KR20110128457A - The child stewed and obstinate experience system - Google Patents

Abstract

The present invention is a vibration experience plate and the vibration plate is installed on the lifting plate and the plurality of driving balls installed on the lifting plate to the upper portion of the lifting plate driven by a motor, and installed on the upper side of the vibration experience machine to the wall surface It consists of a descender consisting of a rope and a belt installed in front of the support, the child experiences an earthquake on the diaphragm driven left and right by the motor and ascends adjacent to the descender by the link part so that the child wears the belt of the descender. After the diaphragm and the elevating plate is lowered to the earthquake and descender experience system for children to lower the belt of the descender to the bottom to experience the earthquake and downhill experience at the same time.

Description

Child earthquake and obstinate experience system

The present invention relates to earthquake and Whangai experience system for children. More specifically, the vibration plate and the vibration plate is installed on the lifting plate to be elevated to the link unit and the plurality of driving balls installed on the upper portion of the lifting plate and the vibration plate is installed in the upper portion of the vibration experience machine and It consists of a descender consisting of a rope and a belt installed on the wall in front of the support, and the child experiences an earthquake on a diaphragm driven from side to side by a motor and ascends adjacent to the descender by the link part so that the child wears the belt of the descender. And after the diaphragm and the elevating plate descend, the belt of the elevator is lowered to lower the earthquake and the elevator experience system for the child to simultaneously experience the earthquake and the ascension.

In general, an earthquake is when earth's energy is released to the surface and the earth splits and shakes.

Such earthquakes have not occurred in Korea, but there has been no large-scale earthquake that caused great casualties, but geologically, it is known that Korea belongs to the active strata of earthquakes. Education, etc. is actively progressing.

However, the education on the earthquake described above is dependent on the data screen and lecture, there was a problem that does not feel the actual phenomenon and the strength of the earthquake during the education.

 In general, the downturn is often reported in the media such as TV and newspapers to escape from high-rise buildings due to fire.

In order to protect themselves from the danger of falling when going down from such high floors, stabilizers have been used.

However, the above-mentioned earthquake experience and the slumber experience could not be provided at the same time, and the seismic experience and the slumber experience were combined with each other, so that young children easily approached the clinic and secured the bodily experience. As a result, there was a problem in that the earthquake and stiffness experience device that could feel the vibration of the virtual earthquake could not be provided.

In order to solve the above problems, the present invention is a vibration experience plate is driven by a motor and the diaphragm is installed on the elevating plate to be elevated to the link portion and the plurality of driving balls installed on the upper portion of the elevating plate, and the It is installed on the upper part of the vibration experience machine and consists of a descender consisting of a rope and a belt installed on the front of the support on the wall, so that the child experiences an earthquake on the vibration plate driven from side to side by a motor and ascends adjacent to the descender by the link unit. After the children's belts are worn by the children and the diaphragm and the elevating plate are lowered, the belts of the elevators are lowered to provide a new earthquake and downhill experience system for the children to simultaneously experience the earthquake and the downhill. There is a purpose.

In order to achieve the above object, the present invention provides a link portion having a lower portion fixed to the ground and being elevated by a driving means, a lifting plate fixed at an upper portion of the link portion, and a plurality of driving balls installed at an upper portion of the lifting plate. And a drive shaft penetrating the lifting plate, the driving shaft being connected to the driving plate having a diaphragm seated on the driving balls and a fixing pin formed on one side of the lifting plate and fixed to the lower side of the diaphragm. Seismic experience unit consisting of; It is installed at a distance from the upper portion of the seismic experience machine, is installed in front of the support installed on the wall, characterized in that consisting of a gangbang having a rope with a belt.

In addition, a plurality of support bars are installed on the upper circumference of the diaphragm, characterized in that the hand rail connected to the upper support bars is installed.

In addition, an opening part is formed on a part of the handrail, and the opening and closing bar pivoted from the opening part to a hinge is installed.

In addition, the lifting means is installed on one side or the other side of the seismic experience machine adjacent to the belt of the ascending machine is characterized in that it is installed.

In addition, the lifting means is characterized in that it is installed in any one of the stairs or the elevator.

In addition, the driving means is characterized in that it is composed of any one selected from hydraulic, pneumatic, electric.

