CN209940618U - Solar energy fountain aeration equipment - Google Patents

Abstract

The utility model relates to a solar energy application technology field, concretely relates to is a solar energy fountain aeration equipment. The solar fountain aeration device comprises: the photovoltaic distribution box is mounted on the floating support, and a power transmission device is arranged in the photovoltaic distribution box; the photovoltaic panel assembly is mounted on the floating support, and the output end of the photovoltaic panel assembly is connected with the input end of a photovoltaic distribution box power transmission device; the fountain aeration device is arranged on the floating support and comprises a direct-current aeration blower, a connecting pipe and an aerator; one end of the connecting pipe is communicated with the aerator, and the output end of the power transmission device is connected with the power supply end of the direct-current aeration blower. The solar fountain aeration device optimizes the use efficiency of the solar aerator system, and the aerator is directly driven to work by the electric energy generated by solar energy.

Description

Solar energy fountain aeration equipment

Technical Field

The utility model relates to a solar energy application technology field, concretely relates to is a solar energy fountain aeration equipment.

Background

The solar fountain aeration device can directly drive the fountain aerator to operate through photovoltaic power generation to carry out aeration work. The solar power generation system is a novel power generation system, solar energy belongs to clean and renewable energy sources, meanwhile, solar power generation is classified according to working modes and can be divided into a grid-connected solar power generation system and an off-grid solar power generation system, and the grid-connected solar power generation system is widely applied to large power stations and roof distributed power stations.

The solar fountain aeration device belongs to the application of an off-grid solar power generation system and is mainly used for oxygenating a river water body and indirectly treating river water bloom. The existing solar aeration device still has certain defects when in use, although the existing solar aeration device can apply photovoltaic power generation to an aerator system, the existing solar aeration device is influenced by the limitation of sunlight, devices such as a storage battery, a controller and an inverter need to be configured in actual application, and the solar system has low use efficiency due to repeated electric energy conversion, meanwhile, great difficulty is brought to the operation and maintenance of the whole set of aeration device, and the storage battery is in deep discharge for a long time, so that the maintenance cost is high. However, if the existing solar aeration apparatus is not used, the aerator needs to use the commercial power to maintain daily operation, and due to the limitation of the working area of the aerator, the use of the commercial power to drive the aerator is very inconvenient, and many problems also occur, such as: the line is too long and the loss is large, so that the voltage at the end of the aerator is too low, the aerator cannot work, and the like.

Disclosure of Invention

In order to solve the deficiencies existing in the prior art, the utility model provides a solar fountain aeration equipment, solar fountain aeration equipment has optimized the availability factor of solar energy aeration machine system, and the electric energy direct drive aeration machine work that is produced by solar energy.

According to the technical scheme provided by the utility model, a solar energy fountain aeration equipment, solar energy fountain aeration equipment includes:

a floating support is arranged on the upper portion of the floating support,

the photovoltaic distribution box is installed on the floating support, and a power transmission device is arranged in the photovoltaic distribution box;

the photovoltaic panel assembly is mounted on the floating support, and the output end of the photovoltaic panel assembly is connected with the input end of a photovoltaic distribution box power transmission device;

the fountain aeration device is arranged on the floating support and comprises a direct-current aeration blower, a connecting pipe and an aerator; one end of the connecting pipe is communicated with the aerator, and the output end of the power transmission device is connected with the power supply end of the direct-current aeration blower.

Further, the floating scaffold includes: the device comprises a first bracket assembly, a second bracket assembly and a floating device, wherein the first bracket assembly and the second bracket assembly are arranged on the floating device at intervals;

the first bracket assembly and the second bracket assembly comprise a supporting rail and a connecting rail; the supporting rail is arranged above the connecting rail, and an upright post is connected between the supporting rail and the connecting rail.

Furthermore, the fountain aeration device is arranged between the first bracket component and the second bracket component and is fixedly connected with the first bracket component and the second bracket component;

the photovoltaic panel assembly comprises a first photovoltaic panel assembly and a second photovoltaic panel assembly, and the first photovoltaic panel assembly and the second photovoltaic panel assembly are symmetrically arranged on the floating supports on two sides of the fountain aeration device.

Furthermore, the stand has many, and many stands set up along the extending direction interval of support rail and connecting rail.

Further, the floating device comprises a first floating vessel and a second floating vessel;

the two sides of the first bracket component connecting rail are connected with the same sides of the first floating boat and the second floating boat;

and two sides of the second bracket component connecting rail are connected with the other same side of the first floating ship and the second floating ship.

Furthermore, a buoy is sleeved on the fountain aeration device.

Further, still be equipped with communication device in the photovoltaic block terminal.

