CN210992952U - Rainfall interaction experience device - Google Patents

Abstract

The utility model provides a rainfall interaction experiences device, including the carrier, the activity passageway, the multiunit correlation sensor, a plurality of first shower nozzle, water supply system and controller, the movably setting of carrier is in the activity passageway, the multiunit correlation sensor sets up along the length direction interval of activity passageway, the multiunit correlation sensor is used for detecting the real-time position of carrier, a plurality of first shower nozzles set up in the top of activity passageway, each first shower nozzle passes through the solenoid valve and is connected with water supply system, the controller respectively with the correlation sensor, solenoid valve and water supply system electric connection, the controller acquires the real-time position of carrier, and control stops to spray water and control each first shower nozzle of the staggered carrier to each first shower nozzle of carrier and spray water. The utility model discloses a rainfall interaction experiences the steerable precipitation region of device and moves and change at any time along with the carrier, guarantees just not to precipitation to the region of carrier, and precipitation forms the rain curtain effect around the carrier, makes the visitor have the sense and interest of immersing personally on the scene.

Description

Rainfall interaction experience device

Technical Field

The utility model relates to an amusement equipment technical field, in particular to rainfall interaction experiences device.

Background

The live-action entertainment industry widely adopts the electromechanical special effect equipment to simulate the weather phenomena of wind, rain, thunder, electricity and the like in the natural environment, and triggers the visual sense and the auditory sense of tourists in the performance scene, so that the tourists are in an artificial environment close to the natural environment and experience the interest of programs. Among these are special effect devices that simulate the phenomenon of rainy weather. In current outdoor entertainment, the special effect of raining is in order not to let the visitor therein, drenches the clothes, and what all adopt is rained through the shower nozzle simulation of raining, and these raindrops and rain line all fall at fixed position and time, have left a visitor's passageway, and the rainwater does not live visitor 360 parcel, lacks one kind and immerses sense and interesting.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a rainfall interaction experiences device, steerable precipitation region is along with the carrier removes and changes at any time, guarantees just not to precipitation to the region of carrier, and precipitation forms the rain curtain effect around the carrier, makes the visitor have the sense and the interest of immersing personally on the scene.

The utility model provides a rainfall interaction experiences device, including the carrier, the activity passageway, the multiunit correlation sensor, a plurality of first shower nozzle, water supply system and controller, the movably setting of carrier is in the activity passageway, the multiunit correlation sensor sets up along the length direction interval of activity passageway, the multiunit correlation sensor is used for detecting the real-time position of carrier, a plurality of first shower nozzles set up in the top of activity passageway, each first shower nozzle passes through the solenoid valve and is connected with water supply system, the controller respectively with the correlation sensor, solenoid valve and water supply system electric connection, the controller acquires the real-time position of carrier, and control stops to spray water and control each first shower nozzle of the staggered carrier to each first shower nozzle of carrier and spray water.

The embodiment of the utility model provides an in, above-mentioned water supply system includes water pumping pipeline, first water pump, cistern, drainage pipe way and second water pump, the bottom of activity passageway has the basin, water pumping pipeline's one end set up in the basin, water pumping pipeline's the other end with the cistern intercommunication, first water pump is connected water pumping pipeline is last, drainage pipe way's one end with the cistern intercommunication, drainage pipe way's the other end set up in activity passageway's top, the second water pump is connected water drainage pipe is last, first shower nozzle passes through the solenoid valve with drainage pipe way intercommunication.

The embodiment of the utility model provides an in, above-mentioned drainage pipeline includes that the drainage is responsible for and many drainage branch pipe, the one end that the drainage was responsible for the cistern intercommunication, the other end and each that the drainage was responsible for the drainage branch pipe intercommunication, drainage branch pipe along the width direction of movable passage sets up, many drainage branch pipe along the length direction interval of movable passage sets up, first shower nozzle passes through the solenoid valve with the drainage branch pipe intercommunication, the second water pump is connected the drainage is responsible for last.

The embodiment of the utility model provides an in, above-mentioned rainfall interaction experiences device still includes a plurality of second shower nozzles, and is a plurality of the second shower nozzle is located the both sides of activity passageway, the second shower nozzle with the lateral drainage pipe directly communicates.

