CN114715353A - Novel energy storage based water photovoltaic panel assembling base station and assembling method - Google Patents

Abstract

The invention discloses a novel energy storage based water photovoltaic panel assembling base station and an assembling method, wherein the assembling base station comprises a U-shaped frame, and a buoyancy component for floating the U-shaped frame on water is arranged on the outer wall of the U-shaped frame; the U-shaped frame is connected with an intermittent driving assembly; the intermittent driving component is provided with a supporting cylinder supporting component; the assembling method comprises the following steps: the method comprises the following steps: an installer of the overwater photovoltaic panel installation cylinder stands on the support cylinder installation support table, and the installer of the overwater photovoltaic panel stands on the photovoltaic panel installation support table; step two: and placing the water photovoltaic panel installation cylinder and the water photovoltaic panel on the feeding assembly in a staggered manner, and feeding the feeding assembly in a staggered manner. The invention has the beneficial effects that: the device can avoid damage to the bottom of the water photovoltaic panel mounting cylinder during movement, and can be mounted at the offshore position without traction treatment.

Description

Novel energy storage based water photovoltaic panel assembling base station and assembling method

Technical Field

The invention relates to the technical field of overwater photovoltaics, in particular to an overwater photovoltaic plate assembling base station and an assembling method based on novel energy storage.

Background

Photovoltaic power generation on water belongs to one kind of novel energy storage, and photovoltaic power generation platform on water generally builds on the coastal waters sea, because sea sunshine is sufficient and flat, compares with on ground and more does benefit to the construction of photovoltaic power generation station to avoid taking up the soil.

The photovoltaic power generation platform on water now includes photovoltaic board on water and a photovoltaic board installation section of thick bamboo on water, and the photovoltaic power generation platform on water now all installs on the road surface and removes to the sea through oblique guide board again, then the rethread drags the ship and drags to the coastal waters processing, and a photovoltaic board installation section of thick bamboo on water causes photovoltaic board installation bobbin base on water to damage easily when moving on oblique guide board, and the pulling force requirement is big after the photovoltaic board installation section of thick bamboo equipment on water of multiunit, is unfavorable for pulling to coastal waters department.

Based on the above, the invention provides an underwater photovoltaic panel assembling base station and an assembling method based on novel energy storage, and aims to solve the technical problems.

Disclosure of Invention

In order to solve the problems that the bottom of an overwater photovoltaic panel installation cylinder is easy to damage when the existing overwater photovoltaic panel installation cylinder moves on an inclined guide plate, and the traction force requirement is high after a plurality of groups of overwater photovoltaic panel installation cylinders are assembled, so that the photovoltaic panel installation cylinders are not beneficial to being pulled to offshore positions, the invention provides a novel energy storage based overwater photovoltaic panel assembling base station and an assembling method.

The invention provides a novel energy storage based water photovoltaic panel assembling base station, which comprises a U-shaped frame, wherein a buoyancy component used for floating the U-shaped frame on water is arranged on the outer wall of the U-shaped frame;

the U-shaped frame is connected with an intermittent driving assembly, the intermittent driving assembly is used for the intermittent movement of the overwater photovoltaic panel mounting cylinder, and the discharge end of the intermittent driving assembly is provided with an inclination;

the intermittent driving assembly is connected with supporting cylinder supporting assemblies for splicing the waterborne photovoltaic panel mounting cylinder at equal intervals, and the waterborne photovoltaic panel mounting cylinder is separated from the supporting cylinder supporting assemblies when the waterborne photovoltaic panel mounting cylinder is driven by the supporting cylinder supporting assemblies to move to the discharge end of the intermittent driving assembly, so that the waterborne photovoltaic panel mounting cylinder is automatically separated;

and a supporting cylinder mounting support table, a feeding assembly and a photovoltaic panel mounting support table are sequentially arranged on the top of the U-shaped frame from the feeding end to the discharging end.

Further, buoyancy module includes first mounting bracket and flotation pontoon, first mounting bracket equidistant installation is on the U-shaped frame lateral wall, first mounting bracket internal fixation has the flotation pontoon.

