CN220628509U - Intelligent household power management equipment based on photovoltaic power generation - Google Patents

Abstract

The utility model discloses intelligent household power management equipment based on photovoltaic power generation, which relates to the field of photovoltaic equipment and comprises a photovoltaic power manager, wherein a plurality of wiring holes are formed in the photovoltaic power manager, connecting wires are arranged in the wiring holes, a fixing frame is fixedly arranged on one side of the photovoltaic power manager, a plurality of communication holes are formed in the fixing frame, the connecting wires are movably arranged in the communication holes, limiting blocks are fixedly arranged on the connecting wires, and the limiting blocks are in contact with the fixing frame. According to the photovoltaic power manager, through the arrangement of the structures such as the first movable baffle plate and the second movable baffle plate, the connecting wire can be clamped through the clamping grooves on the first movable baffle plate and the second movable baffle plate, and the limiting block on the connecting wire can be blocked, so that the connecting wire is prevented from falling out of the wiring hole due to ageing or loosening of screws, the stability of the connecting wire during connection is further improved, and the normal use of the photovoltaic power manager is ensured.

Description

Intelligent household power management equipment based on photovoltaic power generation

Technical Field

The utility model relates to the technical field of photovoltaic equipment, in particular to intelligent household power management equipment based on photovoltaic power generation.

Background

The photovoltaic power manager is automatic control equipment used in a solar power generation system and used for controlling a plurality of solar cell matrixes to charge a storage battery and the storage battery to supply power to a solar inverter load so as to supply power to intelligent households.

In the prior art, various circuits need to be connected when the photovoltaic power manager is installed, the screws need to be screwed up for fixing after the circuits are inserted into the interfaces of the photovoltaic power manager, but after long-term use, the circuits are easy to age or loose due to the fact that the screws are loose, the circuits fall off from the interfaces of the photovoltaic power manager, normal operation of the photovoltaic power manager is affected, and therefore intelligent household power management equipment based on photovoltaic power generation is needed to meet demands of people.

Disclosure of Invention

The utility model aims to provide intelligent household power management equipment based on photovoltaic power generation, which aims to solve the problems that the circuit connected with a photovoltaic power manager is easy to age or loose after long-term use, so that the circuit falls off from an interface of the photovoltaic power manager and the normal operation of the photovoltaic power manager is affected.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an intelligent house power management equipment based on photovoltaic power generation, includes photovoltaic power manager, be equipped with a plurality of wiring holes on the photovoltaic power manager, be equipped with the connecting wire in the wiring hole, one side fixed mounting of photovoltaic power manager has the mount, has seted up a plurality of intercommunicating pore on the mount, connecting wire movable mounting is in the intercommunicating pore, and fixed mounting has the stopper on the connecting wire, and the stopper contacts with the mount, installs a plurality of clamping structures on the mount, and the equal fixed mounting in both sides of mount has a plurality of link, installs same linkage structure on two link that are located same one side, installs the connecting block on the linkage structure, rotates on the connecting block and installs the loose axle, installs limit structure on the loose axle.

Preferably, the clamping structure comprises two connecting strips, the two connecting strips are respectively provided with a first movable baffle and a second movable baffle in a rotating mode, clamping grooves are formed in the first movable baffle and the second movable baffle, connecting lines are movably arranged in the two clamping grooves, and the first movable baffle and the second movable baffle are in contact with the limiting blocks.

Preferably, the connecting strips are provided with rotating holes, the rotating holes are internally provided with rotating shafts, and the rotating shafts are respectively and fixedly arranged on the first movable baffle plate and the second movable baffle plate.

Preferably, the linkage structure comprises a connecting shaft, the connecting shaft is rotatably arranged on two connecting frames, a winding drum is fixedly arranged on the connecting shaft, two linkage gears are fixedly arranged on the winding drum, two sides of a second movable baffle are fixedly provided with first driven gears, the two first driven gears are respectively meshed with the two linkage gears, one end of the connecting shaft is fixedly provided with a handle, a plurality of movable grooves are formed in the fixing frame, a linkage rack is slidably arranged in the movable grooves, one end of a soft belt is fixedly arranged at one side of the soft belt, the other end of the soft belt is fixedly arranged on the winding drum, two sides of the first driven gears are fixedly provided with second driven gears, the linkage rack is meshed with a corresponding second driven gear, one side of the linkage rack is fixedly provided with a connecting plate, two fixing rods are slidably arranged on the connecting plate, and the two fixing rods are fixedly arranged at one side of the fixing frame.

