CN211018732U - Support fixed knot and construct and photovoltaic tracking installing the system - Google Patents
Support fixed knot and construct and photovoltaic tracking installing the system Download PDFInfo
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- CN211018732U CN211018732U CN202020013282.XU CN202020013282U CN211018732U CN 211018732 U CN211018732 U CN 211018732U CN 202020013282 U CN202020013282 U CN 202020013282U CN 211018732 U CN211018732 U CN 211018732U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/47—Mountings or tracking
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
The application discloses support fixed knot and photovoltaic tracking installing the system, support fixed knot and construct including main tributary vaulting pole, installation pole, rotary power device and a plurality of auxiliary stay poles, the installation pole passes through rotary power device rotates to be installed on the main tributary vaulting pole, and installation pole perpendicular to the main tributary vaulting pole, auxiliary stay pole one end is rotated with the installation pole and is joined in marriage together, and auxiliary stay pole perpendicular to the installation pole, the auxiliary stay pole is used for supporting the installation pole, still includes valve rod, casing, interior casing plate and plunger rod, the interior casing plate sets up in the casing, and the interior casing plate separates into independent and first shell chamber and the second shell chamber of UNICOM with the space in the casing, the plunger rod directly or indirect movable mounting is on the casing wall of casing, the plunger rod is used for cutting off or the first shell chamber of UNICOM through the motion of self, the valve rod with second shell chamber sliding seal cooperates together, and damping liquid is filled in the first shell cavity and the second shell cavity.
Description
Technical Field
The utility model relates to a sheet metal supports the field, especially relates to a support fixed knot and photovoltaic tracking installing the system.
Background
The current photovoltaic (or photothermal) tracking support is an important light energy acquisition device, but the current photovoltaic tracking support has a problem that when windy weather is met (wind power is less than five levels), components on the support can generate torsion and load vibration to a main shaft under the action of the pressure difference of wind. Because the action point of the acting force is only one point or a plurality of points, under severe conditions, the whole tracking system can resonate, so that the components are damaged, and the mechanical structure of the tracking bracket is damaged.
In order to avoid damaging the tracking support by wind (wind power is less than five levels), a vibration-avoiding support is arranged on the tracking support, the vibration-avoiding support can generate a reaction force which changes along with the linear speed of vibration of the photovoltaic module caused by wind pressure, the swinging amplitude of the module is reduced, but the vibration-avoiding support cannot completely stop swinging and is only useful when the wind power is less than five levels. When the assembly meets the stormy weather (the wind power is more than six levels), the wind pressure on the two sides of the assembly is increased, the assembly cannot be fixed due to the telescopic characteristic of the vibration-avoiding support device, and the assembly swings along with the wind, so that the assembly is thoroughly blown down by the stormy wind.
In summary, in order to prevent the photovoltaic (or photothermal) tracking bracket from being damaged in windy weather and stormy weather, a device must be installed on the photovoltaic (or photothermal) tracking bracket, and the device can ensure that the device can play a role of buffering like a vibration-avoiding support in windy weather (wind power is less than five levels) and can play a role of fixing the assembly in stormy weather (wind power is greater than six levels).
SUMMERY OF THE UTILITY MODEL
The utility model aims at the above problem, a support fixed knot and photovoltaic tracking installing the system is proposed.
The utility model adopts the following technical scheme:
a supporting and fixing structure comprises a main supporting rod, an installation rod, a rotary power device and a plurality of auxiliary supporting rods, wherein the installation rod is installed on the main supporting rod through the rotary power device in a rotating mode, the installation rod is perpendicular to the main supporting rod, one end of each auxiliary supporting rod is matched with the installation rod in a rotating mode, the auxiliary supporting rod is perpendicular to the installation rod, the auxiliary supporting rods are used for supporting the installation rod, the supporting and fixing structure further comprises a valve rod, a shell, an inner shell plate and a plunger rod, the inner shell plate is arranged in the shell, the inner shell plate divides the space in the shell into a first shell cavity and a second shell cavity which are independent and communicated, the plunger rod is directly or indirectly movably installed on the shell wall of the shell, the plunger rod is used for separating or communicating the first shell cavity through self movement, the valve rod is matched with the second shell cavity in a sliding and sealing mode, and the valve rod, the first shell cavity and the second shell cavity are filled with damping liquid, and the valve rod and the shell are respectively hinged with the mounting rod and the auxiliary support rod.
