction stored in advance, An ultrasonic image display device that displays a selection button.

  Another aspect of the invention is a selection button for selecting an ultrasonic probe to be used from among a plurality of ultrasonic probes connected to the apparatus main body, a plurality of selection buttons arranged in a predetermined direction, and the selection button An allocation unit that allocates the ultrasound probe selected by the selection button to the selection button, wherein the allocation unit performs allocation according to an allocation order in the predetermined direction stored in advance. Device.

  According to the first aspect of the invention, the selection button is displayed according to the display order in the predetermined direction stored in advance, regardless of the position of the connector to which the ultrasonic probe is connected in the apparatus body. When the operator selects an ultrasonic probe, it is possible to reduce the possibility of wondering at which position the corresponding selection button is displayed.

  According to the invention of the other aspect, the assignment of the ultrasound probe to the selection button according to the assignment order in the predetermined direction stored in advance regardless of the position of the connector to which the ultrasound probe is connected in the apparatus main body. Therefore, it is possible to reduce the possibility that the operator will get lost about the position of the corresponding selection button when selecting the ultrasonic probe.

It is a block diagram which shows an example of schematic structure of the ultrasonic diagnosing device in embodiment of this invention. It is a figure which shows an example of the external appearance of the ultrasonic image display apparatus in embodiment of this invention. FIG. 3 is a left side view of FIG. 2. It is a block diagram which shows the display control part in the ultrasonic image display apparatus of embodiment. It is a figure which shows the touchscreen type display on which the selection button was displayed. It is a block diagram which shows the control part in the ultrasonic image display apparatus of embodiment. It is a flowchart which shows the effect | action of the ultrasonic image display apparatus in embodiment of this invention. It is an enlarged view near the probe connector of the apparatus main body to which the probe connector of the ultrasonic probe is connected. FIG. 9 is an enlarged view of the vicinity of the probe connector of the apparatus main body in which the same type of ultrasonic probe as in FIG. 8 is connected to a position different from that in FIG. 8. It is a figure which shows an example of the display order of the selection button for every test site memorize | stored in HDD in 2nd embodiment. It is a figure which shows an example of the external appearance of the ultrasonic image display apparatus in 3rd embodiment. It is a figure which shows the selection button provided in the operation part of the ultrasonic image display apparatus in 3rd embodiment. It is a block diagram which shows the display control part in the ultrasonic image display apparatus of 3rd embodiment. It is a block diagram which shows the control part in the ultrasonic image display apparatus of 3rd embodiment. It is a flowchart which shows the effect | action of the ultrasonic image display apparatus in 3rd embodiment. It is a figure for demonstrating allocation of the ultrasonic probe with respect to a selection button. In 3rd embodiment, it is an enlarged view of the probe connector vicinity of the apparatus main body to which the probe connector of the ultrasonic probe was connected. It is a figure for demonstrating the other example of allocation of the ultrasonic probe with respect to a selection button.

Hereinafter, embodiments of the present invention will be described.
(First embodiment)
First, a first embodiment will be described with reference to FIGS. An ultrasonic image display apparatus 1 shown in FIGS. 1 to 3 is an ultrasonic diagnostic apparatus that displays an ultrasonic image of a living tissue of a patient, and includes an ultrasonic probe 2, a probe switching unit 3, a transmission / reception unit 4, and echo data processing. Unit 5, display control unit 6, display unit 7, operation unit 8, control unit 9 and HDD (Hard Disk Drive) 10.

  The transmission / reception unit 4, the echo data processing unit 5, the display control unit 6, the operation unit 8, the control unit 9, and the HDD 10 are provided in the apparatus main body 11. The apparatus main body 11 is provided with the display unit 7 via an arm 12 (see FIGS. 2 and 3), and the ultrasonic probe 2 is connected via a probe connector 2a.

  The ultrasonic probe 2 transmits ultrasonic waves from a plurality of ultrasonic transducers (not shown) to the subject. The ultrasonic probe 2 transmits ultrasonic waves by scanning ultrasonic waves in order of sound rays. The ultrasonic probe 2 receives an ultrasonic echo signal.

  The ultrasonic probe 2 is connected to a connector (not shown) provided in the apparatus main body 11 by the probe connector 2a. In this example, up to four ultrasonic probes 2 can be connected to the apparatus body 10.

  The probe connector 2a is provided with a memory 2b in which the type of the ultrasonic probe 2 is stored. This memory 2b is an example of an embodiment of a type storage unit in the present invention.

