CN113619745A

CN113619745A - Photovoltaic power plant on water of convenient connection location

Info

Publication number: CN113619745A
Application number: CN202111186432.2A
Authority: CN
Inventors: 毕洪宇
Original assignee: Nantong Zhongbo Utensils Co ltd
Current assignee: Nantong Zhongbo Utensils Co ltd
Priority date: 2021-10-12
Filing date: 2021-10-12
Publication date: 2021-11-09
Anticipated expiration: 2041-10-12
Also published as: CN113619745B

Abstract

The invention discloses an overwater photovoltaic power station convenient to connect and position, which comprises a large buoyancy tank, a first small buoyancy tank and a second small buoyancy tank, wherein a solar panel is arranged on the top wall body of the large buoyancy tank, a connecting mechanism is arranged between one side wall body of the first small buoyancy tank and one side wall body of the large buoyancy tank, the connecting mechanism comprises a first connecting buckle and a second connecting buckle, a limiting mechanism is arranged in the wall body of the second connecting buckle, the limiting mechanism comprises a limiting block and a pulling plate, and slots are symmetrically formed in the upper wall bodies on the two sides of the first small buoyancy tank respectively. The invention relates to a water photovoltaic power station convenient to connect and position, which comprises the following components in parts by weight: through the setting of arm-tie and extrusion piece, be convenient for accomodate into the second connector link fast to two stoppers, and then be convenient for first connector link and the quick release of second connector link be connected. Through the setting of bearing mechanism, can be convenient for install on the little flotation tank of second, carry out spacing bearing to the cable simultaneously, prevent for a long time flagging and drive cable joint not hard up.

Description

Photovoltaic power plant on water of convenient connection location

Technical Field

The invention relates to the technical field of photovoltaic power station equipment, in particular to an overwater photovoltaic power station convenient to connect and position.

Background

The photovoltaic power station is a power generation system which is formed by using solar energy and electronic elements made of special materials such as a crystalline silicon plate, an inverter and the like, and is connected with a power grid and transmits power to the power grid.

And, along with the rapid development of photovoltaic power plant's laying technique and demand, install it on the surface of water with partial solar photovoltaic power plant through various fixing device, make full use of the space that the surface of water does not utilize carries out photovoltaic power generation, and partial photovoltaic power plant on water is with solar panel and equipment fixing in the flotation tank, and connect the network deployment with it through the flotation tank, but, most flotation tank connection all links together through the fixed knot on the bolt with the flotation tank outer wall, it is then inconvenient to operate when maintaining the dismouting to it on the surface of water, in addition, most connecting cable between the photovoltaic power generation solar panel on water all is direct unsettled between the flotation tank, lead to cable joint not hard up and influence solar panel's normal operating easily at the long-time unsettled flagging in-process of cable.

Disclosure of Invention

The invention aims to provide an overwater photovoltaic power station convenient to connect and position, and the problems in the background technology can be effectively solved.

In order to achieve the purpose, the invention adopts the technical scheme that:

an overwater photovoltaic power station convenient to connect and position comprises a large buoyancy tank, a first small buoyancy tank and a second small buoyancy tank, wherein a solar panel is arranged on the wall body at the top of the large buoyancy tank;

be equipped with coupling mechanism between first little flotation tank lateral wall body and big flotation tank lateral wall body, coupling mechanism includes first connector link and second connector link, be equipped with stop gear in the second connector link wall body, stop gear includes stopper and arm-tie, the slot has still been seted up to the symmetry respectively in the first little flotation tank both sides top wall body, the symmetry is equipped with two fixed plates respectively on the wall body of the little flotation tank both sides top of second, be equipped with the inserted block on the wall body of fixed plate bottom one side, the fixed plate clamps in the slot of first little flotation tank lateral top wall body through the inserted block, it has the spiral shell groove to open in the wall body of the little flotation tank top front end of second, still be equipped with bearing mechanism on the wall body of the little flotation tank top of second, bearing mechanism includes bearing cover, knob piece and spacing cover.

Preferably, first connecting groove has been seted up in first connecting buckle lateral wall body, the spacing groove has been seted up respectively in top and the bottom wall body in the cavity of first connecting buckle opposite side wall body, first connecting buckle one side still is equipped with first linkage block, be equipped with first fixed axle on first linkage block one side front end and the rear end wall body respectively, first linkage block, first fixed axle and big flotation tank are blowing shaping as an organic whole, and first fixed axle rotates and installs in the rotation groove of first connecting inslot wall.

