JP6221335B2 - Triage tag - Google Patents

Description

  The present invention relates to a triage tag used to support emergency medical care.

  2. Description of the Related Art Conventionally, electronic pens that digitize written information have been developed, and “Anot pen” developed by Swedish company Anoto is known as a representative one. For example, Patent Document 1 describes that the anotopen reads a predetermined dot pattern printed on a sheet, generates entry information, and transmits the entry information to the terminal device. Patent Document 2 describes a rotation correction processing function that corrects the arrangement of dots on an image caused by the angle of an electronic pen facing the dot pattern.

  In recent years, a label tag indicating a treatment priority called a triage tag is used in a response system in case of a large-scale disaster such as an earthquake, a typhoon, or terrorism. A technique has been proposed in which a dot pattern is formed on such a triage tag, and the content entered in the triage tag is converted into electronic data using an electronic pen (see, for example, Non-Patent Document 1).

Japanese Patent No. 3874498 Special table 2003-529853 gazette

Hiroshima University Hospital homepage, news-article details, disaster medical relief training using the new triage tag system, [Search April 23, 2013], Internet <URL: http: //www.hiroshima-u .ac.jp / news / show / id / 15355 / ＞

  The triage tag described in Non-Patent Document 1 is a format in which a marker part for selecting a triage classification is marked by making a hole (hole) with a finger, and a user such as a lifesaving person is described next to the marker part. According to the flowchart, a hole (hole) is made in the mark portion corresponding to the corresponding triage section. On the other hand, there is a case where it is desired to change the triage category to be selected due to a change in the physical condition of the victim after marking a mark portion corresponding to an arbitrary triage category. In this case, the conventional triage tag has a problem that it is difficult to return the marked part to the original state and fix it. Therefore, the main object of the present invention is to provide a triage tag capable of flexibly changing the selected triage classification.

In one aspect of the present invention, a triage tag including a marking portion provided for each triage section, wherein the marking portion includes a selection area that is rotatable about a fold line, and the selection area is the fold line. A hole is formed in the marker portion in a state of being bent along the direction, and the selection area can be fitted into the hole in a state of being not bent, and the selection area can be fitted into the hole. have a fixing portion for fixing in it state, the fixing portion is a protrusion extending from the selection area.

  Said triage tag is provided with the label | marker part provided for every triage division. The sign section has a selection area that can rotate around a fold line, for example, like the grid of a bingo card. Then, a hole is formed in the marker portion in a state where the selection area is bent along the crease, and the selection area can be fitted into the hole in a state where the selection area is not bent. The selection area has a fixing portion for fixing the selection area in a state where the selection area is fitted in the hole. With this configuration, the arbitrary marking portion of the triage tag can be suitably fixed by fitting the selection area into the hole even when the selection area is once bent. Therefore, according to this triage tag, a user such as a lifesaving person should fold and mark a selection area corresponding to an arbitrary triage category, and then select a triage category to be selected due to a change in the physical condition of the patient. In the case of changing, the bent selection area can be returned to the state before being bent and fixed.

Further, the fixing portion is a protrusion extending from the selection area. By having such a protrusion, the selection area is easily fixed in a state of being fitted into the hole.

  In one aspect of the triage tag, the protrusion is foldable so as to face and contact an area of the marker portion other than the selection area. In this aspect, the protruding portion can be bent so that the selection area is locked to the area of the marker portion other than the selection area, whereby the selection area is suitably fixed in a state of being fitted into the hole.

  In another aspect of the triage tag, a plurality of the protrusions are provided in the selection area. According to this aspect, the protruding portion can be bent on both the front side and the back side of the triage tag so as to engage with the area of the marker portion other than the selected area, and the selected area is suitably fixed in a state of being fitted in the hole. It becomes possible.

  In another aspect of the triage tag, the protrusion has a constricted shape. According to this aspect, since the head of the protrusion is suitably fitted into the hole, the selection area is suitably fixed in a state of being fitted into the hole.