  Here, the kind of the ultrasonic probe 2 will be described. In general, ultrasonic probes include a convex probe that performs convex scanning, a linear probe that performs linear scanning, and a sector probe that performs sector scanning. In addition, even if the same convex probe or linear probe is used, there are a plurality of types of ultrasonic probes having different frequencies and sizes. Furthermore, there are types of 2D probes and 3D probes. From the above, the type of ultrasonic probe here means not only the type depending on the scanning method, but also the same convex probe, linear probe, sector probe may be of different types. To do. A 3D probe is also one type.

  In FIG. 1, the ultrasonic probe 2 is simplified and shown as a square regardless of its type.

  The probe switching unit 3 switches the ultrasonic probe 2 to be used by operating a selection button SB described later. Specifically, the probe switching unit 3 electrically connects the ultrasonic probe 2 selected by the selection button SB to the transmission / reception unit 4, and transmits signals of the ultrasonic probe 2 and the transmission / reception unit 4. Enable interaction.

  The transmission / reception unit 4 supplies an electrical signal for transmitting ultrasonic waves from the ultrasonic probe 2 under a predetermined scanning condition to the ultrasonic probe 2 based on a control signal from the control unit 9. The transmitter / receiver 4 performs signal processing such as A / D conversion and phasing addition processing on the echo signal received by the ultrasonic probe 2.

  The echo data processing unit 5 performs processing for creating an ultrasound image on the data of the echo signal output from the transmission / reception unit 4. For example, the echo data processing unit 5 performs B-mode processing such as logarithmic compression processing and envelope detection processing.

  The display control unit 6 includes a display image control unit 61 and a selection button display control unit 62 as shown in FIG. The display image control unit 61 scan-converts the data obtained by the echo data processing unit 5 using a scan converter to create ultrasonic image data. Further, the display image control unit 61 causes the display unit 7 to display an ultrasonic image based on the ultrasonic image data. The ultrasonic image is, for example, a B mode image.

  The selection button display control unit 62 provides a selection button SB for selecting the ultrasonic probe 2 to be used, among the ultrasonic probes 2 connected to the apparatus main body 11, on a touch panel display 8 a described later of the operation unit 8. The selection button display control function to be displayed is executed. The selection button display control unit 62 is an example of an embodiment of a selection button display control unit in the present invention.

  The selection button SB is a button indicating a plurality of ultrasonic probes 2 connected to the apparatus main body 11. The selection button display control unit 62 displays a plurality of selection buttons SB corresponding to the plurality of ultrasonic probes 2 connected to the apparatus body 11 for each ultrasonic probe 2 in a predetermined direction as shown in FIG. They are displayed on the touch panel display 8a so as to be lined up. In this example, the selection button SB is displayed in the horizontal direction.

  In FIG. 5, selection buttons SB-A, SB-C, SB-E, and SB-F are displayed. In this case, the ultrasonic probe 2 connected to the apparatus main body 11 is an ultrasonic probe 2-A, 2-C, 2-E, 2-F. The alphabets “A”, “C”, “E”, and “F” mean the types of ultrasonic probes. The selection button SB-A is a selection button corresponding to the ultrasonic probe 2-A, and the selection button SB-C is a selection button corresponding to the ultrasonic probe 2-C. The selection button SB-E is a selection button corresponding to the ultrasonic probe 2-E, and the selection button SB-F is a selection button corresponding to the ultrasonic probe 2-F. The operator can select and use the ultrasonic probe 2-A by pressing the selection button SB-A, and the ultrasonic probe 2-C by pressing the selection button SB-C. Is selected and can be used. Further, when the operator presses the selection button SB-E, the ultrasonic probe 2-E can be selected and used, and by pressing the selection button SB-F, the ultrasonic probe 2 can be used. -F can be selected and used.

  Incidentally, the functions of the transmission / reception unit 4, the echo data processing unit 5, and the display control unit 6 may be executed by the control unit 9 by software.

  The display unit 7 includes, for example, an LCD (Liquid Crystal Display), a CRT (Cathode Ray Tube), or the like. 2 and 3 show a display unit 7 composed of an LCD.

  The operation unit 8 includes a keyboard and a pointing device (not shown) for an operator to input instructions and information. The operation unit 8 includes the touch panel display 8a. Operation buttons and the like are displayed on the touch panel display 8a. The operation button is, for example, the selection button SB.

