CN206939010U - Floating on water device and photovoltaic power generation apparatus - Google Patents

Abstract

The utility model discloses a kind of floating on water device,Including at least two floatation units,Two neighboring floatation unit is attached by attachment means,The first buffer body and the second buffer body of the attachment means are between first baffle and second baffle,First buffer body,Second buffer body,First baffle,Through hole is equipped with second baffle,The shaft of head rod is provided with the first limiting component,First limiting component is supported with first baffle,One end of head rod is successively from first baffle,First buffer body,Second buffer body,Second baffle sets the second limiting component after passing through,Second limiting component is supported with second baffle,Second buffer body and second baffle are located in first sleeve,One end of first sleeve is sandwiched between the first buffer body and the second buffer body,The other end of first sleeve is fixedly connected with one end of the second connecting rod.The utility model can move caused active force to water surface upper ripple and enter row buffering.

Description

Floating on water device and photovoltaic power generation apparatus

Technical field

It the utility model is related to a kind of floating on water device and photovoltaic power generation apparatus.

Background technology

The utilization rate of photovoltaic generation of the prior art is increasingly popularized, and what need to be taken is more aobvious tight using land resource Lack, there is larger limitation using roof and deserted mountain.

Publication No.：CN103795328A application for a patent for invention discloses a kind of water surface floating intensity photovoltaic generation Device, record in its specification：Including multiple photovoltaic generation units, multiple photovoltaic generation units are interconnected to form multiple rows of more The rectangle net-like frame structure of row.Photovoltaic generation unit 1 includes supporting support and floating on water device, leads on floating on water device Cross anchor ear and fix supporting support, supporting support is triangular frame structure, and an inclined-plane of supporting support is installed for photovoltaic module Face, multiple photovoltaic modulies, length direction of multiple photovoltaic modulies along photovoltaic module mounting surface are fixed on photovoltaic module mounting surface It is connected in series.The support beam of supporting support bottom is provided with connection buckle, is connected between photovoltaic generation unit by connection buckle Integrally, and each photovoltaic generation unit can produce certain mutual motion with water surface dipping and heaving.The photovoltaic module Using crystalline silicon photovoltaic module or amorphous silicon photovoltaic component, in order to optimize the generating efficiency of photovoltaic module, the photovoltaic module installation Face forms α angles with horizontal plane, and the scope of α angles is 20 °≤α≤40 °.Floating on water device includes multiple drifts parallel to each other Float tube body, floating body are made using polythene material, have good floating on water performance.The multiple photovoltaic generation unit The periphery for connecting the net-like frame structure formed is provided with several anchor chains, and photovoltaic generation unit is flexible even by being anchored chain Water receiving domain dike edge, ensure that electricity generation system can float with the water surface, decline, do not influenceed by season water level.

In above-mentioned TRT, due to being linked into an integrated entity between photovoltaic generation unit by connection buckle, each photovoltaic Generator unit can produce certain mutual motion with water surface dipping and heaving.Connection buckle is can be seen that as one from Fig. 4 signal Individual part annular in shape, this connection buckle is typically made of rigidity preferably material, so as to which connection buckle does not possess buffering Performance, or shock-absorbing capacity are excessively poor.Because the environment residing for net-like frame structure is typically on the water surface, it is also known that The water surface can act power along with fluctuation, fluctuation often, and if on river surface or sea, active force caused by fluctuation can be non- Chang great, therefore, net-like frame structure often can by leftward or rightward impulsive force, or leftward or rightward pulling force, however, Because connection buckle does not possess shock-absorbing capacity, or shock-absorbing capacity is excessively poor, so as to cause connection buckle to be impacted for a long time It is broken in the case of power.

The content of the invention

The purpose of this utility model is to provide a kind of floating on water device and photovoltaic power generation apparatus, and the utility model can be with Active force caused by dynamic to water surface face upper ripple enters row buffering.

Floating on water device, including at least two floatation units, two neighboring floatation unit is connected by attachment means Connect, the attachment means include the first buffer body, the second buffer body, head rod, the second connecting rod, first baffle, second Baffle plate, first sleeve, the first buffer body and the second buffer body are between first baffle and second baffle, the first buffer body, Two buffer bodies, first baffle, through hole is equipped with second baffle, the shaft of head rod is provided with the first limiting component, should First limiting component is supported with first baffle, and one end of head rod is successively from first baffle, the first buffer body, the second buffering Body, second baffle set the second limiting component after passing through, the second limiting component is supported with second baffle, the second buffer body and Two baffle plates are located in first sleeve, and one end of first sleeve is sandwiched between the first buffer body and the second buffer body, first sleeve The other end be fixedly connected with one end of the second connecting rod.