In another aspect of the present invention, a triage tag including a marking portion provided for each triage section, wherein the marking portion has a selection area that is rotatable around a fold line, and the selection area is the fold line. A hole is formed in the marker portion in a state of being bent along the direction, and the selection area can be fitted into the hole in a state of being not bent, and the selection area can be fitted into the hole. The selection area has a boundary formed by a V-shaped notch carved into the marking portion at predetermined intervals, and stress greater than a predetermined pressure is applied to the selection area. The boundary is cut along the cut. According to this aspect, since the boundary of the cut-off portion of the selection area and the boundary of the hole from which the selection area has been cut off are engaged in a saw-tooth shape, the selection area is suitably maintained in a state of being fitted into the hole.

  According to the present invention, even if the selection area of the triage tag is once bent, the selection area can be fitted into the hole and fixed by the fixing section. Therefore, according to the triage tag according to the present invention, a user such as a lifesaving technician selects a mark area corresponding to an arbitrary triage section by folding and marking it, and then selecting it due to a change in the physical condition of the patient or the like. When the power triage section is changed, the bent selection area can be returned to the state before being bent and fixed.

The front view of the triage tag which concerns on this embodiment is shown. (A), (b) shows the triage tag in the state where the mark part corresponding to the triage category “III” is marked. (C) shows a side view of the triage tag in a state in which the selection area of the label portion corresponding to the triage section “III” is returned to the initial state. The front view of the label | marker part of triage division "III" after bending a projection part is shown. It is a side view of the triage tag after bending a projection part. It is a system block diagram of an emergency medical assistance system. It is explanatory drawing which shows the relationship between the arrangement | positioning of the dot in a dot pattern, and the value converted. (A) schematically shows a dot pattern, and (b) is a diagram showing an example of information corresponding thereto. It is the schematic which shows the structure of an electronic pen. It is a functional block diagram of a server apparatus. The label part of the triage tag which concerns on a 2nd structural example is shown. The label part of the triage tag which concerns on a 3rd structural example is shown. The label part of the triage tag which concerns on a 4th structural example is shown.

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

[Triage tag]
FIG. 1 shows a top view of a triage tag 2 according to this embodiment. The triage tag 2 is used to determine the treatment priority of the victim so as to perform appropriate treatment and transportation in accordance with the urgency and seriousness of the victim. “Triage” refers to the degree of urgency or seriousness of a patient so that the maximum number of patients can be saved under limited emergency medical conditions when a large number of patients are injured in the event of a major accident or disaster. This means setting the treatment priority (triage classification) of the victim to perform appropriate treatment and transportation according to the situation. The triage tag 2 is printed with a dot pattern (coded pattern) that can be read by an electronic pen described later.

  As shown in FIG. 1, on the surface of the triage tag 2, a flow display column 20 on which a questionnaire for selecting a triage category is printed, a label portion 21 formed for each triage category, and an electronic pen described later And an electronic pen entry field 23 for entry. The electronic pen entry field 23 will be described in detail in the [Application] section.

  The flow display column 20 describes a plurality of determination items for determining the symptom of the victim. Depending on the determination using such a determination item, any of the triage categories corresponding to each of the marker portions 21 may be injured. The person's condition is determined. The “0” triage category indicates the death group, the “I” triage category indicates the severe group, the “II” triage category indicates the moderate group, and the “III” triage category indicates The mild group is shown.

  The labeling portion 21 is color-coded by triage classification so that the state of injury or illness can be recognized at a glance. The sign section 21 is provided with a selection area 22 that can be bent with a mountain fold line 27 as a fold while being separated from other areas in the sign section 21. A cutout is formed at the boundary of the selection area 22 other than the mountain fold line 27 so that the selection area 22 can be separated. Each of the selection areas 22 is provided with projections 26L and 26R extending from the selection area 22. As will be described later, the protrusions 26L and 26R are examples of the “fixing portion” in the present invention.

  Then, a user such as a lifesaving person presses the selection area 22 in the sign portion 21 in which the triage classification selected based on the determination item described in the flow display column 20 is folded so that the mountain fold line 27 is folded. To do. As a result, the user puts a mark on the labeling unit 21 so that the triage classification corresponding to the condition of the victim is known. This will be described with reference to FIGS. 2 (a) and 2 (b).