The support structure is basically consistent with the existing photovoltaic (or photothermal) tracking support structure, the difference between the two structures is that a vibration-avoiding support is installed between the existing tracks, and the valve rod and the shell structure are installed on the position where the vibration-avoiding support is installed originally. The valve rod and the shell form a damping device
Firstly, when the first shell cavity is not separated by the plunger rod, a damping rod is equivalently formed between the plunger rod and the shell, the damping rod is equivalently used as a vibration-avoiding support, so that when the wind is in windy weather (the wind power is less than five levels), and when the wind is in violent weather (the wind power is more than six levels), the plunger rod separates the first shell cavity, the damping liquid in the shell cannot realize convection, and the fixed rod is equivalently formed between the plunger rod and the shell, is equivalently used for connecting and fixing the mounting rod and the auxiliary support rod together, and can effectively increase the wind blowing resistance of the mounting rod.
The damping device is formed by utilizing the functions of the valve rod, the shell, the inner shell plate and the plunger rod, and can be converted between two functions of the damping rod and the fixed rod, so that the damping device can adapt to the use working conditions of different wind power sizes.
It should be noted that when the rotary power device drives the mounting rod to rotate, the plunger rod does not block the first housing cavity, and the space between the valve rod and the housing is equivalent to a damping device which can play a role in damping and buffering during the rotation of the mounting rod.
Optionally, the plunger rod driving mechanism further comprises a motor head assembly mounted on the wall of the housing, the plunger rod being mounted on the motor head assembly, and the motor head assembly being used for driving the plunger rod to move on the housing.
Optionally, the valve rod is in sliding sealing fit with the second shell cavity through a valve block of the valve rod, and the valve block divides the second shell cavity into two independent sub-cavities with variable volumes.
Optionally, a first connecting hole is formed in the valve rod, a second connecting hole is formed in the shell, the valve rod is matched with the installation rod in an articulated mode through the first connecting hole, and the shell is matched with the auxiliary supporting rod in an articulated mode through the second connecting hole.
Optionally, a sealing ring is arranged in the housing, and the sealing ring is used for sealing a gap between the valve rod and the housing.
The function of the sealing ring is to prevent leakage between the valve stem and the housing.
Optionally, the rotary power device includes a support frame, a motor and a plurality of gears, the mounting rod is rotatably disposed on the main support rod through the support frame, and the motor is matched with the mounting rod through the gears.
Support frame, motor and gear drive installation pole rotate belongs to prior art.
Optionally, a cylinder is arranged on the support frame, a circular wheel surface is arranged on the mounting rod, and the mounting rod is rotatably matched with the cylinder through the circular wheel surface of the mounting rod.
Optionally, a cylinder is arranged on the auxiliary supporting rod, a circular wheel surface is arranged on the mounting rod, and the mounting rod is rotatably matched with the circular wheel surface on the auxiliary supporting rod through the circular wheel surface of the mounting rod.
The mode that the surface of a cylindrical wheel is matched between the auxiliary supporting rod and the mounting rod belongs to the prior mature technology.
Optionally, the mounting rod and the auxiliary support rod are both provided with a connecting plate, and the valve rod and the housing are hinged to the connecting plate.
The photovoltaic tracking installation system comprises a photovoltaic plate and a supporting and fixing structure, wherein the photovoltaic plate is fixedly installed on an installation rod.
When the supporting and fixing structure is installed with the photovoltaic panel, the photovoltaic tracking and installing system is formed.
Optionally, the cross section of the first shell cavity is circular or elliptical or square or quincunx; or the cross section of the first shell cavity is in a combined shape of a circle, a triangle and a square.
This is a method of changing the damping force of the damping fluid in the housing; other ways of varying the damping force of the damping liquid may be to vary the roughness in the first housing chamber or to vary the length of the first housing chamber, all three ways of which may be to vary the damping force of the damping liquid within the housing.
The utility model has the advantages that: the damping device is formed by utilizing the functions of the valve rod, the shell, the inner shell plate and the plunger rod, and can be converted between two functions of the damping rod and the fixed rod, so that the damping device can adapt to the use working conditions of different wind power sizes.
Description of the drawings:
FIG. 1 is a schematic view showing the positional relationship of the components mounted on the housing;
FIG. 2 is a diagrammatic illustration of a support fixture;
FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;
fig. 4 is an enlarged schematic view of B in fig. 2.