Preferably, a second connecting groove is formed in a wall body on one side of the second connecting buckle, a second connecting block is further arranged on one side of the second connecting buckle, a second fixing shaft is respectively arranged at the front end on one side of the second connecting block and on the wall body on the rear end, the second connecting block, the second fixing shaft and the first small buoyancy tank are integrally formed by blow molding, and the second fixing shaft is rotatably installed in a rotating groove in the inner wall of the second connecting groove.

Preferably, the connecting mechanism further comprises two mounting grooves symmetrically formed in a side wall body of the second connecting buckle, the two mounting grooves are communicated with each other through a cavity, and a sliding groove is formed in the wall body of the second connecting buckle on one side of the two mounting grooves.

Preferably, two still respectively fixed mounting has a limiting plate on the wall body of the relative one side of stopper, and two the stopper passes through the limiting plate interlude and installs in the mounting groove that corresponds, still fixedly connected with compression spring between limiting plate and the mounting groove inner wall that corresponds, and two opening that stopper one end wall body passed in the second connector link wall body respectively extends to the second connector link outside, two the embedded groove has still been seted up respectively in the relative one side intermediate position wall body of stopper, it has two fixed frames to go back symmetry fixed mounting in the embedded groove inner wall.

Preferably, the arm-tie alternates to be installed in the fluting of spout bottom wall body, and in the cavity between two mounting grooves was extended to arm-tie opposite side wall body, still symmetry fixed mounting has two fixed blocks respectively on arm-tie top and a bottom lateral wall body, fixed mounting has the extrusion piece on a fixed block lateral wall body.

Preferably, a stud is fixedly mounted on the wall body at the bottom of the knob block, the stud is screwed in the groove of the wall body at the top of the second small buoyancy tank, a fixing rod is fixedly mounted on the wall body at the top of the knob block, and a square block is fixedly mounted on the wall body at the top of the fixing rod.

Preferably, still fixed mounting has the connecting rod on the wall body of bearing cover bottom intermediate position, set up first commentaries on classics groove in the wall body of connecting rod bottom, square groove has still been seted up in the first commentaries on classics inslot top wall body, and the connecting rod passes through square groove and alternates and install on square piece, the second commentaries on classics groove has still been seted up in the outer wall of bearing cover both sides respectively.

Preferably, fixed mounting has fixed cover on the wall body of spacing cover one side, fixed mounting has solid fixed ring on the wall body of fixed cover inboard, spacing cover rotates through fixed cover and installs on bearing cover one side wall body, and gu fixed ring rotates and installs in the second rotary trough.

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

the invention relates to a water photovoltaic power station convenient to connect and position, which comprises the following components in parts by weight:

1. through coupling mechanism's setting, can be quick carry out fixed connection with big flotation tank and first little flotation tank.

2. Through the setting of arm-tie and extrusion piece, be convenient for accomodate into the second connector link fast to two stoppers, and then be convenient for first connector link and the quick release of second connector link be connected.

3. Through the setting of bearing mechanism, can be convenient for install on the little flotation tank of second, carry out spacing bearing to the cable simultaneously, prevent for a long time flagging and drive cable joint not hard up.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is an exploded view of the coupling mechanism of the present invention;

FIG. 3 is an exploded view of the spacing mechanism of the present invention;

FIG. 4 is an exploded view of a second small pontoon structure according to the invention;

FIG. 5 is a structural exploded view of the support mechanism of the present invention;

FIG. 6 is an enlarged view taken at A in FIG. 5;

fig. 7 is a schematic structural view of the position limiting cover of the present invention.

In the figure: 1. a large buoyancy tank; 2. a first small buoyancy tank; 3. a second small buoyancy tank; 4. a solar panel; 5. a connecting mechanism; 6. a first connecting buckle; 7. a second connecting buckle; 8. a limiting mechanism; 9. a limiting block; 10. pulling a plate; 11. a slot; 12. a fixing plate; 13. inserting a block; 14. a screw groove; 15. a support mechanism; 16. a bearing cover; 17. a knob block; 18. a limiting cover; 19. a first connecting groove; 20. a first connection block; 21. a first fixed shaft; 22. a second connecting groove; 23. a second connecting block; 24. a second fixed shaft; 25. a limiting groove; 26. mounting grooves; 27. a chute; 28. a limiting plate; 29. a groove is embedded; 30. a fixing frame; 31. a compression spring; 32. a fixed block; 33. extruding the block; 34. a stud; 35. fixing the rod; 36. a square block; 37. a connecting rod; 38. a first rotary groove; 39. a square groove; 40. a second rotary groove; 41. a fixed cover; 42. and (4) fixing the ring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