  FIG. 2A shows a top view of the triage tag 2 after the selection area 22 corresponding to the triage section “III” is pressed and marked. FIG. 2B shows a side view of the triage tag 2 shown in FIG. Hereinafter, a state in which the selection area 22 is bent with the mountain fold line 27 as a fold is also referred to as a “selection state”, and the selection area 22 is not bent with the mountain fold line 27 as a fold, that is, A state substantially parallel to other regions is also referred to as an “initial state”.

  As shown in FIGS. 2A and 2B, when the user presses the selection area 22 corresponding to the triage category “III”, a stress greater than a predetermined pressure acts on the selection area 22 and the selection is performed. A boundary 28 </ b> X (also referred to as “selected area cutting boundary”) where the area 22 is cut is separated from the marking unit 21. Then, the selection area 22 is folded using the mountain fold line 27 as a fold. In this case, the selection area 22 rotates in the direction of the back surface of the triage tag 2 with the mountain fold line 27 as an axis. As a result, a hole (also referred to as a “mark hole”) is formed in the marker portion 21 corresponding to the triage section “III”. Here, the selected area cutting boundary 28X has the same shape as the boundary 28Y (also referred to as “labeling section cutting boundary”) 28Y from which the selected area cutting boundary 28X is cut.

  Then, a user such as a lifesaving technician determines that the triage classification to be selected has changed due to the change in the physical condition of the patient after selecting the selection area 22 of the sign section 21 corresponding to the triage classification “III”. In this case, the selection area 22 in the selected state is returned to the initial state. FIG. 2 (c) shows a side view of the triage tag 2 when the selection area 22 that has been selected in FIGS. 2 (a) and 2 (b) is again in the initial state. In FIG. 2C, the position of the selection area 22 before returning to the initial state is indicated by a two-dot chain line for reference. As shown in FIG. 2C, in this case, the selection area 22 corresponding to the triage section “III” is folded in the direction of the arrow 71 so as to be substantially parallel to the other areas of the triage tag 2. Thereby, the selection area cutting boundary 28X and the label part cutting boundary 28Y overlap.

  Here, the selection area 22 is provided with protrusions 26L and 26R. As a result, the area (length) in which the selection area cutting boundary 28X comes into contact with the marker cutting boundary 28Y when returned to the initial state is larger than in the case where the protrusions 26L and 26R are not provided. . Therefore, in this case, the selection area cutting boundary 28X along the protrusions 26L and 26R is caught by the marker cutting boundary 28Y, and the selection area 22 is preferably maintained in the initial state.

  Furthermore, in order to fix the selection area 22 more firmly in the initial state, the protrusions 26L and 26R may be bent so that the selection area 22 is locked to the other areas of the marker portion 21. This will be described with reference to FIGS. FIG. 3 shows a front view of the marking portion 21 of the triage section “III” after the protrusions 26L and 26R are bent from the state of FIG. 4 shows a side view of the triage tag 2 observed from the direction of the arrow 72 in FIG.

  As shown in FIGS. 3 and 4, the protrusion 26 </ b> L is folded from the fold 260 </ b> L to the front side of the triage tag 2. At this time, the protrusion 26L is folded so as to be opposed to and contact with the area 30L adjacent to the protrusion 26L on the surface of the triage tag 2. Accordingly, the protrusion 26L restricts the selection area 22 from rotating in the direction of the back surface of the triage tag 2, that is, the direction from the initial state to the selection state.

  On the other hand, the protrusion 26R is folded from the fold line 260R to the back side of the triage tag 2. At this time, the protruding portion 26R is folded so as to face and come into contact with the area 30R adjacent to the protruding portion 26R on the back surface of the triage tag 2. Accordingly, the protrusion 26 </ b> R restricts the selection area 22 from rotating in the direction of the surface of the triage tag 2.

  In this manner, the protrusions 26L and 26R are folded to the opposite sides so as to face and contact the areas of the label part 21 other than the selection area 22, so that the selection area 22 is formed on the front and back surfaces of the triage tag 2. Prevents turning in both directions. Thereby, the selection area 22 can be suitably maintained in the initial state.

