CN216671009U

CN216671009U - Earthquake experience cabin

Info

Publication number: CN216671009U
Application number: CN202123317140.6U
Authority: CN
Inventors: 张登佳; 陈崧; 林光坤
Original assignee: Fujian Qianxun Technology Co ltd
Current assignee: Fujian Qianxun Technology Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-06-03
Anticipated expiration: 2031-12-27

Abstract

The utility model provides an earthquake experience cabin which comprises a vibration simulation platform, a room body frame, an inner lining plate, indoor furniture, a power switch simulation device, a sound broadcasting device and a control device, wherein the vibration simulation platform comprises a vibration driving device and a bearing platform, the bearing platform is fixed on the bottom surface by the vibration driving device and drives the bearing platform to shake to simulate the shake of an earthquake, the room body frame is fixed on the bearing platform, the inner lining plate comprises a spliced wallboard and a spliced top plate which are arranged in the room body frame, the indoor furniture is arranged in the inner lining plate, the vibration driving device, a display screen, the power switch simulation device and the sound broadcasting device are respectively and electrically connected with the control device to be controlled to be started, an experiencer can enter the cabin body to experience scenes of vividly simulating the earthquake and can carry out earthquake risk avoiding study of avoiding and turning off a power switch in the cabin, and whether the power switch simulation device is turned off or not is detected by the control device, the power switch can be switched off when people learn to avoid danger, and a better teaching effect is achieved.

Description

Earthquake experience cabin

Technical Field

The utility model relates to the field of safety education equipment, in particular to an earthquake experience cabin.

Background

Earthquakes are one of natural disasters on the earth, and the casualties and economic losses caused by the earthquakes are huge. Popularizing earthquake knowledge and mastering earthquake-proof and shock-proof skills are important means for preventing earthquake disasters, are closely related to everyone, and can teach through lively activities in earthquake experience to improve earthquake-proof and shock-proof consciousness of the whole people.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the earthquake experience cabin is provided, so that an experiencer can experience the occurrence of an earthquake vividly and can perform earthquake risk avoidance study.

In order to solve the technical problems, the utility model adopts the technical scheme that:

a small earthquake experience house comprises a vibration simulation platform, a room body frame, an inner lining plate, indoor furniture, a power switch simulation device, a sound broadcasting device and a control device, wherein the vibration simulation platform comprises a vibration driving device and a bearing platform, the vibration driving device is fixedly connected to the ground and the bottom of the bearing platform respectively, the vibration driving device is electrically connected with the control device, the control device controls the vibration driving device to drive the bearing platform to vibrate, the room body frame is fixed on the bearing platform, the inner lining plate comprises a splicing wallboard and a splicing top plate, the splicing wallboard is arranged on the inner side surface of the room body frame, and the splicing top plate is arranged on the inner top surface of the room body frame;

the indoor furniture comprises a ceiling lamp model, a table and a chair, a sofa and a display screen, the ceiling lamp model is hoisted on the spliced top plate, the table and the chair and the sofa are respectively fixed on the bearing table, the display screen penetrates through the spliced wall plate through a support and is fixed on the room body frame, and the display screen is electrically connected with the control device;

the power switch simulation device and the sound broadcasting device are respectively arranged on the spliced wallboard, the power switch simulation device and the sound broadcasting device are respectively electrically connected with the control device, the control device monitors the on-off state of the power switch simulation device in real time, and the control device controls the sound broadcasting device to broadcast sound.

Further, the vibration driving device comprises a base, a moving seat, a shock absorber and a hydraulic oil cylinder;

the base is fixed on the ground, and at least two tracks are arranged on the upper surface of the base;

the movable seat is arranged above the base, the bottom of the movable seat is provided with a roller group, the roller group is provided with a plurality of rollers corresponding to the track, and the rollers are arranged in the track correspondingly and can roll along the track;

the shock absorber is fixed on the movable seat and fixedly connected with the bottom surface of the bearing table;

the hydraulic oil cylinder is fixed on the ground and adjacent to the base, the output end of the hydraulic oil cylinder is fixedly connected with the side face of the movable base, the hydraulic oil cylinder is electrically connected with the control device, and the control device controls the hydraulic oil cylinder to simulate earthquake vibration.

