KR100679282B1 - Wireless Image Diagnosis Apparatus For Medical Treatment - Google Patents

Abstract

The present invention divides the image of the affected area into two paths, and the image transmitted by one path to be transmitted and received through the wireless output through the output device, the other image is transmitted to the doctor directly eyes The present invention relates to a medical wireless imaging apparatus for checking.

Wireless, imaging, diagnostics

Description

Wireless Image Diagnosis Apparatus For Medical Treatment

1 is a view showing an embodiment of a medical wireless imaging apparatus according to the present invention.

2 is an external configuration diagram of an embodiment of a medical wireless imaging apparatus according to the present invention.

Figure 3 is an internal configuration diagram of an embodiment of a medical wireless imaging apparatus according to the present invention.

4 is a cross-sectional view of an embodiment of an image separator applied to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a medical diagnostic apparatus, and more particularly, to a medical imaging apparatus used when doctors examine a patient's ear canal, nostril or throat (hereinafter, simply referred to as 'injury') in a patient. .

As is well known, a medical imaging apparatus for imaging a patient's lesion has been developed so that a doctor can easily photograph the patient's lesion, and the captured image is output through a monitor so that the doctor can observe the patient's lesion in detail. In addition to being able to be obtained, the obtained image information can be easily managed and thus can be continuously used.

However, the conventional medical imaging apparatus is difficult to move since the medical imaging apparatus is generally used in a state in which the image output apparatus is connected by a wired cable. Therefore, the imaging apparatus is separated at a separate place except when the patient visits a hospital. There is a problem that it is difficult to receive medical care using.

In addition, the conventional imaging device is configured such that the photographed information is output only through an output device such as a monitor, so that a doctor cannot directly check the eye. Therefore, the conventional imaging device is used in each room at the time of rounding. There is a problem that can not diagnose the affected part of the patient.

On the other hand, in order to solve the problems described above, an image diagnostic apparatus using a wireless (application number: 10-2001-0056586) has been developed, but such a conventional wireless image diagnostic apparatus is simply connected to a wired cable connected to the output device; There is no difference from the conventional image diagnosis apparatus except for the wireless replacement, and thus there is a problem in that the problems of the conventional image diagnosis apparatus as described above are not solved.

An object of the present invention for solving the above problems, by separating the image of the affected area into two paths, the image transmitted by one path to be transmitted and received through the wireless to output through the output device, the other The image transmitted through the path of the to provide a medical wireless imaging device for the doctor to check directly with the eyes.

According to the present invention for achieving the above object, in the medical wireless image diagnosis apparatus, the image of the affected part of the patient is separated into two paths and the image separated through one path is transmitted as wireless data, and another path The image separated through the image separation apparatus 200 for allowing the user to directly check with the naked eye through the naked eye lens; And an image receiving apparatus 300 for receiving the image transmitted from the image separating apparatus through wireless communication, transmitting the image to an external output device, and charging the image separating apparatus.

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

1 is a diagram illustrating an embodiment of a medical wireless imaging apparatus according to an embodiment of the present invention. As shown in the drawing, the medical wireless imaging apparatus 100 according to the present invention includes two images of a patient's affected part. The image separation device 200 and the image for allowing the user to directly check the image separated through the other path through the optical path, the image separated by one path is transmitted as wireless data. And an image receiving apparatus 300 for receiving the image transmitted from the image separating apparatus through wireless communication, transmitting the image to an external output device, and charging the image separating apparatus.

That is, the user (doctor) is placed through the lens mounted on the end portion of the medical imaging unit according to the present invention after placing the end (image collector) of the image separation device 200 to the affected part of the patient Not only can the image be directly confirmed through the naked eye lens provided in the image separation device 200, but also an output device (computer or connected to the image receiving apparatus after being transmitted to the image receiving apparatus 300 via wireless). The monitor 400 may also check the image.

2 is a diagram illustrating an external configuration of a medical wireless imaging apparatus according to an exemplary embodiment of the present invention, in which the image separation device 200 is coupled to the image receiving device 300 and is being charged.

