CN105763145A - Split type floating buoy structure for solar photovoltaic water-surface power station - Google Patents

Abstract

The invention relates to a split type floating buoy structure for a solar photovoltaic water-surface power station. The split type floating buoy structure comprises a floating buoy body having a totally-enclosed hollow cavity, a gallery floating box, and a pair of standing posts. A first mounting platform, a second mounting platform, a third mounting platform, and a fourth mounting platform that protrude from the surface of the floating buoy body are arranged on the floating buoy body; and floating buoy body connecting lugs are arranged at the side surfaces of the four corner parts. The gallery floating box has a totally-enclosed gallery floating box cavity; and gallery floating box connecting lugs are arranged at outer side surfaces of four corner parts of the gallery floating box. Standing post fixation screw rods are arranged at the bottoms of the standing posts; standing post connection screw anti-back grooves are formed in the positions corresponding to orifices of internal threaded holes; and standing post bottom bosses are arranged at the standing posts and backing limiting flanges are arranged at the standing post bottom bosses. When the standing post fixation screw rods are screwed into the internal threaded holes completely, the backing limiting flanges cooperate with standing post connection screw rods so as to stop the standing post fixation screw rods from moving backwardly towards a direction opposite to a screwing direction. The provided structure has advantages of convenient repairing and maintenance, high mounting efficiency, reduced working strength, high connection reliability, strengthened wind-resistance capability, simple structure, and saved logistics cost.

Description

The split type spar structures in photovoltaic water surface power station

Technical field

The invention belongs to solar photovoltaic generation system technical field waterborne, be specifically related to the split type spar structures in a kind of photovoltaic water surface power station.

Background technology

Along with the quick raising of human being's production power, energy resource consumption also increases day by day, and the area surroundings and the global environment that cause therefrom sharply worsen.Such as, greenhouse effect the focus of attention of a series of mankind of impact such as the global warming, iceberg, Melting Glaciers and the sea-level rise that cause depend on for existence earth environment Cheng Liao international community.It is known that the discharge of greenhouse gases consumes caused by the mineral energy of such as coal, oil and natural gas etc. in a large number largely due to the mankind, therefore, various countries become, by saving and making full use of the energy, the problem first taken in while developing the economy.

Energy-saving and emission-reduction, protection environment has become whole world revolution, is then increasingly thought highly of by the mankind as inexhaustible, nexhaustible and that have cleaning environmental protection the meaning energy and solar energy.Along with utilizing solaode that sunlight is converted into the continuous ripe of powder technology, the advantage that the Transmission Cost that solar energy power generating has is low, energy utilization rate is high is recognized gradually.Such as the developed areas such as the Yangtze River Delta of China, Pearl River Delta, become the bottleneck of restriction economic development because electric power resource is in short supply, set up photovoltaic plant and can significantly alleviate the contradiction that electric power resource is in short supply.But, set up solar photovoltaic power plant with soil for carrier and can cause again the original land resource occupation problem having had too many difficulties to cope with, then not only can to have solved electric power resource in short supply but also can be saved the land resource of preciousness by the idle water surface of Appropriate application in photovoltaic water surface power station, perhaps based on this background, disclosed Chinese patent literature occur in that about the technical information for the buoyancy aid arranging photovoltaic water surface power station, spar structures raft as vertical in CN205076003U(), CN203788226U(is for setting up the device with float of electro-optical package) and CN104709442A(buoy platform and application), etc..

Typical in " the water float bowl buoyancy aid and there is the device of solar generating of this buoyancy aid " of CN204937420U recommendation, although this patent formula can embody the technique effect that its description the 0014th to 0015 section is recorded to a certain extent, but there is following shortcoming: one, owing to lacking the floating box type gallery stood when installation and inspection in the future for operating personnel, thus bring inconvenience when solar photovoltaic generation system (i.e. aforesaid photovoltaic water surface power station, as follows) is installed and when in use carrying out necessary inspection operation；They are two years old, owing to the structure of mounting bracket self is complicated and is connected to mounting bracket and buoyancy aid be fixed, thus need to respectively offer plural number in the both sides of the length direction of buoyancy aid to installing hole, and offer fixing hole in mounting bracket and in the position corresponding to installing hole, mounting bracket and buoyancy aid are fixed in the position corresponding to installing hole and fixing hole by securing member (mounting bracket is alternatively referred to as " column ", for arranging solar photovoltaic generation system), then not only installation effectiveness is low, and the operation intensity of installation personnel is big；They are three years old, owing to aforesaid mounting bracket is to be connected by independent securing member (screw and the cooperation of nut) and the aforementioned installing hole on buoyancy aid are indirectly fixing, thus the reliability connected is difficult to ensure, in actual use procedure, when securing member loosens, the stability of mounting bracket is affected, and even undermines the solar photovoltaic generation system arranged with mounting bracket for carrier；Its four, owing to whole height is of a relatively high, thus the distance of the dried up plane of center of gravity of solar photovoltaic generation system is relatively big, and then the ability of antagonism wind-force and the impact of water wave is relatively fragile.