The embodiment of the utility model provides an in, be equipped with the control on the above-mentioned drain branch the manual valve of drain branch break-make.

The utility model discloses an in the embodiment, above-mentioned water supply system still includes first converter, second converter and pressure sensor, first converter with first water pump electric connection, the second converter with second water pump electric connection, pressure sensor connects on the water drainage pipeline, pressure sensor is used for detecting water pressure in the water drainage pipeline, the controller respectively with first converter the second converter pressure sensor electric connection, the controller can be based on the water pressure that pressure sensor detected is right first water pump the frequency conversion control is realized to the second water pump.

The embodiment of the utility model provides an in, above-mentioned water supply system still includes and is used for detecting the high water level switch and the low water level switch of cistern water level, high water level switch is close to the top setting of cistern, low water level switch is close to the bottom setting of cistern, the controller respectively with high water level switch low water level switch electric connection.

In an embodiment of the present invention, the water supply system further includes a first water purifying device, the first water purifying device is disposed on the water pumping pipeline.

In an embodiment of the present invention, the water supply system further comprises a second water purification device, and the second water purification device is disposed on the drainage pipeline.

In an embodiment of the present invention, the controller is a P L C controller.

The utility model discloses a rainfall interaction experiences the steerable precipitation region of device and moves and change at any time along with the carrier, guarantees just not to precipitation to the region of carrier, and precipitation forms the rain curtain effect around the carrier, makes the visitor have the sense and interest of immersing personally on the scene.

Drawings

Fig. 1 is a schematic structural diagram of the rainfall interaction experiencing device of the present invention.

Fig. 2 is a control schematic diagram of the rainfall interaction experiencing device of the present invention.

Fig. 3 is a schematic top view of the carrier of the present invention in the moving walkway.

Fig. 4 is a schematic side view of the carrier of the present invention in the moving walkway.

Detailed Description

Fig. 1 is the utility model discloses a rainfall interaction experiences structure schematic diagram of device, fig. 2 is the utility model discloses a rainfall interaction experiences device's control schematic diagram, as shown in fig. 1 and fig. 2, rainfall interaction experiences device and includes carrier 10, movable passage 20, multiunit correlation sensor 30, a plurality of first shower nozzle 40, water supply system 50 and controller 60, carrier 10 is movably to be set up in movable passage 20, multiunit correlation sensor 30 sets up along movable passage 20's length direction interval, multiunit correlation sensor 30 is used for detecting the real-time position of carrier 10, a plurality of first shower nozzle 40 set up in movable passage 20's top, each first shower nozzle 40 passes through solenoid valve 41 and is connected with water supply system 50, controller 60 respectively with correlation sensor 30, solenoid valve 41 and water supply system 50 electric connection, controller 60 acquires the real-time position of carrier 10, and just to control each first shower nozzle 40 of carrier 10 stop to spray water and control each first shower nozzle 40 of carrier 10 that staggers sprays water . In the present embodiment, the carrier 10 is used for carrying tourists, but not limited thereto.

When carrier 10 removed along activity passageway 20, each first shower nozzle 40 of carrier 10 top stopped to spray water, avoided the precipitation to fall into and drench visitor's clothes in the carrier 10, stagger each first shower nozzle 40 of carrier 10 and continuously spray water, each first shower nozzle 40 around carrier 10 lasts to spray water promptly and forms the rain curtain effect, and the visitor is lived by 360 parcels of precipitation, makes the visitor have the sense of immersing and the interest of being personally on the scene.

Each first nozzle 40 of the present invention is independently controlled by a separate solenoid valve 41, thereby reducing water drops and rapidly turning on and off the water supply.

Further, the vehicle 10 is a ship structure, and the vehicle 10 moves in the movable channel 20 by water flow or chain pulling.

