KR20090077104A - Ultrasound system - Google Patents

Abstract

An ultrasound system is provided to improve the convenience of a user by receiving the instruction of the user accurately. A touch button display unit(112a) receives the instruction of a user with a touch method. A touch scroll button display unit(112b) receives the instruction of the user with a touch scroll method. A circular touch scroll button display unit(112c) receives the instruction of the user with a circular touch scroll method. A touch sensor senses the touch of the touch button display unit and outputs the sensing signal. The touch scroll sensor senses the touch scroll of the touch scroll button display unit and outputs the touch scroll sensing signal. The circular touch scroll sensor senses the circular touch scroll of the circular touch scroll button display unit and outputs the circular touch scroll sensing signal.

Description

Ultrasonic System {ULTRASOUND SYSTEM}

TECHNICAL FIELD The present invention relates to the ultrasonic field, and more particularly, to an ultrasonic system having a touch sensor.

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 high-resolution image of the internal tissues of the human body in real time without the need for a surgical procedure to directly cut the human body.

In general, an ultrasonic system uses a probe including a transducer element made of a piezoelectric material to transmit and receive an ultrasonic signal. The ultrasound system electrically stimulates the conversion element to form an ultrasound signal transmitted to the object, and transmits the formed ultrasound signal to the object. The ultrasonic signal transmitted to the object is reflected at a discrete boundary inside the object, and the ultrasonic signal transmitted from the boundary to the conversion element is converted into an electrical signal. The ultrasound system amplifies and signal-processes the converted electrical signal to form an ultrasound image of the object.

On the other hand, the ultrasound system has a control panel for receiving a user's instructions (instruction). The control panel moves a cursor and selects a trackball (not shown) for selecting at least one ultrasound image from a plurality of ultrasound images, a keyboard for inputting text (not shown), and a time gain compensation (TGG) of the ultrasound images. And a button portion (not shown) including a slider (not shown) for adjustment and a plurality of buttons. The user may control the diagnosis mode, depth, contrast, focus, and gain of the ultrasound image according to the type of object and the diagnosis mode using the control panel.

In such a control panel, liquid or a foreign substance may flow into a gap between a keyboard, a slider, a button part, and the like. As a result, a failure occurs in the control panel, so that the user's instructions are not properly input. In addition, the control panel is mounted on the ultrasonic system so that the position can be changed only within a predetermined range, and thus it is difficult for the user to operate the control panel with the other hand while holding the probe in one hand.

The present invention provides an ultrasound system having a touch sensor for receiving an instruction of a user.

The ultrasonic system according to the present invention includes a control panel operable to detect a user's touch and form and output a detection signal according to the present invention, wherein the control panel includes a touch button display unit for receiving the user's instructions by a touch method; A touch scroll button display unit for receiving an instruction of a user by a touch scroll method; And a front part including a circular touch scroll display for receiving the user's instructions in a circular touch scroll method, and a touch monitoring sensor configured to detect a touch of the touch button display and form a touch detection signal according to the touch button. A touch scroll sensor configured to detect touch scroll of the touch scroll button display unit and to form and output a touch scroll detection signal according to the touch scroll sensor; And a rear part including a circular touch scroll detection sensor operable to detect a circular touch scroll of the circular touch scroll button display unit and to form and output a circular touch scroll detection signal accordingly.

In addition, an ultrasound system according to the present invention includes a probe operable to transmit an ultrasound signal to an object and receive an ultrasound signal reflected from the object to form a received signal; A control panel operable to detect a user's touch and to form and output a first detection signal accordingly; A main body operable to control transmission and reception of the ultrasound signal and to form an ultrasound image based on the received signal; A display unit operable to display the ultrasound image; And a touch sensing unit mounted on one side of the main body, the touch sensing unit operable to sense a touch of the user and to form and output a second sensing signal according to the main body, wherein the main body is based on the first and second sensing signals. And controlling the transmission and reception of the ultrasonic signal, and performing signal processing on the received signal.

According to the present invention, not only can the user's instruction (instruction) be correctly input, but also the user's convenience can be improved.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

1 is a perspective view showing an ultrasound system 100 according to an embodiment of the present invention. The control panel 110 receives an instruction of a user. In the present embodiment, the user instruction includes information for operating the ultrasound system 100. For example, information for selecting a diagnostic mode, information for adjusting time gain compensation (TGG), information for adjusting an ultrasound image, and the like.

2 is an exploded perspective view of the control panel 110 according to the embodiment of the present invention. The front part 111 includes a button display part 112 for receiving an instruction of a user. In this embodiment, the front portion 111 forms the button display portion 112 integrally. The button display unit 112 includes a touch button display unit 112a, a touch scroll button display unit 112b, and a circular touch scroll button display unit 112c. The touch button display 112a is for receiving a user's instruction in a touch manner, and includes a keyboard, an up-down button, and a plurality of buttons. The touch scroll button display 112b is for receiving a user instruction for adjusting TGC (Time Gain Compensation) of the ultrasound image by a touch scroll method, and includes a plurality of sliders. The circular touch scroll display unit 114c is for receiving a user instruction in a circular touch scroll method, and includes a dial button that rotates clockwise and counterclockwise.

