CN210508537U - Performance stage capable of simulating flood - Google Patents

Abstract

The utility model discloses a performance stage that can simulate flood, including the stage that has the pond, the top of stage is equipped with and is located the water storage box of pond top, be equipped with the horizontal baffle of cutting apart into a plurality of water storage layer with it in the water storage box, horizontal baffle is equipped with the communicating pipe of the adjacent water storage layer of a plurality of intercommunication, communicating pipe is equipped with first solenoid valve, the bottom of water storage box is equipped with a plurality of drain pipes, the drain pipe is equipped with the second solenoid valve, the drain pipe below be equipped with the guide plate that the water storage box is connected, the pond lateral wall is equipped with the overflow pipe, overflow pipe and water collection box intercommunication, be equipped with the water pump in the water collection box, the delivery port of water pump passes through. Set up the pond on the stage, through pouring the discharge with the water in the water storage box and simulate the flood, can keep relatively stable rivers, do not need a plurality of water pumps or high-power water pump to supply water, stage simulation is effectual.

Description

Performance stage capable of simulating flood

Technical Field

The utility model relates to a performance stage technical field, in particular to can simulate performance stage of flood.

Background

The existing stage performance has a single structure, and cannot draw a flood performance scene in sound and drawing colors.

Disclosure of Invention

To the above prior art, the utility model provides a performance stage that can simulate flood sets up the pond on the stage, through pouring the discharge with the water in the water storage box and simulate the flood, can keep relatively stable rivers, does not need a plurality of water pumps or high-power water pump to supply water, and stage simulation is effectual.

The technical scheme of the invention is realized as follows:

the utility model provides a performance stage that can simulate flood, is including the stage that has the pond, the top of stage is equipped with and is located the water storage box of pond top, be equipped with the horizontal baffle of cutting apart it into a plurality of water storage layer in the water storage box, the horizontal baffle is equipped with the communicating pipe of the adjacent water storage layer of a plurality of intercommunication, communicating pipe is equipped with first solenoid valve, the bottom of water storage box is equipped with a plurality of drain pipes, the drain pipe is equipped with the second solenoid valve, the drain pipe below be equipped with the guide plate that the water storage box is connected, the pond lateral wall is equipped with the overflow pipe, overflow pipe and header tank intercommunication, be equipped with the water pump in the header tank, the delivery port of.

Furthermore, a float switch is arranged in the water storage layer and electrically connected with the first electromagnetic valve.

Furthermore, the float switch comprises a pipe barrel, a float ball and a normally closed switch, the bottom of the pipe barrel is communicated with the water storage layer, the normally closed switch is arranged at the top of the pipe barrel, and the float ball is arranged in the pipe barrel.

Furthermore, a lifting plate and a lifting device are arranged in the water pool, the lifting device is installed in the water pool, and the lifting plate is connected with the top of the lifting device.

Furthermore, an anti-skid structure is arranged on the lifting plate.

Further, the anti-slip structure is an anti-slip bulge or an anti-slip groove.

Furthermore, the lifting device is a hydraulic lifting rod, and the hydraulic lifting rod is connected with an external hydraulic pump.

The beneficial effects of the utility model reside in that: the different water storage layers are communicated with each other through a plurality of communicating pipes, and when the first electromagnetic valve is opened, the water storage layer positioned on the upper layer flows into the water storage layer on the lower layer through the communicating pipes. When the second electromagnetic valve is opened, water in the bottommost water storage layer is discharged through the water discharge pipe, the water discharged from the water discharge pipe flows to the guide plate, flows to the tail end along the guide plate and then flows into the water tank in an inclined mode, the inclined water forms a water curtain to simulate flood, and a stage actor can stand behind the water curtain or in front of the water curtain or pass through the water curtain. The water level of the lowest layer is relatively stable in the process of water drainage, and the water pressure discharged through the drain pipe is relatively stable, so that relatively stable water flow is maintained. When the water pump works, water is pumped back into the water storage tank to circulate. Because when the drainage simulated flood, water is already stored in the water storage tank, so that water is pumped while the drainage is not needed, the water in the water storage tank stores enough water, and a high-power water pump or a plurality of water pumps do not need to be arranged for ensuring the smooth drainage.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a schematic side view of a performance stage capable of simulating flood according to embodiment 1 of the present invention;

fig. 2 is a schematic view of a front structure of a water storage tank in embodiment 1 of the present invention;

fig. 3 is a schematic view of a cross-sectional structure of a float switch according to embodiment 1 of the present invention;

