AU2020101385A4 - A water surface garbage collector - Google Patents

Abstract

The utility model relates to the technical field of water garbage collection, and discloses a water surface garbage collector, comprising hulls, garbage collecting components, driving components and a control system. Hulls comprise the left half and the right half, with the garbage collecting components installed in the middle. Propellers are assembled beneath the hulls for device moving. While solar panels, as well as the camera, are deployed above for electricity supply to driving devices and for remote control. All driving components are connected to propellers and garbage collecting components, with the control system connected to the camera. The utility model is simple in structure and effective in manufacturing cost, enabling operators to easily control in a remote manner, which will reduce labor intensity and raise collection efficiency. 1/2 Fig. 1 11 10 7 3 Fig. 2

Description

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Fig. 1

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A water surface garbage collector

Technical Field

[0001] The utility model relates to the technical field of water garbage collection, in particular for a water garbage collector.

Background

[0002] Persistent, man-made and industrial solid wastes scattered in ocean and inland rivers have an impact on landscape, threaten navigation safety and ecosystem health. Floating garbage as inspected can be divided into plastic bags and bottles, wooden blocks, buoys, etc.

[0003] Garbage collection by human and by ship are methods normally used in the existing technologies. The former performs inefficiently and the latter costs high.

Summary

[0004] The utility model aims to solve the problem of technology deficiency by providing a water surface garbage collector, featuring simple structure and low manufacturing cost. Strength of remote control enables operators to control easily, which will reduce labor intensity and raise efficiency.

[0005] The technical solution adopted by the utility model to achieve the above purpose is as follows:

[0006] The utility model discloses a water surface garbage collector, comprising hulls, garbage collecting components, driving components and a control system. Hulls comprise the left half and the right half, with garbage collecting components installed in the middle. Propellers are assembled beneath the hulls for device moving. While solar panels, as well as the camera, are deployed above for electricity supply to driving devices and for remote control. All driving components are connected to propellers and garbage collecting components, with the control system connected to the camera.

[0007] Further, W shape of solar panels is conducive to solar energy conversion.

[0008] Further, both hulls are fixed through a connecting rack, with a camera installed on it.

[0009] Further, garbage collecting components comprise a salvage rack, a collector and a collection basket in it; both ends of the salvage rack are connected to hulls.

[0010] Further, connector comprises the conveyor belt for garbage collection and the driving roll for belt moving; conveyor belt is inclined, with one end beneath water and the other right above the collection basket.

[0011] Further, several sets of sawteeth for garbage hooking are deployed vertically on the conveyor belt. Each set of sawteeth is scattered on the belt in a V shape. One side of collection basket is straight and the other side is cumbered Garbage collecting will be easier on account of this design, and garbage on the conveyor belt won't fall easily.

[0012] Further, collection basket can be rapidly assembled and disassembled on the salvage rack through the index pins.

[0013] Further, index pin is composed of housing, telescopic part and ring pull. Telescopic part is adjustable in the housing, with one end fixed by the ring pull.

[0014] The benefits of the utility model areas follows:

1. Solar panels are deployed to prolong the service life of collector and save energy. Remote control camera enables operators to easily control the device operation. Garbage can be collected automatically by tying the function of hulls in that of collector. In a nutshell, the utility model is simple in structure and effective in cost, which reduces labor intensity and raises collection efficiency.

Brief Description of Drawings

[0015] Fig. 1 is a schematic structural graph of the utility model.

[0016] Fig. 2 is aside view of theutility model.

[0017] Fig. 3 is a structural sketch of index pin of the utility model.

[0018] Description of major component symbols:

1-left hull, 2-right hull, 3-propeller, 4-solar panel, 5-camera, 6- connecting rack, 7-salvage rack, 8-collection basket, 9-conveyor belt, 10-driving roll, 11-sawtooth, 12-index pin, 121 housing, 122-telescopic part, 123-ring pull.

Description of Embodiments

[0019] To promote technical personnel's understanding of the technical proposal, the utility model will be further elaborated hereafter in connection with the drawings and embodiments.

