CN215734157U - Multi-energy complementary energy-saving control equipment - Google Patents

Abstract

The utility model belongs to the technical field of energy-saving control, and particularly relates to a multi-energy complementary energy-saving control device which aims at the problem that a solar panel in the existing device is fixedly arranged on the side surface, the received solar illumination is limited, and the conversion of solar energy cannot be met to the maximum extent. The solar panel is convenient to use, can rotate and incline along with the direction of the sun, and can meet the requirement of conversion of solar energy to the maximum extent.

Description

Multi-energy complementary energy-saving control equipment

Technical Field

The utility model relates to the technical field of energy-saving control, in particular to a multi-energy complementary energy-saving control device.

Background

In energy development and utilization, a multi-energy complementary system is an expansion of traditional distributed energy application, and is an imaging of an integrated integration concept in the field of energy system engineering, so that the application of distributed energy is expanded from points to surfaces and is locally moved to the system, for example, a public (bulletin) number: CN 213646046U's patent document provides a complementary energy-saving control equipment of multipotency, the power distribution box comprises a box body, the fixed base that is provided with support ground in bottom half, box inner chamber center vertically is provided with the baffle, and the baffle cuts apart into the water storage chamber with box inner chamber, place the chamber, the box upper end is provided with the water inlet in intercommunication water storage chamber, it is equipped with battery and controller mainboard to place the intracavity, the box front and back all is provided with solar panel, there is the wind-force generating fan box upper end through the support mounting, the chamber butt joint is provided with the access door to the box intercommunication is placed, the outside that the box is located the water storage chamber is provided with the delivery port in switch board and intercommunication water storage chamber. According to the utility model, the box body is erected on the roof of the building, the solar energy and wind power generation fans outside the box body are used for new energy, the water inlet at the upper end of the box body is matched with the water storage cavity for rainwater recycling, the electric energy converted by the storage battery can be supplied to the device and the building, the integral utilization efficiency of the whole energy is greatly increased, and the practical effect is better.

The solar panel in the existing equipment is fixedly arranged on the side, the received solar illumination is limited, and the conversion of solar energy cannot be met to the maximum extent.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects that in the existing equipment, a solar panel is fixedly arranged on the side surface, the received solar illumination is limited, and the solar energy conversion cannot be met to the maximum extent, and provides the multifunctional complementary energy-saving control equipment.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a complementary energy-saving control equipment of multipotency, the power distribution box comprises a box body, the switch board, aerogenerator and solar panel, the backup pad is installed in the left side of box, servo motor is installed at the top of backup pad, the top of backup pad is rotated and is installed the column spinner, the column spinner is connected with servo motor's output shaft transmission, a fixed plate is installed at the top of column spinner, the top fixed mounting of fixed plate has the mounting panel, solar panel's bottom is rotated with the top of mounting panel and is connected, the outside fixed mounting of column spinner has the welding rod, be provided with link gear on the welding rod, the last cam that is connected with of link gear, the eccentric position of cam rotates and installs the lantern ring, the outside of the lantern ring is connected with wire rope's one end, wire rope's the other end links to each other with solar panel's bottom.

Preferably, belt pulleys are fixedly mounted at the output shaft of the servo motor and the bottom of the rotary column, and the outer sides of the two belt pulleys are in transmission connection with the same belt.

Preferably, link gear includes the riser, rotates on the riser and installs passive pole and speed reduction bar, and passive gear is installed in the left side of passive pole, and the ring gear is installed at the top of backup pad, and passive gear meshes with the ring gear mutually, and the pinion is installed on the right side of passive pole, and the outside cover of speed reduction bar is equipped with the gear wheel, and the pinion meshes with the gear wheel mutually, and the speed reduction bar links to each other with the cam.

Preferably, the arc pole is installed to solar panel's bottom, arc pole and mounting panel sliding connection, and the outside cover of arc pole is equipped with the spring, and the one end and the mounting panel of spring link to each other, and the other end and the solar panel of spring link to each other.

Compared with the prior art, the utility model has the advantages that:

according to the scheme, the servo motor drives the rotary column to rotate through the two belt pulleys and the belt, the rotary column drives the fixed plate and the welding rod to do annular motion, and the fixed plate drives the solar panel to follow in the direction of rotation of the solar panel through the mounting plate;

according to the scheme, the passive gear is driven by the welding rod, the vertical plate and the passive rod to rotate on the gear ring, the passive gear drives the cam to rotate slowly through the passive rod, the small gear, the large gear and the speed reducing rod, the steel wire rope is pulled by the lantern ring when the cam rotates, and the steel wire rope pulls the solar panel to incline towards the rising direction of the sun; the solar panel can rotate and incline along with the direction of the sun, and the conversion of solar energy can be met to the maximum extent;

the solar panel is convenient to use, can rotate and incline along with the direction of the sun, and can meet the requirement of conversion of solar energy to the maximum extent.

