KR101416121B1 - HU-bridge device - Google Patents

Abstract

The present invention can be applied to a hybrid terminal device in which the compatibility is improved so that a still image can be imaged immediately after the endoscopic equipment is replaced and the number of operations required to acquire a still image is minimized to improve the doctor's concentration of care. to provide. In order to achieve the above object, the present invention provides a method of performing pull-up on output signals output from a plurality of ports having different specifications to obtain image control signals for each type of endoscopic equipment, A Hub bridge for judging that an image control signal is input, and an image recording device for recording an image output from the endoscope device. The image recording device is connected to an ASCII ascii) key value and provides it to a video recording apparatus using a serial communication line.

Description

Hub-bridge device < RTI ID = 0.0 >

The present invention relates to a terminal device that improves the operability of endoscopic equipment, and more particularly to a terminal device that captures a video control signal between an endoscopic device and a video recording device without depending on a foot switch, And maintain compatibility with a variety of endoscopic equipment.

BACKGROUND ART [0002] Endoscopic equipment is widely used as a medical device used to determine the condition of an internal organ of a patient. The endoscopic equipment includes a body for generating an image signal for an image captured by an endoscopic scope and an endoscopic scope inserted into the body through a patient's mouth, a body for controlling the image signal, and an image recording The equipment consists of one set. When a still image is required while the internal organs are being searched, the endoscope apparatus having such a configuration must operate a foot switch located near the doctor, To create a still image. In order for the endoscope apparatus to generate the still image, the doctor must generate a freeze signal for stopping the image captured in real time by operating a switch provided on the endoscope scope. The endoscope device displays a still image on the screen in response to the control signal, and the doctor presses the foot switch to store the still image displayed on the screen in the image recording device when the still image displayed on the screen is satisfactory.

However, when the foot switch is separated from the doctor, it is difficult for the physician who manipulates the endoscopic scope to manipulate the foot switch to manipulate the position switch. When the physician holding the endoscope scope inserted into the patient's body inserts a foot It is often the case that a switch operation is requested. In addition, since the foot switch is placed on the floor in the space where the endoscope equipment is placed, and is operated when the user presses the foot pressure, there is a possibility of frequent breakage. In addition, There is a fear of wearing.

1 shows a reference diagram for a process of acquiring a still image by operating a foot switch in a conventional endoscopic equipment.

Referring to FIG. 1, a display device for displaying an image captured by an endoscopic scope is mounted on an endoscope. When a doctor manipulates an endoscopic scope inserted into a patient's body to generate a freeze signal, It is switched to the stop state. Thereafter, when a nurse or an intern located near the doctor or physician steps on the foot switch and depresses the foot switch, a capture signal is provided to the image recording apparatus, and the image recording apparatus captures the still image. This process involves two or more manpower required to obtain one still image, and also involves a risk of obstructing the operation of using the endoscopic scope for the operation accompanying the acquisition of the still image.

Regarding such a problem, in a registration practice 20-0375983, a medical image capturing system has been proposed in which an endoscopic scope is operated to generate a freeze signal, and then a desired still image is obtained by using a button provided in an endoscope scope. Registration practice 20-0375983 has advanced features compared to conventional endoscopic equipment in that it obtains still images without manipulating the footswitch. However, Registration Practice No. 20-0375983 requires two switch operations using an endoscope scope to obtain a still image. For example, the physician must perform a switch operation to generate a freeze signal, and then a switch operation for screen capture is required.

In addition, the registration room 20-0375983 can be applied to single endoscopic equipment, but it is not designed to be compatible with endoscopic equipment of other companies, so it is difficult to omit foot switch operation when changing or changing the endoscopic equipment. In other words, it shows limitations in compatibility.

It is an object of the present invention to provide a hybrid terminal device which improves the compatibility of endoscopic equipment, minimizes the number of switch operations required to obtain a still image, as well as obtaining a still image without separately operating a foot switch.

The above object is accomplished according to the present invention by performing a pull-up on an output signal output from a plurality of ports having different specifications to obtain image control signals for each type of endoscopic equipment, Wherein the video recording apparatus is connected to an image recording apparatus for recording an image output from the endoscope apparatus and a hybrid bridge for determining that the image control signal is inputted when the potential of the endoscope apparatus changes, And a key value generator for generating an ascii key value that is prearranged in order to request the video recording device to provide the video recording device with the serial communication line.

As described above, the hybrid terminal apparatus according to the present invention improves the compatibility so that the endoscope apparatus can be promptly applied even when the endoscope apparatus is replaced with a heterogeneous apparatus to request imaging of a still image, and a switch or a key operation The number of times can be minimized and the concentration of the doctor's care can be improved.