  Although not particularly shown, the control unit 9 includes a CPU (Central Processing Unit). The control unit 9 reads a control program stored in the HDD 10 and executes functions in each unit of the ultrasonic image display apparatus 1.

  The control unit 9 includes a recognition unit 91 as shown in FIG. The recognition unit 91 is an example of a function executed by the control unit 9, and recognizes the type of the ultrasonic probe 2 connected to the apparatus main body 11. More specifically, the recognition unit 91 recognizes the type of each ultrasonic probe 2 with reference to the memory of the probe connector 2a via the probe switching unit 3. The recognition unit 91 is an example of an embodiment of a recognition unit in the present invention.

  The recognition unit 91 recognizes which type of ultrasonic probe 2 is connected to which connector in the apparatus main body 11. Therefore, when the selection button SB is pressed by the operator, a control signal is output from the recognition unit 91 to the probe switching unit 3, and the ultrasonic probe 2 corresponding to the pressed selection button SB is moved to the probe switching unit. 3 is electrically connected to the transmission / reception unit 4.

  In addition to the control program, the HDD 10 stores the display order of the selection buttons SB displayed on the touch panel display 8a in a predetermined direction. The HDD 10 stores the display order of the selection buttons SB for ultrasonic probes that may be connected to the apparatus main body 11. The HDD 10 is an example of an embodiment of a display order storage unit in the present invention.

  Incidentally, the display order of the selection buttons SB in a predetermined direction may be stored in the HDD 10 as a default, or may be stored in the HDD 10 when an operator inputs in the operation unit 8.

  In this example, selection buttons SB-A, SB-B, and SB-C corresponding to the ultrasonic probes 2-A, 2-B, 2-C, 2-D, 2-E, 2-F, and 2-G are used. , SB-D, SB-E, SB-F, and SB-G are stored. Here, the display order in the direction from the left side to the right side is stored in the touch panel display 8a as the display order. For example, the display order of the selection buttons SB stored in the HDD 10 is the order of selection buttons SB-A, SB-B, SB-C, SB-D, SB-E, SB-F, and SB-G. Yes. In this case, for example, when the ultrasonic probe 2-A, 2-C, 2-E is connected to the apparatus main body 11, the selection button SB-A is displayed on the touch panel display 8a from the left side to the right side. , SB-C and SB-E.

  The display order of the selection buttons SB stored in the HDD 10 may be in accordance with the usage frequency of the ultrasonic probe 2. For example, the display order of the selection buttons SB may be stored in the HDD 10 such that the corresponding selection buttons SB are arranged from the left side to the right side in the order of use of the ultrasonic probe 2. In the above example, the ultrasonic probe 2-A has the highest usage frequency, the ultrasonic probe 2-B has the highest usage frequency, and the ultrasonic probe 2-G has the lowest usage frequency.

  Now, the operation of the ultrasonic image display apparatus 1 of this example will be described. Here, the display of the selection button SB will be mainly described. In the flowchart of FIG. 7, in step S <b> 1, the ultrasonic probe 2 is connected to the apparatus main body 11. Next, in step S <b> 2, the recognition unit 91 recognizes the type of the connected ultrasonic probe 2 and outputs it to the selection button display control unit 62 of the display control unit 6.

  Next, in step S 3, the selection button display control unit 62 selects a selection button SB corresponding to the type of the ultrasound probe 2 input from the recognition unit 91 of the selection button SB stored in the HDD 10. According to the display order, the display is made on the touch panel display 8a.

  For example, as shown in FIG. 8, when ultrasonic probes 2-A, 2-C, 2-E, and 2-F are connected to the apparatus main body 11 (in FIG. 8, the probe connector of the ultrasonic probe 2 is connected). However, as shown in FIG. 5, the selection button display control unit 62 selects the selection buttons SB-A, SB-C, SB-E, and SB-F from the left side to the right side. A selection button SB is displayed on the touch panel display 8a.

  In FIG. 8, the ultrasonic probe 2 is connected to the apparatus main body 11 in the order of the ultrasonic probes 2-A, 2-F, 2-C, 2-E from the left side to the right side. For example, if the types of ultrasonic probes are the same as those in FIG. 8, the order of the ultrasonic probes 2-E, 2-A, 2-F, 2-C from the left side to the right side as shown in FIG. Even when the ultrasonic probe 2 is connected, the selection buttons SB are displayed in the order shown in FIG. Therefore, according to the ultrasonic image display apparatus 1 of this example, the selection button SB is displayed according to the display order stored in the HDD 10 regardless of the connection location of the ultrasonic probe 2 in the apparatus main body 11. Therefore, when the operator selects the ultrasonic probe 2 to be used by the selection button SB, it is possible to reduce the possibility of wondering where the corresponding selection button SB is displayed.