First buffer body is provided with the first protuberance axially extended in face of one end of first sleeve, first protrusion Portion gap coordinates in first sleeve.

The end of first protuberance is provided with the second protuberance axially extended, and the second protuberance interval coordinates second In the through hole of buffer body.

First buffer body and the second buffer body are rubber.

First buffer body and the second buffer body are spring.

Floating on water device, including at least two floatation units, two neighboring floatation unit is connected by attachment means Connect, the attachment means include the first buffer body, the second buffer body, first partition, first sleeve, head rod, the second company Extension bar, one end of first sleeve are fixed with the first end cap, and the other end of first sleeve is fixed with the second end cap, the first buffer body, Second buffer body, first partition are respectively positioned in first sleeve, and one end of the first buffer body is supported with the first end cap, the first buffer body The other end supported with first partition, one end of the second buffer body is supported with the second end cap, the other end of the second buffer body and One dividing plate is supported, and through hole is provided with the first end cap and the first buffer body, and one end of the head rod passes through first It is connected after through hole on end cap and the first buffer body with first partition, one end of the second connecting rod connects with second end cap Connect.

First buffer body and the second buffer body are spring or rubber.

Floating on water device, including at least two floatation units, two neighboring floatation unit is connected by attachment means Connect, the attachment means include first partition, first sleeve, head rod, the second connecting rod, and one end of first sleeve is fixed There is the first end cap, the other end of first sleeve is fixed with the second end cap, sealing ring, first partition are set on the periphery of first partition Axially displaceably it is arranged in first sleeve, the first cavity is formd between first partition, the first end cap, first sleeve, The second cavity is formd between first partition, the second end cap, first sleeve, is respectively equipped with the first cavity and the second cavity Compressible fluid, first end, which covers, is provided with through hole, and one end of head rod is connected with first partition, head rod The outside of first sleeve, one end of the second connecting rod and second end are reached after the through hole that the other end covers through first end Lid connection.

Compressible fluid is gas or liquid.

A kind of photovoltaic power generation apparatus, including support, solar cell module, photovoltaic combiner box and photovoltaic DC-to-AC converter, the sun Energy battery component is fixed on support, and solar cell module electrically connects with photovoltaic combiner box, photovoltaic combiner box and photovoltaic inversion Device is electrically connected, in addition to floating on water device, the support are fixed in the floatation unit of floating on water device.

The advantages of the utility model is：When producing wave action power on the water surface, wave action power acts on attachment means On, wave action power is absorbed by the cushioning effect of attachment means pair, attachment means can be avoided to be broken, so as to ensure that The reliability of flotation gear.

Brief description of the drawings

Fig. 1 is the structural representation of floating on water device of the present utility model；

Fig. 2 is the schematic diagram of the first attachment means in the utility model；

Fig. 3 is Fig. 2 profile；

Fig. 4 is the schematic diagram of second of attachment means in the utility model；

Fig. 5 is the schematic diagram of photovoltaic power generation apparatus in the utility model；

Embodiment

Embodiment one

As shown in Figure 1 to Figure 3, floating on water device of the present utility model, including at least two floatation units, floatation unit For raft, raft includes some floating drums 1 and fixedly connected part 2, and in same floatation unit, floating drum 1 is arranged in multirow, in floating drum A fixedly connected part 2 is placed in 1 the upper side and lower side respectively, and the fixedly connected part 2 of the upper side and lower side is connected by bolt again Connect, fixedly connected part 2 clamps floating drum, so as to which by these floating drum clampings, into an entirety, floating drum 1 and fixedly connected part 2 can be with Using FRP (fibre reinforced plastics) or HDPE (high density polyethylene (HDPE))；Photovoltaic bracket material on floating body is aluminium alloy/hot-dip Zinc steel/FRP.Two neighboring floatation unit is attached by attachment means 3.