[Application example]
Next, an example of a system using the triage tag 2 shown in FIG. 1 will be described.

(1) Overall Configuration FIG. 5 is a system configuration diagram of the emergency medical support system 10. As shown in FIG. 5, the emergency medical support system 10 includes electronic pens 1 a, 1 b, 1 c (1), a triage tag 2, portable terminals 3 a, 3 b, 3 c (3), and a server device 4.

  The electronic pen 1a and the portable terminal 3a are used in a field such as a disaster or an accident, the electronic pen 1b and the portable terminal 3b are used in a transport organization (such as an ambulance), and the electronic pen 1c and the portable terminal 3c are used in a medical institution. . Although only one electronic pen 1a to 1c is shown in FIG. 1, a plurality of electronic pens 1a to 1c are actually prepared.

  On the triage tag 2, a dot pattern (coded pattern) that can be read by the electronic pen 1 is printed. The electronic pen 1 transmits entry information corresponding to entry to the triage tag 2 to the portable terminal 3 by a wireless communication method such as Bluetooth (registered trademark). The electronic pens 1a, 1b, and 1c have different pen IDs (pen identification information).

  The portable terminal 3 transmits the entry information received from the electronic pen 1 to the server device 4 via a network such as a cellular phone communication network (for example, IP packet communication) or an Internet communication network. For example, the mobile terminal 3 is a smartphone. The server device 4 generates information corresponding to the entry information received from the mobile terminal 3. For example, the server device 4 is provided in a fire fighting related organization or a medical institution, or both.

  The electronic pen entry field 23 of the triage tag 2 is filled with the electronic pen 1 in the process of moving from the site to the medical institution along with the victim from the site through the transporting organization. The electronic pen entry field 23 includes a name entry field 23A for entering the name and sex of the victim with the electronic pen 1, a triage category selection field 23B for selecting the triage category with the electronic pen 1, and an electronic pen. 1 and a transmission box 23 </ b> C for transmitting the entry information generated by 1.

  The server device 4 receives the entry information corresponding to the entry by the electronic pen 1, and based on the pen ID included in the entry information, the entry information is generated by any of the electronic pens 1a to 1c. It is determined whether it is. And the server apparatus 4 produces | generates the information (it is also called "patient related information") regarding the victim who became the entry object of the triage tag 2 based on the information of the position coordinate contained in the determination result and entry information. .

(2) Dot Pattern Next, an Anoto dot pattern (coded pattern) printed on the triage tag 2 will be described with reference to FIGS. 6 and 7. FIG. 6 is a diagram for explaining the relationship between the dots of the dot pattern printed on the triage tag 2 and the values to which the dots are converted. As shown in FIG. 6, each dot of the dot pattern is associated with a predetermined value depending on its position. In other words, each dot is associated with a value of 0 to 3 depending on which direction the top, bottom, left, or right is shifted from the reference position of the grid (intersection of the vertical line and horizontal line). The value of each dot can be further converted into a first bit value for the X coordinate and a second bit value for the Y coordinate. The position coordinates on the triage tag 2 are determined by the combination of the information thus associated.

  FIG. 7A shows an arrangement of a certain dot pattern. As shown in Fig. 7 (a), 6x6 dots are arranged in a range of about 2mm in length and width so that no matter where 6x6 dots are taken from the triage tag 2, a unique pattern is formed. Has been. A dot pattern formed by these 36 dots holds position coordinates (for example, where the dot pattern is located on the triage tag 2). FIG. 7B is a diagram in which each dot shown in FIG. 7A is converted into a corresponding value based on the regularity shown in FIG. 6 according to the shift direction from the reference position of the lattice. This conversion is performed by the electronic pen 1 that captures an image of a dot pattern.

