CN205042772U - Photovoltaic module cleaning device - Google Patents
Photovoltaic module cleaning device Download PDFInfo
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- CN205042772U CN205042772U CN201520765261.2U CN201520765261U CN205042772U CN 205042772 U CN205042772 U CN 205042772U CN 201520765261 U CN201520765261 U CN 201520765261U CN 205042772 U CN205042772 U CN 205042772U
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Abstract
The utility model provides a photovoltaic module cleaning device, photovoltaic module cleaning device includes: the walking subassembly, clean subassembly is installed on the walking subassembly, and the walking subassembly moves so that the dirt on the surface of clean unit clean photovoltaic module (1). The technical scheme of the utility model the photovoltaic module dirty problem that influences the generating efficiency on the surface among the prior art has been solved effectively.
Description
Technical field
The utility model relates to solar energy generation technology field, in particular to a kind of photovoltaic module cleaning device.
Background technology
At present, photovoltaic generation is the one in renewable energy power generation mode, and photovoltaic generation is the focus that current photovoltaic power generation technology is applied with building integrated roof photovoltaic generating system.
Along with going from bad to worse of environment and going deep into of mankind's environmental consciousness, photovoltaic generation, as one of dominate green energy, is more and more applied.
Photovoltaic is as solar electrical energy generation, and the biggest factor of restriction generating is the situation of weather, and the secondary cause of restriction generating is the cleaning of photovoltaic panel except the loss avoiding electrical equipment malfunction to bring that manpower can control.The dirt on photovoltaic module surface have impact on the transmissivity of light, and then has influence on the surperficial amount of radiation accepted of photovoltaic module.Meanwhile, the dirt on photovoltaic module surface sticks to cell panel surface, and forms shade on cell panel surface, produces hot plate effect, and then affect generating efficiency in photovoltaic module local.Therefore, the dirt on photovoltaic module surface is quite remarkable on the impact of its generating efficiency.
Utility model content
Main purpose of the present utility model is to provide a kind of photovoltaic module cleaning device, affects the problem of generating efficiency with the dirt solved in prior art on photovoltaic module surface.
To achieve these goals, the utility model provides a kind of photovoltaic module cleaning device, comprising: walking assembly; Cleaning assemblies, be arranged on walking assembly, walking assembly moves to make the dirt on cleaning assemblies clear light photovoltaic assembly surface.
Further, walking assembly comprises the first guide rail and walking mechanism, first guide rails assembling is on the bracing frame supporting photovoltaic module, and walking mechanism is arranged on the first guide rail movably, and walking mechanism is mobile to make the dirt on cleaning assemblies clear light photovoltaic assembly surface on the first guide rail.
Further, walking assembly also comprises mounting bracket, and mounting bracket is arranged in walking mechanism, and cleaning assemblies is arranged on mounting bracket.
Further, walking mechanism and the first guide rail are two, and two the first guide rails assemblings are in the relative both sides of bracing frame, and two walking mechanisms are arranged on two the first guide rails respectively movably, and two walking mechanisms are connected by mounting bracket.
Further, cleaning assemblies comprises: dedusting mechanism, is arranged on mounting bracket; Dust collection mechanism, dust collection mechanism to be arranged on mounting bracket and to be connected with dedusting mechanism; Dust-collecting mechanism, dust-collecting mechanism to be arranged on mounting bracket and to be connected with dedusting mechanism.
Further, dust collection mechanism is arranged in dust-collecting mechanism, and dust-collecting mechanism has suction port, and suction port is connected with dedusting mechanism.
Further, cleaning assemblies also comprises dust discharge mechanism, and dust discharge mechanism is arranged on the dust-exhausting port place of dust-collecting mechanism, and dust discharge mechanism has the dust discharge position of the dust-exhausting port of dodging dust-collecting mechanism and blocks the control of dust position of dust-exhausting port of dust-collecting mechanism.
Further, cleaning assemblies also comprises dust suction force equalization mechanism, and dust suction force equalization mechanism is connected between dedusting mechanism and dust collection mechanism.
Further, cleaning assemblies have clear light photovoltaic assembly cleaning position and dodge photovoltaic module dodge position.
Further, walking assembly also comprises the second guide rail, and the second guide rail is connected to the end of the first guide rail and extends to the direction away from the first guide rail, and when cleaning assemblies is in and dodges position, walking mechanism is positioned on the second guide rail.
Application the technical solution of the utility model, walking assembly moves and drives cleaning assemblies to move, cleaning assemblies moves the dirt on clear light photovoltaic assembly surface, and then effectively cleans photovoltaic module, thus the dirt reduced widely on photovoltaic module surface is on the impact of generating efficiency.
Accompanying drawing explanation
The Figure of description forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:
Fig. 1 shows the perspective view of one end of the embodiment according to photovoltaic module cleaning device of the present utility model;
Fig. 2 shows the schematic side view of the photovoltaic module cleaning device of Fig. 1;
Fig. 3 shows the schematic rear view of the photovoltaic module cleaning device of Fig. 1;
Fig. 4 shows the perspective view of the other end of the photovoltaic module cleaning device of Fig. 1;
Fig. 5 shows the perspective view of the walking mechanism of the photovoltaic module cleaning device of Fig. 1;
Fig. 6 shows the dedusting mechanism of the photovoltaic module cleaning device of Fig. 1 and the perspective view of dust suction force equalization mechanism;
Fig. 7 shows the dedusting mechanism of Fig. 6 and the schematic side view of dust suction force equalization mechanism;
Fig. 8 shows the part-structure schematic diagram of the dedusting mechanism of Fig. 7;
Fig. 9 shows the stereoscopic mechanism schematic diagram of the dust suction force equalization mechanism of Fig. 6;
Figure 10 shows the schematic top plan view of the dust suction force equalization mechanism of Fig. 9;
Figure 11 shows the decomposition texture schematic diagram of the photovoltaic module cleaning device dust collection mechanism of Fig. 1, dust-collecting mechanism and dust discharge mechanism;
Figure 12 shows the stereoscopic mechanism schematic diagram of the dust-collecting cylinder of the dust-collecting mechanism of Figure 11;
Figure 13 shows the stereoscopic mechanism schematic diagram of another angle of the dust-collecting cylinder of Figure 12;
Figure 14 shows the stereoscopic mechanism schematic diagram of the installation portion of the dust-collecting mechanism of Figure 12;
The dust discharge mechanism that Figure 15 shows Figure 11 is in perspective view during dust discharge position;
The perspective view that when dust discharge mechanism that Figure 16 shows Figure 15 is in dust discharge position, trigger unit coordinates with fixed part;
When the dust discharge mechanism that Figure 17 shows Figure 11 is in control of dust position, trigger unit is in stereoscopic mechanism schematic diagram when dodging position;
Figure 18 shows the perspective view of the installed part of the dust discharge mechanism of Figure 11;
Figure 19 shows the perspective view of another angle of the installed part of Figure 18;
Figure 20 shows the perspective view of the connector of the dust discharge mechanism of Figure 11; And
Figure 21 shows the perspective view of the trigger unit of the dust discharge mechanism of Figure 11.
