KR101272834B1 - Ecosystem Virtual Rebirth Apparatus - Google Patents

Abstract

An ecosystem virtual resurrection system is disclosed, which can be used to obtain interesting information about plants and how to recover ecosystems through games or questions and answers. Ecological virtual revival system according to the present invention is to monitor at least one or more so as to perform information retrieval or question-and-answer function, plant model having a plurality of stretchable pillars, and if the correct answer of the monitor to check whether the correct column In the ecosystem virtual resurrection system including a control unit for elevating and lowering the column if the wrong answer, the uppermost column of the column is coupled to extend the stem in an oblique direction of one side, the upper end of the stem by the control of the control unit The stem is made of tubular with elasticity, and the lower pillar of the uppermost pillar is formed with a guide to receive the stem when the uppermost pillar is inserted, and a permanent magnet is attached to the inner side of the upper stem. On the side of the abutting pillar is an electromagnet that is powered or cut off by the controller. Is installed. At this time, the stem is made of a tube shape having elasticity, the flower portion is rotated by hinged to the end of the stem a plurality of petals, the linkage is coupled to the inner side of the petal is coupled to the operating plate, the central portion of the operating plate of the stem The control line is penetrated to the inside and extends into the uppermost column, the cam wheel is coupled to the bottom of the control line, and the cam wheel may be coupled to the reduction motor which is rotated under the control of the controller.

Description

Ecosystem Virtual Rebirth Apparatus with Enhancing Directing Effect

The present invention relates to an ecosystem virtual resurrection system, and more particularly, to a model exhibit for flowering flowers through the ecosystem virtual resurrection system.

Ecosystems are being destroyed by humans, and voices of conservation are rising throughout the world to prevent them from being destroyed.

In particular, plants generate oxygen necessary for humans and purify carbon dioxide emitted by humans, so it is time for education to know the plant ecosystems and better preserve them.

Therefore, the present invention includes various plant models, and the basic knowledge and preservation methods for these plant models are matched through the game to obtain a high score, which implies that the dying ecosystem is revived as the plant model grows. It is to provide an ecosystem virtual resurrection system.

The present invention to solve the above problems,

A monitor equipped with at least one to enable information retrieval or question-and-answer function, a plant model having a plurality of stretchable pillars, and a check for correctness of the monitor. In the ecosystem virtual resurrection system comprising a control unit,

The uppermost pillar of the pillar portion is coupled so that the stem extends in an oblique direction on either side, and the upper end of the stem allows the flower to bloom under the control of the controller,

The stem is manufactured in the form of a tube with elasticity, and the lower pillar of the uppermost pillar has a guide formed to receive the stem when the uppermost pillar is inserted, and a permanent magnet is attached to the inside of the upper end of the stem, and the side of the pillar in contact with the permanent magnet It provides an ecosystem virtual resurrection system, characterized in that the electromagnet is installed or powered by the control unit is installed.

At this time, the stem is made of a tube shape having elasticity, the flower portion is rotated by hinged to the end of the stem a plurality of petals, the linkage is coupled to the inner side of the petal is coupled to the operating plate, the central portion of the operating plate of the stem The control line is penetrated to the inside and extends into the uppermost column, the cam wheel is coupled to the bottom of the control line, and the cam wheel may be coupled to the reduction motor which is rotated under the control of the controller.

As described above, the ecosystem virtual resurrection system according to the present invention can have a directing effect that flowers grow while the small plant models grow and grow through the game to learn interesting knowledge and preservation methods of plants.

1 is a flow chart showing the structure of the ecosystem virtual revival system according to the present invention,
2 is a schematic diagram showing an ecosystem virtual revival system according to the present invention,
3 is a view showing the expansion and contraction of the pillar portion shown in FIG.
4 is a view showing the operation of the stem shown in FIG.
5 is a view showing the flowering principle of the flower portion shown in FIG.
6 is a view showing a floor projection, and
7 is a view showing another embodiment of the middle plate shown in FIG.

Hereinafter, with reference to the accompanying drawings will be described ecosystem virtual revival system according to a preferred embodiment of the present invention.