null" Novel floating body of a kind of water surface photovoltaic power station " that CN204947966U provides has connection floating drum (description the 0044th section) due to design，It is thus able to eliminate described first shortcoming of aforementioned CN204937420U，But for the installation for solar photovoltaic generation system，A pair positioning boss need to be respectively constituted in the both sides, front and back of buoyancy aid，Limited impression is respectively offered in the side in opposite directions of two pairs of positioning boss，And on buoyancy aid, it is further opened with a pair from the through through hole to right-hand member of the left end of buoyancy aid，Plant in through hole and there is the support of telescopic adjustment function，At the end supported, block is set，When installing solar photovoltaic generation system，By the side, front and back of the framework of solar photovoltaic generation system and limited impression scarf，The left and right end of the framework of solar photovoltaic generation system is then spacing by block，Thus not only cause the structure of whole buoyancy aid to tend to complicated，And because the left and right end of photovoltaic electro-optical system significantly leans out buoyancy aid and loses stability.

For above-mentioned prior art, it is necessary to improved, do useful design for this applicant and defined technical scheme described below.

Summary of the invention

The task of the present invention is in that providing one to contribute to using convenient working personnel for buoyancy aid is equipped with gallery buoyancy tank installs and inspection, be conducive to being directly connected to column and buoyancy aid and use and notable simplify float structure and improve the installation effectiveness in photovoltaic water surface power station and reduce the operation intensity of installation personnel simultaneously, it is beneficial for ensuring that the reliability being persistently connected between column with buoyancy aid and using is avoided column to occur loosening situation and has the center of gravity being easy to significantly reduce photovoltaic water surface power station and use the split type spar structures in the photovoltaic water surface power station of enhancing capability of anti-wind.

nullThe task of the present invention is performed by，A kind of split type spar structures in photovoltaic water surface power station，Including the buoy main body that a shape is square shape structure，This buoy main body has a totally enclosed cavity，On buoy main body and be positioned at buoy main body towards on four corners of side respectively constitute one first mounting platform on the surface being raised in buoy main body、One second mounting platform、One the 3rd mounting platform and one the 4th mounting platform，First mounting platform is embedded with one first mounting platform securing member，Second mounting platform is embedded with one second mounting platform securing member，3rd mounting platform and the 4th mounting platform respectively offer an internal thread hole，In the side in four corners of buoy main body and be respectively extended with a buoy main body engaging lug with level in the middle position of the thickness direction corresponding to buoy main body；One gallery buoyancy tank, this gallery buoyancy tank has a totally enclosed gallery buoyancy tank chamber, is respectively extended with a gallery buoyancy tank engaging lug on the lateral surface in four corners of this gallery buoyancy tank, and gallery buoyancy tank engaging lug is connected with described buoyancy tank body engaging lug；nullOne column，A column standing screw respectively it is fixed with in the bottom of this column，The column standing screw of the bottom of one of them column in one column is connected with the described internal thread hole on described 3rd mounting platform，And the column standing screw of the bottom of another column in a column is connected with the internal thread hole on described 4th mounting platform，Constituting in the position in the aperture corresponding to described internal thread hole has a column to connect screw rod anti-back slot，And on a column and the position of the base portion corresponding to described column standing screw constitute have a column bottom boss，Constituting on this column bottom boss has a limit to move back flange，When described column standing screw is sufficiently rotated in described internal thread hole，Described anti-back flange is in and is connected screw rod with described column and matches and use prevention column standing screw towards the state with screw-in direction opposite direction rollback.

In a specific embodiment of the present invention, the first described mounting platform securing member and the second mounting platform securing member are the nut with internal thread hole.

In another specific embodiment of the present invention, between both sides and the lateral surface of described buoy main body of described buoy main body engaging lug, each composition has a buoy main body engaging lug angle α；Between both sides and the lateral surface of described gallery buoyancy tank of described gallery buoyancy tank engaging lug, each composition has a gallery buoyancy tank engaging lug angle β.