fig. 4 is a schematic side view of a performance stage capable of simulating flood according to embodiment 1 of the present invention;

in the figure, 1 water pool, 2 stages, 3 water storage tanks, 4 horizontal partition plates, 5 water storage layers, 6 communicating pipes, 7 first electromagnetic valves, 8 water discharging pipes, 9 second electromagnetic valves, 10 guide plates, 11 overflow pipes, 12 water collecting tanks, 13 water pumps, 14 water inlet pipes, 15 float switches, 16 pipe barrels, 17 floating balls, 18 normally closed switches, 19 lifting plates, 20 anti-skidding structures and 21 hydraulic lifting rods.

Detailed Description

In order to better understand the technical content of the present invention, the following embodiments are provided, and the present invention is further described with reference to the accompanying drawings.

Example 1

Referring to fig. 1-3, a performance stage that can simulate flood, including the stage 2 that has pond 1, the top of stage 2 is equipped with and is located the water storage box 3 of 1 top in pond, be equipped with in the water storage box 3 and cut apart into a plurality of water storage layer 5's horizontal separators 4 with it, horizontal separators 4 are equipped with the communicating pipe 6 of the adjacent water storage layer 5 of a plurality of intercommunication, communicating pipe 6 is equipped with first solenoid valve 7, the bottom of water storage box 3 is equipped with a plurality of drain pipes 8, drain pipe 8 is equipped with second solenoid valve 9, 8 below of drain pipe be equipped with the guide plate 10 that water storage box 3 is connected, 1 lateral wall in pond is equipped with overflow pipe 11, overflow pipe 11 and water collection box 12 intercommunication, be equipped with water pump 13 in the water collection box 12, water pump 13's delivery port passes through inlet tube 14.

The stage 2 is provided with a water pool 1, the water pool 1 is positioned in the middle of the stage 2 and close to the front, a water storage tank 3 is arranged above the water pool 1, and the water storage tank 3 is fixed on the top of the stage 2, such as a ceiling. The water storage tank 3 is internally stored with water, the water storage tank 3 is divided into a plurality of layers by the horizontal partition plates 4, and each water storage layer 5 is internally stored with water. Different water storage layers 5 are communicated with each other through a plurality of communicating pipes 6, the first electromagnetic valve 7 is arranged on the communicating pipe 6, and the water storage layer 5 on the upper layer flows into the water storage layer 5 on the lower layer through the communicating pipe 6 when the first electromagnetic valve 7 is opened. The bottom of water storage box 3 is equipped with a plurality of drain pipes 8, be equipped with second solenoid valve 9 on the drain pipe 8, the water in the water storage layer 5 of bottommost when second solenoid valve 9 opens is discharged through drain pipe 8, guide plate 10 fixed connection is in the bottom of water storage box 3, the both sides of guide plate 10 are equipped with the baffle, from drain pipe 8 exhaust water flow to guide plate 10, and flow to the end back slope and flow down in pond 1 along guide plate 10, the water that inclines down forms the cascade simulation flood, the actor on stage 2 can stand behind the cascade or the place ahead of cascade or pass through the cascade. In the process of drainage, the water storage layer 5 of the lowest layer drains firstly, other water storage layers 5 drain after a period of time, water flows downwards from the uppermost layer in sequence, the water storage layer 5 of the lowest layer stores water, the water level of the lowest layer is relatively stable in the drainage process, and the water pressure discharged through the drain pipe 8 is relatively stable, so that relatively stable water flow is kept. Optionally, each aquifer 5 is provided with a vent valve. After the water level that flows into in the pond 1 reaches the take the altitude, water is discharged from overflow pipe 11 of pond 1 side, and overflow pipe 11 and header tank 12 intercommunication flow to in the header tank 12, are equipped with water pump 13 in the header tank 12, and water pump 13's delivery port passes through inlet tube 14 intercommunication water storage tank 3, and water pump 13 during operation takes out water back to in the water storage tank 3, carries out hydrologic cycle. Because when the drainage simulated flood, water is already stored in the water storage tank 3, the water does not need to be pumped while the drainage is carried out, the water in the water storage tank 3 stores enough water, and a high-power water pump 13 or a plurality of water pumps 13 do not need to be arranged for ensuring the smooth drainage.

