CN112099534A

CN112099534A - Solar photovoltaic power generation support frame

Info

Publication number: CN112099534A
Application number: CN202010865032.3A
Authority: CN
Inventors: 雷磊
Original assignee: Taizhou Pavo Energy Technology Co Ltd
Current assignee: Xinyu Yinlong Photovoltaic Engineering Co ltd
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2020-12-18
Anticipated expiration: 2040-08-25
Also published as: CN112099534B

Abstract

The invention provides a solar photovoltaic power generation support frame which comprises a compressed air system, a first frame, a second frame, a third frame and a base system. The air cylinder I, the support I and the support II are rotatably installed through a pin shaft III, the support II, the support I and the base system are fixedly installed, the air cylinder II, the support III and the support IV are rotatably installed through a pin shaft IV, the support IV and the base system are fixedly installed, the support III and the frame I are fixedly installed, the air cylinder III, the support V and the support VI are rotatably installed through a pin shaft V, the support V and the base system are fixedly installed, and the support VI and the frame II are fixedly installed. The first air cylinder, the second air cylinder and the third air cylinder drive the first frame, the second frame and the third frame to generate relative displacement through the control of the first electromagnetic directional valve, the second electromagnetic directional valve, the third electromagnetic directional valve, the first time relay, the second time relay and the third time relay. The maximum power generation efficiency of the solar photovoltaic panel is realized.

Description

Solar photovoltaic power generation support frame

Technical Field

The invention relates to the technical field of solar photovoltaic panels, in particular to a solar photovoltaic power generation support frame.

Background

The problems of conventional energy shortage, environmental pollution and the like need to be solved urgently at present, people review the defects caused by coal power generation and fuel automobiles again, and the importance of development of renewable energy and electric automobiles is more clearly recognized. Solar photovoltaic power generation has the most advantage in the development of the renewable clean energy nowadays, but because of the traditional fixed mounting mode of a photovoltaic array, the efficiency of receiving sunlight can be maximized only when sunlight is close to a direct solar photovoltaic panel in one day, the sunlight deflection time period is far greater than the direct light time period, the energy receiving efficiency of the photovoltaic panel of the fixed solar support frame is low, the output of a photovoltaic cell is unstable, and the factors restrict the popularization of the photovoltaic technology. Therefore, the research on optimization of photovoltaic power generation technology and efficient charging facilities cannot be ignored.

Disclosure of Invention

Aiming at the problems, the invention provides a solar photovoltaic power generation support frame, which is provided with required power by a compressed air system, three groups of time relays are respectively used for controlling three groups of electromagnetic directional valves, the three groups of electromagnetic directional valves are respectively used for controlling three groups of air cylinders, and the air cylinders respectively drive a frame I, a frame II and a frame III to realize that a solar cell panel is always vertical to solar rays so as to ensure that the received effective illumination intensity reaches the maximum. Along with the transfer of the sunlight at different time intervals in one day, the rotation angle of the solar panel is automatically changed, so that the aim of absorbing solar energy to the maximum extent is fulfilled.

The technical scheme adopted by the invention is as follows: the utility model provides a solar photovoltaic power generation support frame, including the compressed air system, the compressed air system is placed on ground, through being responsible for, cylinder intake pipe one, cylinder outlet duct one, cylinder intake pipe two, cylinder outlet duct two, cylinder intake pipe three, cylinder outlet duct three and cylinder one, cylinder two, three fixed mounting of cylinder, cylinder one, cylinder two, cylinder three are through the control of electromagnetic directional valve one, electromagnetic directional valve two, electromagnetic directional valve three, time relay one, time relay two, time relay three, drive frame one, frame two, frame three takes place relative displacement. The maximum power generation efficiency of the solar photovoltaic panel is realized.

The first frame is rotatably installed with the second frame through a pin shaft and is pushed by the second cylinder to angularly displace with the second frame.

The second frame and the third frame are rotatably mounted through hinges, and the second frame can be converted from the rising angle of the sun to the falling angle of the sun at the evening.