Wherein, above-mentioned accompanying drawing comprises the following drawings mark:
1, photovoltaic module; 2, the first guide rail; 3, bracing frame; 4, mounting bracket; 5, the second guide rail; 6, control cabinet; 7, energy-storage box; 10, walking mechanism; 11, walking vehicle body; 12, the first roller; 13, the second roller; 14, the 3rd roller; 15, the 4th roller; 16, movable motor; 17, decelerator; 20, dedusting mechanism; 21, dust excluding hood; 22, dust removal unit; 23, polishing portion; 24, dedusting motor; 25, transmission mechanism; 30, dust collection mechanism; 31, dust sucting motor; 32, fixture; 40, dust-collecting mechanism; 41, dust-collecting cylinder; 411, suction port; 412, dust-exhausting port; 413, installing port; 42, dust gathering arrester; 43, filter house; 44, installation portion; 50, dust discharge mechanism; 51, dust discharge baffle plate; 52, installed part; 53, connector; 541, the first locating part; 542, the second locating part; 543, the 3rd locating part; 55, trigger unit; 56, the 4th locating part; 57, the 5th locating part; 59, stop part; 60, dust suction force equalization mechanism; 61, housing; 611, balanced entering-dust mouth; 612, balanced dust mouth; 62, septum primum plate; 63, septum secundum plate; 64, the 3rd median septum; 65, baffle plate in first; 66, the 4th median septum; 67, baffle plate in second; 71, the first side dividing plate; 72, the second side dividing plate; 73, the first side shield; 74, the 3rd side dividing plate; 75, the second side shield; 92, fixed part.
Detailed description of the invention
It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.
As shown in Figure 1, the photovoltaic module cleaning device of the present embodiment comprises walking assembly and cleaning assemblies, and cleaning assemblies is arranged on walking assembly, and walking assembly moves to make the dirt on cleaning assemblies clear light photovoltaic assembly 1 surface.
The photovoltaic module cleaning device of application the present embodiment, walking assembly moves and drives cleaning assemblies to move, cleaning assemblies moves the dirt on clear light photovoltaic assembly 1 surface, and then photovoltaic module 1 is cleaned effectively, thus the dirt reduced widely on photovoltaic module 1 surface is on the impact of generating efficiency, ensures photovoltaic module 1 steady operation under efficient state.Simultaneously above-mentioned photovoltaic module cleaning device adopts anhydrous cleaning mode, can saving water resource effectively, solves photovoltaic module 1 in the photovoltaic plant of drought area and cleans problem, is applied to illumination better better and the area of water resources shortage.
As depicted in figs. 1 and 2, alternatively, walking assembly comprises the first guide rail 2 and walking mechanism 10, first guide rail 2 is arranged on the bracing frame 3 of support photovoltaic module 1, walking mechanism 10 is arranged on the first guide rail 2 movably, and walking mechanism 10 is mobile to make the dirt on cleaning assemblies clear light photovoltaic assembly 1 surface on the first guide rail 2.During dirty on clear light photovoltaic assembly 1 surface, at this moment cleaning assemblies is positioned at the top on photovoltaic module 1 surface, and walking mechanism 10 moves on the first guide rail 2, and cleaning assemblies just can clean the dirt on photovoltaic module 1 surface.After clean, cleaning assemblies can be disassembled from walking assembly, not affect the normal use of photovoltaic module 1.Said structure is not when destroying crude oil circuit and facility, the first guide rail 2 installed by the bracing frame 3 supporting photovoltaic module 1, the photovoltaic module cleaning device of the present embodiment have easy for installation, safeguard simple, installation cost is low, use cost is low and the advantage such as safe and reliable.
As shown in Figure 5, alternatively, walking mechanism 10 comprises walking vehicle body 11, and walking vehicle body 11 is arranged on the first guide rail 2 movably, and walking vehicle body 11 is mobile to make the dirt on cleaning assemblies clear light photovoltaic assembly 1 surface on the first guide rail 2.During dirty on clear light photovoltaic assembly 1 surface, at this moment cleaning assemblies is positioned at the top on photovoltaic module 1 surface, and walking vehicle body 11 moves on the first guide rail 2, and cleaning assemblies just can clean the dirt on photovoltaic module 1 surface.After clean, cleaning assemblies can be disassembled from walking assembly, not affect the normal use of photovoltaic module 1.
As shown in Figure 5, alternatively, walking mechanism 10 also comprises the first roller 12, first roller 12 and is installed in rotation on walking vehicle body 11, and the first roller 12 coordinates with the first guide rail 2.Walking vehicle body 11 is arranged on the first guide rail 2 by the first roller 12, when walking vehicle body 11 moves, is rolling friction between the first roller 12 and the first guide rail 2.Facilitate the movement of walking vehicle body 11 like this, walking vehicle body 11 moves more smooth and easy, improves cleaning efficiency.
Alternatively, walking mechanism 10 also comprises the second roller 13, second roller 13 and to be installed in rotation on walking vehicle body 11 and to coordinate with the first guide rail 2, and the second roller 13 lays respectively at the relative both sides of the first guide rail 2 with the first roller 12.Walking vehicle body 11 is coordinated with the relative both sides of the first guide rail 2 by two rollers, walking vehicle body 11 can be made like this to be arranged on the first guide rail 2 more firmly, walking vehicle body 11 is effectively avoided to adopt a roller to be arranged on the situation that the first guide rail 2 may rock, and then ensure that walking vehicle body 11 is more stable in the process of movement, effectively improve cleaning efficiency.
In order to ensure that walking vehicle body 11 is more stable in the process of movement further, alternatively, walking mechanism 10 also comprises the 3rd roller 14,3rd roller 14 to be installed in rotation on walking vehicle body 11 and to coordinate with the first guide rail 2, and the 3rd roller 14 and the first roller 12 are arranged along the bearing of trend interval of the first guide rail 2.The situation that said structure can avoid walking vehicle body 11 to rock in the process of movement effectively, more effectively ensures that walking vehicle body 11 is more stable in the process of movement, improves cleaning efficiency effectively.
In order to further ensure that walking vehicle body 11 is more stable in the process of movement, alternatively, walking mechanism 10 also comprises the 4th roller 15,4th roller 15 to be installed in rotation on walking vehicle body 11 and to coordinate with the first guide rail 2, and the 4th roller 15 and the second roller 13 are arranged along the bearing of trend interval of the first guide rail 2.3rd roller 14 lays respectively at the relative both sides of the first guide rail 2 with the 4th roller 15.The structure of above-mentioned walking assembly is simple, and simple installation is stable, safe and reliable.
Alternatively, walking mechanism 10 also comprises movable motor 16, and movable motor 16 is arranged on walking vehicle body 11, and the first roller 12 is arranged on the output shaft of movable motor 16.The first roller 12 is driven to rotate by movable motor 16, namely walking mechanism 10 is the independent agencies that can walk voluntarily, walking vehicle body 11 uniform motion voluntarily on the first guide rail 2 can be made like this, and then make cleaning assemblies uniform motion voluntarily on photovoltaic module 1, effectively improve cleaning efficiency, reduce the labour intensity of operating personnel.
Alternatively, walking mechanism 10 also comprises decelerator 17, and decelerator 17 is arranged on walking vehicle body 11, and the output shaft of movable motor 16 is connected with the first roller 12 and the 3rd roller 14 respectively by decelerator 17.Decelerator 17 can reduce the rotating speed of the output shaft of movable motor 16, and then reduces the speed of travel of walking vehicle body 11, thus ensures that clean group will clean effectively to photovoltaic module 1.
