Disclosure of Invention
The utility model aims at the above-mentioned problem that prior art exists, provide a high and loading and unloading convenient coupling mechanism of solar panel and support among distributed power generation system of suitability.
The purpose of the utility model can be realized by the following technical proposal:
the utility model provides a coupling mechanism of solar panel and support among distributed generation system, solar panel connects on support upper portion and both form a power generation unit, a plurality of power generation units establish ties and form distributed generation system together, a serial communication port, this coupling mechanism includes locating lever one, locating lever two, locating sleeve one, locating sleeve two and connecting rod, above-mentioned locating lever one links firmly in support both ends department with locating lever two difference vertically, the cover is in solar panel one end in locating sleeve one end, the cover is at the solar panel other end in locating sleeve two, the outer end of locating sleeve is connected on locating lever one, the outer end of locating sleeve is connected on locating lever two, above-mentioned connecting rod inner links firmly on locating sleeve one, the connecting rod outer end is worn to establish on locating sleeve two.
The connecting mechanism creatively connects the first positioning sleeve and the second positioning sleeve to the two ends of the solar heat collecting plate respectively, then the first positioning sleeve is connected to the first positioning rod, and the second positioning sleeve is connected to the second positioning rod.
Because the two ends of the connecting rod are respectively connected to the first positioning sleeve and the second positioning sleeve, the first positioning sleeve can be prevented from overturning relative to the second positioning sleeve, and the first positioning sleeve and the second positioning sleeve are stably connected to the two ends of the solar heat collecting plate.
The solar heat collecting plate is finally and indirectly connected between the first positioning rod and the second positioning rod through the first positioning sleeve and the second positioning sleeve.
Of course, in order to ensure that the solar heating plate can stably collect solar energy, the solar heat collecting plate is obliquely arranged, and the structure results in that the first locating sleeve and the second locating sleeve are not at the same height.
In the connecting mechanism of the solar heat collecting plate and the bracket in the distributed power generation system, a plurality of first positioning holes are formed in the upper edge of the first positioning rod along the vertical direction, and the outer end of the first positioning sleeve can be embedded in any one of the first positioning holes.
When the positioning sleeve is connected to different positioning holes, the height position of the end part of the solar heat collecting plate can be indirectly changed, and the applicability of the solar heat collecting plate is improved.
In the connecting mechanism of the solar heat collecting plate and the support in the distributed power generation system, the first positioning sleeve is provided with a first connecting hole, and the first positioning sleeve further comprises a first pin shaft, and the first pin shaft penetrates through the first connecting hole and the first positioning hole and then can be used for positioning and connecting the first positioning rod and the first positioning sleeve.
The first pin shaft penetrates through the first connecting hole and the first positioning hole to firmly and stably connect the first positioning sleeve and the first positioning rod together.
In the above connecting mechanism for the solar heat collecting plate and the bracket in the distributed power generation system, an inner end of the positioning sleeve is provided with a first positioning notch matched with an end part of the solar heat collecting plate.
The end part of the solar heat collecting plate is embedded in the positioning notch I, so that the positioning sleeve I and the end part of the solar heat collecting plate are stably connected together.
In the connecting mechanism of the solar heat collecting plate and the bracket in the distributed power generation system, a plurality of second positioning holes are formed in the upper edge of the second positioning rod along the vertical direction, and the outer ends of the second positioning sleeves can be embedded in any one of the second positioning holes.
Similarly, the height position of the other end of the solar heat collecting plate can be changed after the second positioning sleeve is connected to the corresponding second positioning hole.
In the connecting mechanism of the solar heat collecting plate and the support in the distributed power generation system, the second positioning sleeve is provided with a second connecting hole and further comprises a second pin shaft, and the second pin shaft penetrates through the second connecting hole and the second positioning hole and then can be used for positioning and connecting the second positioning rod and the second positioning sleeve.
And the second pin shaft is arranged in the second connecting hole and the second positioning hole in a penetrating manner, so that the second positioning sleeve can be stably and firmly connected to the second positioning rod.
In the connecting mechanism of the solar heat collecting plate and the bracket in the distributed power generation system, the inner end of the positioning sleeve II is provided with a positioning notch II matched with the end part of the solar heat collecting plate.
The end part of the solar heat collecting plate is embedded in the second positioning notch, so that the second positioning sleeve and the other end of the solar heat collecting plate can be stably connected together.
In the connecting mechanism of the solar heat collecting plate and the bracket in the distributed power generation system, the second positioning sleeve is provided with a through guide hole, and the connecting rod penetrates through the guide hole.
The structure can ensure that the two positioning sleeves can stably translate relative to the first positioning sleeve.