The attachment means 3 include the first buffer body 4, the second buffer body 5, head rod 6, the second connecting rod 7, first Baffle plate 8, second baffle 9, first sleeve 10, the first buffer body 4 and the second buffer body 5 be located at first baffle 8 and second baffle 9 it Between, the first buffer body 4, the second buffer body 5, first baffle 8, through hole, the shaft of head rod 6 are equipped with second baffle 9 Be provided with the first limiting component 11, first limiting component 11 is supported with first baffle 8, one end of head rod 6 successively from First baffle 8, the first buffer body 4, the second buffer body 5, second baffle 9 set the second limiting component 12 after passing through, second is spacing Part 12 is supported with second baffle, and the first limiting component 11 and the second limiting component 12 can be threadedly connected to head rod Nut on 6, or the first limiting component 11 can also be with 6 integrally formed radial protrusion of head rod, second is spacing Part 12 is nut.Second buffer body 5 and second baffle 9 are located in first sleeve 10, and one end of first sleeve 10 is sandwiched in Between first buffer body 4 and the second buffer body 5, the other end of first sleeve 10 is fixedly connected with one end of the second connecting rod 7.Institute It is rubber to state the first buffer body 4 and the second buffer body 5, and the first buffer body 4 is provided with vertically in face of one end of first sleeve 10 First protuberance 4a of extension, the first protuberance 4a gaps coordinate in first sleeve 10.First protuberance 4a end is set There is the second protuberance 4b axially extended, the second protuberance 4b intervals coordinate in the through hole of the second buffer body 5.Second is convex Go out portion 4b and the first protuberance 4a in cylinder, the second protuberance 4b external diameter is less than the first protuberance 4a external diameter.First Connecting rod 6, the other end of the second connecting rod 7 are connected (such as Fig. 1) with floatation unit respectively.

Above-mentioned the first buffer body 4 and the second buffer body 5 can also be spring.

The course of work of present embodiment is：As shown in figure 3, come to the right (in terms of the direction shown in Fig. 3) when have During impulsive force, impulsive force passes sequentially through floatation unit, head rod 6, the first limiting component 11, first baffle 8 and acts on On one buffer body 4, because the second connecting rod 7 is in the state of geo-stationary, therefore, the first buffer body 4 faces first sleeve 10 One end it is spacing by first sleeve 10, because impact force action is in the other end of the first buffer body 4, therefore, the quilt of the first buffer body 4 Compression, so as to be absorbed to energy caused by impact forces.

When having, when coming from impulsive force to the left, impulsive force passes sequentially through floatation unit, the second connecting rod 7, first sleeve 10 act on one end of the first buffer body 4, similarly, because head rod 6 is in the state of geo-stationary, therefore, first Buffer body 4 is spacing by first baffle 8 in face of the end of first baffle 8, and so, the first buffer body 4 is compressed, so as to make to impact Firmly caused energy is absorbed.

When having, when coming from pulling force effect to the right, the pulling force is delivered in the second connecting rod 7 by floatation unit, then is led to One end that first sleeve 10 is delivered to the second buffer body 5 is crossed, because head rod 6 is in the state of geo-stationary, therefore, the Two buffer bodies 5 are spacing by second baffle 9 in face of the end of second baffle 9, and so, the second buffer body 5 is compressed, so as to impact Energy is absorbed caused by active force.

When having, when coming from pulling force effect to the left, the pulling force is delivered on head rod 6 by floatation unit, then is led to One end that second baffle 9 is delivered to the second buffer body 5 is crossed, because the second connecting rod 7 is in the state of geo-stationary, therefore, the Two buffer bodies 5 are spacing by first baffle 8 in face of the end of first baffle 8, and so, the second buffer body 5 is compressed, so as to impact Energy is absorbed caused by active force.

Embodiment two

As shown in Figure 1 and Figure 4, floating on water device of the present utility model, including at least two floatation units, floatation unit For raft, raft includes some floating drums 1 and fixedly connected part 2, and in same floatation unit, floating drum 1 is arranged in multirow, in floating drum A fixedly connected part 2 is placed in 1 the upper side and lower side respectively, and the fixedly connected part 2 of the upper side and lower side is connected by bolt again Connect, fixedly connected part 2 clamps floating drum, so as to which by these floating drum clampings, into an entirety, floating drum 1 can use FRP, and (fiber increases Strong plastics) or HDPE (high density polyethylene (HDPE))；Photovoltaic bracket material on floating body is aluminium alloy/electro-galvanized steel/FRP.It is adjacent Two floatation units are attached by attachment means 3.