(Second embodiment)
Next, a second embodiment will be described. Hereinafter, only matters different from the first embodiment will be described.

  In this example, the HDD 10 stores a plurality of patterns of the display order of the selection buttons SB for each examination region. For example, as shown in FIG. 10, the HDD 10 includes the selection buttons SB-A, SB-B, in order from the left side of the touch panel display 8a as the display order of the selection buttons SB for the examination site (1). The order of SB-C, SB-D, SB-E, SB-F, and SB-G is stored. For the examination site (2), the order of selection buttons SB-D, SB-E, SB-F, SB-A, SB-B, SB-C, and SB-G is stored in order from the left side. . Furthermore, the order of selection buttons SB-G, SB-A, SB-C, SB-B, SB-E, SB-D, and SB-F is stored for the examination site (3).

  Incidentally, also in this example, the display order of the selection buttons SB in a predetermined direction may be stored in the HDD 10 as a default, or may be stored in the HDD 10 when an operator inputs in the operation unit 8. Also good.

  Here, the ultrasonic probe with high use frequency differs depending on the examination site. For example, when superficial ultrasonic examinations such as the thyroid gland and mammary gland are performed, the linear probe is frequently used. Further, when diagnosis is performed using an ultrasonic image showing a relatively deep part such as the abdomen, the convex probe is frequently used. Furthermore, the frequency of use of the sector probe is high in the ultrasonic examination of the heart that scans from the intercostal space.

  The display order stored in the HDD 10 is such that the selection button SB corresponding to the ultrasonic probe having a high use frequency is displayed on the left side. For example, when the examination site is a surface such as a thyroid gland or a mammary gland, the order in which the display position of the selection button corresponding to the linear probe is on the left side is stored in the HDD 10. Further, when the examination site is a relatively deep part such as an abdomen, the order in which the display position of the selection button corresponding to the convex probe is on the left side is stored in the HDD 10. Further, when the examination site is the heart, the order in which the display position of the selection button corresponding to the sector probe is on the left side is stored in the HDD 10.

  In this example, before the selection button SB is displayed, the operator inputs an examination site in the operation unit 8. The selection button display control unit 62 is based on the information on the display order of the selection buttons SB corresponding to the input examination site and the information on the type of the ultrasound probe 2 input from the recognition unit 91. The selection button SB is displayed.

  According to this example, since the display order of the selection buttons SB is stored for each examination part, the display order of the selection buttons SB changes according to the examination part. In this example, since the display order of the selection buttons SB is stored for each examination part in the order in which the selection buttons SB corresponding to the ultrasonic probes 2 that are frequently used are displayed on the left side, Even if it changes, the selection button SB corresponding to the ultrasonic probe 2 having a high use frequency is always displayed on the left side, and it is possible to reduce the hesitation when the operator selects the ultrasonic probe 2 to be used.

  Next, a modification of the second embodiment will be described. In the above description, the display order of the selection buttons SB is stored in a plurality of patterns for each examination site, but is not limited to this. For example, when an operator can be registered, a plurality of patterns of the display order of the selection buttons SB may be stored for each operator. Thereby, the display order of the selection buttons SB can be changed according to the operator.

(Third embodiment)
Next, a third embodiment will be described. Hereinafter, matters different from the first and second embodiments will be described.

  The ultrasonic diagnostic apparatus 1 ′ of this example does not have the touch panel display 8a as shown in FIG. The operation unit 8 has four selection buttons SB1, SB2, SB3, and SB4 arranged in the horizontal direction, as shown in FIG. 12, instead of the selection button SB displayed on the touch panel display 8a. These selection buttons SB1 to SB4 are push-type buttons, and the ultrasound probe 2 to be used is selected by pressing these selection buttons SB1 to SB4. That is, the ultrasonic probe 2 corresponding to the pressed selection button SB is electrically connected to the transmission / reception unit 4 by the probe switching unit 3.

  The number of the selection buttons SB1 to SB4 is the same as the number of connectors to which the ultrasonic probe 2 is connected in the apparatus main body 11. Therefore, the same number of selection buttons as the maximum number of ultrasonic probes 2 connected to the apparatus main body 11 are provided.

  The entire block diagram of the ultrasonic image display apparatus 1 'of this example is the same as that shown in FIG.