1 and 2, the ecosystem virtual resurrection system 100 according to the present invention includes a monitor 110, a plant model 120, a floor rendering unit 150, a ceiling rendering unit 190, and a controller ( 200).

The monitor 110 is provided with at least one, the monitor 110 is interlocked with the control unit 200 to perform the information search and question and answer functions. That is, the monitor 110 is provided with a touch screen or an input device, and the monitor 110 selects a desired type of plant model or displays information of the plant model. According to the control, the plant model is controlled to gradually increase or decrease gradually. Here, if two or more monitors 110 are provided, a user of each monitor 110 can compete with who first grows the plant model 120.

Plant model 120 has a plurality of coarse pillars 122 protruding on the upper surface of the housing 121 is elastically coupled, at least one stem in any one direction to the uppermost column of the pillars 122 ( 125 is further formed, and the flower part 130 is formed at the end of the stem 125.

The pillar portion 122 is multistage as shown in FIG. 3, and as it extends upward, the diameter thereof becomes smaller and smaller, so that the pillar portion 122 is continuously stretched, and the pillar portion 122 is stretched and contracted in the housing 121. An actuator 123 that is pneumatically or hydraulically operated is built in. At this time, the actuator 123 may be a two-stage or three-stage cylinder is used.

Stem 125 is attached to and dropped by the control of the control unit 200 on the side of the top pillar (122a), as shown in Figure 4, it is made of a material having a flexible bending outwards, the stem 125 Inside the control line for controlling the flower part 130 is built. Preferably, the stem 125 is made of a tube material, and has a structure that is folded inward by the guide 126 formed on the lower pillar 122b when the uppermost pillar 122a is inserted into the pillar 122b of the lower pillar. .

At this time, the permanent magnet 127 and the electromagnet 128, which are attracted to each other, are attached to the inner side of the upper end of the stem 125 and the uppermost pillar 122a to which the stem 125 abuts and are attached and dropped by control. do. That is, when the uppermost pillar 122a enters the lower pillar 122b, the stem 125 is inserted into the guide 126 of the lower pillar 122b, and the electromagnet 128 is operated while being folded. ), The column 122 is raised to the desired height, the power supply of the electromagnet 128 is stopped and the stem 125 is dropped. Then, the proximity sensor 140 is mounted on the upper end of each pillar portion 122 or on the lower surface of the ceiling coaxial with the pillar portion 122 to set the limit of the height at which the pillar portion 122 is elevated.

In addition, the flower portion 130 has a structure in which the lower end of at least two petals, as shown in FIG. Link stage 131 is coupled to the link stage 131 is coupled to the operating plate 132 disposed in a direction perpendicular to the axial center of the stem 125, the control portion in the central portion of the operating plate 132 The top of the row 135 is joined.

The control line 135 is a wire made of steel, penetrating through the stem 125 to the inside of the uppermost pillar 122a, and the camwheel connected to the lower end of the control string 135 inside the uppermost pillar 122a. 136 and a reduction motor 137 for gradually rotating the cam wheel 136 are provided. Therefore, when the reduction motor 137 is operated to rotate the cam wheel 136, the cam wheel 136 is raised and lowered by the control line 135 once per half rotation, the petals are retracted and unfolded.

Therefore, the actuator 123 is raised or lowered according to the correct answer of the game transmitted from each monitor 110, when the column 122 is raised to a certain height is detected by the proximity sensor 140 of the electromagnet 128 As the power supply is stopped, the stem 125 is separated from the pillar to be opened. Then, the reduction motor 137 is operated to flower the 130.

As the flower part 130 blooms as described above, lighting and video production to commemorate the commencement, or on the contrary, when the plant model 120 does not grow due to many incorrect answers, the dark lighting and video output indicating the danger of the ecosystem is generated. Is initiated.

This directing method is produced through the floor directing unit 150 installed below the plant model 120 and the ceiling directing unit 190 installed above the plant model 120.