(3) Electronic Pen Next, the electronic pen 1 will be described with reference to FIG. FIG. 8 is a schematic view showing the structure of the electronic pen 1. As shown in FIG. 8, the electronic pen 1 includes an ink cartridge 104, an LED 105, a CMOS camera 106, a pressure sensor 107, a processor 108 including a CPU, a memory 109 such as a ROM and a RAM, A communication unit 111 including a real-time clock 110, an antenna, and the like, and a battery 112 are provided. The tip of the ink cartridge 104 is a pen tip portion 103, and the user makes the pen tip portion 103 of the electronic pen 1 abut on the triage tag 2 and enters a stroke (handwritten stroke) on the triage tag 2. Then, the pen tip portion 103 of the electronic pen 1 is brought into contact with the triage tag 2 and tapped (tap the triage tag 2 by the pen tip portion 103). The ink of the ink cartridge 104 does not include a material that absorbs infrared rays (for example, carbon). Here, contact of the pen tip portion 103 of the electronic pen 1 with the triage tag 2 is referred to as pen-down, and removal of the pen tip portion 103 from the contacted (contacted) state is referred to as pen-up. A trajectory written between the pen-down and pen-up of the electronic pen 1 is one stroke, and characters, figures, etc. are composed of one or a plurality of strokes. Since the ink of the ink cartridge 104 does not include a material that absorbs infrared rays, the reading of the dot pattern by the processor 103 is not hindered.

  The battery 112 is for supplying electric power to each component in the electronic pen 1. For example, the battery 112 is configured to turn on / off the electronic pen 1 itself by attaching and detaching a cap (not shown) of the electronic pen 1. May be. The real time clock 110 transmits time information indicating the current time (time stamp) and supplies the time information to the processor 108. The pressure sensor 107 detects the pressure applied through the ink cartridge 104 from the pen tip portion 103 when the user enters or taps a handwritten stroke on the triage tag 2 with the electronic pen 1, that is, the writing pressure. Is transmitted to the processor 108.

  The processor 108 switches on / off the switches of the LED 105 and the CMOS camera 106 based on the writing pressure data supplied from the pressure sensor 107. That is, when the user enters or taps a handwritten stroke on the triage tag 2 with the electronic pen 1, the pen pressure is applied to the pen tip 103, and when the pressure sensor 107 detects a writing pressure higher than a predetermined value. The processor 108 determines that the user has started to fill in and activates the LED 105 and the CMOS camera 106. Then, the communication unit 111 associates pen-down information PD detected by the pressure sensor 107 with a pen ID described later and stores it in the memory 109 as entry information. While the user is entering one stroke, as will be described later, the processor 108 sends the current time (time stamp: entered time information) transmitted from the real-time clock 110, writing pressure data, and X and Y coordinates. The data is associated and stored in the memory 109. When the user finishes entering one stroke and moves the electronic pen 1 away from the triage tag 2, the pressure sensor 107 detects pen-up because no writing pressure exceeding a predetermined value is detected. Then, the processor 108 associates the pen-up information detected by the pressure sensor 107 and the pen ID, and stores them in the memory 109 as entry information. Then, when the transmission box 23C of the triage tag 2 is tapped with the electronic pen 1, the processor 108 recognizes the transmission instruction from the dot pattern of the transmission box 23C, and enters the entry information stored in the memory 109 into the communication unit. 111 is transmitted to the portable terminal 3. The processor 108 deletes the entry information transmitted to the mobile terminal 3 in a timely manner.

  The LED 105 and the CMOS camera 106 are attached near the pen tip portion 103 of the electronic pen 1, and an opening 102 is formed in a portion of the housing 101 that faces the LED 105 and the CMOS camera 106. The LED 105 illuminates infrared rays toward the vicinity of the pen tip portion 103 on the triage tag 2. The region is slightly shifted from the position where the pen tip portion 103 contacts the triage tag 2. The CMOS camera 106 is provided with an infrared transmission filter that transmits infrared rays and blocks non-infrared rays, captures a dot pattern in the area illuminated by the LED 105, and supplies image data of the dot pattern to the processor 108. Here, since carbon absorbs infrared rays, the infrared rays irradiated by the LED 105 are absorbed by the carbon contained in the dots. Therefore, the dot portion has a small amount of infrared reflection, and the portion other than the dot has a large amount of infrared reflection. By photographing with the CMOS camera 106, a threshold value is provided based on the difference in the amount of reflected infrared light, so that a dot region containing carbon can be distinguished from other regions. Therefore, even when characters, frame lines, and the like are printed on the triage tag 2, the printed ink does not absorb in the infrared region, so the processor 108 can recognize the dot pattern. Note that the shooting area by the CMOS camera 106 is a range including a size of about 2 mm × about 2 mm as shown in FIG. 7A, and the shooting by the CMOS camera 106 is performed at regular intervals of about 50 to 100 times per second. Is called. Further, the CMOS camera 106 has a sufficient depth of field in order to photograph dots clearly.

