CN204163930U - One cleans wind power plant automatically - Google Patents

Abstract

The utility model provides one and automatically cleans wind power plant, be mainly used in wind power plant, the base of equipment is set to the cube bucket of storing water by the utility model, the front surface of base is provided with PLC, upper surface is provided with the strut of inner band conduit pipe, the top of strut is connected with generator and running shaft by transverse support bar, running shaft is provided with three blades, blade is provided with slideway, the inner of slideway is provided with slidably hairbrush, hairbrush inside is connected with liquide separating tube, surface is provided with osculum and bristle, each liquide separating tube is connected with conduit pipe by liquid distributing head, the neutral position of blade is provided with optical flame detector, optical flame detector is controlled by PLC together with hairbrush, the utility model is reasonable in design, easy to use, the automated cleaning of power generation blade is realized by PLC, labour force can be saved, leaf weight after clean is little, rotating speed is fast, the generated output of equipment can be improved.

Description

One cleans wind power plant automatically

Technical field

The utility model relates to a kind of power generating equipment, and particularly one cleans wind power plant automatically, belongs to technical field of wind power generating equipment.

Background technique

Wind energy is one of the most clean, free of contamination renewable energy sources.Survey according to expert is estimated, and global available wind energy resources is 20,000,000,000 kilowatts, is about 10 times that can utilize waterpower resourses.If utilize the wind energy energy of 1%, the electricity of the existing generating total amount 8% ~ 9% in the world can be produced.Predict according to relevant department, China can utilize wind energy resources to be about 1,600,000,000 kilowatts, what wherein have fine value is about 2.53 hundred million kilowatts, therefore, improve wind power plant efficiency to meet people's need for electricity and energy-saving and emission-reduction most important, but, under wind power plant is in windy environment for a long time, the blade of wind-driven generator easily deposits more dust, increases blade own wt, affect its generated output.

Model utility content

The purpose of this utility model overcomes prior art deficiency, provide one and automatically clean wind power plant, be mainly used in wind power plant, the base of equipment is set to the cube bucket of storing water by the utility model, the front surface of base is provided with PLC, upper surface is provided with the strut of inner band conduit pipe, the top of strut is connected with generator and running shaft by transverse support bar, running shaft is provided with three blades, blade is provided with slideway, the inner of slideway is provided with slidably hairbrush, hairbrush inside is connected with liquide separating tube, surface is provided with osculum and bristle, each liquide separating tube is connected with conduit pipe by liquid distributing head, the neutral position of blade is provided with optical flame detector, optical flame detector is controlled by PLC together with hairbrush, the utility model is reasonable in design, easy to use, the automated cleaning of power generation blade is realized by PLC, labour force can be saved, leaf weight after clean is little, rotating speed is fast, the generated output of equipment can be improved.

For solving the problems of the technologies described above, the technological scheme that the utility model adopts is:

One cleans wind power plant automatically, comprise bucket base, PLC, strut, conduit pipe, transverse support bar, blade, running shaft, liquid distributing head, optical flame detector, slideway, hairbrush, liquide separating tube, generator and micro-Electric actuator, described bucket base is cube, front surface is provided with PLC, upper surface is provided with strut, strut inside is provided with conduit pipe, the top of strut is connected with transverse support bar, one end of transverse support bar is connected with generator, the other end is connected with running shaft, running shaft is provided with three blades, blade is provided with slideway, the inner of slideway is provided with slidably hairbrush, hairbrush is driven by micro-Electric actuator, inside is connected with liquide separating tube, surface is provided with osculum and bristle, each liquide separating tube is connected with conduit pipe by liquid distributing head, the neutral position of blade is provided with optical flame detector, optical flame detector is controlled by PLC together with hairbrush.

Above-mentioned bucket base is cube, and front surface is provided with PLC, and upper surface is provided with strut.

Above-mentioned blade is provided with slideway, and the inner of slideway is provided with slidably hairbrush and optical flame detector, and optical flame detector is controlled by PLC together with hairbrush.

Above-mentioned hairbrush is driven by micro-Electric actuator, and inside is connected with liquide separating tube, and surface is provided with osculum and bristle.

Above-mentioned optical flame detector is made up of dust Detecting element, and adopt laser diode as the light source of sensor, photosensitive element receives and produces pulse signal, and signal transmission processes to PLC.

The utility model compared to existing technology, has following advantage:

Reasonable in design, easy to use, realized the automated cleaning of power generation blade by PLC, can save labour force, the leaf weight after clean is little, and rotating speed is fast, can improve the generated output of equipment.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technological scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation that the application implements;

Fig. 2 is the structural representation of the hairbrush that the application implements;

In figure, 1 is bucket base, and 2 is PLC, and 3 is strut, and 4 is conduit pipe, and 5 is transverse support bar, 6 is blade, and 7 is running shaft, and 8 is liquid distributing head, and 9 is optical flame detector, and 10 is slideway, and 11 is hairbrush, 12 is liquide separating tube, and 13 is generator, and 14 is micro-Electric actuator, and 15 is osculum, and 16 is bristle.

Embodiment

In order to better understand technique scheme, below in conjunction with Figure of description and concrete mode of execution, technique scheme is described in detail.