Further, the splicing wallboard comprises a fixed wallboard and a movable wallboard, the fixed wallboard is fixed on the room body frame, the movable wallboard is adsorbed on the room body frame through a first electromagnet, the first electromagnet is electrically connected with the control device, and the control device controls the current on-off of the first electromagnet.

Further, a smoke machine is fixed to the position, where the movable wall plate is located, of the room body frame, a smoke outlet of the smoke machine faces the movable wall plate, the smoke machine is electrically connected with the control device, and the control device controls the smoke machine to spray smoke.

Furthermore, the spliced top plate comprises a fixed top plate and a movable top plate, the fixed top plate is fixed at the top in the room body frame, the movable top plate is adsorbed on the room body frame through a second electromagnet, the ceiling lamp model is fixed on the movable top plate, the second electromagnet is electrically connected with the control device, and the control device controls the on-off of the current of the second electromagnet.

Furthermore, an electric reel is arranged between the movable top plate and the house body frame, the movable top plate is fixedly connected with a hoisting rope wound on the electric reel, the electric reel is electrically connected with the control device, and the control device controls the electric reel to withdraw the hoisting rope which is extended.

The utility model has the beneficial effects that: set up room body frame on bearing, interior welt, indoor furniture and power switch analogue means simulation indoor outdoor scene, the house that the plummer rocked the simulation earthquake is driven to vibrations drive arrangement through vibrations simulation platform rocks, indoor sound when broadcasting the device broadcast earthquake through the sound, experience person can get into the cabin interior and test lifelike simulation earthquake's scene, and can hide in the cabin and keep away dangerous study with the earthquake that cuts off switch, whether detect power switch analogue means through controlling means and be turn-offed, when detecting not keeping away dangerous operation according to the standard and cutting off switch, the suggestion is reported to the accessible sound broadcast device, better teaching effect plays.

Drawings

Fig. 1 is a schematic overall structure diagram of a seismic experience cabin according to an embodiment of the present invention;

FIG. 2 is a partially enlarged view of a spliced roof panel of a seismic experience cabin according to an embodiment of the utility model;

FIG. 3 is a partially enlarged view of a wall panel of a seismic experience cabin according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a vibration simulation platform of a seismic experience cabin according to an embodiment of the present invention;

FIG. 5 is a sectional view of a seismic experience cabin vibration simulation platform according to an embodiment of the present invention;

fig. 6 is a device connection diagram of a seismic experience cabin according to an embodiment of the present invention.

Description of reference numerals:

1. a vibration simulation platform; 2. a roof frame; 3. an inner liner plate; 4. indoor furniture; 5. a power switch simulation device; 6. a voice broadcasting device; 7. a smoke machine; 8. an electric reel; 9. a control device;

11. a vibration driving device; 111. a base; 112. a track; 113. a movable seat; 114. a roller set; 115. A shock absorber; 116. a hydraulic cylinder; 12. a bearing table;

31. splicing the wall boards; 311. fixing the wallboard; 312. a movable wall panel; 32. splicing the top plate; 321. fixing a top plate; 322. a movable top plate; 33. a first electromagnet; 34. a second electromagnet;

41. a ceiling lamp model; 42. a table and a chair; 43. a sofa; 44. a display screen.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 6, an earthquake experience cabin comprises a vibration simulation platform, a room body frame, a lining plate, indoor furniture, a power switch simulation device, a sound broadcasting device and a control device, wherein the vibration simulation platform comprises a vibration driving device and a bearing platform, the vibration driving device is fixedly connected to the ground and the bottom of the bearing platform respectively, the vibration driving device is electrically connected with the control device, the control device controls the vibration driving device to drive the bearing platform to vibrate, the room body frame is fixed on the bearing platform, the lining plate comprises a splicing wall plate and a splicing top plate, the splicing wall plate is arranged on the inner side surface of the room body frame, and the splicing top plate is arranged on the inner top surface of the room body frame;

