KR101031494B1 - Ultrasound system with control panel capable of exchanging position of buttons - Google Patents

Abstract

An ultrasound system having a control panel capable of varying the position of a button is disclosed. The ultrasound system includes a control panel that is detachable and includes a plurality of buttons that receive a user command for operating the ultrasound system and form input information corresponding to the user command.

Ultrasound, control panel, button, layout

Description

ULTRASOUND SYSTEM WITH CONTROL PANEL CAPABLE OF EXCHANGING POSITION OF BUTTONS

The present invention relates to an ultrasonic system, and more particularly to an ultrasonic system having a control panel that can change the position of the button.

Ultrasound systems have non-invasive and non-destructive properties and are widely used in the medical field for obtaining information inside an object. Ultrasound systems are very important in the medical field because they can provide a doctor with a high-resolution image of tissue inside the human body in real time without the need for a surgical procedure to directly incise and observe the human body.

In general, the ultrasound system includes a control panel operable to receive an ultrasound diagnosis mode selection, an ultrasound image display request, an ultrasound image selection, and the like from a user. The control panel includes a plurality of knob buttons that operate to receive the user's left and right rotation and push of a button, a plurality of updown buttons that operate to receive the user's button up or down, and a plurality of buttons that operate to receive the user's button push. It includes a push button, a plurality of slides, a trackball, a keyboard, and the like, which operate to receive a TGC (time gain control) value adjustment for each depth of a user.

Conventionally, each of a plurality of knob buttons, a plurality of up-down buttons, and a plurality of push buttons is positioned in the control panel in a uniformly defined form without considering the user's characteristics. For this reason, there is a problem in that each of the plurality of buttons cannot be positioned in the control panel according to the user. In addition, conventionally, even if an additional button is to be added to the control panel, the number of buttons is determined in the control panel, which makes it difficult to add a button.

The present invention provides an ultrasound system having a control panel that can change the position of a button.

The ultrasound system according to the present invention is a control panel including a plurality of buttons detachable and operable to receive a user command for operating the ultrasound system as an identifier to form the user command and input information corresponding to the identifier. It includes.

In addition, the ultrasound system according to the present invention, a plurality of buttons and a plurality of buttons operable to receive a user command for operating the ultrasound system to form a detection signal corresponding to the user command is inserted and detachable A control panel including a plurality of socket parts configured to output the detection signals provided from the plurality of buttons; A storage unit for storing button layout information for providing position information of each of the plurality of socket units and information regarding a button corresponding to each of the plurality of socket units on the control panel; And when the detection signal is input, detects a position of the socket part which outputs the detection signal, extracts location information and button information corresponding to the detected socket part position from the mapping table, and uses the extracted button information. And a controller operable to control an operation of the ultrasonic system corresponding to the detection signal.

According to the present invention, it is possible to freely change the position of each of the plurality of buttons on the control panel, thereby increasing user convenience.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

First embodiment

1 is a block diagram showing the configuration of an ultrasound system 100 according to an embodiment of the present invention. The ultrasound diagnosis unit 110 transmits an ultrasound signal to the object and receives an ultrasound signal (ie, an ultrasound echo signal) reflected from the object to form an ultrasound image of the object.

2 is a block diagram showing the configuration of the ultrasonic diagnostic unit 110 according to the first embodiment of the present invention. The ultrasound diagnosis unit 110 may include a transmission signal forming unit 111, an ultrasound probe 112 including at least one transducer element, a beam former 113, a signal processor 114, and an ultrasound image forming unit ( 115).

The transmission signal forming unit 111 forms a transmission signal for obtaining a frame in consideration of the position and focusing point of the conversion element of the ultrasonic probe 112.

The ultrasound probe 112 is implemented as a convex probe, a linear probe, or the like. The ultrasound probe 112 converts a transmission signal provided from the transmission signal forming unit 111 into an ultrasound signal, transmits the ultrasound signal to the object, and is reflected from the object. The ultrasonic echo signal is received to form a reception signal.

The beam former 113 analog-to-digital converts the received signal provided from the ultrasonic probe 112. In addition, the beam former 113 receives and focuses the digitally converted reception signal in consideration of the position and focusing point of the conversion element of the ultrasonic probe 112 to form a digital reception focusing beam.

The signal processor 114 may process various signals necessary to form an ultrasound image (for example, gain adjustment, time gain compensation (TGG) adjustment, etc.) for the digital receiving focusing beam provided from the beam former 113. Perform ultrasonic wave data to form.

The ultrasound image forming unit 115 forms an ultrasound image of the object by using ultrasound data provided from the signal processor 114. In this embodiment, the ultrasound image includes a B-mode (B) mode image, an M-mode (motion mode) image, a Doppler mode image, a color flow image, an elastic image, and the like.

Referring back to FIG. 1, the control panel 120 receives a user instruction for operating the ultrasound diagnosis unit 110 from the user. In the present embodiment, the user command includes selection of an application representing a diagnosis portion of the object, selection of a diagnosis mode for forming an ultrasound image, a request for displaying an ultrasound image, and the like.