The rear portion 116 includes a sensor portion 118 corresponding to the button display portion 114. In the present embodiment, the rear portion 116 integrally forms the sensor portion 118. The sensor unit 118 includes a touch sensor 118a, a touch scroll sensor 118b, and a circular touch scroll sensor 118c. The touch detection sensor 118a detects the touch of the touch button display 112a by the user and forms and outputs a touch detection signal accordingly. The touch scroll detection sensor 118b detects a touch scroll of the touch scroll button display 112b by a user, forms a touch scroll detection signal, and outputs the touch scroll detection signal. The circular touch scroll detection sensor 118c detects a circular touch scroll of the circular touch scroll button display unit 112c by the user, and forms and outputs a circular touch scroll detection signal accordingly.

On the other hand, the control panel 110 is a light providing unit (not shown) for providing illumination to the control panel 110, a voice output unit (not shown) for outputting the sound, vibration to the control panel 110 Vibration providing unit (not shown) for providing, image adjustment menu for optimizing the ultrasound image, measurement menu, utility menu, etc., and touch screen (not shown) and cursor movement for receiving menu selection from the user. It may further include a trackball (not shown) for receiving an input.

Referring back to FIG. 1, the touch sensing unit 120 senses a user's touch and forms and outputs a sensing signal accordingly. The touch sensor 120 is mounted on one side of the main body 140. 3 is an exploded perspective view of the touch sensing unit 120 according to the embodiment of the present invention.

The front part 121 includes a plurality of touch button display parts 122 for receiving a user's instructions by a touch method. In the present exemplary embodiment, the front part 121 integrally forms the plurality of touch button display parts 122. The touch button display unit 122 includes a diagnostic mode switching button for sequentially switching a plurality of diagnostic modes, a freeze button for turning on / off an image scan, and auto image optimization (AIO) for automatically optimizing an ultrasound image. Buttons and the like. The touch button display unit 122 can be changed by the user.

The rear portion 123 includes a plurality of touch detection sensors 124 corresponding to each of the plurality of touch button displays 122. In the present embodiment, the rear part 123 integrally forms a plurality of touch detection sensors 124. The touch sensor 124 detects the touch of the touch button display unit 122 by the user and forms and outputs a touch detection signal accordingly.

Referring back to FIG. 1, the probe 130 transmits an ultrasound signal to an object and receives an ultrasound signal reflected from the object to form a received signal. The main body 140 controls the transmission and reception of an ultrasonic signal based on the detection signals from the control panel 110 and the touch sensing unit 120, and performs signal processing on the received signal from the probe 130. An ultrasound image of the object is formed based on the received signal. Although not illustrated, the main body 140 includes a beamformer for performing focusing and receiving focusing of an ultrasonic signal, a signal processor for performing signal processing of a received signal, an image processor for forming an ultrasonic image based on the received signal, and an ultrasonic wave. Lighting control signal for controlling the image formation and lighting control of the lighting provider according to the detection signal of the control panel, audio output control signal for controlling the audio output of the audio output unit and vibration providing control signal for the vibration providing control of the vibration providing unit It includes a control unit for forming and outputting. The display unit 150 displays an ultrasound image.

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

1 is a perspective view showing an ultrasonic system according to an embodiment of the present invention.

2 is an exploded perspective view of a control panel according to an embodiment of the present invention.

3 is an exploded perspective view of the touch sensing unit according to the embodiment of the present invention.

Claims (4)

As an ultrasonic system, Control panel operated to detect the user's touch and form and output the detection signal accordingly Including, The control panel A touch button display unit for receiving an instruction of the user by a touch method; A touch scroll button display unit configured to receive the instruction of the user by a touch scroll method; And A front part including a circular touch scroll display for receiving an instruction of the user by a circular touch scroll method; A touch monitoring sensor operable to detect a touch of the touch button display unit and to form and output a touch detection signal according to the touch button; A touch scroll sensor configured to detect touch scroll of the touch scroll button display unit and to form and output a touch scroll detection signal according to the touch scroll sensor; And A rear portion including a circular touch scroll detection sensor operable to detect a circular touch scroll of the circular touch scroll button display portion and to form and output a circular touch scroll detection signal accordingly; Ultrasound system comprising a. As an ultrasonic system, A probe operable to transmit an ultrasound signal to an object and receive an ultrasound signal reflected from the object to form a received signal; A control panel operable to detect a user's touch and to form and output a first detection signal accordingly; A main body operable to control transmission and reception of the ultrasound signal and to form an ultrasound image based on the received signal; A display unit operable to display the ultrasound image; And A touch sensing unit mounted on one side of the main body, the touch sensing unit operable to sense a touch of the user and to form and output a second sensing signal according to the touch of the user Including, And the main body is further operable to control transmission and reception of the ultrasonic signal based on the first and second sensing signals and to perform signal processing on the received signal. The method of claim 2, wherein the control panel A touch button display unit for receiving an instruction of the user by a touch method; A touch scroll button display unit configured to receive the instruction of the user by a touch scroll method; And A front part including a circular touch scroll display for receiving an instruction of the user by a circular touch scroll method; A touch monitoring sensor operable to detect a touch of the touch button display unit and to form and output a touch detection signal according to the touch button; A touch scroll sensor configured to detect touch scroll of the touch scroll button display unit and to form and output a touch scroll detection signal according to the touch scroll sensor; And A rear portion including a circular touch scroll detection sensor operable to detect a circular touch scroll of the circular touch scroll button display portion and to form and output a circular touch scroll detection signal accordingly; Ultrasound system comprising a. The touch sensing unit of claim 2, wherein the touch sensing unit A front unit including a touch button display unit for receiving an instruction of the user by a touch method; And A rear part including a touch monitoring sensor operable to detect a touch of the touch button display part and to form and output a touch detection signal according to the touch button display part; Ultrasound system comprising a.

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