KR101668831B1 - The apparatus of smart safety empirical education - Google Patents
The apparatus of smart safety empirical education Download PDFInfo
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- KR101668831B1 KR101668831B1 KR1020150132851A KR20150132851A KR101668831B1 KR 101668831 B1 KR101668831 B1 KR 101668831B1 KR 1020150132851 A KR1020150132851 A KR 1020150132851A KR 20150132851 A KR20150132851 A KR 20150132851A KR 101668831 B1 KR101668831 B1 KR 101668831B1
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- safety experience
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B19/00—Teaching not covered by other main groups of this subclass
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09B—EDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
- G09B5/00—Electrically-operated educational appliances
- G09B5/06—Electrically-operated educational appliances with both visual and audible presentation of the material to be studied
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- Physics & Mathematics (AREA)
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Abstract
In the present invention, in the case of the existing indoor safety experience study field, since a large number of personnel must directly move to a specific place, the cost of experiential learning is increased, the volume and the size are large and various safety accident experiences can not be learned, In the case of the safety experience system, the main body 100, the smart visual object model module 200, and the smart visual object model module 200 are installed in order to solve the problem that the learning rate is significantly lower than the field experiences that can be actually viewed, A background image display unit 300, a key input unit 400, and a smart safety experience control unit 500. The portable image display unit 100 has a portable box structure and is excellent in portability and mobility. The visual object model for safety experience is detachably coupled with the slide type, so that a single device can be used for a fire fighting accident, a life safety accident, It is possible to provide a safety experience space for a ship accident, and thus it is possible to provide an excellent formability, applicable to education for each age, a visual object model for safety experience, visual effects on smoke, flame, electric spark, , And a hybrid method that adds an accident image backdrop effect. It can improve the safety experience effect by 80% compared to the conventional one. It can process the hazard (fire) image, The object of the present invention is to provide a hybrid type smart safety experience device composed of a visual object model and a multi effect, which can improve safety, children's readability and cognition by 90% compared with the existing ones.
Description
In the present invention, it is possible to provide a safety experience space for a fire fighting accident, a life safety accident, and a ship accident with a single device, and a visual object model for safety experience, a visual effect on smoke, And a hybrid type smart safety experience device composed of a visual object model and a multi effect that can be produced through a hybrid method that adds a background image effect of an accident image.
In recent years, safety accidents have frequently occurred during out-of-school education activities such as Sea World Fire, Maunae Resort collapse, youth training camp, marine experience camp,
In order to prevent safety accidents in schools, in order to eliminate safety blind spots in schools, the principal of the school is responsible for the prevention of school safety accidents, (Hereinafter referred to as "safety education") to school personnel to prevent school safety accidents.
As part of such safety education, "indoor safety experience study center" is being implemented. However, since many people have to go directly to a specific place, the cost of experiential learning is increased and the volume and size are so large that various safety accident experiences can not be learned .
In addition, in the case of the existing virtual reality safety experience system, since the experience learning is performed only through the virtual reality, there is a problem that the learning rate is significantly lower than the field experience which can be actually viewed, heard and felt.
In order to solve the above-mentioned problems, the present invention has excellent portability and mobility, can slideably attach and detach a visual object model for safety experience according to a firefighting accident, a life safety accident, and a ship accident, It is possible to provide a safety experience space for fire accidents, life safety accidents, and ship accidents. In addition to the visual object model for safety experience, visual effects on smoke, flame, electric spark, auditory effect, And a hybrid type smart safety experience device composed of a multi-effect visual object model that can be produced through a hybrid method.
In order to achieve the above object, a hybrid type smart safety experience apparatus comprising a visual object model and a multi effect according to the present invention
A
A visual object model for safety experience, a visual object model for safety experience, a visual effect on smoke, flame, and electric spark in addition to a visual object model for safety experience in the front direction of the main body, A smart visual
And is driven in accordance with the control signal of the smart safety experience control unit so as to select any one of fire fighting fire accident image, life safety accident image and ship accident image as a background background image of the smart visual object model module, A background
A
Smart visual object model module, background image display part, and key input part are connected to control the overall operation of each device. In addition to visual object model for safety experience, there are visual effects on smoke, flame, electric spark, , And a smart safety experience control unit (500) for controlling the smart safety experience control unit (500) to control the smart safety experience control unit (500) by using a hybrid method that adds an accident image background effect.
As described above, in the present invention,
First, it has a portable box structure, which is excellent in portability and mobility.
Second, it is possible to provide a space for safety experience related to fire fighting fire, life safety accident, and ship accident with one device. Therefore, it is excellent in formability and can be applied to education for each age.
