KR20090078619A - Ultrasound probe for switching of power supplying - Google Patents

Abstract

An ultrasonic probe having a power supply switching function is provided to reduce an undesired operating time of a user by switching electric power supplied thereto. An ultrasonic probe(110) having a power supply switching function includes a sensing unit(112), a control unit(113), and a first switch(114). The sensing unit senses periodically operating states of the ultrasonic probe having the power supply switching function. The control unit generates different kinds of control signals according to the operating states of the ultrasonic probe. The first switch is used for adjusting a state of power supply to the ultrasonic probe on the basis of the different control signals of the control unit.

Description

ULTRASOUND PROBE FOR SWITCHING OF POWER SUPPLYING

The present invention relates to a probe of an ultrasonic system, and relates to an ultrasonic probe for switching the power supply to the probe by determining whether the probe is used.

The ultrasound system uses ultrasonic waves to show the internal structure of the stage body in a non-destructive and non-invasive manner. The ultrasound system includes a probe for transmitting and receiving an ultrasound signal. A probe is a device that transmits and receives ultrasound to acquire image data, and is also called a transducer or a scanhead. The probe includes a plurality of transducers for converting ultrasonic signals and electrical signals. Each transducer of the probe generates an ultrasonic signal separately, and several transducers simultaneously generate an ultrasonic signal. The ultrasonic signal transmitted from each transducer is reflected at the discontinuous surface (reflector surface) of the acoustic impedance inside the object. Each transducer converts the individually reflected ultrasonic signals into electrical received signals.

The operation of the existing ultrasonic probe depends on the operation of the ultrasonic system. Therefore, the operating state of the probe is also determined according to the operating state of the ultrasonic system, so that unnecessary power is consumed and the life of the ultrasonic probe is shortened.

The present invention provides an ultrasonic probe capable of switching a power supply to an ultrasonic probe to reduce an unintended use time of the ultrasonic probe user.

Ultrasonic probe of the present invention, the sensing unit for periodically detecting whether or not to use the ultrasonic probe; A control unit for forming a different control signal according to whether the use; And a first switch capable of adjusting a power supply to the ultrasonic probe based on the different control signal.

When the ultrasonic probe of the present invention is not used, the ultrasonic probe detects this and cuts off the power supplied to the ultrasonic probe, thereby reducing the unintended use time, thereby increasing the physical life of the ultrasonic probe, and moving ultrasonic (HCU; Hand- Carried Ultrasound system can reduce battery consumption.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the following description, when there is a risk of unnecessarily obscuring the gist of the present invention, a detailed description of well-known functions and configurations will be omitted.

1 is a block diagram showing the configuration of an ultrasonic system according to an embodiment of the present invention, Figure 2 is a view showing an ultrasonic probe according to an embodiment of the present invention.

The main body B of the ultrasound system 100 includes a power supply unit P for supplying power required for the operation of the ultrasound probe 110.

The ultrasonic probe 110 is a device for transmitting and receiving ultrasonic waves, and may also be called a transducer or a scanhead. The probe includes a signal converter 111, a detector 112, a controller 113, a first switch 114, and a second switch 115.

The signal conversion unit 111 is composed of a plurality of conversion elements. Conversion elements are piezoelectric elements such as quartz, tourmaline, ceramic, etc., and have a property of vibrating when an electric signal is applied. The signal converter 111 converts an electrical signal transmitted from the main body B of the ultrasound system 100 into ultrasound. In addition, the signal conversion unit 111 operates by receiving power from the power supply unit P of the main body B.

The detection unit 112 periodically detects whether the ultrasonic probe 110 is used, and forms a use signal when the ultrasonic probe 110 is used, and forms a stop signal when the ultrasonic probe 110 is not used. do. The detecting unit 112 may be any one of various types of sensors such as a motion sensor, a temperature sensor, a touch sensor, and a distance sensor.

When the detection unit 112 includes a motion detection sensor, when the user wants to use the ultrasonic probe 110, the motion detection sensor detects the movement of the ultrasonic probe 110 by using an equilibrium lamp and changes the current. The use signal is formed, and when the ultrasonic probe 110 is not in use, a stop signal due to a change in current is formed. When the detecting unit 112 includes a temperature sensor, when the temperature changes when the user or the examinee contacts the ultrasonic probe 110, the temperature sensor detects this to form a use signal by a current change, and the user B, if there is no contact with the ultrasonic probe 110 of the examinee forms a stop signal. When the detection unit 112 includes a touch sensor, when a user or an examinee contacts the ultrasonic probe 110, a detection signal is formed by a change in current, and the user or examinee contacts the ultrasonic probe 110. If not, it forms a stop signal. In addition, when the detecting unit 112 includes a distance sensor, when the distance between the test subject and the ultrasonic probe 110 is within a specific distance, a use signal is generated by a current or voltage change, and the test subject and the ultrasonic probe 110 are included. If the distance between the two is greater than a certain distance, a stop signal is formed.

Referring to FIG. 2, the detector 112a is attached near the signal converter 111 to detect an object during ultrasound diagnosis using the ultrasound probe 110 to form a use signal and a stop signal.

In addition, the detection units 112b and 112c are attached to the side surfaces of the ultrasonic probe 110 to detect the user's contact with the ultrasonic probe 110 during the ultrasound diagnosis to form a use signal and a stop signal.

The detector 112d is attached to the signal converter 111 and detects a distance between the object and the probe 110 during ultrasound diagnosis using the ultrasound probe 110 to form a use signal and a stop signal.

The control unit 113 receives a use signal to form a first control signal for supplying power to the ultrasound probe 110, and receives a use signal to control the second control to cut off power supply to the ultrasound probe 110. Form a signal.

The first switch 114 may turn off the switch based on the second control signal to stop the power supply to the probe, and turn on the switch based on the first control signal to enable the power supply to the probe. have.

The second switch 115 may adjust the power supply to the ultrasonic probe 110 in response to a user input. That is, when the second switch is on, power is supplied to the ultrasonic probe 110, and when the second switch is off, power supply to the ultrasonic probe 110 is stopped.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without setting the technical spirit or essential features. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all settings or modifications derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

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

2 is a view showing an ultrasonic probe according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100: ultrasonic system

110: ultrasonic probe

111: probe

112: detector

113: control unit

114: second switch

115: first switch

Claims (9)

In the ultrasonic probe, A detector for periodically detecting whether the ultrasonic probe is used; A control unit for forming a different control signal according to whether the use; And And a first switch capable of adjusting a power supply to the ultrasonic probe based on the different control signal. The method of claim 1, The detection unit, Ultrasonic probe for detecting the use of the ultrasonic probe to form a use signal and a stop signal. The method of claim 2, The control unit, And a first control signal based on the use signal, and a second control signal based on the stop signal. The method of claim 3, The second switch, And an on-off switch based on the second control signal and an on-off switch based on the first control signal. The method of claim 1, Ultrasonic probe further comprising a signal conversion unit for converting the electrical reception signal transmitted from the ultrasonic system body into ultrasonic waves. The method of claim 1, Ultrasonic probe further comprising a second switch for adjusting the power supply to the ultrasonic probe as a user input. The method according to any one of claims 1 to 6, The detection unit, An ultrasonic probe comprising any one of a motion sensor, a temperature sensor, a touch sensor, and a distance sensor. The method of claim 7, wherein The sensing unit is attached to the signal conversion unit next to the ultrasonic probe for detecting a diagnostic object during the ultrasound diagnosis. The method of claim 8, The sensing unit is attached to the side of the ultrasonic probe is an ultrasonic probe for detecting whether the user touches the ultrasonic probe when the user diagnoses the ultrasound.

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