Preferably, the connecting shaft is sleeved with a spring in a sliding manner, two ends of the spring are respectively fixedly arranged on one side, close to the connecting plate, of the fixing frame, limiting sliding grooves are formed in the inner walls of two sides of the movable groove, limiting sliding strips are respectively and slidably arranged in the two limiting sliding grooves, and the two limiting sliding strips are respectively and fixedly arranged on two sides of the linkage rack.

Preferably, the connecting frame is provided with a movable hole, and the connecting shaft is rotatably arranged in the movable hole.

Preferably, the limit structure comprises a stop block, the stop block is fixedly arranged at one end of the movable shaft, the other end of the movable shaft is fixedly provided with a movable clamping plate, the connecting block is fixedly arranged at one side of the connecting plate, the two sides of the movable clamping plate are respectively fixedly provided with a push rod and an arc clamping strip, the bottom side of the photovoltaic power manager is fixedly provided with a fixed plate, an arc clamping groove is formed in the fixed plate, and the arc clamping strip is movably arranged in the arc clamping groove.

Preferably, the movable shaft is fixedly sleeved with a torsion spring, one end of the torsion spring is fixedly arranged on the inner wall of the connecting block, and the other end of the torsion spring is fixedly arranged on the movable shaft.

The beneficial effects of the utility model are as follows:

according to the photovoltaic power manager, through the arrangement of the structures such as the first movable baffle plate and the second movable baffle plate, the connecting wire can be clamped through the clamping grooves on the first movable baffle plate and the second movable baffle plate, and the limiting block on the connecting wire can be blocked, so that the connecting wire is prevented from falling out of the wiring hole due to ageing or loosening of screws, the stability of the connecting wire during connection is further improved, and the normal use of the photovoltaic power manager is ensured.

According to the utility model, through the arrangement of the winding drum, the linkage rack and other structures, when the connecting wire is required to be pulled out, the movable clamping plate is rotated to remove the limit on the connecting plate, then the winding drum is driven to rotate by the rotating handle, and the linkage rack can be pulled to move while the winding drum rotates, so that the first movable baffle and the second movable baffle can be turned over to open and remove the limit on the connecting wire, and then the connecting wire can be normally detached and pulled out, so that the connecting wire can be overhauled or replaced.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent household power management device based on photovoltaic power generation;

fig. 2 is a schematic side view structure of an intelligent household power management device based on photovoltaic power generation;

fig. 3 is a schematic diagram of a local structure of an intelligent home power management device based on photovoltaic power generation;

fig. 4 is a schematic structural diagram of a fixing frame part of an intelligent home power management device based on photovoltaic power generation;

fig. 5 is a schematic structural diagram of a portion a in fig. 4 of an intelligent home power management device based on photovoltaic power generation according to the present utility model;

fig. 6 is a schematic diagram of a cross-sectional structure of a connection strip part of a photovoltaic power generation-based intelligent home power management device according to the present utility model;

fig. 7 is a schematic diagram of a cross-sectional structure of a linked rack part of an intelligent household power management device based on photovoltaic power generation.