From the above description, the beneficial effects of the present invention are: set up room body frame on bearing, interior welt, indoor furniture and power switch analogue means simulation indoor outdoor scene, the house that the plummer rocked the simulation earthquake is driven to vibrations drive arrangement through vibrations simulation platform rocks, indoor sound when broadcasting the device broadcast earthquake through the sound, experience person can get into the cabin interior and test lifelike simulation earthquake's scene, and can hide in the cabin and keep away dangerous study with the earthquake that cuts off switch, whether detect power switch analogue means through controlling means and be turn-offed, when detecting not keeping away dangerous operation according to the standard and cutting off switch, the suggestion is reported to the accessible sound broadcast device, better teaching effect plays.

According to the description, the vibration driving device below the bearing table is set to be a structure for generating vibration and simulating a house foundation, the hydraulic oil cylinder drives the movable seat to move in the track range through the control device to generate a vibration shaking effect, the control device can be used for combining the transmission of real simulated seismic waves of the existing algorithm, the house foundation is simulated through the shock absorber, the shaking of the house in the earthquake can be truly simulated, the shaking amplitude of the upper platform can be buffered, and excessive shaking is avoided.

Further, the concatenation wallboard includes fixed wallboard and activity wallboard, fixed wallboard is fixed in on the room body frame, the activity wallboard adsorb in through first electro-magnet on the room body frame, first electro-magnet with the controlling means electricity is connected, controlling means control the electric current break-make of first electro-magnet.

Can know by above-mentioned description, the concatenation wallboard sets up mobilizable movable wallboard to can make movable wallboard break away from room body frame through the outage of the first electro-magnet of controlling means control, simulate the sight of wall body damage in the higher earthquake of magnitude of earthquake, make the house can be more true experience the earthquake of different magnitudes of earthquake.

According to the description, smoke and dust when the smog simulation house wall structure is arranged on the house body frame and damaged is used for simulating earthquake with high earthquake magnitude, the control device controls the first electromagnet to cut off power to enable the movable wall board to be separated from the house body frame, and controls the smog machine to spray smog into the small house, so that the situation when the simulation wall body is damaged is vivid, the simulation earthquake is more vivid, and the experience reality sense of an experience person is improved.

Can know by above-mentioned description, the concatenation roof sets up mobilizable movable roof to can make movable wallboard drop from the top through the outage of controlling means control second electro-magnet, simulate in the higher earthquake of magnitude the scene that ceiling and hoist and mount lamps and lanterns damaged, make the cabin can be more real experience the earthquake of different magnitudes of vibration.

Furthermore, an electric reel is arranged between the movable top plate and the house body frame, the movable top plate is fixedly connected with a hoisting rope wound on the electric reel, the electric reel is electrically connected with the control device, and the control device controls the electric reel to take back the hoisted rope which is unfolded.

According to the above description, the electric reel is arranged on the house body frame and is wound with the hanging rope to be connected with the movable top plate, the falling height of the movable top plate can be controlled by the hanging rope to avoid accidental injury, the movable top plate can be recovered by the control device after the ceiling is simulated to be damaged, and the house can be conveniently and quickly reset for continuous use.

The earthquake experience cabin can be installed in an earthquake safety hall, a safety experience hall, a teenager education base, a science and technology hall and the like for earthquake experience and safety education, an experiencer enters the cabin, the simulated earthquake is started through the control device, the earthquakes of different levels can be simulated, the ground shake during the earthquake and the scene special effect matching of the earthquakes of different levels are reflected, the simulated earthquake is more vivid, and experience and safety teaching can be better carried out.

Referring to fig. 1 to 6, a first embodiment of the present invention is:

the utility model provides an earthquake experience cabin, includes vibrations simulation platform 1, room body frame 2, interior welt 3, indoor furniture 4, switch analogue means 5, sound report device 6 and controlling means 9.