First, an external configuration of the image separation device 200 will be described with reference to FIG. 2.

That is, the image separation device 200 is manufactured as a 'b' shaped housing which can be easily carried by the user, and is inserted into the affected part of the patient at the end of the upper end 291 of the housing to display an image of the affected part. An image collector 211 protruding to collect, a lamp case 212 equipped with a lamp for injecting light into the image collector to collect bright and clear images by illuminating the affected part, and incident through the image collector A visual observation lens 231 is provided to allow a user to directly check the captured image. In addition, the lower portion 292 of the housing is a handle that the user can hold the hand wrapped, the switch 261 is provided on the front of the handle that the user can operate through the finger and the charging unit of the image receiving device; A charging terminal is provided for contacting and receiving power from the image receiving apparatus.

Next, an external configuration of the image receiving apparatus 300 will be described with reference to FIG. 2.

That is, the image receiving device 300 performs a function of receiving an image transmitted from the image collecting device or charging the image collecting device, and the image transmitted from the image collecting device is output to the output device 400. As shown in the figure, an antenna 311 for receiving image information, a charging terminal 341 for supplying power for charging the image collecting device, and the output as shown in the figure. It comprises a connection terminal 351 that can be connected through the device and the cable and a switch 331 for receiving various control signals from the user.

3 is a diagram illustrating an internal configuration of a medical wireless imaging apparatus according to an exemplary embodiment of the present invention, and illustrates the internal configuration of the image separation apparatus 200 and the image receiving apparatus 300.

First, an internal configuration of the image separation device 200 will be described with reference to FIG. 3.

That is, as shown in FIG. 3, the image separation device may include an image collection unit 210 for inserting a patient's affected part to collect an image of the affected part, and separating the image collected through the image collecting unit into two paths. Image separation unit 220, a visual observation unit 230 for allowing the user to visually check the incident image through the one path separated through the image separation unit, another path separated through the image separation unit Image processing unit 240 for converting the image incident through the semiconductor device through the data, the wireless transmission unit 250 for transmitting the data converted through the image processing unit to the image receiving unit through a wireless communication network, various control signals from the user A switching unit 260 for switching the light emitting function of the image collecting unit or the functions of the respective units It is configured to include a power supply 270 for supplying a source.

In this case, the image collecting unit 210, the image collector 211 as described above, the optical lamp mounted on the lamp case 212, in order to transmit the light emitted from the optical lamp to the image collector And an optical cable 214 connected from an optical lamp to the end of the image collector and an image transmitter 213 for transmitting the image incident through the image collector to the image separator.

In addition, the image separation unit 220 is for separating the image incident through the image collector 211 into two paths using two reflection mirrors. In this case, the first mirror 221 which directly receives the image from the image collecting unit 210 of the reflection mirror passes through 20 to 40% of the image incident from the image collecting unit 210 the visual observation unit And transmits the remaining 60 to 80% of the image to the second reflection mirror, and the second mirror 222 transmits the 60 to 80% of the image reflected from the first reflection mirror. It performs a function of reflecting the image processor 240. Meanwhile, the structures and functions of the first mirror 221 and the second mirror 222 as described above will be described with reference to FIG. 4.

In addition, the visual observation unit 230 is provided to allow the user to directly check the image passing through the first reflection mirror of the image separation unit 220 as shown in FIG. 2. It consists of).

In addition, the image processor 240 converts an image reflected by the second mirror 222 of the image separator 220 into data usable by the wireless transmitter 250, and converts light into an electrical signal. Charge-coupled devices (CCDs), which are electronic devices that change, are used. That is, the image reflected by the second mirror 222 is converted into image data digitally processed by the CCD and transmitted to the wireless transmitter 250. At this time, the configuration and function of the CCD for converting the image into the image data is the same as the principle of the digital camera currently used in general, and a detailed description thereof will be omitted.