Drawings

Fig. 1 is a schematic structural diagram of a multi-energy complementary energy-saving control device provided by the utility model;

FIG. 2 is a side sectional view of FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a top connection view of the ring gear and the driven gear set forth in fig. 2.

In the figure: 1. a box body; 2. a control cabinet; 3. a wind power generator; 4. a solar panel; 5. a support plate; 6. a servo motor; 7. a belt; 8. a wire rope; 9. a spin column; 10. a fixing plate; 11. mounting a plate; 12. an arcuate bar; 13. a spring; 14. welding a rod; 15. a vertical plate; 16. a passive rod; 17. a driven gear; 18. a toothed ring; 19. a speed reduction lever; 20. a bull gear; 21. a pinion gear; 22. a cam; 23. a pulley.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-4, the energy-saving control device with multiple energy complementation comprises a box body 1 and a control cabinet 2, aerogenerator 3 and solar panel 4, backup pad 5 is installed in the left side of box 1, servo motor 6 is installed at the top of backup pad 5, the top of backup pad 5 is rotated and is installed column spinner 9, column spinner 9 is connected with servo motor 6's output shaft transmission, a fixed plate 10 is installed at the top of column spinner 9, the top fixed mounting of fixed plate 10 has mounting panel 11, solar panel 4's bottom is rotated with mounting panel 11's top and is connected, column spinner 9's outside fixed mounting has welding rod 14, be provided with link gear on the welding rod 14, be connected with cam 22 on the link gear, the lantern ring is installed in cam 22's eccentric position rotation, the outside of the lantern ring is connected with wire rope 8's one end, wire rope 8's the other end links to each other with solar panel 4's bottom.

In this embodiment, the equal fixed mounting in output shaft of servo motor 6 and the bottom of column spinner 9 has belt pulley 23, and the outside transmission of two belt pulleys 23 is connected with same belt 7, and servo motor 6 drives the column spinner 9 rotatory through two belt pulleys 23 and belt 7.

In this embodiment, the link gear includes the riser 15, driven pole 16 and speed reduction pole 19 are installed in the rotation on riser 15, driven gear 17 is installed on the left side of driven pole 16, ring gear 18 is installed at the top of backup pad 5, driven gear 17 meshes with ring gear 18 mutually, pinion 21 is installed on the right side of driven pole 16, the outside cover of speed reduction pole 19 is equipped with gear wheel 20, pinion 21 meshes with gear wheel 20 mutually, speed reduction pole 19 links to each other with cam 22, the diameter of gear wheel 20 is greater than the diameter of pinion 21, the diameter of gear wheel 20 and pinion 21 can adjust the setting by oneself.

In this embodiment, arc pole 12 is installed to solar panel 4's bottom, arc pole 12 and 11 sliding connection of mounting panel, and the outside cover of arc pole 12 is equipped with spring 13, and spring 13's one end links to each other with mounting panel 11, and spring 13's the other end links to each other with solar panel 4, and spring 13 provides elasticity that resets for solar panel 4.

In the embodiment, when the solar photovoltaic power generation device is used, solar energy is received by the solar panel 4 to convert light energy into electric energy for storage, initially, the solar panel 4 inclines towards the rising direction of the sun, the sun rises and rotates along with the passage of time, at the moment, the servo motor 6 is started and controlled, the servo motor 6 drives the rotary column 9 to rotate through the two belt pulleys 23 and the belt 7, the rotary column 9 drives the fixed plate 10 and the welding rod 14 to do annular motion, the fixed plate 10 drives the solar panel 4 to follow towards the rotating direction of the solar panel 4 through the mounting plate 11, meanwhile, the welding rod 14 drives the driven rod 16 to do annular motion through the vertical plate 15, the driven rod 16 drives the driven gear 17 to rotate on the toothed ring 18, the driven gear 17 drives the pinion 21 to rotate through the driven rod 16, the pinion 21 drives the bull gear 20 to rotate, the bull gear 20 drives the cam 22 to slowly rotate through the deceleration rod 19, and the cam 22 pulls the steel wire rope 8 through the lantern ring when the cam 22 rotates, the direction that wire rope 8 pulling solar panel 4 rose towards the sun inclines, until noon, cam 22's protruding position moves to the below, solar panel 4's the incline direction is close to parallel this moment, leave along with noon, the sun continues to rotate and descends, solar panel 4 rotates along with the sun, cam 22's protruding position shifts up gradually simultaneously, under the spring action of spring 13, solar panel 4 enlarges along with the direction inclination that the sun descends gradually, until the sun falls completely, cam 22's protruding position resets again, servo motor 6 control solar panel 4 resets this moment can.