As shown in Figure 2, alternatively, walking assembly also comprises mounting bracket 4, and mounting bracket 4 is arranged in walking mechanism 10, and cleaning assemblies is arranged on mounting bracket 4.Mounting bracket 4 conveniently can install cleaning assemblies, installs easier, more convenient operation.
As shown in Figure 1, alternatively, walking mechanism 10 and the first guide rail 2 are two, and two the first guide rails 2 are arranged on the relative both sides of bracing frame 3, two walking mechanisms 10 are arranged on two the first guide rails 2 respectively movably, and two walking mechanisms 10 are connected by mounting bracket 4.Mounting bracket 4 can ensure that two walking mechanisms 10 move simultaneously, conveniently can also install cleaning assemblies, effectively ensures that cleaning assemblies stably moves on photovoltaic module 1, and then ensures the cleaning efficiency of cleaning assemblies.Mounting bracket 4 is arranged across photovoltaic module 1, and namely one end of mounting bracket 4 is connected with a walking vehicle body 11, and the other end of mounting bracket 4 is connected with another walking vehicle body 11.Preferably, mounting bracket 4 comprises the first support, the second support and the 3rd support that connect successively, and the first support and the second support have the first angle, and the 3rd support and the second support have the second angle, the first angle and the second angle supplementary angle each other.
As shown in Figure 3, alternatively, cleaning assemblies have clear light photovoltaic assembly 1 cleaning position and dodge photovoltaic module 1 dodge position.When cleaning assemblies is positioned at cleaning position, namely cleaning assemblies is positioned at the top of photovoltaic module 1, and at this moment cleaning assemblies just can clean the dirt on photovoltaic module 1 surface.When cleaning assemblies is positioned at and dodges position, namely cleaning assemblies is in the region not affecting photovoltaic module 1 and normally work, and at this moment cleaning assemblies can carry out itself clean, does not also affect the normal work of photovoltaic module 1.
Alternatively, walking assembly also comprises the second guide rail 5, second guide rail 5 and is connected to the end of the first guide rail 2 and extends to the direction away from the first guide rail 2, and when cleaning assemblies is in and dodges position, walking mechanism 10 is positioned on the second guide rail 5.After clean, walking mechanism 10 moves on the second guide rail 5, and at this moment cleaning assemblies is in the region of dodging photovoltaic module 1 and normally working.Certainly, also can be provided with the second guide rail 5 at the relative two ends of the first guide rail 2, after completing cleaning course, walking mechanism 10 can move on the second guide rail 5 nearby carries out itself clean, improves cleaning efficiency.From foregoing description, the second guide rail 5 is the hiding mechanism of cleaning assemblies, and cleaning assemblies is hidden in the position of not shading light photovoltaic assembly sunlight.
Alternatively, the second guide rail 5 is the decline guide rail lower than the first guide rail 2.Certainly, the second guide rail 5 also can be positioned at sustained height with the first guide rail 2, and namely the first guide rail 2 and the second guide rail 5 synthesize a guide rail, and this spline structure is simple, easy to process, reduces manufacturing cost.
Alternatively, the first guide rail 2 and the second guide rail 5 are T-shaped section bar.The structure of section bar conveniently can install roller, and structure is also simple, reduces costs.Certainly, the structure of the first guide rail 2 and the second guide rail 5 is also not limited to this, rotates as long as can realize roller.
Alternatively, photovoltaic module cleaning device also comprises controller, and controller is all electrically connected with walking assembly and cleaning assemblies.Control walking assembly and cleaning assemblies work and stopping by controller like this, realize the fully automatic operation of photovoltaic module cleaning device, automatically clean on demand, reduce the labour intensity of operating personnel.
Alternatively, the two ends of the first guide rail 2 are provided with limit switch, the second guide rail 5 is provided with shutdown switch, and limit switch and shutdown switch are all electrically connected with controller.After walking vehicle body 11 has cleaned, trigger end stop switch, controlled movable motor 16 by controller and reversely rotate, and stopped the clean of cleaning assemblies, travelled to bus stop (the second guide rail 5).After driving to bus stop, trigger the shutdown switch of bus stop, walking vehicle body 11 stop motion, and open cleaning assemblies, carry out self cleaning.
As shown in Figure 4, alternatively, photovoltaic module cleaning device also comprises control cabinet 6, and controller is arranged in control cabinet 6.Photovoltaic module cleaning device also comprises energy-storage box 7, and energy-storage box 7 is connected with photovoltaic module 1.The electricity be converted to by solar energy can be stored in energy-storage box 7 by photovoltaic module 1.Energy-storage box 7 connects through DC controller and inverter switch and control case 6, and control cabinet 6 is connected with movable motor 16, cleaning assemblies.Like this without the need to additional power supply, directly with the electric energy that photovoltaic module 1 produces, movable motor 16 and cleaning assemblies are powered.During the cloudy day, can be powered to movable motor 16 and cleaning assemblies by additional power supply, namely additional power supply is connected with control cabinet 6.The electric energy that photovoltaic array produces also can directly be connected with DC controller and inverter conversion.Preferably, be provided with battery in energy-storage box 7, in well-lighted situation, photovoltaic module 1 pair of battery charges.
Alternatively, photovoltaic module cleaning device also comprises power-supply system, and power-supply system comprises independently photovoltaic panel, inverter, controller and energy-storage box.Photovoltaic panel is energy-storage box charging in sunny situation, and in use, release energy-storage box institute accumulate energy, being become by inverter can for the electric energy of drive motors.Photovoltaic module cleaning device has independently administration of power supply, also can power by external power of alterating and direct current.
From foregoing description, the photovoltaic module cleaning device of the present embodiment adopts self-propelled fully automatic system, can clear up voluntarily according to demand, after completing cleaning, not affect the normal use of photovoltaic module, achieves the walking certainly of cleaning device and hides.
As shown in Fig. 1 and Figure 11, alternatively, cleaning assemblies comprises dedusting mechanism 20, dust collection mechanism 30 and dust-collecting mechanism 40, dedusting mechanism 20 is arranged on mounting bracket 4, dust collection mechanism 30 to be arranged on mounting bracket 4 and to be connected with dedusting mechanism 20, and dust-collecting mechanism 40 to be arranged on mounting bracket 4 and to be connected with dedusting mechanism 20.During dirty on clear light photovoltaic assembly 1 surface, dedusting mechanism 20 is positioned at the top of photovoltaic module 1, is risen by the dirt brush on photovoltaic module 1 surface, dirt is sucked in dust-collecting mechanism 40 by dust collection mechanism 30, and then reach clean object.