And the third frame is rotatably installed with the base through a second pin shaft and is slidably installed with the rotating plate through a first pin shaft, and the transformation of the three elevation angles of the third frame is realized under the driving of the first cylinder.

The base system is placed on the ground, is rotatably installed with the frame III through the pin shaft II, is installed with the frame III in a sliding mode through the pin shaft I, and accordingly bears the solar photovoltaic panel, and generates the maximum power generation effect along with the corresponding change of the track of the sun.

The main pipe and the steam pocket are fixedly installed, the medium box air inlet pipe is fixedly installed on the box body, the medium box air inlet pipe and the pneumatic triple piece are fixedly installed, the pneumatic triple piece and the first electromagnetic directional valve, the second electromagnetic directional valve and the third electromagnetic directional valve are fixedly installed, the first electromagnetic directional valve, the second electromagnetic directional valve, the third electromagnetic directional valve and the first time relay are fixedly installed, the first electromagnetic directional valve, the second electromagnetic directional valve and the third electromagnetic directional valve are fixedly installed, and the first electromagnetic directional valve, the second electromagnetic directional valve and the third electromagnetic directional valve and the first time relay are fixedly installed, The time relay II and the time relay III are fixedly installed, the electromagnetic directional valve I, the air cylinder air inlet pipe I and the air cylinder air outlet pipe I are fixedly installed, the electromagnetic directional valve II, the air cylinder air inlet pipe II and the air cylinder air outlet pipe II are fixedly installed, and the electromagnetic directional valve III, the air cylinder air inlet pipe III and the air cylinder air outlet pipe III are fixedly installed. The motor and the compressor are fixedly arranged on the steam pocket, the motor and the compressor are rotatably arranged through a triangular belt, the regulating valve and the steam pocket are fixedly arranged, the pressure gauge, the safety valve and the steam pocket are fixedly arranged, the protecting net and the steam pocket are fixedly arranged, and the wheels and the steam pocket are fixedly arranged.

Furthermore, the first frame comprises a frame, a solar photovoltaic panel and a pin shaft, the first frame is rotatably installed with the second frame through the pin shaft, and under the pushing of the second cylinder, the first frame and the second frame generate angular displacement.

Furthermore, the second frame comprises a frame and a hinge, and the second frame is rotatably mounted through the hinge and the third frame, so that the second frame can be converted from the rising angle of the sun in the morning to the falling angle of the sun in the evening.

Furthermore, the third frame comprises a first frame, a first pin shaft and a second pin shaft, the third frame is rotatably installed with the base through the second pin shaft, and the third frame is slidably installed with the rotating plate through the first pin shaft, so that the three-elevation angle of the third frame can be changed under the driving of the first cylinder.

Further, the base system comprises a stand column, a first pin shaft, a rotating plate, a second pin shaft, a third pin shaft, a fourth pin shaft, a fifth pin shaft, a first support, a second support, a third support, a fourth support, a sixth support, a first air cylinder, a second air cylinder and a third air cylinder, wherein the first air cylinder and the second support are rotatably installed through the second pin shaft, the first air cylinder and the first support are rotatably installed through the third pin shaft, the second support, the first support and the base system are fixedly installed, the second air cylinder and the third support and the fourth support are rotatably installed through the fourth pin shaft, the fourth support and the base system are fixedly installed, the third support and the first frame are fixedly installed, the third air cylinder and the second support and the sixth support are rotatably installed through the fifth pin shaft, the fifth support and the base system are fixedly installed, and the sixth support and the second frame. The stand is placed on ground, and stand and rotor plate rotate the installation through round pin axle one.

The invention has the beneficial effects that:

(1) the invention has simple structure, low failure rate, easy fault elimination and convenient equipment maintenance, and can regularly oil pneumatic three-raw parts and check the installation state of the pin shaft of the cylinder.

(2) Compared with other speed reducers, the rotating disc type power generation support frame driven by the speed reducer has low investment cost, low technical requirements on operation and maintenance personnel, no need of professional training and capability of saving the cost of training and engaging technical personnel outside.