3 is an explanatory view showing a control panel 120 according to the first embodiment of the present invention. The control panel 120 includes a plurality of sockets 121, a plurality of buttons 122, a plurality of slides 123, texts, etc., which are operated to receive adjustment of time gain compensation (TGG) values for each depth from a user. The keyboard 124 operates to receive an input, and the trackball 125 operates to receive an input such as a cursor movement.

Each of the socket parts 121 includes a plurality of holes 310 into which a plurality of pins are inserted and electrically connected to each other, as shown in FIG. 6.

The plurality of button portions 122 include first to third button portions 122a, 122b, and 122c, and are separated by identifiers, and are detachable from the plurality of socket portions 121. In addition, the plurality of button portions 122 includes a connector 320 including a plurality of pins 330 inserted into and electrically connected to each of the plurality of holes 310 as shown in FIG. 6.

The first button unit 122a is implemented by a plurality of knob buttons, and the like, and receives a user command in a left and right (ie, clockwise and counterclockwise) rotation and pressing manner. When a user command (that is, left / right rotation or pressing) is input, the first button part 122a forms a detection signal corresponding to the input user command. The first button unit 122a forms input information (hereinafter referred to as first input information) including an identifier of the corresponding button unit together with the formed detection signal.

The second button unit 122b is implemented by a plurality of push buttons and the like, and receives a user command by pressing. When a user command (ie, pressing) is input, the second button part 122b forms a detection signal corresponding to the input user command. The second button unit 122b forms input information (hereinafter referred to as second input information) including an identifier of the corresponding button unit together with the formed detection signal.

The third button unit 122c is implemented with a plurality of up / down buttons, and the like, and receives a user command in an up-down manner. When a user command (ie, up-down) is input, the third button unit 122c forms a detection signal corresponding to the input user command. The third button unit 122c forms input information (hereinafter referred to as third input information) including an identifier of the corresponding button unit together with the formed detection signal.

Referring back to FIG. 1, the storage unit 130 stores a mapping table that provides button information for each identifier. As shown in Table 1, the storage unit 130 stores a mapping table that provides corresponding button information corresponding to each identifier of the plurality of button units 122.

Identifier Button information 0001  B-mode (brightness mode) / gain knob button (first button part) 0010  M-mode (motion mode) / gain knob button (first button part) 0011  C-mode (color mode) / gain knob button (first button part) 0100  PW-mode (pulsed wave spectral doppler mode) / gain knob button (first button part) 0101  PD-mode (power doppler mode) / gain knob button (first button part) 0110  Freeze push button (second button part) 0111  Dual mode push button (second button part) 1000  Save push button (second button part) 1001  Measurement push button (second button part) 1010  Setup push button (second button part) 1011  Focus adjustment up down button (the third button part) 1100  Depth adjustment up down button (the third button part) 1101  Image magnification up-down button (the third button part)

The display unit 140 is implemented with a liquid crystal display (LCD), a cathode-ray tube (CRT), and the like, and displays an ultrasound image formed by the ultrasound diagnosis unit 110.

When the input information of any one of the first to third input information is input from the control panel 120, the controller 150 stores the button information corresponding to the identifier of the input information in the mapping table stored in the storage 130. Extract. The controller 150 controls the operation of the ultrasound diagnosis unit 110 corresponding to the detection signal of the input information by using the extracted button information. As an example, when the second input information including the detection signal corresponding to the pressing of the identifier (0110) and the second button portion 122b is input from the control panel 120, the control unit 150 opens the storage unit 130. Inquiry is made to extract button information (freeze push button) corresponding to the identifier (0110) of the second input information. The controller 150 controls the freeze operation of the ultrasound diagnosis unit 110 corresponding to the second input information by using the extracted button information. On the other hand, the controller 150 controls the operation of each component constituting the ultrasound system 100.

Second embodiment

4 is a block diagram showing the configuration of an ultrasound system 200 according to a second embodiment of the present invention. The ultrasound diagnosis unit 210 forms an ultrasound image of the object by transmitting an ultrasound signal to the object and receiving an ultrasound echo signal reflected from the object. In this embodiment, the ultrasound diagnosis unit 210 is similar to the ultrasound diagnosis unit 110 in the first embodiment and thus will not be described in detail.

The control panel 220 receives a user instruction for operating the ultrasound diagnosis unit 210 from the user. In this case, the user command includes selecting an application indicating a diagnosis part of the object, selecting a diagnosis mode for forming an ultrasound image, requesting to display an ultrasound image, requesting to display button layout information, requesting to change button layout information, and the like. It includes. Button layout information is described below.

5 is an explanatory view showing a control panel 220 according to a second embodiment of the present invention. The control panel 220 receives a plurality of sockets 221, a plurality of buttons 222, a plurality of slides 223 that operate to receive adjustment of a time gain compensation (TGG) value for each depth, a text, and the like. It includes a keyboard 224 to operate and a track ball 225 to receive input such as cursor movement.