Further, fig. 3 is the schematic view of the carrier looking down in the movable passage, fig. 4 is the schematic view of the carrier looking sideways at the movable passage, please refer to fig. 1 to 4, the water supply system 50 includes a water pumping pipeline 51, a first water pump 521, a reservoir 54, a drainage pipeline 55 and a second water pump 522, the bottom of the movable passage 20 has a water tank 21, one end of the water pumping pipeline 51 is disposed in the water tank 21, the other end of the water pumping pipeline 51 is communicated with the reservoir 54, the first water pump 521 is connected to the water pumping pipeline 51, one end of the drainage pipeline 55 is communicated with the reservoir 54, the other end of the drainage pipeline 55 is disposed above the movable passage 20, the second water pump 522 is connected to the drainage pipeline 55, and the first nozzle 40 is communicated with the drainage pipeline 55 through the electromagnetic valve 41. In the present embodiment, the water ejected from the first nozzle 40 flows into the water tank 21, and the carrier 10 is moved by the water flowing in the water tank 21.

Further, as shown in fig. 1 and 3, the drain line 55 includes a main drain pipe 551 and a plurality of branch drain pipes 552, the one end reservoir 54 of the main drain pipe 551 communicates with each other, the other end of the main drain pipe 551 communicates with each branch drain pipe 552, the branch drain pipes 552 are arranged along the width direction of the movable passage 20, the plurality of branch drain pipes 552 are arranged at intervals along the length direction of the movable passage 20, the first spray head 40 communicates with the branch drain pipes 552 through the electromagnetic valve 41, and the second water pump 522 is connected to the main drain pipe 551.

Further, the rainfall interaction experience device further comprises a plurality of second spray heads 70, the plurality of second spray heads 70 are located at two sides of the movable passage 20, and the second spray heads 70 are directly communicated with the branch drain pipes 552, that is, the second spray heads 70 can continuously spray water.

Furthermore, a manual valve 56 for controlling the on/off of the drain branch 552 is provided on the drain branch 552, and the on/off of the drain branch 552 can be realized by manually rotating the manual valve 56.

Further, the water supply system 50 further includes a first frequency converter 531, a second frequency converter 532 and a pressure sensor 57, the first frequency converter 531 is electrically connected to the first water pump 521, the second frequency converter 532 is electrically connected to the second water pump 522, the pressure sensor 57 is connected to the water discharge pipeline 55, the pressure sensor 57 is used for detecting the water pressure in the water discharge pipeline 55, the controller 60 is electrically connected to the first frequency converter 531, the second frequency converter 532 and the pressure sensor 57, and the controller 60 can perform frequency conversion control on the first water pump 521 and the second water pump 522 according to the water pressure detected by the pressure sensor 57. In this embodiment, the controller 60 may collect the water pressure through the pressure sensor 57 to realize closed-loop control, and adjust the water outlet pressure in real time according to the feedback pressure along with the change of the precipitation area, so as to maintain the water volume constantly.

Further, the water supply system 50 further includes a high water level switch 541 and a low water level switch 542 for detecting the water level of the reservoir 54, the high water level switch 541 is disposed near the top of the reservoir 54, the low water level switch 542 is disposed near the bottom of the reservoir 54, and the controller 60 is electrically connected to the high water level switch 541 and the low water level switch 542, respectively. In this embodiment, the high level switch 541 and the low level switch 542 detect the water level of the reservoir 54, and the controller 60 controls the first water pump 521 to pump water for replenishment according to the water level, so as to ensure that the reservoir 54 maintains a safe water level.

Further, the water supply system 50 further comprises a first water purification device 581, and the first water purification device 581 is disposed on the pumping pipeline 51. The first water purification apparatus 581 purifies and sterilizes the water drawn from the water tank 21 to ensure the cleanness of the water. In the present embodiment, a coarse filter layer, a fine filter layer, a carbon filter structure, and the like are provided in the first water purification apparatus 581, and reference may be made to the prior art.

Further, the water supply system 50 further comprises a second water purification device 582, the second water purification device 582 being arranged on the drain line 55. The second water purification device 582 purifies and disinfects the water pumped from the reservoir 54 to ensure the water is clean. In the present embodiment, a coarse filter layer, a fine filter layer, a carbon filter structure, and the like are provided in the second water purification apparatus 582, and reference is made to the prior art.