In the figure: 100. a photovoltaic power manager; 101. a wiring hole; 102. a connecting wire; 200. a fixing frame; 201. a communication hole; 202. a limiting block; 203. a connecting strip; 204. a first movable baffle; 205. a second movable baffle; 206. a clamping groove; 207. a rotation hole; 208. a rotating shaft; 300. a connecting frame; 301. a connecting shaft; 302. winding up a winding drum; 303. a linkage gear; 304. a first driven gear; 305. a movable groove; 306. a linkage rack; 307. connecting a soft belt; 308. a second driven gear; 309. a connecting plate; 310. a fixed rod; 311. a spring; 312. limiting the chute; 313. limiting the slide bar; 314. a movable hole; 315. a handle; 400. a connecting block; 401. a movable shaft; 402. a stop block; 403. a movable clamping plate; 404. a push rod; 405. arc-shaped clamping strips; 406. a fixing plate; 407. an arc-shaped clamping groove; 408. and (3) a torsion spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-7, an intelligent household power management device based on photovoltaic power generation comprises a photovoltaic power manager 100, wherein a plurality of wiring holes 101 are arranged on the photovoltaic power manager 100, a connecting wire 102 is arranged in the wiring holes 101, a fixing frame 200 is fixedly arranged on one side of the photovoltaic power manager 100, a plurality of communication holes 201 are arranged on the fixing frame 200, the connecting wire 102 is movably arranged in the communication holes 201, a limiting block 202 is fixedly arranged on the connecting wire 102, the limiting block 202 is contacted with the fixing frame 200, a plurality of clamping structures are arranged on the fixing frame 200, a plurality of connecting frames 300 are fixedly arranged on two sides of the fixing frame 200, the same linkage structure is arranged on two connecting frames 300 positioned on the same side, a connecting block 400 is arranged on the linkage structure, a movable shaft 401 is rotatably arranged on the connecting block 400, a limiting structure is arranged on the movable shaft 401, a push rod 404 can be pushed to drive a movable clamping plate 403 to turn over when the connecting wire 102 needs to be taken out, the rotating movable clamping plate 403 can drive the movable shaft 401 to rotate in the connecting block 400 to realize the overturning effect, the movable shaft 401 can be prevented from falling off by arranging the stop dog 402, the torsion spring 408 can be compressed when the movable shaft 401 rotates, the continuously rotating movable clamping plate 403 can drive the arc clamping strip 405 to be separated from the arc clamping groove 407 on the fixed plate 406, so that the limit on the connecting plate 309 can be removed, the handle 315 can be rotated at the moment, the connecting shaft 301 can be driven to rotate in the movable holes 314 on the two connecting frames 300 when the handle 315 rotates, the connecting shaft 301 is prevented from deflecting, the winding drum 302 can be driven to rotate when the connecting shaft 301 rotates, the rotating winding drum 302 can further drive the two linkage gears 303 to rotate, the continuously rotating linkage gears 303 can drive the second movable baffle 205 to rotate through the cooperation with the first driven gears 304, the rotating second movable baffle 205 drives the rotating shaft 208 to rotate in the rotating hole 207 on the connecting strip 203, the overturning effect is achieved, the continuously rotating second movable baffle 205 is far away from the first movable baffle 204, the continuously rotating winding drum 302 winds the connecting flexible belt 307, the connecting flexible belt 307 pulls the linkage rack 306 to slide in the movable groove 305, the sliding connecting flexible belt 307 drives the limiting slide bars 313 on two sides to slide in the two limiting slide grooves 312 respectively, the moving direction of the linkage rack 306 is further limited, the linkage rack 306 moves while driving the connecting plate 309 to move, the connecting plate 309 slides on the two fixing rods 310 and compresses the spring 311, the continuously sliding linkage rack 306 drives the second driven gear 308 to rotate through the meshing with the second driven gear 308, the rotating second driven gear 308 drives the first movable baffle 204 to overturn, the first movable baffle 204 and the second movable baffle 205 are further enabled to be far away from the second movable baffle 205, the first movable baffle 204 and the second movable baffle 205 are simultaneously overturned and are mutually far away from each other, the limiting block 102 is removed from the limiting block 102 when the first movable baffle 204 and the second movable baffle 205 are mutually far away from the limiting slide groove 102, and the limiting block 102 are removed.

Further, the clamping structure includes two connecting strips 203, the first movable baffle 204 and the second movable baffle 205 are rotatably installed on the two connecting strips 203 respectively, the clamping grooves 206 are formed in the first movable baffle 204 and the second movable baffle 205, the connecting line 102 is movably installed in the two clamping grooves 206, the first movable baffle 204 and the second movable baffle 205 are in contact with the limiting block 202, the rotating linkage gear 303 drives the second movable baffle 205 to rotate through the cooperation with the first driven gear 304, the rotating second movable baffle 205 drives the rotating shaft 208 to rotate in the rotating hole 207 on the connecting strip 203, the overturning effect is achieved, the continuously rotating second movable baffle 205 can be far away from the first movable baffle 204, the rotating second driven gear 308 can drive the first movable baffle 204 to overturn, the overturning first movable baffle 204 is far away from the second movable baffle 205, the first movable baffle 204 and the second movable baffle 205 can be enabled to simultaneously overturn and mutually far away, the first movable baffle 204 and the second movable baffle 205 can drive the clamping groove 206 to separate from the connecting line 202 and far away from the connecting line 102, and the limiting block 102 can be removed.

Further, the two connecting strips 203 are provided with rotating holes 207, the two rotating holes 207 are internally provided with rotating shafts 208 in a rotating manner, the two rotating shafts 208 are respectively and fixedly arranged on the first movable baffle 204 and the second movable baffle 205, and the rotating first movable baffle 204 and the second movable baffle 205 can respectively drive the rotating shafts 208 to rotate in the rotating holes 207 on the two connecting strips 203, so that the overturning effect is realized.