The figures are numbered: 1. damping device, 101, valve rod, 10101, valve block, 102, sealing ring, 103, shell, 104, damping liquid, 105, inner shell plate, 106, plunger rod, 107, electric head assembly, 108, electric wire, 109, first connecting hole, 110, second connecting hole, 111, first shell cavity, 112, second shell cavity, 11201, sub-cavity, 2, control cable, 3, controller, 401, main support rod, 402, auxiliary support rod, 5, connecting plate, 6, mounting rod, 701, motor, 702, gear, 703, support frame, 704, cylinder, 8, photovoltaic panel.
The specific implementation mode is as follows:
the present invention will be described in detail with reference to the accompanying drawings.
Example 1
As shown in fig. 1, a damping device includes a housing 103 and a valve rod 101, the valve rod 101 penetrates through the housing 103, and the valve rod 101 and the housing 103 are in sliding sealing fit together, and further includes an inner casing 105, a plunger rod 106 and a motor head assembly 107, the inner casing 105 is disposed in the housing 103, the inner casing 105 divides the space in the housing 103 into a first casing 111 and a second casing 112 which are independent and communicated, one end of the valve rod 101 and the second casing 112 are in sliding sealing fit together, the valve rod 101 divides the second casing 112 into two independent and variable-volume sub-chambers 11201, a plug hole is opened on the housing 103, the plunger rod 106 is directly or indirectly in sliding sealing fit on the plug hole, the motor head assembly 107 is disposed on the outer wall of the housing 103, and the motor head assembly 107 is used for driving the plunger rod 106 to move; when the plunger rod 106 is located in the first housing cavity 111, the plunger rod 106 divides the first housing cavity 111 into two separate compartments. The power head assembly 107 is connected to a power line 108 for supplying power to the power head assembly 107.
Compared with a traditional liquid medium damping rod, in the device, an inner shell plate 105 is arranged in a shell 103, the inner space of the shell 103 is divided into a first shell cavity 111 and a second shell cavity 112 which are independent and communicated, one end of a valve rod 101 is matched with the cavity wall of the second shell cavity 112 in a sliding and sealing mode, convection of damping liquid 104 on two sides of the valve rod 101 is achieved through the first shell cavity 111, a plunger rod 106 can cut off or communicate the first shell cavity 111 through self movement, when the first shell cavity 111 is cut off, liquid on two sides of the valve rod 101 cannot be subjected to convection, the valve rod 101 cannot move continuously, when the plunger rod 106 moves again and breaks through the first shell cavity 111 and the second shell cavity 112 again, the damping liquid 104 on two sides of the valve rod 101 can be subjected to convection again, and the valve rod 101 can move again.
Referring to fig. 1, it is further stated that when the plunger rod 106 does not block the first housing chamber 111, there is a limit to the rightward movement of the valve stem 101 (i.e., there is a limit to the compression), because when the valve stem 101 is moving rightward, the damping fluid in the right-side sub-chamber 11201 flows into the left-side sub-chamber 11201, but the volume of the valve stem 101 entering the housing 103 increases, causing squeezing (compression of the damping fluid) of the damping fluid in the housing 103, and because there is a limit to the compression of the damping fluid, there is a limit to the rightward movement of the valve stem 101. Similarly, when the plunger rod 106 separates the first housing cavity 111 and the valve rod 101 moves rightwards again, the damping liquid in the right sub-cavity 11201 cannot flow but is compressed by a part, and at this time, the valve rod 101 moves rightwards for a part of distance but cannot move rightwards continuously; similarly, when the valve stem 101 moves to the left, it cannot move further to the left because of the negative pressure in the right sub-chamber 11201.
The device divides the interior of the shell 103 into two independent and communicated first shell cavity 111 and second shell cavity 112 through the arrangement of the inner shell plate 105, and controls the on-off of the damping liquid 104 on two sides of the valve rod 101 by the movement of the plunger rod 106, thereby realizing the dual functions of buffering and supporting and realizing convenient and rapid conversion.
As shown in fig. 1, a valve block 10101 is disposed on a section of the valve stem 101, and the valve block 10101 is slidably and sealingly engaged with the housing 103 and the inner shell 105.
Valve block 10101 is a portion of valve stem 101 that is well known in the art.
As shown in fig. 1, the housing 103 is provided with a seal ring 102, and the seal ring 102 is used to seal a gap between the housing 103 and the valve stem 101.
As shown in fig. 1, seal ring 102 is located within housing 103.
The function of the sealing ring 102 is to prevent leakage between the valve stem 101 and the housing 103.
As shown in fig. 1, a first connection hole 109 is formed in the valve rod 101, a second connection hole 110 is formed in the housing 103, and the first connection hole 109 and the second connection hole 110 are both located outside the housing 103.