The attachment means include the first buffer body 4, the second buffer body 5, head rod 6, the second connecting rod 7, first Dividing plate 8, first sleeve 10, one end of first sleeve 10 are fixed with the first end cap 10a, and the other end of first sleeve 10 is fixed with Two end cap 10b, the first buffer body 4, the second buffer body 5, first partition 8 are respectively positioned in first sleeve 10, and the one of the first buffer body 4 End is supported with the first end cap 10a, and the other end and the first partition 8 of the first buffer body 4 are supported, first buffer body 4 and second Buffer body 5 is spring or rubber.One end of second buffer body 5 is supported with the second end cap 10b, the other end of the second buffer body 5 Supported with first partition 8, be provided with through hole on the first end cap 10a and the first buffer body 4, the one of the head rod 6 End through being connected with first partition 8 after the through hole on the first end cap 10a and the first buffer body 4, one end of the second connecting rod 7 with The second end cap 10b connections.

The course of work of present embodiment is：As shown in figure 4, come to the right (in terms of the direction shown in Fig. 4) when have During impulsive force, impulsive force passes sequentially through floatation unit, head rod 6, the first end cap 10a, acted in first sleeve 10, by The state of geo-stationary is in the second connecting rod 7, therefore, the first buffer body 4 is in face of one end of first partition 8 by first partition 8 is spacing, and so, the first end cap 10a, first sleeve 10 move, so as to which the active force on the first end cap 10a is delivered to the first buffering On body 4, the first buffer body 4 is compressed, so as to be absorbed to energy caused by impact forces.

When having, when coming from impulsive force to the left, impulsive force passes sequentially through floatation unit, the second connecting rod 7, first partition 8 One end of the first buffer body 4 is acted on, similarly, because head rod 6 is in the state of geo-stationary, therefore, first is slow It is spacing by the first end cap 10a in face of the first end cap 10a end to rush body 4, so, first partition 8 is compressed during motion First buffer body 4, so as to which the first buffer body 4 absorbs to energy caused by impact forces.

When having, when coming from pulling force effect to the right, the pulling force is delivered in the second connecting rod 7 by floatation unit, then is led to One end that first partition 8 is delivered to the second buffer body 5 is crossed, because head rod 6 is in the state of geo-stationary, therefore, the The end cap 10b of sleeve 10 and second remains static, and the second buffer body 5 is in face of the second end cap 10b end by the second end Lid 10b is spacing, and so, first partition 8 compresses the second buffer body 5 during motion, so as to which the second buffer body 5 is made to impact Firmly caused energy is absorbed.

When having, when coming from pulling force effect to the left, the pulling force is delivered on head rod 6 by floatation unit, then is led to One end that the end cap 10b of first sleeve 10 and second is delivered to the second buffer body 5 is crossed, because the second connecting rod 7 is in relatively quiet State only, therefore, the second buffer body 5 are spacing by first partition 8 in face of the end of first partition 8, so, the second buffer body 5 Compressed, so as to be absorbed to energy caused by impact forces.

Embodiment three：

Floating on water device, including at least two floatation units, two neighboring floatation unit is connected by attachment means Connect, the attachment means include first partition, first sleeve, head rod, the second connecting rod, and one end of first sleeve is fixed There is the first end cap, the other end of first sleeve is fixed with the second end cap, sealing ring, first partition are set on the periphery of first partition Axially displaceably it is arranged in first sleeve, the first cavity is formd between first partition, the first end cap, first sleeve, The second cavity is formd between first partition, the second end cap, first sleeve, is respectively equipped with the first cavity and the second cavity Compressible fluid, first end, which covers, is provided with through hole, and one end of head rod is connected with first partition, head rod The outside of first sleeve, one end of the second connecting rod and second end are reached after the through hole that the other end covers through first end Lid connection.Compressible fluid is gas or liquid.

Present embodiment is with the difference of embodiment two, employs compressible fluid to replace the first buffer body With the second buffer body, remaining structure is identical, therefore, the course of work of present embodiment and the course of work phase of second embodiment Seemingly.