1 shows a reference diagram for a process of acquiring a still image by operating a foot switch in a conventional endoscopic equipment.
FIG. 2 is a conceptual diagram for explaining the connection relationship between the hybrid terminal according to the present invention and endoscopic equipment and video recording equipment.
Fig. 3 shows an external view of the prototype produced by the present applicant
4 is a block diagram of a hybrid terminal device according to an embodiment of the present invention.
5 shows a reference view of an example of an endoscope scope connected to an endoscope instrument.
Fig. 6 shows a reference diagram for an example of use in a physically held posture.
Figure 7 shows a reference diagram for a method of determining an image control signal in a hybrid bridge.
8 is a reference diagram for explaining the connection relationship between the hybrid terminal apparatus and the endoscope apparatus.
FIG. 9 is a flowchart illustrating a process of requesting a still image from a hybrid terminal device according to an embodiment of the present invention.

The Hub bridge referred to in the present invention refers to an interface standard designed to detect the image control signal while improving the compatibility of endoscopic equipment in Human Bridge Korea. When the image control signal is outputted from the endoscope apparatus, the Hub bridge can recognize the point at which the image control signal is output by using the characteristic that the pull-up potential temporarily goes to the logical low. Therefore, the HUBBRIDGE can detect and use image control signals for different port standards mounted on endoscopic equipment according to an individual vendor. Throughout this specification, the Hub bridge is as described above.

The hybrid terminal device referred to in the present invention may refer to a terminal device having the above-mentioned hybrid bridge.

The ascii key value referred to in the present invention is the same as the ascii key value used in a typical personal computer. In the present invention, the ASCII key value can be represented by an array switch that connects 8 switches and represents the potential state of each switch in binary numbers. The number of cases is 8, that is, 256 (0 to 255) It can represent letters, numbers and special characters.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 2 is a conceptual diagram for explaining the connection relationship between the hybrid terminal according to the present invention and the endoscopic equipment and the video recording apparatus, and FIG. 3 is an external view of the prototype manufactured by the present applicant. 2 and 3, the hybrid terminal device 100 includes ports 101, 102, and 103 for connecting with various endoscope devices 210 to 230 released from different vendors A release signal or a copy signal output from the endoscope apparatuses 201 to 230 is detected as a trigger signal and when a trigger signal is detected, the image recording apparatus 300 requests capture of a still image .

The hybrid terminal device 100 is connected to the video recording apparatus 300 through a serial communication line. The serial communication line may be a universal serial bus (USB), and the hybrid terminal device 100 may obtain driving power through a serial communication line. Therefore, the hybrid terminal device 100 does not require a separate adapter or a power cable to obtain driving power. The hybrid terminal device 100 is a device for displaying a still image in a display device mounted on an endoscope apparatus by a freeze signal or a copy signal generated in the endoscope scope 250, In response to a release signal, the video recording apparatus 300 may request capture of a still image. At this time, the bridge terminal apparatus 100 provides an ascii key value used for image capturing in the video recording apparatus 300 to the video recording apparatus 300, and the video recording apparatus 300 provides an ascii key value When an ASCII key value is received, a still image is generated in response to the ASCII key value. Therefore, the ASCII key value generated by the hybrid terminal device 100 needs to be changed when the vendors of the endoscope devices 210 and 230 are different from each other. In the hybrid terminal device 100, An array switch for changing the value of the ASCII key provided to the device 300 may be incorporated. The built-in array switch is an array switch in which eight switches are array-connected to represent 256 ASCII key values used in a normal personal computer, and one of the ASCII key values generated from a keyboard connected to a normal personal computer using an array switch When a freeze signal or a release signal is detected, a user-set ASCII key value is provided to the video recording apparatus 300 to generate a still image. At this time, the video recording apparatus 300 is provided with a video program for video recording and still video recording, and the video program has a function of generating a still video in response to any one of 256 ASCII key values. Since the image program is embedded in the image recording apparatus connected to the conventional endoscope apparatus, a separate description will be omitted.

3, the hybrid terminal device 100 includes a housing 105, a first LED 106 exposed in the housing 105, a second LED 107, and a port for each vendor of the endoscope devices 210 through 230 (101 to 103). The second LED 106 is turned on by the power source of 5 V applied through the serial communication line when the hybrid terminal device 100 is connected to the video recording equipment 300 and the serial communication line (for example, USB line). When the first LED 106 is turned on, the hybrid terminal device 100 acquires the driving power, and a separate adapter is not required.