In another specific embodiment of the present invention, described buoy main body engaging lug offers a buoy main body and connects earhole, and on described gallery buoyancy tank engaging lug, offer a gallery buoyancy tank connect earhole, buoy main body engaging lug is connected with gallery buoyancy tank engaging lug by engaging lug bolt and is limited by the nut that limits screwing on engaging lug bolt by the position connecting earhole at the same time corresponding to buoy main body connecting hole and gallery buoyancy tank.

In another specific embodiment of the present invention, described buoy main body engaging lug angle α and described gallery buoyancy tank engaging lug angle β are 135 °.

Also having in a specific embodiment in the present invention, is respectively embedded with a column securing member on the end face of described column.

In more and in a specific embodiment of the present invention, described column securing member is the nut with internal thread hole.

The present invention's and then in a specific embodiment, described gallery buoyancy tank towards on one side surface constitute have gallery buoyancy tank slip preventing fringe.

In the present invention again more and in a specific embodiment, described gallery buoyancy tank is constituted with space state and has the gallery buoyancy tank of the upper and lower surface being depressed in gallery buoyancy tank to strengthen boss.

In again and then in a specific embodiment of the present invention, described gallery buoyancy tank slip preventing fringe is floating-point shape or prismatic shape.

One of technique effect of technical scheme provided by the invention, owing to being provided with gallery buoyancy tank, stands in thus available for operating personnel and photovoltaic water surface power station is installed on gallery buoyancy tank buoy main body and convenient working personnel inspection in the future；Two, owing to reasonably have employed a column, and this column is connected the internal thread hole corresponded respectively on the three, the 4th mounting platforms is fixing, thus both can improve the installation effectiveness in photovoltaic water surface power station, can significantly alleviate the operation intensity of installation personnel；Three, connect screw rod anti-back slot and anti-back flange owing to being provided with column, thus can prevent the column from rollback situation occurring, it is ensured that the lasting reliability being connected of a column and buoy main body；Four, owing to structure is complicated and bulky mounting bracket without being equipped with separately, thus the center of gravity in photovoltaic water surface power station can be significantly reduced, improve wind loading rating；Five, due to terminal with compact integral structure, thus be satisfied industrial amplification production require and embody economy；Six, owing to gallery buoyancy tank and a column can separate with buoy main body at logistics channel, thus can significantly save such as packaging, storage, logistics cost in transit link.

Accompanying drawing explanation

Fig. 1 is embodiments of the invention structure chart.

Fig. 2 is the chart at the bottom of of the column shown in Fig. 1.

Fig. 3 is the first application examples schematic diagram of the present invention.

Fig. 4 is the second application examples schematic diagram of the present invention.

Detailed description of the invention

nullRefer to Fig. 1 and Fig. 2，Illustrate that a shape is the buoy main body 1 of the square shape structure of Chinese character，This buoy main body 1 has a totally enclosed cavity 11，On buoy main body 1 and be positioned at buoy main body 1 towards on four corners of side respectively constitute one first mounting platform 12 on the surface being raised in buoy main body 1、One second mounting platform 13、One the 3rd mounting platform 14 and one the 4th mounting platform 15，First mounting platform 12 is embedded with one first mounting platform securing member 121，Second mounting platform 13 is embedded with one second mounting platform securing member 131，3rd mounting platform 14 and the 4th mounting platform 15 respectively offer an internal thread hole 16，In the side in four corners of buoy main body 1 and respectively constituted with level in the middle position of the thickness direction corresponding to buoy main body 1 and have a buoy main body engaging lug 17；Illustrating a gallery buoyancy tank 2, this gallery buoyancy tank 2 has a totally enclosed gallery buoyancy tank chamber 21, is respectively extended with a gallery buoyancy tank engaging lug 22 on the lateral surface in four corners of this gallery buoyancy tank 2, and gallery buoyancy tank engaging lug 22 is connected with aforementioned buoyancy tank body engaging lug 17；nullIllustrate a column 3，A column standing screw 31 respectively it is fixed with in the bottom of this column 3，The column standing screw of the bottom of one of them column in one column 3 is connected with the internal thread hole 16 on aforementioned 3rd mounting platform 14，And the internal thread hole 16 on the column standing screw of the bottom of another column in a column 3 and the 4th mounting platform 15 connects，Constitute in the position in the aperture corresponding to aforementioned internal thread hole 16 to have and namely offer a column connection screw rod anti-back slot 161，And on a column 3 and the position of the base portion corresponding to aforesaid column standing screw 31 constitute have a column bottom boss 32，Constituting on this column bottom boss 32 has a limit to move back flange 321，When column standing screw 31 is sufficiently rotated in aforementioned internal thread hole 16，So anti-back flange 321 is in and is connected screw rod 161 with aforesaid column and matches and use prevention column standing screw 31 towards the state with screw-in direction opposite direction rollback，What such structure can ensure that a column 3 and buoy main body 1 is reliably connected effect.