Thirdly, it is possible to produce a visual object model for safety experience through a hybrid method that adds smoke, flame, visual effect on electric spark, auditory effect, and accident image background effect, Can be improved by 80%.
Fourth, there is a good effect of improving safety, children's readability, and cognitive ability by 90%, because it can image dangerous elements (fire), and can eliminate the risk of breakage and fire caused by electric spark.
1 is a block diagram showing components of a hybrid type smart
FIG. 2 is a perspective view showing external components of the hybrid type smart safety experience apparatus according to the present invention, and FIG.
3 is a perspective view showing the internal components of the hybrid type smart safety experience apparatus according to the present invention,
FIG. 4 is a block diagram illustrating components of a smart visual object model module according to the present invention.
FIG. 5 is a perspective view showing that the slide-type cell model body according to the present invention is formed in a cell unit of a square-shaped structure and is slidably coupled and coupled to an inner space of the main body;
FIG. 6 is a block diagram illustrating components of a multi-vision sensing module according to the present invention.
FIG. 7 is a block diagram showing components of the smoke visual sensing unit according to the present invention,
FIG. 8 is a block diagram showing the components of the flame vision sensing unit according to the present invention,
9 is a block diagram illustrating components of a background image display unit according to the present invention,
FIG. 10 is a block diagram showing the components of the smart safety experience control unit according to the present invention,
FIG. 11 is a diagram illustrating a case in which a specific image is output as a multi-vision screen in which a specific image is divided into 3: 3 in the case of a multi-vision designated as a 3: 3 screen division mode among the N division mode through the screen division program engine unit according to the present invention In the illustrated embodiment,
12 is a flowchart illustrating a method of selecting a multi-vision screen-divided into N division mode inputs in the
FIG. 13 is a diagram illustrating a mini-screen background image display unit according to an embodiment of the present invention. FIG. 13 is a diagram illustrating a mini-screen background image display unit according to an embodiment of the present invention. A safety accident image, and a ship accident image are selected and displayed in a customized manner,
FIG. 14 is a diagram illustrating a backlight image of a background image displayed from a background image display unit in a backward direction through a reverse-facing mirror unit according to an embodiment of the present invention, In the embodiment shown in Fig.
FIG. 15 is a block diagram of a smart visual experience control unit according to the present invention, which is connected to a smart visual object model module, a background image display unit, and a key input unit, A circuit diagram showing control to display through a hybrid method that adds a visual effect on an electric spark, an auditory effect, and an accident image background effect,
16 is a side view of a hybrid type smart safety experience device including a visual object model and a multi effect according to an embodiment of the present invention. The slide type
FIG. 17 is a block diagram of a
FIG. 18 is a schematic view showing the structure of a
FIG. 19 shows an embodiment in which the smoke
FIG. 20 is a diagram illustrating a method of generating a flame on a background
FIG. 21 is a view showing an embodiment in which a flame is generated visually by generating a flame due to an electric short of the background
22 is a diagram showing an image in which an electric spark is generated when the household appliance touches the water on the background
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing components of a hybrid type smart
First, the
The
For example, it has a size of 930 mm (W) * 523 mm (H) * 250 mm (D), the weight is 20 kg to 70 kg, and the ABS plywood material and the rim are made of aluminum alloy.
As shown in FIG. 2, the main body according to the present invention has one or two hinge-type hinged door openings on one side of the front, a movable case handle formed on one side of the upper edge, a movable case- The four wheels capable of being moved on one side of the bottom edge are formed, a latch capable of fixing the wheels is formed, an internal shock buffer material is formed on one side of the wheel, a logo of the time and fire disaster headquarters is formed on one side of the front side, The double hinged device is formed on one side of the hinged hinged door.
In the main body according to the present invention, a smart visual object module is formed in the direction of the inside of the front hinged door, a background image display unit is formed on one side of the rear side, a key input unit is formed on one side of the side, An experience control unit is formed and configured.
As shown in the figure, the main body according to the present invention includes a safety gate on the front side of the front door and a front side of the smart visual object module when the front side door is opened and closed. A note on life safety accidents made by careful attention, traffic light crossing safety warning, coping with strangers, bathroom electric shock, kitchen burning, fire evacuation. ).
As shown in FIG. 17, the
The above-mentioned life safety accident
Next, the smart visual
The smart visual
As shown in FIG. 4, the slide type cell model
First, the slide-type cell model
The slide-type
As shown in FIGS. 3 and 5, a slide bar protrudes from one side of the side surface, and is coupled to the slide groove of the main body by a sliding manner.