  The processor 108 uses the dot pattern of the image data supplied by the CMOS camera 106 to perform X and Y coordinates (hereinafter simply referred to as “X” and “Y” coordinates) on the triage tag 2 of the stroke (handwriting) to be entered by the user. (Also referred to as “positional coordinates” or “coordinate information”). That is, the processor 108 converts the image data of the dot pattern as shown in FIG. 7A supplied by the CMOS camera 106 into the data array shown in FIG. The data is converted into a Y coordinate bit value, and X and Y coordinate data are calculated from the data array by a predetermined calculation method. Note that the processor 108 has a rotation correction processing function for correcting the arrangement of dots on the image due to the angle of the electronic pen 1 facing the dot pattern, and this function is exhibited during the coordinate calculation. Then, the processor 108 associates the current time (time stamp: entered time information) transmitted from the real-time clock 110, writing pressure data, and X and Y coordinate data. Hereinafter, these associated data are collectively referred to as “coordinate attribute information”. Further, when the calculated position coordinates indicate the dot pattern of the transmission box 23C of the triage tag 2, the processor 108 recognizes the transmission instruction and causes the communication unit 111 to transmit the entry information to the portable terminal 3. Since the 6 × 6 dot pattern in the triage tag 2 does not overlap in the triage tag 2, when the user enters characters or the like with the electronic pen 1, the entered position is any position in the triage tag 2. Can be specified by coordinate calculation by the processor 108.

  The memory 109 stores property information such as pen IDs “pen01” to “pen05”, a pen manufacturer number, and pen software version for identifying each electronic pen 1. Then, the communication unit 111 associates the pen ID, time information (time stamp), writing pressure data, and X and Y coordinate data, and transmits them as entry information to the server device 4 via the portable terminal 3. . Transmission to the portable terminal 3 by the communication unit 111 is performed instantaneously and sequentially by wireless transmission such as Bluetooth (registered trademark). Here, one or more pieces of coordinate attribute information generated and transmitted from the pen down to the pen up of the electronic pen 1 are stored as stroke information by the mobile terminal 3 and the server device 4. In other words, one stroke is composed of one or a plurality of X and Y coordinates (coordinate points), and the mobile terminal 3 and the server device 4 constitute one stroke by pen-down information and pen-up information. Alternatively, a plurality of coordinate attribute information is recognized.

(4) Server Device Next, the server device 4 will be described. The server device 4 includes hardware such as a processor such as a CPU and a memory such as a ROM and a RAM. FIG. 9 is a functional block diagram of the server device 4. The server device 4 functionally includes a processing unit 44, a storage unit 45, and a communication unit 47.

  The communication means 47 communicates with the mobile terminal 3 via a network such as a mobile phone network (for example, IP packet communication) or the Internet. The communication unit 47 receives the entry information generated by the electronic pen 1 from the portable terminal 3.

  The storage unit 45 is configured by a memory such as a ROM or a RAM, and stores various types of information generated by executing a program in accordance with instructions from the processing unit 44. The storage unit 45 stores coordinate definition information regarding the coordinate range of the dot pattern printed on the triage tag 2. The storage unit 45 stores the pen IDs of the electronic pens 1a, 1b, and 1c.

  Further, the storage means 45 stores the entry information received from the electronic pen 1 via the portable terminal 3 according to the processing instruction of the processing means 44 for each pen ID, and further secures a storage area according to the instruction of the processing means 44. Then, the coordinate attribute information included in the entry information from pen down to pen up is stored for each pen ID as stroke information.