In the present embodiment, aforesaid first mounting platform securing member 121 and the second mounting platform securing member 131 are the nut with internal thread hole, when to buoy main body 1 molding, first, second mounting platform securing member 121,131 is imbedded in advance so that it is be integrally formed with buoy main body 1.

Between both sides and the lateral surface of aforementioned buoy main body 1 of aforesaid buoy main body engaging lug 17, each composition has a buoy main body engaging lug angle α；Equally, between both sides and the lateral surface of aforementioned gallery buoyancy tank 2 of aforesaid gallery buoyancy tank engaging lug 22, each composition has a gallery buoyancy tank engaging lug angle β.As shown in Figure 1, buoy main body engaging lug 17 is positioned at the crest line place of buoy main body 1, and gallery body engaging lug 22 is positioned at the crest line place of gallery body 2.That is a buoy main body engaging lug on the left of the front end in four buoy main body engaging lugs 17 and a buoy main body engaging lug on the right side of rear end form diagonal relationship each other, and a buoy main body engaging lug on the right side of the front end in four buoy main body engaging lugs 17 and a buoy main body engaging lug on the left of rear end form diagonal relationship each other.Four same examples of gallery body engaging lug 22, no longer repeat.Aforesaid buoy main body engaging lug angle α substantially refers to the angle between the normal of buoy main body engaging lug 17 and the lateral surface of buoy main body 1, due to the aforesaid gallery buoyancy tank engaging lug same example of angle β, thus repeats no more.

Emphasis is shown in Fig. 1, aforementioned buoy main body engaging lug 17 offers a buoy main body and connects earhole 171, and on aforementioned gallery buoyancy tank engaging lug 22, offer a gallery buoyancy tank connect earhole 221, buoy main body engaging lug 17 is connected with gallery buoyancy tank engaging lug 22 by engaging lug bolt 4 and is limited by the nut 41 that limits screwing on engaging lug bolt 4 by the position corresponding to buoy main body connecting hole 171 and gallery buoyancy tank connection earhole 221 at the same time.

In the present embodiment, aforesaid buoy main body engaging lug angle α and aforesaid gallery buoyancy tank engaging lug angle β are 135 °；Respectively being embedded with a column securing member 33 on the end face of aforesaid column 3, this column securing member 33 is the nut with internal thread hole.

Preferably, aforesaid gallery buoyancy tank 2 towards on one side surface constitute have gallery buoyancy tank slip preventing fringe 23；Aforesaid gallery buoyancy tank 2 is constituted with space state and has the gallery buoyancy tank of the upper and lower surface being depressed in gallery buoyancy tank 2 to strengthen boss 24.

In the present embodiment, aforesaid gallery buoyancy tank slip preventing fringe 23 is in prismatic shape but it also may be floating-point shape or other similar shape.

For the ease of understanding the present invention, applicant also show the transition gallery buoyancy tank 5 between two adjacent gallery buoyancy tanks 2 in FIG, the structure of this transition gallery buoyancy tank 5 is identical with gallery buoyancy tank 2, but length ratio gallery buoyancy tank 2 is short, realize connecting by the buoy main body 1 that two is adjacent by transition gallery buoyancy tank 5.

nullRefer to Fig. 3，Fig. 3 illustrates the situation in photovoltaic water surface power station 6 and the buoy main body 1 of the present invention，Specifically by a column, the left end in photovoltaic water surface power station 6 is connected seat 61 to fix with an aforesaid column 3，One column connects seat 61 and adopts the column securing member 33 that column connects on seat screw 611 and an aforementioned column 3 to fix，And the framework in photovoltaic water surface power station 6 is connected seat 61 by the fixing screw 62 of framework with column and fixes，The right-hand member in photovoltaic water surface power station 6 is bearing on lower fixed seat 63，Lower fixed seat 63 adopts lower fixed seat screw 631 corresponding to aforementioned first、Second mounting platform securing member 121、The position of 131 is respectively with first、Second mounting platform 12、13 fix，And limited by limited block 64，And limited block 64 is fixed by screw 641 and lower fixed seat 63.

Refer to Fig. 4, Fig. 1 to illustrate connected by foregoing transition gallery buoyancy tank 5 and on each buoy main body 1, arrange the situation of solar water surface photovoltaic plant 6 by multiple buoy main bodies 1.

In sum, technical scheme provided by the invention compensate for the deficiency in prior art, has favorably accomplished invention task, has cashed the technique effect recorded in the superincumbent technique effect hurdle of applicant faithfully.