The slide-type cell model main body according to the present invention is formed to be customized to 1: 1 according to a firefight accident safety experience mode, a life safety accident safety experience mode, and a ship accident safety experience mode.
That is, in the case of fire fighting accident safety experience mode, in case of study room, bathroom, kitchen, living room, stairs, the slide type cell model body includes a study room slide type cell model body, a bathroom slide type cell model body, A slide type cell model body, and a step slide type cell model body.
The slide-type
As shown in FIG. 14, the reverse-facing
Thus, by displaying the backgroun background image on the floor surface through the reverse mirror type mirror part, the user can visually confirm the special effect that the smoke, flame and electric spark occur on the floor surface, Can be improved by 80%.
The reason why the background background image light is formed with a reverse oblique angle of 15 ° to 60 ° is that when the angle is less than 15 °, the background image received by the background image display unit in the backward direction is displayed in the front direction instead of the bottom surface, Since special effects of smoke, flame, and electric spark appearing on the surface are lowered, the background background image received from the background image display unit in the backward direction is displayed in the rear direction rather than the floor surface, It is most preferable to form the background background image light with a reverse angle of 15 ° to 60 ° because there is a problem that special effects of smoke, flame, and electric spark are reduced.
Second, the visual object model for
The safety
It can be customized to 1: 1 depending on the fire fighting accident safety experience mode, the life safety accident safety experience mode, and the ship accident safety experience mode.
That is, in case of fire fighting accident safety experience mode, study room slide type cell model body, bathroom slide type cell model body, kitchen slide type cell model body, living room slide type cell model body, step slide type cell. Visual object models are formed differently.
The study room slide cell model body is formed of a visual object model for safety experience, which is made up of a desk, a chair, a bed, a chest, and a doll.
The bathroom slide type cell model body is formed of a visual object model for a safety experience, which is made up of a toilet seat, a sink, a bathroom cabinet, a bathtub, a washing machine, a slip resistant slipper for a bathroom, and a doll.
The main body of the kitchen slide type cell model is formed of a visual object model for safety experience comprising a kitchen sink, a kitchen shelf, a dining table, a chair, a gas stove, a pot, a microwave oven and a doll.
The living room slide type cell model body is formed of a visual object model for a safety experience comprising a TV, a TV stand, a sofa, an electric stopper, and an iron set.
The step slide cell model body is formed of a visual object model for safety experience, which is made up of a volatile oil container and a trash box.
Third, the
The
As shown in FIG. 6, the smoke
The smoke
As shown in Fig. 7, this is composed of a
The
The
The smoke visual sensing unit according to the present invention may be a smoke visual sensing unit in the fire fighting accident safety experience mode, a study room slide type cell model body, a bathroom slide type cell model body, a kitchen slide type cell model body, a living room slide type cell model body, And is formed on one side of the visual object model for safety experience formed in the main body.
FIG. 19 is a view showing an embodiment in which the smoke
The flame
As shown in Fig. 8, this is constituted by a
The flame-forming
The
The
20 and 21, in addition to the
The electric spark
It consists of an LED chip for electric spark generation.
In addition to the LED chip for generating an electric spark, the electric spark
Fourth, the
The
This creates flame sound effects, explosive sound effects, and fire sound effects.
Next, the background
The background
As shown in FIG. 9, this includes a mini screen background
As shown in FIG. 13, the mini-screen background
Here, the mini screen is made up of any one of 15 x 15, 20 x 20, 25 x 25, and 30 x 30 sizes.
This is generated in a 1: 1 mini screen under the control of the screen division
The large-sized screen background
Here, the large screen is selected by selecting one of the background sizes of the smart visual
Which is generated under the control of the screen division
The background
The flexible display refers to a display that is gently bent and freely bendable.
Here, the reason why the display can be bent without breaking or breaking is that it uses a plastic type substrate that can be freely rotated instead of a commonly used rigid display glass substrate.
More specifically, it is composed of an OLED flexible display.
If a current is supplied to the OLED, which is a component of the OLED flexible display, the OLED has a self-emitting property, and a backlight for supplying light is not required.
This makes it possible to realize a thinner and lighter flexible display than conventional TFT-LCDs.
Next, the
The
It is an Android type remote controller, physically equipped with more than 28 operation buttons, and at least 24 actual operation buttons are configured to operate normally.
The key input unit includes a power control button.
Also, the hotspot module is configured to be used independently and connected even in the absence of a WiFi wireless communication module (WiFi).
In addition, in the WiFi wireless communication module (WiFi) environment, it is possible to use the remote control function through setting change.
Next, the smart safety
The smart safety
It consists of an ATmega128 microprocessor.