(3) The energy is saved and the consumption is reduced, because the air compressor is provided with a steam drum and stores compressed air, only the specified pressure value of the steam drum needs to be set, and only when the pressure value is lower than the specified pressure value, the motor and the compressor work, so that the energy is saved.

(4) The invention has no requirement on the foundation, does not need a special concrete foundation, does not need to embed a foundation connecting piece in advance, and has wide adaptability.

(5) The power generation efficiency is high, the transfer of sunlight following different time intervals in one day is guaranteed to the maximum extent, the sunlight returns to the original position under the control of the time relay in the evening, and the automatic degree is high.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

FIG. 3 is a schematic view of a compressed air system of the present invention.

Fig. 4 is a schematic view of an air compressor of the compressed air system of the present invention.

Fig. 5 is a partially enlarged schematic view of an air compressor of the compressed air system according to the present invention.

FIG. 6 is a schematic view of a compressed air system gas media box of the present invention.

Fig. 7 is a schematic diagram of the framework of the present invention.

Fig. 8 is a schematic diagram of a second embodiment of the present invention.

Fig. 9 is a schematic diagram of the framework of the present invention.

Fig. 10 is a schematic view of the base system of the present invention.

Reference numerals: 1-a compressed air system; 2-frame one; 3-frame two; 4-frame three; 5-a base system; 101-main pipe; 102-cylinder intake pipe I; 103-cylinder air outlet pipe I; 104-a cylinder air inlet pipe II; 105-cylinder outlet pipe II; 106-cylinder intake pipe III; 107-cylinder outlet pipe III; 108-steam drum; 109-regulating valve; 110-a motor; 111-a compressor; 112-V belt; 113-pressure gauge; 114-a safety valve; 115-protective net; 116-a wheel; 117-media box inlet duct; 118-a pneumatic triplet; 119-a first electromagnetic directional valve; 120-a second electromagnetic directional valve; 121-electromagnetic directional valve III; 122-time relay one; 123-time relay II; 124-time relay III; 125-a box body; 201-a frame; 202-solar photovoltaic panel; 203-a pin shaft; 301-a frame; 302-hinge; 401-a frame; 402-pin shaft one; 403-pin shaft two; 501-upright column; 502-pin I; 503-rotating plate; 504-pin II; 505-Pin III; 506-pin shaft four; 507-a pin shaft; 508-support one; 509-support two; 510-support III; 511-support four; 512-support wood; 513-support six; 514-cylinder one; 515-cylinder two; 516-cylinder three.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): as shown in fig. 1 to 10, the present embodiment provides a solar photovoltaic power generation support frame, including:

the compressed air system 1 is placed on the ground, and the first frame 2, the second frame 3 and the third frame 4 are driven to relatively displace through control of the first cylinder 514, the second cylinder 515 and the third cylinder 516 through the first electromagnetic directional valve 119, the second electromagnetic directional valve 120, the third electromagnetic directional valve 121, the first time relay 122, the second time relay 123 and the third time relay 124. The maximum power generation efficiency of the solar photovoltaic panel is realized.

The first frame 2 and the first frame 2 are rotatably mounted through the pin 203 and the second frame 3 and are angularly displaced from the second frame 3 under the pushing of the second cylinder 515.

The second frame 3 and the third frame 3 are rotatably mounted through the hinges 302 and the third frame 4, and the conversion of the angle of the second frame 3 from rising in the morning to falling in the evening along with the sun is realized.

The frame III 4 is rotatably installed on the base 5 through a second pin shaft 403, is slidably installed through a first pin shaft 402 and a rotating plate 503, and is driven by a first cylinder 514 to realize the change of the elevation angle of the frame III 4.

The base system 5 is placed on the ground, the base system 5 and the frame III 4 are rotatably installed through the pin shaft II 403, the base system is installed with the frame III 4 in a sliding mode through the pin shaft I402, the solar photovoltaic panel is borne, corresponding change is carried out along with the track of the sun, and the maximum power generation effect is achieved.

