CN218301300U - Electric power remote monitoring mechanism based on new forms of energy - Google Patents

Abstract

The utility model discloses an electric power remote monitoring mechanism based on new forms of energy, include: photovoltaic support, the top of photovoltaic support is rotated through the axle sleeve and is installed the regulation pivot, be fixed with photovoltaic power generation board through the mounting bracket in the regulation pivot, still include: the cross frame is horizontally fixed on the photovoltaic bracket, and the cross frame is provided with a monitoring assembly in a sliding manner; the control subassembly includes the cover frame, the cover frame slides and sets up on the crossbearer, and the cover frame slides and cup joints in adjusting the pivot, the helicla flute has been seted up in the regulation pivot, the inboard of cover frame is fixed with the convex part, and the convex part slides and inlays and establish in the helicla flute, the utility model discloses in when adjusting the pivot and rotate the photovoltaic power generation board that drives installation above that and rotate the regulation, the epaxial helicla flute cooperation convex part of regulation cover frame slides on the crossbearer, when adjusting the pivot and rotating the maximum angle, on the cover frame butt press the switch on the crossbearer this moment, realizes cutting off motor drive assembly's power.

Description

Electric power remote monitoring mechanism based on new forms of energy

Technical Field

The utility model relates to a remote monitoring technical field especially relates to an electric power remote monitoring mechanism based on new forms of energy.

Background

The photovoltaic power generation system mainly comprises a solar panel, a controller and an inverter, wherein the illumination angle of the sun changes all the time, and if the solar panel can face the sun all the time, the power generation efficiency can reach the optimal state, so that the solar panel in the photovoltaic power generation system is mostly installed in a rotating mode, and a driving motor is arranged to adjust the angle of the solar panel according to the illumination angle of the sun, so that the sun can be tracked and the total power generation capacity can be improved. The electric power remote monitoring mechanism based on new energy is a device for remotely monitoring the angle adjustment of the solar cell panel.

At present, the mode of carrying out remote monitoring to solar cell panel's angle modulation is mostly the information that directly adopts angle sensor to realize the angle modulation to solar cell panel to gather the transmission, and control driving motor based on the information of gathering, but when angle sensor breaks down, driving motor can't stop according to angle sensor feedback information this moment, still keeps driving solar cell panel to rotate, thereby leads to the too big trouble that breaks down of solar cell panel turned angle.

SUMMERY OF THE UTILITY MODEL

The invention aims to provide an electric power remote monitoring mechanism based on new energy, and aims to overcome the defects in the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a remote electric power monitoring mechanism based on new energy comprises: photovoltaic support, the top of photovoltaic support is rotated through the axle sleeve and is installed the regulation pivot, be fixed with photovoltaic power generation board through the mounting bracket in the regulation pivot, still include: the cross frame is horizontally fixed on the photovoltaic bracket, and the cross frame is provided with a monitoring assembly in a sliding manner; the monitoring assembly comprises a sleeve frame, the sleeve frame is arranged on a cross frame in a sliding mode, the sleeve frame is sleeved on an adjusting rotating shaft in a sliding mode, a spiral groove is formed in the adjusting rotating shaft, a convex portion is fixed on the inner side of the sleeve frame, the convex portion is embedded in the spiral groove in a sliding mode, and press switches are arranged on two sides, located on the cross frame, of the sleeve frame.

As a further description of the above technical solution:

and the motor driving assembly is mounted on the transverse frame and is in transmission connection with the adjusting rotating shaft so as to drive the adjusting rotating shaft to rotate.

As a further description of the above technical solution:

the bottom of crossbearer is provided with the controller, and the controller output is connected with motor drive assembly input.

As a further description of the above technical solution:

the cross frame is provided with a guide rail groove along the length direction, and the bottom of the sleeve frame is embedded in the guide rail groove in a sliding manner.

As a further description of the above technical solution:

the push switch is connected in series in a power supply loop of the motor driving component.

As a further description of the above technical solution:

and a displacement sensor is arranged in the sleeve frame, and the output end of the displacement sensor is electrically connected with the input end of the controller.