As shown in Figure 6 to 8, alternatively, dedusting mechanism 20 comprises dust excluding hood 21 and dust removal unit 22, dust excluding hood 21 have inner chamber and with the entering-dust mouth of inner space and dust mouth, dust removal unit 22 is installed in rotation in dust excluding hood 21 also stretches out from entering-dust mouth at least in part, and dust removal unit 22 is rotated with the dirt on clear light photovoltaic assembly 1 surface.Dust removal unit 22 is rotated and the dirt brush on photovoltaic module 1 surface can be risen, and under the effect of dust collection mechanism 30, dirt is entered in the inner chamber of dust excluding hood by entering-dust mouth, and then enters in dust-collecting mechanism 40.Arranging of dust removal unit 22 can facilitate dust collection mechanism 30 dirt to be sucked in dust-collecting mechanism 40.Dedusting mechanism 20 adopts anhydrous cleaning mode, achieves anhydrous clean, can saving water resource effectively, is applicable to illumination better and the area of water resources shortage.
Alternatively, dedusting mechanism 20 also comprises polishing portion 23, and polishing portion 23 to be installed in rotation in dust excluding hood 21 and to stretch out from entering-dust mouth at least in part, and dust removal unit 22 and polishing portion 23 are arranged along the length direction interval of photovoltaic module 1.Wherein, the length direction of photovoltaic module 1 refers to the bearing of trend of the first guide rail 2.Bulky grain dust brush on photovoltaic module 1 can rise by dust removal unit 22, and the fine particle dust brush on photovoltaic module 1 can rise by polishing portion 23, by the dust on twice clear light photovoltaic assembly 1 surface, and can by clean for the dust on photovoltaic module 1 surface clean.
Alternatively, the rotation of dust removal unit 22 and the rotation of polishing portion 23 are all perpendicular to the length direction of photovoltaic module 1.Make the rotation of the rotation of dust removal unit 22 and polishing portion 23 all perpendicular to the direction of advance of walking vehicle body 11 like this, can dust effectively on clear light photovoltaic assembly 1 surface.
Alternatively, the direction of rotation of polishing portion 23 is contrary with the direction of rotation of dust removal unit 22.Alternatively, the direction of the linear velocity of the side of the close polishing portion 23 of dust removal unit 22 is away from photovoltaic module 1.Said structure makes dust removal unit 22 and polishing portion 23 subtend rotate, and dust brush rises by dust removal unit 22 and polishing portion 23, and then under the effect of dust collection mechanism 30, dust is entered in dust-collecting mechanism 40 by the space between dust removal unit 22 and polishing portion 23.Effectively can control the secondary pollution of airborne dust like this.Certainly, the direction of rotation of polishing portion 23 also can be identical with the direction of rotation of dust removal unit 22.
Alternatively, dust removal unit 22 is dust removal brush, and/or polishing portion 23 is polish brush.The structure of dust removal brush and polish brush is simple, easy to use, with low cost.Dust brush on photovoltaic module 1 surface rises by the dust removal brush that subtend rotates and polish brush, by dust collection mechanism 30, is sucked into by dust in dust-collecting mechanism 40, reaches cleaning purpose.Preferably, the upper hair of dust removal brush is bristle, oarse-grained dust brush can be risen.The upper hair of polish brush is fine hair, fine particle brush can be risen.
Alternatively, dedusting mechanism 20 also comprises dedusting motor 24, and dedusting motor 24 is arranged on dust excluding hood 21, and polishing portion 23 is connected with the output shaft of dedusting motor 24.Dedusting motor 24 drives polishing portion 23 roll brush to play dust, reduces the labour intensity of cleanup crew.
Alternatively, dedusting mechanism 20 also comprises transmission mechanism 25, and transmission mechanism 25 is connected between polishing portion 23 and dust removal unit 22.Dedusting motor 24 drives polishing portion 23 to rotate, and then drives dust removal unit 22 to rotate by transmission mechanism 25, realizes the automated cleaning of cleaning device, reduces the labour intensity of operating personnel.
As shown in Figure 11 to Figure 13, alternatively, dust collection mechanism 30 is arranged in dust-collecting mechanism 40, and dust-collecting mechanism 40 has suction port 411 and dust-exhausting port 412, and suction port 411 is connected with the dedusting mechanism 20 of cleaning assemblies.Dust collection mechanism 30 has Negative Pressure Dust Collecting System, under the negative pressure of dust collection mechanism 30, dust enters dust-collecting mechanism 40 through the dust mouth of the entering-dust mouth of dust excluding hood 21, dust excluding hood 21 from suction port 411 successively, and the dust that dust-collecting mechanism 40 pairs of dedusting mechanisms 20 are removed is collected.Can be discharged by dust-exhausting port 412 after dust-collecting mechanism 40 collects certain dust.
Alternatively, dust-collecting mechanism 40 comprises dust-collecting cylinder 41 and dust gathering arrester 42, dust-collecting cylinder 41 has the installing port 413 and dust-exhausting port 412 that are oppositely arranged along its axis direction, dust gathering arrester 42 is arranged on installing port 413 place, suction port 411 is arranged on the outer wall of dust-collecting cylinder 41, and dust gathering arrester 42 is provided with the exhaust outlet for dust collection mechanism 30 air draft.Dust-collecting mechanism 40 adopts the structure of dust-collecting cylinder 41 simple, easy to process, and simple installation is with low cost.Under the negative pressure of dust collection mechanism 30, dust enters dust-collecting cylinder 41 through the dust mouth of the entering-dust mouth of dust excluding hood 21, dust excluding hood 21 from suction port 411 successively, and the dust that dust-collecting cylinder 41 pairs of dedusting mechanisms 20 are removed is collected.Can be discharged by dust-exhausting port 412 after dust-collecting cylinder 41 collects certain dust.
As shown in Figure 11 and Figure 14, alternatively, dust-collecting cylinder 41 is arranged on walking vehicle body 11 by installation portion 44.Preferably, installation portion 44 comprises installing ring and mounting bracket, and installing ring is set on dust-collecting cylinder 41, and mounting bracket is arranged on the outer wall of installing ring, and mounting bracket is fixed on walking vehicle body 11 by securing member.
As shown in figure 13, alternatively, suction port 411 place is provided with sweep-up pipe, and the upper end of installing ring has dodges breach for what dodge sweep-up pipe.Sweep-up pipe is connected by the dust mouth of dust collection pipeline with dust excluding hood 21.The dust mouth of dust excluding hood 21 and suction port 411 can conveniently couple together by dust collection pipeline.
As shown in figure 11, alternatively, dust-collecting mechanism 40 also comprises filter house 43, and filter house 43 is arranged in the inner chamber of dust-collecting cylinder 41.Filter house 43 can filter the dust removed.Preferably, filter house 43 is screen pack.The structure of screen pack is simple, easy to use, with low cost.
Alternatively, dust collection mechanism 30 comprises dust sucting motor 31 and fixture 32, and dust sucting motor 31 is arranged on fixture 32, and fixture 32 is arranged on dust-collecting mechanism 40.Dust sucting motor 31 is vacuum motor.The dust that dust removal brush and polish brush are removed under the effect of vacuum motor by the entering-dust mouth collection of dust excluding hood 21, then through the dust mouth of dust excluding hood 21, dust collection pipeline entered in dust-collecting cylinder 41 by suction port 411.Fixture 32 can conveniently fix dust sucting motor 31, convenient installation dust sucting motor 31.
Preferably, fixture 32 is arranged on the inwall of dust-collecting cylinder 41.Fixture 32 is fixed disk, and the middle part of fixed disk is provided with the installation through hole for installing dust sucting motor 31.
