CN217306068U - Remote wireless control water surface movable image device - Google Patents

Abstract

The utility model discloses a remote wireless control water surface movable imaging device, which comprises a light and shadow unit, a remote data receiving processor, a controller, an energy storage battery and an underwater moving mechanism; the light and shadow unit, the remote data receiving processor, the controller and the energy storage battery are all arranged on the underwater moving mechanism, and the light and shadow unit, the remote data receiving processor, the energy storage battery and the underwater moving mechanism are all connected with the controller; the remote data receiving processor is connected with the onshore control station. The advantages are that: the structure is simple and reliable, the cost performance is high, the light and shadow unit can be controlled to lift up and down and move back and forth, various dynamic light and shadow images can be better reflected with the interaction of the color fountain, and new and unique visual enjoyment is presented to audiences.

Description

Remote wireless control water surface movable image device

Technical Field

The utility model relates to a shadow waterscape technical field especially relates to a portable image device of remote wireless control water face.

Background

At present, a large-scale light and shadow water show system is arranged on the water surface of rivers and lakes in many scenic spots and parks, images interact with a color fountain, and therefore visual impact force is generated on customers, and the purpose of attracting the customers is achieved.

The existing light, shadow and water show system generally arranges a projection device or an LED electronic screen on an unmanned ship so as to realize the interaction between an image and a color fountain, but has the defects of complex structure, low cost performance, high operation cost and the like.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable image device of long-range wireless control water face to solve the aforementioned problem that exists among the prior art.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

a remote wireless control water surface movable image device comprises a light and shadow unit, a remote data receiving processor, a controller, an energy storage battery and an underwater moving mechanism; the light and shadow unit, the remote data receiving processor, the controller and the energy storage battery are all arranged on the underwater moving mechanism, and the light and shadow unit, the remote data receiving processor, the energy storage battery and the underwater moving mechanism are all connected with the controller; the remote data receiving processor is connected with the onshore control station.

Preferably, the light and shadow unit is a liftable LED screen, and the LED screen is connected with the controller; or, the shadow unit includes projector and liftable projection curtain, the projector with the projection curtain all with the controller links to each other.

Preferably, the light and shadow unit comprises a light and shadow sealed box, and the projector is arranged in the light and shadow sealed box.

Preferably, the underwater moving mechanism comprises a mounting seat, a stepping motor, a speed reducer, a driving chain wheel, a chain, a driven chain wheel, a transmission gear, a supporting frame unit, a guide rail and a frame; the supporting frame unit is in contact with the upper surface of the guide rail and can move along the length direction of the guide rail, and the stepping motor, the speed reducer, the driving chain wheel, the driven chain wheel and the transmission gear are all arranged on the mounting seat; the stepping motor is connected with a speed reducer and a controller, the speed reducer is connected with the driving chain wheel, the chain bypasses the driving chain wheel and the driven chain wheel, the driven chain wheel is connected with the transmission gear through a transmission shaft, a rack is arranged on the lower surface of the guide rail along the length direction of the guide rail, and the transmission gear is meshed with the rack; the frame is connected with the mounting seat, a plurality of guide units are connected to the frame at intervals, and the guide units are matched with the guide rails; the light and shadow unit is arranged on the upper surface of the frame.

Preferably, the mounting seat comprises a mounting plate, a supporting frame unit and a fixing plate; the fixing plate is vertically arranged, the mounting plate is perpendicular to the fixing plate and arranged on the fixing plate, a supporting frame unit is connected onto the fixing plate and located below the mounting plate, the supporting frame unit is matched with the guide rail, and the stepping motor and the speed reducer are arranged on the mounting plate; the driving chain wheel and the driven chain wheel are arranged on one side of the fixing plate, which is far away from the mounting plate, from top to bottom at intervals, and the transmission gear is arranged on the other side of the fixing plate, which is close to the mounting plate; the frame is connected with the mounting plate through a connecting rod.