Further, the linkage structure comprises a connecting shaft 301, the connecting shaft 301 is rotatably installed on two connecting frames 300, a winding drum 302 is fixedly installed on the connecting shaft 301, two linkage gears 303 are fixedly installed on the winding drum 302, two sides of the second movable baffle 205 are fixedly installed with first driven gears 304, the two first driven gears 304 are respectively meshed with the two linkage gears 303, a handle 315 is fixedly installed at one end of the connecting shaft 301, a plurality of movable grooves 305 are formed on the fixing frame 200, a linkage rack 306 is slidably installed in the movable grooves 305, one side of a connecting soft belt 307 is fixedly installed at one end of the connecting soft belt 307, the other end of the connecting soft belt 307 is fixedly installed on the winding drum 302, two sides of the first driven gears 304 are fixedly installed with second driven gears 308, the linkage rack 306 is meshed with a corresponding second driven gear 308, one side of the linkage rack 306 is fixedly installed with a connecting plate 309, the two fixing rods 310 are slidably mounted on the connecting plate 309, the two fixing rods 310 are fixedly mounted on one side of the fixing frame 200, the handle 315 is rotated, when the handle 315 rotates, the connecting shaft 301 is driven to rotate in the movable holes 314 on the two connecting frames 300, the connecting shaft 301 is prevented from being deviated, the rotating winding drum 302 is driven to rotate while the connecting shaft 301 rotates, the rotating winding drum 302 drives the two linkage gears 303 to rotate, the continuously rotating linkage gears 303 drive the second movable baffle 205 to rotate through the cooperation with the first driven gears 304, the continuously rotating winding drum 302 winds the connecting soft belt 307, the connecting soft belt 307 pulls the linkage racks 306 to slide in the movable grooves 305, the sliding connecting soft belt 307 drives the limiting sliding strips 313 on two sides to slide in the two limiting sliding grooves 312 respectively, and further the moving direction of the linkage racks 306 is limited, the linkage rack 306 moves while driving the connecting plate 309 to move, so that the connecting plate 309 slides on the two fixing rods 310 and compresses the spring 311, the continuously sliding linkage rack 306 drives the second driven gear 308 to rotate through engagement with the second driven gear 308, and the rotating second driven gear 308 drives the first movable baffle 204 to turn over.

Further, the connecting shaft 301 is slidably sleeved with a spring 311, two ends of the spring 311 are respectively and fixedly installed on one side, close to the fixing frame 200 and the connecting plate 309, of each of two side inner walls of the movable groove 305 are respectively provided with a limiting sliding groove 312, limiting sliding strips 313 are respectively and fixedly installed on two sides of the linkage rack 306 in a sliding mode, the linkage rack 306 moves while driving the connecting plate 309 to move, and then the connecting plate 309 slides on the two fixing rods 310 and compresses the spring 311, and the sliding connecting soft belt 307 drives the limiting sliding strips 313 on two sides to slide in the two limiting sliding grooves 312 respectively, so that the moving direction of the linkage rack 306 is limited.

Further, the connecting frame 300 is provided with a movable hole 314, the connecting shaft 301 is rotatably mounted in the movable hole 314, and when the handle 315 rotates, the connecting shaft 301 is driven to rotate in the movable holes 314 on the two connecting frames 300, so as to avoid the connecting shaft 301 from shifting.

Further, limit structure includes dog 402, dog 402 fixed mounting is in the one end of loose axle 401, the other one end fixed mounting of loose axle 401 has movable clamping plate 403, connecting block 400 fixed mounting is in one side of connecting plate 309, movable clamping plate 403's both sides respectively fixed mounting have push rod 404 and arc card strip 405, photovoltaic power manager 100's bottom side fixed mounting has fixed plate 406, arc card slot 407 has been seted up on the fixed plate 406, arc card strip 405 movable mounting is in arc card slot 407, push rod 404 drives movable clamping plate 403 upset, pivoted movable clamping plate 403 can drive loose axle 401 and rotate in connecting block 400, realize the effect of upset, can prevent through setting up dog 402 that loose axle 401 from droing, can compress torsional spring 408 when loose axle 401 rotates, continuously pivoted movable clamping plate 403 can drive arc card strip 405 and break away from arc card slot 407 on the fixed plate 406, thereby can remove the restriction to connecting plate 309.

