CN113242006B - Building energy-saving solar photovoltaic panel - Google Patents

Abstract

The invention discloses a building energy-saving solar photovoltaic panel, which comprises an immovable mounting frame, a sliding mounting frame arranged at the upper end of the immovable mounting frame and a shielding mounting frame arranged at the lower end of the immovable mounting frame, wherein a driving part is arranged at the middle part of the immovable mounting frame, the free end of the driving part is respectively connected with one side of the driving part, and the back surface of the driving part is connected with the back surface of the sliding mounting frame through a resetting part, the invention has the beneficial effects that three sets of solar photovoltaic panel groups can be synchronously protected at one time, a plurality of solar photovoltaic panels can be contracted and shielded in large area through one-time operation, namely, the solar photovoltaic panels can be protected under the condition similar to storm and storm snow, the service life is prolonged, in addition, the shielding driving mechanism has simple structure, the operation aspect, the integral installation and material cost is low, the popularization is convenient, and the shielding mounting frame can not only realize solar power generation, but also can shade the inhabitants, and realize the maximum utilization rate of the solar photovoltaic panel.

Description

Building energy-saving solar photovoltaic panel

Technical Field

The invention relates to the technical field of building energy conservation, in particular to a building energy-saving solar photovoltaic panel.

Background

The building energy conservation refers to reducing energy consumption as much as possible under the condition of meeting the same requirements or achieving the same purpose in the production of building materials, the construction of house buildings and structures and the use process. Method for reducing energy requirements: the solar photovoltaic panel plays a vital role in building power energy conservation.

However, the energy-saving solar photovoltaic panel for building at present is easy to damage the surface or the local part of the solar photovoltaic panel due to the influence of severe weather when in use, the service life of the solar photovoltaic panel is reduced, the resource waste is caused, the existing protection of the solar photovoltaic panel in severe weather is mostly that the single sheet or a plurality of sheets and the protection mechanism form a whole to be contracted to protect or directly carry out regular maintenance, so the workload of operation is large, the maintenance cost and the mechanism use and the material cost are very high, the area of the solar photovoltaic panel is not reasonably utilized to achieve the shading effect, and the utilization rate of the solar photovoltaic panel is not fully exerted.

To solve the above problems. Therefore, the building energy-saving solar photovoltaic panel is provided.

Disclosure of Invention

The invention aims to provide a building energy-saving solar photovoltaic panel, which is started by a driving part, wherein the free end of the driving part drives a shielding mounting frame to overturn, and simultaneously drives a sliding mounting frame to slide downwards, when the sliding mounting frame slides to the bottom, the shielding mounting frame overturns to the bottom, so that shielding is completed, the driving part is started reversely, similarly, the sliding mounting frame slides upwards, a resetting part drives the shielding mounting frame to overturn backwards, and then the shielding mounting frame resets and unfolds under the traction of the free end of the driving part, so that the problems in the background technology can be solved.

In order to achieve the purpose, the invention provides the following technical scheme: a building energy-saving solar photovoltaic panel comprises an immovable mounting frame, a sliding mounting frame arranged at the upper end of the immovable mounting frame and a shielding mounting frame arranged at the lower end of the immovable mounting frame, wherein the immovable mounting frame, the sliding mounting frame and the shielding mounting frame are all provided with the solar photovoltaic panel, the middle part of the immovable mounting frame is provided with a driving part, the free end of the driving part is respectively connected with one side of the driving part, the back surface of the driving part is connected with the back surface of the sliding mounting frame through a resetting part, the driving part is started, the free end of the driving part drives the shielding mounting frame to overturn and simultaneously drives the sliding mounting frame to slide downwards, when the sliding mounting frame slides to the bottom, the shielding mounting frame overturns to the bottom to complete shielding, the driving part is reversely started, similarly, the sliding mounting frame slides upwards, the resetting part drives the shielding mounting frame to overturn and then is pulled by the free end of the driving part, and resetting the shielding mounting frame and completing unfolding.

Furthermore, the both ends of the fixed mounting frame are provided with sliding chutes for the sliding mounting frame to support sliding, the sliding mounting frame comprises a movable framework, and the length of the two ends of the movable framework is one half of the sliding chutes.