Preferably, the LED screen or the projection screen is arranged on the frame; the light and shadow sealing box is characterized in that a triangular frame protruding outwards and extending is arranged on one side of the circumferential direction of the frame, and the light and shadow sealing box is arranged on the triangular frame.

Preferably, the guide unit comprises a connecting plate, and a guide wheel and a guide frame unit which are arranged on the connecting plate, the connecting plate is fixedly connected with the vehicle frame, and the guide wheel and the guide frame unit are matched with the guide rail.

Preferably, a battery seal box is arranged on the mounting plate, and the energy storage battery is arranged inside the battery seal box.

Preferably, a heat dissipation system is arranged on the battery seal box, and the heat dissipation system comprises a radiator, a heat conduction fan and a heat pipe; the heat conduction fan is connected with the controller, the heat conduction fan is arranged inside the battery seal box and connected with the radiator, the heat pipe stretches into the inside of the battery seal box and connected with the radiator, the radiator is arranged on the outer wall of the battery seal box and inside the battery seal box, and the heat pipe is connected with the radiator arranged inside and outside the battery seal box respectively.

Preferably, the heat dissipation system further comprises an air pressure regulator connected with the controller, the air pressure regulator is arranged on the outer wall of the battery sealing box, and the air pressure regulator partially extends into the battery sealing box.

The utility model has the advantages that: 1. the structure is simple and reliable, the cost performance is high, the light and shadow unit can be controlled to lift up and down and move back and forth, various dynamic light and shadow images can be better reflected with the interaction of the color fountain, and new and unique visual enjoyment is presented to audiences. 2. The heat dissipation system can guarantee good sealing performance of the battery sealing box and guarantee continuous and stable work of the energy storage battery.

Drawings

Fig. 1 is a schematic structural diagram of an imaging device according to an embodiment of the present invention;

fig. 2 is a schematic structural view of an image device according to an embodiment of the present invention without a light and shadow unit;

fig. 3 is a schematic view illustrating another structure of the imaging device without the light and shadow unit according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a heat dissipation system according to an embodiment of the present invention.

In the figure: 1. a light and shadow unit; 2. a light and shadow seal box; 3. an energy storage cell; 4. a battery seal case; 5. a stepping motor; 6. a speed reducer; 7. a drive sprocket; 8. a chain; 9. a driven sprocket; 10. a transmission gear; 11. a guide rail; 12. a rack; 13. a frame; 14. a triangular frame; 15. mounting a plate; 16. a fixing plate; 17. a support frame unit; 18. a guide wheel; 19. a connecting plate; 20. a guide frame unit; 21. a heat-conducting fan; 22. a heat sink; 23. a heat pipe; 24. an air pressure regulator.

The mounting seat comprises 15, 16 and 17; the guiding unit comprises 18, 19, 20.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only.

As shown in fig. 1 to 4, in the present embodiment, a remote wireless control water surface movable image device is provided, which includes a light and shadow unit 1, a remote data receiving processor, a controller, an energy storage battery 3 and an underwater moving mechanism; the shadow unit 1, the remote data receiving processor, the controller and the energy storage battery 3 are all arranged on the underwater moving mechanism, and the shadow unit 1, the remote data receiving processor, the energy storage battery 3 and the underwater moving mechanism are all connected with the controller; the remote data receiving processor is connected with the onshore control station.

The remote data receiving processor receives signals sent by the onshore control station, processes the signals and sends the processed signals to the controller, and the controller receives the signals to control the work of the light and shadow unit 1 and the movement of the underwater moving mechanism.

The energy storage battery 3 is used for providing electric energy used in working for the remote data receiver, the controller, the light and shadow unit 1 and the underwater moving mechanism.

In this embodiment, when a light and shadow show on water is needed, a plurality of remote wireless control water surface movable image devices can be arranged in water, and the image generated by the light and shadow unit 1 is interactive with the color fountain, so as to generate strong visual impact to audiences.

In this embodiment, the light and shadow unit 1 is a liftable LED screen, and the LED screen is connected to the controller; or, light and shadow unit 1 includes projector and liftable projection curtain, the projector with the projection curtain all with the controller links to each other.