Example two

Referring to fig. 1-4, the energy-saving control device with multiple energy complementation comprises a box body 1 and a control cabinet 2, aerogenerator 3 and solar panel 4, backup pad 5 is installed in the left side of box 1, servo motor 6 is installed at the top of backup pad 5, the top of backup pad 5 is rotated and is installed column spinner 9, column spinner 9 is connected with servo motor 6's output shaft transmission, a fixed plate 10 is installed at the top of column spinner 9, the top fixed mounting of fixed plate 10 has mounting panel 11, solar panel 4's bottom is rotated with mounting panel 11's top and is connected, column spinner 9's outside fixed mounting has welding rod 14, be provided with link gear on the welding rod 14, be connected with cam 22 on the link gear, the lantern ring is installed in cam 22's eccentric position rotation, the outside of the lantern ring is connected with wire rope 8's one end, wire rope 8's the other end links to each other with solar panel 4's bottom.

In this embodiment, the equal fixed mounting in output shaft of servo motor 6 and the bottom of column spinner 9 has belt pulley 23, and the outside transmission of two belt pulleys 23 is connected with same belt 7, and servo motor 6 drives the column spinner 9 rotatory through two belt pulleys 23 and belt 7.

In this embodiment, the linkage mechanism includes the riser 15, and driven pole 16 and speed reduction pole 19 are installed in the rotation on riser 15, and driven gear 17 is installed on the left side of driven pole 16, and the ring gear 18 is installed at the top of backup pad 5, and driven gear 17 meshes with ring gear 18 mutually, and pinion 21 is installed on the right side of driven pole 16, and the outside cover of speed reduction pole 19 is equipped with gear wheel 20, and pinion 21 meshes with gear wheel 20 mutually, and speed reduction pole 19 links to each other with cam 22, and the diameter of gear wheel 20 is greater than the diameter of pinion 21.

In this embodiment, arc pole 12 is installed to solar panel 4's bottom, arc pole 12 and 11 sliding connection of mounting panel, and the outside cover of arc pole 12 is equipped with spring 13, and spring 13's one end links to each other with mounting panel 11, and spring 13's the other end links to each other with solar panel 4, and spring 13 provides elasticity that resets for solar panel 4.

In this embodiment, a waterproof case is installed on the top of the supporting plate 5, and the servo motor 6 is located in the waterproof case.

The difference between the second embodiment and the first embodiment is that: the waterproof case that sets up can carry out water proof to servo motor 6, and all structures in this application all can carry out the selection of material and length according to the in-service use condition, and the drawing is the schematic structure picture, and suitable adjustment can be made to specific actual size.

The above descriptions are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to, replaced or changed.

Claims (5)

1. A multi-energy complementary energy-saving control device comprises a box body (1), a control cabinet (2), a wind driven generator (3) and a solar panel (4), and is characterized in that a supporting plate (5) is installed on the left side of the box body (1), a servo motor (6) is installed at the top of the supporting plate (5), a rotary column (9) is installed at the top of the supporting plate (5) in a rotating mode, the rotary column (9) is in transmission connection with an output shaft of the servo motor (6), a fixing plate (10) is installed at the top of the rotary column (9), and a mounting plate (11) is fixedly installed at the top of the fixing plate (10);

the bottom of solar panel (4) is rotated with the top of mounting panel (11) and is connected, and the outside fixed mounting of column spinner (9) has welding rod (14), is provided with link gear on welding rod (14), is connected with cam (22) on the link gear, and the lantern ring is installed in the eccentric position rotation of cam (22), and the outside of lantern ring is connected with the one end of wire rope (8), and the other end of wire rope (8) links to each other with the bottom of solar panel (4).

2. The energy-saving control device with multiple energy complementation according to claim 1, characterized in that the output shaft of the servo motor (6) and the bottom of the rotating column (9) are both fixedly provided with belt pulleys (23), and the outer sides of the two belt pulleys (23) are in transmission connection with the same belt (7).

3. The multi-energy complementary energy-saving control device according to claim 1, wherein the linkage mechanism comprises a vertical plate (15), a driven rod (16) and a speed reducing rod (19) are rotatably mounted on the vertical plate (15), a driven gear (17) is mounted on the left side of the driven rod (16), a toothed ring (18) is mounted on the top of the support plate (5), and the driven gear (17) is meshed with the toothed ring (18).

4. A multi-energy complementary energy-saving control device according to claim 3, characterized in that a small gear (21) is arranged at the right side of the driven rod (16), a big gear (20) is sleeved at the outer side of the deceleration rod (19), the small gear (21) is meshed with the big gear (20), and the deceleration rod (19) is connected with the cam (22).

5. The energy-saving control equipment with multiple energy complementation according to claim 1, characterized in that the bottom of the solar panel (4) is provided with an arc-shaped rod (12), the arc-shaped rod (12) is slidably connected with the mounting plate (11), the outer side of the arc-shaped rod (12) is sleeved with a spring (13), one end of the spring (13) is connected with the mounting plate (11), and the other end of the spring (13) is connected with the solar panel (4).

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