In addition, the wireless transmitter 250 is to transmit the image data digitally processed by the CCD from the image processor to the image receiving apparatus 300 through a wireless communication network, the configuration of the wireless transmitter 250 Since the configuration is the same as that of a transmission apparatus currently used in general, a detailed description thereof will be omitted.

In addition, the power supply unit 270 is for supplying power required by the respective units, and supplies power for driving the lamp, supplies power for driving the CCD, or the wireless transmitter 250 It supplies the power for driving). In this case, the power supply unit 270 may use a general battery, or may use power charged from the image receiving apparatus 300 through the charging terminal 271. In addition, the power supply unit 270 may perform a function of boosting or stepping down the power to a voltage required by each unit.

Lastly, the switching unit 260 is configured to include the switch 261, so that when the user selects a lamp on / off switch among the switches 261, the switching unit 260 is connected between the power supply unit 270 and the optical lamp. It can perform the function to turn on / off the circuit. In addition, the switching unit 260, the user selects a freezing switch of the switch 261, the control signal for requesting to stop the transmitted image (stored in a storage medium of the switching unit or the wireless transmission unit) And a control signal) may be transmitted to the image receiving unit 300 through the wireless transmitter 250, thereby stopping the image output from the output unit 400. In addition, the switching unit 260 may reduce power consumption by cutting off the power supplied to the optical lamp when the image separation device 200 is not used from the image receiving device 300 for a predetermined time. When the switch 261 is clicked by the user in a state where the power is cut off, the power may be supplied to the optical lamp again. In addition, the switching unit 260 may detect whether the power supply unit 270 is separated from the charging unit 340 of the image receiving apparatus 300 and supply power to the optical lamp only when the power supply unit 270 is separated. have.

Next, an internal configuration of the image receiving apparatus 300 will be described with reference to FIG. 3.

That is, as shown in FIG. 3, the image receiving apparatus may include a wireless receiver 310 for receiving image data transmitted from the image separating apparatus through a wireless network, a control signal for freezing from a user, and the like. Input / output unit 330 for receiving an input or displaying a charging state, a charging unit 340 for charging a power supply unit of the image separation device, and transmitting the received image to the output unit or control input through the input unit. And an interface unit 350 for transmitting a signal to the output unit and a controller 320 for controlling communication between the units.

In this case, the wireless receiver 310 performs a function of receiving an image signal transmitted from the wireless transmitter 250 of the image separation apparatus 200.

In addition, the input / output unit 330 receives various control signals from a user or outputs information such as a charging state of the image separation device. For example, the input / output unit 330 freely captures an input image. It may include a switch 331 for receiving a charging signal and / or a charge state display lamp for displaying the state of charge of the image separation device 200.

In addition, the charging unit 340 is for charging the image separation device 200, and has a structure that can be electrically coupled with the charging terminal 271 of the image separation device.

In addition, the interface 350 transmits the image information received through the wireless receiver 310 or the control signal input through the input / output unit 330 to the output device 400.

Finally, the control unit 320 is for controlling the transmission signal between the respective units, and performs the function of controlling the transmission of the image signal and the transmission of the control signal as described above. In this case, the controller 320 may transmit a control signal for requesting to output the video signal divided into two or more sections to the external output device. That is, the image output to the output device may be divided into at least one or more screens, each of the screens can be output still image by freezing, the last screen can be output video of the affected part is currently diagnosed .

FIG. 4 is a cross-sectional view of an image separation unit according to an embodiment of the present invention, and illustrates an image separation unit 220 of the image separation apparatus 200 shown in FIG. 3.

That is, as shown in Figure 4, the image separation unit 220 applied to the present invention is composed of two mirrors.

In this case, the first mirror 221, which receives the image transmitted from the image collecting unit 310, is inclined about 22.5 degrees from the central longitudinal axis, and has a general coating process to transmit only about 10 to 50% of the image. It is coated by the method. That is, 10 to 50% of the image incident to the first mirror 211 (hereinafter, simply referred to as “first image”) passes through the first mirror 211 and enters the visual observer 230. The user may observe the first image through the visual observation lens 231 of the visual observer 230.