Further, intermittent drive subassembly includes dustcoat, first live-rollers, sprocket, chain, second live-rollers and first live-rollers, the U-shaped frame inner wall rotates through the bearing and is connected with first live-rollers and second live-rollers, all first live-rollers are in the level setting, all second live-rollers top and intermittent drive subassembly discharge end department first live-rollers be in on same slash, first live-rollers and second live-rollers outer wall are evenly fixed with the sprocket, the sprocket meshing is connected with the chain, dustcoat and first live-rollers all install on U-shaped frame outer wall, and first live-rollers locates in the dustcoat, the output and first live-rollers or the coaxial fixed connection of second live-rollers of first live-rollers.

Furthermore, the same oblique line of the tops of all the second rotating rollers and the first rotating roller at the leftmost end has an inclination angle of 30-45 degrees with the horizontal direction.

Further, a support section of thick bamboo supporting component includes side limiting plate, diaphragm, supporting baseplate and L shape limiting plate, a diaphragm lateral wall is equidistant to be equipped with supporting baseplate, another lateral wall of diaphragm is equidistant to be equipped with L shape limiting plate, the lateral symmetry is equipped with the side limiting plate around the L shape limiting plate position of standing vertically, side limiting plate bottom is connected with the diaphragm top, supporting baseplate top and the horizontal position top of L shape limiting plate and the laminating contact of photovoltaic board installation section of thick bamboo on water, the inboard wall of side limiting plate and the diaphragm position inner wall of standing vertically and the laminating contact of photovoltaic board installation section of thick bamboo lateral wall on water.

Further, the L-shaped limiting plate is arranged towards the discharge end of the intermittent drive assembly.

Further, the material loading assembly comprises a second rotation driving assembly, a transmission base band, a second supporting piece and a third rotation roller, the second supporting piece is installed at the top of the U-shaped frame, the second supporting piece rotates through a bearing to form the third rotation roller, the outer wall of the third rotation roller rotates to form the transmission base band, the second rotation driving assembly is installed on the outer wall of the second supporting piece, and the output end of the second rotation driving assembly is connected with one group of the third rotation rollers in a coaxial and fixed mode.

Furthermore, the first rotary driving component and the second rotary driving component adopt servo motors.

In order to better achieve the purpose of the invention, the invention also provides an assembling method of the water photovoltaic panel assembling base station based on novel energy storage, which comprises the following steps:

the method comprises the following steps: an installer of the overwater photovoltaic panel installation cylinder stands on the support cylinder installation support table, and the installer of the overwater photovoltaic panel stands on the photovoltaic panel installation support table;

step two: the overwater photovoltaic panel installation cylinder and the overwater photovoltaic panel are placed on the feeding assembly in a staggered mode, and staggered feeding is carried out on the feeding assembly;

step three: an installer on the supporting cylinder mounting support platform installs the overwater photovoltaic panel mounting cylinder on the supporting cylinder supporting component, the intermittent driving component intermittently moves the overwater photovoltaic panel mounting cylinder installed on the supporting cylinder supporting component to the outer side of the photovoltaic panel mounting support platform, and the installer on the photovoltaic panel mounting support platform installs the overwater photovoltaic panel on the overwater photovoltaic panel mounting cylinder;

step four: intermittent type drive assembly drive photovoltaic board installation section of thick bamboo on water removes to the discharge end, and a supporting cylinder supporting component and photovoltaic board installation section of thick bamboo separation processing on water, photovoltaic board installation section of thick bamboo on water showy on water, realize assembling on water.

Compared with the prior art, the invention has the beneficial effects that:

1. the supporting cylinder supporting component is connected with the overwater photovoltaic panel mounting cylinder, and can horizontally support the overwater photovoltaic panel mounting cylinder, so that the overwater photovoltaic panel mounting cylinder can be assembled and processed conveniently.

2. According to the invention, the water photovoltaic panel mounting cylinders and the water photovoltaic panels are alternately placed on the feeding assemblies, and the feeding assemblies are alternately fed, so that the water photovoltaic panel mounting cylinders and the water photovoltaic panels can be conveniently fed.