First, as shown in FIGS. 1 and 6, the floor emitting unit 150 is implemented by a transparent acrylic plate, an LED 160, an optical fiber 170, and a vibrator 180.

The transparent acrylic plate is installed to overlap several sheets, the uneven portion is formed on the lower surface of the lower plate 153 or the middle plate 152 so that the LED 160 is inserted, the desired picture or pattern on the upper surface of the middle plate 152 Printed, the optical fiber 170 is embedded in the middle plate 152. At this time, the middle plate 152 may be installed to be overlapped in multiple sheets so that the desired picture or pattern has a plurality of layer structure, as shown in FIG. Can be. In addition, the optical fiber 170 cuts the lower surface of the middle plate 152 and is installed so that the end of the optical fiber 170 is in contact with the cut surface 152a. In addition, one side of the lower plate 153 is vibrated by a vibration motor. Vibration device for generating a 180 is installed.

The floor emitting unit 150 configured as described above receives pictures or patterns by the optical fibers 170 under the control of the control unit 200, and when the light is emitted from the LED 160 in association with the optical fibers 170, It is possible to produce a desired atmosphere according to the color or pattern of the light, in some cases by shaking the acrylic plate by the vibration device 180.

Next, the ceiling rendering unit 190 is implemented through the half mirror 191 and the black mirror 192. The half mirror 191 is a screen on which a 3D stereoscopic image or the like is displayed, and an image matching the desired mood is displayed by the control of the controller 200, and the black mirror 192 produces a light or the like matching the image. .

That is, when the user continues to grow the plant model 120 to keep up with the problem of the monitor 110, the floor output unit 150, the atmosphere that seems to revive the ecosystem is produced, the problem continues to be wrong, plant model 120 is getting smaller If it is, the floor will be shaken by the vibrator 180 while directing a dark atmosphere in which the ecosystem is dying more in the floor output unit 150. In addition, when the pillar 122 of the plant model 120 is detected by the proximity sensor 140, a dynamic atmosphere as if the ecosystem is revived is produced in the floor rendering unit 150 and the ceiling rendering unit 190.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. .

100: ecosystem virtual resurrection system
110: monitor 120: plant model
121 housing 122 pillar portion
123: actuator 125: stem
126: Guide 127: permanent magnet
128: electromagnet 130: flower part
140: proximity sensor 150: floor projection
151: top plate 152: middle plate
153: Bottom 160: LED
170: optical fiber 180: vibration device
190: ceiling projection 191: half mirror
192: black mirror 200: control unit

Claims (2)

Monitor 110 provided with at least one or more to enable information retrieval or question and answer function, plant model 120 having a plurality of stretchable pillars 122, and check whether the correct answer of the monitor 110 In the ecosystem virtual resurrection system comprising a control unit 200 for elevating the pillar portion 122 and lowering the pillar portion 122 if the answer is correct,
The stem 125 is coupled to the uppermost pillar 122a of the pillar part 122 so as to extend in an oblique direction of one side, and the flower part 130 is controlled by the controller 200 at the upper end of the stem 125. To bloom,
The stem 125 is formed in a tubular shape having elasticity, and the guide 126 to receive the stem 125 when the uppermost pillar 122a is inserted into the lower pillar 122b of the uppermost pillar 122a. Is formed, a permanent magnet 127 is attached to the inside of the upper end of the stem 125, the electric power is supplied or disconnected to the side of the pillar (122a) in contact with the permanent magnet 127 by the control unit 200 Ecological virtual revival system, characterized in that the electromagnet 128 is installed. The method of claim 1,
The stem 125 is formed in a tube shape having elasticity, the flower portion 130 is rotated by a plurality of petals are hinged (130a) coupled to the end of the stem 125, the inner side of the petal link ( 131 is coupled to the operating plate 132, the control line 135 penetrates into the interior of the stem 125 and extends into the uppermost column 122a at the central portion of the operating plate 132. Is coupled, the lower end of the control line 135, the cam wheel 136 is coupled, the cam wheel 136 is a virtual ecosystem characterized in that the reduction motor 137 is rotated under the control of the control unit 200 is coupled Resurrection System.

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