  In this example, the display control unit 6 does not have the selection button display control unit 62 as shown in FIG.

  As shown in FIG. 14, the control unit 9 has an allocation unit 92 in addition to the recognition unit 91. The assigning unit 92 executes an assigning function for assigning the ultrasonic probe 2 selected by the selection buttons SB1 to SB4 to the selection buttons SB1 to SB4. Details will be described later.

  The HDD 10 stores an assignment order of the ultrasonic probes 2 to the selection buttons SB1 to SB4. In the horizontal direction in which the selection buttons SB1 to SB4 are arranged, the allocation order in the direction from the left side to the right side is stored. Details will be described later. The HDD 10 is an example of an embodiment of an allocation order storage unit in the present invention.

  Incidentally, the assignment order of the ultrasonic probes 2 to the selection buttons SB1 to SB4 may be stored in the HDD 10 as a default, or may be stored in the HDD 10 by an operator inputting in the operation unit 8. Good.

  The order in which the ultrasonic probes 2 are assigned to the selection buttons may be in accordance with the frequency of use of the ultrasonic probes 2 as in the first embodiment.

  Now, the operation of the ultrasonic image display apparatus 1 ′ of this example will be described based on the flowchart of FIG. In FIG. 15, steps S1 and S2 are the same as those in FIG. 7, so step S3 ′ will be described.

  In step S <b> 3 ′, the assigning unit 92 assigns the ultrasound probe 2 recognized by the recognizing unit 91 to the selection buttons SB <b> 1 to SB <b> 4 according to the assignment order stored in the HDD 10.

  For example, the ultrasonic probes 2-A, 2-B, 2-C, 2-D, 2-E, 2-F, 2-in the direction from the left to the right in the horizontal direction in which the selection buttons SB1 to SB4 are arranged. Assume that the assignment order is stored in the HDD 10 so that the ultrasonic probes 2 are assigned to the selection buttons SB1 to SB4 in the order of G. In this case, for example, as shown in FIG. 8, the ultrasonic probe 2 is connected to the apparatus main body 11 in the order of the ultrasonic probes 2-A, 2-F, 2-C, 2-E from the left side to the right side. In this case, as shown in FIG. 16, the ultrasonic probe 2-A is assigned to the selection button SB1, and the ultrasonic probe 2-C is assigned to the selection button SB2. The ultrasound probe 2-E is assigned to the selection button SB3, and the ultrasound probe 2-F is assigned to the selection button SB4. In FIG. 16, the characters “2-A”, “2-C”, “2-E”, and “2-F” are shown for convenience of explanation, and are not actually displayed.

  When the ultrasonic probe 2 is assigned to the selection buttons SB1 to SB4 as described above, the ultrasonic probe 2-A is selected by pressing the selection button SB1, and the selection button SB2 is pressed. By doing so, the ultrasonic probe 2-C is selected. Further, the ultrasound probe 2-E is selected by pressing the selection button SB3, and the ultrasound probe 2-F is selected by pressing the selection button SB4.

  Incidentally, as shown in FIG. 9, the ultrasonic probe 2 is connected to the apparatus main body 11 in the order of the ultrasonic probes 2-E, 2-A, 2-F, 2-C from the left side to the right side. However, the assignment of the ultrasound probe 2 to the selection buttons SB1 to SB4 is as shown in FIG.

  As shown in FIG. 17, the ultrasonic probe 2 is connected to the apparatus main body 11 in the order of the ultrasonic probes 2-C, 2-B, 2-G, 2-E from the left side to the right side. In this case, as shown in FIG. 18, the ultrasound probe 2-B is assigned to the selection button SB1, and the ultrasound probe 2-C is assigned to the selection button SB2. The ultrasonic probe 2-E is assigned to the selection button SB3, and the ultrasonic probe 2-G is assigned to the selection button SB4.

  Even with the ultrasonic diagnostic apparatus 1 ′ of the present example described above, the selection buttons SB <b> 1 to SB <b> 4 are applied to the selection buttons SB <b> 1 to SB <b> 4 according to the assignment order stored in the HDD 10 regardless of the connection location of the ultrasonic probe 2 in the apparatus body 11. On the other hand, the ultrasonic probe 2 is assigned. Therefore, if the operator knows the order of assignment stored in the HDD 10, it is possible to reduce the possibility of wondering which selection button to press when selecting the ultrasound probe 2 to be used.