As shown in figure 15, alternatively, cleaning assemblies also comprises dust discharge mechanism 50, and dust discharge mechanism 50 is arranged on dust-exhausting port 412 place, and dust discharge mechanism 50 has the dust discharge position (as shown in figure 16) of dodging dust-exhausting port 412 and the control of dust position (as shown in figure 17) of blocking dust-exhausting port 412.After accumulating certain dust in dust-collecting cylinder 41, dust discharge position can be in by controlling dust discharge mechanism 50, at this moment just the dust in dust-collecting cylinder 41 can be discharged.After dust discharge, can control dust discharge mechanism 50 and be in control of dust position, at this moment dust-collecting cylinder 41 just can carry out collection dust.
Alternatively, dust discharge mechanism 50 comprises dust discharge baffle plate 51, and dust discharge baffle plate 51 is arranged on dust-collecting mechanism 40, and dust discharge baffle plate 51 has the dust discharge position of dodging dust-exhausting port 412 and the control of dust position of blocking dust-exhausting port 412.Dust discharge baffle plate 51 is arranged on dust-exhausting port 412 place of dust-collecting cylinder 41.After accumulating certain dust in dust-collecting cylinder 41, dust discharge position can be in by controlling dust discharge baffle plate 51, at this moment just the dust in dust-collecting cylinder 41 can be discharged.After dust discharge, can control dust discharge baffle plate 51 and be in control of dust position, at this moment dust-collecting cylinder 41 just can carry out collection dust.
As shown in Figure 15, Figure 18 and Figure 19, alternatively, dust discharge mechanism 50 also comprises installed part 52, and dust discharge baffle plate 51 is arranged on dust-collecting mechanism 40 by installed part 52.Installed part 52 can conveniently install dust discharge baffle plate 51, installs easier.Installed part 52 is set on the bottom of dust-collecting cylinder 41.Dust discharge baffle plate 51 is arranged on installed part 52.Installed part 52 comprises installing ring and mounting blocks, and installing ring is set on the bottom of dust-collecting cylinder 41, and installing ring is arranged on the outer wall of installing ring.
As shown in Figure 15 and Figure 20, alternatively, dust discharge mechanism 50 also comprises connector 53, and connector 53 is installed in rotation on installed part 52, and dust discharge baffle plate 51 is arranged on the side of the close dust-exhausting port 412 of connector 53.Dust discharge baffle plate 51 can conveniently be installed on installed part 52 by connector 53.Preferably, connector 53 is installed in rotation on mounting blocks.
Alternatively, dust discharge mechanism 50 also comprises locating part, and locating part is arranged on connector 53 and/or installed part 52 to limit the slewing area of connector 53.Locating part can limit the slewing area of connector 53, and the slewing area of connector 53 is that dust discharge baffle plate 51 is in dust discharge position and dust discharge baffle plate 51 is between control of dust position.
As illustrated in figures 19 and 20, alternatively, locating part comprises the first locating part 541, second locating part 542 and the 3rd locating part 543, first locating part 541 is arranged on the side of the close connector 53 of installed part 52, second locating part 542 and the 3rd locating part 543 are arranged on the side of the close installed part 52 of connector 53, and the first locating part 541 is between the second locating part 542 and the 3rd locating part 543.When dust discharge baffle plate 51 is in control of dust position, at this moment the second locating part 542 abuts with the first locating part 541; When needs dust discharge, connector 53 turns an angle, and when dust discharge baffle plate 51 is in dust discharge position, at this moment the 3rd locating part 543 abuts with the first locating part 541.Certainly, the structure of locating part is also not limited to this, as long as can limit the structure of the slewing area of connector 53.
As shown in Figure 16 and Figure 17, alternatively, dust discharge mechanism 50 also comprises trigger unit 55, trigger unit 55 is installed in rotation on one end away from dust discharge baffle plate 51 of connector 53, trigger unit 55 has the trigger position (as shown in figure 16) of triggering connector 53 rotation and dodges position (as shown in figure 17), when trigger unit 55 is positioned at trigger position, dust discharge baffle plate 51 is positioned at dust discharge position; When trigger unit 55 is positioned at and dodges position, dust discharge baffle plate 51 is in control of dust position.Bracing frame 3 is provided with fixed part 92.When needs dust discharge, walking vehicle body 11 moves along direction of travel on the second guide rail 5, trigger unit 55 can encounter fixed part 92 (namely trigger unit 55 and fixed part 92 interfere), walking vehicle body 11 continues mobile, trigger unit 55 is in trigger position, and at this moment dust discharge baffle plate 51 is in dust discharge position.Walking vehicle body 11 continues mobile, and trigger unit 55 is not contacting with fixed part 92, and at this moment dust discharge baffle plate 51 is in control of dust position, and trigger unit 55 is in dodges position.After dust discharge, walking vehicle body 11 returns, trigger unit 55 be in dodge fixed part 92 dodge position, namely trigger unit 55 can not interfere with fixed part 92.
As shown in Figure 16 and Figure 21, alternatively, dust discharge mechanism 50 also comprises the 4th locating part the 56, four locating part 56 and is arranged in trigger unit 55 and with connector 53 and coordinates to limit the rotation that trigger unit 55 is in trigger position.4th locating part 56 limits the rotation that trigger unit 55 is in trigger position, and at this moment trigger unit 55 can not be rotated by opposite joints 53, and trigger unit 55 is rotated together with connector 53, and then completes dust discharge.
As shown in Figure 17 and Figure 21, alternatively, dust discharge mechanism 50 also comprises the 5th locating part the 57, five locating part 57 and is arranged on and coordinates to limit trigger unit 55 in trigger unit 55 and with connector 53 and be in the rotation of dodging position.5th locating part 57 limits trigger unit 55 and is in the rotation of dodging position, and when making dust discharge again, trigger unit 55 can work normally.
Alternatively, dust discharge mechanism 50 also comprises elastic component, and one end of elastic component is connected on installed part 52, and the other end of elastic component is connected on connector 53 or dust discharge baffle plate 51.After dust discharge baffle plate 51 dust discharge, under the effect of elastic component, dust discharge baffle plate 51 resilience resets, and dust discharge baffle plate 51 conveniently can be got back to control of dust position by elastic component, achieves automatic dust discharge.
As shown in figure 19, alternatively, dust discharge mechanism 50 also comprises stop part 59, and stop part 59 is arranged on the side away from dust discharge baffle plate 51 of installed part 52.Stop part 59 has the effect of backstop.When dust discharge baffle plate 51 gets back to control of dust position from dust discharge position, it is excessive that stop part 59 can limit dust discharge baffle plate 51 resilience, makes dust discharge baffle plate 51 be reset to control of dust position more accurately.
From foregoing description, cleaning device achieves dust and dirt automatic-discharging and automatically collects, and saves water source, and can unmannedly for a long time clear up, emission effect is good, reduces hand labor.
As shown in Fig. 1, Fig. 9 and Figure 10, alternatively, cleaning assemblies also comprises dust suction force equalization mechanism 60, and dust suction force equalization mechanism 60 is connected between dedusting mechanism 20 and dust collection mechanism 30.The negative pressure that dust collection mechanism 30 can produce by dust suction force equalization mechanism 60 is evenly at the balanced entering-dust mouth 611 of dust suction force equalization mechanism 60, and the dust that dust removal brush and polish brush are removed can enter in dust-collecting mechanism 40 completely.