as shown in fig. 1-7, the photovoltaic power station on water provided by the invention and convenient to connect and position comprises a large buoyancy tank 1, a first small buoyancy tank 2 and a second small buoyancy tank 3, wherein a solar panel 4 is arranged on the top wall body of the large buoyancy tank 1;

be equipped with coupling mechanism 5 between first little flotation tank 2 lateral wall body and the 1 lateral wall body of big flotation tank, coupling mechanism 5 includes first connector link 6 and second connector link 7, be equipped with stop gear 8 in the second connector link 7 wall body, stop gear 8 includes stopper 9 and arm-tie 10, slot 11 has still been seted up to symmetry respectively in the 2 both sides top wall bodies of first little flotation tank, it is equipped with two fixed plates 12 respectively to symmetry on the 3 both sides top wall bodies of second little flotation tank, be equipped with inserted block 13 on the wall body of fixed plate 12 bottom one side, fixed plate 12 clamps in slot 11 of the first little flotation tank 2 one side top wall body through inserted block 13, the wall body of the front end at the 3 tops of second little flotation tank has seted up spiral shell groove 14, still be equipped with bearing mechanism 15 on the wall body at the 3 tops of second little flotation tank, bearing mechanism 15 includes bearing cover 16, knob piece 17 and stop cover 18.

Example two:

on the basis of the first embodiment, as shown in fig. 1, 2 and 3, a connecting mechanism of an above-water photovoltaic power station convenient for connection and positioning is provided, wherein a first connecting groove 19 is formed in a wall body on one side of a first connecting buckle 6, a limiting groove 25 is respectively formed in a top wall and a bottom wall body of a cavity of a wall body on the other side of the first connecting buckle 6, a first connecting block 20 is further provided on one side of the first connecting buckle 6, a first fixing shaft 21 is respectively provided on a front end of one side of the first connecting block 20 and a rear end wall body, the first connecting block 20, the first fixing shaft 21 and a large buoyancy tank 1 are integrally blow-molded, the first fixing shaft 21 is rotatably installed in a rotating groove on an inner wall of the first connecting groove 19, a second connecting groove 22 is formed in a wall body on one side of a second connecting buckle 7, a second connecting block 23 is further provided on one side of the second connecting buckle 7, a front end of one side of the second connecting block 23 and a rear end wall body are respectively provided with a second fixing shaft 24, the second connecting block 23, the second fixing shaft 24 and the first small buoyancy tank 2 are formed by integral blow molding, the second fixing shaft 24 is rotatably installed in a rotating groove on the inner wall of the second connecting groove 22, the connecting mechanism 5 further comprises two mounting grooves 26 symmetrically formed in the wall body on one side of the second connecting buckle 7, the two mounting grooves 26 are communicated with each other through a cavity, a sliding groove 27 is formed in the wall body on one side of the two mounting grooves 26 of the second connecting buckle 7, limiting plates 28 are respectively and fixedly installed on the wall bodies on the opposite sides of the two limiting blocks 9, the two limiting blocks 9 are inserted and installed in the corresponding mounting grooves 26 through the limiting plates 28, compression springs 31 are further fixedly connected between the limiting plates 28 and the inner walls of the corresponding mounting grooves 26, one end wall bodies of the two limiting blocks 9 respectively extend to the outside of the second connecting buckle 7 through openings in the wall body of the second connecting buckle 7, and embedding grooves 29 are further formed in the wall bodies on the middle positions of the opposite sides of the two limiting blocks 9, two fixing frames 30 are also symmetrically and fixedly installed in the inner wall of the insertion groove 29.