15, the power supply control unit is connected to the output terminal PB7 to control the power supplied to each device, and the sound generation module is connected to the input / output terminals PD2 to PD5, And a key input unit is connected to the input / output terminals PB0, PB2, PE2, PE3, PE4, PE5, PE6, and PE7 to drive the smart visual object model module and the power source Off operation is selected and controlled by the remote controller, and a background image display unit is connected to the output terminals PC0 to PC7. As a background background image of the smart visual object model module, any one of the fire fire accident image, the life safety accident image, And a smoke visual sensing part is connected to the output terminal PA0 so as to generate smoke on the visual object model for safety experience And a flame vision sensing part is connected to another output terminal PA1 so as to generate a flame on the visual object model for safety experience and an electric spark vision sensing part is connected to another output terminal PA2, The model is controlled to generate an electric spark.
10, the smart safety
The
It consists of a fuse section, an AC / DC converter section, and a constant-voltage regulator section.
The background image
This includes the screen division
The screen division
Here, the specific image refers to an image selected from any one of fire fighting fire accident image, life safety accident image, and ship accident image.
This is configured to select a multivision area located in the back background of the slide-type cell model main body, select a video input, and click a button in the sequencer area to output the multivision image when the corresponding area images are switched in a predetermined order.
At this time, to stop the video in the multi-vision area, click the stop button 521-1 to the left of the sequencer area of the video input selection part to stop the video.
If the multivision is selected through the multivision mode, the selected multivision is configured such that the periphery thereof is displayed in a red frame and the corresponding video input is output in a selected state.
Then, the image to be displayed on the multivision selected in the RGB input selection mode is configured to be selected from the N division mode images.
The N division mode is selected from among a large screen division mode, a 3: 3 screen division mode, a 4: 4 screen division mode, a 6: 6 screen division mode, a 9: 9 screen division mode, and a 16:16 screen division mode .
A method for expressing a specific image selected from any one of fire fighting fire accident images, life safety accident images, and ship accident images on the multi-vision of the back surface background of the slide-type cell model body through the N partition mode is as shown in FIG. 12 Similarly, the multivision screen-divided into the N division mode input is selected from the
If a specific image to be displayed in the corresponding multivision area is selected in the video
In order to change the division state of the multi-vision through the screen division program engine unit according to the present invention, in the case of the multi-vision designated as the large screen division mode among the N division mode, the specific image is output to the multi-vision full screen.
As shown in FIG. 11, in the case of the multi-vision designated by the 3: 3 screen division mode among the N division mode through the screen division program engine unit according to the present invention, the multi-vision screen in which a specific image is divided into 3: .
In this case, the multi-vision screen divided into 3: 3 refers to a 3: 3 mini screen corresponding to the background background size of the slide-type cell model body.
That is, as shown in FIG. 13, after dividing the 6: 6 mini screen according to the background background size of the slide-type cell model body through the screen division
In the fire fighting accident
The above-mentioned life safety accident safety experience mode (540) includes a visual object model for safety experience, a visual effect on smoke, flame, electric spark, auditory effect, , And to control the life safety accident that occurs in the school to be directed.
The ship accident safety experience mode (550) includes a visual object model for a safety experience, a visual effect object for smoke experience, a flame, an electric spark, a visual effect, an auditory effect, And to control the ship safety accident to be directed.
Hereinafter, a specific operation process of the hybrid type smart safety experience apparatus including the visual object model and the multi effect according to the present invention will be described.
[Firefight accident safety experience mode (530)]
In the present invention, a slide type cell model body composed of a study room, a bathroom, a column, a living room, and a staircase and a visual object model for human experience are provided for a fire safety accident experience at home.
First, as shown in FIG. 14, a slide-type
Next, visual object model for safety experience for firefighting accident safety experience is formed on the upper surface of slide body.
Next, the smart visual object model module and the power on operation are selectively controlled by the remote controller through the key input unit.
Next, power is supplied to each device under the control of the smart safety experience control unit.
Next, the visual object model for safety experience is displayed in the front direction of the main body through the smart visual object model module, and the visual object model for safety experience is displayed by adding the visual effect and auditory effect related to smoke, flame, and electric spark .
Next, the background image display unit displays the fire fire accident image as a background background image of the smart visual object model module and displays it in a customized manner.
Finally, the smart safety experience control unit checks the overall driving state of each device, and then checks whether there is an input signal inputted through the key input unit.
[Life safety accident safety experience mode (540)]
In the present invention, a sliding-type cell model main body including a traffic signal, a traffic signal, and the like and a visual object model for human experience are provided for a life safety accident safety experience in a traffic signal.