Further, the driving part comprises a servo motor, a first bunching barrel close to the servo motor end and a second bunching barrel far away from the servo motor, the first bunching barrel and the second bunching barrel are fixedly connected through a connecting pipe, and the first bunching barrel and the second bunching barrel are both arranged on a driving shaft connected with the driving end of the servo motor.

Further, the outside of drive shaft just is located first bunch bucket and the inside first piece and the second piece of drawing that is provided with respectively of second bunch bucket, and first piece and the one end upside fixed connection who shelters from the mounting bracket of drawing, second draw the other end upside fixed connection who piece and shelter from the mounting bracket.

Furthermore, the first traction piece, the second traction piece and the reset part are all steel wire ropes.

Furthermore, the driving gear is arranged at the position where the two ends of the driving shaft, which is located on the fixed mounting frame, are connected, the driven racks are arranged on the lower sides of the two ends of the movable framework, and the driving gear is matched with the driven racks.

Furthermore, shelter from the mounting bracket including sheltering from the skeleton and setting up and sheltering from the steering part that skeleton and motionless mounting bracket are connected.

Furthermore, the steering part comprises a rotary table and a cross rod connected with the rotary tables at two ends, and a first rotating piece and a second rotating piece are respectively arranged on two sides of the rotary table, which are positioned at the centrosymmetry of the cross rod.

Further, the other end of the first rotating piece and the shielding framework are fixedly connected, the other end of the second rotating piece and the inner side of the lower end of the fixed mounting frame are fixedly connected, torsional springs are sleeved outside the joints of the first rotating piece and the second rotating piece and the rotary table, the traction effect of the torsional springs can enable the shielding framework to slowly rotate, and the shielding framework cannot suddenly fall down under the action of gravity.

Further, the other end that shelters from the skeleton still is provided with, and the protection piece is the C shape, and the protection piece will not move mounting bracket, sliding mounting frame and shelter from the common upper end of mounting bracket and seal, the impact of the reduction rainwater wind and snow of maximize.

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

1. the building energy-saving solar photovoltaic panel provided by the invention has the advantages that the servo motor is started to drive the driving shaft to rotate, the driving shaft rotates and drives the driving gear, the first traction piece and the second traction piece to move simultaneously, the movable framework moves downwards due to the matching of the driving gear and the driven rack, the first traction piece and the second traction piece drive the shielding mounting frame to rotate upwards and reversely, and the shielding mounting frame is restrained by the reset part connected with the movable framework, after the movable framework slides downwards to the limit, the shielding mounting frame slowly covers the fixed mounting frame and the sliding mounting frame to further complete shielding, the whole shielding is synchronously performed, three sets of solar photovoltaic panel groups can be synchronously protected at one time, a plurality of solar photovoltaic panels can be contracted and shielded in a large area through one-time operation, and the solar photovoltaic panels can be protected under the condition similar to storm and snow, the service life is prolonged, the shielding driving mechanism is simple in structure, operation is convenient, the cost of the whole installation and materials is low, and the popularization is convenient.

2. According to the building energy-saving solar photovoltaic panel, due to the traction effects of the torsion spring, the first traction piece, the second traction piece and the reset part, the shielding framework can slowly rotate and cannot suddenly fall under the action of gravity, and the use safety and the service life of the shielding mounting frame are guaranteed.

3. According to the building energy-saving solar photovoltaic panel provided by the invention, the other end of the shielding framework is also provided with the protective sheet, the protective sheet is C-shaped, and the common upper end of the fixed mounting frame, the sliding mounting frame and the shielding mounting frame is sealed after the shielding mounting frame is turned over, so that the impact of rainwater, wind and snow is reduced to the maximum extent, and the service life of the solar photovoltaic panel is further prolonged.

4. According to the building energy-saving solar photovoltaic panel, when weather becomes good, the same principle is adopted, the operation is reversed, the sliding mounting frame slides upwards, the reset component drives the shielding framework to turn back, then the shielding mounting frame is slowly reset under the traction of the first traction piece and the second traction piece, the unfolding is completed, the shielding mounting frame not only can be used for solar power generation, but also can be used for shading residents, and the maximum utilization rate of the solar photovoltaic panel is realized.