In addition, the motor is characterized in that the reduction motor.

The present invention allows the children to experience the earthquake experience and the downhill at the same time to recognize the dangers of earthquakes, and in the event of an emergency in high-rise buildings to ensure a direct experience to descend safely to the ground through the downhill during the emergency earthquake experience And there is an effect that can be experienced at the same time.

In addition, by installing a hand rail on the upper portion of the diaphragm, the child is placed in the hand rail, and when the diaphragm vibrates from side to side, there is an effect that can safely protect the child in the hand rail to experience a safe earthquake.

In addition, by installing a part of the handrail opening and closing bar there is an effect that children can easily enter and exit the handrail.

In addition, the elevating means is installed on one side or the other side of the earthquake experience machine adjacent to the ascending machine installed on the upper part of the earthquake experience machine, and the children who do not board the earthquake experience machine are sequentially descended through the elevating machine through the elevating means through the elevating means. The earthquake experienced by the earthquake experienced by descending into the handrail of the earthquake experienced by the earthquake experience has an effect that can be more effective earthquake experience.

1 is a schematic view according to the present invention.
Figure 2 is a schematic diagram showing a state in which the earthquake experienced in accordance with the present invention is raised.
3 is a schematic view showing another embodiment according to the present invention.

Hereinafter, described in detail by the accompanying drawings of the present invention.

1 is a schematic diagram according to the present invention, Figure 2 is a schematic diagram showing an elevated earthquake experience machine according to the present invention, Figure 3 is a schematic diagram showing another embodiment according to the present invention.

If the earthquake and fall experience system for children according to the present invention will be described in detail with reference to those shown in Figures 1 to 3;

Earthquake and fall experience system for children according to the present invention is composed of an earthquake experience machine 100 and a fall machine 200.

The seismic experience device 100 is composed of a link portion 110, the lower portion of which is fixed to the ground 10 and lifted by the driving means 111.

The link unit 110 is configured of an "X" shape.

In addition, the link unit 110 is composed of a plurality from the top to the bottom.

The driving means 111 may be configured by hydraulic or pneumatic or electric.

The lifting plate 120 fixed to the upper portion of the link unit 110 of the seismic experience machine 100 is installed.

In addition, a plurality of support bars 151 are installed on the upper circumference of the diaphragm 130, and the hand rail 150 connected to the upper support bars 151 is installed.

The installation of the handrail 150 is for a child located in the handrail 150 to safely protect the child in the handrail 150 when the lifting plate 120 and the diaphragm 130 are elevated. .

An opening part is formed on a part of the handrail 150 to open and close an opening bar 153 which is rotated from the opening part to the hinge 152.

In addition, the opening and closing bar 153 is configured to be engaged up and down by the hinge 152 at one side of the opening of the hand rail 150.

The opening and closing bar 153 is installed so that children can easily and safely enter and exit the handrail 150.

In addition, a plurality of driving balls 131 are installed on the elevating plate 120, and the diaphragm 130 is installed to be seated on the driving balls 131.

The motor 140 is formed on one side of the lower portion of the lifting plate 120 is configured.

In addition, the drive shaft 143 of the motor 140 is installed to pass through the lifting plate 120 to be exposed to the upper portion of the lifting plate 120, the driving unit 142 is connected to the drive shaft 143 is installed The fixing pin 141 is installed on the driving unit 143.

The fixing pin 141 is configured to be fixed to the lower one side of the diaphragm 130.

The motor 140 is preferably composed of a reduction motor.

The diaphragm 130 is configured to vibrate left and right by driving the motor 140.

The ascender 200 is installed at a constant height with a distance from the upper portion of the seismic experience device 100.

In addition, the steel bar 200 is installed in front of the support 201 installed on the wall surface 20, is configured to have a rope 203 provided with a belt 202.

The driving means 111 and the motor 140 are configured to be controlled by the control unit 112.

On the other hand, as shown in Figure 3, the lifting means 160 is configured to be installed adjacent to the belt 202 of the elevator 200 on one side or the other side of the seismic experience machine 100.

The elevating means 160 is configured to be installed by any one of the stairs 161 or the elevator 162.