3. The intermittent driving assembly drives the supporting cylinder supporting assembly to rotate, the supporting cylinder supporting assembly drives the water photovoltaic panel mounting cylinder to intermittently move, the water photovoltaic panel mounting cylinder moves to the photovoltaic panel mounting support platform to mount the water photovoltaic panel, the intermittent driving assembly drives the water photovoltaic panel mounting cylinder to move to the discharge end, the supporting cylinder supporting assembly is automatically separated from the water photovoltaic panel mounting cylinder, the bottom of the water photovoltaic panel mounting cylinder can be prevented from being damaged during moving, the water photovoltaic panel mounting cylinder can be directly mounted at a near sea position, and traction treatment is not needed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a first perspective view of the present invention.

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

Fig. 3 is a left side view of the structure of the present invention.

Fig. 4 is a perspective view of the structure of the present invention.

Fig. 5 is a perspective view of the structure of the present invention.

Fig. 6 is a sectional view taken along a-a of fig. 3 according to the present invention.

Fig. 7 is a sectional view taken along the line B-B of fig. 3 according to the present invention.

Fig. 8 is a schematic structural view of the support assembly of the support cartridge of the present invention.

Wherein the reference numerals are:

1. a U-shaped frame; 2. a buoyancy assembly; 21. a first mounting bracket; 22. a float bowl; 3. an intermittent drive assembly; 31. a housing; 32. a first rotating roller; 33. a sprocket; 34. a chain; 35. a second rotating roller; 36. a first rotary drive assembly; 4. a support cartridge support assembly; 41. a side limiting plate; 42. a transverse plate; 43. a support base plate; 44. an L-shaped limiting plate; 5. a photovoltaic panel mounting support table; 6. a feeding assembly; 61. a second rotational drive assembly; 62. transmitting a baseband; 63. a second support member; 64. a third rotating roller; 7. the supporting cylinder is provided with a supporting platform.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following embodiments are further detailed. Of course, the specific embodiments described herein are merely illustrative of the invention and are not intended to be limiting.

Referring to fig. 1, 2, 3, 4, 5, 6, 7 and 8, the novel energy storage based water photovoltaic panel assembling base station comprises a U-shaped frame 1, wherein a buoyancy component 2 for floating the U-shaped frame 1 on water is arranged on the outer wall of the U-shaped frame 1;

the buoyancy component 2 comprises a first mounting frame 21 and buoys 22, the first mounting frame 21 is mounted on the outer side wall of the U-shaped frame 1 at equal intervals, and the buoys 22 are fixed in the first mounting frame 21;

the U-shaped frame 1 is connected with an intermittent driving assembly 3, the intermittent driving assembly 3 is used for intermittent movement of the overwater photovoltaic panel mounting cylinder, the discharge end of the intermittent driving assembly 3 is provided with an inclination, and the overwater photovoltaic panel mounting cylinder is automatically separated when the overwater photovoltaic panel mounting cylinder moves to the discharge end of the intermittent driving assembly 3;

the intermittent drive assembly 3 comprises an outer cover 31, first rotating rollers 32, chain wheels 33, chains 34, second rotating rollers 35 and first rotating drive assemblies 36, the inner wall of the U-shaped frame 1 is rotatably connected with the first rotating rollers 32 and the second rotating rollers 35 through bearings, all the first rotating rollers 32 are horizontally arranged, the tops of all the second rotating rollers 35 and the first rotating rollers 32 at the discharge end of the intermittent drive assembly 3 are positioned on the same inclined line, the chain wheels 33 are uniformly fixed on the outer walls of the first rotating rollers 32 and the second rotating rollers 35, the chain wheels 33 are meshed and connected with the chains 34, the outer cover 31 and the first rotating drive assemblies 36 are both installed on the outer wall of the U-shaped frame 1, the first rotating drive assemblies 36 are arranged in the outer cover 31, and the output ends of the first rotating drive assemblies 36 are coaxially and fixedly connected with the first rotating rollers 32 or the second rotating rollers 35;

the same oblique line of the tops of all the second rotating rollers 35 and the first rotating roller 32 at the leftmost end is inclined at an angle of 30-45 degrees with the horizontal line;

the intermittent driving component 3 is connected with supporting cylinder supporting components 4 for splicing the waterborne photovoltaic panel mounting cylinder at equal intervals, and the waterborne photovoltaic panel mounting cylinder is separated from the supporting cylinder supporting components 4 when the waterborne photovoltaic panel mounting cylinder is driven by the supporting cylinder supporting components 4 to move to the discharge end of the intermittent driving component 3, so that the waterborne photovoltaic panel mounting cylinder is automatically separated;