Alternatively, dust suction force equalization mechanism 60 comprises housing 61 and separating part, housing 61 have inner chamber and with the balanced entering-dust mouth 611 of inner space and balanced dust mouth 612, separating part be arranged in housing 61 with the inner chamber of housing 61 is separated into multiple enter dirt runner, each enter the import of dirt runner be all communicated with balanced entering-dust mouth 611, each enter the outlet of dirt runner be all communicated with balanced dust mouth 612.
In housing 61, separating part is set, under the effect of dust collection mechanism 30, dirt enters in housing 61 by dedusting mechanism 20 from balanced entering-dust mouth 611, and then dirt enters into dirt runner from each import of entering dirt runner, enters in dust-collecting mechanism 40 finally by balanced dust mouth 612.The negative pressure that dust collection mechanism 30 produces can be evenly distributed in balanced entering-dust mouth 611 by dust suction force equalization mechanism 60, and the dirt that dedusting mechanism 20 has been brushed can suck in dust-collecting mechanism 40 completely.Dirt on photovoltaic module 1 surface can be cleaned effectively like this, thus the dirt reduced widely on photovoltaic module 1 surface is on the impact of generating efficiency.
As shown in Figure 10, alternatively, separating part comprises multiple septum primum plate 62, and multiple septum primum plate 62 interval is arranged, and the gap between two adjacent septum primum plates 62 forms middle import.Separating part adopt dividing plate mode the inner chamber of housing 61 is separated into multiple enter dirt runner, dirt, successively by balanced entering-dust mouth 611, middle import, is then entered in dust-collecting mechanism 40 by balanced dust mouth 612.Said structure is simple, easy to process, manufactures easy, reduces manufacturing cost.
Alternatively, separating part also comprises multiple septum secundum plate 63, multiple septum secundum plate 63 interval arranges and is positioned at the side away from balanced entering-dust mouth 611 of septum primum plate 62, septum secundum plate 63 and middle import are relatively arranged, and the gap between two adjacent septum secundum plates 63 forms communication port in first.Separating part adopt the mode of two-layer dividing plate the inner chamber of housing 61 is separated into multiple enter dirt runner, dirt by communication port in balanced entering-dust mouth 611, middle import and first, is then entered in dust-collecting mechanism 40 by balanced dust mouth 612 successively.Said structure is simple, easy to process, manufactures easy, reduces manufacturing cost.
Alternatively, housing 61 comprises diapire, roof and is connected to the first side wall, the second sidewall, the 3rd sidewall and the 4th sidewall between diapire and roof, balanced entering-dust mouth 611 is arranged on the first side wall, balanced dust mouth 612 is arranged on the 3rd sidewall, and septum primum plate 62 is all connected between the top and bottom walls with septum secundum plate 63.The first side wall and the 3rd sidewall are oppositely arranged, the second sidewall and the 4th sidewall, and namely housing 61 is body structure, and the structure of casing is simple, easy to process, reduces costs.Certainly, the structure of housing 61 is also not limited to this.
Alternatively, balanced entering-dust mouth 611 extends along the length direction of housing 61.Said structure increases the area of balanced entering-dust mouth 611, effectively can clean like this to the dirt on photovoltaic module 1 surface, improves cleaning efficiency.Certainly, also the position of balanced entering-dust mouth can be set concrete condition, be not limited to this.
Alternatively, each septum primum plate 62 and each septum secundum plate 63 are all parallel to the length direction of housing 61, separating part also comprises multiple 3rd median septum 64, each 3rd median septum 64 is all parallel to the length direction of housing 61,3rd median septum 64 is arranged between two adjacent septum primum plates 62, has gap between the 3rd median septum 64 and adjacent two septum primum plates 62.3rd median septum 64 can large by one in import be separated into two little in import, add the quantity of middle import, and then the negative pressure to be produced by dust collection mechanism 30 is more uniformly distributed in balanced entering-dust mouth 611, the dirt that dedusting mechanism 20 has been brushed can suck in dust-collecting mechanism 40 completely.Dirt on photovoltaic module 1 surface more effectively can be cleaned like this, thus the dirt reduced widely on photovoltaic module 1 surface is on the impact of generating efficiency.
Alternatively, the separating part two ends that also comprise baffle plate the 65, three median septum 64 in multiple first are connected on septum secundum plate 63 respectively by baffle plate 65 in first.In first, baffle plate 65 has the effect of backstop, backstop can live dust and flows through from the space between the 3rd median septum 64 and septum secundum plate 63, and then shorten the path into dirt runner, dust is entered in dust-collecting mechanism 40 quickly.
Alternatively, separating part also comprises multiple 4th median septum 66, multiple 4th median septum 66 arranges along the length direction interval of housing 61 and is positioned at the side away from balanced entering-dust mouth 611 of septum secundum plate 63, each 4th median septum 66 is all parallel to the length direction of housing 61, in 4th median septum 66 and two first, communication port is relatively arranged, and the gap between two adjacent the 4th median septums 66 forms communication port in second.Separating part adopt the mode of three layers of dividing plate the inner chamber of housing 61 is separated into multiple enter dirt runner, dirt by communication port in communication port and second in balanced entering-dust mouth 611, middle import, first, is then entered in dust-collecting mechanism 40 by balanced dust mouth 612 successively.Said structure is simple, easy to process, manufactures easy, reduces manufacturing cost.
Alternatively, separating part also comprises baffle plate 67 in multiple second, and the two ends corresponding to the septum secundum plate 63 between communication port in adjacent two first of the 4th median septum 66 are connected on the 4th median septum 66 corresponding to communication port in adjacent two first respectively by baffle plate 67 in second.In second, baffle plate 67 has the effect of backstop, backstop can live dust and flows through from the space between septum secundum plate 63 and the 4th median septum 66, and then shorten the path into dirt runner, dust is entered in dust-collecting mechanism 40 quickly.
Alternatively, the length of the length direction along housing 61 of septum secundum plate 63 is greater than the length of the length direction along housing 61 of middle import.Alternatively, the length of the length direction along housing 61 of balanced entering-dust mouth 611 is greater than the length of the length direction along housing 61 of balanced dust mouth 612.Make dust enter from multiple import like this to flow out from an outlet.Alternatively, the length of the length direction along housing 61 of the 4th median septum 66 is greater than the length sum of the length direction along housing 61 of communication port in the length of the length direction along housing 61 of septum secundum plate 63 and twice first.
Alternatively, septum primum plate 62 is even number.Preferably, septum primum plate 62 is eight, and septum secundum plate 63 is 7, and the 4th median septum 66 is 3, and the 5th median septum is one.Certainly, the quantity of each median septum is not limited to this, needs to arrange as the case may be.
Alternatively, separating part also comprises two the first side dividing plates 71, two the first side dividing plates 71 are positioned at the both sides of multiple septum primum plate 62, form side-entrance between the first end of the first side dividing plate 71 and septum primum plate 62, and the second end of the first side dividing plate 71 extends to the second sidewall or the 4th sidewall.Second end of a first side dividing plate 71 extends to the second sidewall, and the second end of another the first side dividing plate 71 extends to the 4th sidewall.Which increase the number of import.And then the negative pressure to be produced by dust collection mechanism 30 is more uniformly distributed in balanced entering-dust mouth 611, the dirt that dedusting mechanism 20 has been brushed can suck in dust-collecting mechanism 40 completely.