  Also in the third embodiment, similarly to the second embodiment, the HDD 10 may store a plurality of patterns of assignment orders of the ultrasonic probes 2 to the selection buttons SB for each examination site. Thereby, the allocation order of the ultrasound probe 2 to the selection button SB can be changed according to the examination site.

  The HDD 10 may store a plurality of patterns of the assignment order of the ultrasonic probes 2 to the selection buttons SB for each operator. Thereby, the allocation order of the ultrasonic probe 2 to the selection button SB can be changed according to the operator.

  As mentioned above, although this invention was demonstrated by the said embodiment, of course, this invention can be variously implemented in the range which does not change the main point.

DESCRIPTION OF SYMBOLS 1 Ultrasonic image display apparatus 2 Ultrasonic probe 2a Probe connector 2b Memory (type memory | storage part)
8a Touch panel display 10 HDD (display order storage unit)
11 Device Main Body 62 Selection Button Display Control Unit 91 Recognition Unit 92 Allocation Unit SB Selection Button

Claims (16)

A selection button for selecting an ultrasonic probe to be used among a plurality of ultrasonic probes connected to the apparatus main body is displayed on the touch panel display so as to be arranged in a predetermined direction for each ultrasonic probe connected to the apparatus main body. It has a selection button display control unit,
The ultrasonic image display device, wherein the selection button display control unit displays the selection buttons according to a display order of the selection buttons in the predetermined direction stored in advance. A recognition unit for recognizing the type of ultrasonic probe connected to the apparatus body;
The ultrasonic image display device according to claim 1, wherein the selection button display control unit displays a selection button corresponding to the type of ultrasonic probe recognized by the recognition unit.   The ultrasonic image display apparatus according to claim 1, further comprising a display order storage unit that stores a display order of the selection buttons in the predetermined direction.   The ultrasonic image display device according to claim 3, wherein the display order storage unit stores a display order corresponding to the frequency of use of the ultrasonic probe.   5. The ultrasonic image display device according to claim 3, wherein the display order storage unit stores a plurality of display orders for each examination site.   The ultrasonic image display device according to claim 3 or 4, wherein the display order storage unit stores a plurality of display orders for each operator. Among a plurality of ultrasonic probes connected to the apparatus body, a selection button for selecting an ultrasonic probe to be used, a plurality of selection buttons arranged in a predetermined direction,
An assigning unit that assigns an ultrasonic probe selected by the selection button to the selection button;
With
The ultrasonic image display device, wherein the allocation unit performs allocation according to an allocation order in the predetermined direction stored in advance. A recognition unit for recognizing the type of ultrasonic probe connected to the apparatus body;
The ultrasonic image display device according to claim 7, wherein the assigning unit assigns an ultrasonic probe recognized by the recognizing unit.   The ultrasonic image display device according to claim 7, further comprising an assignment order storage unit that stores an assignment order of the ultrasonic probes with respect to the selection button.   The ultrasonic image display apparatus according to claim 9, wherein the allocation order storage unit stores an allocation order corresponding to the frequency of use of the ultrasonic probe.   The ultrasonic image display apparatus according to claim 9 or 10, wherein the allocation order storage unit stores a plurality of allocation orders for each examination site.   11. The ultrasonic image display device according to claim 9, wherein the assignment order storage unit stores a plurality of assignment orders for each operator. The ultrasonic probe includes a type storage unit in which the type of the ultrasonic probe is stored,
The ultrasonic image display device according to claim 2, wherein the recognition unit recognizes a type of the ultrasonic probe with reference to information stored in the type storage unit.   The ultrasonic image display device according to claim 13, wherein the type storage unit is provided in a probe connector of the ultrasonic probe. On the computer,
A selection button for selecting an ultrasonic probe to be used among a plurality of ultrasonic probes connected to the apparatus main body is displayed on the touch panel display so as to be arranged in a predetermined direction for each ultrasonic probe connected to the apparatus main body. A control program for an ultrasonic image display device that executes a selection button display control function,
The control program for an ultrasonic image display device, wherein the selection button display control function displays the selection buttons in accordance with a display order of the selection buttons in the predetermined direction stored in advance. On the computer,
A selection button for selecting an ultrasound probe to be used among a plurality of ultrasound probes connected to the apparatus main body, and an ultrasound probe selected by a plurality of selection buttons arranged in a predetermined direction are assigned to the selection button. A control program for an ultrasonic image display device for executing an assignment function,
The control function of an ultrasonic image display device, wherein the assignment function performs assignment according to an assignment order in the predetermined direction stored in advance.