the supporting barrel supporting assembly 4 comprises side limiting plates 41, a transverse plate 42, supporting bottom plates 43 and L-shaped limiting plates 44, the supporting bottom plates 43 are arranged on one side wall of the transverse plate 42 at equal intervals, the L-shaped limiting plates 44 are arranged on the other side wall of the transverse plate 42 at equal intervals, the side limiting plates 41 are symmetrically arranged on the front side and the rear side of the vertical part of the L-shaped limiting plate 44, the bottom of each side limiting plate 41 is connected with the top of the transverse plate 42, the top of the supporting bottom plate 43 and the top of the transverse part of the L-shaped limiting plate 44 are in fit contact with the photovoltaic panel mounting barrel on water, and the inner walls of the side limiting plates 41 and the inner walls of the vertical part of the transverse plate 42 are in fit contact with the side walls of the photovoltaic panel mounting barrel on water;

a supporting cylinder supporting component 4 is connected with a photovoltaic board installation section of thick bamboo on water, and a supporting cylinder supporting component 4 can carry out the level to a photovoltaic board installation section of thick bamboo on water and support, does benefit to a photovoltaic board installation section of thick bamboo on water and assembles the processing.

The L-shaped limit plate 44 is arranged towards the discharge end of the intermittent drive assembly 3;

intermittent type drive assembly 3 drives a support section of thick bamboo supporting component 4 and rotates, a support section of thick bamboo supporting component 4 drives photovoltaic board installation section of thick bamboo intermittent type removal on water, photovoltaic board installation section of thick bamboo on water removes to photovoltaic board installation brace table 5 department and installs photovoltaic board on water, intermittent type drive assembly 3 drives photovoltaic board installation section of thick bamboo on water again and removes to the discharge end, a support section of thick bamboo supporting component 4 and photovoltaic board installation section of thick bamboo autosegregation on water, can avoid photovoltaic board installation section of thick bamboo bottom on water to cause the damage when removing, direct installation in the department of seas, need not traction again.

A supporting cylinder installation supporting table 7, a feeding assembly 6 and a photovoltaic panel installation supporting table 5 are sequentially arranged on the top of the U-shaped frame 1 from the feeding end to the discharging end.

The feeding assembly 6 comprises a second rotating driving assembly 61, a conveying base belt 62, a second supporting piece 63 and a third rotating roller 64, the second supporting piece 63 is installed at the top of the U-shaped frame 1, the second supporting piece 63 is rotatably connected with the third rotating roller 64 through a bearing, the outer wall of the third rotating roller 64 is rotatably connected with the conveying base belt 62, the second rotating driving assembly 61 is installed on the outer wall of the second supporting piece 63, and the output end of the second rotating driving assembly 61 is coaxially and fixedly connected with the third rotating roller 64 of one group.

The first rotary driving assembly 36 and the second rotary driving assembly 61 are servo motors.

Photovoltaic board installation section of thick bamboo on water and photovoltaic board on water are crisscross put material loading subassembly 6, and material loading subassembly 6 carries out crisscross material loading, the photovoltaic board material loading on water between the photovoltaic board installation section of thick bamboo on water and on water of being convenient for.

In order to better achieve the purpose of the invention, the invention also provides an assembling method of the water photovoltaic panel assembling base station based on novel energy storage, which comprises the following steps:

the method comprises the following steps: installing the U-shaped frame 1 on a movable ship, carrying out buoyancy support on the U-shaped frame 1 by the buoyancy component 2, enabling the U-shaped frame 1 to float on the sea surface, standing an installer of the overwater photovoltaic panel installation cylinder on the support cylinder installation support table 7, and standing an installer of the overwater photovoltaic panel on the photovoltaic panel installation support table 5;

step two: the overwater photovoltaic panel installation cylinders and the overwater photovoltaic panels are placed on the feeding assembly 6 in a staggered mode, the second rotating driving assembly 61 of the feeding assembly 6 drives the third rotating roller 64 to rotate, the third rotating roller 64 drives the conveying base band 62 to rotate, and the feeding assembly 6 carries out staggered feeding so as to facilitate feeding of the overwater photovoltaic panel installation cylinders and the overwater photovoltaic panels;