When the shadow unit 1 is an LED screen, the controller controls the lifting, opening and closing of the LED screen and content playing; when the light and shadow unit 1 is a projector and a liftable projection screen, the controller controls the opening and closing of the projector and the content playing, and also controls the lifting of the projection screen.

In this embodiment, the light and shadow unit 1 includes a light and shadow sealed box 2, and the projector is disposed in the light and shadow sealed box 2. When the light and shadow unit 1 is a projector and a liftable projection screen, in order to avoid water entering into the projector, the light and shadow seal box 2 is arranged, and the projector is arranged in the light and shadow seal box 2 to ensure that the projector is not contacted with water. Meanwhile, in order to ensure the normal projection of the projector, the light and shadow seal box 2 should be made of transparent materials.

In this embodiment, the underwater moving mechanism includes a mounting base, a stepping motor 5, a reducer 6, a driving sprocket 7, a chain 8, a driven sprocket 9, a transmission gear 10, a support frame unit 17, a guide rail 11 and a frame 13; the supporting frame unit 17 is in contact with the upper surface of the guide rail 11 and can move along the length direction of the guide rail 11, and the stepping motor 5, the speed reducer 6, the driving sprocket 7, the driven sprocket 9 and the transmission gear 10 are all arranged on the mounting seat; the stepping motor 5 is connected with a speed reducer 6 and a controller, the speed reducer 6 is connected with the driving chain wheel 7, the chain 8 bypasses the driving chain wheel 7 and the driven chain wheel 9, the driven chain wheel 9 is connected with the transmission gear 10 through a transmission shaft, a rack 12 is arranged on the lower surface of the guide rail 11 along the length direction of the guide rail, and the transmission gear 10 is meshed with the rack 12; the frame 13 is connected with the mounting seat, a plurality of guide units are connected to the frame 13 at intervals, and the guide units are matched with the guide rail 11; the light and shadow unit 1 is arranged on the upper surface of the frame 13.

The working principle of the underwater moving mechanism is as follows: the stepping motor 5 drives the driving sprocket 7 to rotate through the speed reducer 6, the driving sprocket 7 drives the driven sprocket 9 to rotate through the chain 8, the driven sprocket 9 drives the transmission gear 10 to rotate through the transmission shaft, the transmission gear 10 is meshed with the rack 12 to enable the rack 12 to move along the guide rail 11, the frame 13 is further driven to move along the guide rail 11 along with the support frame unit 17 under the meshing with the rack 12, and the light and shadow unit 1 on the frame 13 moves along with the frame 13.

In this embodiment, the mounting seat includes a mounting plate 15, a support frame unit 17, and a fixing plate 16; the fixing plate 16 is vertically arranged, the mounting plate 15 is perpendicular to the fixing plate 16 and arranged on the fixing plate 16, a supporting frame unit 17 is connected to the fixing plate 16, the supporting frame unit 17 is located below the mounting plate 15, the supporting frame unit 17 is matched with the guide rail 11, and the stepping motor 5 and the speed reducer 6 are both arranged on the mounting plate 15; the driving chain wheel 7 and the driven chain wheel 9 are arranged on one side of the fixing plate 16 far away from the mounting plate 15 from top to bottom at intervals, and the transmission gear 10 is arranged on the other side of the fixing plate 16 close to the mounting plate 15; the frame 13 is connected to the mounting plate 15 via a connecting rod.

The support frame unit 17 can provide enough support force for the mounting plate 15, and the mounting plate 15 is prevented from being deformed after the components on the mounting plate 15 are mounted, so that the normal movement of the underwater moving mechanism is ensured. The support frame unit 17 cooperates with the guide rail 11 to ensure that the mounting seat and the components mounted thereon move more smoothly as the pinion 10 moves along the rack 12.

In this embodiment, the LED screen or the projection screen is disposed on the frame 13; a triangular frame 14 which protrudes outwards and extends is arranged on one side of the circumferential direction of the frame 13, and the light and shadow seal box 2 is arranged on the triangular frame 14.