As shown in fig. 1, the power head assembly 107 is sealingly disposed in the plug hole, the plunger rod 106 is mounted on the power head assembly 107, and the power head assembly 107 is used for driving the plunger rod 106 to move.
The movement of the plunger rod 106 on the housing 103 can be realized in various manners, and the movement of the plunger rod 106 between the plunger rod 106 and the motor head assembly 107 can be realized through electromagnetic control, and can also be realized through motor pushing or air cylinder pushing.
As shown in fig. 1, the first shell cavity 111 and the second shell cavity 112 are filled with the damping liquid 104.
Embodiment 2, a mounting support structure
Referring to fig. 2 and fig. 3, the damping device includes a main support rod 401, a mounting rod 6, a rotary power device and a plurality of auxiliary support rods 402, wherein the mounting rod 6 is rotatably mounted on the main support rod 401 through the rotary power device, and the mounting rod 6 is perpendicular to the main support rod 401, one end of each auxiliary support rod 402 is rotatably matched with the mounting rod 6, and the auxiliary support rod 402 is perpendicular to the mounting rod 6, the auxiliary support rod 402 is used for supporting the mounting rod 6, the damping device 1 according to embodiment 1 is further included, a first connection hole of the valve rod 101 is hinged and matched with a connection plate 5 on the mounting rod 6, and a second connection hole on the housing 103 is hinged and matched with the connection plate 5 of the auxiliary support rod 402.
The supporting structure is basically consistent with the existing photovoltaic (or photothermal) tracking support structure, the difference between the two structures is that the vibration-proof support is installed between the existing tracking, and the valve rod 101 and shell 103 structure is installed on the position where the vibration-proof support is originally installed. The valve stem 101 and the housing 103 form a damping device 1, which is constructed as in embodiment 1,
the action principle of the specific damping device 1 is as follows, firstly, when the plunger rod does not divide the first shell cavity, the damping device 1 is equivalent to form a damping rod, and the damping rod is equivalent to a vibration-avoiding support, so when the wind is in windy weather (the wind power is less than five), and when the wind is in fierce weather (the wind power is more than six), the plunger rod divides the first shell cavity, at this time, the damping liquid in the shell 103 cannot realize convection, which is equivalent to form a rod with fixed length between the valve rod 101 and the shell 103, and the fixed rod is equivalent to fixedly connecting the mounting rod 6 and the auxiliary support rod 402 together, so that the wind blowing resistance of the mounting rod 6 can be effectively increased.
It should be noted that when the rotary power device drives the mounting rod 6 to rotate, the plunger rod does not block the first housing cavity, and the damping device 1 can play a role in damping and buffering during the rotation of the mounting rod 6.
Referring to fig. 2 and 4, the rotary power device includes a support frame 703, a motor 701 and a plurality of gears 702, the mounting rod 6 is rotatably disposed on the main support rod 401 through the support frame 703, and the motor 701 and the mounting rod 6 are coupled together through the gears 702.
The supporting frame 703, the motor 701 and the gear 702 drive the installation rod 6 to rotate, which belongs to the prior art.
Specifically, in order to control the motor 701 and the power head on the damping device, a controller 3 is further configured in the whole mounting structure, and the controller 3 is connected with the motor 701 and the power head through a control cable 2.
Referring to fig. 2 and 4, a cylinder 704 is disposed on the supporting frame 703, a circular wheel surface is disposed on the mounting rod 6, and the mounting rod 6 is rotatably engaged with the cylinder 704 through its own circular wheel surface.
Referring to fig. 2, the auxiliary support rod 402 is provided with a cylinder 704, the mounting rod 6 is provided with a circular wheel surface, and the mounting rod 6 is rotatably matched with the circular wheel surface on the auxiliary support rod 402 through the circular wheel surface of the mounting rod.
The mode that the auxiliary supporting rod 402 is matched with the mounting rod 6 by adopting a circular wheel surface of a cylinder 704 belongs to the prior mature technology.
Embodiment 3, a photovoltaic tracking installing system, includes photovoltaic board 8, still includes support fixed knot structure, and photovoltaic board 8 fixed mounting is on installation pole 6.
When the supporting and fixing structure is provided with the photovoltaic panel 8, the photovoltaic tracking and mounting system is formed.
The above only is the preferred embodiment of the present invention, not therefore the limit the patent protection scope of the present invention, all applications the equivalent structure transformation made by the contents of the specification and the drawings of the present invention is directly or indirectly applied to other related technical fields, and all the same principles are included in the protection scope of the present invention.