Drawings

FIG. 1 is a schematic view of an overall unfolded three-dimensional structure of the building energy-saving solar photovoltaic panel of the present invention;

FIG. 2 is a schematic view of a three-dimensional structure of a fixed mounting frame, a sliding mounting frame and a driving part frame of the building energy-saving solar photovoltaic panel of the invention;

FIG. 3 is a schematic side plan view of the sliding installation frame driven by the driving component of the building energy-saving solar photovoltaic panel according to the present invention;

FIG. 4 is a schematic view of a back side three-dimensional structure of a sliding mounting rack of the building energy-saving solar photovoltaic panel of the present invention;

FIG. 5 is a schematic view of a three-dimensional structure of a shielding mounting rack of the building energy-saving solar photovoltaic panel of the present invention;

FIG. 6 is a schematic structural view of a side view plane of a steering component of the building energy-saving solar photovoltaic panel;

fig. 7 is a schematic diagram of an overall shrinkage three-dimensional structure of the building energy-saving solar photovoltaic panel.

In the figure: 1. the mounting frame is not moved; 11. a chute; 2. a drive member; 21. a servo motor; 22. a first strand barrel; 23. a second bunching barrel; 231. a drive shaft; 232. a drive gear; 24. a connecting pipe; 25. a first pulling member; 26. a second traction member; 3. a sliding mount; 31. a movable framework; 311. a driven rack; 4. a shielding mounting rack; 41. shielding the framework; 42. a steering member; 421. a turntable; 422. a cross bar; 423. a first rotating member; 424. a second rotating member; 43. a protective sheet; 5. a reset component; 6. a solar photovoltaic panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 7, an energy-conserving solar photovoltaic board of building, by motionless mounting bracket 1 and set up at motionless mounting bracket 1 upper end sliding mount 3 and set up and constitute at motionless mounting bracket 1 lower extreme sheltering from mounting bracket 4, and motionless mounting bracket 1, sliding mount 3 and sheltering from all installed solar photovoltaic board 6 on the mounting bracket 4, the middle part of motionless mounting bracket 1 is provided with driver part 2, driver part 2's free end respectively with one side fixed connection of driver part 2, and driver part 2's the back is again through reset part 5 and sliding mount 3's back fixed connection.

Referring to fig. 2-3, in the energy-saving solar photovoltaic panel for the building, an immovable mounting frame 1 is fixedly mounted on a building, two ends of the immovable mounting frame 1 are provided with sliding chutes 11 for supporting sliding of the sliding mounting frame 3, the sliding mounting frame 3 comprises a movable framework 31, the lengths of two ends of the movable framework 31 are half of the lengths of the sliding chutes 11, lower sides of two ends of the movable framework 31 are provided with driven racks 311, and the driven racks 311 are movably connected with a driving part 2.

Referring to fig. 3-4, a building energy-saving solar photovoltaic panel, a driving part 2 includes a servo motor 21 for driving, a first bunch barrel 22 close to the end of the servo motor 21 and a second bunch barrel 23 far away from the servo motor 21, the first bunch barrel 22 and the second bunch barrel 23 are fixedly connected through a connecting pipe 24, the first bunch barrel 22 and the second bunch barrel 23 are both arranged on a driving shaft 231 connected with the driving end of the servo motor 21, a driving gear 232 is arranged at a position where the driving shaft 231 is located at the two ends of the stationary mounting frame 1, the driving gear 232 is matched with a driven rack 311, a first traction piece 25 and a second traction piece 26 are respectively arranged outside the driving shaft 231 and inside the first bunch barrel 22 and the second bunch barrel 23, the first traction piece 25, the second traction piece 26 and the reset part 5 can be steel wire ropes, the first traction piece 25 is fixedly connected with the upper side of one end of the shielding mounting frame 4, the second traction piece 26 is fixedly connected with the upper side of the other end of the shielding installation frame 4, the servo motor 21 is started to drive the driving shaft 231 to rotate, the driving shaft 231 rotates to drive the driving gear 232, the first traction piece 25 and the second traction piece 26 to move simultaneously, the movable framework 31 moves downwards due to the matching of the driving gear 232 and the driven rack 311, the first traction piece 25 and the second traction piece 26 drive the shielding installation frame 4 to rotate upwards and are restrained by the reset component 5 connected with the movable framework 31, after the movable framework 31 slides downwards to the limit, the shielding installation frame 4 slowly covers the fixed installation frame 1 and the sliding installation frame 3 to complete shielding, the whole shielding is carried out synchronously, three sets of solar photovoltaic panel groups can be synchronously protected at one time, a large area of solar photovoltaic panels can be contracted and shielded by one-time operation, and the solar photovoltaic panels can be protected under the condition similar to storm and snow, the service life is prolonged, the shielding driving mechanism is simple in structure, operation is convenient, overall installation and material cost are low, and popularization is facilitated.