Further, the movable shaft 401 is fixedly sleeved with the torsion spring 408, one end of the torsion spring 408 is fixedly arranged on the inner wall of the connecting block 400, the other end of the torsion spring 408 is fixedly arranged on the movable shaft 401, the movable shaft 401 rotates and simultaneously compresses the torsion spring 408, the push rod 404 is loosened, and at the moment, the compressed torsion spring 408 can be released and drives the movable shaft 401 to rotate and reset.

The working principle of the utility model is as follows:

when the connecting wire 102 needs to be taken out, the push rod 404 can be pushed to drive the movable clamping plate 403 to turn over, the movable clamping plate 403 which rotates can drive the movable shaft 401 to rotate in the connecting block 400, the effect of turning over is realized, the movable shaft 401 can be prevented from falling off by arranging the stop dog 402, the torsion spring 408 can be compressed when the movable shaft 401 rotates, the continuously rotating movable clamping plate 403 can drive the arc clamping strip 405 to be separated from the arc clamping groove 407 on the fixed plate 406, thereby the limit on the connecting plate 309 can be relieved, the handle 315 can be rotated at the moment, the connecting shaft 301 can be driven to rotate in the movable holes 314 on the two connecting frames 300 when the handle 315 rotates, the connecting shaft 301 is prevented from deflecting, the connecting shaft 301 can be driven to rotate when rotating, the rotating collecting drum 302 can be driven to rotate, the rotating collecting drum 302 can drive the two linkage gears 303 to rotate, and the continuously rotating linkage gears 303 can drive the second movable baffle 205 to rotate through the cooperation with the first driven gear 304, the rotating second movable baffle 205 drives the rotating shaft 208 to rotate in the rotating hole 207 on the connecting bar 203, the overturning effect is realized, the continuously rotating second movable baffle 205 is far away from the first movable baffle 204, the continuously rotating winding drum 302 winds the connecting soft belt 307, the connecting soft belt 307 pulls the linkage rack 306 to slide in the movable groove 305, the sliding connecting soft belt 307 drives the limiting slide bars 313 on two sides to slide in the two limiting slide grooves 312 respectively, the moving direction of the linkage rack 306 is further limited, the linkage rack 306 is moved while the connecting plate 309 is driven to move, the connecting plate 309 slides on the two fixed bars 310 and compresses the spring 311, the continuously sliding linkage rack 306 drives the second driven gear 308 to rotate through the meshing with the second driven gear 308, the rotating second driven gear 308 drives the first movable baffle 204 to turn over, so that the turned first movable baffle 204 is far away from the second movable baffle 205, and further, the first movable baffle 204 and the second movable baffle 205 turn over simultaneously and far away from each other, the first movable baffle 204 and the second movable baffle 205 far away from each other drive the clamping groove 206 to separate from the connecting wire 102 and far away from the limiting block 202, thereby releasing the limitation on the connecting wire 102, at the moment, the connecting wire 102 can be taken out, the connecting wire 102 is reinserted into the connecting wire hole 101 when being installed, the limiting block 202 is contacted with the fixing frame 200 again, at the moment, the handle 315 is released, the spring 311 is not limited to push the connecting plate 309 to move and reset, the reset connecting plate 309 drives the linkage rack 306 to move and reset, and further, the reset linkage rack 306 drives the second driven gear 308 to turn over and reset, so that the first movable baffle 204 turns over and resets, and the reset linkage rack 306 pulls the connection soft belt 307 to move, because the connection soft belt 307 is wound on the winding drum 302 at the moment, the winding drum 302 rotates to reset while pulling the connection soft belt 307, the rotating reset winding drum 302 drives the second movable baffle 205 to turn over and reset through the cooperation of the linkage gear 303 and the first driven gear 304, the reset first movable baffle 204 and the second movable baffle 205 can drive the clamping groove 206 to clamp the connecting wire 102 again, the limiting block 202 is blocked, when the push rod 404 is released, the compressed torsion spring 408 releases and drives the movable shaft 401 to rotate and reset, the movable clamping plate 403 is driven to turn over by the rotating reset movable shaft 401, the movable clamping plate 403 drives the arc clamping strip 405 to slide into the arc clamping groove 407 on the fixed plate 406 again, the limitation of the connecting plate 309 is completed, the first movable baffle 204 and the second movable baffle 205 are prevented from loosening, and the fixing operation is completed.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides an intelligent house power management equipment based on photovoltaic power generation, includes photovoltaic power manager (100), be equipped with a plurality of wiring holes (101) on photovoltaic power manager (100), be equipped with connecting wire (102), its characterized in that in wiring hole (101): one side fixed mounting of photovoltaic power manager (100) has mount (200), a plurality of intercommunicating pore (201) have been seted up on mount (200), connecting wire (102) movable mounting is in intercommunicating pore (201), fixed mounting has stopper (202) on connecting wire (102), stopper (202) are contacted with mount (200), install a plurality of clamping structure on mount (200), a plurality of link (300) are all fixed mounting in both sides of mount (200), install same linkage structure on two link (300) that are located same one side, install connecting block (400) on the linkage structure, rotate on connecting block (400) and install loose axle (401), install limit structure on loose axle (401).