The lifting means 160 is installed as the earthquake is lowered to the lifting device 200 by approaching the lifting device 200 through the lifting means 160 in order to children who do not board the earthquake experience machine 100 in turn. This is for descending into the handrail 150 of the experience machine 100 and ascending while experiencing the earthquake through the earthquake experience machine 100.

That is, in the above method, after the child rides on the seismic experience device 100 and ascends to the descending machine 200, the child wearing the belt 202 of the descending device 200 descends the seismic experience device 100. This is to be different from the manner of descending into the handrail 150 of the seismic experience device 100.

Referring to the operation according to the invention shown in Figures 1 and 2 as follows.

Once the child opens the opening and closing bar 153 of the hand rail 150 installed on the diaphragm 130 of the seismic experience machine 100 to enter into the hand rail 150 and then the opening and closing bar 153 Close it.

As described above, when the child is located in the hand rail 150 on the diaphragm 130, the driving means 111 is driven by the control unit 112 to drive the link unit 110 upward.

At the same time as the link unit 110 is raised, the control unit 112 drives the motor 140 and the fixing pin 141 installed on the drive unit 142 connected to the drive shaft 143 of the motor 140. Since the diaphragm 130 is fixedly installed under the diaphragm 130, the diaphragm 130 is driven by the driving unit 142 and the fixing pin 141 driven by the motor 140. ) Is based on the plurality of driving balls 131 installed between the diaphragm 130 and the elevating plate 120 is to drive the diaphragm 130 to the left and right to experience the earthquake.

When the seismic experience device 100 rises adjacent to the fall machine 200 in this way, the child on the seismic experience device 100 wears the belt 202 installed on the rope 203 connected to the fall machine 200. After doing so, the seismic experience device 100 is lowered through the link unit 110.

At this time, the upper half of the child is stably hung on the belt 202 installed on the rope 203 of the descender 200, so that the rope 203 of the descender 200 slowly descends of the seismic experience device 100. Landing in the handrail 150 to be made at the same time experience earthquake experience and slumber.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical details of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims and their equivalents.

10: Floor 20: Wall Panel
100: earthquake experience machine 110: link unit
111: drive means 120: lifting plate
130: diaphragm 131: driving ball
140: motor 141: fixed pin
142: drive unit 143: drive shaft
150: handrail 151: support bar
152: hinge 153: opening and closing bar
160: lifting means 161: stairs
162: elevator 200: elevator
201: support 202: belt
203: rope

Claims (7)

A link portion 110 fixed to the ground 10 and lifted by the driving means 111, a lift plate 120 fixed to an upper portion of the link portion 110, and the lift plate 120. A plurality of driving balls 131 are installed at an upper portion thereof, and a vibration plate 130 mounted on the driving balls 131 and a lower side of the vibration plate 130 are formed at one side of the lifting plate 120. An earthquake experience device (100) consisting of a motor (140) provided to penetrate the elevating plate (120) with a drive shaft (143) connected to a drive unit (142) having a fixed pin (141) fixed thereto;
It is installed at a distance from the upper portion of the seismic experience device 100, is installed in front of the support 201 installed on the wall surface 20, consisting of a stubborn steel 200 having a rope 203 provided with a belt 202 Earthquake and downhill experience system for children, characterized in that. The method of claim 1,
Children earthquake and fall experience system, characterized in that a plurality of support bars (151) is installed on the upper circumference of the diaphragm 130, the handrail 150 is connected to the upper support bars (151). The method of claim 2,
The earthquake and fall experience system for children, characterized in that the opening portion is formed in a portion of the handrail 150, the opening and closing bar 153 is rotated to the hinge 152 in the opening. The method of claim 1,
Earthquake and boom experience system for children, characterized in that the elevating means 160 is installed on one side or the other side of the seismic experience machine (100) adjacent to the belt 202 of the wangogi 200. The method of claim 4, wherein
The elevating means 160 is a child earthquake and fall experience system, characterized in that installed in any one of the stairs (161) or the elevator (162). The method of claim 1,
The drive means 111 is earthquake and fall experience system for children, characterized in that any one selected from hydraulic, pneumatic, electric. The method of claim 1,
The earthquake and fall experience system for children, characterized in that the motor 140 is a reduction motor.

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