Alternatively, separating part also comprises two the second side dividing plates 72, two the second side dividing plates 72 are positioned at the both sides of multiple septum secundum plate 63, form the first effluent port between the first end of the second side dividing plate 72 and septum secundum plate 63 and correspond to side-entrance, the second end of the second side dividing plate 72 extends to the second sidewall or the 4th sidewall.Second end of a second side dividing plate 72 extends to the second sidewall, and the second end of another the second side dividing plate 72 extends to the 4th sidewall.
Alternatively, separating part also comprises the first side shield 73, first side shield 73 and is connected between the first end of the first side dividing plate 71 and the second side dividing plate 72.First side shield 73 has the effect of backstop, and ash can be prevented to be deposited between the first side dividing plate 71 and the second side dividing plate 72.
Alternatively, separating part also comprises two the 3rd side dividing plates 74, two the 3rd side dividing plates 74 are positioned at the both sides of multiple 4th median septum 66, form the second effluent port between the first end of the 3rd side dividing plate 74 and the 4th median septum 66 and correspond to the first effluent port, the second end of the 3rd side dividing plate 74 extends to the second sidewall or the 4th sidewall.Second end of a 3rd side dividing plate 74 extends to the second sidewall, and the second end of another the 3rd side dividing plate 74 extends to the 4th sidewall.
Alternatively, separating part also comprises the second side shield 75, second side shield 75 and is connected between the first end of the second side dividing plate 72 and the 3rd side dividing plate 74.Second side shield 75 has the effect of backstop, and ash can be prevented to be deposited between the second side dividing plate 72 and the 3rd side dividing plate 74.
Preferably, separating part also comprises the 5th median septum and two the 4th side dividing plates, 5th median septum and the 4th side dividing plate all arrange along the length direction of housing 61 and are positioned at the side away from balanced entering-dust mouth of the 4th median septum 66, 5th median septum and the 4th side dividing plate are all parallel to the length direction of housing 61, in 5th median septum and two second, communication port is relatively arranged, the both sides of two the 4th side dividing plate the 5th median septums, form the 3rd effluent port between the first end of the 4th side dividing plate and the 5th median septum and correspond to the 4th median septum 66, second end of the 4th side dividing plate extends to the second sidewall or the 4th sidewall.Second end of a 4th side dividing plate extends to the second sidewall, and the second end of another the 4th side dividing plate extends to the 4th sidewall.Separating part adopt the mode of four layers of dividing plate the inner chamber of housing 61 is separated into multiple enter dirt runner.Certainly, the number of plies of dividing plate can be set concrete structure.
Preferably, separating part also comprises the 3rd side shield, and the 3rd side shield is connected between the second end of the 3rd side dividing plate 74 and the 4th side dividing plate.Separating part also comprises the 4th side shield, and the 4th side shield is connected between the second end of the 4th side dividing plate and the 3rd sidewall.
In summary, the path in housing 61 of dust is:
Path one: communication port, the 3rd effluent port, balanced dust mouth 612 in communication port, second in balanced entering-dust mouth 611, middle import, first;
Path two: communication port, the second effluent port, the 3rd effluent port, balanced dust mouth 612 in balanced entering-dust mouth 611, middle import, first;
Path three: balanced entering-dust mouth 611, middle import, the first effluent port, the second effluent port, the 3rd effluent port, balanced dust mouth 612;
Path four: balanced entering-dust mouth 611, side-entrance, the first effluent port, the second effluent port, the 3rd effluent port, balanced dust mouth 612.
From foregoing description, in order to overcome the dirty impact on photovoltaic module, the purpose of this utility model is to provide a kind of timely, effective full-automatic self-propelled to exempt from water photovoltaic module cleaning device, full-automatic self-propelled is exempted from water photovoltaic module cleaning device and is comprised walking assembly, walking assembly comprises guide rail, movable motor, reductor, walking vehicle body, roller etc., the cleaning equipment making full-automatic self-propelled exempt from water photovoltaic module cleaning device uniform motion voluntarily on photovoltaic panel.
Full-automatic self-propelled is exempted from water photovoltaic module cleaning device and is also comprised dedusting mechanism, dust suction force equalization mechanism, dust collection mechanism, dust-collecting mechanism and dust discharge mechanism.Dust collection mechanism comprises negtive pressure dusting motor and dust collection pipeline, and dust-collecting mechanism comprises dust-collecting cylinder and emission type dust-exhausting port voluntarily.Dedusting mechanism adopts the hairbrush of two groups of counter-rotatings voluntarily to be risen by the dust brush on photovoltaic panel, and the dust removed by dedusting mechanism by dust suction force equalization mechanism and dust collection mechanism sucks dust collection pipeline, finally enters in dust-collecting cylinder and collects, reach cleaning purpose.Undertaken dust to discharge dust-collecting cylinder by the dust discharge mechanism at emission type dust-exhausting port place voluntarily again.Said structure adopts trailing type system.Control of dust, dust discharge mechanism are followed dedusting mechanism and are synchronized with the movement.
Full-automatic self-propelled is exempted from water photovoltaic module cleaning device and is also comprised power-supply system, and power-supply system comprises independently photovoltaic panel, inverter, controller and energy-storage box.Photovoltaic panel is energy-storage box charging in sunny situation, and in use, release energy-storage box institute accumulate energy, being become by inverter can for the electric energy of drive motors.Photovoltaic module cleaning device has independently administration of power supply, also can power by external power of alterating and direct current.
Full-automatic self-propelled is exempted from water photovoltaic module cleaning device and is also comprised dedusting mechanism automatically self clean hiding mechanism, and clean hiding mechanism comprises decline guide rail, limit switch, Automatic clearance system.Wherein, Automatic clearance system is the reverse rotation of dust removal brush and polish brush.After completing cleaning course, cleaning device returns initial point and carries out itself clean, and rests against the region not affecting photovoltaic panel and normally work.
Full-automatic self-propelled is exempted from water photovoltaic module cleaning device and is also comprised automatic control system, controls two limit switches being arranged on photovoltaic module array two ends, connected by wire by control cabinet.After walking vehicle body has cleaned, trigger end stop switch, by the counter-rotating of control cabinet Control movable motor, and stop the rotation of cleaning wheel, travel, after driving to bus stop to bus stop, trigger bus stop shutdown switch, walking vehicle body stop motion, and open purging system, carry out automatically cleaning.Wherein, walking vehicle body and dedusting mechanism all have by wire the connection that can stretch.
In sum, full-automatic self-propelled is exempted from water photovoltaic module cleaning device and is utilized the subtend of dust removal brush and polish brush to rotate as cleaning principal organ, adopt balance-type dust collecting system as fouling product collecting mechanism, and have the independent running mechanism that can walk voluntarily and realize the cleaning of automatic array by the limit switch controlling organization of simple and durable.Above-mentioned cleaning device also has the Self-traveling mechanism being hidden in not shading light photovoltaic assembly sunlight and the automatic trigger mechanism discharging collection fouling product voluntarily simultaneously.By the combination of above mechanism, solve photovoltaic module cleaning problems timely and effectively, ensure photovoltaic module steady operation under efficient state, do not destroying in original circuit and facility situation, install, safeguard simple, install and use cost low, safe and reliable.