Claims (10)
1. A supporting and fixing structure comprises a main supporting rod, a mounting rod, a rotary power device and a plurality of auxiliary supporting rods, wherein the mounting rod is rotatably mounted on the main supporting rod through the rotary power device and is perpendicular to the main supporting rod, one end of each auxiliary supporting rod is rotatably matched with the mounting rod and is perpendicular to the mounting rod, and the auxiliary supporting rods are used for supporting the mounting rod. The first shell cavity and the second shell cavity are filled with damping liquid, and the valve rod and the shell are respectively hinged with the mounting rod and the auxiliary support rod.
2. The support fixture of claim 1, further comprising a motor head assembly mounted to a wall of the housing, the plunger rod being mounted to the motor head assembly, the motor head assembly being configured to drive the plunger rod to move on the housing.
3. The support fixture of claim 1, wherein the valve stem is slidably and sealingly engaged with the second housing cavity by its own valve block, and the valve block divides the second housing cavity into two separate and variable volume subchambers.
4. The support fixture structure of claim 1, wherein the valve rod is provided with a first coupling hole, the housing is provided with a second coupling hole, the valve rod is hinge-coupled to the mounting rod through the first coupling hole, and the housing is hinge-coupled to the sub-support rod through the second coupling hole.
5. The support fixture of claim 1, wherein a sealing ring is disposed within the housing for sealing a gap between the valve stem and the housing.
6. The supporting and fixing structure of claim 1, wherein the rotary power device comprises a supporting frame, a motor and a plurality of gears, the mounting rod is rotatably arranged on the main supporting rod through the supporting frame, and the motor and the mounting rod are matched together through the gears.
7. The support fixture structure of claim 6, wherein the support frame is provided with a cylinder, the mounting bar is provided with a circular wheel surface, and the mounting bar is rotatably matched with the cylinder through the circular wheel surface of the mounting bar.
8. The support fixture structure of claim 1, wherein the secondary support bar is provided with a cylinder, the mounting bar is provided with a circular wheel surface, and the mounting bar is rotatably matched with the circular wheel surface of the secondary support bar through the circular wheel surface of the mounting bar.
9. The support fixture structure of claim 1, wherein the mounting bar and the secondary support bar are each provided with a connecting plate, and the valve stem and the housing are hingedly coupled to the connecting plate.
10. A photovoltaic tracking installation system comprising a photovoltaic panel, further comprising a supporting and securing structure according to any one of claims 1 to 9, the photovoltaic panel being fixedly mounted on a mounting bar.
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CN202020013282.XU CN211018732U (en) | 2020-01-02 | 2020-01-02 | Support fixed knot and construct and photovoltaic tracking installing the system |
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CN202020013282.XU CN211018732U (en) | 2020-01-02 | 2020-01-02 | Support fixed knot and construct and photovoltaic tracking installing the system |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111106793A (en) * | 2020-01-02 | 2020-05-05 | 杭州华鼎新能源有限公司 | Support fixed knot and construct and photovoltaic tracking installing the system |
WO2021135430A1 (en) * | 2020-01-02 | 2021-07-08 | 浙江安圣特科技有限公司 | Damping device having fixing structure |
CN111106793B (en) * | 2020-01-02 | 2024-11-19 | 浙江安圣特科技有限公司 | Support fixed knot constructs and photovoltaic tracking installing the system |
-
2020
- 2020-01-02 CN CN202020013282.XU patent/CN211018732U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111106793A (en) * | 2020-01-02 | 2020-05-05 | 杭州华鼎新能源有限公司 | Support fixed knot and construct and photovoltaic tracking installing the system |
WO2021135430A1 (en) * | 2020-01-02 | 2021-07-08 | 浙江安圣特科技有限公司 | Damping device having fixing structure |
CN111106793B (en) * | 2020-01-02 | 2024-11-19 | 浙江安圣特科技有限公司 | Support fixed knot constructs and photovoltaic tracking installing the system |
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Effective date of registration: 20200805 Address after: No.10-3, Lianzhu Road, Huaxi street, Changxing County, Huzhou City, Zhejiang Province Patentee after: Zhejiang anshengte Technology Co., Ltd Address before: 310000 9 / F, building 2, Jiamei building, Xiacheng District, Hangzhou City, Zhejiang Province Patentee before: Hangzhou Huading New Energy Co.,Ltd. |