2. The intelligent household power management device based on photovoltaic power generation according to claim 1, wherein: the clamping structure comprises two connecting strips (203), a first movable baffle (204) and a second movable baffle (205) are respectively rotatably arranged on the two connecting strips (203), clamping grooves (206) are respectively formed in the first movable baffle (204) and the second movable baffle (205), connecting wires (102) are movably arranged in the two clamping grooves (206), and the first movable baffle (204) and the second movable baffle (205) are respectively in contact with the limiting blocks (202).

3. The intelligent household power management device based on photovoltaic power generation according to claim 2, wherein: the connecting strips (203) are provided with rotating holes (207), rotating shafts (208) are rotatably arranged in the two rotating holes (207), and the two rotating shafts (208) are respectively and fixedly arranged on the first movable baffle plate (204) and the second movable baffle plate (205).

4. The intelligent household power management device based on photovoltaic power generation according to claim 1, wherein: the linkage structure comprises a connecting shaft (301), the connecting shaft (301) is rotatably arranged on two connecting frames (300), a winding drum (302) is fixedly arranged on the connecting shaft (301), two linkage gears (303) are fixedly arranged on the winding drum (302), first driven gears (304) are fixedly arranged on two sides of a second movable baffle (205), the two first driven gears (304) are respectively meshed with the two linkage gears (303), a handle (315) is fixedly arranged at one end of the connecting shaft (301), a plurality of movable grooves (305) are formed in a fixing frame (200), a linkage rack (306) is slidably arranged in the movable grooves (305), one end of a connecting soft belt (307) is fixedly arranged at one side of the connecting soft belt (307), the other end of the connecting soft belt (307) is fixedly arranged on the winding drum (302), the two sides of the first driven gears (304) are fixedly provided with second driven gears (308), one side of the corresponding second driven gears (308) is fixedly arranged on the rack (306), one side of the corresponding second driven gears (309), and the two connecting plates (310) are fixedly arranged on one side of the connecting rods (310).

5. The intelligent household power management device based on photovoltaic power generation according to claim 4, wherein: the connecting shaft (301) is sleeved with a spring (311) in a sliding manner, two ends of the spring (311) are respectively and fixedly arranged on one side, close to the fixed frame (200) and the connecting plate (309), of the connecting plate, limiting sliding grooves (312) are formed in the inner walls of two sides of the movable groove (305), limiting sliding strips (313) are respectively and slidably arranged in the two limiting sliding grooves (312), and the two limiting sliding strips (313) are respectively and fixedly arranged on two sides of the linkage rack (306).

6. The intelligent household power management device based on photovoltaic power generation according to claim 1, wherein: the connecting frame (300) is provided with a movable hole (314), and the connecting shaft (301) is rotatably arranged in the movable hole (314).

7. The intelligent household power management device based on photovoltaic power generation according to claim 1, wherein: limit structure includes dog (402), dog (402) fixed mounting is in the one end of loose axle (401), and the other one end fixed mounting of loose axle (401) has movable cardboard (403), and connecting block (400) fixed mounting is in one side of connecting plate (309), and fixed mounting has push rod (404) and arc card strip (405) respectively in the both sides of movable cardboard (403), and the bottom side fixed mounting of photovoltaic power manager (100) has fixed plate (406), has seted up arc draw-in groove (407) on fixed plate (406), arc card strip (405) movable mounting in arc draw-in groove (407).

8. The intelligent household power management device based on photovoltaic power generation according to claim 1, wherein: the movable shaft (401) is fixedly sleeved with a torsion spring (408), one end of the torsion spring (408) is fixedly arranged on the inner wall of the connecting block (400), and the other end of the torsion spring (408) is fixedly arranged on the movable shaft (401).