As shown in fig. 4 and 5, the vibration simulation platform 1 includes a vibration driving device 11 and a bearing platform 12, and the vibration driving device 11 is fixedly connected to the ground and the bottom of the bearing platform 12 respectively. The vibration driving device 11 includes a base 111, a movable base 113, a damper 115, and a hydraulic cylinder 116. The base 111 is fixed on the ground, and at least two rails 112 are disposed on the upper surface of the base 111. The movable base 113 is arranged above the base 111, the bottom of the movable base 113 is provided with a roller set 114, the roller set 114 is provided with a plurality of rollers corresponding to the rail 112, and the rollers are correspondingly arranged in the rail 112 and can roll along the rail 112. The damper 115 is fixed on the movable base 113 and is fixedly connected to the bottom surface of the bearing platform 12, and the roof frame 2 is fixed on the bearing platform 12. The hydraulic oil cylinder 116 is fixed at a position adjacent to the ground and the base 111, the output end of the hydraulic oil cylinder 116 is fixedly connected with the side surface of the movable base 113, the hydraulic oil cylinder 116 is electrically connected with the control device 9, and the control device 9 controls the hydraulic oil cylinder 116 to simulate earthquake vibration.

As shown in fig. 1 to 3, the interior lining panel 3 includes a splicing wall panel 31 and a splicing top panel 32, the splicing wall panel 31 is disposed on an inner side surface of the room body frame 2, the splicing top panel 32 is disposed on an inner top surface of the room body frame 2, and the indoor furniture 4 includes a ceiling model 41, a table and chair 42, a sofa 43, and a display screen 44. The splicing wall plate 31 comprises a fixed wall plate 311 and a movable wall plate 312, the fixed wall plate 311 is fixed on the room body frame 2, the movable wall plate 312 is adsorbed on the room body frame 2 through a first electromagnet 33, the first electromagnet 33 is electrically connected with the control device 9, and the control device 9 controls the current on-off of the first electromagnet 33. The splicing top plate 32 comprises a fixed top plate 321 and a movable top plate 322, the fixed top plate 321 is fixed at the top in the room body frame 2, the movable top plate 322 is adsorbed on the room body frame 2 through a second electromagnet 34, the ceiling lamp model 41 is fixed on the movable top plate 322, the second electromagnet 34 is electrically connected with the control device 9, and the control device 9 controls the on-off of the current of the second electromagnet 34. The fixed position that room body frame 2 goes up movable wallboard 312 place has aerosol sprayer 7, and aerosol sprayer 7's outlet flue is towards movable wallboard 312, and aerosol sprayer 7 is connected with controlling means 9 electricity, and controlling means 9 control aerosol sprayer 7 blowout smog. An electric reel 8 is arranged between the movable top plate 322 and the roof body frame 2, the movable top plate 322 is fixedly connected with a hoisting rope wound on the electric reel 8, the electric reel 8 is electrically connected with a control device 9, and the control device 9 controls the electric reel 8 to withdraw the hoisting rope which is stretched.

Wherein, as shown in fig. 6, power switch analogue means 5 and sound broadcast device 6 set up respectively on fixed wallboard 311, and power switch analogue means 5 and sound broadcast device 6 are connected with controlling means 9 electricity respectively, and controlling means 9 real-time supervision power switch analogue means 5's on-off state, controlling means 9 control sound broadcast device 6 broadcast sound.

The control device 9 may be an industrial personal computer or a computer, and the control device 9 may control the hydraulic cylinder 116 by using an existing algorithm in combination with a corresponding control and feedback module, for example, by using a PID algorithm, a power amplification module, a corresponding valve module, and a data acquisition module to control the hydraulic cylinder 116. The control device 9 can monitor the off state of the power switch simulation device 5 by adopting a current sensor to measure current through AD conversion, and judge whether to turn off or not through the existence of current. The control device 9 can control the first electromagnet 33, the second electromagnet 34, the smoke sprayer 7, the electric scroll 8, the sound broadcasting device 6 and the display screen 44 in the conventional manner.