When in use, when the first connecting buckle 6 at one side of the large buoyancy tank 1 is required to be fixedly connected with the second connecting buckle 7 at one side of the first small buoyancy tank 2, only one side wall body of the second connecting buckle 7 is required to be inserted into the cavity of one side wall body of the first connecting buckle 6, so that the top and the bottom wall bodies of the cavity at one side of the first connecting buckle 6 gradually extrude the two limiting mechanisms 8, so that the two limiting mechanisms 8 respectively compress the corresponding compression springs 31 to the inner wall bodies of the mounting groove 26 through the limiting plates 28 on the wall bodies, when the two limiting mechanisms 8 move to the corresponding limiting grooves 25 along with the second connecting buckle 7, the two limiting mechanisms rebound through the compression springs 31 on the wall bodies of the two limiting plates 28, so that the other ends of the two limiting blocks 9 are clamped into the corresponding limiting grooves 25, so as to fixedly connect the second connecting buckle 7 with the first connecting buckle 6, so that the large buoyancy tank 1 is fixedly connected with one side of the first small buoyancy tank 2, in addition, when second connector link 7 and first connector link 6 are removed to be connected, only need to stir one side button of arm-tie 10 to one side, and then make arm-tie 10 move to one side between two stopper 9, and then make arm-tie 10 drive extrusion piece 33 on top and the bottom wall body and move to the fixed frame 30 of two stopper 9 relative lateral wall body, and then utilize extrusion piece 33 wall body radian to draw in two stopper 9 to the centre gradually, and then make two stopper 9 opposite side wall bodies accomodate and get into mounting groove 26, afterwards, can pull open first connector link 6 and second connector link 7.

Example three:

on the basis of the first embodiment, as shown in fig. 4, 5, 6 and 7, in the supporting mechanism for an overwater photovoltaic power station convenient for connection and positioning, the pulling plate 10 is inserted and installed in the groove of the bottom wall body of the sliding groove 27, the other side wall body of the pulling plate 10 extends into the cavity between the two installation grooves 26, two fixed blocks 32 are further symmetrically and fixedly installed on the top wall body and the bottom side wall body of the pulling plate 10, respectively, a pressing block 33 is fixedly installed on one side wall body of the fixed block 32, a stud 34 is fixedly installed on the bottom wall body of the knob block 17, the stud 34 is screwed into the screw groove 14 installed on the top wall body of the second small buoyancy tank 3, a fixed rod 35 is further fixedly installed on the top wall body of the knob block 17, a square block 36 is fixedly installed on the top wall body of the fixed rod 35, a connecting rod 37 is further fixedly installed on the middle position wall body at the bottom of the supporting cover 16, a first rotation groove 38 is formed in the bottom wall body of the connecting rod 37, still seted up square groove 39 in the first rotary trough 38 interior top wall body to connecting rod 37 installs on square piece 36 through square groove 39 interlude, second rotary trough 40 has still been seted up respectively in the outer wall of bearing cover 16 both sides, fixed mounting has fixed cover 41 on the wall body of spacing cover 18 one side, fixed mounting has solid fixed ring 42 on the wall body of fixed cover 41 inboard, spacing cover 18 rotates through fixed cover 41 and installs on bearing cover 16 one side wall body, and solid fixed ring 42 rotates and installs in second rotary trough 40.

When needs install bearing cover 16 on the wall body of 2 tops of first little flotation tank, only need earlier bearing cover 16 and knob piece 17 pull open, and then make square piece 36 on the wall body of knob piece 17 top dead lever 35 enter into first groove 38, afterwards, can rotate knob piece 17, and then make knob piece 17 drive stud 34 screw in to the spiral shell groove 14 of the wall body of 3 tops of second little flotation tank, after stud 34 screws fixedly, adjust bearing cover 16 the position and put down can, and then make square groove 39 card in the connecting rod 37 wall body block go into square piece 36 spacing, afterwards, after putting into bearing cover 16 with the cable, can rotate spacing cover 18 on bearing cover 16 one side wall body through the fixed cover 41 on the outer wall of one side, and then make spacing cover 18 wall body be located bearing cover 16 top position, and then carry out an anti-drop to the cable and handle.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a photovoltaic power plant on water of convenient connection location which characterized in that: the solar floating box comprises a large floating box (1), a first small floating box (2) and a second small floating box (3), wherein a solar panel (4) is arranged on the wall body at the top of the large floating box (1);