[0020] As shown in Fig. 1 to 3, the utility model discloses a water surface garbage collector, comprising hulls, garbage collecting components, driving components and a control system. Hulls comprise the left half 1 and the right half 2, with the garbage collecting components installed in the middle. Propellers 3 are assembled beneath hulls for device moving.

[0021] Solar panels 4 are deployed on hulls for electricity supply of driving device, and the design of W shape is for more efficient solar energy conversion. Solar panels are deployed to prolong the service life of collector and save energy.

[0022] Remote-control camera 5 above the collector realizes operation in an easy manner. Left 1 and right hulls 2 are fixed and connected through a connecting rack 6, with the camera assembled on it.

[0023] Driving components are connected to propellers 3 and garbage collecting components, with the control system connected to the camera 5.

[0024] Garbage collecting components comprise a salvage rack 7, a collector and a collection basket 8 in it. Both ends of salvage rack 7 are connected to hulls 2.

[0025] A connector comprises the conveyor belt 9 for garbage collection and the driving roll for belt moving; conveyor belt 9 is inclined, with one end beneath water and the other right above the collection basket 8. Several sets of sawteeth 11 for garbage hooking are deployed vertically on the conveyor belt 9. Each set of sawteeth 11 is scattered on the belt 9 in a V shape. One side of collection basket 8 was direct and the other side is cumbered. Garbage collecting will be easier on account of this design, and garbage on the conveyor belt 9 won't fall easily.

[0026] Collection basket 8 can be rapidly assembled and disassembled on the salvage rack 7 through the index pins 12. Index pin 12 is composed of housing 121, telescopic part 122 and ring pull 123; the telescopic part 122 is adjustable in the housing 121, with one end fixed by the ring pull 123.

[0027] When in use, the recycling device is placed on the water surface to monitor the garbage remotely by a camera 5, and the moving path of the recycling device is determined by controlling the rotation of propellers 3. Collector will take the garbage in water to the collection basket 8 through constant rotation. Recycling device will be parked on the shore to disassemble the full basket 8 rapidly disassembled by pulling the index pin 12, so that the garbage will be emptied and recycled.

[0028] Thus, it can be seen that the utility model is simple in structure and effective in manufacturing cost, supporting remote control and enabling operators to easily control in a remote manner, so as to reduce labor intensity and raise efficiency.

[0029] The above are the preferred embodiments of the utility model, but the protection scope of the utility model is not limited to these. Any changes or substitutions that can easily occur to those skilled in the technical field within the technical scope illustrated by the utility model shall be covered within the protection scope of the utility model.

Claims (8)

CLAIMS:

1. A water surface garbage collector, comprising hulls, garbage collecting components, driving components and a control system; hulls comprise the left half and the right half, with garbage collecting components installed in the middle; propellers are assembled beneath the hulls for device moving, while solar panels, as well as the camera, are deployed above for electricity supply to driving devices and for remote control; all driving components are connected to propellers and garbage collecting components, with the control system connected to the camera.

2. A water surface garbage collector according to claim 1, wherein: the solar panel is bent into a W shape.

3. A water surface garbage collector according to claim 1, wherein: left and right hulls are fixed and connected through a connecting rack, with the camera assembled on it.

4. A water surface garbage collector according to claim 1, wherein: garbage collecting components comprise a salvage rack, a collector and a collection basket in it; both ends of salvage rack are connected to hulls.

5. A water surface garbage collector according to claim 4, wherein: the connector comprises the conveyor belt for garbage collection and the driving roll for belt moving; conveyor belt is inclined, with one end beneath water and the other right above the collection basket.

6. A water surface garbage collector according to claim 5, wherein: several sets of sawteeth for garbage hooking are deployed vertically on the conveyor belt. Each set of sawteeth is scattered on the belt in a V shape. One side of collection basket is straight and the other side is cumbered.

7. A water surface garbage collector according to claim 4, wherein: the collection basket can be rapidly assembled and disassembled on the salvage rack through the index pins.

8. A water surface garbage collector according to claim 7, wherein: the index pin is composed of housing, telescopic part and ring pull; the telescopic part is adjustable in the housing, with one end fixed by the ring pull.