As Figure 1-Figure 2, a kind of New type automatic cleaning wind power plant, comprises bucket base 1, PLC 2, strut 3, conduit pipe 4, transverse support bar 5, blade 6, running shaft 7, liquid distributing head 8, optical flame detector 9, slideway 10, hairbrush 11, liquide separating tube 12, generator 13 and micro-Electric actuator 14, described bucket base 1 is cube, front surface is provided with PLC 2, upper surface is provided with strut 3, strut 3 inside is provided with conduit pipe 4, the top of strut 3 is connected with transverse support bar 5, one end of transverse support bar 5 is connected with generator 13, the other end is connected with running shaft 7, running shaft 7 is provided with three blades 6, and blade 6 is provided with slideway 10, and the inner of slideway 10 is provided with slidably hairbrush 11, hairbrush 11 is driven by micro-Electric actuator, inside is connected with liquide separating tube 12, and surface is provided with osculum 15 and bristle 16, and each liquide separating tube 12 is connected with conduit pipe 4 by liquid distributing head 8, the neutral position of blade 6 is provided with optical flame detector 9, and optical flame detector 9 is controlled by PLC 2 together with hairbrush 11.

Wherein in actual applications, described bucket base 1 is cube, front surface is provided with PLC 2, upper surface is provided with strut 3, cube bucket base 1 one aspect can play the effect of water storage, can increase the stability of equipment on the other hand, PLC 2 can realize the automation of cleaning course.

Wherein in actual applications, described blade 6 is provided with slideway 10, the inner of slideway 10 is provided with slidably hairbrush 11 and optical flame detector 9, optical flame detector 9 is controlled by PLC 2 together with hairbrush 11, after hairbrush 11 receives the signal of PLC 2, carry out slip cleaning by slideway 10 on the surface of blade 6.

Wherein in actual applications, described hairbrush 11 is driven by micro-Electric actuator, inside is connected with liquide separating tube 12, surface is provided with osculum 15 and bristle 16, hairbrush 11 is driven by micro-Electric actuator in cleaning course, water in bucket base 1 is flowed out at osculum 15 via after liquide separating tube 12, use be with bristle 16 pairs of blades to clean.

Wherein in actual applications, described optical flame detector 9 is made up of dust Detecting element, adopt laser diode as the light source of sensor, photosensitive element receives and produces pulse signal, signal transmission processes to PLC 2, when blade surface dust is more, optical flame detector 9 can produce pulse signal to PLC 2, and then PLC control 2 control hairbrush 11 pairs of blades clean.

During use when blade surface dust is more, optical flame detector 9 can produce pulse signal to PLC 2, then PLC control 2 control hairbrush 11 carry out slip cleaning by slideway 10 on the surface of blade 6, hairbrush 11 is driven by micro-Electric actuator in cleaning course, water in bucket base 1 is flowed out at osculum 15 via after liquide separating tube 12, use be with bristle 16 pairs of blades to clean.

The above, it is only preferred embodiment of the present utility model, not any pro forma restriction is done to the utility model, although the utility model discloses as above with preferred embodiment, but and be not used to limit the utility model, any those skilled in the art, do not departing within the scope of technical solutions of the utility model, make a little change when the technology contents of above-mentioned announcement can be utilized or be modified to the Equivalent embodiments of equivalent variations, in every case be the content not departing from technical solutions of the utility model, according to any simple modification that technical spirit of the present utility model is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (5)

1. one kind is cleaned wind power plant automatically, comprise bucket base (1), PLC (2), strut (3), conduit pipe (4), transverse support bar (5), blade (6), running shaft (7), liquid distributing head (8), optical flame detector (9), slideway (10), hairbrush (11), liquide separating tube (12), generator (13) and micro-Electric actuator (14), it is characterized in that: described bucket base (1) is cube, front surface is provided with PLC (2), upper surface is provided with strut (3), strut (3) inside is provided with conduit pipe (4), the top of strut (3) is connected with transverse support bar (5), one end of transverse support bar (5) is connected with generator (13), the other end is connected with running shaft (7), running shaft (7) is provided with three blades (6), blade (6) is provided with slideway (10), the inner of slideway (10) is provided with slidably hairbrush (11), hairbrush (11) is driven by micro-Electric actuator, inside is connected with liquide separating tube (12), surface is provided with osculum (15) and bristle (16), each liquide separating tube (12) is connected with conduit pipe (4) by liquid distributing head (8), the neutral position of blade (6) is provided with optical flame detector (9), optical flame detector (9) is controlled by PLC (2) together with hairbrush (11).

2. one according to claim 1 cleans wind power plant automatically, it is characterized in that: described bucket base (1) is cube, and front surface is provided with PLC (2), and upper surface is provided with strut (3).

3. one according to claim 1 cleans wind power plant automatically, it is characterized in that: described blade (6) is provided with slideway (10), the inner of slideway (10) is provided with slidably hairbrush (11) and optical flame detector (9), and optical flame detector (9) is controlled by PLC (2) together with hairbrush (11).

4. one according to claim 1 cleans wind power plant automatically, it is characterized in that: described hairbrush (11) is driven by micro-Electric actuator, inside is connected with liquide separating tube (12), and surface is provided with osculum (15) and bristle (16).

5. one according to claim 1 cleans wind power plant automatically, it is characterized in that: described optical flame detector (9) is made up of dust Detecting element, adopt laser diode as the light source of sensor, photosensitive element receives and produces pulse signal, and signal transmission processes to PLC (2).