a connecting mechanism (5) is arranged between one lateral wall body of the first small buoyancy tank (2) and one lateral wall body of the large buoyancy tank (1), the connecting mechanism (5) comprises a first connecting buckle (6) and a second connecting buckle (7), the connecting mechanism (5) further comprises two mounting grooves (26) symmetrically formed in one lateral wall body of the second connecting buckle (7), two mounting grooves (26) are communicated with each other through a cavity, a sliding groove (27) is formed in the wall body on one side of the two mounting grooves (26) of the second connecting buckle (7), two limiting plates (28) are fixedly mounted on the wall body on the opposite side of each limiting block (9) respectively, the two limiting blocks (9) are inserted through the limiting plates (28) and mounted in the corresponding mounting grooves (26), and compression springs (31) are fixedly connected between the limiting plates (28) and the inner walls of the corresponding mounting grooves (26), and two opening that stopper (9) one end wall body passed respectively in the second connector link (7) wall body extends to second connector link (7) outside, two embedded groove (29) have still been seted up respectively in the relative one side intermediate position wall body of stopper (9), still symmetry fixed mounting has two fixed frame (30) in embedded groove (29) inner wall, arm-tie (10) alternate and install in the fluting of spout (27) bottom wall body, and in arm-tie (10) opposite side wall body extends to the cavity between two mounting grooves (26), still symmetry fixed mounting has two fixed block (32) respectively on arm-tie (10) top and the bottom lateral wall body, fixed mounting has extrusion piece (33) on fixed block (32) lateral wall body, be equipped with stop gear (8) in second connector link (7) wall body, stop gear (8) include stopper (9) and arm-tie (10), slots (11) are further symmetrically formed in wall bodies above two sides of the first small floating box (2), two fixing plates (12) are symmetrically arranged on wall bodies at the tops of two sides of the second small floating box (3), an inserting block (13) is arranged on a wall body at one side of the bottom of each fixing plate (12), each fixing plate (12) is clamped in the slot (11) of the wall body at the top of one side of the first small floating box (2) through the inserting block (13), a spiral groove (14) is formed in a wall body at the front end of the top of the second small floating box (3), a bearing mechanism (15) is further arranged on the wall body at the top of the second small floating box (3), each bearing mechanism (15) comprises a bearing cover (16), a knob block (17) and a limiting cover (18), a stud (34) is fixedly mounted on a wall body at the bottom of the knob block (17), and the stud (34) is screwed into the spiral groove (14) mounted on the wall body at the top of the second small floating box (3), still fixed mounting has connecting rod (37) on bearing cover (16) bottom intermediate position wall body, it has first turn trough (38) to open in connecting rod (37) bottom wall body, square groove (39) have still been seted up in first turn trough (38) interior top wall body, and connecting rod (37) alternate through square groove (39) and install on square piece (36), fixed mounting has fixed cover (41) on spacing cover (18) a lateral wall body, fixed mounting has solid fixed ring (42) on the fixed cover (41) medial wall body, spacing cover (18) are rotated through fixed cover (41) and are installed on bearing cover (16) a lateral wall body.

2. The photovoltaic power plant on water of convenient connection location of claim 1 characterized in that: first connecting groove (19) have been seted up in first connecting buckle (6) one side wall body, spacing groove (25) have been seted up respectively in top and the bottom wall body in the cavity of first connecting buckle (6) opposite side wall body, first connecting buckle (6) one side still is equipped with first linkage block (20), be equipped with first fixed axle (21) on first linkage block (20) one side front end and the rear end wall body respectively, first linkage block (20), first fixed axle (21) and big flotation tank (1) are the blow molding as an organic whole, and first fixed axle (21) rotate and install in the rotation groove of first connecting groove (19) inner wall.

3. The photovoltaic power plant on water of convenient connection location of claim 2 characterized in that: a second connecting groove (22) is formed in one side wall body of the second connecting buckle (7), a second connecting block (23) is further arranged on one side of the second connecting buckle (7), a second fixing shaft (24) is arranged on the front end of one side of the second connecting block (23) and the rear end wall body respectively, the second connecting block (23), the second fixing shaft (24) and the first small buoyancy tank (2) are formed in an integrated blow molding mode, and the second fixing shaft (24) is rotatably installed in a rotating groove in the inner wall of the second connecting groove (22).

4. The photovoltaic power plant on water of convenient connection location of claim 1 characterized in that: still fixed mounting has dead lever (35) on knob piece (17) top wall body, fixed mounting has square piece (36) on dead lever (35) top wall body.

5. The photovoltaic power plant on water of convenient connection location of claim 4, characterized in that: and second rotating grooves (40) are also formed in the outer walls of the two sides of the bearing cover (16) respectively.

6. The photovoltaic power plant on water of convenient connection location of claim 5 characterized in that: the fixed ring (42) is rotatably arranged in the second rotary groove (40).