The utility model provides an electric power remote monitoring mechanism based on new forms of energy possesses following beneficial effect:

this electric power remote monitoring mechanism based on new forms of energy, when adjusting the pivot and rotate the photovoltaic power generation board that drives installation on it and rotate the regulation, the epaxial helicla flute cooperation convex part drive stock of regulation commentaries on classics slides on the crossbearer, when adjusting the pivot and rotate the maximum angle, stock butt is on the press switch on the crossbearer this moment, thereby realize cutting off motor drive assembly's power, prevent that motor drive assembly can't stop according to angle sensor feedback information, still keep driving solar cell panel to rotate, thereby lead to the too big trouble that appears of solar cell panel turned angle.

Drawings

Fig. 1 is a schematic front structural view of an electric power remote monitoring mechanism based on new energy provided by the present invention;

fig. 2 is a schematic back structural view of an electric power remote monitoring mechanism based on new energy according to the present invention;

fig. 3 is a schematic structural diagram of the middle monitoring assembly of the present invention.

Illustration of the drawings:

1. a photovoltaic support; 11. a shaft sleeve; 2. adjusting the rotating shaft; 20. a mounting frame; 21. a helical groove; 3. a photovoltaic power generation panel; 4. a cross frame; 41. a guide rail groove; 42. a controller; 5. a motor drive assembly; 6. a monitoring component; 61. sleeving a frame; 62. a convex portion; 63. a displacement sensor; 7. the switch is pressed.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1 to 3, a new energy-based electric power remote monitoring facility includes: photovoltaic support 1, photovoltaic support 1's top is rotated through axle sleeve 11 and is installed and adjust pivot 2, adjusts and is fixed with photovoltaic power generation board 3 through mounting bracket 20 in the pivot 2, and wherein, the both ends of adjusting pivot 2 all are fixed with mounting bracket 20, are fixed with photovoltaic power generation board 3 between two mounting brackets 20, still include: the transverse frame 4 is horizontally fixed on the photovoltaic support 1, and the monitoring assembly 6 is arranged on the transverse frame 4 in a sliding manner; the monitoring assembly 6 comprises a sleeve frame 61, the sleeve frame 61 is arranged on the cross frame 4 in a sliding mode, a guide rail groove 41 is formed in the length direction of the cross frame 4, the bottom of the sleeve frame 61 is embedded in the guide rail groove 41 in a sliding mode, the sleeve frame 61 is connected to the adjusting rotating shaft 2 in a sliding mode in a sleeved mode, a spiral groove 21 is formed in the adjusting rotating shaft 2, a convex portion 62 is fixed to the inner side of the sleeve frame 61, and the convex portion 62 is embedded in the spiral groove 21 in a sliding mode; both sides that lie in cover frame 61 on crossbearer 4 set up push switch 7, install motor drive assembly 5 on crossbearer 4, motor drive assembly 5 is connected with 2 transmissions of regulation pivot and rotates with drive regulation pivot 2, wherein, motor drive assembly 5 includes driving motor and gear box, the gear box cup joints on regulation pivot 2, the inside kernel of gear box rotates and is provided with two bevel gears, one of them bevel gear is fixed to be cup jointed on regulation pivot 2, driving motor fixes the outside at the gear box, and the driving motor output shaft passes through the reduction gear and is connected with another bevel gear transmission, push switch 7 establishes ties in motor drive assembly 5's power supply circuit. When the solar cell panel adjusting device is used, the adjusting rotating shaft 2 is driven to rotate through the motor driving component 5, the photovoltaic power generation panel 3 mounted on the adjusting rotating shaft is driven to rotate through the adjusting rotating shaft 2, the angle of the photovoltaic power generation panel 3 is adjusted, meanwhile, when the adjusting rotating shaft 2 rotates, the spiral groove 21 on the adjusting rotating shaft 2 is matched with the convex part 62 to drive the sleeve frame 61 to slide on the cross frame 4, the stroke between the two press switches 7 corresponds to the spiral groove 21, an included angle between two ends of a stroke corresponding section between the spiral groove 21 and the two press switches 7 relative to the central axis of the adjusting rotating shaft 2 is the maximum angle of rotation of the adjusting rotating shaft 2, namely, when the adjusting rotating shaft 2 rotates to the maximum angle, the sleeve frame 61 is driven to abut against the press switches 7 on the cross frame 4, the press switches 7 are connected in series in a power supply loop of the motor driving component 5, the power supply of the motor driving component 5 is cut off, the driving motor is prevented from stopping according to angle sensor feedback information, the solar cell panel is kept from rotating, and the solar cell panel is prevented from rotating due to the fact that the solar cell panel is in a fault occurs due to an overlarge rotation angle.