When the light and shadow unit 1 is an LED screen, the triangular frame 14 is not required. When the light and shadow unit 1 is a projector or a liftable projection screen, the triangular frame 14 needs to be arranged to ensure that there is a sufficient distance between the projector and the projection screen and to ensure the normal display of the projection content.

In this embodiment, the guiding unit includes a connecting plate 19, and a guiding wheel 18 and a guiding frame unit 20 that are disposed on the connecting plate 19, the connecting plate 19 is fixedly connected to the vehicle frame 13, and the guiding wheel 18 and the guiding frame unit 20 are mutually matched with the guiding rail 11. Referring to fig. 3, two guide wheels 18 are provided in each guide unit. The number of the guide units can be set according to actual conditions so as to better meet actual requirements.

The guide frame unit 20 is provided to provide sufficient support and stability to the carriage 13, thereby ensuring that the carriage 13 can move forward and backward along the guide rail 11. The guide frame unit 20 is matched with the guide rail 11, so that the friction force between the vehicle frame 13 and the guide rail 11 is reduced, and the vehicle frame 13 can move more smoothly.

In this embodiment, the mounting plate 15 is provided with a battery sealing box 4, and the energy storage battery 3 is arranged inside the battery sealing box 4. The battery sealing box 4 is used for preventing the energy storage battery 3 from contacting water, and ensuring that the energy storage battery 3 can stably provide electric energy required by work for the shadow unit 1, the underwater moving mechanism, the remote data receiving processor and the controller.

In this embodiment, the battery sealing box 4 is provided with a heat dissipation system, and the heat dissipation system includes a heat sink 22, a heat conduction fan 21 and a heat pipe 23; the heat conduction fan 21 with the controller links to each other, the heat conduction fan 21 sets up the battery seal box 4 is inside to link to each other with the radiator, heat pipe 23 stretches into the battery seal box 4 is inside to link to each other with radiator 22, radiator 22 sets up on the outer wall of battery seal box 4 and the inside of battery seal box 4, heat pipe 23 links to each other with the radiator 22 of the inside and outside setting of battery seal box 4 respectively. .

The medium in the heat pipe 23 is heated, evaporated and absorbed by the hot air in the battery seal box 4 to become gas, and the gas enters the radiator 22 outside the battery seal box 4, the gas medium is condensed into liquid medium by the radiator 22 to release heat, and the liquid medium enters the heat pipe 23 again, and the circulation is performed, so that the heat dissipation and temperature reduction of the battery seal box 4 are realized.

The heat dissipation system further comprises an air pressure regulator 24 connected with the controller, wherein the air pressure regulator 24 is arranged on the outer wall of the battery sealing box 4, and the air pressure regulator 24 partially extends into the battery sealing box 4.

When the energy storage battery 3 in the battery sealing box 4 works, the air pressure in the battery sealing box 4 is increased by the heated air pressure, and the pressure regulator 24 is axially stretched by the internal pressure; when the air pressure in the battery can 4 drops back to a reduced pressure, the pressure regulator 24 retracts axially. This makes it possible to equalize the pressure in the battery sealing case 4 so as not to generate an excessive positive pressure or negative pressure, ensuring the sealability of the battery sealing case 4.

Through adopting the utility model discloses an above-mentioned technical scheme has obtained following profitable effect:

the utility model provides a portable image device of long-range wireless control surface of water, the device simple structure is reliable, the sexual valence relative altitude, and control light and shadow unit can oscilaltion and back-and-forth movement, can show the vision enjoyment of new special appearance for spectator better with various developments light and shadow images and colored fountain interdynamic reflection. The heat dissipation system can guarantee good sealing performance of the battery sealing box and guarantee continuous and stable work of the energy storage battery.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be viewed as the protection scope of the present invention.

Claims (10)

1. A remote wireless control water surface movable image device is characterized in that: the system comprises a shadow unit, a remote data receiving processor, a controller, an energy storage battery and an underwater moving mechanism; the light and shadow unit, the remote data receiving processor, the controller and the energy storage battery are all arranged on the underwater moving mechanism, and the light and shadow unit, the remote data receiving processor, the energy storage battery and the underwater moving mechanism are all connected with the controller; the remote data receiving processor is connected with the onshore control station.