  The processing unit 44 is configured by a processor such as a CPU and controls the entire server device 4. The processing unit 44 stores the entry information received by the communication unit 47 in the storage unit 45. Further, the processing means 44 recognizes the handwritten stroke entered in the electronic pen entry field 23 of the triage tag 2 by the electronic pen 1 and the entry field in which the handwritten stroke is entered, based on the entry information. Thereby, the processing means 44 recognizes the contents entered in the electronic pen entry field 23 by the electronic pen 1 and stores the recognized information in the storage means 45 as the victim related information.

[Effects of this embodiment]
The triage tag 2 according to the present embodiment has protrusions 26R and 26L in the selection area 22 of the labeling portion 21 corresponding to each triage section. When the selection area 22 is returned from the selected state to the initial state, after the selection area 22 is fitted into the mark hole, the protrusions 26R and 26L are brought into contact with the area of the labeling portion 21 other than the selection area 22. Fold to the opposite side. Thereby, it can prevent that the selection area 22 rotates in any direction of the surface of the triage tag 2, and a back surface. Therefore, even after the selection area 22 of any sign section 21 is set to the selected state, the selection area 22 in the selected state is suitable even when the triage classification to be selected is changed due to a change in the physical condition of the patient or the like. It is possible to mark the selection area 22 of the label unit 21 corresponding to another triage section in the selected state by returning to the initial state and fixing it.

  Further, in the emergency medical support system 10 using the triage tag 2, the server device 4 receives the entry information generated by the electronic pen 1, so that the wound and illness based on the contents entered in the electronic pen entry field 23 by the electronic pen 1. Person-related information can be generated and stored for each victim with the triage tag 2 attached.

[Modification]
Below, the modification of above-described embodiment is demonstrated. Note that the following modifications can be applied to the embodiment in any combination.

(Modification 1)
The aspect of the label part 21 shown in FIG. 1 and the like is an example, and the aspect of the label part 21 to which the present invention is applicable is not limited to this. Below, with reference to FIGS. 10-12, the other structural example (2nd structural example-4th structural example) of the label | marker part 21 is demonstrated in order.

  FIG. 10A is a front view of the label portion 21A of the triage section “III” according to the second configuration example. As shown in FIG. 10A, the selection area 22A according to the second configuration example is divided by V-shaped cuts 29 that are cut at predetermined intervals. When the selection area 22A is pressed with a finger and a stress of a predetermined pressure or more is applied to the selection area 22A, the selection area 22A moves along the incision 29 and the other areas of the labeling part 21A adjacent to the selection area 22A. Disconnected from the area.

  FIG. 10B is a front view of the sign portion 21A in which the selection area 22A is selected. As shown in FIG. 10 (B), as a result of the selection area 22A being pressed with a finger, the selection area 22A is separated from the area of the sign portion 21A adjacent to the selection area 22A along the notch 29. Is bent with the fold line 27 as a fold. In this case, the selection area cutting boundary 28Xa and the marker section cutting boundary 28Ya have a sawtooth shape that meshes with each other according to the shape of the cut 29, as shown in FIG.

  FIG. 10C is a front view of the sign portion 21A when the selection area 22A in the selection state shown in FIG. 10B is returned to the initial state again. As shown in FIG. 10C, in this case, the saw-tooth shape of the selection area cutting boundary 28Xa and the saw-tooth shape of the marker part cutting boundary 28Ya mesh with each other without a gap. As a result, the selection area cutting boundary 28Xa is hooked to the sign section cutting boundary 28Ya, and the selection area 22A is fixed so as to be substantially flush with the other areas of the sign section 21A. As described above, also in the second configuration example, the user can suitably return the selection area 22A of the labeling unit 21A once selected to the initial state again. In the second configuration example, the selection area cutting boundary 28Xa is an example of the “fixed portion” in the present invention.

  FIG. 11A is a front view of the label portion 21B of the triage section “III” according to the third configuration example. FIG. 11B is a front view of the sign portion 21B in which the selection area 22B is selected. As shown in FIG. 11A, a protrusion 26B is formed in the selection area 22B according to the third configuration example. Then, as shown in FIG. 11B, when the selection area 22B is pressed with a finger, the boundary portion of the selection area 22B other than the mountain fold line 27 is separated from the other areas of the sign portion 21B, and the selection area 22B Is folded using the mountain fold line 27 as a fold.