The working principle of the earthquake experience cabin of the embodiment is as follows:

experience person gets into in the cubicle, staff or experience person pass through controlling means 9 control and start vibrations drive arrangement 11, sound broadcast device 6 can broadcast earthquake in advance and be about to come the suggestion pronunciation, hydraulic cylinder 116 drives the cubicle and rocks the simulation earthquake and rock afterwards, the earthquake simulation of lower magnitude of vibration only starts vibrations drive arrangement 11 and rocks and sound broadcast device 6 and plays corresponding audio, then first electro-magnet 33 of simultaneous control during higher magnitude of vibration, second electro-magnet 34 and aerosol sprayer 7, make activity wallboard 312, activity roof 322 and ceiling lamp model 41 drop the environmental change that the earthquake that simulates higher magnitude of vibration causes. The earthquake can be selected from 4-8 stages through the control device 9, and the earthquake can be directly experienced in an optional earthquake stage, or the earthquake can be experienced in a stage-by-stage manner. And the detection of the power switch simulation device 5 is used for detecting whether the experiencer learns the safety risk avoidance and escape skills.

In summary, according to the earthquake experience cabin provided by the utility model, indoor scenes are simulated through the room body frame, the lining plate, the indoor furniture and the power switch simulation device, the bearing table is driven to shake through the vibration driving device of the vibration simulation platform to simulate the house shake of an earthquake, indoor sounds during the earthquake are played through the sound broadcasting device, indoor conditions of the earthquake with higher earthquake magnitude are simulated through the movable wall plate and the movable top plate, an experiencer can enter the cabin to test scenes simulating the earthquakes with different earthquake magnitude vividly, and earthquake danger avoiding learning of avoiding and turning off the power switch can be carried out in the cabin, whether the power switch simulation device is turned off or not is detected through the control device, and when the power switch is detected not to be turned off according to standard danger avoiding operation, a prompt can be broadcast through the sound broadcasting device, so that a better teaching effect is achieved.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent modifications made by the present invention and the contents of the accompanying drawings, which are directly or indirectly applied to the related technical fields, are included in the scope of the present invention.

Claims

1. A small earthquake experience house is characterized by comprising a vibration simulation platform, a room body frame, a lining plate, indoor furniture, a power switch simulation device, a sound broadcasting device and a control device, wherein the vibration simulation platform comprises a vibration driving device and a bearing platform, the vibration driving device is fixedly connected to the ground and the bottom of the bearing platform respectively, the vibration driving device is electrically connected with the control device, the control device controls the vibration driving device to drive the bearing platform to vibrate, the room body frame is fixed on the bearing platform, the lining plate comprises a splicing wallboard and a splicing top plate, the splicing wallboard is arranged on the inner side surface of the room body frame, and the splicing top plate is arranged on the inner top surface of the room body frame;

2. The seismic experience cabin of claim 1, wherein the shock drive comprises a base, a mobile base, a shock absorber, and a hydraulic ram;

3. The earthquake experience cabin according to claim 1, wherein the splicing wall plate comprises a fixed wall plate and a movable wall plate, the fixed wall plate is fixed on the room body frame, the movable wall plate is adsorbed on the room body frame through a first electromagnet, the first electromagnet is electrically connected with the control device, and the control device controls the on-off of the current of the first electromagnet.

4. The earthquake experience cabin according to claim 3, wherein a smoke sprayer is fixed to the position of the movable wall plate on the room body frame, a smoke outlet of the smoke sprayer faces the movable wall plate, the smoke sprayer is electrically connected with the control device, and the control device controls the smoke sprayer to spray smoke.

5. The earthquake experience cabin according to claim 1, wherein the splicing top plate comprises a fixed top plate and a movable top plate, the fixed top plate is fixed at the inner top of the room body frame, the movable top plate is attached to the room body frame through a second electromagnet, the ceiling lamp model is fixed on the movable top plate, the second electromagnet is electrically connected with the control device, and the control device controls the current on-off of the second electromagnet.

6. The earthquake experience cabin according to claim 5, wherein an electric reel is arranged between the movable roof plate and the roof frame, the movable roof plate is fixedly connected with a hoisting rope wound on the electric reel, the electric reel is electrically connected with the control device, and the control device controls the electric reel to retract the hoisting rope which is extended.