Each of the plurality of socket portions 221 includes a plurality of holes 310 into which a plurality of pins are inserted and electrically connected as shown in FIG. 6.

The plurality of button portions 222 include first to third button portions 222a, 222b, and 222c, and are detachable from the plurality of socket portions 221. In addition, the plurality of button units 222 includes a connector 320 including a plurality of pins 330 inserted into and electrically connected to each of the plurality of holes 310 as shown in FIG. 6.

The first button unit 222a is implemented by a plurality of knob buttons and the like, and receives a user command in a left and right (ie, clockwise and counterclockwise) rotation and pressing manner. When a user command (ie, left / right rotation or pressing) is input, the first button unit 222a forms a detection signal (hereinafter, referred to as a first detection signal) corresponding to the input user command.

The second button unit 222b is implemented by a plurality of push buttons and the like, and receives a user command by pressing. When a user command (ie, pressing) is input, the second button unit 222b forms a detection signal (hereinafter, referred to as a second detection signal) corresponding to the input user command.

The third button unit 222c is implemented with a plurality of up / down buttons and the like, and receives a user command in an up-down manner. When a user command (ie, up-down) is input, the third button unit 222c forms a detection signal (hereinafter, referred to as a third detection signal) corresponding to the input user command.

Referring back to FIG. 4, the storage unit 230 provides button layout information for providing position information of each of the plurality of socket units 221 of the control panel 220 and button information corresponding to each of the plurality of socket units 221. Save it. Here, the button information is the same as the button information described in the first embodiment and thus will not be described in detail in this embodiment. Meanwhile, in the button layout information, position information and button information of each of the plurality of gasket parts 221 may be changed by the user.

The output unit 240 displays and outputs button layout information stored in the storage 230. In the present embodiment, the output unit 240 includes at least one of a display unit (not shown) that operates to display button layout information and a printer (not shown) that operates to output the button layout information. Accordingly, the user may assign the first to third button portions 222a, 222b, and 222c to each of the plurality of socket portions 221 of the control panel 220 according to the button layout information displayed on the display portion or output by the printer. Can be attached. On the other hand, the button layout information output through the printer is provided with a plurality of agents to provide the user with button information of each of the plurality of first to third button portions 222a, 222b, and 222c attached to the plurality of socket portions 221. It may be attached to each of the first to third button portion (222a, 222b, 222c).

When the request for displaying the button layout is input from the control panel 220, the controller 250 extracts the button layout information from the storage 230. The controller 250 controls the display or output of the extracted button layout information. In addition, when any one of the plurality of first to third button parts 222a, 222b, and 222c outputs input information (first input information, second input information, or third input information) through the corresponding socket part, The controller 250 receives the input information that is output and detects the position of the socket part that outputs the input information. The controller 250 extracts button information corresponding to the detected position of the socket unit from the button layout information stored in the storage unit 230 and operates the ultrasound diagnosis unit 210 corresponding to the input information using the extracted button information. To control. The controller 250 controls the operation of each component of the ultrasound system 200.

While the invention has been described and illustrated by way of preferred embodiments, those skilled in the art will fully appreciate that various modifications and changes can be made without departing from the spirit and scope of the appended claims.

1 is a block diagram showing the configuration of an ultrasonic system according to a first embodiment of the present invention.

Figure 2 is a block diagram showing the configuration of the ultrasonic diagnostic unit according to the first embodiment of the present invention.

3 is an explanatory view showing a control panel according to a first embodiment of the present invention;

Figure 4 is a block diagram showing the configuration of an ultrasonic system according to a second embodiment of the present invention.

5 is an explanatory view showing a control panel according to a second embodiment of the present invention;

Figure 6 is an explanatory view showing a button portion and a socket portion according to an embodiment of the present invention.

Claims (9)

delete delete delete delete delete As an ultrasonic system, A plurality of buttons detachable and operable to receive a user command for operating the ultrasound system to form a detection signal corresponding to the user command and the detection signal provided from the plurality of buttons are inserted into the plurality of buttons. A control panel including a plurality of socket parts configured to output the same; A storage unit for storing button layout information for providing position information of each of the plurality of socket units and information regarding a button corresponding to each of the plurality of socket units on the control panel; And When the detection signal is input, the position of the socket part which outputs the detection signal is detected, the location information and the button information corresponding to the detected position of the socket part are extracted from the storage unit, and the extracted button information is used. A control unit operable to control an operation of the ultrasonic system corresponding to the detection signal Ultrasound system comprising a. The method of claim 6, An output unit operable to output the button layout information Ultrasonic system further comprising. The ultrasound system of claim 7, wherein the output unit comprises at least one of a display unit operable to display the button layout information and a printing press operable to output the button layout information. The method of claim 6, wherein the plurality of buttons A plurality of knob buttons operable to receive the user command in left and right rotation and push manners; A plurality of push buttons operative to receive the user command in a push manner; And A plurality of up-down buttons operable to receive the user command in an up-down manner Ultrasound system comprising a.

Images