Claims (10)

1.nullA kind of split type spar structures in photovoltaic water surface power station，It is characterized in that including the buoy main body (1) that a shape is square shape structure，This buoy main body (1) has a totally enclosed cavity (11)，Upper at buoy main body (1) and be positioned at buoy main body (1) and respectively constitute one first mounting platform (12) on the surface being raised in buoy main body (1) towards four corners of upper side、One second mounting platform (13)、One the 3rd mounting platform (14) and one the 4th mounting platform (15)，First mounting platform (12) is embedded with one first mounting platform securing member (121)，Second mounting platform (13) is embedded with one second mounting platform securing member (131)，3rd mounting platform (14) and the 4th mounting platform (15) respectively offer an internal thread hole (16)，In the side in four corners of buoy main body (1) and be respectively extended with a buoy main body engaging lug (17) with level in the middle position of the thickness direction corresponding to buoy main body (1)；One gallery buoyancy tank (2), this gallery buoyancy tank (2) has a totally enclosed gallery buoyancy tank chamber (21), respectively being extended with gallery buoyancy tank engaging lug (22) on the lateral surface in four corners of this gallery buoyancy tank (2), gallery buoyancy tank engaging lug (22) is connected with described buoyancy tank body engaging lug (17)；nullOne column (3)，A column standing screw (31) respectively it is fixed with in the bottom of this column (3)，The column standing screw of the bottom of one of them column in one column (3) is connected with the described internal thread hole (16) on described 3rd mounting platform (14)，And the column standing screw of the bottom of another column in a column (3) is connected with the internal thread hole (16) on described 4th mounting platform (15)，Constituting in the position in the aperture corresponding to described internal thread hole (16) has a column to connect screw rod anti-back slot (161)，And above and have a column bottom boss (32) in the position of the base portion corresponding to described column standing screw (31) composition at a column (3)，A limit is had to move back flange (321) in the upper composition of this column bottom boss (32)，When described column standing screw (31) is sufficiently rotated in described internal thread hole (16)，Described anti-back flange (321) is in and is connected screw rod (161) with described column and matches and use prevention column standing screw (31) towards the state with screw-in direction opposite direction rollback.

2.The split type spar structures in photovoltaic water surface power station according to claim 1, it is characterised in that the first described mounting platform securing member (121) and the second mounting platform securing member (131) are the nut with internal thread hole.

3.The split type spar structures in photovoltaic water surface power station according to claim 1, it is characterised in that between both sides and the lateral surface of described buoy main body (1) of described buoy main body engaging lug (17), each composition has buoy main body engaging lug angle (α)；Between both sides and the lateral surface of described gallery buoyancy tank (2) of described gallery buoyancy tank engaging lug (22), each composition has gallery buoyancy tank engaging lug angle (β).

4.The split type spar structures in the photovoltaic water surface power station according to claim 1 or 3, it is characterized in that offering a buoy main body on described buoy main body engaging lug (17) connects earhole (171), and on described gallery buoyancy tank engaging lug (22), offer a gallery buoyancy tank connect earhole (221), buoy main body engaging lug (17) is connected with gallery buoyancy tank engaging lug (22) by engaging lug bolt (4) and is limited by the nut (41) that limits screwing on engaging lug bolt (4) by the position connecting earhole (221) at the same time corresponding to buoy main body connecting hole (171) and gallery buoyancy tank.

5.The split type spar structures in photovoltaic water surface power station according to claim 3, it is characterised in that described buoy main body engaging lug angle (α) and described gallery buoyancy tank engaging lug angle (β) are 135 °.

6.The split type spar structures in photovoltaic water surface power station according to claim 1, it is characterised in that be respectively embedded with a column securing member (33) on the end face of described column (3).

7.The split type spar structures in photovoltaic water surface power station according to claim 1, it is characterised in that described column securing member (33) is the nut with internal thread hole.

8.The split type spar structures in the photovoltaic water surface power station according to claim 1 or 3, it is characterised in that have gallery buoyancy tank slip preventing fringe (23) towards a upper side surface composition at described gallery buoyancy tank (2).

9.The split type spar structures in photovoltaic water surface power station according to claim 8, it is characterised in that constituted with space state on described gallery buoyancy tank (2) and have the gallery buoyancy tank of the upper and lower surface being depressed in gallery buoyancy tank (2) to strengthen boss (24).

10.The split type spar structures in photovoltaic water surface power station according to claim 8, it is characterised in that described gallery buoyancy tank slip preventing fringe (23) is in floating-point shape or prismatic shape。