  FIG. 11C is a front view of the sign portion 21B when the selection area 22B in the selection state shown in FIG. 11B is returned to the initial state again. When the selection area 22B in the selected state is returned from the selected state to the initial state, first, the selection area 22B is fitted into the mark hole formed in the mark portion 21B, and the mark portion cutting boundary 28Yb and the selection area cutting boundary 28Xb Will be in contact. Thereafter, as shown in FIG. 11C, the protrusion 26 </ b> B is folded from the fold 260 </ b> B to the front side of the triage tag 2. At this time, the protrusion 26B is folded so as to face and contact the area 30B close to the protrusion 26B. Accordingly, the protrusion 26B restricts the selection area 22B from rotating in the direction of the back surface of the triage tag 2, that is, the direction to return to the selection state. Therefore, the selection area 22B is suitably fixed in the initial state shown in FIG. Therefore, also by the third configuration example, the user can return the selection area 22B of the labeling unit 21B once selected to the initial state and fix it again.

  FIG. 12A is a front view of the label portion 21C of the triage section “III” according to the fourth configuration example. FIG. 12B is a front view of the sign portion 21C in which the selection area 22C has been selected. As shown in FIG. 12A, in the selection area 22C according to the third configuration example, a protruding portion 26C having a constricted shape is formed. When the selection area 22C is pressed with a finger, as shown in FIG. 12B, the boundary portion other than the mountain fold line 27 of the selection area 22C is separated from the other areas of the sign portion 21C, and the selection area 22C However, it is folded using the mountain fold line 27 as a fold.

  FIG. 12C is a front view of the sign portion 21C when the selection area 22C in the selection state shown in FIG. 12B is returned to the initial state again. When the selection area 22C in the selected state is returned to the initial state again, the selection area 22C including the protrusion 26C is fitted into the mark hole formed in the mark portion 21C, and the mark portion cutting boundary 28Yc and the selection area cutting boundary 28Xc are inserted. Are in contact with each other. In this case, since the protruding portion 26C is fitted by a part of the marker portion cutting boundary 28Yc, the selection area 22C is suitably held in the initial state. From the state of FIG. 12 (C), the user faces the front side of the triage tag 2 so that the protruding portion 26C comes into contact with the area of the marker portion 21C other than the selected area 22C in the same manner as in the third configuration example. It may be folded. Also by this, the selection area 22C is preferably fixed in the initial state.

(Modification 2)
In the above description, the Anoto method is used for the electronic pen, the dot pattern (coded pattern), and the entry information, but the use of the Anoto method is not limited.

DESCRIPTION OF SYMBOLS 1 (1a, 1b, 1c) ... Electronic pen 2 ... Triage tag 3 (3a, 3b, 3c) ... Portable terminal 4 ... Server apparatus 10 ... Emergency medical assistance system

Claims (5)

A triage tag having a marking portion provided for each triage section,
The sign section has a selection area that is rotatable around a fold line,
A hole is formed in the marker portion in a state where the selection area is folded along the crease,
The selection area is folded in a state not a can be fitted into the hole the selection area may have a fixing portion for fixing said selection area in a state fitted into the hole,
The triage tag , wherein the fixing part is a protruding part extending from the selection area . 2. The triage tag according to claim 1 , wherein the protrusion is foldable so as to face and contact an area of the marker other than the selection area. The triage tag according to claim 2 , wherein a plurality of the protrusions are provided in the selection area. The protrusions triage tag according to any one of claims 1 to 3, characterized in that it has a constricted shape. A triage tag having a marking portion provided for each triage section,
The sign section has a selection area that is rotatable around a fold line,
A hole is formed in the marker portion in a state where the selection area is folded along the crease,
The selection area can be fitted into the hole in an unfolded state.
The selection area has a fixing portion for fixing the selection area in a state fitted in the hole,
In the selection area, when a boundary is formed by a V-shaped notch carved in the marking portion at predetermined intervals, and a stress greater than a predetermined pressure is applied, the boundary is separated along the notch. Triage tag, characterized by