From the above, it can be seen that the utility model provides a technical scheme, compare with prior art and possess following advantage:

one of the two, the utility model discloses solved the power consumption problem of fountain aeration machine on using, utilized solar cell panel's characteristic (daytime electricity generation, stop night) simultaneously, realized that the automation of fountain aeration machine opens and stops.

And secondly, the utility model discloses having optimized from net solar electric system scheme, having saved photovoltaic controller and battery part, having made solar cell panel's electric energy conversion efficiency and utilization ratio higher, reduced solar fountain aeration equipment's fortune dimension cost simultaneously.

Thirdly, the utility model discloses dispose communication device in the device, operating personnel only need press the remote controller and just can realize opening of fountain aeration machine and stop work, has improved the comfort level that the device used greatly.

Fourth, the utility model discloses system simple structure, the installation is nimble convenient, and convenient to use can be at the present existing usefulness of dress of use scene, has fully solved the high difficult problem of cost of transportation, but batch production comes into use.

Drawings

Fig. 1 is a schematic top view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is an electrical connection schematic diagram of the present invention.

100. The floating type solar water heater comprises a floating support, 110, a first support assembly, 111, a support rail, 112, a connecting rail, 113, a stand column, 120, a second support assembly, 130, a floating device, 131, a first floating ship, 132, a second floating ship, 200, a photovoltaic distribution box, 210, a communication device, 220, a power transmission device, 300, a photovoltaic panel assembly, 310, a first photovoltaic panel assembly, 320, a second photovoltaic panel assembly, 400, a fountain aeration device, 410, a direct current aeration blower, 420, a connecting pipe, 430, an aerator and 440, and a buoy.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings. The terms "inner" and "outer" are used to refer to directions toward and away from, respectively, the geometric center of a particular component.

The utility model provides a solar energy fountain aeration equipment, as shown in figure 1 ~ figure 3, solar energy fountain aeration equipment includes:

a floating support 100, the floating support 100 being capable of floating in water;

the photovoltaic distribution box 200 is installed on the floating support 100, and a communication device 210 and a power transmission device 220 are arranged in the photovoltaic distribution box 200; the communication device 210 may adopt an infrared communication unit, a ZigBee communication unit, or a bluetooth communication unit;

the photovoltaic panel assemblies 300 are symmetrically arranged on the floating support 100, and the output ends of the photovoltaic panel assemblies 300 are connected with the input ends of the power transmission devices 220 of the photovoltaic distribution box 200 and are used for converting solar energy into electric energy and transmitting the electric energy to the photovoltaic distribution box 200;

a fountain aeration apparatus 400, the fountain aeration apparatus 400 being mounted on the floating frame 100, the fountain aeration apparatus 400 including a direct current aeration blower 410, a connection pipe 420 and an aerator 430; one end of the connection pipe 420 is communicated with the aerator 430, the output end of the power transmission device 220 is connected with the power supply end of the direct current aeration blower 410, when the direct current aeration blower is used, the other end of the connection pipe 420 is placed in water, and the direct current aeration blower 410 is electrified to work, so that the water at the other end of the connection pipe 420 can be sucked into the connection pipe 420 and then sprayed through the aerator 430.

It should be noted that, since the dc current generated by the conversion of the photovoltaic panel assembly 300 directly supplies power to the dc aeration blower 410 of the fountain aeration apparatus 400, when the dc aeration blower 410 is selected to supply power, the rated voltage of the dc aeration blower 410 is lower than the voltage output by the photovoltaic panel assembly 300.

It can be appreciated that the direct power supply to the fountain aeration device 400 through the photovoltaic panel assembly 300 enables the fountain aeration device 400 to operate, which, on the one hand, simplifies the devices inside the photovoltaic distribution box 200, reduces the weight of the photovoltaic distribution box 200, and prevents the photovoltaic distribution box 200 from being immersed in water for a long time due to its overweight. Communication module among the photovoltaic block terminal 200 can make artifical remote control photovoltaic block terminal 200, the break-make electricity of control photovoltaic block terminal 200, convenient technical staff's maintenance.

To improve the stability of the solar fountain aerator floating on the water surface, the floating frame 100 includes: a first bracket assembly 110, a second bracket assembly 120 and a floating device 130, wherein the first bracket assembly 110 and the second bracket assembly 120 are oppositely and separately arranged on the floating device 130;

the first bracket assembly 110 and the second bracket assembly 120 each include: the supporting rail 111 is arranged above the connecting rail 112, a plurality of upright posts 113 are connected between the supporting rail 111 and the connecting rail 112, and the upright posts 113 are arranged at intervals along the extending direction of the supporting rail 111 and the connecting rail 112.