2. The remote wireless control water surface movable image device of claim 1, wherein: the light and shadow unit is a liftable LED screen, and the LED screen is connected with the controller; or, the shadow unit includes projector and liftable projection curtain, the projector with the projection curtain all with the controller links to each other.

3. The remote wireless-controlled water surface movable imaging device as claimed in claim 2, wherein: the light and shadow unit comprises a light and shadow seal box, and the projector is arranged in the light and shadow seal box.

4. The remote wireless-controlled water surface movable imaging device as claimed in claim 3, wherein: the underwater moving mechanism comprises a mounting seat, a stepping motor, a speed reducer, a driving chain wheel, a chain, a driven chain wheel, a transmission gear, a supporting frame unit, a guide rail and a frame; the supporting frame unit is in contact with the upper surface of the guide rail and can move along the length direction of the guide rail, and the stepping motor, the speed reducer, the driving chain wheel, the driven chain wheel and the transmission gear are all arranged on the mounting seat; the stepping motor is connected with a speed reducer and a controller, the speed reducer is connected with the driving chain wheel, the chain bypasses the driving chain wheel and the driven chain wheel, the driven chain wheel is connected with the transmission gear through a transmission shaft, a rack is arranged on the lower surface of the guide rail along the length direction of the guide rail, and the transmission gear is meshed with the rack; the frame is connected with the mounting seat, a plurality of guide units are connected to the frame at intervals, and the guide units are matched with the guide rails; the light and shadow unit is arranged on the upper surface of the frame.

5. The remote wireless-controlled water surface movable imaging device as claimed in claim 4, wherein: the mounting seat comprises a mounting plate, a supporting frame unit and a fixing plate; the fixing plate is vertically arranged, the mounting plate is perpendicular to the fixing plate and arranged on the fixing plate, a supporting frame unit is connected onto the fixing plate and located below the mounting plate, the supporting frame unit is matched with the guide rail, and the stepping motor and the speed reducer are both arranged on the mounting plate; the driving chain wheel and the driven chain wheel are arranged on one side of the fixing plate, which is far away from the mounting plate, from top to bottom at intervals, and the transmission gear is arranged on the other side of the fixing plate, which is close to the mounting plate; the frame is connected with the mounting plate through a connecting rod.

6. The remote wireless-controlled water surface movable imaging device as claimed in claim 4, wherein: the LED screen or the projection screen is arranged on the frame; the light and shadow sealing box is characterized in that a triangular frame protruding outwards and extending is arranged on one side of the circumferential direction of the frame, and the light and shadow sealing box is arranged on the triangular frame.

7. The remote wireless-controlled water surface movable imaging device as claimed in claim 4, wherein: the guide unit comprises a connecting plate, and a guide wheel and a guide frame unit which are arranged on the connecting plate, the connecting plate is fixedly connected with the vehicle frame, and the guide wheel and the guide frame unit are matched with the guide rail.

8. The remote wireless control water surface movable image device of claim 5, wherein: be provided with the battery seal box on the mounting panel, energy storage battery sets up the inside of battery seal box.

9. The remote wireless control water surface movable image device of claim 8, wherein: a heat dissipation system is arranged on the battery seal box and comprises a radiator, a heat conduction fan and a heat pipe; the heat conduction fan is connected with the controller, the heat conduction fan is arranged inside the battery seal box and connected with the radiator, the heat pipe stretches into the inside of the battery seal box and connected with the radiator, the radiator is arranged on the outer wall of the battery seal box and inside the battery seal box, and the heat pipe is connected with the radiator arranged inside and outside the battery seal box respectively.

10. The remote wireless control water surface movable image device of claim 9, wherein: the heat dissipation system further comprises an air pressure regulator connected with the controller, the air pressure regulator is arranged on the outer wall of the battery sealing box, and part of the air pressure regulator extends into the battery sealing box.

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