In the connecting mechanism of the solar heat collecting plate and the bracket in the distributed power generation system, the connecting rod is sleeved with the spring, and two ends of the spring respectively act on the first positioning sleeve and the second positioning sleeve.
In the connecting mechanism of the solar heat collecting plate and the support in the distributed power generation system, the connecting rod is further in threaded connection with a limiting nut, and the second positioning sleeve has a tendency of abutting against the limiting nut under the elastic force of the spring.
The second positioning sleeve can always abut against the limiting nut under the elastic force action of the spring, and the solar heat collecting plate, the first positioning sleeve and the second positioning sleeve can be firmly connected together through the structure.
Compared with the prior art, the connecting mechanism of the solar heat collecting plates and the support in the distributed power generation system has the advantages that the distance between the first locating sleeve and the second locating sleeve can be adjusted, so that the solar heat collecting plates with different sizes can be stably connected between the first locating sleeve and the second locating sleeve, and the stability and the applicability are high.
Meanwhile, the first positioning sleeve and the second positioning sleeve are respectively connected to two ends of the solar heat collecting plate, then the first positioning sleeve is connected to the first positioning rod, and the second positioning sleeve is connected to the second positioning rod, so that the connection operation can be completed.
Detailed Description
As shown in FIG. 1, a solar heat collecting plate 1 is connected to the upper part of a support 2, and the two form a power generation unit, and a plurality of power generation units are connected in series to form a distributed power generation system.
This coupling mechanism of solar panel and support among distributed generation system includes locating lever one 3, locating lever two 4, position sleeve one 5, position sleeve two 6 and connecting rod 7, above-mentioned locating lever one 3 and locating lever two 4 are the vertically respectively and link firmly at 2 both ends departments of support, the end cover is in 1 one end of solar panel in position sleeve one 5, the end cover is in 1 other end of solar panel in position sleeve two 6, position sleeve one 5 outer ends are connected on locating lever one 3, position sleeve two 6 outer ends are connected on locating lever two 4, above-mentioned connecting rod 7 inner links firmly on position sleeve one 5, 7 outer ends of connecting rod wear to establish on position sleeve two 6.
The upper edge of the first positioning rod 3 is provided with a plurality of positioning holes 3a in the up-down direction, and the outer end of the first positioning sleeve 5 can be embedded in any one of the positioning holes 3 a.
The first positioning sleeve is provided with a first connecting hole and further comprises a first pin shaft, and the first pin shaft penetrates through the first connecting hole and the first positioning hole and then can be used for positioning and connecting the first positioning rod and the first positioning sleeve.
The inner end of the positioning sleeve I5 is provided with a positioning notch I5 a matched with the end of the solar heat collecting plate.
The upper edge of the second positioning rod 4 is provided with a plurality of second positioning holes 4a along the upper and lower directions, and the outer end of the second positioning sleeve 6 can be embedded in any one of the second positioning holes 4 a.
The second positioning sleeve is provided with a second connecting hole and further comprises a second pin shaft, and the second pin shaft penetrates through the second connecting hole and the second positioning hole and then can be used for positioning and connecting the second positioning rod and the second positioning sleeve.
The inner end of the second positioning sleeve 6 is provided with a second positioning notch 6a matched with the end part of the solar heat collecting plate 1.
The second positioning sleeve 6 is provided with a guide hole 6b penetrating through, and the connecting rod 7 penetrates through the guide hole 6 b.
The connecting rod 7 is sleeved with a spring 8, and two ends of the spring 8 respectively act on the first positioning sleeve 5 and the second positioning sleeve 6.
The connecting rod 7 is further in threaded connection with a limiting nut 9, and the second positioning sleeve 6 has a tendency of abutting against the limiting nut 9 under the elastic force action of the spring 8.
The connecting mechanism creatively connects the first positioning sleeve and the second positioning sleeve to the two ends of the solar heat collecting plate respectively, then the first positioning sleeve is connected to the first positioning rod, and the second positioning sleeve is connected to the second positioning rod.
Because the two ends of the connecting rod are respectively connected to the first positioning sleeve and the second positioning sleeve, the first positioning sleeve can be prevented from overturning relative to the second positioning sleeve, and the first positioning sleeve and the second positioning sleeve are stably connected to the two ends of the solar heat collecting plate.
The solar heat collecting plate is finally and indirectly connected between the first positioning rod and the second positioning rod through the first positioning sleeve and the second positioning sleeve.
Of course, in order to ensure that the solar heating plate can stably collect solar energy, the solar heat collecting plate is obliquely arranged, and the structure results in that the first locating sleeve and the second locating sleeve are not at the same height.