step three: an installer on the supporting cylinder mounting support table 7 mounts the waterborne photovoltaic panel mounting cylinder on the supporting cylinder supporting component 4, the top of the transverse plate 42, the top of the supporting bottom plate 43 and the top of the transverse part of the L-shaped limiting plate 44 are in contact with the waterborne photovoltaic panel mounting cylinder in a fitting manner, the inner walls of the side limiting plates 41 and the inner walls of the upright parts of the transverse plates 42 are in contact with the side walls of the waterborne photovoltaic panel mounting cylinder in a fitting manner, adjacent waterborne photovoltaic panel mounting cylinders are assembled with each other, the supporting cylinder supporting component 4 can horizontally support the waterborne photovoltaic panel mounting cylinder to facilitate the assembly treatment of the waterborne photovoltaic panel mounting cylinder, the first rotating driving component 36 of the intermittent driving component 3 intermittently drives the second rotating roller 35 or the first rotating roller 32 to rotate, the first rotating roller 32 or the second rotating roller 35 drives the chain wheel 33 to rotate, the chain wheel 33 drives the chain 34 to rotate, the chain 34 intermittently moves the waterborne photovoltaic panel mounting cylinder mounted on the supporting cylinder supporting component 4 to the outer side of the photovoltaic panel mounting support table 5, an installer on the photovoltaic panel installation support table 5 installs the overwater photovoltaic panel on the overwater photovoltaic panel installation cylinder;

step four: intermittent type drive assembly 3 drive photovoltaic board installation section of thick bamboo on water removes to intermittent type drive assembly 3's discharge end, supports a supporting component 4 and a photovoltaic board installation section of thick bamboo separation processing on water, and a photovoltaic board installation section of thick bamboo on water floats on water, can avoid photovoltaic board installation bobbin base portion on water to cause the damage when removing, and direct installation in the offshore place need not to pull again and handles, realizes assembling on water.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A novel energy storage based water photovoltaic panel assembling base station comprises a U-shaped frame (1), and is characterized in that a buoyancy component (2) used for floating the U-shaped frame (1) on water is arranged on the outer wall of the U-shaped frame (1);

the U-shaped frame (1) is connected with an intermittent driving assembly (3), the intermittent driving assembly (3) is used for the intermittent movement of the overwater photovoltaic panel mounting cylinder, and the discharging end of the intermittent driving assembly (3) has inclination;

the intermittent driving assembly (3) is connected with supporting cylinder supporting assemblies (4) used for splicing the waterborne photovoltaic panel mounting cylinder at equal intervals, the waterborne photovoltaic panel mounting cylinder is separated from the supporting cylinder supporting assemblies (4) when the waterborne photovoltaic panel mounting cylinder is driven by the supporting cylinder supporting assemblies (4) to move to the discharging end of the intermittent driving assembly (3), and the waterborne photovoltaic panel mounting cylinder is automatically separated;

u-shaped frame (1) top is equipped with support cylinder installation supporting bench (7), material loading subassembly (6) and photovoltaic board installation supporting bench (5) from the material loading end to the discharge end in proper order.

2. The novel energy storage based above-water photovoltaic panel assembly base station as claimed in claim 1, wherein the buoyancy module (2) comprises a first mounting frame (21) and buoys (22), the first mounting frame (21) is installed on the outer side wall of the U-shaped frame (1) at equal intervals, and the buoys (22) are fixed in the first mounting frame (21).

3. The novel energy storage-based waterborne photovoltaic panel assembly base station as claimed in claim 2, wherein the intermittent drive component (3) comprises an outer cover (31), first rotating rollers (32), chain wheels (33), chains (34), second rotating rollers (35) and a first rotating drive component (36), the inner wall of the U-shaped frame (1) is rotatably connected with the first rotating rollers (32) and the second rotating rollers (35) through bearings, all the first rotating rollers (32) are horizontally arranged, the tops of all the second rotating rollers (35) and the first rotating rollers (32) at the discharge end of the intermittent drive component (3) are on the same inclined line, the chain wheels (33) are uniformly fixed on the outer walls of the first rotating rollers (32) and the second rotating rollers (35), the chain wheels (33) are connected with the chains (34) in a meshing manner, and the outer cover (31) and the first rotating drive component (36) are both mounted on the outer wall of the U-shaped frame (1), and the first rotating driving component (36) is arranged in the outer cover (31), and the output end of the first rotating driving component (36) is coaxially and fixedly connected with the first rotating roller (32) or the second rotating roller (35).