The bottom of crossbearer 4 is provided with controller 42, and controller 42 output is connected with the 5 inputs of motor drive subassembly, still be provided with wireless communication module in the controller 42 and be connected with remote monitoring terminal, it is optional, controller 42 is the plc controller, remote monitoring terminal is the computer, remote monitoring terminal calculates the angle information that photovoltaic power generation board 3 needs the regulation and generates control signal and transmits to controller 42 through wireless communication module remote communication according to the illumination angle of sun, controller 42 received signal control drive regulation pivot 2 rotates, drive photovoltaic power generation board 3 of installation on it through adjusting pivot 2 and rotate, the realization is adjusted the angle of photovoltaic power generation board 3.

The displacement sensor 63 is installed in the housing 61, and an output end of the displacement sensor 63 is electrically connected to an input end of the controller 42. Further, controller 42 receives signal control drive regulation pivot 2 and rotates, drive photovoltaic power generation board 3 of installation on it through adjusting pivot 2 and rotate, the realization is adjusted photovoltaic power generation board 3's angle, when adjusting pivot 2 and rotate this moment, spiral groove 21 cooperation convex part 62 on it drives stock 61 and slides on crossbearer 4, displacement sensor 63 in stock 61 gathers the distance information transmission to controller 42 of the removal of stock 61, controller 42 corresponds spiral groove 21 according to linear distance information and in order to calculate the angle information of adjusting pivot 2, thereby realize monitoring adjusting pivot 2 pivoted angle information.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A remote electric power monitoring mechanism based on new energy comprises: photovoltaic support (1), the top of photovoltaic support (1) is rotated through axle sleeve (11) and is installed regulation pivot (2), be fixed with photovoltaic power generation board (3) through mounting bracket (20) on regulation pivot (2), its characterized in that still includes:

the cross frame (4) is horizontally fixed on the photovoltaic support (1), and the cross frame (4) is provided with a monitoring assembly (6) in a sliding manner;

the monitoring assembly (6) comprises a sleeve frame (61), the sleeve frame (61) is arranged on the transverse frame (4) in a sliding mode, the sleeve frame (61) is sleeved on the adjusting rotating shaft (2) in a sliding mode, a spiral groove (21) is formed in the adjusting rotating shaft (2), a convex portion (62) is fixed on the inner side of the sleeve frame (61), and the convex portion (62) is embedded in the spiral groove (21) in a sliding mode;

and press switches (7) are arranged on the transverse frame (4) and positioned at two sides of the sleeve frame (61).

2. The remote electric power monitoring mechanism based on new energy resources is characterized in that a motor driving component (5) is mounted on the cross frame (4), and the motor driving component (5) is in transmission connection with the adjusting rotating shaft (2) to drive the adjusting rotating shaft (2) to rotate.

3. The remote electric power monitoring mechanism based on new energy resources is characterized in that a controller (42) is arranged at the bottom of the cross frame (4), and the output end of the controller (42) is connected with the input end of the motor driving assembly (5).

4. The remote electric power monitoring mechanism based on new energy resources as claimed in claim 3, wherein the cross frame (4) is provided with a guide rail groove (41) along the length direction thereof, and the bottom of the sleeve frame (61) is slidably embedded in the guide rail groove (41).

5. A new energy based electric power remote monitoring mechanism according to claim 2, characterized in that said push switch (7) is connected in series in the power supply circuit of said motor drive assembly (5).

6. The remote monitoring mechanism for electric power based on new energy according to claim 3, characterized in that a displacement sensor (63) is installed in the sleeve frame (61), and an output end of the displacement sensor (63) is electrically connected with an input end of the controller (42).

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