As shown in figure 5, the utility model photovoltaic power generation apparatus, including support 13, solar cell module 14, photovoltaic conflux Case (diagram is not shown) and photovoltaic DC-to-AC converter (diagram is not shown), solar cell module 14 are fixed on support 13, solar energy Battery component 14 electrically connects with photovoltaic combiner box, and photovoltaic combiner box electrically connects with photovoltaic DC-to-AC converter, in addition to it is above-mentioned any one Or the floating on water device described in several embodiments, the support are fixed in the floatation unit of floating on water device.Floating The periphery of unit is provided with several anchor chains, for fixing floatation unit.

Claims (10)

1. floating on water device, including at least two floatation units, two neighboring floatation unit is attached by attachment means, Characterized in that, the attachment means include the first buffer body, the second buffer body, head rod, the second connecting rod, first gear Between first baffle and second baffle, first is slow for plate, second baffle, first sleeve, the first buffer body and the second buffer body Rush body, the second buffer body, first baffle, be equipped with through hole on second baffle, it is spacing that the shaft of head rod is provided with first Part, first limiting component are supported with first baffle, one end of head rod successively from first baffle, the first buffer body, Second buffer body, second baffle set the second limiting component after passing through, the second limiting component is supported with second baffle, the second buffering Body and second baffle are located in first sleeve, and one end of first sleeve is sandwiched between the first buffer body and the second buffer body, The other end of first sleeve is fixedly connected with one end of the second connecting rod.

2. floating on water device according to claim 1, it is characterised in that：First buffer body is in face of first sleeve One end is provided with the first protuberance axially extended, and the first protuberance gap coordinates in first sleeve.

3. floating on water device according to claim 2, it is characterised in that：The end of first protuberance is provided with prolongs vertically The second protuberance stretched, the second protuberance interval coordinate in the through hole of the second buffer body.

4. the floating on water device according to claims 1 to 3 any one, it is characterised in that：First buffer body and Second buffer body is rubber.

5. floating on water device, including at least two floatation units, two neighboring floatation unit is attached by attachment means, Characterized in that, the attachment means include the first buffer body, the second buffer body, first partition, first sleeve, the first connection Bar, the second connecting rod, one end of first sleeve are fixed with the first end cap, and the other end of first sleeve is fixed with the second end cap, the One buffer body, the second buffer body, first partition are respectively positioned in first sleeve, and one end of the first buffer body is supported with the first end cap, The other end of first buffer body is supported with first partition, and one end of the second buffer body is supported with the second end cap, the second buffer body The other end is supported with first partition, is provided with through hole on the first end cap and the first buffer body, and the one of the head rod End with first partition through be connected after the through hole on the first end cap and the first buffer body, one end of the second connecting rod and described the Two end caps connect.

6. floating on water device according to claim 5, it is characterised in that：First buffer body and the second buffer body are Spring or rubber.

7. floating on water device, including at least two floatation units, two neighboring floatation unit is attached by attachment means, Characterized in that, the attachment means include first partition, first sleeve, head rod, the second connecting rod, first sleeve One end is fixed with the first end cap, and the other end of first sleeve is fixed with the second end cap, sealing is set on the periphery of first partition Circle, first partition are axially displaceably arranged in first sleeve, formed between first partition, the first end cap, first sleeve First cavity, forms the second cavity, in the first cavity and the second chamber between first partition, the second end cap, first sleeve Compressible fluid is respectively equipped with body, first end, which covers, is provided with through hole, and one end of head rod is connected with first partition, The outside of first sleeve, one end of the second connecting rod are reached after the through hole that the other end of head rod covers through first end It is connected with second end cap.

8. a kind of photovoltaic power generation apparatus, including support, solar cell module, photovoltaic combiner box and photovoltaic DC-to-AC converter, solar energy Battery component is fixed on support, and solar cell module electrically connects with photovoltaic combiner box, photovoltaic combiner box and photovoltaic DC-to-AC converter Electrical connection, it is characterised in that：Also include the floating on water device as described in claim 1 to 7 any one, the support is fixed In the floatation unit of floating on water device.

9. photovoltaic power generation apparatus according to claim 8, it is characterised in that：The floatation unit uses fibre reinforced plastics Or high density polyethylene (HDPE) is made.

10. photovoltaic power generation apparatus according to claim 8, it is characterised in that：The photovoltaic bracket using aluminium alloy or Electro-galvanized steel or fibre reinforced plastics are made.