4. The novel energy-storage-based waterborne photovoltaic panel assembly base station as claimed in claim 3, wherein the same oblique line of the top of all the second rotating rollers (35) and the left-most first rotating roller (32) is inclined at an angle of 30-45 ° with the horizontal line.

5. The novel energy-storage-based waterborne photovoltaic panel assembly base station as claimed in claim 4, it is characterized in that the supporting cylinder supporting component (4) comprises a side limiting plate (41), a transverse plate (42), a supporting bottom plate (43) and an L-shaped limiting plate (44), a supporting bottom plate (43) is arranged on one side wall of the transverse plate (42) at equal intervals, an L-shaped limiting plate (44) is arranged on the other side wall of the transverse plate (42) at equal intervals, the front side and the rear side of the upright part of the L-shaped limit plate (44) are symmetrically provided with side limit plates (41), the bottom of the side limiting plate (41) is connected with the top of a transverse plate (42), the top of the transverse plate (42), the top of a supporting bottom plate (43) and the top of the transverse part of the L-shaped limiting plate (44) are in fit contact with the photovoltaic panel mounting cylinder on water, the side limiting plate (41) inner wall and the transverse plate (42) are vertically arranged and are in contact with the side wall of the water photovoltaic panel mounting cylinder in a fitting mode.

6. The novel energy storage based above-water photovoltaic panel assembly base station according to claim 5, characterized in that the L-shaped limiting plate (44) is arranged towards the discharge end of the intermittent drive assembly (3).

7. The novel energy-storage-based waterborne photovoltaic panel assembling base station as claimed in claim 6, wherein the feeding assembly (6) comprises a second rotary driving assembly (61), a transmission base band (62), a second supporting member (63) and a third rotary roller (64), the second supporting member (63) is installed at the top of the U-shaped frame (1), the second supporting member (63) rotates through a bearing to form the third rotary roller (64), the outer wall of the third rotary roller (64) rotates to form the transmission base band (62), the outer wall of the second supporting member (63) is provided with the second rotary driving assembly (61), and the output end of the second rotary driving assembly (61) is coaxially and fixedly connected with one group of the third rotary rollers (64).

8. The novel energy-storage-based above-water photovoltaic panel assembly base station as claimed in claim 7, wherein the first rotary driving component (36) and the second rotary driving component (61) are servo motors.

9. The assembling method of the novel energy-storage-based underwater photovoltaic panel assembling base station as claimed in claim 1, characterized by comprising the following steps:

the method comprises the following steps: an installer of the overwater photovoltaic panel installation cylinder stands on the supporting cylinder installation supporting table (7), and the installer of the overwater photovoltaic panel stands on the photovoltaic panel installation supporting table (5);

step two: the overwater photovoltaic panel installation cylinder and the overwater photovoltaic panel are placed on the feeding assembly (6) in a staggered mode, and staggered feeding is carried out on the feeding assembly (6);

step three: an installer on the supporting cylinder mounting support table (7) installs the overwater photovoltaic panel mounting cylinder on the supporting cylinder supporting assembly (4), the intermittent driving assembly (3) intermittently moves the overwater photovoltaic panel mounting cylinder installed on the supporting cylinder supporting assembly (4) to the outer side of the photovoltaic panel mounting support table (5), and the installer on the photovoltaic panel mounting support table (5) installs the overwater photovoltaic panel on the overwater photovoltaic panel mounting cylinder;

step four: intermittent type drive assembly (3) drive photovoltaic board installation section of thick bamboo on water and remove to the discharge end, support a section of thick bamboo supporting component (4) and photovoltaic board installation section of thick bamboo separation processing on water, and photovoltaic board installation section of thick bamboo on water floats on water, realizes assembling on water.

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