In the embodiment, the controller 60 enables the precipitation area and the non-precipitation area to be changed at any time along with the movement of the carrier 10 through the real-time position of the carrier 10 detected by the correlation sensor 30, and adjusts the reaction time of the whole device according to the movement speed of the carrier 10, thereby improving the flexibility of the device.

The utility model discloses a controllable precipitation region of rainfall interaction experience device changes at any time along with carrier 10 removes, guarantees just not to precipitation to the region of carrier 10, and precipitation forms the rain curtain effect around the carrier 10, makes the visitor have the sense of immersing and interesting on the spot.

The above embodiments are merely examples of the present invention, and are not intended to limit the scope of the present invention, and all equivalent changes and modifications made according to the content of the claims of the present invention should be included in the scope of the present invention.

Claims (10)

1. A rainfall interaction experience device is characterized by comprising a carrier, a movable channel, a plurality of groups of correlation sensors, a plurality of first spray heads, a water supply system and a controller, the carrier is movably arranged in the movable channel, a plurality of groups of correlation sensors are arranged at intervals along the length direction of the movable channel, the plurality of groups of correlation sensors are used for detecting the real-time position of the carrier, a plurality of first spray heads are arranged above the movable channel, each first spray head is connected with the water supply system through an electromagnetic valve, the controller is respectively electrically connected with the correlation sensor, the electromagnetic valve and the water supply system, the controller acquires the real-time position of the carrier, and controlling each first spray head which is right opposite to the carrier to stop spraying water and controlling each first spray head which is staggered with the carrier to spray water.

2. The rainfall interaction experience device according to claim 1, wherein the water supply system comprises a water pumping pipeline, a first water pump, a reservoir, a drainage pipeline and a second water pump, a water tank is arranged at the bottom of the movable channel, one end of the water pumping pipeline is arranged in the water tank, the other end of the water pumping pipeline is communicated with the reservoir, the first water pump is connected to the water pumping pipeline, one end of the drainage pipeline is communicated with the reservoir, the other end of the drainage pipeline is arranged above the movable channel, the second water pump is connected to the drainage pipeline, and the first spray head is communicated with the drainage pipeline through the solenoid valve.

3. The rainfall interaction experiencing device according to claim 2, wherein the drain line comprises a main drain pipe and a plurality of branch drain pipes, one end of the main drain pipe communicates with the reservoir, the other end of the main drain pipe communicates with each branch drain pipe, the branch drain pipes are arranged along the width direction of the movable channel, the plurality of branch drain pipes are arranged at intervals along the length direction of the movable channel, the first spray head communicates with the branch drain pipes through the electromagnetic valves, and the second water pump is connected to the main drain pipe.

4. The rainfall interaction experience device of claim 3, further comprising a plurality of second spray heads positioned on either side of said active channel, said second spray heads being in direct communication with said drain leg.

5. The interactive rainfall experience device of claim 3, wherein said drain leg is provided with a manual valve for controlling the on/off of said drain leg.

6. The rainfall interaction experience device according to claim 2, wherein the water supply system further comprises a first frequency converter, a second frequency converter and a pressure sensor, the first frequency converter is electrically connected to the first water pump, the second frequency converter is electrically connected to the second water pump, the pressure sensor is connected to the water discharge pipeline, the pressure sensor is used for detecting water pressure in the water discharge pipeline, the controller is respectively electrically connected to the first frequency converter, the second frequency converter and the pressure sensor, and the controller can perform frequency conversion control on the first water pump and the second water pump according to the water pressure detected by the pressure sensor.

7. The rainfall interaction experience device of claim 2, wherein said water supply system further comprises a high level switch and a low level switch for detecting a water level of said reservoir, said high level switch being disposed proximate a top of said reservoir and said low level switch being disposed proximate a bottom of said reservoir, said controller being electrically connected to said high level switch and said low level switch, respectively.

8. The rainfall interaction experience device of claim 2, wherein said water supply system further comprises a first water purification device, said first water purification device being disposed on said pumping line.

9. The rainfall interaction experience device of claim 8, wherein said water supply system further comprises a second water purification device disposed on said drain line.

10. The rainfall interaction experience device of any one of claims 1 to 9 wherein said controller is a P L C controller.

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