First, a slide-type
Next, a visual object model for safety experience for a safety-related accident safety experience is formed on the upper surface of the slide-type cell model body.
Next, the smart visual object model module and the power on operation are selectively controlled by the remote controller through the key input unit.
Next, power is supplied to each device under the control of the smart safety experience control unit.
Next, the visual object model for the safety experience is displayed in the front direction of the main body through the smart visual object model module, and the visual effect model for the safety experience is displayed in addition to the visual effect and the auditory effect about the traffic accident.
Next, the background image display unit displays a life safety accident image as a background background image of the smart visual object model module and displays it in a customized manner.
Finally, the smart safety experience control unit checks the overall driving state of each device, and then checks whether there is an input signal inputted through the key input unit.
[Ship accident safety experience mode (550)]
In the present invention, a slide type cellular model body composed of a passenger ship and a general ship and a visual object model for a human body experience are provided for a ship accident safety experience.
First, a slide-type
Next, a visual object model for a safety experience for a ship accident safety experience is formed on the upper surface of the slide cell model body.
Next, the smart visual object model module and the power on operation are selectively controlled by the remote controller through the key input unit.
Next, power is supplied to each device under the control of the smart safety experience control unit.
Next, the visual object model for safety experience is displayed in the frontal direction of the main body through the smart visual object model module, and the visual effect model for the safety experience and the visual effect and the auditory effect about the ship accident are displayed.
Next, the background image display unit displays the ship accident image as a background background image of the smart visual object model module and displays it customized.
Finally, the smart safety experience control unit checks the overall driving state of each device, and then checks whether there is an input signal inputted through the key input unit.
1: Hybrid type smart safety experience device 100: Main body
220: Smart visual object model module 300: Background image display section
400: key input unit 500: smart safety experience control unit
Claims (7)
A visual object model for safety experience, a visual object model for safety experience, a visual effect on smoke, flame, and electric spark in addition to a visual object model for safety experience in the front direction of the main body, A smart visual object model module 200 for displaying the visual visual object model 200 with auditory effects,
And is driven in accordance with the control signal of the smart safety experience control unit so as to select any one of fire fighting fire accident image, life safety accident image and ship accident image as a background background image of the smart visual object model module, A background image display unit 300 for displaying the background image,
A key input unit 400 located at one side of the main body and selectively controlling driving and power on / off operations of the smart visual object model module by a remote controller,
Smart visual object model module, background image display part, and key input part are connected to control the overall operation of each device. In addition to visual object model for safety experience, there are visual effects on smoke, flame, electric spark, , And a smart safety experience control unit (500) for controlling to display one of the fire accident, fire safety accident, accident accident image of a ship accident, and background screen effect to be displayed through a redundant hybrid system,
The smart visual object model module 200
A slide-type cell model main body 210 which is formed by a unit cell of a square frame and is detachably attached to the inner space of the main body so as to be slidably coupled and protects and supports the visual object model for safety experience,
A plurality of visual object models 220 for a safety experience to display a first visual effect on a safety experience through an object model,
A smoke, flame, and electric spark time generation module 230 for generating a secondary visual effect on smoke, flame, and electric spark in addition to the visual object model for safety experience,
And a sound generation module 240 positioned at one side of the slide type cell model body and generating a sound effect related to a safety experience by a user with a speaker, and a visual object model including a visual effect, an auditory effect, In a hybrid type smart safety experience apparatus comprising a multi effect,
The slide-type cell model main body 210
A backscattered mirror unit for receiving the background background image light emitted from the backward unidirectional background image display unit at an angle of 15 ° to 60 ° and reflecting it to the bottom surface direction to display a background background image on the bottom surface 211), and a hybrid type smart safety experience device comprising a multi-effect of a visual object model and a visual effect, an auditory effect, and an accident image background effect.
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Cited By (1)
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CN109637239A (en) * | 2019-03-01 | 2019-04-16 | 中国矿业大学 | The visual fire test model of modularization |
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JP2757994B2 (en) * | 1988-03-23 | 1998-05-25 | カヤバ工業株式会社 | Disaster drill |
JP2002169458A (en) * | 2000-12-01 | 2002-06-14 | Mitsubishi Heavy Ind Ltd | Disaster prevention training device |
KR100923076B1 (en) * | 2008-05-16 | 2009-10-22 | (주) 전시나라 | A simulation system for shifting type practical exercise of putting out a fire |
KR101212797B1 (en) | 2010-09-02 | 2013-01-09 | 주식회사 영승이엔지 | fire-fighting system for training |
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