Specifically, a float switch 15 is arranged in the water storage layer 5, and the float switch 15 is electrically connected with the first electromagnetic valve 7. The float switch 15 controls the first electromagnetic valve 7 on the communicating pipe 6 communicating the water storage layer 5 where the float switch 15 is located and the upper water storage layer 5, for example, the float switch 15 in the lowest water storage layer 5 is electrically connected with the first electromagnetic valve 7 of the communicating pipe 6 communicating the lowest water storage layer and the penultimate water storage layer 5.

Specifically, the float switch 15 comprises a tube 16, a float 17 and a normally closed switch 18, wherein the bottom of the tube 16 is communicated with the aquifer 5, the normally closed switch 18 is arranged at the top of the tube 16, and the float 17 is arranged in the tube 16. The pipe barrel 16 is a pipe barrel 16 with an upper opening and a lower opening, the bottom of the pipe barrel 16 is communicated with the water storage layer 5, the height of the water level in the water storage layer 5 is the same as that of the water level in the pipe barrel 16, the floating ball 17 floats up and down in the pipe barrel 16 along with the height of the water level, the floating ball 17 moves upwards to press the normally closed switch 18 when the water level is high, the normally closed switch 18 is pressed to cut off a circuit, and the first electromagnetic valve 7 is closed. When the water level is too low, the floating ball 17 moves downwards to be separated from the normally closed switch 18, the normally closed switch 18 is not pressed, the circuit is electrified to open the first electromagnetic valve 7, and the water storage layer 5 on the upper layer supplies water to the water storage layer 5 on the lower layer. The second solenoid valve 9 is controlled by a worker through a switch manually, the 5 water levels of the water storage layers at the lowest layer after being drained by the drain pipe 8 are replenished through the 5 water storage layers at the last but one layer, the 5 water levels of the water storage layers at the last but one layer are replenished through the 5 water storage layers at the last but one layer, and the rest can be done by analogy.

Example 2

Referring to fig. 4, the present embodiment is different from embodiment 1 in that a lifting plate 19 and a lifting device are provided in the pool 1, the lifting device is installed in the pool 1, and the lifting plate 19 is connected to the top of the lifting device. The lifting device is used for lifting, a lifting plate 19 is arranged at the top of the lifting device, and the lifting plate 19 is lifted through the lifting device. The performer can stand on the lifting plate 19 during performance, the height of the performer body submerged on the water surface can be adjusted by adjusting the height of the lifting plate 19, and the effect of the stage 2 submerged by water can be simulated.

Specifically, the lifting plate 19 is provided with an anti-slip structure 20. Improve the friction force and prevent the actor from slipping. Specifically, the anti-slip structure 20 is an anti-slip protrusion or an anti-slip groove. The structure is simple.

Specifically, the lifting device is a hydraulic lifting rod 21, and the hydraulic lifting rod 21 is connected with an external hydraulic pump. The lifting plate 19 is lifted by the hydraulic lifting rod 21, so that the lifting force is large and the structure is stable.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a performance stage that can simulate flood, a serial communication port, including the stage that has the pond, the top of stage is equipped with and is located the water storage box of pond top, be equipped with the horizontal baffle of cutting apart into a plurality of water storage layer with it in the water storage box, horizontal baffle is equipped with the communicating pipe of the adjacent water storage layer of a plurality of intercommunication, communicating pipe is equipped with first solenoid valve, the bottom of water storage box is equipped with a plurality of drain pipes, the drain pipe is equipped with the second solenoid valve, the drain pipe below be equipped with the guide plate that the water storage box is connected, the pond lateral wall is equipped with the overflow pipe, overflow pipe and water collection box intercommunication, be equipped with the water pump in the water collection box, the delivery.

2. A performance stage capable of simulating a flood as claimed in claim 1, wherein a float switch is provided in the aquifer, the float switch being electrically connected to the first solenoid valve.

3. A performance stage according to claim 2, wherein the float switch comprises a tube, a float and a normally closed switch, the bottom of the tube is in communication with the aquifer, the normally closed switch is disposed on the top of the tube, and the float is disposed within the tube.

4. A flood simulating performance stage according to claim 1 wherein a lifting plate and a lifting device are provided within the basin, the lifting device being mounted within the basin, the lifting plate being connected to a top of the lifting device.

5. A flood simulating performance stage according to claim 4, wherein the elevating plate is provided with an anti-slip structure.

6. A flood simulating performance stage according to claim 5, wherein the anti-slip structures are anti-slip projections or grooves.

7. A flood simulating performance stage according to claim 4, wherein the lifting means is a hydraulic lifting rod connected to an external hydraulic pump.

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