In an alternative of this embodiment, as shown in fig. 3, 4, 5, and 6, the compressed air system 1 includes a main pipe 101, a first cylinder air inlet pipe 102, a first cylinder air outlet pipe 103, a second cylinder air inlet pipe 104, a second cylinder air outlet pipe 105, a third cylinder air inlet pipe 106, a third cylinder air outlet pipe 107, a steam pocket 108, a regulating valve 109, a motor 110, a compressor 111, a v-belt 112, a pressure gauge 113, a safety valve 114, a protecting net 115, wheels 116, a medium tank air inlet pipe 117, a pneumatic triple 118, a first electromagnetic directional valve 119, a second electromagnetic directional valve 120, a third electromagnetic directional valve 121, a first time relay 122, a second time relay 123, a third time relay 124, and a box 125. The main pipe 101 and the steam pocket 108 are fixedly installed, the medium box air inlet pipe 117 is fixedly installed on the box body 125, the medium box air inlet pipe 117 and the pneumatic triple piece 118 are fixedly installed, the pneumatic triple piece 118 and the first electromagnetic directional valve 119, the second electromagnetic directional valve 120 and the third electromagnetic directional valve 121 are fixedly installed, the first electromagnetic directional valve 119, the second electromagnetic directional valve 120, the third electromagnetic directional valve 121, the first time relay 122, the second time relay 123 and the third time relay 124 are fixedly installed, the first electromagnetic directional valve 119, the first cylinder air inlet pipe 102 and the first cylinder air outlet pipe 103 are fixedly installed, the second electromagnetic directional valve 120, the second cylinder air inlet pipe 104 and the second cylinder air outlet pipe 105 are fixedly installed, and the third electromagnetic directional valve 121, the third cylinder air inlet pipe 106 and the third cylinder air outlet pipe 107 are fixedly installed. The motor 110 and the compressor 111 are fixedly arranged on the steam pocket 108, the motor 110 and the compressor 111 are rotatably arranged through a triangular belt 112, the regulating valve 109 is fixedly arranged with the steam pocket 108, the pressure gauge 113, the safety valve 114 is fixedly arranged with the steam pocket 108, the protecting net 115 is fixedly arranged with the steam pocket 108, and the wheels 116 are fixedly arranged with the steam pocket 108. The first air cylinder 514, the second air cylinder 515 and the third air cylinder 516 drive the first frame 2, the second frame 3 and the third frame 4 to generate relative displacement through the control of the first electromagnetic directional valve 119, the second electromagnetic directional valve 120, the third electromagnetic directional valve 121, the first time relay 122, the second time relay 123 and the third time relay 124. The maximum power generation efficiency of the solar photovoltaic panel is realized.

In an alternative of this embodiment, as shown in fig. 7, the frame one 2 includes a frame 201, a solar photovoltaic panel 202, and a pin 203, and the frame one 2 is rotatably mounted with the frame two 3 through the pin 203, and is pushed by the cylinder two 515 to be angularly displaced with the frame two 3.

In an alternative of this embodiment, as shown in fig. 8, the second frame 3 includes a frame 301 and a hinge 302, the second frame 3 is rotatably mounted via the hinge 302 and the third frame 4, and the angle change between the second frame 3 and the third frame 4 occurs under the driving of the third cylinder 516, so that the conversion from the rising of the second frame 3 in the morning to the falling of the evening is realized.

In an alternative of this embodiment, as shown in fig. 9, the frame three 4 includes a frame 401, a first pin 402, and a second pin 403, the frame three 4 is rotatably mounted on the base 5 through the second pin 403, and is slidably mounted through the first pin 402 and the rotating plate 503, and the change of the elevation angle of the frame three 4 is realized under the driving of the first cylinder 514.