Be compared with the prior art, the beneficial effects of the utility model are: adopt the anhydrous clean and full-automatic mode of self-propelled, simple and compact for structure, cost is low, effective saving water resource, cleans automatically as required, without external power supply, optional self-powered, do not affect the normal use of photovoltaic module after completing cleaning, solve photovoltaic module cleaning problem in the photovoltaic plant of drought area, be applicable to illumination better and the area of water resources shortage.
The cause of raining due to summer and autumn does not carry out cleaning, in such a month, and on such a day adopts the photovoltaic module cleaning device of the present embodiment to clean photovoltaic module winter year.Before and after photovoltaic module 1 cleans, overall power is more as shown in table 1:
Table 1
According to the data of each 11 days before and after above-mentioned cleaning, when affecting generated energy factor difference and being very little, 1st day, the 3rd day, the 4th day, the 5th day, the 6th day, the 8th day, the 11st day with the 13rd day, the 14th day, the 17th day, the 18th day, the 19th day, the 20th day, the 23rd day under almost identical condition electricity different, as shown in table 2:
Table 2
Date | 1st day | 3rd day | 4th day | 5th day | 6th day | 8th day | 11st day | Add up to |
Electricity | 70966 | 50050 | 68422 | 74727 | 64760 | 48962 | 72293 | 450180 |
Date | 13rd day | 14th day | 17th day | 18th day | 19th day | 20th day | 23rd day | Add up to |
Electricity | 71040 | 55087 | 66486 | 49051 | 74728 | 67005 | 76651 | 460048 |
As known from Table 2, when restricting generated energy factor and being substantially identical, cleaning difference that is rear and electricity before cleaning is: 9869KW.h, exceeds cleaning front 2.14%.
Move at the same date photovoltaic panel single shaft simultaneously, twin shaft moves and fixing (in standing, other stationary power generations ideals are compared in generating) contrasts, as shown in table 3:
Table 3
Wherein, photovoltaic panel single shaft moves and refers to that photovoltaic panel moves along with rising in east and drop in west of the sun, photovoltaic panel twin shaft moves and refers to that photovoltaic panel not only can carry out moving but also can carrying out luffing angle adjustment along with the high and low position of the spring, summer, autumn and winter sun along with rising in east and drop in west of the sun, and photovoltaic panel refers to that photovoltaic panel maintains static.
Comprehensive above data are known, and the dirty impact on its generating efficiency in photovoltaic module 1 surface is quite remarkable, and the aspect of its impact is mainly:
1, the dirt on photovoltaic module surface have impact on the transmissivity of light, and then has influence on the surperficial amount of radiation accepted of photovoltaic module.
2, the dirt on photovoltaic module surface sticks to cell panel surface, and forms shade on cell panel surface, produces hot plate effect, and then affect generating efficiency in photovoltaic module local.
The present embodiment photovoltaic module cleaning device can clean in time, effectively to photovoltaic module 1, greatly can reduce the dirty impact on generating efficiency of photovoltaic module.
The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (10)
1. a photovoltaic module cleaning device, is characterized in that, comprising:
Walking assembly;
Cleaning assemblies, is arranged on described walking assembly, and described walking assembly moves to make the dirt on described cleaning assemblies clear light photovoltaic assembly (1) surface.
2. photovoltaic module cleaning device according to claim 1, it is characterized in that, described walking assembly comprises the first guide rail (2) and walking mechanism (10), described first guide rail (2) is arranged on the bracing frame (3) of the described photovoltaic module of support (1), described walking mechanism (10) is arranged on described first guide rail (2) movably, and described walking mechanism (10) is upper mobile to make described cleaning assemblies clean dirt on described photovoltaic module (1) surface described first guide rail (2).
3. photovoltaic module cleaning device according to claim 2, it is characterized in that, described walking assembly also comprises mounting bracket (4), described mounting bracket (4) is arranged in described walking mechanism (10), and described cleaning assemblies is arranged on described mounting bracket (4).
4. photovoltaic module cleaning device according to claim 3, it is characterized in that, described walking mechanism (10) and described first guide rail (2) are two, two described first guide rails (2) are arranged on the relative both sides of support frame as described above (3), two described walking mechanisms (10) are arranged on two described first guide rails (2) respectively movably, and two described walking mechanisms (10) are connected by described mounting bracket (4).
5. photovoltaic module cleaning device according to claim 3, is characterized in that, described cleaning assemblies comprises:
Dedusting mechanism (20), is arranged on described mounting bracket (4);
Dust collection mechanism (30), described dust collection mechanism (30) is arranged on described mounting bracket (4) and goes up and be connected with described dedusting mechanism (20);
Dust-collecting mechanism (40), described dust-collecting mechanism (40) is arranged on described mounting bracket (4) and goes up and be connected with described dedusting mechanism (20).
6. photovoltaic module cleaning device according to claim 5, it is characterized in that, described dust collection mechanism (30) is arranged in described dust-collecting mechanism (40), described dust-collecting mechanism (40) has suction port, and described suction port is connected with described dedusting mechanism (20).
7. photovoltaic module cleaning device according to claim 5, it is characterized in that, described cleaning assemblies also comprises dust discharge mechanism (50), described dust discharge mechanism (50) is arranged on the dust-exhausting port place of described dust-collecting mechanism (40), and described dust discharge mechanism (50) has the dust discharge position of the dust-exhausting port of dodging described dust-collecting mechanism (40) and blocks the control of dust position of dust-exhausting port of described dust-collecting mechanism (40).
8. photovoltaic module cleaning device according to claim 5, it is characterized in that, described cleaning assemblies also comprises dust suction force equalization mechanism (60), and described dust suction force equalization mechanism (60) is connected between described dedusting mechanism (20) and described dust collection mechanism (30).
9. photovoltaic module cleaning device according to claim 2, is characterized in that, described cleaning assemblies have clean described photovoltaic module (1) cleaning position and dodge described photovoltaic module (1) dodge position.
10. photovoltaic module cleaning device according to claim 9, it is characterized in that, described walking assembly also comprises the second guide rail (5), described second guide rail (5) is connected to the end of described first guide rail (2) and extends to the direction away from described first guide rail (2), when dodging position described in described cleaning assemblies is in, described walking mechanism (10) is positioned on described second guide rail (5).
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CN105127116A (en) * | 2015-09-29 | 2015-12-09 | 中国华能集团清洁能源技术研究院有限公司 | Photovoltaic module cleaning device |
CN111571339A (en) * | 2019-09-18 | 2020-08-25 | 河北科技师范学院 | Photovoltaic module aluminium frame edging clearance system |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN105127116A (en) * | 2015-09-29 | 2015-12-09 | 中国华能集团清洁能源技术研究院有限公司 | Photovoltaic module cleaning device |
CN105127116B (en) * | 2015-09-29 | 2018-11-09 | 中国华能集团清洁能源技术研究院有限公司 | Photovoltaic module cleaning device |
CN111571339A (en) * | 2019-09-18 | 2020-08-25 | 河北科技师范学院 | Photovoltaic module aluminium frame edging clearance system |
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