Meanwhile, 50 to 90% of the image (hereinafter, simply referred to as a 'second image') is reflected by the first mirror 222 and is incident to the second mirror, which is illustrated in the drawing. As shown, it is inclined at an angle of about 45 degrees with the first mirror. At this time, the second mirror 222 is preferably a mirror that can reflect the incident image 100%.

That is, a first image of the image incident in parallel with the central horizontal axis is transmitted to the first mirror 221 and is visible to the user through the visual observation unit 230, and the second image of the image is the central horizontal axis. It is reflected at an angle of 45 degrees and is incident on the second mirror. In this case, the second image is reflected at an angle of 44 degrees by setting the angles of the first mirror 221 and the second mirror 222, and the reflected second image (hereinafter, simply referred to as 'third image'). ) Is incident to the image processor 240 at a right angle with respect to the central horizontal axis.

In this case, by arranging the first mirror 221 and the second mirror 222 as described above, the image may be incident to the image processor 240 as a third image in a state in which the up, down, left and right are not upside down. Then, the image processing unit 240 is digitally processed and converted into image data.

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

The present invention as described above separates the image incident on the patient's affected area into two paths, so that the user can directly check the image incident on one path, while the image data incident on another path By converting to a wireless transmission to the user, there is an excellent effect that the user can check with an output unit such as a monitor.

That is, the present invention allows the user to precisely analyze the image of the affected part by using the monitor device as described above when the user wants to accurately diagnose the patient, and immediately check the patient's condition during rounding. Has an excellent effect.

In addition, the present invention has an excellent effect of providing a freezing function, allowing the user to examine the affected area in more detail through the on-time screen of the image.

Claims (6)

In the medical wireless imaging device, The image of the patient's affected area is divided into two paths, and the image separated through one path is transmitted as wireless data, and the image separated through another path can be checked by the user directly through the naked eye lens. Image separation apparatus 200 for; And An image receiving apparatus 300 for receiving the image transmitted from the image separating apparatus through wireless communication and transmitting the image to an external output device while charging the image separating apparatus. Medical wireless imaging device comprising a. The method of claim 1, The image separation device 200, An image collector 210 inserted into the affected part of the patient to collect an image of the affected part; An image separator 220 for separating the image collected through the image collector into two paths; A visual observation unit 230 for allowing a user to visually check an image incident through one path separated through the image separation unit; An image processor 240 for converting an image incident through another path separated through the image separator through a semiconductor device; A wireless transmitter 250 for transmitting the data, which is data through the image processor, to the image receiver through a wireless communication network; A switching unit 260 for receiving various control signals from a user and switching a light emitting function of the image collecting unit or a function of each unit; And Power supply unit 270 for supplying power to the respective parts Medical wireless imaging device comprising a. The method according to claim 1 or 2, The video receiving device 300, A wireless receiver 310 for receiving image data transmitted from the image separation device through a wireless network; An input / output unit 330 for receiving a control signal or the like for freezing a screen from a user or displaying a charging state or the like; A charging unit 340 for charging the power supply unit of the image separation device; An interface unit 350 for transmitting the received image to the output unit or transmitting a control signal input through the input unit to the output unit; And Control unit 320 for controlling the communication between each unit Medical wireless imaging device comprising a. The method of claim 2, The switching unit 260, To cut off the power supply to the lamps when examination is not performed Medical wireless imaging device, characterized in that. The method of claim 3, wherein The video receiving device 300, Transmitting a freezing control signal to the external output device when a freezing request signal is received through the image separation device 200 or the input / output unit 330. Medical wireless imaging device, characterized in that. The method of claim 3, wherein The control unit 320, Transmitting a control signal for requesting the video signal to be divided into a plurality of sections and outputting the control signal to the external output device; Medical wireless imaging device, characterized in that.

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