In an alternative of this embodiment, as shown in fig. 10, the base system 5 includes an upright column 501, a first pin 502, a rotating plate 50, a second pin 504, a third pin 505, a fourth pin 506, a fifth pin 507, a first support 508, a second support 509, a third support 510, a fourth support 511, a fifth support 512, a sixth support 513, a first cylinder 514, a second cylinder 515, and a third cylinder 516, where the first cylinder 514 and the second support 509 are rotatably mounted by the second pin 504, the first cylinder 514 and the first support 508 are rotatably mounted by the third pin 505, the second support 509, the first support 508 and the base system 5 are fixedly mounted, the second cylinder 515 and the third support 510 and the fourth support 511 are rotatably mounted by the fourth pin 506, the fourth support 511 and the base system 5 are fixedly mounted, the third support 510 and the first frame 2 are fixedly mounted, the third cylinder 516 and the fifth support 512, and the sixth support 513 are rotatably mounted by the third pin 507, the fifth support 512 and the base system 5 are fixedly mounted, the support six 513 and the frame two 3 are fixedly installed. The upright column 501 is placed on the ground, the upright column 501 and the rotating plate (503 are rotatably installed through the first pin shaft 502, the base system 5 is placed on the ground, the third frame 4 and the second pin shaft 403 are rotatably installed, and the first pin shaft 402 and the third frame 4 are slidably installed, so that the solar photovoltaic panel can be borne, corresponding angle changes can be generated along with the track of the sun, and the maximum power generation effect is generated.

Claims

1. The utility model provides a solar photovoltaic power generation support frame which characterized in that: the air compressor comprises a compressed air system (1), wherein the compressed air system (1) is placed on the ground and is fixedly installed through a main pipe (101), a cylinder air inlet pipe I102, a cylinder air outlet pipe I (103), a cylinder air inlet pipe II (104), a cylinder air outlet pipe II (105), a cylinder air inlet pipe III 106, a cylinder air outlet pipe III (107), a cylinder I (514), a cylinder II (515) and a cylinder III 516, and the cylinder I (514), the cylinder II (515) and the cylinder III (516) drive a frame I (2), a frame II (3) and a frame III (4) to generate relative displacement through control of a first electromagnetic directional valve (119), a second electromagnetic directional valve (120), a third electromagnetic directional valve (121), a first time relay (122), a second time relay (123) and a third time relay (124);

the maximum power generation efficiency of the solar photovoltaic panel is realized;

the first frame (2) is rotatably installed with the second frame (3) through a pin shaft (203), and is pushed by the second cylinder (515) to generate angular displacement with the second frame (3);

the second frame (3) is rotatably mounted through the hinge (302) and the third frame (4), so that the second frame (3) can be converted from the rising angle of the sun in the morning to the falling angle of the sun in the evening;

the frame III (4) is rotatably installed with the base (5) through a pin shaft II (403), is slidably installed through a pin shaft I (402) and a rotating plate (503), and is driven by a cylinder I (514) to realize the change of the elevation angle of the frame III (4);

the base system (5), the base system (5) is placed on the ground, rotates with the frame III (4) through the round pin axle II (403) and installs, through round pin axle I (402) and frame III (4) slidable mounting, realizes bearing the weight of the solar photovoltaic board to corresponding change takes place along with the orbit of sun, produces the biggest electricity generation effect.