Referring to fig. 5-7, a building energy-saving solar photovoltaic panel, a shielding mounting frame 4 includes a shielding framework 41 and a steering component 42 disposed on the shielding framework 41 and connected to an immovable mounting frame 1, the steering component 42 includes a rotary table 421 for connection and a cross bar 422 for connecting the rotary tables 421 at two ends, the rotary table 421 is provided with a first rotary member 423 and a second rotary member 424 respectively disposed at two sides of the central symmetry of the cross bar 422, the other end of the first rotary member 423 is fixedly connected to the shielding framework 41, the other end of the second rotary member 424 is fixedly connected to the inner side of the lower end of the immovable mounting frame 1, and torsion springs 425 are respectively sleeved at the joints of the first rotary member 423 and the second rotary member 424 and the rotary table 421, in the rotation process of the shielding framework 41, the torsion springs 425, the traction effects of the first traction member 25, the second traction member 26 and the reset component 5 can make the shielding framework 41 rotate slowly, can not fall down suddenly under the action of gravity, guarantee to shelter from mounting bracket 4's safe in utilization and life, the other end that shelters from skeleton 41 still is provided with protection piece 43, protection piece 43 is the C shape, after sheltering from the upset of mounting bracket 4, will not move mounting bracket 1, sliding mounting bracket 3 seals with sheltering from the common upper end of mounting bracket 4, the impact of the reduction rainwater wind and snow of maximize, further improve solar photovoltaic panel's life, when the weather becomes good, the same reason, the opposite operation, sliding mounting bracket 3 upwards slides, reset part 5 drives shelters from skeleton 41 and turns back, again under first tractor 25 and second tractor 26 pull, shelter from mounting bracket 4 and slowly reset, the expansion is accomplished, shelter from mounting bracket 4 not only can solar energy power generation, and can also hide the shady for the resident family, realize solar photovoltaic panel's maximum utilization.

The working principle is as follows: when severe weather occurs, the servo motor 21 is started, the driving shaft 231 is driven to rotate, the driving shaft 231 rotates and drives the driving gear 232, the first traction piece 25 and the second traction piece 26 to move, the movable framework 31 moves downwards due to the cooperation of the driving gear 232 and the driven rack 311, the shielding mounting frame 4 is driven to rotate upwards by the first traction piece 25 and the second traction piece 26 and is restrained by the reset component 5 connected with the movable framework 31, after the movable framework 31 slides downwards to the limit, the shielding framework 41 slowly covers the fixed mounting frame 1 and the sliding mounting frame 3 under the cooperation effect of the steering component 42, the C-shaped protective piece 43 seals the common upper end of the fixed mounting frame 1, the sliding mounting frame 3 and the shielding mounting frame 4 to complete the whole set of shielding, and when the weather becomes good, the same process and the opposite operation are carried out, the sliding mounting frame 3 slides upwards, the reset component 5 drives the shielding framework 41 to turn back, and then the shielding mounting rack 4 is reset slowly under the traction of the first traction piece 25 and the second traction piece 26, so that the unfolding is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. The building energy-saving solar photovoltaic panel comprises an immovable mounting frame (1), a sliding mounting frame (3) arranged at the upper end of the immovable mounting frame (1) and a shielding mounting frame (4) arranged at the lower end of the immovable mounting frame (1), wherein the immovable mounting frame (1), the sliding mounting frame (3) and the shielding mounting frame (4) are all provided with a solar photovoltaic panel (6), and is characterized in that the middle part of the immovable mounting frame (1) is provided with a driving part (2), the free end of the driving part (2) is respectively connected with one side of the driving part (2), the back of the driving part (2) is connected with the back of the sliding mounting frame (3) through a resetting part (5), the driving part (2) is started, the free end of the driving part drives the shielding mounting frame (4) to overturn and simultaneously drives the sliding mounting frame (3) to slide downwards, when the sliding mounting frame (3) slides to the bottom, the shielding mounting frame (4) is turned to the bottom to complete shielding, the driving part (2) is started reversely, similarly, the sliding mounting frame (3) slides upwards, the reset part (5) drives the shielding mounting frame (4) to turn back, and then the shielding mounting frame (4) is reset under the traction of the free end of the driving part (2) to complete unfolding;