The first LED 107 is turned on when the hybrid terminal device 100 detects an image control signal such as a freeze signal or a release signal. When the first LED 107 is turned on, the hybrid terminal device 100 may provide a user-set ASCII key value to the video recording apparatus 300.

Ports 101 to 103 may be of a standard provided by the manufacturer to manufacture RJ-45, phone jack, terminal, USB, and other endoscopic equipment. Endoscopy equipment is circulated globally from Olympus and Pentax. Olympus endoscope equipment uses RJ-45 port to output image control signals, and Pentax endoscope equipment uses phone jacks And outputs a video control signal. The terminal port can be used if it is later used by another vendor.

4 is a block diagram of a hybrid terminal device according to an embodiment of the present invention.

Referring to FIG. 4, the hybrid terminal device 100 may include a hybrid bridge 110, a key value setting unit 120, and a key value generating unit 130.

The Hub bridge 110 acquires an image forming signal for each type of endoscopic equipment. For this purpose, the Hub bridge 110 pulls up the image forming signal output from the endoscope device to 5 V, and when the pulled- , It is determined that a video control signal has occurred.

When an image control signal is generated in the endoscope scope 250 connected to the endoscope devices 210 to 230 in a state where the image signal outputted from the endoscope devices 210 to 230 is pulled up, The output signal transits to a logic "low" for a short period of 0.1 second to 1 second. This state is a common characteristic of the endoscopic equipment manufactured by Olympus and Pentax, and the hover bridge 110 can determine the point of time when the image control signal is generated using the characteristics of the endoscopic equipment. Accordingly, the Hub bridge 110 pulls up the image forming signals outputted from the prints 101 to 103 and then captures a still image to the video recording apparatus 300 when the logical value transition state is logical low. .

The key value setting unit 120 is an array in which a plurality of switches are arrayed. In order to represent all the ASCII key values, an array switch 121 in which eight individual switches are arrayed can be used. Individual switches represent logic low and logic high, and by representing the binary number using the order of these eight switches, 256 ASCII key values can be represented. The key value setting unit 120 may calculate the ASCII key value using the logic value order of the individual switches provided in the array switch 121. [

The key value generator 130 generates an ASCII key value customized in the key value setting unit 120 in response to the detection of the image control signal in the Hub bridge 110 and outputs the generated ASCII key value to the video recording device 300). The video recording apparatus 300 captures and stores the still image in response to the ASCII key value provided by the key value generator 130 of the image program.

Preferably, the key value generator 130 may be a key value for a function key among the ASCII key values generated from the keyboard. The image program installed in the image recording apparatus 300 is configured to capture a still image in response to a function key operation that is not easily used by a doctor or a nurse. Accordingly, the key value generated by the key value generation unit 130 may be a key value for any one of the F1 key to the F12 key provided on the keyboard. To this end, the array switch 121 sets the key value corresponding to the function keys F1 to F12 It is preferable to set it so as to be able to express.

FIG. 5 is a reference view of an example of an endoscope scope connected to the endoscope apparatuses 210 to 230, and FIG. 6 is a reference diagram of an example of using the endoscope apparatus in an actual doctor-held posture.

Referring to FIG. 5, the endoscopic scope 250 includes two or more switches 251 and 252 for controlling an image of a patient's body. 5, reference numeral 251 denotes a switch for generating a freeze signal, and reference numeral 252 denotes a switch for generating a release signal. Of course, the positions and functions of the switches 251 and 252 may differ depending on the vendor or model of the endoscope devices 210 to 230, and may be customized as needed. The illustrated switches 251 and 252 are merely examples and do not mean defining the function of the switch provided in the endoscopic scope 250. [ The endoscopic scope 250 shown in FIG. 3 operates in a state where the physician grasps the area where the switches 251 and 252 are located, and a part of the endoscopic scope 250 is inserted into the patient's body. Therefore, it is preferable that the key operation for requesting the still image is minimized in consideration of the safety of the operation and the convenience of the doctor.

Figure 7 shows a reference diagram for a method of determining an image control signal in a hybrid bridge.

7, the hybrid bridge 110 pulls up the image forming signals outputted from the endoscope apparatuses 210 to 230 to 5 v in order to detect the image control signals outputted from the endoscope apparatuses 210 to 230. When a freeze signal or a release signal is generated in the image control signal, the endoscope apparatuses 210 to 230 have a characteristic that the pull-up state transits to a logic low for a time of t2 second (0.1 second to 1 second) The Hub bridge 110 may use this logic state to generate an ASCII key value. In FIG. 7, t1 represents a time point at which a signal output from the endoscope apparatuses 210 to 230 transits to a logical low when a release signal is generated.