2. The solar photovoltaic power generation support frame of claim 1, wherein: the compressed air system (1) comprises a main pipe (101), a cylinder air inlet pipe I (102), a cylinder air outlet pipe I (103), a cylinder air inlet pipe II (104), a cylinder air outlet pipe II (105), a cylinder air inlet pipe III (106), a cylinder air outlet pipe III (107), a steam pocket (108), a regulating valve (109), a motor (110), a compressor (111), a V-belt (112), a pressure gauge (113), a safety valve (114), a protecting net (115), wheels (116), a medium box air inlet pipe (117), a pneumatic triple piece (118), a first electromagnetic reversing valve (119), a second electromagnetic reversing valve (120), a third electromagnetic reversing valve (121), a first time relay (122), a second time relay (123), a third time relay (124) and a box body (125), wherein the main pipe (101) and the steam pocket (108) are fixedly installed and the medium box air inlet pipe (117) is fixedly installed, a medium box air inlet pipe (117) is fixedly installed on a box body (125), the medium box air inlet pipe (117) and a pneumatic triple piece (118) are fixedly installed, the pneumatic triple piece (118), a first electromagnetic directional valve (119), a second electromagnetic directional valve (120) and a third electromagnetic directional valve (121) are fixedly installed, the first electromagnetic directional valve (119), the second electromagnetic directional valve (120), the third electromagnetic directional valve (121), a first time relay (122), a second time relay (123) and a third time relay (124) are fixedly installed, the first electromagnetic directional valve (119), the first cylinder air inlet pipe (102) and the first cylinder air outlet pipe (103) are fixedly installed, the second electromagnetic directional valve (120), the second cylinder air inlet pipe (104) and the second cylinder air outlet pipe (105) are fixedly installed, and the third electromagnetic directional valve (121), the third cylinder air inlet pipe (106) and the third cylinder air outlet pipe (107) are fixedly installed;

the steam-assisted vehicle is characterized in that the motor (110) and the compressor (111) are fixedly installed on the steam drum (108), the motor (110) and the compressor (111) are rotatably installed through a triangular belt (112), the regulating valve (109) and the steam drum (108) are fixedly installed, the pressure gauge (113), the safety valve (114) and the steam drum (108) are fixedly installed, the protecting net (115) and the steam drum (108) are fixedly installed, and the wheels (116) and the steam drum (108) are fixedly installed.

3. The solar photovoltaic power generation support frame of claim 1, wherein: the solar photovoltaic panel frame is characterized in that the first frame (2) comprises a frame (201), a solar photovoltaic panel (202) and a pin shaft (203), the first frame (2) is rotatably installed through the pin shaft (203) and the second frame (3), and under the pushing of the second cylinder (515), the first frame and the second frame (3) are subjected to angular displacement.

4. The solar photovoltaic power generation support frame of claim 1, wherein: the second frame (3), the second frame (3) comprises a frame (301) and a hinge (302), and the second frame (3) is rotatably mounted through the hinge (302) and the third frame (4), so that the second frame (3) can be converted from rising from the morning to falling at the evening along with the sun.

5. The solar photovoltaic power generation support frame of claim 1, wherein: the frame III (4) comprises a frame (401), a first pin shaft (402) and a second pin shaft (403), the frame III (4) is rotatably installed through the second pin shaft (403) and the base (5), and is slidably installed through the first pin shaft (402) and the rotating plate (503), and the change of the elevation angle of the frame III (4) is realized under the driving of the first cylinder (514).

6. The solar photovoltaic power generation support frame of claim 1, wherein: the base system (5) comprises an upright post (501), a first pin shaft (502), a rotating plate (503), a second pin shaft (504), a third pin shaft (505), a fourth pin shaft (506), a fifth pin shaft (507), a first support (508), a second support (509), a third support (510), a fourth support (511), a fifth support (512), a sixth support (513), a first cylinder (514), a second cylinder (515) and a third cylinder (516), wherein the first cylinder (514) and the second support (509) are rotatably mounted through the second pin shaft (504), the first cylinder (514) and the first support (508) are rotatably mounted through the third pin shaft (505), the second support (509), the first support (508) and the base system (5) are fixedly mounted, the second cylinder (515), the third support (510) and the fourth support (511) are rotatably mounted through the fourth pin shaft (506), and the fourth support (511) and the base system (5) are fixedly mounted, the support III (510) and the frame I (2) are fixedly installed, the air cylinder III (516), the support Wu (512) and the support VI (513) are rotatably installed through a pin shaft Wu (507), the support Wu (512) and the base system (5) are fixedly installed, and the support VI (513) and the frame II (3) are fixedly installed;

the upright column (501) is placed on the ground, and the upright column (501) and the rotating plate (503) are rotatably installed through a first pin shaft (50).