the driving part (2) comprises a servo motor (21), a first wire bunching barrel (22) close to the servo motor (21) and a second wire bunching barrel (23) far away from the servo motor (21), the first wire bunching barrel (22) and the second wire bunching barrel (23) are fixedly connected through a connecting pipe (24), and the first wire bunching barrel (22) and the second wire bunching barrel (23) are both arranged on a driving shaft (231) connected with the driving end of the servo motor (21);

the outside of drive shaft (231) just is located first bunch bucket (22) and second bunch bucket (23) inside and is provided with first tractive spare (25) and second tractive spare (26) respectively, and first tractive spare (25) and the one end upside fixed connection who shelters from mounting bracket (4), second tractive spare (26) and the other end upside fixed connection who shelters from mounting bracket (4).

2. The building energy-saving solar photovoltaic panel as claimed in claim 1, wherein the two ends of the fixed mounting frame (1) are provided with sliding grooves (11) for the sliding mounting frame (3) to support and slide, the sliding mounting frame (3) comprises a movable framework (31), and the length of the two ends of the movable framework (31) is one half of the length of the sliding grooves (11).

3. The building energy-saving solar photovoltaic panel as claimed in claim 2, wherein the first traction member (25), the second traction member (26) and the reset member (5) are all steel wire ropes.

4. The building energy-saving solar photovoltaic panel as claimed in claim 3, wherein the driving shaft (231) is provided with a driving gear (232) at the position where the two ends of the immovable mounting frame (1) are connected, the lower sides of the two ends of the movable framework (31) are provided with driven racks (311), and the driving gear (232) is matched with the driven racks (311).

5. The building energy-saving solar photovoltaic panel as claimed in claim 4, wherein the shielding mounting frame (4) comprises a shielding framework (41) and a steering component (42) arranged on the shielding framework (41) and connected with the fixed mounting frame (1).

6. The building energy-saving solar photovoltaic panel as claimed in claim 5, wherein the turning member (42) comprises a rotating disc (421) and a cross bar (422) connecting the rotating discs (421) at two ends, and the rotating disc (421) is provided with a first rotating member (423) and a second rotating member (424) at two sides of the cross bar (422) which are centrosymmetric, respectively.

7. The building energy-saving solar photovoltaic panel as claimed in claim 6, wherein the other end of the first rotating member (423) is fixedly connected with the shielding framework (41), the other end of the second rotating member (424) is fixedly connected with the inner side of the lower end of the fixed mounting frame (1), a torsion spring (425) is sleeved outside the connection part of the first rotating member (423) and the second rotating member (424) with the rotating plate (421), and the shielding framework (41) can slowly rotate due to the traction effect of the torsion spring (425) and cannot suddenly fall under the action of gravity.

8. The building energy-saving solar photovoltaic panel as claimed in claim 7, wherein the other end of the shielding framework (41) is further provided with a protective sheet (43), the protective sheet (43) is C-shaped, and the common upper end of the fixed mounting frame (1), the sliding mounting frame (3) and the shielding mounting frame (4) is sealed by the protective sheet (43), so that the impact of rain, wind and snow is reduced to the maximum extent.

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