8 is a reference diagram for explaining the connection relationship between the hybrid terminal apparatus and the endoscope apparatus.

8, the hybrid terminal device 100 is connected to the printer terminal 211 among the terminals located on the back panel of the endoscope devices 210 to 230, It is possible to acquire the image control signal. The printer group 211 is a terminal used for outputting a printed matter required by the doctor using the video signal obtained from the endoscope apparatuses 210 to 230, and can be connected to a color printer or a monochrome printer by wire. A terminal of the printer group 211 outputs an image forming signal for printing an image signal picked up by the endoscopic scope 250. At this time, a freeze signal or a release signal And the like. That is, the endoscope apparatuses 210 to 230 include image control signals such as a freeze signal or a release signal in the image forming signal in order to determine which of the image signals the physician requests to print, The hybrid terminal device 100 connected to the ports included in the printer group 211 of the endoscope apparatuses 210 to 230 obtains an image forming signal including a trigger signal and pulls up the image forming signal to 5 V, When the potential of the signal changes to the logic "low ", it can be determined that the image control signal is detected. Here, the image control signal output from the printer group 211 has an active low characteristic. The illustrated back panel illustrates the CV-180 model of Olympus's endoscopic device, but may also have a back panel of a different type than shown, depending on the endoscopic device. However, it is not limited.

FIG. 9 is a flowchart illustrating a process of requesting a still image from a hybrid terminal device according to an embodiment of the present invention.

First, after the endoscope apparatuses 210 to 230 are operated (S401) and the hybrid terminal apparatus 100 is connected to the video recording apparatus 300 using the serial communication line, the hybrid terminal apparatus 100 is provided in the hybrid terminal apparatus 100 The second LED 107 is turned on (S402), and the video signal captured by the endoscopic scope 250 is supplied to the video recording apparatus 300 (S403). Next, the Hub bridge 100 determines whether the image control signal is applied to the endoscope devices 210 to 230 connected to the endoscope scope 250 (S404). Whether or not the image control signal is applied can be determined using the logical value transition according to the method described above with reference to FIG.

Next, the hybrid terminal device 100 determines a user-set ASCII key value through the array switch 121 in step S405, generates a user-set ASCII key value in step S406, (300).

110: Hub bridge 120: Key value setting unit
121: array switch 130: key value generator

Claims (10)

A pull-up operation is performed on output signals output from a plurality of ports having different specifications to obtain image control signals for each type of at least one endoscopic equipment, and when the potential of the pulled-up signal is logic "low"≪ / RTI > to determine that the image control signal has been input; And
Wherein the at least one endoscopic device is connected to an image recording device for recording an image output from the at least one endoscopic device, and wherein, in response to the potential change, and a key value generator for generating an ascii key value and providing it to the video recording apparatus using a serial communication line,
Wherein the ASCII key value includes an array switch in which eight switches are arrayed,
The ASCII key value is a key value for one of the F1 key to F12 key, which is a function key provided on the keyboard,
Wherein the output signal is an image signal captured by the endoscope apparatus,
The image control signal is a freeze signal or a release signal generated from the endoscope apparatus,
Wherein the freeze signal is a still image processing signal for displaying a still image of the video signal,
The release signal is a signal for releasing the still image,
Wherein the bridge is configured to receive the freeze from the port where the transition has occurred, regardless of the port specification of the port where the transition of the output signal occurs, when the potential transitions to the logic "low" Signal or the release signal, and performs capture for storing the still image in response to the recognition. The method according to claim 1,
Wherein the image control signal comprises:
And an endoscopic scope which is connected to the endoscopic equipment and captures the inside of the body of the examinee. delete delete The method according to claim 1,
The port
RJ-45, and a phone jack. The method according to claim 1,
The serial communication line is a USB (Universal Serial Bus) line,
Wherein the hybrid bridge and the key-
And acquires driving power from the video recording apparatus through the USB. The method according to claim 1,
And a housing for receiving the port, the bridge, and the key value generator,
The housing includes:
A first LED for indicating application of driving power through the serial communication line, and a second LED for indicating that the image control signal is applied, on one side of the housing. The method according to claim 1,
The ASCII key value is a value
Wherein said array switch is set by said array switch in which a plurality of switches capable of expressing a first logic value and a second logic value are arranged in an array. delete delete

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