The fountain aeration apparatus 400 is disposed between the first bracket assembly 110 and the second bracket assembly 120, and is fixedly connected with the connecting rails 112 of the first bracket assembly 110 and the connecting rails 112 of the second bracket assembly 120; the photovoltaic panel assembly 300 comprises a first photovoltaic panel assembly 310 and a second photovoltaic panel assembly 320, and the first photovoltaic panel assembly 310 and the second photovoltaic panel assembly 320 are symmetrically arranged on the floating support 100 on two sides of the fountain aeration device 400. Specifically, the fountain aeration apparatus 400 is installed in the middle of the floating frame 100, the first photovoltaic panel assembly 310 and the second photovoltaic panel assembly 320 are symmetrically disposed on both sides of the floating frame 100, and the support rail 111 of the first frame assembly 110 and the support rail 111 of the second frame assembly 120 of the floating frame 100 support both sides of the first photovoltaic panel assembly 310, while the support rail 111 of the first frame assembly 110 and the support rail 111 of the second frame assembly 120 of the floating frame 100 support both sides of the second photovoltaic panel assembly 320. The symmetrical structure can improve the floating stability of the solar fountain aeration device on the water surface.

To further improve the stability of the solar fountain aerator floating on the water, the floatation device 130 includes a first floating vessel 131 and a second floating vessel 132;

the two sides of the connecting rail 112 of the first bracket component 110 are connected with the same side of the first floating boat 131 and the second floating boat 132;

the second support assembly 120 is connected to the rail 112 at both sides thereof to the same side of the first floating vessel 131 and the second floating vessel 132.

It will be appreciated that first frame assembly 110 and second frame assembly 120 are symmetrically spaced apart from first floating vessel 131 and second floating vessel 132 and are connected together by respective connecting rails 112 thereon.

In order to prevent the fountain aeration apparatus 400 from being completely immersed in water and affecting the aeration operation of the fountain aeration apparatus 400, the head of the fountain aeration apparatus 400 is sleeved with a float 440.

Those of ordinary skill in the art will understand that: the above description is only for the specific embodiments of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A solar fountain aeration apparatus, characterized in that the solar fountain aeration apparatus comprises:

a floating support (100),

the photovoltaic distribution box (200), the photovoltaic distribution box (200) is installed on the floating support (100), and a power transmission device (220) is arranged in the photovoltaic distribution box (200);

the photovoltaic panel assembly (300), the photovoltaic panel assembly (300) is installed on the floating support (100), and the output end of the photovoltaic panel assembly (300) is connected with the input end of a power transmission device (220) of the photovoltaic distribution box (200);

the fountain aeration device (400), the fountain aeration device (400) is installed on the floating support (100), and the fountain aeration device (400) comprises a direct-current aeration blower (410), a connecting pipe (420) and an aerator (430); one end of the connecting pipe (420) is communicated with an aerator (430), and the output end of the power transmission device (220) is connected with the power supply end of the direct current aeration blower (410).

2. The solar fountain aeration apparatus of claim 1, wherein the floatation frame (100) comprises: the floating device comprises a first bracket assembly (110), a second bracket assembly (120) and a floating device (130), wherein the first bracket assembly (110) and the second bracket assembly (120) are arranged on the floating device (130) at intervals;

the first bracket assembly (110) and the second bracket assembly (120) each comprise a support rail (111) and a connecting rail (112); the supporting rail (111) is arranged above the connecting rail (112), and an upright post (113) is connected between the supporting rail (111) and the connecting rail (112).

3. The solar fountain aeration apparatus of claim 2, wherein the fountain aeration apparatus (400) is disposed between the first frame assembly (110) and the second frame assembly (120) and is fixedly attached to the first frame assembly (110) and the second frame assembly (120);

the photovoltaic panel assembly (300) comprises a first photovoltaic panel assembly (310) and a second photovoltaic panel assembly (320), and the first photovoltaic panel assembly (310) and the second photovoltaic panel assembly (320) are symmetrically arranged on the floating supports (100) on two sides of the fountain aeration device (400).

4. The solar fountain aerator of claim 2, wherein the plurality of posts (113) are spaced apart along the extension of the support rails (111) and the connecting rails (112).

5. The solar fountain aeration apparatus of claim 2, wherein the floatation device (130) includes a first floating vessel (131) and a second floating vessel (132);

the two sides of the connecting rail (112) of the first bracket component (110) are connected with the same side of the first floating ship (131) and the second floating ship (132);

two sides of the second bracket component (120) are connected with the connecting rail (112) and are connected with the other same side of the first floating ship (131) and the second floating ship (132).

6. The solar fountain aeration device of claim 1, wherein a float (440) is sleeved on the fountain aeration device (400).

7. The solar fountain aeration apparatus of claim 1, wherein a communication device (210) is further disposed within the photovoltaic power distribution box (200).

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